Ford Mondeo
Service and Repair Manual
Jeremy Churchill and A K Legg
LAE MIMI
Models covered
All Ford Mondeo models with four-cylinder petrol engines,
including special/limited editions
1597 cc, 1796 cc and 1988 cc
(1923-304-10X3)
Does not cover Diesel or V6 engines, or four-wheel-drive models
© Haynes Publishing 1996
A book in the Haynes Service and Repair Manual Series
All rights reserved. No part of this book may be reproduced or transmitted
in any form or by any means, electronic or mechanical, including
photocopying, recording or by any information storage or retrieval system,
without permission in writing from the copyright holder.
ISBN 1 85960 167 7
British Library Cataloguing in Publication Data
A catalogue record for this book is available from the British Library.
Printed by J H Haynes & Co. Ltd, Sparkford, Nr Yeovil,
Somerset BA22 7JJ
Haynes Publishing
Sparkford, Nr Yeovil, Somerset BA22 7JJ, England
Haynes North America, Inc
861 Lawrence Drive, Newbury Park, California 91320, USA
Editions Haynes S.A.
147/149, rue Saint Honoré, 75001 PARIS, France
Contents
LIVING WITH YOUR FORD MONDEO
Introduction
Page
0•4
Safety First!
Page
0•5
General dimensions and weights
Page
0•6
Page
0•7
Checks carried out with the vehicle on the ground
Page
0•8
Checks carried out with the vehicle raised
Page
0•9
Checks carried out on your vehicle’s exhaust emission system
Page
0•10
Jacking, towing and wheel changing
Page
0•11
Booster battery (jump) starting
Page
0•12
Identifying leaks
Page
0•13
Conversion factors
Page
0•14
Routine maintenance and servicing
Page
1•1
Lubricants, fluids and capacities
Page
1•2
Maintenance schedule
Page
1•3
Weekly checks
Page
1•6
Every 10 000 miles or 12 months
Page
1•11
Every 20 000 miles or 2 years
Page
1•20
Every 30 000 miles or 3 years
Page
1•22
Every 60 000 miles
Page
1•26
Every 3 years
Page
1•26
MOT Test Checks
Checks carried out from the driver’s seat
Roadside Repairs
Routine Maintenance
Contents
REPAIRS & OVERHAUL
Engine and Associated Systems
In-car engine repair procedures
Page 2A•1
Engine removal and general engine overhaul procedures
Page 2B•1
Cooling, heating and air conditioning systems
Page
3•1
Fuel and exhaust systems
Page
4•1
Engine electrical systems
Page
5•1
Emissions control systems
Page
6•1
Transmission
Manual transmission
Page 7A•1
Automatic transmission
Page 7B•1
Clutch and driveshafts
Page
8•1
Page
9•1
Page
10•1
Page
11•1
Body electrical systems
Page
12•1
Wiring Diagrams
Page 12•24
Brakes
Braking system
Suspension
Suspension and steering systems
Body Equipment
Bodywork and fittings
Electrical
REFERENCE
Tools and Working Facilities
Page REF• 1
General Repair Procedures
Page REF• 4
Buying spare parts and vehicle identification numbers
Page REF• 5
Fault Finding
Page REF• 6
Glossary of Technical Terms
Page REF•13
Index
Page REF•17
0•4
Introduction
Introduction to the Ford Mondeo
Introduced in March 1993, the Ford
Mondeo models are available in four-door
Saloon, five-door Hatchback and five-door
Estate configurations. All feature a high
standard of equipment, with driver/passenger
safety in accidents being a particularly high
design priority; all models are fitted with
features such as side impact bars in all doors,
“anti-submarine” seats combined with “seat
belt grabbers” and pre-tensioners, and an
airbag fitted to the steering wheel. Vehicle
security is enhanced, with an in-built alarm
system and engine immobiliser being fitted as
standard, as well as double-locking doors
with shielded locks, and security-coded audio
equipment.
The four-cylinder petrol engine is a new
design, available in 1.6, 1.8 and 2.0 litre
Ford Mondeo 2.0 Ghia Saloon
capacities. It is controlled by a sophisticated
engine management system, which combines
multi-point sequential fuel injection and
distributorless
ignition
systems
with
evaporative emissions control, exhaust gas
recirculation and a three-way regulated
catalytic converter (with a pulse-air system for
rapid warm-up) to ensure that the vehicle
complies with the most stringent of the
emissions control standards currently in force,
and yet provides the levels of performance
and fuel economy expected.
The transversely-mounted engine drives
the front roadwheels through either a fivespeed manual transmission with a cableoperated clutch, or through an electronicallycontrolled four-speed automatic transmission.
The fully-independent suspension is by
MacPherson strut on all four roadwheels,
located by transverse lower arms at the front,
and by transverse and trailing arms at the rear;
anti-roll bars are fitted at front and rear. The
Estate rear suspension is of a different design,
to give maximum loadspace inside the
vehicle, with self-levelling suspension units
available as an option. On some models, the
suspension
is
electronically-controlled
through the Adaptive Damping System.
The steering is power-assisted, the pump
being belt-driven from the engine, and the
rack-and-pinion steering gear mounted
behind the engine.
The vacuum servo-assisted brakes are disc
at the front, with drums at the rear on most
models; disc rear brakes and an
electronically-controlled Anti-lock Braking
System (ABS) are available on some models,
with a Traction Control System (TCS) available
as a further option where ABS is fitted.
Acknowledgements
Thanks are due to Champion Spark Plug,
who supplied the illustrations showing spark
plug conditions. Certain other illustrations are
the copyright of the Ford Motor Company,
and are used with their permission. Thanks
are also due to Sykes-Pickavant Limited, who
provided some of the workshop tools, and to
all those people at Sparkford who helped in
the production of this manual.
Project vehicles
The main project vehicle used in the
preparation of this manual, and appearing in
many of the photographic sequences, was a
1993-model Ford Mondeo 2.0 Si Hatchback.
Additional work was carried out and
photographed on a 1993-model 2.0 Si Saloon
and a 1993-model 2.0 Ghia Estate (with
automatic transmission).
Ford Mondeo 1.8 GLX Estate
Safety First!
Working on your car can be dangerous.
This page shows just some of the potential
risks and hazards, with the aim of creating a
safety-conscious attitude.
General hazards
Scalding
• Don’t remove the radiator or expansion
tank cap while the engine is hot.
• Engine oil, automatic transmission fluid or
power steering fluid may also be dangerously
hot if the engine has recently been running.
Burning
• Beware of burns from the exhaust system
and from any part of the engine. Brake discs
and drums can also be extremely hot
immediately after use.
Crushing
• When working under or near
a raised vehicle, always
supplement the
jack with axle
stands, or use
drive-on ramps.
Never venture
under a car
which is only
supported by
a jack.
• Take care if loosening or tightening hightorque nuts when the vehicle is on stands.
Initial loosening and final tightening should
be done with the wheels on the ground.
Fire
• Fuel is highly flammable; fuel vapour is
explosive.
• Don’t let fuel spill onto a hot engine.
• Do not smoke or allow naked lights
(including pilot lights) anywhere near a
vehicle being worked on. Also beware of
creating sparks
(electrically or by use of tools).
• Fuel vapour is heavier than air, so don’t
work on the fuel system with the vehicle over
an inspection pit.
• Another cause of fire is an electrical
overload or short-circuit. Take care when
repairing or modifying the vehicle wiring.
• Keep a fire extinguisher handy, of a type
suitable for use on fuel and electrical fires.
Electric shock
• Ignition HT
voltage can be
dangerous,
especially to
people with
heart problems
or a pacemaker.
Don’t work on or
near the ignition
system with the
engine running or the
ignition switched on.
• Mains voltage is also dangerous. Make
sure that any mains-operated equipment is
correctly earthed. Mains power points should
be protected by a residual current device
(RCD) circuit breaker.
Fume or gas intoxication
• Exhaust fumes are
poisonous; they often
contain carbon
monoxide, which is
rapidly fatal if inhaled.
Never run the
engine in a
confined space
such as a garage
with the doors shut.
• Fuel vapour is also
poisonous, as are the vapours from some
cleaning solvents and paint thinners.
Poisonous or irritant substances
• Avoid skin contact with battery acid and
with any fuel, fluid or lubricant, especially
antifreeze, brake hydraulic fluid and Diesel
fuel. Don’t syphon them by mouth. If such a
substance is swallowed or gets into the eyes,
seek medical advice.
• Prolonged contact with used engine oil can
cause skin cancer. Wear gloves or use a
barrier cream if necessary. Change out of oilsoaked clothes and do not keep oily rags in
your pocket.
• Air conditioning refrigerant forms a
poisonous gas if exposed to a naked flame
(including a cigarette). It can also cause skin
burns on contact.
0•5
Special hazards
Hydrofluoric acid
• This extremely corrosive acid is formed
when certain types of synthetic rubber, found
in some O-rings, oil seals, fuel hoses etc, are
exposed to temperatures above 4000C. The
rubber changes into a charred or sticky
substance containing the acid. Once formed,
the acid remains dangerous for years. If it
gets onto the skin, it may be necessary to
amputate the limb concerned.
• When dealing with a vehicle which has
suffered a fire, or with components salvaged
from such a vehicle, wear protective gloves
and discard them after use.
The battery
• Batteries contain sulphuric acid, which
attacks clothing, eyes and skin. Take care
when topping-up or carrying the battery.
• The hydrogen gas given off by the battery
is highly explosive. Never cause a spark or
allow a naked light nearby. Be careful when
connecting and disconnecting battery
chargers or jump leads.
Air bags
• Air bags can cause injury if they go off
accidentally. Take care when removing the
steering wheel and/or facia. Special storage
instructions may apply.
Diesel injection equipment
• Diesel injection pumps supply fuel at very
high pressure. Take care when working on
the fuel injectors and fuel pipes.
Asbestos
• Asbestos dust can cause cancer if inhaled
or swallowed. Asbestos may be found in
gaskets and in brake and clutch linings.
When dealing with such components it is
safest to assume that they contain asbestos.
Warning: Never expose the
hands, face or any other part of
the body to injector spray; the
fuel can penetrate the skin with
potentially fatal results.
Remember...
A few tips
DO
DON’T
• Do use eye protection when using power
tools, and when working under the vehicle.
• Don’t attempt to lift a heavy component
which may be beyond your capability – get
assistance.
• Do wear gloves or use barrier cream to
protect your hands when necessary.
• Do get someone to check periodically
that all is well when working alone on the
vehicle.
• Do keep loose clothing and long hair well
out of the way of moving mechanical parts.
• Do remove rings, wristwatch etc, before
working on the vehicle – especially the
electrical system.
• Do ensure that any lifting or jacking
equipment has a safe working load rating
adequate for the job.
• Don’t rush to finish a job, or take
unverified short cuts.
• Don’t use ill-fitting tools which may slip
and cause injury.
• Don’t leave tools or parts lying around
where someone can trip over them. Mop
up oil and fuel spills at once.
• Don’t allow children or pets to play in or
near a vehicle being worked on.
0•6
General Dimensions & Weights
Dimensions
Overall length:
Saloon, Hatchback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Estate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Overall width - including mirrors . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Overall height - at kerb weight:
Saloon, Hatchback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Estate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Wheelbase . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Front track - all models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Rear track:
Saloon, Hatchback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Estate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Turning circle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4481 mm
4631 mm
1925 mm
1403
1416
2704
1503
to 1435 mm
to 1501 mm
mm
mm
1486 to 1487 mm
1504 mm
10.9 m
Weights
Kerb weight:
1.6 Saloon, Hatchback models . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.6 Estate models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.8 Saloon, Hatchback models:
Manual transmission . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Automatic transmission . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.8 Estate models:
Manual transmission . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Automatic transmission . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.0 Saloon, Hatchback models:
Manual transmission . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Automatic transmission . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.0 Estate models:
Manual transmission . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Automatic transmission . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Maximum gross vehicle weight:
Saloon, Hatchback:
1.6 models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.8 Saloon models, automatic transmission . . . . . . . . . . . . . . . . .
2.0 models, automatic transmission . . . . . . . . . . . . . . . . . . . . . . .
All others . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Estate:
1.6 models, 2.0 models with manual transmission . . . . . . . . . . . .
All others . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Maximum roof rack load:
Estate models with integral roof rack . . . . . . . . . . . . . . . . . . . . . . . .
All others . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Maximum towing weight . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Trailer nose weight limit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1215 to 1250 kg
1265 to 1275 kg
1225 to 1260 kg
1260 to 1280 kg
1275 to 1285 kg
1305 kg
1250 to 1310 kg
1285 to 1340 kg
1295 to 1335 kg
1330 to 1415 kg
1725 kg
1750 kg
1800 kg
1775 kg
1900 kg
1925 kg
100 kg
75 kg
1500 kg
75 kg
MOT Test Checks
0•7
This is a guide to getting your vehicle through the MOT test.
Obviously it will not be possible to examine the vehicle to the same
standard as the professional MOT tester. However, working through
the following checks will enable you to identify any problem areas
before submitting the vehicle for the test.
Where a testable component is in borderline condition, the tester
has discretion in deciding whether to pass or fail it. The basis of such
discretion is whether the tester would be happy for a close relative or
friend to use the vehicle with the component in that condition. If the
vehicle presented is clean and evidently well cared for, the tester may
be more inclined to pass a borderline component than if the vehicle is
scruffy and apparently neglected.
It has only been possible to summarise the test requirements here,
based on the regulations in force at the time of printing. Test standards
are becoming increasingly stringent, although there are some
exemptions for older vehicles. For full details obtain a copy of the Haynes
publication Pass the MOT! (available from stockists of Haynes manuals).
An assistant will be needed to help carry out some of these checks.
The checks have been sub-divided into four categories, as follows:
1
1
Checks carried out
FROM THE DRIVER’S
SEAT
2
Checks carried out
WITH THE VEHICLE
ON THE GROUND
3
Checks carried out
WITH THE VEHICLE
RAISED AND THE
WHEELS FREE TO
TURN
4
Checks carried out on
YOUR VEHICLE’S
EXHAUST EMISSION
SYSTEM
Checks carried out
FROM THE DRIVER’S SEAT
Handbrake
M Test the operation of the handbrake.
Excessive travel (too many clicks) indicates
incorrect brake or cable adjustment.
M Check that the handbrake cannot be
released by tapping the lever sideways. Check
the security of the lever mountings.
M Check that the brake pedal is secure and in
good condition. Check also for signs of fluid
leaks on the pedal, floor or carpets, which
would indicate failed seals in the brake master
cylinder.
M Check the servo unit (when applicable) by
operating the brake pedal several times, then
keeping the pedal depressed and starting the
engine. As the engine starts, the pedal will
move down slightly. If not, the vacuum hose or
the servo itself may be faulty.
Footbrake
M Depress the brake pedal and check that it
does not creep down to the floor, indicating a
master cylinder fault. Release the pedal, wait
a few seconds, then depress it again. If the
pedal travels nearly to the floor before firm
resistance is felt, brake adjustment or repair is
necessary. If the pedal feels spongy, there is
air in the hydraulic system which must be
removed by bleeding.
Steering wheel and column
M Examine the steering wheel for fractures or
looseness of the hub, spokes or rim.
M Move the steering wheel from side to side
and then up and down. Check that the
steering wheel is not loose on the column,
indicating wear or a loose retaining nut.
Continue moving the steering wheel as before,
but also turn it slightly from left to right.
M Check that the steering wheel is not loose
on the column, and that there is no abnormal
movement of the steering wheel, indicating
wear in the column support bearings or
couplings.
Windscreen and mirrors
M The windscreen must be free of cracks or
other significant damage within the driver’s
field of view. (Small stone chips are
acceptable.) Rear view mirrors must be
secure, intact, and capable of being adjusted.
MOT Test Checks
0•8
Electrical equipment
M Switch on the ignition and check the
operation of the horn.
M Check the windscreen washers and wipers,
examining the wiper blades; renew damaged
or perished blades. Also check the operation
of the stop-lights.
M Inspect both front brake flexible hoses for
cracks or deterioration of the rubber. Turn the
steering from lock to lock, and ensure that the
hoses do not contact the wheel, tyre, or any
part of the steering or suspension mechanism.
With the brake pedal firmly depressed, check
the hoses for bulges or leaks under pressure.
Seat belts and seats
Note: The following checks are applicable to
all seat belts, front and rear.
M Examine the webbing of all the belts
(including rear belts if fitted) for cuts, serious
fraying or deterioration. Fasten and unfasten
each belt to check the buckles. If applicable,
check the retracting mechanism. Check the
security of all seat belt mountings accessible
from inside the vehicle.
M The front seats themselves must be
securely attached and the backrests must
lock in the upright position.
Doors
M Both front doors must be able to be opened
and closed from outside and inside, and must
latch securely when closed.
2
Checks carried out
WITH THE VEHICLE ON THE
GROUND
Vehicle identification
M Number plates must be in good condition,
secure and legible, with letters and numbers
correctly spaced – spacing at (A) should be
twice that at (B).
M Check the operation of the sidelights and
number plate lights. The lenses and reflectors
must be secure, clean and undamaged.
M Check the operation and alignment of the
headlights. The headlight reflectors must not
be tarnished and the lenses must be
undamaged.
M Switch on the ignition and check the
operation of the direction indicators (including
the instrument panel tell-tale) and the hazard
warning lights. Operation of the sidelights and
stop-lights must not affect the indicators - if it
does, the cause is usually a bad earth at the
rear light cluster.
M Check the operation of the rear foglight(s),
including the warning light on the instrument
panel or in the switch.
Footbrake
M Examine the master cylinder, brake pipes
and servo unit for leaks, loose mountings,
corrosion or other damage.
Steering and suspension
M Have your assistant turn the steering wheel
from side to side slightly, up to the point where
the steering gear just begins to transmit this
movement to the roadwheels. Check for
excessive free play between the steering
wheel and the steering gear, indicating wear or
insecurity of the steering column joints, the
column-to-steering gear coupling, or the
steering gear itself.
M Have your assistant turn the steering wheel
more vigorously in each direction, so that the
roadwheels just begin to turn. As this is done,
examine all the steering joints, linkages,
fittings and attachments. Renew any
component that shows signs of wear or
damage. On vehicles with power steering,
check the security and condition of the
steering pump, drivebelt and hoses.
M Check that the vehicle is standing level,
and at approximately the correct ride height.
Shock absorbers
M Depress each corner of the vehicle in turn,
then release it. The vehicle should rise and
then settle in its normal position. If the vehicle
continues to rise and fall, the shock absorber
is defective. A shock absorber which has
seized will also cause the vehicle to fail.
M The VIN plate (A) and homologation plate
(B) must be legible.
M The fluid reservoir must be secure and the
fluid level must be between the upper (A) and
lower (B) markings.
MOT Test Checks
Exhaust system
M Start the engine. With your assistant
holding a rag over the tailpipe, check the
entire system for leaks. Repair or renew
leaking sections.
Front and rear suspension and
wheel bearings
M Starting at the front right-hand side, grasp
the roadwheel at the 3 o’clock and 9 o’clock
positions and shake it vigorously. Check for
free play or insecurity at the wheel bearings,
suspension balljoints, or suspension mountings, pivots and attachments.
M Now grasp the wheel at the 12 o’clock and
6 o’clock positions and repeat the previous
inspection. Spin the wheel, and check for
roughness or tightness of the front wheel
bearing.
0•9
M The same general checks apply to vehicles
fitted with other suspension types, such as
torsion bars, hydraulic displacer units, etc.
Ensure that all mountings and attachments are
secure, that there are no signs of excessive
wear, corrosion or damage, and (on hydraulic
types) that there are no fluid leaks or damaged
pipes.
M Inspect the shock absorbers for signs of
serious fluid leakage. Check for wear of the
mounting bushes or attachments, or damage
to the body of the unit.
Driveshafts
(fwd vehicles only)
M Rotate each front wheel in turn and inspect
the constant velocity joint gaiters for splits or
damage. Also check that each driveshaft is
straight and undamaged.
3
Checks carried out
WITH THE VEHICLE RAISED
AND THE WHEELS FREE TO
TURN
Jack up the front and rear of the vehicle,
and securely support it on axle stands.
Position the stands clear of the suspension
assemblies. Ensure that the wheels are
clear of the ground and that the steering
can be turned from lock to lock.
Steering mechanism
M If excess free play is suspected at a
component pivot point, this can be confirmed
by using a large screwdriver or similar tool and
levering between the mounting and the
component attachment. This will confirm
whether the wear is in the pivot bush, its
retaining bolt, or in the mounting itself (the bolt
holes can often become elongated).
M Have your assistant turn the steering from
lock to lock. Check that the steering turns
smoothly, and that no part of the steering
mechanism, including a wheel or tyre, fouls
any brake hose or pipe or any part of the body
structure.
M Examine the steering rack rubber gaiters
for damage or insecurity of the retaining clips.
If power steering is fitted, check for signs of
damage or leakage of the fluid hoses, pipes or
connections. Also check for excessive
stiffness or binding of the steering, a missing
split pin or locking device, or severe corrosion
of the body structure within 30 cm of any
steering component attachment point.
Braking system
M If possible without dismantling, check
brake pad wear and disc condition. Ensure
that the friction lining material has not worn
excessively, (A) and that the discs are not
fractured, pitted, scored or badly worn (B).
M Carry out all the above checks at the other
front wheel, and then at both rear wheels.
Springs and shock absorbers
M Examine the suspension struts (when
applicable) for serious fluid leakage, corrosion,
or damage to the casing. Also check the
security of the mounting points.
M If coil springs are fitted, check that the
spring ends locate in their seats, and that the
spring is not corroded, cracked or broken.
M If leaf springs are fitted, check that all
leaves are intact, that the axle is securely
attached to each spring, and that there is no
deterioration of the spring eye mountings,
bushes, and shackles.
M Examine all the rigid brake pipes
underneath the vehicle, and the flexible
hose(s) at the rear. Look for corrosion, chafing
or insecurity of the pipes, and for signs of
bulging under pressure, chafing, splits or
deterioration of the flexible hoses.
M Look for signs of fluid leaks at the brake
calipers or on the brake backplates. Repair or
renew leaking components.
M Slowly spin each wheel, while your
assistant depresses and releases the
footbrake. Ensure that each brake is operating
and does not bind when the pedal is released.
0•10
MOT Test Checks
M Examine the handbrake mechanism,
checking for frayed or broken cables,
excessive corrosion, or wear or insecurity of
the linkage. Check that the mechanism works
on each relevant wheel, and releases fully,
without binding.
M It is not possible to test brake efficiency
without special equipment, but a road test
can be carried out later to check that the
vehicle pulls up in a straight line.
Fuel and exhaust systems
M Inspect the fuel tank (including the filler
cap), fuel pipes, hoses and unions. All
components must be secure and free from
leaks.
M Examine the exhaust system over its entire
length, checking for any damaged, broken or
missing mountings, security of the retaining
clamps and rust or corrosion.
properly seated, and that the wheel is not
distorted or damaged.
M Check that the tyres are of the correct size
for the vehicle, that they are of the same size
and type on each axle, and that the pressures
are correct.
M Check the tyre tread depth. The legal
minimum at the time of writing is 1.6 mm over
at least three-quarters of the tread width.
Abnormal tread wear may indicate incorrect
front wheel alignment.
Body corrosion
M Check the condition of the entire vehicle
structure for signs of corrosion in loadbearing areas. (These include chassis box
sections, side sills, cross-members, pillars,
and all suspension, steering, braking system
and seat belt mountings and anchorages.)
Any corrosion which has seriously reduced
the thickness of a load-bearing area is likely to
cause the vehicle to fail. In this case
professional repairs are likely to be needed.
M Damage or corrosion which causes sharp
or otherwise dangerous edges to be exposed
will also cause the vehicle to fail.
4
Checks carried out on
YOUR VEHICLE’S EXHAUST
EMISSION SYSTEM
Petrol models
Wheels and tyres
M Examine the sidewalls and tread area of
each tyre in turn. Check for cuts, tears, lumps,
bulges, separation of the tread, and exposure
of the ply or cord due to wear or damage.
Check that the tyre bead is correctly seated
on the wheel rim, that the valve is sound and
M Have the engine at normal operating
temperature, and make sure that it is in good
tune (ignition system in good order, air filter
element clean, etc).
M Before any measurements are carried out,
raise the engine speed to around 2500 rpm,
and hold it at this speed for 20 seconds. Allow
the engine speed to return to idle, and watch
for smoke emissions from the exhaust
tailpipe. If the idle speed is obviously much
too high, or if dense blue or clearly-visible
black smoke comes from the tailpipe for more
than 5 seconds, the vehicle will fail. As a rule
of thumb, blue smoke signifies oil being burnt
(engine wear) while black smoke signifies
unburnt fuel (dirty air cleaner element, or other
carburettor or fuel system fault).
M An exhaust gas analyser capable of
measuring carbon monoxide (CO) and
hydrocarbons (HC) is now needed. If such an
instrument cannot be hired or borrowed, a
local garage may agree to perform the check
for a small fee.
CO emissions (mixture)
M At the time or writing, the maximum CO
level at idle is 3.5% for vehicles first used after
August 1986 and 4.5% for older vehicles.
From January 1996 a much tighter limit
(around 0.5%) applies to catalyst-equipped
vehicles first used from August 1992. If the
CO level cannot be reduced far enough to
pass the test (and the fuel and ignition
systems are otherwise in good condition) then
the carburettor is badly worn, or there is some
problem in the fuel injection system or
catalytic converter (as applicable).
HC emissions
M With the CO emissions within limits, HC
emissions must be no more than 1200 ppm
(parts per million). If the vehicle fails this test
at idle, it can be re-tested at around 2000
rpm; if the HC level is then 1200 ppm or less,
this counts as a pass.
M Excessive HC emissions can be caused by
oil being burnt, but they are more likely to be
due to unburnt fuel.
Diesel models
M The only emission test applicable to Diesel
engines is the measuring of exhaust smoke
density. The test involves accelerating the
engine several times to its maximum
unloaded speed.
Note: It is of the utmost importance that the
engine timing belt is in good condition before
the test is carried out.
M Excessive smoke can be caused by a dirty
air cleaner element. Otherwise, professional
advice may be needed to find the cause.
Roadside Repairs
0•11
Jacking, towing and wheel changing
To change a wheel, remove the spare
wheel and jack, apply the handbrake, and
chock the wheel diagonally opposite the
one to be changed. On manual transmission
models, select first or reverse gear; on
automatic transmission models, place the
selector lever in “P”. Make sure that the
vehicle is located on firm level ground. Use
the flat end of the wheelbrace carefully to
remove the trim covering the wheel nuts,
then slightly loosen the wheel nuts with the
brace (see illustrations). Locate the jack
head in the jacking point nearest to the
wheel to be changed, ensuring that the
channel in the jack head fits over the body
flange (see illustrations) and turn its
handle to raise the jack. When the wheel is
clear of the ground, remove the nuts and lift
off the wheel. Fit the spare wheel, and
moderately tighten the nuts. Lower the
vehicle, then tighten the nuts fully and refit
the trim. With the spare wheel in position,
remove the chock, and stow the jack and
tools.
When jacking up the vehicle to carry out
repair or maintenance tasks, position the jack
as follows.
If the front of the vehicle is to be raised,
either place the jack head under the sump,
with a block of wood to prevent damage, or
place a jacking beam across the two front
points “B” shown in the accompanying
illustration, and lift the vehicle evenly.
To raise the rear of the vehicle, place a
jacking beam across the two rear points “B”
shown in the accompanying illustration, and
lift the vehicle evenly.
To raise the side of the vehicle, place the
jack head under the appropriate point
indicated in the accompanying illustration - if
a trolley jack or similar is used on the points
“A” provided for the vehicle’s jack, make up a
wooden spacer with a groove cut in it to
accept the underbody flange, so that there is
With jack base on firm ground, locate jack
head in jacking point - indentations
(arrowed) in sill identify jacking points
no risk of the jack slipping or buckling the
flange. Never work under, around or near a
raised vehicle unless it is adequately
supported in at least two places with axle
stands or suitable sturdy blocks.
The vehicle may be towed, for breakdown
recovery purposes only, using the towing eyes
positioned at the front and rear of the vehicle
(see illustrations). These eyes are intended
for towing loads only, and must not be used
for lifting the vehicle, either directly or
indirectly.
If the vehicle is equipped with automatic
transmission, the following precautions must
be observed if the vehicle is to be towed,
particularly if any kind of transmission fault is
suspected. Preferably, a front-end-suspended
tow should be used (ie with the front wheels
off the ground). If this is not possible, place
the selector lever in “N” and tow the vehicle forwards only, never backwards - for a
distance of no more than 30 miles (50 km),
and at speeds no greater than 30 mph
(50 km/h).
Use flat end of wheelbrace to remove trim
covering roadwheel nuts
Slacken roadwheel nuts in diagonal
sequence
Jacking and supporting
points
A Jacking points (for
vehicle jack in roadside
use) - support points (for
axle stands in
servicing/overhaul work)
B Jacking points (for
trolley jack or workshop
hoist in
servicing/overhaul work)
- additional support
points
Front towing eye
Rear towing eye
0•12
Roadside Repairs
Booster battery (jump) starting
When jump-starting a car using a
booster battery, observe the following
precautions:
C) Make sure that the booster battery is
the same voltage as the discharged
one in the vehicle.
A) Before connecting the booster
battery, make sure that the ignition is
switched off.
D) If the battery is being jump-started
from the battery in another vehicle,
the two vehcles MUST NOT TOUCH
each other.
B) Ensure that all electrical equipment
(lights, heater, wipers, etc) is
switched off.
1
Connect one end of the red jump lead to
the positive (+) terminal of the flat
battery
E) Make sure that the transmission is in
neutral (or PARK, in the case of
automatic transmission).
2
Connect the other end of the red lead to
the positive (+) terminal of the booster
battery.
Jump starting will get you out
of trouble, but you must correct
whatever made the battery go
flat in the first place. There are
three possibilities:
The battery has been drained by
repeated attempts to start, or by
leaving the lights on.
1
The charging system is not working
properly (alternator drivebelt slack
or broken, alternator wiring fault or
alternator itself faulty).
2
3
The battery itself is at fault
(electrolyte low, or battery worn out).
3
Connect one end of the black jump lead
to the negative (-) terminal of the
booster battery
4
Connect the other end of the black
jump lead to a bolt or bracket on the
engine block, well away from the
battery, on the vehicle to be started.
5
Make sure that the jump leads will not
come into contact with the fan, drivebelts or other moving parts of the
engine.
6
Start the engine using the booster
battery, then with the engine running at
idle speed, disconnect the jump leads in
the reverse order of connection.
Roadside Repairs
0•13
Identifying leaks
Puddles on the garage floor or drive, or
obvious wetness under the bonnet or
underneath the car, suggest a leak that needs
investigating. It can sometimes be difficult to
decide where the leak is coming from,
especially if the engine bay is very dirty
already. Leaking oil or fluid can also be blown
rearwards by the passage of air under the car,
giving a false impression of where the
problem lies.
Warning: Most automotive oils
and fluids are poisonous. Wash
them off skin, and change out of
contaminated clothing, without
delay.
The smell of a fluid leaking
from the car may provide a
clue to what’s leaking. Some
fluids are distictively coloured.
It may help to clean the car carefully
and to park it over some clean paper
overnight as an aid to locating the
source of the leak.
Remember that some leaks may only
occur while the engine is running.
Sump oil
Oil from filter
Gearbox oil
Engine oil may leak from the drain plug...
...or from the base of the oil filter.
Gearbox oil can leak from the seals at the
inboard ends of the driveshafts.
Antifreeze
Brake fluid
Power steering fluid
Leaking antifreeze often leaves a crystalline
deposit like this.
A leak occurring at a wheel is almost
certainly brake fluid.
Power steering fluid may leak from the pipe
connectors on the steering rack.
0•14
Conversion Factors
Length (distance)
Inches (in)
Feet (ft)
Miles
x 25.4
x 0.305
x 1.609
= Millimetres (mm)
= Metres (m)
= Kilometres (km)
x 0.0394 = Inches (in)
x 3.281 = Feet (ft)
x 0.621 = Miles
Volume (capacity)
Cubic inches (cu in; in3)
Imperial pints (Imp pt)
Imperial quarts (Imp qt)
Imperial quarts (Imp qt)
US quarts (US qt)
Imperial gallons (Imp gal)
Imperial gallons (Imp gal)
US gallons (US gal)
x
x
x
x
x
x
x
x
16.387 =
0.568 =
1.137 =
1.201 =
0.946 =
4.546 =
1.201 =
3.785 =
Cubic centimetres (cc; cm3)
Litres (l)
Litres (l)
US quarts (US qt)
Litres (l)
Litres (l)
US gallons (US gal)
Litres (l)
x
x
x
x
x
x
x
x
0.061
1.76
0.88
0.833
1.057
0.22
0.833
0.264
=
=
=
=
=
=
=
=
Cubic inches (cu in; in3)
Imperial pints (Imp pt)
Imperial quarts (Imp qt)
Imperial quarts (Imp qt)
US quarts (US qt)
Imperial gallons (Imp gal)
Imperial gallons (Imp gal)
US gallons (US gal)
Mass (weight)
Ounces (oz)
Pounds (lb)
x 28.35 = Grams (g)
x 0.454 = Kilograms (kg)
x 0.035 = Ounces (oz)
x 2.205 = Pounds (lb)
x 0.278 = Newtons (N)
x 4.448 = Newtons (N)
x 0.1
= Kilograms-force (kgf; kg)
x 3.6
= Ounces-force (ozf; oz)
x 0.225 = Pounds-force (lbf; lb)
x 9.81 = Newtons (N)
x 0.070 = Kilograms-force per square
centimetre (kgf/cm2; kg/cm2)
x 0.068 = Atmospheres (atm)
Force
Ounces-force (ozf; oz)
Pounds-force (lbf; lb)
Newtons (N)
Pressure
Pounds-force per square inch
(psi; lbf/in2; lb/in2)
Pounds-force per square inch
(psi; lbf/in2; lb/in2)
Pounds-force per square inch
(psi; lbf/in2; lb/in2)
Pounds-force per square inch
(psi; lbf/in2; lb/in2)
Kilopascals (kPa)
x 0.01
x 14.223 = Pounds-force per square inch
(psi; lbf/in2; lb/in2)
x 14.696 = Pounds-force per square inch
(psi; lbf/in2; lb/in2)
x 14.5 = Pounds-force per square inch
(psi; lbf/in2; lb/in2)
x 0.145 = Pounds-force per square inch
(psi; lbf/in2; lb/in2)
x 98.1 = Kilopascals (kPa)
Millibar (mbar)
Millibar (mbar)
x
x
x 0.01 = Millibar (mbar)
x 68.947 = Millibar (mbar)
Millibar (mbar)
Millibar (mbar)
Millimetres of mercury (mmHg)
Inches of water (inH2O)
x
x
x
x
x 0.069 = Bars
x 6.895 = Kilopascals (kPa)
= Kilograms-force per square
centimetre (kgf/cm2; kg/cm2)
100
= Pascals (Pa)
0.0145 = Pounds-force per square inch
(psi; lbf/in2; lb/in2)
0.75 = Millimetres of mercury (mmHg)
0.401 = Inches of water (inH2O)
0.535 = Inches of water (inH2O)
0.036 = Pounds-force per square inch
(psi; lbf/in2; lb/in2)
x
x
x
x
1.333
2.491
1.868
27.68
=
=
=
=
Millibar (mbar)
Millibar (mbar)
Millimetres of mercury (mmHg)
Inches of water (inH2O)
Torque (moment of force)
Pounds-force inches
(lbf in; lb in)
Pounds-force inches
(lbf in; lb in)
Pounds-force inches
(lbf in; lb in)
Pounds-force feet (lbf ft; lb ft)
Pounds-force feet (lbf ft; lb ft)
Newton metres (Nm)
x 1.152 = Kilograms-force centimetre
(kgf cm; kg cm)
x 0.113 = Newton metres (Nm)
x 0.083 = Pounds-force feet (lbf ft; lb ft)
x 0.138 = Kilograms-force metres
(kgf m; kg m)
x 1.356 = Newton metres (Nm)
x 0.102 = Kilograms-force metres
(kgf m; kg m)
x 0.868 = Pounds-force inches
(lbf in; lb in)
x 8.85 = Pounds-force inches
(lbf in; lb in)
x 12
= Pounds-force inches
(lbf in; lb in)
x 7.233 = Pounds-force feet (lbf ft; lb ft)
x 0.738 = Pounds-force feet (lbf ft; lb ft)
x 9.804 = Newton metres (Nm)
Power
Horsepower (hp)
x 745.7 = Watts (W)
x 0.0013 = Horsepower (hp)
Velocity (speed)
Miles per hour (miles/hr; mph)
x 1.609 = Kilometres per hour (km/hr; kph) x 0.621 = Miles per hour (miles/hr; mph)
Fuel consumption*
Miles per gallon (mpg)
x 0.354 = Kilometres per litre (km/l)
x 2.825 = Miles per gallon (mpg)
Temperature
Degrees Fahrenheit = (°C x 1.8) + 32
Degrees Celsius (Degrees Centigrade; °C) = (°F - 32) x 0.56
* It is common practice to convert from miles per gallon (mpg) to litres/100 kilometres (l/100km), where mpg x l/100 km = 282
1•1
1
Chapter 1 Routine maintenance and servicing
Contents
Air conditioning system check . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Air filter element renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Automatic transmission fluid level check . . . . . . . . . . . . . . . . . . . . . 7
Automatic transmission linkage lubrication . . . . . . . . . . . . . . . . . . . 18
Auxiliary drivebelt check and renewal . . . . . . . . . . . . . . . . . . . . . . . . 11
Battery check, maintenance and charging . . . . . . . . . . . . . . . . . . . . 9
Brake check . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Brake fluid renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
Clutch pedal adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
Coolant renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2, 28
Door and bonnet check and lubrication . . . . . . . . . . . . . . . . . . . . . . 24
Driveshaft rubber gaiter and CV joint check . . . . . . . . . . . . . . . . . . . 20
Electrical system check . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Engine compartment wiring check . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Engine oil and filter change . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Exhaust system check . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
Fluid level checks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Fuel filter renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
Idle speed and mixture check and adjustment . . . . . . See Chapter 4
Ignition timing check . . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 5
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
Manual transmission oil level check . . . . . . . . . . . . . . . . . . . . . . . . . 16
Positive Crankcase Ventilation (PCV) system check
and filter cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
Power steering fluid level check . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Road test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
Roadwheel nut tightness check . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
Seat belt check . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
Spark plug renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . See end of Chapter
Steering, suspension and roadwheel check . . . . . . . . . . . . . . . . . . . 19
Timing belt renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
Tyre and tyre pressure checks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Underbody and fuel/brake line check . . . . . . . . . . . . . . . . . . . . . . . . 22
Underbonnet check for fluid leaks and hose condition . . . . . . . . . . 12
Ventilation system pollen filter renewal . . . . . . . . . . . . . . . . . . . . . . . 27
Windscreen/tailgate washer system and wiper blade check . . . . . . 6
Degrees of difficulty
Easy, suitable for
novice with little
experience
Fairly easy, suitable
for beginner with
some experience
Fairly difficult, suitable
for competent DIY
mechanic
Difficult, suitable for
experienced DIY
mechanic
Very difficult,
suitable for expert DIY
or professional
1•2
Lubricants, Fluids & Capacities
Lubricants and fluids
Component or system
Engine
Lubricant type/specification
Multigrade engine oil to specification API SG/CD or better, viscosity range 5W/50 to 10W/30
Manual transmission
Gear oil to Ford specification ESD-M2C-186-A
Automatic transmission
Transmission fluid to Ford specification ESP-M2C-166-H
Power steering
Transmission fluid to Ford specification ESP-M2C-166-H
Cooling system
Soft water, and antifreeze (ethylene glycol-based, suitable for use in mixed-metal cooling systems) to
Ford specification ESD-M97B-49-A
Braking system
Hydraulic fluid to Ford specification ESD-M6C-57-A, Super DOT 4 or equivalent
Driveshaft joints
Long-life grease to Ford specification SQM-1C 9004-A
Capacities
Engine oil:
At oil and filter change . . . . . . . . . . . . . . . . . . . . . . .
Dry - at engine overhaul . . . . . . . . . . . . . . . . . . . . . .
Difference between dipstick minimum and
maximum level notches . . . . . . . . . . . . . . . . . . . . . .
Fuel tank . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.25 litres
4.50 litres
0.5 to 1.0 litre
61.5 litres
Cooling system:
Manual transmission models . . . . . . . . . . . . . . . . . .
Automatic transmission models . . . . . . . . . . . . . . .
Manual transmission . . . . . . . . . . . . . . . . . . . . . . . . . .
Automatic transmission:
Total, including fluid cooler . . . . . . . . . . . . . . . . . . .
Drain and refill . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6.6 litres
7.1 litres
2.6 litres
7.2 litres
3.6 litres
Maintenance schedule
1•3
Ford Mondeo maintenance schedule
The manufacturer’s recommended maintenance schedule for these
vehicles is as described below - note that the schedule starts from the
vehicle’s date of registration. These are the minimum maintenance
intervals recommended by the factory for Mondeos driven daily, but
subjected only to “normal” use. If you wish to keep your vehicle in
peak condition at all times, you may wish to perform some of these
procedures even more often. Because frequent maintenance
enhances the efficiency, performance and resale value of your vehicle,
we encourage you to do so. If your usage is not “normal”, shorter
intervals are also recommended - the most important examples of
these are noted in the schedule. These shorter intervals apply
particularly if you drive in dusty areas, tow a caravan or trailer, sit with
the engine idling or drive at low speeds for extended periods (ie, in
heavy traffic), or drive for short distances (less than four miles) in
below-freezing temperatures.
When your vehicle is new, it should be serviced by a Ford dealer
service department to protect the factory warranty. In many cases, the
initial maintenance check is done at no cost to the owner. Note that
this first free service (carried out by the selling dealer 1500 miles or 3
months after delivery), although an important check for a new vehicle,
is not part of the regular maintenance schedule, and is therefore not
mentioned here.
Weekly checks
m Check the engine oil level, and top-up if necessary
(Section 3)
m Check the brake fluid level, and top-up if necessary
(Section 3). If repeated topping-up is required, check the
system for leaks or damage at the earliest possible
opportunity (Sections 12 and 22)
m Check the windscreen/tailgate washer fluid level, and topup if necessary (Section 3)
m Check the tyre pressures, including the spare (Section 4)
m Visually check the tyres for excessive tread wear, or
damage (Section 4)
m Check the operation of all (exterior and interior) lights and
the horn, wipers and windscreen/tailgate washer system
(Sections 6 and 8). Renew any blown bulbs (Chapter 12),
and clean the lenses of all exterior lights
Monthly checks
m Check the coolant level, and top-up if necessary (Section 3)
m Check the battery electrolyte level, where applicable
(Section 3)
m Check the power steering fluid level, and top-up if
necessary (Section 5)
m Visually check all reservoirs, hoses and pipes for leakage
(Section 12)
m Check the operation of the air conditioning system
(Section 14)
m Check the operation of the handbrake (Section 23)
m Check the aim of the windscreen/tailgate/headlight
washer jets, correcting them if required (Section 6)
m Check the condition of the wiper blades, renewing them if
worn or no longer effective - note that the manufacturer
recommends renewing the blades as a safety precaution,
irrespective of their apparent condition, at least once a
year (Section 6)
Every 10 000 miles or 12 months,
whichever occurs first
Note: If the vehicle is used regularly for very short (less than
10 miles), stop/go journeys, the oil and filter should be renewed
between services (ie, every 5000 miles/6 months).
m
m
m
m
m
m
m
m
m
m
m
m
m
m
m
m
m
m
m
Check the electrical system (Section 8)
Check the battery (Section 9)
Check the seat belts (Section 10)
Check the auxiliary drivebelt (Section 11)
Check for fluid leaks and hose condition (Section 12)
Check the condition of all wiring (Section 13)
Check all air conditioning components (Section 14)
Change the engine oil and filter (Section 15)
Check the manual transmission oil level (Section 16)
Check the adjustment of the clutch pedal (Section 17)
Lubricate the automatic transmission linkage (Section 18)
Check the steering, suspension and wheels (Section 19)
Check the driveshaft gaiters and CV joints (Section 20)
Check the exhaust system (Section 21)
Check the underbody, and all fuel/brake lines (Section 22)
Check the brake system (Section 23)
Check and lubricate the doors and bonnet (Section 24)
Check the security of all roadwheel nuts (Section 25)
Road test (Section 26). Check the level of the automatic
transmission fluid with the engine still hot, after the road
test (Section 7)
Every 20 000 miles or 2 years,
whichever occurs first
Carry out all operations listed above, plus the following:
m Renew the ventilation system pollen filter (Section 27)
m Renew the coolant (Sections 2 and 28)
Every 30 000 miles or 3 years,
whichever occurs first
Carry out all operations listed above, plus the following:
m Renew the air filter element (Section 29). Note that this
task must be carried out at more frequent intervals if the
vehicle is used in dusty or polluted conditions
m Check the Positive Crankcase Ventilation (PCV) system,
and clean the filter (Section 30)
m Renew the spark plugs (Section 31)
Every 60 000 miles
Carry out all operations listed above, plus the following:
m Renew the timing belt (Section 32)
m Renew the fuel filter (Section 33)
Every 3 years
(regardless of mileage)
m Renew the brake fluid (Section 34)
1
1•4
Maintenance procedures
Engine compartment components
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
Front underbody view
1 Radiator bottom hose (Section 12)
2 Exhaust gas oxygen sensor (Chapter 6)
3 Braking system, fuel and emission control
system lines (Section 22)
4 Front disc brake (Section 23)
5 Manual transmission drain plug
(Chapter 7, Part A)
6 Front suspension subframe (Chapter 2,
Part B)
7 Manual transmission filler/level plug
(Section 16)
8 Radiator undershield (Section 28)
9 Catalytic converter (Section 21)
10 Exhaust system rubber mountings
(Section 21)
11 Engine oil drain plug (Section 15)
12 Engine oil filter (Section 15)
Spark plugs (Section 31)
Engine oil filler cap (Section 3)
Brake fluid reservoir (Section 3)
Auxiliary fusebox (Chapter 12)
Air cleaner assembly (Section 29)
Battery (Section 9)
Cooling system expansion tank
(Section 28)
Ventilation system pollen filter - under
cowl grille panel (Section 27)
Air intake resonator (Chapter 4)
Radiator top hose (Section 12)
Cooling system expansion tank filler cap
(Section 3)
Air intake plenum chamber (Chapter 4)
Engine oil dipstick (Section 3)
Vehicle Identification Number (VIN) plate
Windscreen/tailgate washer fluid reservoir
(Section 3)
Auxiliary drivebelt (Section 11)
Power steering fluid reservoir (Section 5)
Maintenance procedures
1•5
Rear underbody view - Saloon and
Hatchback models
1
1 Silencers (Section 21)
2 Rear brakes (Section 23)
3 Exhaust system rubber mounting
(Section 21)
4 Handbrake cables (Section 23)
5 Suspension struts and springs
(Section 19)
6 Fuel tank filler neck (Section 22)
7 Fuel filter (Section 33)
Rear underbody view - Estate models
1 Silencers (Section 21)
2 Rear brakes (Section 23)
3 Exhaust system rubber mounting
(Section 21)
4 Handbrake cables (Section 23)
5 Suspension springs (Section 19)
6 Suspension shock absorbers (Section 19)
7 Fuel tank filler neck (Section 22)
8 Evaporative emissions control system
charcoal canister (Chapter 6)
1•6
Weekly checks
1 Introduction
This Chapter is designed to help the home
mechanic maintain the Ford Mondeo models
for peak performance, economy, safety and
long life.
On the following pages are Sections
dealing specifically with each item on the
maintenance schedule. Visual checks,
adjustments, component replacement and
other helpful items are included. Refer to the
accompanying illustrations of the engine
compartment and the underside of the vehicle
for the location of various components.
Servicing your Mondeo in accordance with
the mileage/time maintenance schedule and
the following Sections will provide it with a
planned maintenance programme, which
should result in a long and reliable service life.
This is a comprehensive plan, so maintaining
some items but not others at the specified
service intervals will not produce the same
results.
As you service your Mondeo, you will
discover that many of the procedures can and should - be grouped together, because of
the nature of the particular procedure you’re
performing, or because of the close proximity
to one another of two otherwise-unrelated
components.
For example, if the vehicle is raised for any
reason, you should inspect the exhaust,
suspension, steering and fuel systems while
you’re under the vehicle. When you’re
checking the tyres, it makes good sense to
check the brakes and wheel bearings,
especially if the roadwheels have already
been removed.
Finally, let’s suppose you have to borrow or
hire a torque wrench. Even if you only need to
tighten the spark plugs, you might as well
check the torque of as many critical fasteners
as time allows.
The first step of this maintenance
programme is to prepare yourself before the
actual work begins. Read through all the
Sections which are relevant to the procedures
you’re planning to carry out, then make a list
of, and gather together, all the parts and tools
you will need to do the job. If it looks as if you
might run into problems during a particular
segment of some procedure, seek advice
from your local parts man or dealer service
department.
2 Coolant renewal
Ford state that, where antifreeze to
specification ESD-M97B-49-A (the type with
which the vehicle’s cooling system would
have been filled on production at the factory)
is used, it will last the lifetime of the vehicle.
This is subject to it being used in the
recommended concentration, unmixed with
any other type of antifreeze or additive, and
topped-up when necessary using only that
antifreeze mixed 50/50 with clean water. If any
other type of antifreeze is added, the lifetime
guarantee no longer applies; to restore the
lifetime protection, the system must be
drained and thoroughly reverse-flushed
before fresh coolant mixture is poured in.
If the vehicle’s history (and therefore the
quality of the antifreeze in it) is unknown,
owners who wish to follow Ford’s
recommendations are advised to drain and
thoroughly reverse-flush the system, as
outlined in Section 28, before refilling with
fresh coolant mixture. If the appropriate
quality of antifreeze is used, the coolant can
then be left for the life of the vehicle.
If any antifreeze other than Ford’s is to be
used, the coolant must be renewed at regular
intervals to provide an equivalent degree of
protection; the conventional recommendation
is to renew the coolant every two years.
The above assumes the use of a mixture (in
exactly the specified concentration) of clean,
soft water and of antifreeze to Ford’s
specification or equivalent. It is also assumed
that the cooling system is maintained in a
scrupulously-clean condition, by ensuring that
only clean coolant is added on topping-up,
and by thorough reverse-flushing whenever
the coolant is drained (Section 28).
Weekly checks
3 Fluid level checks
General
1 Fluids are an essential part of the
lubrication, cooling, braking and other
systems. Because these fluids gradually
become depleted and/or contaminated during
normal operation of the vehicle, they must be
periodically replenished. See “Lubricants and
fluids and capacities” at the beginning of this
Chapter before adding fluid to any of the
following components. Note: The vehicle
must be on level ground before fluid levels can
be checked.
4 Pull the dipstick from the tube, and wipe all
the oil from the end with a clean rag or paper
towel; note the dipstick’s maximum and
minimum levels, indicated by notches (see
illustration). Insert the clean dipstick all the way
back into its metal tube, and pull it out again.
Observe the oil on the end of the dipstick; its
level should be between these two notches.
5 Do not allow the level to drop below the
minimum level notch, or oil starvation may
cause engine damage. Conversely, overfilling
the engine (adding oil above the maximum
level notch) may cause oil-fouled spark plugs,
oil leaks or oil seal failures.
6 The yellow/black plastic oil filler cap is
screwed into the left-hand front end of the
3.2 The engine oil dipstick (arrowed) is
located at the front of the engine - note
yellow/black plastic grip
3.4 The oil level should be at or near the
maximum level notch (A) - if not, add
enough oil to correct the level. It takes
approximately 0.5 to 1.0 litre of oil to raise
the level from the minimum level notch (B)
to the maximum
If the level is checked
immediately after driving the
vehicle, some of the oil will
remain in the engine upper
components, producing an inaccurate
dipstick reading.
Engine oil
2 The engine oil level is checked with a
dipstick located at the front of the engine; it
can be identified by its yellow/black plastic
grip (see illustration). The dipstick extends
through a metal tube, from which it protrudes
down into the sump at the bottom of the
engine.
3 The oil level should be checked before the
vehicle is driven, or about 5 minutes after the
engine has been switched off.
Weekly checks
1•7
1
3.6 The yellow/black oil filler cap is
screwed into the cylinder head cover.
Always make sure the area around the
opening is clean before unscrewing the
cap, to prevent dirt from contaminating the
engine
3.10 The cooling system expansion tank is
located on the right-hand side of the
engine compartment. The coolant level
must be between the tank “MAX” and
“MIN” level lines (arrowed) when the
engine is cold
3.13 Remove the cap to add coolant only
when the engine is cold - top-up to the
“MAX” level line using the specified
coolant mixture
cylinder head cover; unscrew it to add oil (see
illustration). When topping-up, use only the
correct grade and type of oil, as given in the
Specifications Section of this Chapter; use a
funnel if necessary to prevent spills. It takes
approximately 0.5 to 1.0 litre of oil to raise the
level from the dipstick’s minimum level notch
to its maximum level notch. After adding the
oil, refit the filler cap hand-tight. Start the
engine, and allow it to idle while the oil is
redistributed around the engine - while you
are waiting, look carefully for any oil leaks,
particularly around the oil filter or drain plug.
Stop the engine; check the oil level again,
after the oil has had enough time to drain from
the upper block and cylinder head galleries.
7 Checking the oil level is an important
preventive maintenance step. A continuallydropping oil level indicates oil leakage through
damaged seals and from loose connections,
or oil consumption past worn piston rings or
valve guides. If the oil looks milky in colour, or
has water droplets in it, the cylinder head
gasket may be blown - the engine’s
compression pressure should be checked
immediately (see Chapter 2A). The condition
of the oil should also be checked. Each time
you check the oil level, slide your thumb and
index finger up the dipstick before wiping off
the oil. If you see small dirt or metal particles
clinging to the dipstick, the oil should be
changed (Section 15).
8 All vehicles covered by this manual are
equipped with a sealed, pressurised cooling
system. A translucent plastic expansion tank,
located on the right-hand side of the engine
compartment, is connected by a hose to the
thermostat housing. As the coolant heats up
during engine operation, surplus coolant
passes through the connecting hose into the
expansion tank; a connection to the radiator
bottom hose union allows coolant to circulate
through the tank and back to the water pump,
thus purging any air from the system. As the
engine cools, the coolant is automatically
drawn back into the cooling system’s main
components, to maintain the correct level.
9 While the coolant level must be checked
regularly, remember therefore that it will vary
with the temperature of the engine. When the
engine is cold, the coolant level should be
between the “MAX” and “MIN” level lines on
the tank, but once the engine has warmed up,
the level may rise to above the “MAX” level
line.
10 For an accurate check of the coolant
level, the engine must be cold. The level must
be between the “MAX” and “MIN” level lines
on the tank (see illustration). If it is below the
“MIN” level line, the coolant must be toppedup as follows.
11 First prepare a sufficient quantity of
coolant mixture, using clean, soft water and
antifreeze of the recommended type, in the
specified mixture ratio. If you are using
antifreeze to Ford’s specification or equivalent
(see the note at the beginning of Section 2 of
this Chapter), mix equal quantities of water
and antifreeze to produce the 50/50 mixture
ratio specified when topping-up; if using any
other type of antifreeze, follow its
manufacturer’s instructions to achieve the
correct ratio. If only a small amount of coolant
is required to bring the system up to the
proper level, plain water can be used, but
repeatedly doing this will dilute the
antifreeze/water solution in the system,
reducing the protection it should provide
against freezing and corrosion. To maintain
the specified antifreeze/water ratio, it is
essential to top-up the coolant level with the
correct mixture, as described here. Use only
ethylene/glycol type antifreeze, and do not
use supplementary inhibitors or additives.
Coolant
Warning: Do not allow antifreeze
to come in contact with your skin
or painted surfaces of the
vehicle. Flush contaminated areas
immediately with plenty of water. Don’t
store new coolant, or leave old coolant
lying around, where it’s accessible to
children or pets - they’re attracted by its
sweet smell. Ingestion of even a small
amount of coolant can be fatal! Wipe up
garage-floor and drip-pan spills
immediately. Keep antifreeze containers
covered, and repair cooling system leaks
as soon as they’re noticed.
Warning: Never remove the
expansion tank filler cap when
the engine is running, or has just
been switched off, as the cooling system
will be hot, and the consequent escaping
steam and scalding coolant could cause
serious injury.
12 If topping-up is necessary, wait until the
system has cooled completely (or at least 10
minutes after switching off the engine, if lack
of time means it is absolutely necessary to
top-up while the engine may still be warm).
Wrap a thick cloth around the expansion tank
filler cap, and unscrew it one full turn. If any
hissing is heard as steam escapes, wait until
the hissing ceases, indicating that pressure is
released, then slowly unscrew the filler cap
until it can be removed. If more hissing
sounds are heard, wait until they have
stopped before unscrewing the filler cap
completely. At all times, keep your face,
hands and other exposed skin well away from
the filler opening.
13 When the filler cap has been removed,
add coolant to bring the level up to the “MAX”
level line (see illustration). Refit the cap,
tightening it securely.
14 With this type of cooling system, the
addition of coolant should only be necessary at
very infrequent intervals. If topping-up is
regularly required, or if the coolant level drops
within a short time after replenishment, there
may be a leak in the system. Inspect the
radiator, hoses, expansion tank filler cap,
radiator drain plug and water pump. If no leak is
evident, have the filler cap and the entire
system pressure-tested by your dealer or
suitably-equipped garage; this will usually show
up a small leak not otherwise visible. If
significant leakage is found at any time, use an
antifreeze hydrometer to check the concentration of antifreeze remaining in the coolant.
1•8
Weekly checks
3.17 Topping-up the windscreen washer
reservoir
15 Coolant hydrometers are available at
most automotive accessory shops. If the
specific gravity of a sample taken from the
expansion tank (when the engine is switched
off and fully cooled down) is less than that
specified, the coolant mixture strength has
fallen below the minimum. If this is found,
either the coolant strength must be restored
by adding neat antifreeze to Ford’s
specification (if that is what is in the system)
or by draining and flushing the system, then
refilling it with fresh coolant mixture of the
correct ratio (if any other type of antifreeze is
being used).
16 When checking the coolant level, always
note its condition; it should be relatively clear.
If it is brown or rust-coloured, the system
should be drained, flushed and refilled. If
antifreeze has been used which does not
meet Ford’s specification, its corrosion
inhibitors will lose their effectiveness with
time; such coolant must be renewed regularly,
even if it appears to be in good condition,
usually at the intervals suggested at the
beginning of Section 2 of this Chapter.
Windscreen/tailgate and
headlight washer fluid
17 Fluid for the windscreen/tailgate washer
system (and where applicable the headlight
washer system) is stored in a plastic reservoir,
which is located at the right front corner of the
engine compartment. In milder climates, plain
water can be used to top-up the reservoir, but
the reservoir should be kept no more than
two-thirds full, to allow for expansion should
the water freeze. In colder climates, the use of
a specially-formulated windscreen washer
fluid, available at your dealer or any car
accessory shop, will help lower the freezing
point of the fluid (see illustration). Do not use
regular (engine) antifreeze - it will damage the
vehicle’s paintwork.
Battery electrolyte
18 On models not equipped with a sealed
battery (see Section 9), check the electrolyte
level of all six battery cells. The level must be
approximately 10 mm above the plates; this
may be shown by maximum and minimum
level lines marked on the battery’s casing (see
3.18 On non-sealed batteries, keep the
electrolyte level of all the cells in the
battery between the maximum and
minimum levels (arrowed) - ie, 10 mm
above the plates. Use only distilled water,
and never overfill
3.19 Brake fluid reservoir, showing “MAX”
and “MIN” marks
illustration). If the level is low, use a coin to
release the filler/vent cap, and add distilled
water. Install and securely retighten the cap.
Caution: Overfilling the cells may
cause electrolyte to spill over
during periods of heavy charging,
causing corrosion or damage.
Refer also to the warning at the beginning
of Section 9.
Brake fluid
19 The brake fluid reservoir is located on the
top of the brake master cylinder, which is
attached to the front of the vacuum servo unit.
The “MAX” and “MIN” marks are indicated on
the side of the translucent reservoir, and the
fluid level should be maintained between
these marks at all times (see illustration).
20 The brake fluid inside the reservoir is
readily visible. With the vehicle on level
ground, the level should normally be on or just
below the “MAX” mark.
21 Progressive wear of the brake pads and
brake shoe linings causes the level of the
brake fluid to gradually fall; however, when
the brake pads are renewed, the original level
of the fluid is restored. It is not therefore
necessary to top-up the level to compensate
for this minimal drop, but the level must never
be allowed to fall below the minimum mark.
22 If topping-up is necessary, first wipe the
area around the filler cap with a clean rag
before removing the cap. When adding fluid,
pour it carefully into the reservoir, to avoid
spilling it on surrounding painted surfaces
(see illustration). Be sure to use only the
specified hydraulic fluid (see “Lubricants,
fluids and capacities” at the start of this
Chapter) since mixing different types of fluid
can cause damage to the system.
Warning: Brake hydraulic fluid
can harm your eyes and damage
painted surfaces, so use extreme
caution when handling and
pouring it. Wash off spills immediately with
plenty of water. Do not use fluid that has
been standing open for some time, as it
absorbs moisture from the air. Excess
3.22 Topping-up the brake fluid reservoir
moisture can cause corrosion and a
dangerous loss of braking effectiveness.
23 When adding fluid, it is a good idea to
inspect the reservoir for contamination. The
system should be drained and refilled if
deposits, dirt particles or contamination are
seen in the fluid.
24 After filling the reservoir to the correct
level, make sure that the cap is refitted
securely, to avoid leaks and the entry of
foreign matter.
25 If the reservoir requires repeated
replenishing to maintain the correct level, this
is an indication of an hydraulic leak
somewhere in the system, which should be
investigated immediately.
Power steering fluid
26 See Section 5 of this Chapter.
4 Tyre and tyre pressure checks
1 Periodic inspection of the tyres may spare
you from the inconvenience of being stranded
with a flat tyre. It can also provide you with
vital information regarding possible problems
in the steering and suspension systems
before major damage occurs.
2 The original tyres on this vehicle are
equipped with tread wear indicator (TWI)
bands, which will appear when the tread
depth reaches approximately 1.6 mm. Most
tyres have a mark around the tyre at regular
intervals to indicate the location of the tread
Weekly checks
4.2A The TWI mark on the side of the tyre
shows the position of the tread wear
indicator bands
4.2B A tyre tread depth indicator should
be used to monitor tyre wear - they are
available at accessory shops and service
stations, and cost very little
wear indicators, the mark being TWI, an
arrow, or the tyre manufacturer’s symbol (see
illustration). Tread wear can also be
monitored with a simple inexpensive device
known as a tread depth indicator gauge (see
illustration).
3 Ensure that tyre pressures are checked
regularly and maintained correctly (see the
Specifications at the beginning of this Chapter
for pressures). Checking should be carried out
with the tyres cold, and not immediately after
the vehicle has been in use. If the pressures
are checked with the tyres hot, an apparentlyhigh reading will be obtained, owing to heat
expansion. Under no circumstances should an
attempt be made to reduce the pressures to
the quoted cold reading in this instance, or
effective under-inflation will result.
1•9
1
Most garage forecourts have a
pressure line which combines a gauge
to check and adjust the tyre pressures,
but they may vary in accuracy, due to
general misuse and abuse. It therefore
pays to carry a good-quality tyre
pressure gauge in the vehicle, to make
the regular checks required and ensure
pressure accuracy.
Tyre Tread Wear Patterns
Shoulder Wear
Centre Wear
Toe Wear
Uneven Wear
Underinflation
(wear on both sides)
Check and adjust pressures
Overinflation
Check and adjust pressures
Incorrect toe setting
Adjust front wheel alignment
If you sometimes have to inflate
your car’s tyres to the higher
pressures specified for maximum
load or sustained high speed,
don’t forget to reduce the pressures to normal afterwards.
Incorrect camber or castor
Repair or renew suspension
parts
Note: The feathered edge of
the tread which characterises
toe wear is best checked by
feel.
Malfunctioning suspension
Repair or renew suspension
parts
Incorrect wheel camber
(wear on one side)
Repair or renew suspension
parts
Hard cornering
Reduce speed!
4 Note any abnormal tread wear (see
illustration). Tread pattern irregularities such
as feathering, flat spots, and more wear on
one side than the other, are indications of
front wheel alignment and/or balance
problems. If any of these conditions are
noted, they should be rectified as soon as
possible.
Unbalanced wheel
Balance tyres
Out-of-round brake disc/drum
Machine or renew
5 Under-inflation will cause overheating of the
tyre, owing to excessive flexing of the casing,
and the tread will not sit correctly on the road
surface. This will cause a consequent loss of
adhesion and excessive wear, not to mention
the danger of sudden tyre failure due to heat
build-up.
6 Over-inflation will cause rapid wear of the
centre part of the tyre tread, coupled with
reduced adhesion, harder ride, and the
danger of damage occurring in the tyre
casing.
7 Regularly check the tyres for damage in the
form of cuts or bulges, especially in the
sidewalls. Remove any nails or stones
embedded in the tread, before they penetrate
1•10
Weekly checks
the front wheels pointing straight ahead, and
switch off the engine.
4 Check that the fluid level is up to the “MAX”
mark on the reservoir (see illustration).
5 If topping-up is required, first use a clean
rag to wipe the filler cap and the surrounding
area, to prevent foreign matter from entering
the system. Unscrew and remove the filler
cap.
6 Top-up the level to the “MAX” mark, using
the grade of fluid specified at the beginning of
this Chapter (see illustration). Be careful not
to introduce dirt into the system, and do not
overfill. The need for frequent topping-up
indicates a leak, which should be
investigated.
7 Refit the filler cap.
5.4 Power steering fluid reservoir,
showing “MAX” and “MIN” marks
5.6 Topping-up the power steering fluid
reservoir
6.6 Releasing the catch to remove a
windscreen wiper blade
6.7 Tailgate wiper blade removal
the tyre to cause deflation. If removal of a nail
reveals that the tyre has been punctured, refit
the nail, so that its point of penetration is
marked. Then immediately change the wheel,
and have the tyre repaired by a tyre dealer. Do
not drive on a tyre in such a condition. If in any
doubt as to the possible consequences of any
damage found, consult your local tyre dealer
for advice.
8 General tyre wear is influenced to a large
degree by driving style - harsh braking and
acceleration, or fast cornering, will all produce
more rapid tyre wear. Interchanging of tyres
may result in more even wear; however, it is
worth bearing in mind that if this is completely
effective, the added expense is incurred of
replacing simultaneously a complete set of
tyres, which may prove financially restrictive
for many owners.
9 Front tyres may wear unevenly as a result of
wheel misalignment. The front wheels should
always be correctly aligned according to the
settings
specified
by
the
vehicle
manufacturer.
10 Don’t forget to check the spare tyre for
condition and pressure.
11 Legal restrictions apply to many aspects
of tyre fitting and usage, and in the UK this
information is contained in the Motor Vehicle
Construction and Use Regulations. It is
suggested that a copy of these regulations is
obtained from your local police, if in doubt as
to current legal requirements with regard to
tyre type and condition, minimum tread depth,
etc.
5 Power steering fluid level
check
1 The power steering fluid reservoir is located
on the right-hand rear corner of the engine
compartment.
2 For the fluid level check, the power steering
system should be at its normal operating
temperature, so it is best to carry out the
check after a run.
3 Position the vehicle on level ground, with
6 Windscreen/tailgate washer
system and wiper blade check
1 The windscreen wiper and blade assembly
should be inspected at the specified intervals
for damage, loose components, and cracked
or worn blade elements.
2 Road film can build up on the wiper blades
and affect their efficiency, so they should be
washed regularly with a mild detergent
solution.
3 The action of the wiping mechanism can
loosen bolts, nuts and fasteners, so they
should be checked and tightened, as
necessary, at the same time as the wiper
blades are checked.
4 If the wiper blade elements are cracked,
worn or warped, or no longer clean
adequately, they should be replaced with new
ones.
5 Lift the wiper arm and blade away from the
glass.
6 To remove the windscreen wiper blade,
release the catch on the arm, then turn the
blade through 90° and withdraw the blade
from the end of the arm (see illustration).
7 To remove the tailgate wiper blade, push
the wiper blade forward, and at the same time
depress it against the spring pressure, then
withdraw it from the end of the arm (see
illustration).
8 If the metal part of the wiper blade is in
good condition, it may be possible to renew
the rubber insert separately. The insert can be
obtained from a car accessory shop and,
according to type, it may need to be cut to the
correct length before sliding into the clips.
9 Refit the wiper blade assembly using a
reversal of the removal procedure, making
sure that it fully engages with the spring clip.
10 Check that the washer jets direct the fluid
onto
the
upper
part
of
the
windscreen/tailgate/rear window/headlight,
and if necessary adjust the small sphere on
the jet with a pin.
Every 10 000 miles
1•11
1
7.4 Removing the automatic transmission
dipstick from its tube
7.6A “MIN” and “MAX” marks on the
dipstick
7.6B Adding automatic transmission fluid
through the dipstick tube
Every 10 000 miles or 12 months
7 Automatic transmission fluid
level check
1 The level of the automatic transmission fluid
should be carefully maintained. Low fluid level
can lead to slipping or loss of drive, while
overfilling can cause foaming, loss of fluid and
transmission damage.
2 The transmission fluid level should only be
checked when the transmission is hot (at its
normal operating temperature). If the vehicle
has just been driven over 10 miles (15 miles in
a cold climate), and the fluid temperature is
160 to 175°F, the transmission is hot.
Caution: If the vehicle has just
been driven for a long time at
high speed or in city traffic in hot
weather, or if it has been pulling
a trailer, an accurate fluid level reading
cannot be obtained. In these
circumstances, allow the fluid to cool
down for about 30 minutes.
3 Park the vehicle on level ground, apply the
handbrake, and start the engine. While the
engine is idling, depress the brake pedal and
move the selector lever through all the gear
ranges three times, beginning and ending in
“P”.
4 Allow the engine to idle for one minute, then
(with the engine still idling) remove the dipstick
from its tube (see illustration). Note the
condition and colour of the fluid on the dipstick.
5 Wipe the fluid from the dipstick with a clean
rag, and re-insert it into the filler tube until the
cap seats.
6 Pull the dipstick out again, and note the
fluid level. The level should be between the
“MIN” and “MAX” marks. If the level is on the
“MIN” mark, stop the engine, and add the
specified automatic transmission fluid through
the dipstick tube, using a clean funnel if
necessary (see illustrations). It is important
not to introduce dirt into the transmission
when topping-up.
7 Add the fluid a little at a time, and keep
checking the level as previously described
until it is correct.
8 The need for regular topping-up of the
transmission fluid indicates a leak, which
should be found and rectified without delay.
9 The condition of the fluid should also be
checked along with the level. If the fluid at the
end of the dipstick is black or a dark reddishbrown colour, or if it has a burned smell, the
fluid should be changed. If you are in doubt
about the condition of the fluid, purchase
some new fluid, and compare the two for
colour and smell.
8 Electrical system check
1 Check the operation of all external lights
and indicators (front and rear).
2 Check for satisfactory operation of the
instrument panel, its illumination and warning
lights, the switches and their function lights.
3 Check the horn(s) for satisfactory operation.
4 Check all other electrical equipment for
satisfactory operation.
5 Check all electrical wiring in the engine
compartment for correct routing, and for any
signs of physical or heat-damage or chafing.
9 Battery check, maintenance
and charging
Warning: Certain precautions
must be followed when checking
and servicing the battery.
Hydrogen gas, which is highly
flammable, is always present in the battery
cells, so keep lighted tobacco and all other
open flames and sparks away from the
battery. The electrolyte inside the battery
is actually dilute sulphuric acid, which will
cause injury if splashed on your skin or in
your eyes. It will also ruin clothes and
painted surfaces. When disconnecting the
battery, always detach the negative (earth)
lead first and connect it last!
Note: Before disconnecting the battery, refer
to Section 1 of Chapter 5.
9.1 Tools and materials required for
battery maintenance
1 Face shield/safety goggles - When
removing corrosion with a brush, the acidic
particles can easily fly up into your eyes
2 Baking soda - A solution of baking soda
and water can be used to neutralise corrosion
3 Petroleum jelly - A layer of this on the
battery terminals will help prevent corrosion
4 Battery terminal/lead cleaner - This wire
brush cleaning tool will remove all traces of
corrosion from the battery terminals and lead
clamps
5 Treated felt washers - Placing one of
these on each terminal, directly under the
lead clamps, will help prevent corrosion
6 Puller - Sometimes the lead clamps are
very difficult to pull off the terminals, even
after the nut has been completely slackened.
This tool pulls the clamp straight up and off
the terminal without damage
7 Battery terminal/lead cleaner - Here is
another cleaning tool which is a slightly
different version of number 4 above, but does
the same thing
8 Rubber gloves - Another safety item to
consider when servicing the battery;
remember, that’s acid inside the battery!
1•12
Every 10 000 miles
9.6A Battery terminal corrosion usually
appears as light, fluffy powder
9.6B Removing a lead from the battery
terminal - always remove the earth lead
first, and connect it last!
9.7A When cleaning the lead clamps, all
corrosion must be removed - the inside of
the clamp is tapered to match the terminal,
so don’t remove too much material
1 A
routine
preventive
maintenance
programme for the battery in your vehicle is
the only way to ensure quick and reliable
starts. Before performing any battery
maintenance, make sure that you have the
proper equipment necessary to work safely
around the battery (see illustration).
2 There are also several precautions that
should be taken whenever battery
maintenance is performed. Before servicing
the battery, always turn the engine and all
accessories off, and disconnect the lead from
the negative terminal of the battery - see
Chapter 5, Section 1.
3 The battery produces hydrogen gas, which
is both flammable and explosive. Never create
a spark, smoke, or light a match around the
battery. Always charge the battery in a wellventilated area.
4 Electrolyte contains poisonous and
corrosive sulphuric acid. Do not allow it to get
in your eyes, on your skin, or on your clothes.
Never ingest it. Wear protective safety glasses
when working near the battery. Keep children
away from the battery.
5 Note the external condition of the battery. If
the positive terminal and lead clamp on your
vehicle’s battery is equipped with a plastic
cover or rubber protector, make sure that it’s
not torn or damaged. It should completely
cover the terminal. Look for any corroded or
loose connections, cracks in the case or
cover, or loose hold-down clamps. Also check
the entire length of each lead for cracks and
frayed conductors.
6 If corrosion, which looks like white, fluffy
deposits (see illustration) is evident,
particularly around the terminals, the battery
should be removed for cleaning. Slacken the
lead clamp nuts with a spanner, being careful
to remove the negative (earth) lead first, and
slide them off the terminals (see illustration).
Then unscrew the hold-down clamp nuts,
remove the clamp, and lift the battery from the
engine compartment.
7 Clean the lead clamps thoroughly, using a
soft wire brush or a terminal cleaner, with a
solution of warm water and baking soda.
Wash the terminals and the top of the battery
case with the same solution, but make sure
that the solution doesn’t get into the battery.
When cleaning the leads, terminals and
battery top, wear safety goggles and rubber
gloves, to prevent any solution from coming in
contact with your eyes or hands. Wear old
clothes too - even when diluted, sulphuric
acid splashed onto clothes will burn holes in
them. If the terminals have been extensively
corroded, clean them up with a terminal
cleaner (see illustrations). Thoroughly wash
all cleaned areas with plain water.
8 Make sure that the battery tray is in good
condition and the hold-down clamp nuts are
tight (see illustration). If the battery is
removed from the tray, make sure no parts
remain in the bottom of the tray when the
battery is refitted. When refitting the
hold-down clamp nuts, do not overtighten
them.
9 Information on removing and installing the
battery can be found in Chapter 5. Information
on jump starting can be found at the front of
this manual. For more detailed battery
checking procedures, refer to the Haynes
Automobile Electrical and Electronic Systems
Manual.
9.7B Regardless of the method used to
clean the terminals, a clean, shiny surface
should result
9.8 Make sure the battery hold-down nuts
(arrowed) are tight
General
Cleaning
10 Corrosion on the hold-down components,
battery case and surrounding areas can be
removed with a solution of water and baking
soda. Thoroughly rinse all cleaned areas with
plain water.
11 Any metal parts of the vehicle damaged
by corrosion should be covered with a
zinc-based primer, then painted.
Charging
Warning: When batteries are
being charged, hydrogen gas,
which is very explosive and
flammable, is produced. Do not
smoke, or allow open flames, near a
charging or a recently-charged battery.
Wear eye protection when near the battery
during charging. Also, make sure the
charger is unplugged before connecting or
disconnecting the battery from the
charger.
12 Slow-rate charging is the best way to
restore a battery that’s discharged to the
point where it will not start the engine. It’s also
a good way to maintain the battery charge in a
vehicle that’s only driven a few miles between
starts. Maintaining the battery charge is
particularly important in winter, when the
battery must work harder to start the engine,
and electrical accessories that drain the
battery are in greater use.
13 It’s best to use a one- or two-amp battery
charger (sometimes called a “trickle” charger).
They are the safest, and put the least strain on
the battery. They are also the least expensive.
For a faster charge, you can use a higher-
Every 10 000 miles
1•13
1
11.3 Removing the auxiliary drivebelt
cover - it is secured by a fastener at each
end (arrowed) - from inside the right-hand
front wheel arch
amperage charger, but don’t use one rated
more than 1/10th the amp/hour rating of the
battery (ie no more than 5 amps, typically).
Rapid boost charges that claim to restore the
power of the battery in one to two hours are
hardest on the battery, and can damage
batteries not in good condition. This type of
charging should only be used in emergency
situations.
14 The average time necessary to charge a
battery should be listed in the instructions that
come with the charger. As a general rule, a
trickle charger will charge a battery in 12 to
16 hours.
10 Seat belt check
1 Check the seat belts for satisfactory
operation and condition. Inspect the webbing
for fraying and cuts. Check that they retract
smoothly and without binding into their reels.
2 Check that the seat belt mounting bolts are
tight, and if necessary tighten them to the
specified torque wrench setting.
11 Auxiliary drivebelt check and
renewal
General
1 The auxiliary drivebelt is of the flat, multiribbed (or “polyvee”) type, and is located on
the right-hand end of the engine. It drives the
alternator, water pump, power steering pump
and (when fitted) the air conditioning
compressor from the engine’s crankshaft
pulley.
2 The good condition and proper tension of
the auxiliary drivebelt is critical to the
operation of the engine. Because of their
composition and the high stresses to which
they are subjected, drivebelts stretch and
11.4 Check the auxiliary drivebelt for signs
of wear like these. Very small cracks across
the drivebelt ribs are acceptable. If the
cracks are deep, or if the drivebelt looks
worn or damaged in any other way, renew it
11.6 The auxiliary drivebelt is tensioned by
an automatic tensioner; Torx screws
(arrowed) secure it to alternator mounting
bracket
deteriorate as they get older. They must,
therefore, be regularly inspected.
Check
3 With the engine switched off, open and
support the bonnet, then locate the auxiliary
drivebelt on the right-hand end of the engine,
under the engine right-hand mounting
bracket. (Be very careful, and wear protective
gloves to minimise the risk of burning your
hands on hot components, if the engine has
recently been running.) For improved access,
jack up the front right-hand side of the
vehicle, support it securely on an axle stand,
remove the roadwheel, then remove the
auxiliary drivebelt cover (two fasteners) from
inside the wheel arch (see illustration).
4 Using an inspection light or a small electric
torch, and rotating the engine when necessary
with a spanner applied to the crankshaft
pulley bolt, check the whole length of the
drivebelt for cracks, separation of the rubber,
and torn or worn ribs (see illustration). Also
check for fraying and glazing, which gives the
drivebelt a shiny appearance. Both sides of
the drivebelt should be inspected, which
means you will have to twist the drivebelt to
check the underside. Use your fingers to feel
the drivebelt where you can’t see it. If you are
in any doubt as to the condition of the
drivebelt, renew it (go to paragraph 7).
Drivebelt tension
5 The auxiliary drivebelt is tensioned by an
automatic tensioner; regular checks are not
required, and manual “adjustment” is not
possible.
6 If you suspect that the drivebelt is slipping
and/or running slack, or that the tensioner is
otherwise faulty, it must be renewed. To do
this, remove the drivebelt as described below,
then unbolt the tensioner (two Torx-type
screws accessible from underneath, via the
wheel arch) from the alternator mounting
bracket (see illustration). On fitting the new
tensioner, ensure it is aligned correctly on its
mountings, and tighten the screws to the
specified torque wrench setting.
11.9 Rotate the tensioner pulley clockwise
to release its pressure on the drivebelt,
then slip the drivebelt off the crankshaft
pulley
Renewal
7 Open the bonnet. Jack up the front righthand side of the vehicle and support it
securely on an axle stand, remove the
roadwheel, then remove the auxiliary drivebelt
cover (two fasteners) from inside the wheel
arch.
8 If the existing drivebelt is to be refitted,
mark it, or note the maker’s markings on its
flat surface, so that it can be installed the
same way round.
9 Reaching up between the body and the
engine (above and to the rear of the
crankshaft pulley), apply a spanner to the
hexagon in the centre of the automatic
tensioner’s pulley. Rotate the tensioner pulley
clockwise to release its pressure on the
drivebelt, then slip the drivebelt off the
crankshaft pulley, and release the tensioner
again (see illustration). Working from the
wheel arch or engine compartment as
necessary, and noting its routing, slip the
drivebelt off the remaining pulleys and
withdraw it.
10 Check all the pulleys, ensuring that their
grooves are clean, and removing all traces of
oil and grease. Check that the tensioner
works properly, with strong spring pressure
1•14
Every 10 000 miles
11.11A When installing the auxiliary
drivebelt, make sure that it is centred - it
must not overlap either edge of the
grooved pulleys
being felt when its pulley is rotated clockwise,
and a smooth return to the limit of its travel
when released.
11 If the original drivebelt is being refitted,
use the marks or notes made on removal, to
ensure that it is installed to run in the same
direction as it was previously. To fit the
drivebelt, arrange it on the grooved pulleys so
that it is centred in their grooves, and not
overlapping their raised sides (note that the
flat surface of the drivebelt is engaged on the
idler, tensioner and water pump pulleys) and
routed correctly (see illustrations). Start at
the top, and work down to finish at the
crankshaft pulley; rotate the tensioner pulley
clockwise, slip the drivebelt onto the
crankshaft pulley, then release the tensioner
again.
12 Using a spanner applied to the crankshaft
pulley bolt, rotate the crankshaft through at
least two full turns clockwise to settle the
drivebelt on the pulleys, then check that the
drivebelt is properly installed.
13 Refit the auxiliary drivebelt cover and
roadwheel, then lower the vehicle to the
ground.
12 Underbonnet check for fluid
leaks and hose condition
Caution: Renewal of air
conditioning hoses must be left
to a dealer service department or
air conditioning specialist who has the
equipment to depressurise the system
11.11B Auxiliary drivebelt routing
1 Power steering pump
2 Idler pulley
3 Alternator
4 Automatic tensioner
5 Air conditioning
compressor (when fitted)
safely. Never remove air conditioning
components or hoses until the system has
been depressurised.
General
1 High temperatures in the engine
compartment can cause the deterioration of
the rubber and plastic hoses used for engine,
accessory and emission systems operation.
Periodic inspection should be made for
cracks, loose clamps, material hardening and
leaks.
2 Carefully check the large top and bottom
radiator hoses, along with the other smallerdiameter cooling system hoses and metal
pipes; do not forget the heater hoses/pipes
which run from the engine to the bulkhead,
and those to the engine oil cooler (where
fitted). Inspect each hose along its entire
length, replacing any that is cracked, swollen
or shows signs of deterioration. Cracks may
become more apparent if the hose is
squeezed (see illustration). If you are using
non-Ford specification antifreeze, and so
have to renew the coolant every two years or
so, it’s a good idea to renew the hoses at that
time, regardless of their apparent condition.
3 Make sure that all hose connections are
tight. A leak in the cooling system will usually
show up as white- or rust-coloured deposits
on the areas adjoining the leak; if the spring
clamps that are used to secure the hoses in
this system appear to be slackening, they
should be renewed to prevent the possibility
of leaks.
4 Some other hoses are secured to their
6 Crankshaft pulley
7 Water pump pulley
fittings with clamps. Where clamps are used,
check to be sure they haven’t lost their
tension, allowing the hose to leak. If clamps
aren’t used, make sure the hose has not
expanded and/or hardened where it slips over
the fitting, allowing it to leak.
12.2 Hoses, like drivebelts, have a habit of
failing at the worst possible time - to
prevent the inconvenience of a blown
radiator or heater hose, inspect them
carefully as shown here
Every 10 000 miles
5 Check all fluid reservoirs, filler caps, drain
plugs and fittings etc, looking for any signs of
leakage of oil, transmission and/or brake
hydraulic fluid, coolant and power steering
fluid. If the vehicle is regularly parked in the
same place, close inspection of the ground
underneath it will soon show any leaks; ignore
the puddle of water which will be left if the air
conditioning system is in use. As soon as a
leak is detected, its source must be traced
and rectified. Where oil has been leaking for
some time, it is usually necessary to use a
steam cleaner, pressure washer or similar, to
clean away the accumulated dirt, so that the
exact source of the leak can be identified.
Vacuum hoses
6 It’s quite common for vacuum hoses,
especially those in the emissions system, to
be colour-coded, or to be identified by
coloured stripes moulded into them. Various
systems require hoses with different wall
thicknesses, collapse resistance and
temperature resistance. When renewing
hoses, be sure the new ones are made of the
same material.
7 Often the only effective way to check a
hose is to remove it completely from the
vehicle. If more than one hose is removed, be
sure to label the hoses and fittings to ensure
correct installation.
8 When checking vacuum hoses, be sure to
include any plastic T-fittings in the check.
Inspect the fittings for cracks, and check the
hose where it fits over the fitting for distortion,
which could cause leakage.
9 A small piece of vacuum hose (quarter-inch
inside diameter) can be used as a
stethoscope to detect vacuum leaks. Hold
one end of the hose to your ear, and probe
around vacuum hoses and fittings, listening
for the “hissing” sound characteristic of a
vacuum leak.
Warning: When probing with the
vacuum hose stethoscope, be
very careful not to come into
contact with moving engine
components such as the auxiliary
drivebelt, radiator electric cooling fan, etc.
Fuel hoses
Warning: There are certain
precautions which must be taken
when inspecting or servicing fuel
system components. Work in a wellventilated area, and do not allow open
flames (cigarettes, appliance pilot lights,
etc.) or bare light bulbs near the work
area. Mop up any spills immediately, and
do not store fuel-soaked rags where they
could ignite.
10 Check all fuel hoses for deterioration and
chafing. Check especially for cracks in areas
where the hose bends, and also just before
fittings, such as where a hose attaches to the
fuel filter.
11 High-quality fuel line, usually identified by
the word “Fluoroelastomer” printed on the
hose, should be used for fuel line renewal.
Never, under any circumstances, use
unreinforced vacuum line, clear plastic tubing
or water hose for fuel lines.
12 Spring-type clamps are commonly used
on fuel lines. These clamps often lose their
tension over a period of time, and can be
“sprung” during removal. Replace all
spring-type clamps with screw clamps
whenever a hose is replaced.
Metal lines
13 Sections of metal piping are often used
for fuel line between the fuel filter and the
engine. Check carefully to be sure the piping
has not been bent or crimped, and that cracks
have not started in the line.
14 If a section of metal fuel line must be
renewed, only seamless steel piping should
be used, since copper and aluminium piping
don’t have the strength necessary to
withstand normal engine vibration.
15 Check the metal brake lines where they
enter the master cylinder and ABS hydraulic
unit (if used) for cracks in the lines or loose
fittings. Any sign of brake fluid leakage calls
for an immediate and thorough inspection of
the brake system.
13 Engine compartment wiring
check
1 With the vehicle parked on level ground,
apply the handbrake firmly and open the
bonnet. Using an inspection light or a small
electric torch, check all visible wiring within
and beneath the engine compartment.
2 What you are looking for is wiring that is
obviously damaged by chafing against sharp
edges, or against moving suspension/
transmission components and/or the auxiliary
drivebelt, by being trapped or crushed
between carelessly-refitted components, or
melted by being forced into contact with the
hot engine castings, coolant pipes, etc. In
almost all cases, damage of this sort is
caused in the first instance by incorrect
routing on reassembly after previous work has
been carried out.
3 Depending on the extent of the problem,
damaged wiring may be repaired by rejoining
the break or splicing-in a new length of wire,
using solder to ensure a good connection,
and remaking the insulation with adhesive
insulating tape or heat-shrink tubing, as
appropriate. If the damage is extensive, given
the implications for the vehicle’s future
reliability, the best long-term answer may well
be to renew that entire section of the loom,
however expensive this may appear.
4 When the actual damage has been
repaired, ensure that the wiring loom is rerouted correctly, so that it is clear of other
components, and not stretched or kinked, and
is secured out of harm’s way using the plastic
clips, guides and ties provided.
5 Check all electrical connectors, ensuring
1•15
that they are clean, securely fastened, and
that each is locked by its plastic tabs or wire
clip, as appropriate. If any connector shows
external signs of corrosion (accumulations of
white or green deposits, or streaks of “rust”),
or if any is thought to be dirty, it must be
unplugged and cleaned using electrical
contact cleaner. If the connector pins are
severely corroded, the connector must be
renewed; note that this may mean the renewal
of that entire section of the loom - see your
local Ford dealer for details.
6 If the cleaner completely removes the
corrosion to leave the connector in a
satisfactory condition, it would be wise to
pack the connector with a suitable material
which will exclude dirt and moisture,
preventing the corrosion from occurring
again; a Ford dealer may be able to
recommend a suitable product.
7 Check the condition of the battery
connections - remake the connections or
renew the leads if a fault is found (see Chapter 5). Use the same techniques to ensure that
all earth points in the engine compartment
provide good electrical contact through clean,
metal-to-metal joints, and that all are securely
fastened. (In addition to the earth connection
at the engine lifting eye, and that from the
transmission to the body/battery, there are
one or two earth points behind each headlight
assembly, and one below the power steering
fluid reservoir.)
8 Refer to Section 31 for details of spark plug
(HT) lead checks.
14 Air conditioning system
check
Warning: The air conditioning
system is under high pressure.
Do not loosen any fittings or
remove any components until
after the system has been discharged. Air
conditioning refrigerant must be properly
discharged into an approved type of
container, at a dealer service department
or an automotive air conditioning repair
facility capable of handling R134a
refrigerant. Always wear eye protection
when disconnecting air conditioning
system fittings.
1 The following maintenance checks should
be performed on a regular basis, to ensure
that the air conditioner continues to operate at
peak efficiency:
(a) Check the auxiliary drivebelt. If it’s worn
or deteriorated, renew it (see Section 11).
(b) Check the system hoses. Look for cracks,
bubbles, hard spots and deterioration.
Inspect the hoses and all fittings for oil
bubbles and seepage. If there’s any
evidence of wear, damage or leaks, renew
the hose(s).
(c) Inspect the condenser fins for leaves,
insects and other debris. Use a “fin
1
1•16
Every 10 000 miles
comb” or compressed air to clean the
condenser.
Warning: Wear eye protection
when using compressed air!
(d) Check that the drain tube from the front
of the evaporator is clear - note that it is
normal to have clear fluid (water) dripping
from this while the system is in operation,
to the extent that quite a large puddle can
be left under the vehicle when it is parked.
2 It’s a good idea to operate the system for
15.1 These tools are required when
changing the engine oil and filter
1 Drain pan - It should be fairly shallow in
depth, but wide to prevent spills
2 Rubber gloves - When removing the drain
plug and filter, it is inevitable that you will get
oil on your hands (the gloves will prevent
burns from hot oil)
3 Breaker bar - Sometimes the oil drain plug
is pretty tight, and a long breaker bar is
needed to loosen it
4 Socket - To be used with the breaker bar
or a ratchet (must be the correct size to fit the
drain plug)
5 Filter wrench - This is a metal band-type
wrench, which requires clearance around the
filter to be effective
6 Filter wrench - This type fits on the
bottom of the filter, and can be turned with a
ratchet or breaker bar (different size wrenches
are available for different types of filters)
Note: It is
antisocial and
illegal to dump
oil down the
drain. To find
the location of
your local oil
recycling bank,
call this
number free.
about 30 minutes at least once a month,
particularly during the winter. Long term
non-use can cause hardening, and
subsequent failure, of the seals.
3 Because of the complexity of the air
conditioning system and the special
equipment necessary to service it, in-depth
fault diagnosis and repairs are not included in
this manual. For more complete information
on the air conditioning system, refer to the
Haynes Automotive Heating and Air
Conditioning Manual.
4 The most common cause of poor cooling is
simply a low system refrigerant charge. If a
noticeable drop in cool air output occurs, the
following quick check will help you determine
if the refrigerant level is low.
5 Warm the engine up to normal operating
temperature.
6 Place the air conditioning temperature
selector at the coldest setting, and put the
blower at the highest setting. Open the doors
- to make sure the air conditioning system
doesn’t cycle off as soon as it cools the
passenger compartment.
7 With the compressor engaged - the clutch
will make an audible click, and the centre of
the clutch will rotate - feel the inlet and outlet
pipes at the compressor. One side should be
cold, and one hot. If there’s no perceptible
difference between the two pipes, there’s
something wrong with the compressor or the
system. It might be a low charge - it might be
something else. Take the vehicle to a dealer
service department or an automotive air
conditioning specialist.
15 Engine oil and filter change
Frequent oil changes are the
best preventive maintenance
the home mechanic can give
the engine, because ageing
oil becomes diluted and contaminated,
which leads to premature engine wear.
15.7 Use the correct-size spanner or
socket to remove the oil drain plug and
avoid rounding it off
1 Make sure that you have all the necessary
tools before you begin this procedure (see
illustration). You should also have plenty of
rags or newspapers handy, for mopping up
any spills.
2 To avoid any possibility of scalding, and to
protect yourself from possible skin irritants
and other harmful contaminants in used
engine oils, it is advisable to wear gloves
when carrying out this work.
3 Access to the underside of the vehicle is
greatly improved if the vehicle can be lifted on
a hoist, driven onto ramps, or supported by
axle stands.
Warning: Do not work under a
vehicle which is supported only
by an hydraulic or scissors-type
jack, or by bricks, blocks of
wood, etc.
4 If this is your first oil change, get under the
vehicle and familiarise yourself with the
position of the engine oil drain plug, which is
located at the rear of the sump. The engine
and exhaust components will be warm during
the actual work, so try to anticipate any
potential problems while the engine and
accessories are cool.
5 The oil should preferably be changed when
the engine is still fully warmed-up to normal
operating temperature, just after a run (the
needle on the temperature gauge should be in
the “Normal” sector of the gauge); warm oil
and sludge will flow out more easily. Park the
vehicle on firm, level ground, apply the
handbrake firmly, then select 1st or reverse
gear (manual transmission) or the “P” position
(automatic transmission). Open the bonnet
and remove the engine oil filler cap from the
cylinder head cover, then remove the oil level
dipstick from its tube (see Section 3).
6 Raise the front of the vehicle, and support it
securely on axle stands. Remove the front
right-hand roadwheel to provide access to the
oil filter; if the additional working clearance is
required, remove also the auxiliary drivebelt
cover (two fasteners).
15.9 Since the oil filter is usually on very
tight, you’ll need a special wrench for
removal. DO NOT use the wrench to
tighten the new filter. Pack rag under the
filter before removal to minimise the mess
Every 10 000 miles
15.10 Lubricate the filter’s sealing ring
with clean engine oil before installing the
filter on the engine
Warning: To avoid personal
injury, never get beneath the
vehicle when it is supported by
only by a jack. The jack provided
with your vehicle is designed solely for
raising the vehicle to remove and refit the
roadwheels. Always use axle stands to
support the vehicle when it becomes
necessary to place your body underneath
the vehicle.
7 Being careful not to touch the hot exhaust
components, place the drain pan under the
drain plug, and unscrew the plug (see
illustration). If possible, try to keep the plug
pressed into the sump while unscrewing it by
hand the last couple of turns. As the plug
releases from the threads, move it away
sharply, so the stream of oil issuing from the
sump runs into the pan, not up your sleeve!
Allow the oil to drain into the drain pan, and
check the condition of the plug’s sealing
washer; renew it if worn or damaged.
8 Allow some time for the old oil to drain,
noting that it may be necessary to reposition
the pan as the oil flow slows to a trickle; when
the oil has completely drained, wipe clean the
drain plug and its threads in the sump and
refit the plug, tightening it to the specified
torque wrench setting.
9 Using a suitable filter removal tool, unscrew
the oil filter from the right-hand rear of the
cylinder block; be prepared for some oil
spillage (see illustration). Check the old filter
to make sure that the rubber sealing ring
hasn’t stuck to the engine; if it has, carefully
remove it. Withdraw the filter through the
wheel arch, taking care to spill as little oil as
possible.
10 Using a clean, lint-free rag, wipe clean the
cylinder block around the filter mounting. If
there are no specific instructions supplied
with it, fit a new oil filter as follows. Apply a
light coating of clean engine oil to the filter’s
sealing ring (see illustration). Screw the filter
into position on the engine until it seats, then
tighten it through a further half- to threequarters of a turn only. Tighten the filter by
hand only - do not use any tools.
11 Remove the old oil and all tools from
under the vehicle, refit the roadwheel, and
lower the vehicle to the ground.
16.2 Topping-up the manual transmission
oil
12 Refill the engine with oil, using the correct
grade and type of oil, as given in the
Specifications Section of this Chapter. Pour in
half the specified quantity of oil first, then wait
a few minutes for the oil to fall to the sump.
Continue adding oil a small quantity at a time,
until the level is up to the lower notch on the
dipstick. Adding approximately 0.5 to 1.0 litre
will raise the level to the dipstick’s upper
notch.
13 Start the engine. The oil pressure warning
light will take a few seconds to go out while
the new filter fills with oil; do not race the
engine while the light is on. Run the engine for
a few minutes, while checking for leaks
around the oil filter seal and the drain plug.
14 Switch off the engine, and wait a few
minutes for the oil to settle in the sump once
more. With the new oil circulated and the filter
now completely full, recheck the level on the
dipstick, and add more oil as necessary.
15 Dispose of the used engine oil safely, with
reference to “General repair procedures” in
the reference Sections of this manual.
16 Manual transmission oil level
check
1•17
you will see the filler/level plug. Unscrew and
remove it. If the lubricant level is correct, the
oil should be up to the lower edge of the hole.
2 If the transmission needs more lubricant (if
the oil level is not up to the hole), use a
syringe, or a plastic bottle and tube, to add
more (see illustration). Stop filling the
transmission when the lubricant begins to run
out of the hole.
3 Refit the filler/level plug, and tighten it to the
specified torque wrench setting. Drive the
vehicle a short distance, then check for leaks.
4 A need for regular topping-up can only be
due to a leak, which should be found and
rectified without delay.
17 Clutch pedal adjustment
The procedure is described in Chapter 8,
Section 3.
18 Automatic transmission
linkage lubrication
1 Apply the handbrake, then jack up the front
of the vehicle and support on axle stands.
Remove the left-hand front wheel.
2 Apply a little oil to the cable end fitting on
the selector lever on the left-hand side of the
transmission (refer to Chapter 7, Part B if
necessary).
3 Refit the wheel, and lower the vehicle to the
ground.
19 Steering, suspension and
roadwheel check
Front suspension and steering
check
1 The manual transmission does not have a
dipstick. To check the oil level, raise the
vehicle and support it securely on axle stands,
making sure that the vehicle is level. On the
lower front side of the transmission housing,
1 Apply the handbrake, then raise the front of
the vehicle and support it on axle stands.
2 Visually inspect the balljoint dust covers
and the steering gear gaiters for splits, chafing
or deterioration (see illustrations). Any wear
19.2A Check the condition of the track rod
balljoint dust cover (arrowed)
19.2B Check the condition of the lower
arm balljoint dust cover (arrowed)
1
1•18
Every 10 000 miles
19.2C Check the condition of the steering
rack gaiters
19.4 Checking for wear in the front
suspension and hub bearings
of these components will cause loss of
lubricant, together with dirt and water entry,
resulting in rapid deterioration of the balljoints
or steering gear.
3 Check the power-assisted steering fluid
hoses for chafing or deterioration, and the
pipe and hose unions for fluid leaks. Also
check for signs of fluid leakage under
pressure from the steering gear rubber
gaiters, which would indicate failed fluid seals
within the steering gear.
4 Grasp the roadwheel at the 12 o’clock and
6 o’clock positions, and try to rock it (see
illustration). Very slight free play may be felt,
but if the movement is appreciable, further
investigation is necessary to determine the
source. Continue rocking the wheel while an
assistant depresses the footbrake. If the
movement is now eliminated or significantly
reduced, it is likely that the hub bearings are
at fault. If the free play is still evident with the
footbrake depressed, then there is wear in the
suspension joints or mountings.
5 Now grasp the wheel at the 9 o’clock and
3 o’clock positions, and try to rock it as
before. Any movement felt now may again be
caused by wear in the hub bearings or the
steering track rod balljoints. If the outer track
rod balljoint is worn, the visual movement will
be obvious. If the inner joint is suspect, it can
be felt by placing a hand over the rack-andpinion rubber gaiter, and gripping the track
rod. If the wheel is now rocked, movement will
be felt at the inner joint if wear has taken
place.
6 Using a large screwdriver or flat bar, check
for wear in the suspension mounting bushes
by levering between the relevant suspension
component and its attachment point. Some
movement is to be expected as the mountings
are made of rubber, but excessive wear
should be obvious. Also check the condition
of any visible rubber bushes, looking for splits,
cracks or contamination of the rubber.
7 With the vehicle standing on its wheels,
have an assistant turn the steering wheel
back-and-forth, about an eighth of a turn each
way. There should be very little, if any, lost
movement between the steering wheel and
roadwheels. If this is not the case, closely
observe the joints and mountings previously
described, but in addition, check the steering
column universal joints for wear, and also
check the rack-and-pinion steering gear itself.
Rear suspension check
8 Chock the front wheels, then raise the rear
of the vehicle and support it on axle stands.
9 Check the rear hub bearings for wear, using
the method described for the front hub
bearings (paragraph 4).
10 Using a large screwdriver or flat bar,
check for wear in the suspension mounting
bushes by levering between the relevant
suspension component and its attachment
point. Some movement is to be expected as
the mountings are made of rubber, but
excessive wear should be obvious.
Roadwheel check and balancing
11 Periodically remove the roadwheels, and
clean any dirt or mud from the inside and
outside surfaces. Examine the wheel rims for
signs of rusting, corrosion or other damage.
Light alloy wheels are easily damaged by
“kerbing” whilst parking, and similarly, steel
wheels may become dented or buckled.
Renewal of the wheel is very often the only
course of remedial action possible.
12 The balance of each wheel and tyre
assembly should be maintained, not only to
avoid excessive tyre wear, but also to avoid
wear in the steering and suspension
components. Wheel imbalance is normally
signified by vibration through the vehicle’s
bodyshell, although in many cases it is
particularly noticeable through the steering
wheel. Conversely, it should be noted that
wear or damage in suspension or steering
components may cause excessive tyre wear.
Out-of-round or out-of-true tyres, damaged
wheels
and
wheel
bearing
wear/
maladjustment also fall into this category.
Balancing will not usually cure vibration
caused by such wear.
13 Wheel balancing may be carried out with
the wheel either on or off the vehicle. If
balanced on the vehicle, ensure that the
wheel-to-hub relationship is marked in some
way prior to subsequent wheel removal, so
that it may be refitted in its original position.
20.2 Check the driveshaft gaiters by hand
for cracks and/or leaking grease
20 Driveshaft rubber gaiter and
CV joint check
1 The driveshaft rubber gaiters are very
important, because they prevent dirt, water
and foreign material from entering and
damaging the constant velocity (CV) joints.
External contamination can cause the gaiter
material to deteriorate prematurely, so it’s a
good idea to wash the gaiters with soap and
water occasionally.
2 With the vehicle raised and securely
supported on axle stands, turn the steering
onto full-lock, then slowly rotate each front
wheel in turn. Inspect the condition of the
outer constant velocity (CV) joint rubber
gaiters, squeezing the gaiters to open out the
folds. Check for signs of cracking, splits, or
deterioration of the rubber, which may allow
the escape of grease, and lead to the ingress
of water and grit into the joint (see
illustration). Also check the security and
condition of the retaining clips. Repeat these
checks on the inner CV joints. If any damage
or deterioration is found, the gaiters should be
renewed as described in Chapter 8.
3 At the same time, check the general
condition of the outer CV joints themselves,
by first holding the driveshaft and attempting
to rotate the wheels. Repeat this check on the
inner joints, by holding the inner joint yoke
and attempting to rotate the driveshaft.
4 Any appreciable movement in the CV joint
indicates wear in the joint, wear in the
driveshaft splines, or a loose driveshaft
retaining nut.
21 Exhaust system check
1 With the engine cold (at least three hours
after the vehicle has been driven), check the
complete exhaust system, from its starting
point at the engine to the end of the tailpipe.
Ideally, this should be done on a hoist, where
unrestricted access is available; if a hoist is
not available, raise and support the vehicle on
axle stands.
2 Check the pipes and connections for
Every 000 miles
1•19
1
21.2 If any of the exhaust system rubber
mountings are to be renewed, ensure that
the replacements are of the correct type their colour is a good guide. Those nearest
to the catalytic converter are more heatresistant than the others
evidence of leaks, severe corrosion, or
damage. Make sure that all brackets and
rubber mountings are in good condition, and
tight; if any of the mountings are to be
renewed, ensure that the replacements are of
the correct type (see illustration). Leakage at
any of the joints or in other parts of the system
will usually show up as a black sooty stain in
the vicinity of the leak. Note: Exhaust sealants
should not be used on any part of the exhaust
system upstream of the catalytic converter even if the sealant does not contain additives
harmful to the converter, pieces of it may
break off and foul the element, causing local
overheating.
3 At the same time, inspect the underside of
the body for holes, corrosion, open seams,
etc. which may allow exhaust gases to enter
the passenger compartment. Seal all body
openings with silicone or body putty.
4 Rattles and other noises can often be
traced to the exhaust system, especially the
rubber mountings. Try to move the system,
silencer(s) and catalytic converter. If any
components can touch the body or
suspension parts, secure the exhaust system
with new mountings.
5 Check the running condition of the engine
by inspecting inside the end of the tailpipe;
the exhaust deposits here are an indication of
the engine’s state of tune. The inside of the
tailpipe should be dry, and should vary in
colour from dark grey to light grey/brown; if it
is black and sooty, or coated with white
deposits, the engine is in need of a thorough
fuel system inspection.
22 Underbody and fuel/brake
line check
1 With the vehicle raised and supported on
axle stands or over an inspection pit,
thoroughly inspect the underbody and wheel
arches for signs of damage and corrosion. In
particular, examine the bottom of the side
sills, and any concealed areas where mud can
collect. Where corrosion and rust is evident,
23.10 Checking the condition of a flexible
brake hose
23.13 Prise the rubber plugs from the
backplates to inspect the leading brake
shoe linings
press and tap firmly on the panel with a
screwdriver, and check for any serious
corrosion which would necessitate repairs. If
the panel is not seriously corroded, clean
away the rust, and apply a new coating of
underseal. Refer to Chapter 11 for more
details of body repairs.
2 At the same time, inspect the PVC-coated
lower body panels for stone damage and
general condition.
3 Inspect all of the fuel and brake lines on the
underbody for damage, rust, corrosion and
leakage. Also make sure that they are
correctly supported in their clips. Where
applicable, check the PVC coating on the
lines for damage.
caliper, and check that the thickness of the
friction lining material on each of the pads is
not less than the recommended minimum
thickness given in the Specifications. Note:
Bear in mind that the lining material is normally
bonded to a metal backing plate.
6 If it is difficult to determine the exact
thickness of the pad linings, or if you are at all
concerned about the condition of the pads,
then remove them from the calipers for further
inspection (refer to Chapter 9).
7 Check the remaining brake caliper(s) in the
same way.
8 If any one of the brake pads has worn down
to, or below, the specified limit, all four pads
at that end of the car must be renewed as a
set (ie all the front pads or all the rear pads).
9 Measure the thickness of the discs with a
micrometer, if available, to make sure that
they still have service life remaining. If any
disc is thinner than the specified minimum
thickness, renew it (refer to Chapter 9). In any
case, check the general condition of the
discs. Look for excessive scoring and
discolouration caused by overheating. If these
conditions exist, remove the relevant disc and
have it resurfaced or renewed (refer to
Chapter 9).
10 Before refitting the wheels, check all
brake lines and hoses (refer to Chapter 9). In
particular, check the flexible hoses in the
vicinity of the calipers, where they are
subjected to most movement. Bend them
between the fingers (but do not actually bend
them double, or the casing may be damaged)
and check that this does not reveal
previously-hidden cracks, cuts or splits (see
illustration).
23 Brake check
Note: For detailed photographs of the brake
system, refer to Chapter 9.
1 The work described in this Section should
be carried out at the specified intervals, or
whenever a defect is suspected in the braking
system. Any of the following symptoms could
indicate a potential brake system defect:
(a) The vehicle pulls to one side when the
brake pedal is depressed.
(b) The brakes make scraping or dragging
noises when applied.
(c) Brake pedal travel is excessive.
(d) The brake fluid requires repeated toppingup.
2 A brake pad wear warning light is fitted, and
it is illuminated when the thickness of the front
(or rear) disc brake pad linings reach the
minimum amount. However, a physical check
should be made to confirm the thickness of
the linings, as follows.
Disc brakes
3 Jack up the front or rear of the vehicle, as
applicable, and support it on axle stands.
Where rear brake pads are fitted, also jack up
the rear of the vehicle and support on axle
stands.
4 For better access to the brake calipers,
remove the wheels.
5 Look through the inspection window in the
Rear drum brakes
11 Chock the front wheels, then jack up the
rear of the vehicle and support on axle stands.
12 For better access, remove the rear
wheels.
13 To check the brake shoe lining thickness
without removing the brake drums, prise the
rubber plugs from the backplates, and use an
electric torch to inspect the linings of the
leading brake shoes (see illustration). Check
that the thickness of the lining material on the
1•20
Every 20 000 miles
25 Roadwheel nut tightness
check
23.14 If the lining is bonded to the brake
shoe, measure the lining thickness from
the outer surface to the metal shoe, as
shown here; if the lining is riveted to the
shoe, measure from the lining outer
surface to the rivet head
brake shoes is not less than the
recommendation given in the Specifications.
14 If it is difficult to determine the exact
thickness of the brake shoe linings, or if you
are at all concerned about the condition of the
shoes, then remove the rear drums for a more
comprehensive inspection (refer to Chapter 9)
(see illustration).
15 With the drum removed, check the shoe
return and hold-down springs for correct
installation, and check the wheel cylinders for
leakage of brake fluid. Check the friction
surface of the brake drums for scoring and
discoloration. If excessive, the drum should
be resurfaced or renewed.
16 Before refitting the wheels, check all
brake lines and hoses (refer to Chapter 9). On
completion, apply the handbrake and check
that the rear wheels are locked. The
handbrake is self-adjusting, and no manual
adjustment is possible.
24 Door and bonnet check and
lubrication
1 Check that the doors, bonnet and
tailgate/boot lid close securely. Check that
the bonnet safety catch operates correctly.
Check the operation of the door check straps.
2 Lubricate the hinges, door check straps,
the striker plates and the bonnet catch
sparingly with a little oil or grease.
1 Apply the handbrake.
2 Remove the wheel covers, using the flat
end of the wheelbrace supplied in the tool kit
(on models with the RS trim kit, it will be
necessary to unscrew the retaining bolts with
the special key).
3 Check that the roadwheel nuts are tightened
to the specified torque wrench setting.
4 Refit the wheel covers.
26 Road test
Check the operation and
performance of the braking
system
1 Make sure that the vehicle does not pull to
one side when braking, and that the wheels
do not lock prematurely when braking hard.
2 Check that there is no vibration through the
steering when braking.
3 Check that the handbrake operates
correctly, without excessive movement of the
lever, and that it holds the vehicle stationary
on a slope.
4 With the engine switched off, test the
operation of the brake servo unit as follows.
Depress the footbrake four or five times to
exhaust the vacuum, then start the engine. As
the engine starts, there should be a noticeable
“give” in the brake pedal as vacuum builds
up. Allow the engine to run for at least two
minutes, and then switch it off. If the brake
pedal is now depressed again, it should be
possible to detect a hiss from the servo as the
pedal is depressed. After about four or five
applications, no further hissing should be
heard, and the pedal should feel considerably
harder.
check for any suspension noises when
cornering and driving over bumps.
Drivetrain
8 Check the performance of the engine,
transmission and driveshafts.
9 Check that the engine starts correctly, both
when cold and when hot.
10 Listen for any unusual noises from the
engine and transmission.
11 Make sure that the engine runs smoothly
when idling, and that there is no hesitation
when accelerating.
12 On manual transmission models, check
that all gears can be engaged smoothly
without noise, and that the gear lever action is
not abnormally vague or “notchy”.
13 On automatic transmission models, make
sure that all gearchanges occur smoothly
without snatching, and without an increase in
engine speed between changes. Check that
all the gear positions can be selected with the
vehicle at rest. If any problems are found, they
should be referred to a Ford dealer.
14 Listen for a metallic clicking sound from
the front of the vehicle as the vehicle is driven
slowly in a circle with the steering on full-lock.
Carry out this check in both directions. If a
clicking noise is heard, this indicates wear in a
driveshaft joint, in which case renew the joint
if necessary.
Clutch
15 Check that the clutch pedal moves
smoothly and easily through its full travel, and
that the clutch itself functions correctly, with
no trace of slip or drag. If the movement is
uneven or stiff in places, check that the cable
is routed correctly, with no sharp turns.
16 Inspect both ends of the clutch inner
cable, both at the gearbox end and inside the
car, for signs of wear and fraying.
17 Check the pedal stroke as described in
Chapter 8, Section 3, and adjust if necessary.
Steering and suspension
Instruments and electrical
equipment
5 Check for any abnormalities in the steering,
suspension, handling or road “feel”.
6 Drive the vehicle, and check that there are
no unusual vibrations or noises.
7 Check that the steering feels positive, with
no excessive sloppiness or roughness, and
18 Check the operation of all instruments
and electrical equipment.
19 Make sure that all instruments read
correctly, and switch on all electrical
equipment in turn, to check that it functions
properly.
Every 20 000 miles or 2 years
27 Ventilation system pollen
filter renewal
1 The air entering the vehicle’s ventilation
system is passed through a very fine pleatedpaper air filter element, which removes
particles of pollen, dust and other airborne
foreign matter. To ensure its continued
effectiveness, this filter’s element must be
renewed at regular intervals.
2 Remove the left-hand side windscreen
wiper arm (Chapter 12).
3 Prise off their trim caps, then unscrew the two
screws securing the windscreen edge of the cowl
grille panel; open the bonnet and remove the
remaining three retaining screws (see illustration).
4 Peel back the rubber seal and withdraw the
cowl grille panel.
5 Releasing the clip at each end, lift out the
pollen filter housing, and withdraw the
element (see illustrations).
6 Wipe out the ventilation system intake and
the filter housing, removing any leaves, dead
insects etc.
7 If carrying out a routine service, the element
must be renewed regardless of its apparent
condition. If you are checking the element for
any other reason, inspect its front surface; if it
is very dirty, renew the element. If it is only
moderately dusty, it can be re-used by
blowing it clean from the rear to the front
surface with compressed air. Because it is a
Every 20 000 miles
27.3 Remove screws (arrowed) to release
cowl grille panel . . .
pleated-paper type filter, it cannot be washed
or re-oiled. If it cannot be cleaned
satisfactorily with compressed air, discard
and renew it.
Warning: Wear eye protection
when using compressed air!
8 Refitting is the reverse of the removal
procedure; ensure that the element and
housing are securely seated, so that unfiltered
air cannot enter the passenger compartment.
28 Coolant renewal
Note: If the antifreeze used is Ford’s own, or of
similar quality, the coolant need not be
renewed for the life of the vehicle. If the
vehicle’s history is unknown, if antifreeze of
lesser quality is known to be in the system, or
simply if you prefer to follow conventional
servicing intervals, the coolant should be
changed periodically (typically, every 2 years)
as described here. Refer also to the
information in Section 2 of this Chapter.
Warning: Do not allow antifreeze
to come in contact with your skin
or painted surfaces of the
vehicle. Flush contaminated areas
immediately with plenty of water. Don’t
store new coolant, or leave old coolant
lying around, where it’s accessible to
children or pets - they’re attracted by its
sweet smell. Ingestion of even a small
amount of coolant can be fatal! Wipe up
garage-floor and drip-pan spills
immediately. Keep antifreeze containers
covered, and repair cooling system leaks
as soon as they’re noticed.
Warning: Never remove the
expansion tank filler cap when
the engine is running, or has just
been switched off, as the cooling system
will be hot, and the consequent escaping
steam and scalding coolant could cause
serious injury.
1
27.5A . . . release clips to lift out pollen
filter housing . . .
27.5B . . . then withdraw pollen filter
element
1 To drain the system, first remove the
expansion tank filler cap (see Section 3).
2 If the additional working clearance is
required, raise the front of the vehicle and
support it securely on axle stands.
3 Remove the radiator undershield (eight or
nine screws), then place a large drain tray
underneath, and unscrew the radiator drain
plug; direct as much of the escaping coolant
as possible into the tray (see illustrations).
however, the system has been neglected, a
more thorough operation will be required, as
follows.
7 First drain the coolant, then disconnect the
radiator top and bottom hoses. Insert a
garden hose into the top hose, and allow
water to circulate through the radiator until it
runs clean from the bottom outlet.
8 To flush the engine, insert the garden hose
into the thermostat water outlet, and allow
water to circulate until it runs clear from the
bottom hose. If, after a reasonable period, the
water still does not run clear, the radiator
should be flushed with a good proprietary
cleaning agent.
9 In severe cases of contamination, reverseflushing of the radiator may be necessary. To
do this, remove the radiator (Chapter 3), invert
it, and insert the garden hose into the bottom
outlet. Continue flushing until clear water runs
from the top hose outlet. A similar procedure
can be used to flush the heater matrix.
10 The use of chemical cleaners should be
necessary only as a last resort. Normally,
regular renewal of the coolant will prevent
excessive contamination of the system.
System flushing
4 With time, the cooling system may
gradually lose its efficiency, as the radiator
core becomes choked with rust, scale
deposits from the water, and other sediment
(refer also to the information at the start of
Section 2). To minimise this, as well as using
only good-quality antifreeze and clean soft
water, the system should be flushed as
follows whenever any part of it is disturbed,
and/or when the coolant is renewed.
5 With the coolant drained, refit the drain plug
and refill the system with fresh water. Refit the
expansion tank filler cap, start the engine and
warm it up to normal operating temperature,
then stop it and (after allowing it to cool down
completely) drain the system again. Repeat as
necessary until only clean water can be seen
to emerge, then refill finally with the specified
coolant mixture.
6 If only clean, soft water and good-quality
antifreeze (even if not to Ford’s specification)
has been used, and the coolant has been
renewed at the suggested intervals, the above
procedure will be sufficient to keep clean the
system for a considerable length of time. If,
Coolant draining
Warning: Wait until the engine is
cold before starting this
procedure.
1•21
28.3A Remove the screws (arrowed) and
withdraw the radiator undershield . . .
Coolant filling
11 With the cooling system drained and
flushed, ensure that all disturbed hose unions
28.3B . . . to unscrew the radiator drain
plug (arrowed) and empty the cooling
system. Try to protect yourself from
coolant splashing into your eyes or onto
your skin, catching as much of it as
possible in the drain tray
1•22
Every 30 000 miles
28.11 Ensure radiator undershield is
located securely in three clips at front
edge (arrowed) when refitting
are correctly secured, and that the radiator
drain plug is securely tightened. Refit the
radiator undershield, noting that it is located
by three clips at its front edge; tighten the
retaining screws securely (see illustration). If
it was raised, lower the vehicle to the ground.
12 Prepare a sufficient quantity of the
specified coolant mixture (see below); allow
for a surplus, so as to have a reserve supply
for topping-up.
13 Slowly fill the system through the
expansion tank; since the tank is the highest
point in the system, all the air in the system
should be displaced into the tank by the rising
liquid. Slow pouring reduces the possibility of
air being trapped and forming air-locks.
14 Continue filling until the coolant level
reaches the expansion tank “MAX” level line,
then cover the filler opening to prevent
coolant splashing out.
15 Start the engine and run it at idle speed,
until it has warmed-up to normal operating
temperature and the radiator electric cooling
fan has cut in; watch the temperature gauge
to check for signs of overheating. If the level in
the expansion tank drops significantly, top-up
to the “MAX” level line, to minimise the
amount of air circulating in the system.
16 Stop the engine, allow it to cool down
completely (overnight, if possible), then
uncover the expansion tank filler opening and
top-up the tank to the “MAX” level line. Refit
the filler cap, tightening it securely, and wash
off any spilt coolant from the engine
compartment and bodywork.
17 After refilling, always check carefully all
components of the system (but especially any
unions disturbed during draining and flushing)
for signs of coolant leaks. Fresh antifreeze has
a searching action, which will rapidly expose
any weak points in the system.
18 Note: If, after draining and refilling the
system, symptoms of overheating are found
which did not occur previously, then the fault
is almost certainly due to trapped air at some
point in the system, causing an air-lock and
restricting the flow of coolant; usually, the air
is trapped because the system was refilled too
quickly. In some cases, air-locks can be
released by tapping or squeezing the various
hoses. If the problem persists, stop the engine
and allow it to cool down completely, before
unscrewing the expansion tank filler cap or
disconnecting hoses to bleed out the trapped
air.
Antifreeze mixture
19 If the antifreeze used is not to Ford’s
specification, it should always be renewed at
the suggested intervals. This is necessary not
only to maintain the antifreeze properties, but
also to prevent the corrosion which would
otherwise occur as the corrosion inhibitors
become progressively less effective. Always
use an ethylene glycol-based antifreeze which
is suitable for use in mixed-metal cooling
systems.
20 If the antifreeze used is to Ford’s
specification, the levels of protection it affords
are indicated in the Specifications Section of
this Chapter. To give the recommended
standard mixture ratio for this antifreeze, 40%
(by volume) of antifreeze must be mixed with
60% of clean, soft water; if you are using any
other type of antifreeze, follow its
manufacturer’s instructions to achieve the
correct ratio. It is best to make up slightly
more than the system’s specified capacity, so
that a supply is available for subsequent
topping-up.
21 Before adding antifreeze, the cooling
system should be completely drained,
preferably flushed, and all hoses checked for
condition and security. As noted earlier, fresh
antifreeze will rapidly find any weaknesses in
the system.
22 After filling with antifreeze, a label should
be attached to the expansion tank, stating the
type and concentration of antifreeze used,
and the date installed. Any subsequent
topping-up should be made with the same
type and concentration of antifreeze. If
topping-up using antifreeze to Ford’s
specification, note that a 50/50 mixture is
permissible, purely for convenience.
23 Do not use engine antifreeze in the
windscreen/tailgate washer system, as it will
damage the vehicle’s paintwork. A screen
wash additive should be added to the washer
system in its maker’s recommended
quantities.
General cooling system checks
24 The engine should be cold for the cooling
system checks, so perform the following
procedure before driving the vehicle, or after it
has been shut off for at least three hours.
25 Remove the expansion tank filler cap (see
Section 3), and clean it thoroughly inside and
out with a rag. Also clean the filler neck on the
expansion tank. The presence of rust or
corrosion in the filler neck indicates that the
coolant should be changed. The coolant
inside the expansion tank should be relatively
clean and transparent. If it is rust- coloured,
drain and flush the system, and refill with a
fresh coolant mixture.
26 Carefully check the radiator hoses and
heater hoses along their entire length; renew
any hose which is cracked, swollen or
deteriorated (see Section 12).
27 Inspect all other cooling system
components (joint faces, etc.) for leaks. A leak
in the cooling system will usually show up as
white- or rust-coloured deposits on the area
adjoining the leak. Where any problems of this
nature are found on system components,
renew the component or gasket with
reference to Chapter 3.
28 Clean the front of the radiator with a soft
brush to remove all insects, leaves, etc,
embedded in the radiator fins. Be careful not
to damage the radiator fins, or cut your fingers
on them.
Every 30 000 miles or 3 years
29 Air filter element renewal
1 The air filter element is located in the air
cleaner assembly on the left-hand side of the
engine compartment. Release the clips, and
lift the air cleaner cover (see illustrations). If
the additional working clearance is required,
unclip the cover from the air mass meter, and
withdraw it completely.
2 Lift out the element, and wipe out the
housing (see illustration). Check that no
foreign matter is visible, either in the air intake
or in the air mass meter.
3 If carrying out a routine service, the element
must be renewed regardless of its apparent
condition; note that the small foam filter in the
rear right-hand corner of the air cleaner
housing must be cleaned whenever the air
filter element is renewed (see Section 30).
4 If you are checking the element for any
other reason, inspect its lower surface; if it is
oily or very dirty, renew the element. If it is
only moderately dusty, it can be re-used by
blowing it clean from the upper to the lower
surface with compressed air. Because it is a
pleated-paper type filter, it cannot be washed
or re-oiled. If it cannot be cleaned
satisfactorily with compressed air, discard
and renew it.
Warning: Wear eye protection
when using compressed air!
Caution: Never drive the vehicle
with the air cleaner filter element
removed. Excessive engine wear could
result, and backfiring could even cause a
fire under the bonnet.
Every 30 000 miles
29.1A Release the wire clips to detach the
cover from the air cleaner assembly . . .
29.1B . . . noting the long clip normally
hidden by the battery . . .
5 Refitting is the reverse of the removal
procedure. Ensure that the element and cover
are securely seated, so that unfiltered air
cannot enter the engine.
restriction to airflow should be felt in either
direction. A similar test can be applied to
check that the inlet manifold passages are
clear - air should be heard hissing out of the
plenum chamber mouth as you blow.
4 The PCV valve is designed to allow gases
to flow out of the crankcase only, so that a
depression is created in the crankcase under
most operating conditions, particularly at idle.
Therefore, if either the oil separator or the PCV
valve are thought to be blocked, they must be
renewed (see Chapter 6). In such a case,
however, there is nothing to be lost by
attempting to flush out the blockage using a
suitable solvent. The PCV valve should rattle
when shaken.
5 While the air filter element is removed (see
Section 29), wipe out the housing, and
withdraw the small foam filter from its location
in the rear right-hand corner of the housing
(see illustration). If the foam is badly clogged
with dirt or oil, it must be cleaned by soaking it
in a suitable solvent, and allowed to dry
before being refitted.
30 Positive Crankcase
Ventilation (PCV) system
check and filter cleaning
1 The Positive Crankcase Ventilation (PCV)
system components are located at the front of
the engine, underneath the exhaust manifold
and air intake resonator. Refer to Chapter 6
for further information.
2 Check that all components of the system
are securely fastened, correctly routed (with
no kinks or sharp bends to restrict flow) and in
sound condition; renew any worn or damaged
components.
3 If oil leakage is noted, disconnect the
various hoses and pipes, and check that all
are clear and unblocked. Remove the air
cleaner assembly cover, air mass meter and
resonator, then check that the hose from the
cylinder head cover to the air cleaner housing
is clear and undamaged. Disconnect the
rubber T-piece both from the union on the
inlet manifold left-hand end, and from the
metal crankcase breather pipe under the
ignition coil. Connect a spare, clean, length of
hose to the breather pipe. Suck on the end of
the hose, then blow through it - little or no
30.5 The Positive Crankcase Ventilation
(PCV) system filter in the air cleaner
assembly must be cleaned whenever the
air filter element is renewed
1•23
29.2 . . . lift the element out of the housing,
and wipe out its interior before fitting the
new element
be attempted unless specialised equipment is
available, as damage can easily be caused to
the firing ends.
2 Spark plug removal and refitting requires a
spark plug socket, with an extension which
can be turned by a ratchet handle or similar.
This socket is lined with a rubber sleeve, to
protect the porcelain insulator of the spark
plug, and to hold the plug while you insert it
into the spark plug hole. You will also need a
wire-type feeler gauge, to check and adjust
the spark plug electrode gap, and a torque
wrench to tighten the new plugs to the
specified torque (see illustration).
3 To remove the spark plugs, first open the
bonnet; the plugs are easily reached at the
top of the engine. Note how the spark plug
(HT) leads are routed and secured by clips
along the channel in the cylinder head cover.
31 Spark plug renewal
Spark plug check and renewal
1 It is vital for the correct running, full
performance and proper economy of the
engine that the spark plugs perform with
maximum efficiency. The most important
factor in ensuring this is that the plugs fitted
are appropriate for the engine. The suitable
type is given in the Specifications Section at
the beginning of this Chapter, on the Vehicle
Emissions Control Information (VECI) label
located on the underside of the bonnet (only
on models sold in some areas) or in the
vehicle’s Owner’s Handbook. If these sources
specify different plugs, purchase the spark
plug type specified on the VECI label (where
appropriate), as that information is provided
specifically for your engine. If this type is used
and the engine is in good condition, the spark
plugs should not need attention between
scheduled renewal intervals. Spark plug
cleaning is rarely necessary, and should not
31.2 Tools required for changing spark
plugs
1 Spark plug socket - This will have special
padding inside, to protect the spark plug
porcelain insulator
2 Torque wrench - Although not essential,
use of this tool is the best way to ensure that
the plugs are tightened properly
3 Ratchet - Standard hand tool to fit the
plug socket
4 Extension - Depending on the other tools
available, you may need an extension to reach
the plugs
5 Spark plug gap gauge - This gauge for
checking the gap comes in a variety of styles.
Make sure the gap for your engine is included
1
1•24
Every 30 000 miles
To prevent the possibility of mixing up spark
plug (HT) leads, it is a good idea to try to work
on one spark plug at a time.
4 If the marks on the original-equipment
spark plug (HT) leads cannot be seen, mark
the leads 1 to 4, to correspond to the cylinder
the lead serves (No 1 cylinder is at the timing
belt end of the engine). Pull the leads from the
plugs by gripping the rubber boot sealing the
cylinder head cover opening, not the lead,
otherwise the lead connection may be
fractured.
5 It is advisable to soak up any water in the
spark plug recesses with a rag, and to remove
any dirt from them using a clean brush,
vacuum cleaner or compressed air before
removing the plugs, to prevent any dirt or
water from dropping into the cylinders.
Warning: Wear eye protection
when using compressed air!
6 Unscrew the spark plugs, ensuring that the
socket is kept in alignment with each plug - if
the socket is forcibly moved to either side, the
porcelain top of the plug may be broken off. If
any undue difficulty is encountered when
unscrewing any of the spark plugs, carefully
Specifications
Engine
Direction of crankshaft rotation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Oil filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Clockwise (seen from right-hand side of vehicle)
Champion C148
Cooling system
Coolant protection at 40% antifreeze/water mixture ratio:
Slush point . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Solidifying point . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Coolant specific gravity at 40% antifreeze/water mixture ratio and
15°C/59°F - with no other additives in coolant . . . . . . . . . . . . . . . . . . . .
-25°C (-13°F)
-30°C (-22°F)
1.061
Fuel system
Idle speed - nominal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Air filter element . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Fuel filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
* Note: Given for reference only - not adjustable.
830 ± 50 rpm*
Champion U618
Champion L218
Ignition system
Firing order . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-3-4-2 (No 1 cylinder at timing belt end of engine)
Spark plugs:*
Type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Champion RE7YCC
Electrode gap . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.0 mm
Spark plug (HT) leads:
Type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Champion type not available
Maximum resistance per lead . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
30 000 ohms
* Information on spark plug types and electrode gaps is as recommended by Champion Spark Plug. Where alternative types are used, refer to
their manufacturer’s recommendations
Braking system
Note: No minimum lining thicknesses are given by Ford - the following is given as a general recommendation. If the pad wear warning light
comes on before the front brake pad linings reach the minimum thickness, the pads should nevertheless be renewed immediately.
Minimum front or rear brake pad lining thickness . . . . . . . . . . . . . . . . .
1.5 mm
Minimum rear brake shoe lining thickness . . . . . . . . . . . . . . . . . . . . . . .
1.0 mm
Suspension and steering
Tyre pressures (cold):
Front
Rear
Normally laden* . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.1 bars (31 psi)
2.1 bars (31 psi)
Fully laden* . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.4 bars (35 psi)
2.8 bars (41 psi)
Note: Normally laden means up to 3 persons. For sustained high speeds above 100 mph (160 km/h), increased pressures are necessary.
Consult the driver’s handbook supplied with the vehicle.
Wiper blades
Windscreen:
Driver’s side . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Passenger’s side . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Tailgate:
Hatchback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Estate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Torque wrench settings
Auxiliary drivebelt cover fasteners . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Auxiliary drivebelt automatic tensioner Torx screws . . . . . . . . . . . . . . . .
Engine oil drain plug . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Manual transmission filler/level plug . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Radiator undershield screws . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Spark plugs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Champion X 5303 (and SP 01 spoiler)
Champion X 5103
Champion X 5103
Champion type not available
Nm
5 to 10
23
25
35
7
15
lbf ft
4 to 7
17
18
26
5
11
Every 30 000 miles
1•25
1
31.12 Spark plug manufacturers
recommend using a wire-type gauge when
checking the gap - if the wire does not
slide between the electrodes with a slight
drag, adjustment is required
31.13 To change the gap, bend the outer
electrode only, as indicated by the arrows,
and be very careful not to crack or chip the
porcelain insulator surrounding the centre
electrode
31.16 Spark plugs have tapered seats - do
not overtighten them on refitting, or you
will not be able to get them out again
without risking damage to the plugs and
cylinder head
check the cylinder head threads and tapered
sealing surfaces for signs of wear, excessive
corrosion or damage; if any of these
conditions is found, seek the advice of a Ford
dealer as to the best method of repair.
7 As each plug is removed, examine it as
follows - this will give a good indication of the
condition of the engine. If the insulator nose of
the spark plug is clean and white, with no
deposits, this is indicative of a weak mixture.
8 If the tip and insulator nose are covered
with hard black-looking deposits, then this is
indicative that the mixture is too rich. Should
the plug be black and oily, then it is likely that
the engine is fairly worn, as well as the mixture
being too rich.
9 If the insulator nose is covered with light tan
to greyish-brown deposits, then the mixture is
correct, and it is likely that the engine is in
good condition.
10 If you are renewing the spark plugs,
purchase the new plugs, then check each of
them first for faults such as cracked insulators
or damaged threads. Note also that,
whenever the spark plugs are renewed as a
routine service operation, the spark plug (HT)
leads should be checked as described below.
11 The spark plug electrode gap is of
considerable importance as, if it is too large or
too small, the size of the spark and its
efficiency will be seriously impaired. The gap
should be set to the value given in the
Specifications Section of this Chapter. New
plugs will not necessarily be set to the correct
gap, so they should always be checked
before fitting.
12 Special spark plug electrode gap
adjusting tools are available from most motor
accessory shops (see illustration).
13 To set the electrode gap, measure the
gap with a feeler gauge, and then bend open,
or closed, the outer plug electrode until the
correct gap is achieved (see illustration). The
centre electrode should never be bent, as this
may crack the insulation and cause plug
failure, if nothing worse. If the outer electrode
is not exactly over the centre electrode, bend
it gently to align them.
14 Before fitting the spark plugs, check that
the threaded connector
sleeves at the top of the plugs are tight, and
that the plug exterior surfaces and threads are
clean. Brown staining on the porcelain,
immediately above the metal body, is quite
normal, and does not necessarily indicate a
leak between the body and insulator.
15 On installing the spark plugs, first check
that the cylinder head thread and sealing
surface are as clean as possible; use a clean
rag wrapped around a paintbrush to wipe
clean the sealing surface. Apply a smear of
copper-based grease or anti-seize compound
to the threads of each plug, and screw them
in by hand where possible. Take extra care to
enter the plug threads correctly, as the
cylinder head is of aluminium alloy - it’s often
difficult to insert spark plugs into their holes
without cross-threading them.
wrench setting (see illustration). If a torque
wrench is not available - and this is one case
where the use of a torque wrench is strongly
recommended - tighten each spark plug
through no more than 1/16 of a turn. Do not
exceed the specified torque setting, and
NEVER overtighten these spark plugs - their
tapered seats mean they are almost
impossible to remove if abused.
17 Reconnect the spark plug (HT) leads in
their correct order, using a twisting motion on
the boot until it is firmly seated on the end of
the spark plug and on the cylinder head cover.
To avoid the possibility of crossthreading a spark plug, fit a short piece
of rubber hose over the end of the
plug. The flexible hose acts as a
universal joint, to help align the plug
with the plug hole. Should the plug
begin to cross-thread, the hose will slip
on the spark plug, preventing thread
damage.
16 When each spark plug is started correctly
on its threads, screw it down until it just seats
lightly, then tighten it to the specified torque
Spark plug (HT) lead check
18 The spark plug (HT) leads should be
checked whenever the plugs themselves are
renewed. Start by making a visual check of
the leads while the engine is running. In a
darkened garage (make sure there is
ventilation) start the engine and observe each
lead. Be careful not to come into contact with
any moving engine parts. If there is a break in
the lead, you will see arcing or a small spark
at the damaged area.
19 The spark plug (HT) leads should be
inspected one at a time, to prevent mixing up
the firing order, which is essential for proper
engine operation. Each original lead should be
numbered to identify its cylinder. If the
number is illegible, a piece of tape can be
marked with the correct number, and
wrapped around the lead (the leads should be
numbered 1 to 4, with No 1 lead nearest the
timing belt end of the engine). The lead can
then be disconnected.
20 Check inside the boot for corrosion, which
will look like a white crusty powder. Clean this
off as much as possible; if it is excessive, or if
cleaning leaves the metal connector too badly
corroded to be fit for further use, the lead
must be renewed. Push the lead and boot
back onto the end of the spark plug. The boot
should fit tightly onto the end of the plug - if it
doesn’t, remove the lead and use pliers
carefully to crimp the metal connector inside
the boot until the fit is snug.
21 Using a clean rag, wipe the entire length of
1•26
Every 60 000 miles
31.22 Measure the resistance of the spark
plug leads - if any exceeds the specified
maximum value, renew all the leads
33.5 Squeeze together fuel filter pipe union
locking lugs, then pull pipes off filter stubs ensure pipes are correctly reconnected
33.7A When installing the new filter,
ensure the arrow showing direction of fuel
flow points towards the engine . . .
the lead to remove built-up dirt and grease.
Once the lead is clean, check for burns, cracks
and other damage. Do not bend the lead
sharply, because the conductor might break.
22 Disconnect the lead from the ignition coil
by pressing together the plastic retaining
catches and pulling the end fitting off the coil
terminal. Check for corrosion and for a tight
fit. If a meter with the correct measuring range
is available, measure the resistance of the
disconnected lead from its coil connector to
its spark plug connector (see illustration). If
the resistance recorded for any of the leads
exceeds the value specified, all the leads
should be renewed as a set. Refit the lead to
the coil, noting that each coil terminal is
marked with its respective cylinder number,
so that there is no risk of mixing up the leads
and upsetting the firing order.
23 Inspect the remaining plug leads, ensuring
that each is securely fastened both ends when
the check is complete. If any sign of arcing,
severe connector corrosion, burns, cracks or
other damage is noticed, obtain new spark
plug (HT) leads, renewing them as a set. If new
spark plug leads are to be fitted, remove and
refit them one at a time, to avoid mix-ups in
the firing order.
33.7B . . . secure pipe unions as described do not overtighten clamp screw (arrowed)
Every 60 000 miles
32 Timing belt renewal
Refer to Chapter 2, Part A.
33 Fuel filter renewal
Warning: Petrol is extremely
flammable, so extra precautions
must be taken when working on
any part of the fuel system. Do not smoke,
or allow open flames or bare light bulbs,
near the work area. Also, do not work in a
garage if a gas appliance with a pilot light is
present. While performing any work on the
fuel system, wear safety glasses, and have
a suitable (Class B) fire extinguisher on
hand. If you spill any fuel on your skin, rinse
it off immediately with soap and water.
1 The fuel filter is located at the front righthand corner of the fuel tank, just forward of
the vehicle’s right-hand rear jacking point. The
filter performs a vital role in keeping dirt and
other foreign matter out of the fuel system,
and so must be renewed at regular intervals,
or whenever you have reason to suspect that
it may be clogged. It is always unpleasant
working under a vehicle - pressure-washing or
hosing clean the underbody in the filter’s
vicinity will make working conditions more
tolerable, and will reduce the risk of getting
dirt into the fuel system.
2 Relieve any residual pressure in the system
by removing the fuel pump fuse (No 14) and
starting the engine; allow the engine to idle until
it dies. Turn the engine over once or twice on
the starter, to ensure that all pressure is
released, then switch off the ignition.
Warning: This procedure will
merely relieve the pressure
necessary for the engine to run remember that fuel will still be present in
the system components, and take
precautions before disconnecting them.
3 Noting the comments made in Section 1 of
Chapter 5, disconnect the battery earth terminal.
4 Jack up the rear right-hand side of the
vehicle, and support it securely on an axle stand.
5 Using rag to soak up any spilt fuel, release
the fuel feed and outlet pipe unions from the
filter, by squeezing together the protruding
locking lugs on each union, and carefully
pulling the union off the filter stub (see
illustration). Where the unions are colourcoded, the feed and outlet pipes cannot be
confused; where both unions are the same
colour, note carefully which pipe is connected
to which filter stub, and ensure that they are
correctly reconnected on refitting.
6 Noting the arrows and/or other markings on
the filter showing the direction of fuel flow
(towards the engine), slacken the filter clamp
screw and withdraw the filter. Note that the
filter will still contain fuel; care should be
taken, to avoid spillage and to minimise the
risk of fire.
7 On installation, slide the filter into its clamp
so that the arrow marked on it faces the
correct way, then slide each pipe union on to
its (correct) respective filter stub, and press it
down until the locking lugs click into their
groove (see illustrations). Tighten the clamp
screw carefully, until the filter is just prevented
from moving; do not overtighten the clamp
screw, or the filter casing may be crushed.
8 Refit the fuel pump fuse and reconnect the
battery earth terminal, then switch the ignition
on and off five times, to pressurise the
system. Check for any sign of fuel leakage
around the filter unions before lowering the
vehicle to the ground and starting the engine.
The procedure is similar to that for the
bleeding of the hydraulic system as described
in Chapter 9, except that the brake fluid
reservoir should be emptied by syphoning,
and allowance should be made for the old
fluid to be removed from the circuit when
bleeding a section of the circuit.
Every 3 years
34 Brake fluid renewal
2A•1
Chapter 2 Part A:
In-car engine repair procedures
Contents
Auxiliary drivebelt check and renewal . . . . . . . . . . . . . See Chapter 1
Camshaft oil seals - renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Camshafts and hydraulic tappets - removal, inspection
and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Compression test - description and interpretation . . . . . . . . . . . . . . 3
Crankshaft oil seals - renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
Crankshaft pulley - removal and refitting . . . . . . . . . . . . . . . . . . . . . 8
Cylinder head - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . 14
Cylinder head and valve components - cleaning and
inspection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 2B
Cylinder head cover - removal and refitting . . . . . . . . . . . . . . . . . . . 5
Engine oil and filter change . . . . . . . . . . . . . . . . . . . . . See Chapter 1
Engine oil level check . . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 1
Engine overhaul - general information . . . . . . . . . . . . . See Chapter 2B
Engine/transmission - removal and refitting . . . . . . . . See Chapter 2B
Engine/transmission mountings - inspection and renewal . . . . . . . . 22
Exhaust manifold - removal, inspection and refitting . . . . . . . . . . . . 7
Flywheel/driveplate - removal, inspection and refitting . . . . . . . . . . 21
General information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
Inlet manifold - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . 6
Oil cooler - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
Oil level sensor - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . 18
Oil pressure warning light switch - removal and refitting . . . . . . . . . 19
Oil pump - removal, inspection and refitting . . . . . . . . . . . . . . . . . . . 16
Repair operations possible with the engine in the vehicle . . . . . . . . 2
Spark plug renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 1
Sump - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Timing belt - removal, refitting and adjustment . . . . . . . . . . . . . . . . 10
Timing belt covers - removal and refitting . . . . . . . . . . . . . . . . . . . . . 9
Timing belt tensioner and toothed pulleys - removal,
inspection and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Top Dead Centre (TDC) for No 1 piston - locating . . . . . . . . . . . . . . 4
Water pump - removal and refitting . . . . . . . . . . . . . . . See Chapter 3
2A
Degrees of difficulty
Easy, suitable for
novice with little
experience
Fairly easy, suitable
for beginner with
some experience
Fairly difficult, suitable
for competent DIY
mechanic
Difficult, suitable for
experienced DIY
mechanic
Very difficult,
suitable for expert DIY
or professional
Specifications
General
Engine type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Engine code:
1.6 litre models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.8 litre models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.0 litre models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Capacity:
1.6 litre models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.8 litre models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.0 litre models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Bore:
1.6 litre models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.8 litre models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.0 litre models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Stroke - all models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Compression ratio:
1.6 litre models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.8 and 2.0 litre models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Compression pressure - at starter motor speed, engine fully warmed-up .
Firing order . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Direction of crankshaft rotation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Four-cylinder, in-line, double overhead camshafts
LIF
RKA
NGA
1597 cc
1796 cc
1988 cc
76.0 mm
80.6 mm
84.8 mm
88.0 mm
10.3:1
10.0:1
Not available
1-3-4-2 (No 1 cylinder at timing belt end)
Clockwise (seen from right-hand side of vehicle)
Cylinder head
Hydraulic tappet bore inside diameter . . . . . . . . . . . . . . . . . . . . . . . . . .
28.395 to 28.425 mm
Camshafts and hydraulic tappets
Camshaft bearing journal diameter . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Camshaft bearing journal-to-cylinder head running clearance . . . . . . . .
Camshaft endfloat . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Hydraulic tappet diameter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
25.960 to 25.980 mm
0.020 to 0.070 mm
0.080 to 0.220 mm
28.400 mm
2A•2 In-car engine repair procedures
Lubrication
Engine oil type/specification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Engine oil capacity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Oil pressure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Oil pump clearances . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
See Chapter 1
See Chapter 1
No information available at time of writing
No information available at time of writing
Torque wrench settings
Nm
lbf ft
2
7
68
1.5
5
50
10
19
7
14
25
45
Angle-tighten a further 105°
18
33
4
7
9 to 11
38
8 to 11
10
35 to 40
10
See Chapter 3
48
18
47
3
5
6.5 to 8
28
6 to 8
7
26 to 30
7
35
13
35
47
35
47
16
10 maximum
35
12
7 maximum
7
10
23
16
10
108 to 115
10
10
19
18 to 25
27
27
21 to 22
10
110 to 112
22
40
5
7
17
12
7
80 to 85
7
7
14
13 to 18
20
20
15 to 16
7
81 to 83
16
30
Not available
10
48
120
7
35
89
78 to 84
48
10
48
120
58 to 62
35
7
35
89
Cylinder head cover bolts:
Stage 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Stage 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Camshaft toothed pulley bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Camshaft bearing cap bolts:
Stage 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Stage 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Cylinder head bolts:
Stage 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Stage 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Stage 3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Timing belt cover fasteners:
Upper-to-middle (outer) cover bolts . . . . . . . . . . . . . . . . . . . . . . . . . .
Cover-to-cylinder head or block bolts . . . . . . . . . . . . . . . . . . . . . . . .
Cover studs-to-cylinder head or block . . . . . . . . . . . . . . . . . . . . . . . .
Timing belt tensioner bolt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Timing belt tensioner backplate locating peg . . . . . . . . . . . . . . . . . . . . .
Timing belt tensioner spring retaining pin . . . . . . . . . . . . . . . . . . . . . . . .
Timing belt guide pulley bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Water pump pulley bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Water pump bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Auxiliary drivebelt idler pulley . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Inlet manifold nuts and bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Alternator mounting bracket-to-cylinder block bolts . . . . . . . . . . . . . . .
Cylinder head support plates:
Front plate Torx screws - to power steering pump/air conditioning
compressor mounting bracket and cylinder head . . . . . . . . . . . . . . .
Rear plate/engine lifting eye - to alternator mounting bracket
and cylinder head bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Front engine lifting eye bolt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Inlet and exhaust manifold studs-to-cylinder head . . . . . . . . . . . . . . . .
Exhaust manifold heat shield bolts:
Shield-to-cylinder head . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Shield/dipstick tube . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Shield/coolant pipe-to-manifold . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Exhaust manifold nuts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Air conditioning refrigerant pipe-to-exhaust manifold bolts . . . . . . . . . .
Crankshaft pulley bolt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Oil pump-to-cylinder block bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Oil pick-up pipe-to-pump screws . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Oil baffle/pump pick-up pipe nuts . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Oil filter adaptor-to-pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Oil pressure warning light switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Oil level sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sump bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Coolant pipe-to-sump bolt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Flywheel/driveplate bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Crankshaft left-hand oil seal carrier bolts . . . . . . . . . . . . . . . . . . . . . . . .
Transmission-to-engine bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Engine/transmission front mounting:
Mounting bracket-to-transmission . . . . . . . . . . . . . . . . . . . . . . . . . . .
Mounting-to-subframe bolts/nuts - stage 1 . . . . . . . . . . . . . . . . . . . .
Mounting-to-subframe bolts/nuts - stage 2 . . . . . . . . . . . . . . . . . . . .
Mounting centre bolt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Engine/manual transmission rear mounting:
Mounting bracket-to-transmission 12 mm fasteners . . . . . . . . . . . . .
Mounting bracket-to-transmission 10 mm fasteners . . . . . . . . . . . . .
Mounting-to-subframe bolts and nut - stage 1 . . . . . . . . . . . . . . . . . .
Mounting-to-subframe bolts and nut - stage 2 . . . . . . . . . . . . . . . . . .
Mounting centre bolt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
In-car engine repair procedures 2A•3
Torque wrench settings (continued)
Engine/automatic transmission rear mounting:
Mounting bracket-to-transmission . . . . . . . . . . . . . . . . . . . . . . . . . . .
Mounting-to-subframe bolts - stage 1 . . . . . . . . . . . . . . . . . . . . . . . .
Mounting-to-subframe bolts - stage 2 . . . . . . . . . . . . . . . . . . . . . . . .
Mounting centre bolt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Engine/transmission left-hand mounting:
Bracket-to-transmission nuts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Mounting centre bolt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Mounting-to-body bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Engine/transmission right-hand mounting:
Bracket-to-engine and mounting nuts . . . . . . . . . . . . . . . . . . . . . . . .
Mounting-to-body bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Note: Refer to Part B of this Chapter for remaining torque wrench settings.
Nm
lbf ft
48 to 49
10
48
120
35 to 36
7
35
89
83
Not available
Not available
61
83 to 90
84
61 to 66
62
1 General information
How to use this Chapter
This Part of Chapter 2 is devoted to repair
procedures possible while the engine is still
installed in the vehicle, and includes only the
Specifications relevant to those procedures.
Since these procedures are based on the
assumption that the engine is installed in the
vehicle, if the engine has been removed from
the vehicle and mounted on a stand, some of
the preliminary dismantling steps outlined will
not apply.
Information concerning engine/transmission
removal and refitting, and engine overhaul, can
be found in Part B of this Chapter, which also
includes the Specifications relevant to those
procedures.
2A
General description - engine
The engine, also known by Ford’s internal
code name “Zetec” (formerly “Zeta”), is of
four-cylinder,
in-line
type,
mounted
transversely at the front of the vehicle, with
the (clutch and) transmission on its left-hand
end (see illustrations).
Apart from the plastic timing belt covers and
the cast-iron cylinder block/crankcase, all
major engine castings are of aluminium alloy.
The crankshaft runs in five main bearings,
the centre main bearing’s upper half
incorporating thrustwashers to control
crankshaft endfloat. The connecting rods
rotate on horizontally-split bearing shells at
their big-ends. The pistons are attached to the
connecting rods by gudgeon pins which are an
interference fit in the connecting rod small-end
eyes. The aluminium alloy pistons are fitted
with three piston rings: two compression rings
and an oil control ring. After manufacture, the
cylinder bores and piston skirts are measured
and classified into three grades, which must be
carefully matched together, to ensure the
correct piston/cylinder clearance; no oversizes
are available to permit reboring.
The inlet and exhaust valves are each
closed by coil springs; they operate in guides
which are shrink-fitted into the cylinder head,
as are the valve seat inserts.
1.3A Longitudinal cross-section through engine - inset showing timing belt details
1
2
3
4
5
6
7
8
Inlet camshaft
Exhaust camshaft
Oil galleries
Exhaust port
Oil strainer and pick-up pipe
Oil baffle
Crankshaft
Piston-cooling oil jet (where
fitted)
9
10
11
12
Inlet valve
Inlet port
Fuel injector
Inlet camshaft toothed
pulley
13 Timing belt
14 Exhaust camshaft toothed
pulley
Both camshafts are driven by the same
toothed timing belt, each operating eight
valves via self-adjusting hydraulic tappets,
thus eliminating the need for routine checking
and adjustment of the valve clearances. Each
camshaft rotates in five bearings that are line-
15 Timing belt (front) guide
pulley
16 Crankshaft toothed pulley
- behind
17 Crankshaft pulley
18 Oil cooler (where fitted)
19 Timing belt (rear) guide
pulley
20 Timing belt tensioner
bored directly in the cylinder head and the
(bolted-on) bearing caps; this means that the
bearing caps are not available separately
from the cylinder head, and must not be
interchanged with caps from another engine.
The water pump is bolted to the right-hand
2A•4 In-car engine repair procedures
end of the cylinder block, inboard of the
timing belt, and is driven with the power
steering pump and alternator by a flat
“polyvee”-type auxiliary drivebelt from the
crankshaft pulley.
When working on this engine, note that
Torx-type (both male and female heads) and
hexagon socket (Allen head) fasteners are
widely used; a good selection of bits, with the
necessary adaptors, will be required, so that
these can be unscrewed without damage
and, on reassembly, tightened to the torque
wrench settings specified.
General description - lubrication
system
1.3B Lateral cross-section through engine
1 Exhaust valve
2 Piston
3 Oil baffle
4 Oil strainer and pick-up
pipe
5 Spark plug
6 Fuel injector
7 Piston-cooling oil jets
(where fitted)
1.10 Engine lubrication system - inset showing longitudinal cross-section
1
2
3
4
5
Main oil gallery
From oil filter
Oil pump
Cylinder head oil-retaining valve
Cylinder head oil gallery
6
7
8
9
Cylinder head oil supply
Oil return
Piston-cooling oil spray (where fitted)
Oil filter - oil cooler not shown here
Lubrication is by means of an eccentricrotor trochoidal pump, which is mounted on
the crankshaft right-hand end, and draws oil
through a strainer located in the sump. The
pump forces oil through an externallymounted full-flow cartridge-type filter - on
some versions of the engine, an oil cooler is
fitted to the oil filter mounting, so that clean
oil entering the engine’s galleries is cooled by
the main engine cooling system. From the
filter, the oil is pumped into a main gallery in
the cylinder block/crankcase, from where it is
distributed to the crankshaft (main bearings)
and cylinder head (see illustration).
The big-end bearings are supplied with oil
via internal drillings in the crankshaft. On
some versions of the engine, each piston
crown is cooled by a spray of oil directed at
its underside by a jet. These jets are fed by
passages off the crankshaft oil supply
galleries, with spring-loaded valves to ensure
that the jets open only when there is sufficient
pressure to guarantee a good oil supply to
the rest of the engine components; where the
jets are not fitted, separate blanking plugs are
provided, so that the passages are sealed,
but can be cleaned at overhaul (see
illustration).
1.11 Piston-cooling oil jet details
1 Oil jets (when fitted)
2 Oil flow - only when valve opens at set
pressure
3 Oil spray
4 Blanking plug (when fitted)
In-car engine repair procedures 2A•5
The cylinder head is provided with two oil
galleries, one on the inlet side and one on the
exhaust, to ensure constant oil supply to the
camshaft bearings and hydraulic tappets. A
retaining valve (inserted into the cylinder
head’s top surface, in the middle, on the inlet
side) prevents these galleries from being
drained when the engine is switched off. The
valve incorporates a ventilation hole in its
upper end, to allow air bubbles to escape
from the system when the engine is restarted.
While the crankshaft and camshaft
bearings and the hydraulic tappets receive a
pressurised supply, the camshaft lobes and
valves are lubricated by splash, as are all
other engine components.
Valve clearances - general
It is necessary for a clearance to exist
between the tip of each valve stem and the
valve operating mechanism, to allow for the
expansion of the various components as the
engine
reaches
normal
operating
temperature.
On most older engine designs, this meant
that the valve clearances (also known as
“tappet” clearances) had to be checked and
adjusted regularly. If the clearances were
allowed to be too slack, the engine would be
very noisy, its power output would suffer, and
its fuel consumption would increase. If the
clearances were allowed to be too tight, the
engine’s power output would be reduced,
and the valves and their seats could be
severely damaged.
The engines covered in this manual,
however, employ hydraulic tappets which use
the lubricating system’s oil pressure
automatically to take up the clearance
between each camshaft lobe and its
respective valve stem. Therefore, there is no
need for regular checking and adjustment of
the valve clearances, but it is essential that
only good-quality oil of the recommended
viscosity and specification is used in the
engine, and that this oil is always changed at
the recommended intervals. If this advice is
not followed, the oilways and tappets may
become clogged with particles of dirt, or
deposits of burnt (inferior) engine oil, so that
the system cannot work properly; ultimately,
one or more of the tappets may fail, and
expensive repairs may be required.
On starting the engine from cold, there will
be a slight delay while full oil pressure builds
up in all parts of the engine, especially in the
tappets; the valve components, therefore,
may well “rattle” for about 10 seconds or so,
and then quieten. This is a normal state of
affairs, and is nothing to worry about,
provided that all tappets quieten quickly and
stay quiet.
After the vehicle has been standing for
several days, the valve components may
“rattle” for longer than usual, as nearly all the
oil will have drained away from the engine’s
top end components and bearing surfaces.
While this is only to be expected, care must
be taken not to damage the engine under
these circumstances - avoid high speed
running until all the tappets are refilled with oil
and operating normally. With the vehicle
stationary, hold the engine at no more than a
fast idle speed (maximum 2000 to 2500 rpm)
for 10 to 15 seconds, or until the noise
ceases. Do not run the engine at more than
3000 rpm until the tappets are fully recharged
with oil and the noise has ceased.
If the valve components are thought to be
noisy, or if a light rattle persists from the top
end after the engine has warmed up to
normal operating temperature, take the
vehicle to a Ford dealer for expert advice.
Depending on the mileage covered and the
usage to which each vehicle has been put,
some vehicles may be noisier than others;
only a good mechanic experienced in these
engines can tell if the noise level is typical for
the vehicle’s mileage, or if a genuine fault
exists. If any tappet’s operation is faulty, it
must be renewed (Section 13).
2 Repair operations possible with
the engine in the vehicle
The following major repair operations can
be accomplished without removing the
engine from the vehicle. However, owners
should note that any operation involving the
removal of the sump requires careful
forethought, depending on the level of skill
and the tools and facilities available; refer to
the relevant text for details.
(a) Compression pressure - testing.
(b) Cylinder head cover - removal and
refitting.
(c) Timing belt covers - removal and refitting.
(d) Timing belt - renewal.
(e) Timing belt tensioner and toothed pulleys
- removal and refitting.
(f) Camshaft oil seals - renewal.
(g) Camshafts and hydraulic tappets removal and refitting.
(h) Cylinder head - removal, overhaul and
refitting.
(i) Cylinder head and pistons decarbonising.
(j) Sump - removal and refitting.
(k) Crankshaft oil seals - renewal.
(l) Oil pump - removal and refitting.
(m) Piston/connecting rod assemblies removal and refitting (but see note below).
(n) Flywheel/driveplate - removal and
refitting.
(o) Engine/transmission mountings - removal
and refitting.
Clean the engine compartment and the
exterior of the engine with some type of
degreaser before any work is done. It will
make the job easier, and will help to keep dirt
out of the internal areas of the engine.
Depending on the components involved, it
may be helpful to remove the bonnet, to
improve access to the engine as repairs are
performed (refer to Chapter 11 if necessary).
Cover the wings to prevent damage to the
paint; special covers are available, but an old
bedspread or blanket will also work.
If vacuum, exhaust, oil or coolant leaks
develop, indicating a need for component/
gasket or seal replacement, the repairs can
generally be made with the engine in the
vehicle. The intake and exhaust manifold
gaskets, sump gasket, crankshaft oil seals
and cylinder head gasket are all accessible
with the engine in place.
Exterior components such as the intake
and exhaust manifolds, the sump, the oil
pump, the water pump, the starter motor, the
alternator and the fuel system components
can be removed for repair with the engine in
place.
Since the cylinder head can be removed
without lifting out the engine, camshaft and
valve component servicing can also be
accomplished with the engine in the vehicle,
as can renewal of the timing belt and toothed
pulleys.
In extreme cases caused by a lack of
necessary equipment, repair or renewal of
piston rings, pistons, connecting rods and
big-end bearings is possible with the engine
in the vehicle. However, this practice is not
recommended, because of the cleaning and
preparation work that must be done to the
components involved, and because of the
amount of preliminary dismantling work
required - these operations are therefore
covered in Part B of this Chapter.
3 Compression test description and interpretation
1 When engine performance is down, or if
misfiring occurs which cannot be attributed to
the ignition or fuel systems, a compression
test can provide diagnostic clues as to the
engine’s condition. If the test is performed
regularly, it can give warning of trouble before
any other symptoms become apparent.
2 The engine must be fully warmed-up to
normal operating temperature, the oil level
must be correct, the battery must be fully
charged, and the spark plugs must be
removed. The aid of an assistant will be
required also.
3 Disable the ignition system by unplugging
the ignition coil’s electrical connector, and
remove fuse 14 to disconnect the fuel pump.
4 Fit a compression tester to the No 1
cylinder spark plug hole - the type of tester
which screws into the plug thread is to be
preferred.
5 Have the assistant hold the throttle wide
open and crank the engine on the starter
motor; after one or two revolutions, the
compression pressure should build up to a
maximum figure, and then stabilise. Record
the highest reading obtained.
6 Repeat the test on the remaining cylinders,
recording the pressure developed in each.
7 At the time of writing, no compression
2A
2A•6 In-car engine repair procedures
specifications were available from Ford, but a
typical reading would be in excess of 12 bars.
All cylinders should produce very similar
pressures; any difference greater than 10%
indicates the existence of a fault. Note that the
compression should build up quickly in a
healthy engine; low compression on the first
stroke, followed by gradually-increasing
pressure on successive strokes, indicates worn
piston rings. A low compression reading on the
first stroke, which does not build up during
successive strokes, indicates leaking valves or a
blown head gasket (a cracked head could also
be the cause). Deposits on the undersides of the
valve heads can also cause low compression.
8 If the pressure in any cylinder is
considerably lower than the others, introduce
a teaspoonful of clean oil into that cylinder
through its spark plug hole, and repeat the
test.
9 If the addition of oil temporarily improves
the compression pressure, this indicates that
bore or piston wear is responsible for the
pressure loss. No improvement suggests that
leaking or burnt valves, or a blown head
gasket, may be to blame.
10 A low reading from two adjacent cylinders
is almost certainly due to the head gasket
having blown between them; the presence of
coolant in the engine oil will confirm this.
11 If one cylinder is about 20 percent lower
than the others and the engine has a slightly
rough idle, a worn camshaft lobe or faulty
hydraulic tappet could be the cause.
12 If the compression is unusually high, the
combustion chambers are probably coated
with carbon deposits. If this is the case, the
cylinder head should be removed and
decarbonised.
13 On completion of the test, refit the spark
plugs, then reconnect the ignition system and
fuel pump.
rotates. While each piston reaches TDC both
at the top of the compression stroke and
again at the top of the exhaust stroke, for the
purpose of timing the engine, TDC refers to
the piston position (usually No 1 piston) at the
top of its compression stroke.
2 It is useful for several servicing procedures
to be able to position the engine at TDC.
3 No 1 piston and cylinder are at the righthand (timing belt) end of the engine (rightand left-hand are always quoted as seen from
the driver’s seat). Note that the crankshaft
rotates clockwise when viewed from the
right-hand side of the vehicle.
Locating TDC
1 Top Dead Centre (TDC) is the highest point
in its travel up-and-down its cylinder bore
that each piston reaches as the crankshaft
4 Remove all the spark plugs (Chapter 1).
5 Disconnect both battery leads - see
Chapter 5, Section 1 - unless the starter
motor is to be used to turn the engine.
6 Apply the handbrake and ensure that the
transmission is in neutral, then jack up the
front right-hand side of the vehicle and
support on an axle stand. Remove the
roadwheel.
7 Remove the auxiliary drivebelt cover (see
Chapter 1) to expose the crankshaft pulley
and timing marks.
8 It is best to rotate the crankshaft using a
spanner applied to the crankshaft pulley bolt;
however, it is possible also to use the starter
motor (switched on either by an assistant
using the ignition key, or by using a remote
starter switch) to bring the engine close to
TDC, then finish with a spanner. If the starter
is used, be sure to disconnect the battery
leads immediately it is no longer required.
9 Note the two pairs of notches in the inner
and outer rims of the crankshaft pulley. In the
normal direction of crankshaft rotation
(clockwise, seen from the right-hand side of the
vehicle) the first pair of notches are irrelevant to
the vehicles covered in this manual, while the
second pair indicate TDC when aligned with
the rear edge of the raised mark on the sump.
Rotate the crankshaft clockwise until the
second pair of notches align with the edge of
the sump mark; use a straight edge extended
out from the sump if greater accuracy is
required (see illustrations).
4.9A Do not use crankshaft pulley’s first
pair of notches “A” - align second pair of
notches “B” with raised rib on sump “C” . . .
4.9B . . . using a straight edge extended
out from the sump (arrowed) if greater
accuracy is required
4 Top Dead Centre (TDC) for
No 1 piston - locating
General
10 Nos 1 and 4 cylinders are now at TDC,
one of them on the compression stroke.
Remove the oil filler cap; if No 4 cylinder
exhaust cam lobe is pointing to the rear of the
vehicle and slightly downwards, it is No 1
cylinder that is correctly positioned. If the
lobe is pointing horizontally forwards, rotate
the crankshaft one full turn (360°) clockwise
until the pulley notches align again, and the
lobe is pointing to the rear and slightly down.
No 1 cylinder will then be at TDC on the
compression stroke.
11 Once No 1 cylinder has been positioned
at TDC on the compression stroke, TDC for
any of the other cylinders can then be located
by rotating the crankshaft clockwise 180° at a
time and following the firing order (see
Specifications).
12 An alternative method of locating TDC is
to remove the cylinder head cover (see
Section 5) and to rotate the crankshaft
(clockwise, as described in paragraph 8
above) until the inlet valves for the cylinder
concerned have opened and just closed
again. Insert a length of wooden dowel
(approximately 150 mm/6 in long) or similar
into the spark plug hole until it rests on the
piston crown, and slowly further rotate the
crankshaft (taking care not to allow the dowel
to be trapped in the cylinder) until the dowel
stops rising - the piston is now at the top of
its compression stroke, and the dowel can be
removed.
13 There is a “dead” area around TDC (as
the piston stops rising, pauses and then
begins to descend) which makes difficult the
exact location of TDC by this method; if
accuracy is required, either establish carefully
the exact mid-point of the dead area, or refer
to the timing marks (paragraph 9 above).
5 Cylinder head cover removal and refitting
1 Unplug the two electrical connectors and
disconnect the vacuum hose (where fitted),
then remove the air cleaner assembly cover
with the air mass meter, the resonator and the
plenum chamber (see Chapter 4).
2 Disconnect the accelerator cable from the
5.4 Disconnecting crankcase breather
hose from cylinder head cover union
In-car engine repair procedures 2A•7
throttle linkage as described in Chapter 4.
Where fitted, disconnect also the cruise
control actuator cable (see Chapter 12).
3 Remove the timing belt upper cover (see
Section 9).
4 Disconnect the crankcase breather hose
from the cylinder head cover union (see
illustration).
5 Unplug the HT leads from the spark plugs
and withdraw them, unclipping the leads from
the cover.
6 Working progressively, unscrew the
cylinder head cover retaining bolts, noting the
spacer sleeve and rubber seal at each, then
withdraw the cover (see illustration).
7 Discard the cover gasket; this must be
renewed whenever it is disturbed. Check that
the sealing faces are undamaged, and that
the rubber seal at each retaining bolt is
serviceable; renew any worn or damaged
seals.
8 On refitting, clean the cover and cylinder
head gasket faces carefully, then fit a new
gasket to the cover, ensuring that it locates
correctly in the cover grooves (see
illustration).
9 Refit the cover to the cylinder head, then
insert the rubber seal and spacer sleeve at
each bolt location (see illustration). Start all
bolts finger-tight, ensuring that the gasket
remains seated in its groove.
10 Working in a diagonal sequence from the
centre outwards, and in two stages (see
Specifications), tighten the cover bolts to the
specified torque wrench setting.
11 Refit the HT leads, clipping them into
place so that they are correctly routed; each
is numbered, and can also be identified by
the numbering on its respective coil terminal.
12 Reconnect the crankcase breather hose,
and refit the timing belt upper cover.
Reconnect and adjust the accelerator cable,
then refit the air cleaner assembly cover with
the air mass meter, the resonator and the
plenum chamber (see Chapter 4).
6 Inlet manifold removal and refitting
Warning: Petrol is extremely
flammable, so take extra
precautions when disconnecting
any part of the fuel system. Don’t smoke,
or allow naked flames or bare light bulbs in
or near the work area. Don’t work in a
garage where a natural gas appliance
(such as a clothes dryer or water heater) is
installed. If you spill petrol on your skin,
rinse it off immediately. Have a fire
extinguisher rated for petrol fires handy,
and know how to use it.
Removal
1 Park the vehicle on firm, level ground,
apply the handbrake firmly, and slacken the
nuts securing the right-hand front roadwheel.
2 Relieve the fuel system pressure (see
Chapter 4).
5.6 Removing cylinder head cover
5.8 Ensure gasket is located correctly in
cover groove
2A
5.9 Ensure rubber seal is fitted to each
cover bolt spacer, as shown
6.15 Alternator mounting bracket must be
unbolted from rear of cylinder block to
permit access to inlet manifold nut
3 Disconnect the battery negative (earth) lead
- see Chapter 5, Section 1.
4 Unplugging the two electrical connectors
and disconnecting the vacuum hose (where
fitted), remove the air cleaner assembly cover
with the air mass meter, the resonator and the
plenum chamber (see Chapter 4).
5 Disconnect the accelerator cable from the
throttle linkage as described in Chapter 4 where fitted, disconnect also the cruise
control actuator cable (see Chapter 12).
6 Disconnect the crankcase breather hose
from the cylinder head cover union.
7 Unbolt the upper part of the exhaust
manifold heat shield; unclip the coolant hose
to allow it to be withdrawn. Slacken the
sleeve nut securing the EGR pipe to the
manifold, remove the two screws securing
the pipe to the ignition coil bracket, then
unscrew the sleeve nut securing the pipe to
the EGR valve - see Chapter 6 for full details if
required.
8 Remove the two screws securing the wiring
“rail” to the top of the manifold - this is simply
so that it can be moved as required to reach
the manifold bolts. Unplug their electrical
connectors to disconnect the camshaft
position sensor and the coolant temperature
sensor, then unclip the wiring from the ignition
coil bracket, and secure it to the manifold.
9 Remove the three screws securing the
wiring “rail” to the rear of the manifold.
Releasing its wire clip, unplug the large
electrical connector (next to the fuel pressure
regulator) to disconnect the wiring of the
manifold components from the engine wiring
loom.
10 Marking or labelling them as they are
unplugged, disconnect the vacuum hoses as
follows:
(a) One from the rear of the throttle housing
(only the one hose - there is no need to
disconnect the second hose running to
the fuel pressure regulator).
(b) One from the union on the manifold’s lefthand end.
(c) The braking system vacuum servo unit
hose (see Chapter 9 for details).
(d) One from the Exhaust Gas Recirculation
(EGR) valve.
11 Equalise the pressure in the fuel tank by
removing the filler cap, then undo the fuel
feed and return lines connecting the engine to
the chassis (see Chapter 4). Plug or cap all
open fittings.
12 Unbolt the power steering high-pressure
pipe and the earth lead from the cylinder
head rear support plate/engine lifting eye,
then unscrew the bolt securing the support
plate/lifting eye to the alternator mounting
bracket.
13 Unscrew the six nuts securing the
engine/transmission right-hand mounting
bracket, then withdraw the bracket.
14 Remove the alternator (see Chapter 5).
15 Unbolt the alternator mounting bracket
from the rear of the cylinder block and
withdraw it, together with the cylinder head
rear support plate/engine lifting eye (see
illustration).
2A•8 In-car engine repair procedures
6.16 Withdrawing inlet manifold - take
care not to damage delicate components
16 Unscrew the bolts and nuts securing the
manifold to the cylinder head and withdraw it
(see illustration). Take care not to damage
vulnerable components such as the EGR pipe
and valve as the manifold assembly is
manoeuvred out of the engine compartment.
Refitting
17 Refitting is the reverse of the removal
procedure, noting the following points:
(a) When using a scraper and solvent to
remove all traces of old gasket material
and sealant from the manifold and
cylinder head, be careful to ensure that
you do not scratch or damage the
material of either; the cylinder head is of
aluminium alloy, while the manifold is a
plastics moulding - any solvents used
must be suitable for this application. If the
gasket was leaking, have the mating
surfaces checked for warpage at an
automotive machine shop. While it may
be possible to have the cylinder head
gasket surface skimmed if necessary, to
remove any distortion, the manifold must
be renewed if it is found to be warped,
cracked - check with special care around
the mounting points for components such
as the idle speed control valve and EGR
pipe - or otherwise faulty.
(b) Provided the relevant mating surfaces are
clean and flat, a new gasket will be
7.5 Exhaust manifold heat shield upper
part securing bolts (arrowed)
6.17A Always renew inlet manifold gasket
- do not rely on sealants
(c)
(d)
(e)
(f)
(g)
(h)
(i)
sufficient to ensure the joint is gas-tight.
Do not use any kind of silicone-based
sealant on any part of the fuel system or
inlet manifold.
Fit a new gasket, then locate the manifold
on the head and install the nuts and bolts
(see illustration).
Tighten the nuts/bolts in three or four
equal steps to the torque listed in this
Chapter’s Specifications. Work from the
centre outwards, to avoid warping the
manifold.
Refit the remaining parts in the reverse
order of removal - tighten all fasteners to
the torque wrench settings specified.
When reassembling the
engine/transmission right-hand mounting,
renew the self-locking nuts, and do not
allow the mounting to twist as the middle
two of the bracket’s six nuts are
tightened.
Before starting the engine, check the
accelerator cable for correct adjustment
and the throttle linkage for smooth
operation.
When the engine is fully warmed up,
check for signs of fuel, intake and/or
vacuum leaks (see illustration).
Road test the vehicle, and check for
proper operation of all disturbed
components.
7.7 Pulse-air system (sleeve nuts arrowed)
need not be removed unless required assembly can be withdrawn with exhaust
manifold
6.17B Check all disturbed components braking system vacuum servo unit hose
(arrowed) shown here - for leaks on
reassembly
7 Exhaust manifold - removal,
inspection and refitting
Warning: The engine must be
completely cool before beginning
this procedure.
Note: In addition to the new gasket and any
other parts, tools or facilities needed to carry
out this operation, a new plastic guide sleeve
will be required on reassembly.
Removal
1 Disconnect the battery negative (earth) lead
- see Chapter 5, Section 1.
2 Unbolt the resonator support bracket from
the engine compartment front crossmember,
slacken the two clamp screws securing the
resonator to the air mass meter and plenum
chamber hoses, then swing the resonator up
clear of the thermostat housing (see Chapter 4).
3 Drain the cooling system (see Chapter 1).
4 Disconnect the coolant hose and the
coolant pipe/hose from the thermostat
housing; secure them clear of the working
area.
5 Unbolt the exhaust manifold heat shield,
and withdraw both parts of the shield (see
illustration). Apply penetrating oil to the EGR
pipe sleeve nut, and to the exhaust manifold
mounting nuts (also to the pulse-air system
sleeve nuts, if they are to be unscrewed).
6 Unscrew the sleeve nut securing the EGR
pipe to the manifold, remove the two screws
securing the pipe to the ignition coil bracket,
then slacken the sleeve nut securing the pipe
to the EGR valve - see Chapter 6 for full
details if required.
7 While the manifold can be removed with
the pulse-air system components attached unbolt the filter housing and disconnect its
vacuum hose if this is to be done - it is easier
to remove the pulse-air assembly first, as
described in Chapter 6 (see illustration).
8 Unplugging the oxygen sensor electrical
connector to avoid straining its wiring,
unscrew the nuts to disconnect the exhaust
system front downpipe from the manifold (see
Chapter 4).
In-car engine repair procedures 2A•9
7.9A Unscrew nuts (arrowed) to remove
exhaust manifold . . .
9 Remove the nuts and detach the manifold
and gasket (see illustration). Take care not
to damage vulnerable components such as
the EGR pipe as the manifold assembly is
manoeuvred out of the engine compartment.
When removing the manifold with the engine
in the vehicle, additional clearance can be
obtained by unscrewing the studs from the
cylinder head; a female Torx-type socket will
be required (see illustration).
10 Always fit a new gasket on reassembly, to
carefully-cleaned components (see below).
Do not attempt to re-use the original gasket.
7.9B . . . studs can be unscrewed also, if
required, to provide additional working
space
bolt shoulders; the pressure of the springs will
then suffice to make a leakproof joint (see
illustrations).
14 Do not overtighten the nuts to cure a leak
- the bolts will shear; renew the gasket and
the springs if a leak is found. The bolts
themselves are secured by spring clips to the
manifold, and can be renewed easily if
damaged (see illustration).
7.13A Showing exhaust downpipe-tomanifold securing bolts - note coil spring,
and shoulder on bolt
8 Crankshaft pulley removal and refitting
11 Use a scraper to remove all traces of old
gasket material and carbon deposits from the
manifold and cylinder head mating surfaces. If
the gasket was leaking, have the manifold
checked for warpage at an automotive
machine shop, and have it resurfaced if
necessary.
Caution: When scraping, be very
careful not to gouge or scratch
the delicate aluminium alloy
cylinder head.
12 Provided both mating surfaces are clean
and flat, a new gasket will be sufficient to
ensure the joint is gas-tight. Do not use any
kind of exhaust sealant upstream of the
catalytic converter.
13 Note that the downpipe is secured to the
manifold by two bolts, with a coil spring,
spring seat and self-locking nut on each. On
refitting, tighten the nuts until they stop on the
15 Refitting is the reverse of the removal
procedure, noting the following points:
(a) Position a new gasket over the cylinder
head studs, and fit a new plastic guide
sleeve to the stud nearest to the
thermostat housing, so that the manifold
will be correctly located (see illustration).
Do not refit the manifold without this
sleeve.
(b) Refit the manifold, and finger-tighten the
mounting nuts.
(c) Working from the centre out, and in three
or four equal steps, tighten the nuts to the
torque wrench setting given in the
Specifications Section of this Chapter.
(d) Refit the remaining parts in the reverse
order of removal. Tighten all fasteners to
the specified torque wrench settings.
(e) Refill the cooling system (see Chapter 1).
(f) Run the engine, and check for exhaust
leaks. Check the coolant level when fully
warmed-up to normal operating
temperature.
1 Remove the auxiliary drivebelt - either
remove the drivebelt completely, or just
secure it clear of the crankshaft pulley,
depending on the work to be carried out (see
Chapter 1).
2 If necessary, rotate the crankshaft until the
timing marks align (see Section 4).
3 The crankshaft must now be locked to
prevent its rotation while the pulley bolt is
unscrewed. Proceed as follows:
(a) If the engine/transmission is still installed
in the vehicle:
(1) If the vehicle is fitted with manual
transmission, select top gear, and have an
assistant apply the brakes hard.
(2) If the vehicle is fitted with automatic
transmission, unbolt the small metal cover
plate from the sump, and use a large
screwdriver or similar to lock the
driveplate ring gear teeth while an
assistant slackens the pulley bolt; take
care not to damage the teeth or the
surrounding castings when using this
method.
(b) If the engine/transmission has been
removed but not yet separated:
(1) If the vehicle is fitted with manual
transmission, remove the starter motor
(see Chapter 5) and lock the flywheel
7.13B Renew exhaust system downpipeto-manifold gasket to prevent leaks
7.14 Release spring clip to extract
securing bolt from manifold, when required
7.15 Fit plastic guide sleeve to stud
arrowed when refitting exhaust manifold
Inspection
Refitting
2A
2A•10 In-car engine repair procedures
8.4A Unscrew pulley bolt to release
crankshaft pulley
using the method outlined in (2) above.
(2) If the vehicle is fitted with automatic
transmission, see (2) above.
(c) If the engine/transmission has been
removed and separated, use the method
shown in illustration 21.11.
4 Unscrew the pulley bolt and remove the
pulley (see illustrations).
5 Refitting is the reverse of the removal
procedure; ensure that the pulley’s keyway is
aligned with the crankshaft’s locating key,
and tighten the pulley bolt to the specified
torque wrench setting.
9 Timing belt covers removal and refitting
8.4B Ensure pulley is located on
crankshaft Woodruff key on reassembly
Lower cover
10 Remove the crankshaft pulley (see
Section 8).
11 Unscrew the cover’s three securing bolts
and withdraw it (see illustration).
12 Refitting is the reverse of the removal
procedure; ensure the cover edges engage
correctly with each other, and note the torque
wrench settings specified for the various
fasteners.
9.1 Remove bolts (arrowed) to release
timing belt upper cover
lower down; unscrew these and withdraw the
shield (see illustration).
15 Refitting is the reverse of the removal
procedure; note the torque wrench settings
specified for the various fasteners.
10 Timing belt - removal,
refitting and adjustment
13 Remove the timing belt, its tensioner
components and the camshaft toothed
pulleys (see Sections 10 and 11).
14 The shield is secured to the cylinder head
by two bolts at the top, and by two studs
Note: To carry out this operation, a new
timing belt (where applicable), a new cylinder
head cover gasket, and some special tools
(see text) will be required. If the timing belt is
being removed for the first time since the
vehicle left the factory, a tensioner spring and
retaining pin must be obtained for fitting on
reassembly.
9.7 Slacken water pump pulley bolts and
remove pulley
9.8 Remove fasteners (arrowed) to release
timing belt middle cover
9.11 Removing timing belt lower cover bolt locations arrowed
9.14 Timing belt inner shield fasteners
(arrowed)
Inner shield
Upper cover
1 Unscrew the cover’s two mounting bolts
and withdraw it (see illustration).
2 Refitting is the reverse of the removal
procedure; ensure the cover edges engage
correctly with each other, and note the torque
wrench setting specified for the bolts.
Middle cover
3 Unscrew the six nuts securing the
engine/transmission right-hand mounting
bracket, then withdraw the bracket.
4 Slacken the water pump pulley bolts.
5 Remove the timing belt upper cover (see
paragraph 1 above).
6 Remove the auxiliary drivebelt (see Chapter 1).
7 Unbolt and remove the water pump pulley
(see illustration).
8 Unscrew the middle cover fasteners (one
bolt at the front, one at the lower rear, one
stud at the top rear) and withdraw the cover
(see illustration).
9 Refitting is the reverse of the removal
procedure. Ensure the cover edges engage
correctly with each other, and note the torque
wrench settings specified for the various
fasteners. When reassembling the engine/
transmission right-hand mounting, renew the
self-locking nuts, and do not allow the
mounting to twist as the middle two of the
bracket’s six nuts are tightened.
In-car engine repair procedures 2A•11
10.1 Timing belt and cover details
1 Timing belt upper cover
2 Inlet camshaft toothed pulley
3 Exhaust camshaft toothed pulley
4 Timing belt
5 Timing belt tensioner
6 Crankshaft toothed pulley
7 Timing belt middle cover
8 Timing belt lower cover
9 Crankshaft pulley
10 Water pump pulley
1 With the vehicle parked on firm level
ground, open the bonnet and disconnect the
battery negative (earth) lead - see Chapter 5,
Section 1 (see illustration).
2 Unbolt the power steering high-pressure
pipe from the cylinder head rear support
plate/engine lifting eye, and from the front
support plate/pump bracket.
3 Unscrew the six nuts securing the
engine/transmission right-hand mounting
bracket, then withdraw the bracket.
4 Slacken the water pump pulley bolts.
5 Remove the cylinder head cover (see
Section 5).
6 Remove the spark plugs, covering their
holes with clean rag, to prevent dirt or other
foreign bodies from dropping in (see Chapter 1).
7 Remove the auxiliary drivebelt (see Chapter 1).
8 Rotate the crankshaft clockwise until the
second pair of notches in the pulley rim align
with the edge of the sump mark, so that Nos
1 and 4 cylinders are at TDC (see Section 4).
10.10 Fit camshaft aligning tool to ensure
engine is locked with Nos 1 and 4 cylinders
at TDC
10.14 Slacken tensioner bolt, and use
Allen key to rotate tensioner away from
timing belt . . .
9 Unbolt and remove the water pump pulley
and the auxiliary drivebelt idler pulley.
10 Obtain Ford service tool 21-162, or
fabricate a substitute from a strip of metal
5 mm thick (while the strip’s thickness is
critical, its length and width are not, but
should be approximately 180 to 230 mm by
20 to 30 mm). Check that Nos 1 and 4
cylinders are at Top Dead Centre (TDC) - No 1
on the compression stroke - by resting this
tool on the cylinder head mating surface, and
sliding it into the slot in the left-hand end of
both camshafts (see illustration). The tool
should slip snugly into both slots while resting
on the cylinder head mating surface; if one
camshaft is only slightly out of alignment, it is
permissible to use an open-ended spanner to
rotate the camshaft gently and carefully until
the tool will fit.
11 If both camshaft slots (they are machined
significantly off-centre) are below the level of
the cylinder head mating surface, rotate the
crankshaft through one full turn clockwise
and fit the tool again; it should now fit as
described in the previous paragraph.
12 With the camshaft aligning tool remaining
in place, remove the crankshaft pulley. Do not
use the locked camshafts to prevent the
crankshaft from rotating - use only the locking
methods described in Section 8.
13 Remove the timing belt lower and middle
covers (see Section 9).
14 With the camshaft aligning tool still in
place, slacken the tensioner bolt, and use an
Allen key inserted into its centre to rotate the
tensioner clockwise as far as possible away
from the belt; retighten the bolt to secure the
tensioner clear of the timing belt (see
illustration).
15 If the timing belt is to be re-used, use
white paint or similar to mark its direction of
rotation, and note from the manufacturer’s
markings which way round it is fitted.
Withdraw the belt (see illustration). Do not
rotate the crankshaft until the timing belt is
refitted.
16 If the belt is being removed for reasons
other than routine renewal, check it carefully
for any signs of uneven wear, splitting, cracks
(especially at the roots of the belt teeth) or
10.15 . . . then withdraw timing belt
2A
2A•12 In-car engine repair procedures
10.19A Fitting tensioner spring retaining
pin
10.19B Hook spring onto tensioner and
refit as shown - engage tensioner
backplate on locating peg (arrowed) . . .
contamination with oil or coolant. Renew the
belt if there is the slightest doubt about its
condition. As a safety measure, the belt must
be renewed as a matter of course at the
intervals given in Chapter 1; if its history is
unknown, the belt should be renewed
irrespective of its apparent condition
whenever the engine is overhauled. Similarly,
check the tensioner spring (where fitted),
renewing it if there is any doubt about its
condition. Check also the toothed pulleys for
signs of wear or damage, and ensure that the
tensioner and guide pulleys rotate smoothly
on their bearings; renew any worn or
damaged components. If signs of oil or
coolant contamination are found, trace the
source of the leak and rectify it, then wash
down the engine timing belt area and related
components, to remove all traces of oil or
coolant.
17 On reassembly, temporarily refit the
crankshaft pulley, to check that the pulley
notches and sump rib are aligned as
described in paragraph 8 above, then ensure
that both camshafts are aligned at TDC by
the special tool (paragraph 10). If the engine
is being reassembled after major dismantling,
both camshaft toothed pulleys should be free
to rotate on their respective camshafts; if the
timing belt alone is being renewed, both
pulleys should still be securely fastened.
18 A holding tool will be required to prevent
the camshaft toothed pulleys from rotating
while their bolts are slackened and
retightened; either obtain Ford service tool
15-030A, or fabricate a substitute as follows.
Find two lengths of steel strip, one
approximately 600 mm long and the other
about 200 mm, and three bolts with nuts and
washers; one nut and bolt forming the pivot of
a forked tool, with the remaining nuts and
bolts at the tips of the “forks”, to engage with
the pulley spokes as shown in the
accompanying illustrations. Note: Do not use
the camshaft aligning tool (whether genuine
Ford or not) to prevent rotation while the
camshaft toothed pulley bolts are slackened
or tightened; the risk of damage to the
camshaft concerned and to the cylinder head
is far too great. Use only a forked holding tool
applied directly to the pulleys, as described.
19 If it is being fitted for the first time, screw
the timing belt tensioner spring retaining pin
into the cylinder head, tightening it to the
specified torque wrench setting. Unbolt the
tensioner, hook the spring on to the pin and
the tensioner backplate, then refit the
tensioner, engaging its backplate on the
locating peg (see illustrations).
20 In all cases, slacken the tensioner bolt (if
necessary), and use an Allen key inserted into
its centre to rotate the tensioner clockwise as
far as possible against spring tension, then
retighten the bolt to secure the tensioner (see
illustration).
21 Fit the timing belt; if the original is being
refitted, ensure that the marks and notes
made on removal are followed, so that the
belt is refitted the same way round, and to run
in the same direction. Starting at the
10.22 Slacken tensioner bolt to give initial
belt tension
10.25 Using forked holding tool while
camshaft toothed pulley bolt is tightened
10.20 . . . then use Allen key to position
tensioner so that timing belt can be refitted
crankshaft toothed pulley, work anticlockwise around the camshaft toothed
pulleys and tensioner, finishing off at the rear
guide pulley. The front run, between the
crankshaft and the exhaust camshaft toothed
pulleys, must be kept taut, without altering
the position either of the crankshaft or of the
camshaft(s) - if necessary, the position of the
camshaft toothed pulleys can be altered by
rotating each on its camshaft (which remains
fixed by the aligning tool). Where the pulley is
still fastened, use the holding tool described
in paragraph 18 above to prevent the pulley
from rotating while its retaining bolt is
slackened - the pulley can then be rotated on
the camshaft until the belt will slip into place;
retighten the pulley bolt.
22 When the belt is in place, slacken the
tensioner bolt gently until the spring pulls the
tensioner against the belt; the tensioner
should be retained correctly against the
timing belt inner shield and cylinder head, but
must be just free to respond to changes in
belt tension (see illustration).
23 Tighten both camshaft toothed pulley
bolts (or check that they are tight, as
applicable) and remove the camshaft aligning
tool. Temporarily refit the crankshaft pulley,
and rotate the crankshaft through two full
turns clockwise to settle and tension the
timing belt, returning the crankshaft (pulley
notches) to the position described in
paragraph 8 above. Refit the camshaft
aligning tool; it should slip into place as
described in paragraph 10. If all is well,
proceed to paragraph 26 below.
24 If one camshaft is only just out of line, fit
the forked holding tool to its toothed pulley,
adjust its position as required, and check that
any slack created has been taken up by the
tensioner; rotate the crankshaft through two
further turns clockwise, and refit the camshaft
aligning tool to check that it now fits as it
should. If all is well, proceed to paragraph 26
below.
25 If either camshaft is significantly out of
line, use the holding tool described in
paragraph 18 above to prevent its pulley from
rotating while its retaining bolt is slackened the camshaft can then be rotated (gently and
carefully, using an open-ended spanner) until
In-car engine repair procedures 2A•13
11 Timing belt tensioner and
toothed pulleys - removal,
inspection and refitting
Tensioner
10.26 When setting is correct, tighten
tensioner bolt to specified torque wrench
setting
the camshaft aligning tool will slip into place;
take care not to disturb the relationship of the
pulley to the timing belt. Without disturbing
the pulley’s new position on the camshaft,
tighten the pulley bolt to its specified torque
wrench setting (see illustration). Remove the
camshaft aligning tool, rotate the crankshaft
through two further turns clockwise and refit
the tool to check that it now fits as it should.
26 When the timing belt has been settled at
its correct tension, and the camshaft aligning
tool fits correctly when the crankshaft pulley
notches are exactly aligned, tighten the
tensioner bolt to its specified torque wrench
setting (see illustration). Fitting the forked
holding tool to the spokes of each pulley in
turn, check that the pulley bolts are tightened
to their specified torque wrench setting.
Remove the camshaft aligning tool, rotate the
crankshaft through two further turns
clockwise, and refit the tool to make a final
check that it fits as it should.
27 The remainder of the reassembly
procedure is the reverse of removal, noting
the following points:
(a) Tighten all fasteners to the torque wrench
settings specified.
(b) When reassembling the
engine/transmission right-hand mounting,
renew the self-locking nuts, and do not
allow the mounting to twist as the middle
two of the bracket’s six nuts are
tightened.
11.3 Removing timing belt tensioner
Note: If the tensioner is being removed for the
first time since the vehicle left the factory, a
tensioner spring and retaining pin must be
obtained for fitting on reassembly.
1 While it is possible to reach the tensioner
once the timing belt upper and middle covers
only have been removed (see Section 9), the
whole procedure outlined below must be
followed, to ensure that the valve timing is
correctly reset once the belt’s tension has
been disturbed.
2 Release the tension from the timing belt as
described in Section 10, paragraphs 1 to 14.
3 Unscrew the tensioner bolt and withdraw
the tensioner, unhooking the spring, if fitted
(see illustration). Check the tensioner and
spring as described in paragraph 16 of
Section 10.
4 On reassembly, if it is being fitted for the
first time, screw the timing belt tensioner
spring retaining pin into the cylinder head,
tightening it to the specified torque wrench
setting. Hook the spring onto the pin and the
tensioner backplate, then refit the tensioner,
engaging its backplate on the locating peg.
5 Use an Allen key inserted into its centre to
rotate the tensioner clockwise as far as
possible against spring tension, then tighten
the bolt to secure the tensioner.
6 Reassemble, checking the camshaft
alignment (valve timing) and setting the timing
belt tension, as described in paragraphs 22 to
27 of Section 10.
8 With the timing belt removed, the camshaft
toothed pulleys can be detached once their
retaining bolts have been unscrewed as
described in paragraphs 18 and 21 of Section
10. The crankshaft toothed pulley can be
pulled off the end of the crankshaft once the
crankshaft (grooved) pulley and the timing
belt have been removed. Note the “FRONT”
marking identifying the pulley’s outboard
face, and the thrustwasher behind it; note
which way round the thrustwasher is fitted
(see illustration). Note the pulley-locating
Woodruff key; if this is loose, it should be
removed for safe storage with the pulley.
9 Check the pulleys as described in
paragraph 16 of Section 10.
10 Refitting is the reverse of the removal
procedure.
Timing belt guide pulleys
11 Remove the timing belt covers (see
Section 9).
12 Unbolt and withdraw the pulley(s); check
their condition as described in paragraph 16
of Section 10.
13 Refitting is the reverse of the removal
procedure; tighten the pulley bolts to the
specified torque wrench setting (see
illustration).
12 Camshaft oil seals - renewal
7 While it may be possible to remove any of
these pulleys once their respective covers
have been removed, the complete timing belt
removal/refitting procedure (see Section 10)
must be followed, to ensure that the valve
timing is correctly reset once the belt’s
tension has been disturbed.
Note: While it is possible to reach either oil
seal, once the respective toothed pulley has
been removed (see Section 11) to allow the
seal to be prised out, this procedure is not
recommended. Not only are the seals very
soft, making this difficult to do without risk of
damage to the seal housing, but it would be
very difficult to ensure that the valve timing
and the timing belt’s tension, once disturbed,
are correctly reset. Owners are advised to
follow the whole procedure outlined below.
1 Release the tension from the timing belt as
described in Section 10, paragraphs 1 to 14.
Note: If the timing belt is found to be
contaminated by oil, remove it completely as
described, then renew the oil seal (see below).
Wash down the engine timing belt area and all
11.8 Note “FRONT” marking on outside
face of crankshaft toothed pulley - note
which way round thrustwasher behind is
fitted
11.13 Tighten timing belt guide pulley
bolts to specified torque settings on
refitting
Camshaft and crankshaft toothed
pulleys
2A
2A•14 In-car engine repair procedures
12.5 Using socket and toothed pulley bolt
to install camshaft oil seal
12.6 Alternatively, seal can be inserted
when camshaft bearing cap is unbolted
13.3 Using forked holding tool while
camshaft toothed pulley bolt is slackened
related components, to remove all traces of
oil. Fit a new belt on reassembly.
2 If the timing belt is still clean, slip it off the
toothed pulley, taking care not to twist it too
sharply; use the fingers only to handle the
belt. Do not rotate the crankshaft until the
timing belt is refitted. Cover the belt, and
secure it so that it is clear of the working area
and cannot slip off the remaining toothed
pulley.
3 Unfasten the pulley bolt and withdraw the
pulley (see Section 11).
4 Unbolt the camshaft right-hand bearing
cap, and withdraw the defective oil seal.
Clean the seal housing, and polish off any
burrs or raised edges, which may have
caused the seal to fail in the first place.
5 To fit a new seal, Ford recommend the use
of their service tool 21-009B, with a bolt
(10 mm thread size, 70 mm long) and a
washer, to draw the seal into place when the
camshaft bearing cap is bolted down; a
substitute can be made using a suitable
socket (see illustration). Grease the seal lips
and periphery to ease installation, and draw
the seal into place until it is flush with the
housing/bearing cap outer edge. Refit the
bearing cap, using sealant and tightening the
cap bolts as described in Section 13.
6 For most owners, the simplest answer will
be to grease the seal lips, and to slide it on to
the camshaft (until it is flush with the
housing’s outer edge). Refit the bearing cap,
using sealant and tightening the cap bolts as
described in Section 13 (see illustration).
Take care to ensure that the seal remains
absolutely square in its housing, and is not
distorted as the cap is tightened down.
7 Refit the pulley to the camshaft, tightening
the retaining bolt loosely, then slip the timing
belt back onto the pulley (refer to paragraphs 18 and 21 of Section 10) and tighten
the bolt securely.
8 The remainder of the reassembly
procedure, including checking the camshaft
alignment (valve timing) and setting the timing
belt tension, is as described in paragraphs 22
to 27 of Section 10.
3 Unfasten the pulley bolts as described in
Section 10, paragraphs 18 and 21, and
withdraw the pulleys; while both are the same
and could be interchanged, it is good working
practice to mark them so that each is refitted
only to its original location (see illustration).
4 Working in the sequence shown, slacken
progressively, by half a turn at a time, the
camshaft bearing cap bolts (see illustration).
Work only as described, to release gradually
and evenly the pressure of the valve springs
on the caps.
5 Withdraw the caps, noting their markings
and the presence of the locating dowels, then
remove the camshafts and withdraw their oil
seals. The inlet camshaft can be identified by
the reference lobe for the camshaft position
sensor; therefore, there is no need to mark
the camshafts (see illustrations).
6 Obtain sixteen small, clean containers, and
number them 1 to 16. Using a rubber sucker,
withdraw each hydraulic tappet in turn, invert
it to prevent oil loss, and place it in its
respective container, which should then be
filled with clean engine oil (see illustrations).
Do not interchange the hydraulic tappets, or
the rate of wear will be much increased. Do
not allow them to lose oil, or they will take a
long time to refill on restarting the engine,
resulting in incorrect valve clearances.
13 Camshafts and hydraulic
tappets - removal,
inspection and refitting
Removal
1 Release the tension from the timing belt as
described in Section 10, paragraphs 1 to 14.
2 Either remove the timing belt completely
(Section 10, paragraphs 15 and 16) or slip it
off the camshaft toothed pulleys, taking care
not to twist it too sharply; use the fingers only
to handle the belt. Cover the belt, and secure
it so that it is clear of the working area. Do not
rotate the crankshaft until the timing belt is
refitted.
Inspection
7 With the camshafts and hydraulic tappets
removed, check each for signs of obvious
13.4 Camshaft bearing cap slackening
sequence
Note: View from front of vehicle, showing
bearing cap numbers
13.5A Note locating dowels when
removing camshaft bearing caps
13.5B Inlet camshaft has lobe for
camshaft position sensor
In-car engine repair procedures 2A•15
13.6A Removing hydraulic tappets
13.6B Hydraulic tappets must be stored as
described in text
wear (scoring, pitting etc) and for ovality, and
renew if necessary.
8 Measure the outside diameter of each
tappet (see illustration) - take measurements
at the top and bottom of each tappet, then a
second set at right-angles to the first; if any
measurement is significantly different from
the others, the tappet is tapered or oval (as
applicable) and must be renewed. If the
necessary equipment is available, measure
the inside diameter of the corresponding
cylinder
head
bore.
Compare
the
measurements obtained to those given in the
Specifications Section of this Chapter; if the
tappets or the cylinder head bores are
excessively worn, new tappets and/or a new
cylinder head will be required.
9 If the engine’s valve components have
sounded noisy, particularly if the noise
persists after initial start-up from cold, there is
reason to suspect a faulty hydraulic tappet.
Only a good mechanic experienced in these
engines can tell whether the noise level is
typical, or if renewal of one or more of the
tappets is warranted. If faulty tappets are
diagnosed, and the engine’s service history is
unknown, it is always worth trying the effect
of renewing the engine oil and filter (see
Chapter 1), using only good-quality engine oil
of the recommended viscosity and
specification, before going to the expense of
renewing any of the tappets - refer also to the
advice in Section 1 of this Chapter.
10 Visually examine the camshaft lobes for
score marks, pitting, galling (wear due to
rubbing) and evidence of overheating (blue,
discoloured areas). Look for flaking away of
the hardened surface layer of each lobe (see
illustration). If any such signs are evident,
renew the component concerned.
11 Examine the camshaft bearing journals
and the cylinder head bearing surfaces for
signs of obvious wear or pitting. If any such
signs are evident, renew the component
concerned.
12 Using a micrometer, measure the
diameter of each journal at several points
(see illustration). If the diameter of any one
journal is less than the specified value, renew
the camshaft.
13 To check the bearing journal running
clearance, remove the hydraulic tappets, use
a suitable solvent and a clean lint-free rag to
clean carefully all bearing surfaces, then refit
the camshafts and bearing caps with a strand
of Plastigage across each journal (see
illustration). Tighten the bearing cap bolts to
the specified torque wrench setting (do not
rotate the camshafts), then remove the
bearing caps and use the scale provided to
measure the width of the compressed strands
(see illustration). Scrape off the Plastigage
with your fingernail or the edge of a credit
card - don’t scratch or nick the journals or
bearing caps.
14 If the running clearance of any bearing is
13.12 Measure each journal diameter with
a micrometer - if any journal measures less
than the specified limit, renew the camshaft
13.13A Lay a strip of Plastigage on each
camshaft journal
13.8 Use a micrometer to measure
diameter of hydraulic tappets
2A
13.10 Check the cam lobes for pitting,
wear and score marks - if scoring is
excessive, as is the case here, renew the
camshaft
found to be worn to beyond the specified
service limits, fit a new camshaft and repeat
the check; if the clearance is still excessive,
the cylinder head must be renewed.
15 To check camshaft endfloat, remove the
hydraulic tappets, clean the bearing surfaces
carefully, and refit the camshafts and bearing
caps. Tighten the bearing cap bolts to the
specified torque wrench setting, then
measure the endfloat using a DTI (Dial Test
Indicator, or dial gauge) mounted on the
cylinder head so that its tip bears on the
camshaft right-hand end.
16 Tap the camshaft fully towards the gauge,
zero the gauge, then tap the camshaft fully
13.13B Compare the width of the crushed
Plastigage to the scale on the envelope to
determine the running clearance
2A•16 In-car engine repair procedures
13.17 Oil liberally when refitting hydraulic
tappets
13.18A Apply engine assembly lubricant or
molybdenum disulphide-based grease to
the cam lobes and journals before refitting
a camshaft
away from the gauge, and note the gauge
reading. If the endfloat measured is found to
be at or beyond the specified service limit, fit
a new camshaft and repeat the check; if the
clearance is still excessive, the cylinder head
must be renewed.
Refitting
13.19 Apply sealant to mating surface of
camshaft right-hand bearing caps
13.20 Etched marks on camshaft bearing
caps must be arranged as shown, and face
outwards
17 On reassembly, liberally oil the cylinder
head hydraulic tappet bores and the tappets
(see illustration). Note that if new tappets are
being fitted, they must be charged with clean
engine oil before installation. Carefully refit the
tappets to the cylinder head, ensuring that each
tappet is refitted to its original bore, and is the
correct way up. Some care will be required to
enter the tappets squarely into their bores.
18 Liberally oil the camshaft bearings and
lobes (see illustration). Ensuring that each
camshaft is in its original location, refit the
camshafts, locating each so that the slot in its
left-hand end is approximately parallel to, and
just above, the cylinder head mating surface
(see illustration).
19 Ensure that the locating dowels are
pressed firmly into their recesses, and check
that all mating surfaces are completely clean,
unmarked and free from oil. Apply a thin film
of suitable sealant (Ford recommend Loctite
518) to the mating surfaces of each
13.18B Use camshaft position sensor lobe
to identify inlet camshaft on refitting locate camshafts as described in text
camshaft’s right-hand bearing cap (see
illustration). Referring to paragraph 6 of
Section 12, some owners may wish to fit the
new camshaft oil seals at this stage.
20 All camshaft bearing caps have a singledigit identifying number etched on them (see
illustration). The exhaust camshaft’s bearing
caps are numbered in sequence 0 (right-hand
cap) to 4 (left-hand cap), the inlet’s 5 (righthand cap) to 9 (left-hand cap); see illustration
13.21B for details. Each cap is to be fitted so
that its numbered side faces outwards, to the
front (exhaust) or to the rear (inlet).
21 Ensuring that each cap is kept square to
the cylinder head as it is tightened down, and
working in the sequence shown, tighten the
camshaft bearing cap bolts slowly and by one
turn at a time, until each cap touches the
cylinder head (see illustrations). Next, go
round again in the same sequence, tightening
the bolts to the first stage torque wrench
setting specified, then once more, tightening
them to the second stage setting. Work only
as described, to impose gradually and evenly
the pressure of the valve springs on the caps.
Fit the camshaft aligning tool; it should slip
into place as described in paragraph 10 of
Section 10 (see illustration).
22 Wipe off all surplus sealant, so that none
is left to find its way into any oilways. Follow
the sealant manufacturer’s instructions as to
the time needed for curing; usually, at least an
hour must be allowed between application of
the sealant and starting the engine.
13.21B Camshaft bearing cap tightening
sequence
13.21A Keep caps square to cylinder head
at all times when tightening down
Note: View from front of vehicle - locate
bearing caps according to etched numbers,
aligned as described in text
13.21C Fit camshaft aligning tool to set
TDC position . . .
In-car engine repair procedures 2A•17
13.24 . . . while camshaft toothed pulleys
are refitted
14.8A Release wire clip to unplug engine
wiring loom connector from inlet manifold
14.8B Unplug connectors (arrowed) to
disconnect ignition coil wiring
23 If using Ford’s recommended procedure,
fit new oil seals to the camshafts as
described in paragraph 5 of Section 12.
24 Using the marks and notes made on
dismantling to ensure that each is refitted to
its original camshaft, refit the toothed pulleys
to the camshafts, tightening the retaining
bolts loosely (see illustration). Slip the timing
belt back onto the pulleys (refer to paragraph 21 of Section 10) and tighten the bolts
securely - use the forked holding tool
described in paragraph 18 of Section 10.
25 The remainder of the reassembly
procedure, including checking the camshaft
alignment (valve timing) and setting the timing
belt tension, is as described in paragraphs 17
to 27 of Section 10.
1 Relieve the fuel system pressure (see
Chapter 4).
2 With the vehicle parked on firm level
ground, open the bonnet and disconnect the
battery negative (earth) lead - see Chapter 5,
Section 1.
3 Whenever you disconnect any vacuum
lines, coolant and emissions hoses, wiring
loom connectors, earth straps and fuel lines
as part of the following procedure, always
label them clearly, so that they can be
correctly reassembled.
where fitted, disconnect also the cruise control
actuator cable (see Chapter 12). Secure the
cable(s) clear of the engine/transmission.
7 Unbolt the power steering high-pressure
pipe from the cylinder head rear support
plate/engine lifting eye, and from the front
support plate/pump bracket. Releasing its
wire clip, unplug the power steering pressure
switch electrical connector, then unbolt the
earth lead from the cylinder head rear support
plate/engine lifting eye.
8 Remove the three screws securing the
wiring “rail” to the rear of the manifold.
Releasing its wire clip, unplug the large
electrical connector (next to the fuel pressure
regulator) to disconnect the engine wiring from
the main loom (see illustration). Unplug the
electrical connectors on each side of the
ignition coil, and the single connector from
beneath the front of the thermostat housing, to
disconnect the coil and coolant temperature
gauge sender wiring (see illustration).
9 Marking or labelling them as they are
unplugged, disconnect the vacuum hoses as
follows:
(a) One from the rear of the throttle housing
(only the one hose - there is no need to
disconnect the second hose running to
the fuel pressure regulator).
(b) One from the union on the inlet manifold’s
left-hand end (see illustration).
(c) The braking system vacuum servo unit
hose (see Chapter 9 for details).
(d) Disconnect all vacuum hoses from the
Exhaust Gas Recirculation system
components - one from the EGR valve
and two from the EGR pipe. (Note that
these last two are of different sizes, as are
their pipe stubs, so that they can only be
connected the correct way round.)
10 Unbolt both parts of the exhaust manifold
heat shield; unclip the coolant hose to allow the
upper part to be withdrawn. Either remove the
dipstick and tube, or swing them out of the way.
11 Unscrew the single bolt securing the
pulse-air filter housing to the engine/
transmission front mounting bracket, then
disconnect its vacuum hose.
12 Drain the cooling system (see Chapter 1).
13 Disconnect all coolant hoses from the
thermostat housing (see illustration).
14 Cylinder head removal and refitting
Masking tape and/or a touchup paint applicator work
well for marking items.
Take instant photos, or
sketch the locations of components
and brackets.
Note: The following text assumes that the
cylinder head will be removed with both inlet
and exhaust manifolds attached; this
simplifies the procedure, but makes it a bulky
and heavy assembly to handle - an engine
hoist will be required, to prevent the risk of
injury, and to prevent damage to any delicate
components as the assembly is removed and
refitted. If it is wished first to remove the
manifolds, proceed as described in Sections
6 and 7 of this Chapter; amend the following
procedure accordingly.
4 Unplugging the two electrical connectors,
disconnecting the vacuum hose (where fitted)
and disconnecting the crankcase breather
hose from the cylinder head cover, remove
the complete air cleaner assembly with the air
mass meter, the resonator and the plenum
chamber (see Chapter 4).
5 Equalise the pressure in the fuel tank by
removing the filler cap, then undo the fuel
feed and return lines connecting the engine to
the chassis (see Chapter 4). Plug or cap all
open fittings.
6 Disconnect the accelerator cable from the
throttle linkage as described in Chapter 4 -
14.9 Disconnect vacuum hoses (arrowed)
as described in text
14.13 Disconnect all coolant hoses
(arrowed) from thermostat housing
Removal
2A
2A•18 In-car engine repair procedures
14.17 Unbolt auxiliary drivebelt idler pulley
14 18A Remove cylinder head front . . .
14.18B . . . and rear support plates
14 Unscrew the two nuts to disconnect the
exhaust system front downpipe from the
manifold (Chapter 4); disconnect the oxygen
sensor wiring, so that it is not strained by the
weight of the exhaust system.
15 Remove the auxiliary drivebelt (see
Chapter 1).
16 Support
the
weight
of
the
engine/transmission using a trolley jack, with
a wooden spacer to prevent damage to the
sump.
17 Unscrew the six nuts securing the
engine/transmission right-hand mounting
bracket, then withdraw the bracket. Unbolt
the auxiliary drivebelt’s idler pulley (see
illustration).
18 Unbolt the cylinder head front and rear
support plates (see illustrations).
19 Remove the timing belt and both
camshafts (see Sections 10 and 13); if the
cylinder head is to be dismantled, withdraw
the hydraulic tappets.
20 Remove the timing belt inner shield (see
Section 9).
21 Working in the reverse of the sequence
shown in illustration 14.32C, slacken the ten
cylinder head bolts progressively and by one
turn at a time; a Torx key (TX 55 size) will be
required. Remove each bolt in turn, and
ensure that new replacements are obtained
for reassembly; these bolts are subjected to
severe stresses and so must be renewed,
regardless of their apparent condition,
whenever they are disturbed.
22 Lift the cylinder head away; use
assistance if possible, as it is a heavy
assembly (see illustration). Remove the
gasket, noting the two dowels, and discard it.
24 Check the mating surfaces of the cylinder
block and the cylinder head for nicks, deep
scratches and other damage. If slight, they
may be removed carefully with a file, but if
excessive, machining may be the only
alternative to renewal.
25 If warpage of the cylinder head gasket
surface is suspected, use a straight edge to
check it for distortion. Refer to Part B of this
Chapter, Section 7, if necessary.
26 Wipe clean the mating surfaces of the
cylinder head and cylinder block. Check that
the two locating dowels are in position in the
cylinder block, and that all cylinder head bolt
holes are free from oil.
27 Position a new gasket over the dowels on
the cylinder block surface, so that the
“TOP/OBEN” mark is uppermost, and the
tooth (or teeth, according to engine size)
protruding from one edge point to the front of
the vehicle (see illustration).
28 Temporarily refit the crankshaft pulley,
and rotate the crankshaft anti-clockwise so
that No 1 cylinder’s piston is lowered to
approximately 20 mm before TDC, thus
avoiding any risk of valve/piston contact and
damage during reassembly.
29 As the cylinder head is such a heavy and
awkward assembly to refit with manifolds, it is
helpful to make up a pair of guide studs from
two 10 mm (thread size) studs approximately
90 mm long, with a screwdriver slot cut in one
end - two old cylinder head bolts with their
heads cut off would make a good starting
point. Screw these guide studs, screwdriver
slot upwards to permit removal, into the bolt
holes at diagonally-opposite corners of the
cylinder block surface (or into those where
the locating dowels are fitted, as shown);
ensure that approximately 70 mm of stud
protrudes above the gasket.
30 Refit the cylinder head, sliding it down the
guide studs (if used) and locating it on the
dowels (see illustration). Unscrew the guide
studs (if used) when the head is in place.
31 Fit the new cylinder head bolts dry (do not
oil their threads); carefully enter each into its
hole and screw it in, by hand only, until fingertight.
32 Working progressively and in the
sequence shown, use first a torque wrench,
14.22 Using an engine hoist to lift off the
cylinder head complete with manifolds
Refitting
23 The mating faces of the cylinder head and
cylinder block must be perfectly clean before
refitting the head. Use a hard plastic or wood
scraper to remove all traces of gasket and
carbon; also clean the piston crowns. Take
particular care, as the soft aluminium alloy is
easily damaged. Also, make sure that the
carbon is not allowed to enter the oil and
water passages - this is particularly important
for the lubrication system, as carbon could
block the oil supply to any of the engine’s
components. Using adhesive tape and paper,
seal the water, oil and bolt holes in the
cylinder block. Clean all the pistons in the
same way.
To prevent carbon entering
the gap between the pistons
and bores, smear a little
grease in the gap. After
cleaning each piston, use a small brush
to remove all traces of grease and
carbon from the gap, then wipe away
the remainder with a clean rag.
14.27 Ensuring protruding tooth (or teeth)
“A” are at front and marking “B” is
upwards, locate new cylinder head gasket
on dowels “C”
In-car engine repair procedures 2A•19
then an ordinary socket extension bar and an
angle gauge, to tighten the cylinder head
bolts in the stages given in the Specifications
Section of this Chapter (see illustrations).
Note: Once tightened correctly, following this
procedure, the cylinder head bolts do not
require check-tightening, and must not be retorqued.
33 Refit the hydraulic tappets (if removed),
the camshafts, their oil seals and pulleys (see
Sections 10, 11, 12 and 13, as appropriate).
Temporarily refit the crankshaft pulley, and
rotate the crankshaft clockwise to return the
pulley notches to the position described in
paragraph 8 of Section 10.
34 Refit the timing belt and covers, checking
the camshaft alignment (valve timing) and
setting the timing belt tension, as described in
Section 10.
35 The remainder of reassembly is the
reverse of the removal procedure, noting the
following points:
(a) Tighten all fasteners to the torque wrench
settings specified.
(b) When reassembling the
engine/transmission right-hand mounting,
renew the self-locking nuts, and do not
allow the mounting to twist as the middle
two of the bracket’s six nuts are
tightened.
(c) Refill the cooling system, and top-up the
engine oil.
(d) Check all disturbed joints for signs of oil
or coolant leakage, once the engine has
been restarted and warmed-up to normal
operating temperature.
14.30 Refitting cylinder head - note
fabricated guide studs (arrowed)
14.32A Tightening cylinder head bolts (to
first and second stages) using torque
wrench . . .
Note: To carry out this task with the
engine/transmission installed in the vehicle
requires the assistance of at least one person,
plus the equipment necessary to raise and
support the front of the vehicle (high enough
that the sump can be withdrawn from
underneath), and to lift and support the
complete engine/transmission unit 2 to
3 inches from its mountings while the vehicle
is raised. Precise details of the procedure will
depend on the equipment available - the
following is typical.
The full procedure outlined below must be
followed, so that the mating surfaces can be
cleaned and prepared to achieve an oil-tight
joint on reassembly, and so that the sump
can be aligned correctly; depending on your
skill and experience, and the tools and
facilities available, it may be that this task can
be carried out only with the engine removed
from the vehicle.
Note that the sump gasket must be
renewed whenever it is disturbed.
1 With the vehicle parked on firm level
ground, open the bonnet and disconnect the
battery negative (earth) lead - see Chapter 5,
Section 1.
2 Drain the engine oil, then clean and refit the
engine oil drain plug, tightening it to the
specified torque wrench setting. Although not
strictly necessary as part of the dismantling
procedure, owners are advised to remove
and discard the oil filter, so that it can be
renewed with the oil (see Chapter 1).
3 Drain the cooling system (see Chapter 1).
4 Disconnect the radiator bottom hose from
the radiator union and from the (heater)
coolant pipe. Unbolt the coolant pipe from
the sump; if they will prevent sump removal,
disconnect or release the coolant hoses from
the oil cooler unions (where fitted).
5 Unscrew the two bolts securing the power
steering system pipes to the right-hand side
of the subframe.
6 Unplug the electrical connector(s) to
disconnect the oxygen sensor and, where
fitted, the oil level sensor wiring - unclip the
connectors to release the wiring where
necessary.
7 Where the vehicle is fitted with automatic
transmission, trace the fluid cooler lines from
the transmission to the radiator, and release
them from any clips etc, so that they have as
much movement as possible.
8 Remove the auxiliary drivebelt cover (see
Chapter 1).
9 Unscrew the nuts to disconnect the
exhaust system front downpipe from the
manifold, then either unhook all the system’s
rubber mountings and withdraw the complete
exhaust system from under the vehicle, or
remove only the downpipe/catalytic converter
(see Chapter 4 for details).
10 Unscrew the sump-to-transmission bolts,
also any securing the engine/transmission
lower adaptor plate.
11 Unplugging the two electrical connectors,
disconnecting the vacuum hose (where fitted)
and disconnecting the crankcase breather
hose from the cylinder head cover, remove
the complete air cleaner assembly with the air
mass meter, the resonator and the plenum
chamber (see Chapter 4).
12 Take the weight of the engine/
transmission unit using the lifting eyes
provided on the cylinder head; bolt on
14.32B . . . and to third stage using angle
gauge
14.32C Cylinder head bolt tightening
sequence
15.12 Equipment must be available to raise
and support engine/transmission unit while
vehicle is raised, to allow sump removal
15 Sump - removal and refitting
Removal
Note: View from rear of vehicle
2A
2A•20 In-car engine repair procedures
15.17 Ensure gasket is located correctly in
sump groove
15.18 Engine/transmission lower adaptor
plate (arrowed) must be refitted with sump
15.19A Apply sealant (arrowed) as
directed when refitting sump
additional lifting eyes where required (see
illustration). Remove completely the
engine/transmission front mounting, unscrew
the rear mounting’s centre bolt, and unbolt
the left-hand mounting from the body.
Unscrew the six nuts securing the right-hand
mounting bracket, and withdraw the bracket.
13 Being careful to watch the wiring, coolant
hoses, fluid cooler pipes or gearchange
linkage and transmission support rods (where
appropriate), and the radiator electric cooling
fan, to ensure that nothing is trapped,
stretched
or
damaged,
lift
the
engine/transmission unit by 2 to 3 inches and
support it securely.
14 Progressively unscrew the sump retaining
bolts. Break the joint by striking the sump
with the palm of the hand, then lower the
sump
and
withdraw
it
with
the
engine/transmission lower adaptor plate; note
the presence of any shims between the sump
and transmission.
15 Remove and discard the sump gasket;
this must be renewed as a matter of course
whenever it is disturbed.
16 While the sump is removed, take the
opportunity to remove the oil pump pick-up/
strainer pipe and to clean it (see Section 16).
17 On reassembly, thoroughly clean and
degrease the mating surfaces of the cylinder
block/crankcase and sump, then use a clean
rag to wipe out the sump and the engine’s
interior. If the oil pump pick-up/strainer pipe
was removed, fit a new gasket and refit the
pipe, tightening its screws to the specified
torque wrench setting. Fit the new gasket to
the sump mating surface so that the gasket
fits into the sump groove (see illustration).
18 If the sump is being refitted with the
engine/transmission still connected and in the
vehicle, proceed as follows:
(a) Check that the mating surfaces of the
sump, the cylinder block/crankcase and
the transmission are absolutely clean and
flat. Any shims found on removal of the
sump must be refitted in their original
locations.
(b) Apply a thin film of suitable sealant (Ford
recommend Hylosil 102) to the junctions
of the cylinder block/crankcase with the
oil pump and the crankshaft left-hand oil
seal carrier. Without delay - the sump
bolts must be fully tightened within 10 to
20 minutes of applying the sealant - offer
up the sump and engine/transmission
lower adaptor plate, and refit the bolts,
tightening them lightly at first (see
illustration).
(c) Ensuring that the engine/transmission
lower adaptor plate is correctly located,
firmly press the sump against the
transmission, and tighten the
transmission-to-sump (ie, engine) bolts to
the specified torque wrench setting.
15.19B Checking alignment of sump with
cylinder block/crankcase
15.19C Sump-to-cylinder block/crankcase
alignment shims
(d) Without disturbing the position of the
sump, and working in a diagonal
sequence from the centre outwards,
tighten the sump bolts to the specified
torque wrench setting.
(e) Proceed to paragraph 20.
19 If the sump is being refitted with the
engine and transmission separated (in or out
of the vehicle), proceed as follows:
(a) Apply a thin film of suitable sealant (Ford
recommend Hylosil 102) to the junctions
of the cylinder block/crankcase with the
oil pump and the crankshaft left-hand oil
seal carrier (see illustration). Without
delay - the sump bolts must be fully
tightened within 10 to 20 minutes of
applying the sealant - offer up the sump
to the cylinder block/crankcase, and
insert the sump bolts, tightening them
lightly at first.
(b) Using a suitable straight edge to check
alignment across the flat-machined faces
of each, move the sump as necessary so
that its left-hand face - including any
shims found on removal - is flush with
that of the cylinder block/crankcase (see
illustration). Without disturbing the
position of the sump, and working in a
diagonal sequence from the centre
outwards, tighten the sump bolts to the
specified torque wrench setting.
(c) Check again that both faces are flush
before proceeding; if necessary, unbolt
the sump again, clean the mating
surfaces, and repeat the full procedure to
ensure that the sump is correctly aligned.
(d) If it is not possible to achieve exact
alignment by moving the sump, shims are
available in thicknesses of 0.25 mm
(colour-coded yellow) or 0.50 mm (colourcoded black) to eliminate the discrepancy
(see illustration).
20 The remainder of reassembly is the
reverse of the removal procedure, noting the
following points.
(a) Tighten all fasteners to the torque wrench
settings specified.
(b) Always renew any self-locking nuts
disturbed on removal.
(c) Lower the engine/transmission unit into
place, and reassemble the rear, left-hand
Refitting
1 Fitting points on sump
2 Shim
In-car engine repair procedures 2A•21
16.5 Unscrew bolts (arrowed) to remove
oil pump
(d)
(e)
(f)
(g)
and right-hand mountings. Do not yet
release the hoist; the weight of the
engine/transmission unit must not be
taken by the mountings until all are
correctly aligned.
Fitting the Ford service tool in place of the
front mounting, tighten the
engine/transmission mounting fasteners
to their specified torque wrench settings,
and in the sequence described in Part B
of this Chapter, Section 4, paragraphs 49
and 50.
Refill the cooling system (see Chapter 1).
Refill the engine with oil, remembering
that you are advised to fit a new filter (see
Chapter 1).
Check for signs of oil or coolant leaks
once the engine has been restarted and
warmed-up to normal operating
temperature.
16.6 Withdrawing oil pump inner rotor
16.9A Unscrew threaded plug - seen
through right-hand wheel arch . . .
pressure relief valve can be removed with the
engine in situ - see paragraph 8.
In addition to the new pump gasket and
other replacement parts required, read
through Section 15, and ensure that the
necessary tools and facilities are available.
1 Remove the timing belt (see Section 10).
2 Withdraw the crankshaft toothed pulley
and the thrustwasher behind it, noting which
way round the thrustwasher is fitted (see
Section 11).
3 Remove the sump (see Section 15).
4 Undo the screws securing the oil pump
pick-up/strainer pipe to the pump, then
unscrew the nut and withdraw the oil pump
pick-up/strainer pipe. Discard the gasket.
5 Unbolt the pump from the cylinder
block/crankcase (see illustration). Withdraw
and discard the gasket, and remove the
crankshaft right-hand oil seal. Thoroughly
clean and degrease all components,
particularly the mating surfaces of the pump,
the sump, and the cylinder block/crankcase.
dismantled, if required, without disturbing the
pump. With the vehicle parked on firm level
ground, apply the handbrake securely and
raise its front end, supporting it securely on
axle stands. Remove the front right-hand
roadwheel and auxiliary drivebelt cover (see
Chapter 1) to provide access to the valve.
9 Unscrew the threaded plug, and recover
the valve spring and plunger (see
illustrations). If the plug’s sealing O-ring is
worn or damaged, a new one must be
obtained, to be fitted on reassembly.
10 Reassembly is the reverse of the
dismantling procedure; ensure the spring and
valve are refitted the correct way round, and
tighten the threaded plug securely.
Refitting
Note: While this task is theoretically possible
when the engine is in place in the vehicle, in
practice, it requires so much preliminary
dismantling, and is so difficult to carry out due
to the restricted access, that owners are
advised to remove the engine from the vehicle
first. Note, however, that the oil pump
6 Unscrew the Torx screws, and remove the
pump cover plate; noting any identification
marks on the rotors, withdraw the rotors (see
illustration).
7 Inspect the rotors for obvious signs of wear
or damage, and renew if necessary; if either
rotor, the pump body, or its cover plate are
scored or damaged, the complete oil pump
assembly must be renewed.
8 The oil pressure relief valve can be
11 The oil pump must be primed on
installation, by pouring clean engine oil into it,
and rotating its inner rotor a few turns.
12 Using grease to stick the new gasket in
place on the cylinder block/crankcase, and
rotating the pump’s inner rotor to align with
the flats on the crankshaft, refit the pump and
insert the bolts, tightening them lightly at first
(see illustration).
13 Using a suitable straight edge and feeler
gauges, check that the pump is both centred
exactly around the crankshaft, and aligned
squarely so that its (sump) mating surface is
exactly the same amount - between 0.3 and
0.8 mm - below that of the cylinder block/
crankcase on each side of the crankshaft
(see illustration). Being careful not to disturb
16.9B . . . to withdraw oil pressure relief
valve spring and plunger
16.12 Use new gasket when refitting oil
pump
16.13 Check the oil pump is positioned
correctly
16 Oil pump - removal,
inspection and refitting
Removal
Inspection
2A
2A•22 In-car engine repair procedures
16.16 Use new gasket when refitting oil
pick-up pipe to pump
18.3 Remove screws (arrowed) to remove
oil level sensor cover . . .
18.4 . . . disconnecting wiring from sensor
the gasket, move the pump into the correct
position, and tighten its bolts to the specified
torque wrench setting.
14 Check that the pump is correctly located;
if necessary, unbolt it again, and repeat the
full procedure to ensure that the pump is
correctly aligned.
15 Fit a new crankshaft right-hand oil seal
(see Section 20).
16 Using grease to stick the gasket in place
on the pump, refit the pick-up/strainer pipe,
tightening its screws and nut to their specified
torque wrench settings (see illustration).
17 The remainder of reassembly is the
reverse of the removal procedure, referring to
the relevant text for details where required.
(a) Renew all O-rings and seals disturbed on
removal.
(b) Align the cooler’s unions as noted on
removal, and tighten the adaptor to the
specified torque wrench setting.
(c) Refill the cooling system (see Chapter 1).
(d) Refit the oil filter, then check the engine
oil level, and top-up as necessary (see
Chapter 1).
(e) Check for signs of oil or coolant leaks once
the engine has been restarted and warmedup to normal operating temperature.
6 Refitting is the reverse of the removal
procedure; renew the sensor’s seal if it is
worn or damaged, and tighten the sensor to
the specified torque wrench setting. Check
the engine oil level, and top-up as necessary
(see Chapter 1) - check for signs of oil leaks
once the engine has been restarted and
warmed-up to normal operating temperature.
17 Oil cooler removal and refitting
1 Drain the cooling system (see Chapter 1).
Disconnect the coolant hoses from the oil
cooler.
2 Unscrew the oil filter (see Chapter 1) catch any escaping oil in a drip tray.
3 Unscrew the filter adaptor from the oil
pump, and withdraw the oil cooler; note how
its unions are aligned, and be prepared for oil
loss from the cooler.
4 Refitting is the reverse of the removal
procedure, noting the following points:
18 Oil level sensor removal and refitting
1 With the vehicle parked on firm level
ground, open the bonnet and disconnect the
battery negative (earth) lead - see Chapter 5,
Section 1.
2 Raise the front of the vehicle, and support it
securely on axle stands.
3 Undo the two screws, and remove the
sensor’s cover from the front of the sump
(see illustration).
4 Unplug the wiring from the sensor (see
illustration). Where necessary, unplug the
electrical connector to disconnect the sensor
wiring, and unclip the connector to release
the wiring from the vehicle.
5 Unscrew the sensor, and quickly plug the
sump aperture to minimise oil loss; note the
sensor’s seal.
19 Oil pressure warning light
switch - removal and refitting
1 The switch is screwed into the rear of the
cylinder block, above the right-hand
driveshaft’s
support
bearing
(see
illustration).
2 With the vehicle parked on firm level
ground, open the bonnet and disconnect the
battery negative (earth) lead - see Chapter 5,
Section 1.
3 Raise the front of the vehicle, and support it
securely on axle stands.
4 Unplug the wiring from the switch, and
unscrew it; be prepared for some oil loss.
5 Refitting is the reverse of the removal
procedure; apply a thin smear of suitable
sealant to the switch threads, and tighten it to
the specified torque wrench setting. Check
the engine oil level, and top-up as necessary
(see Chapter 1). Check for signs of oil leaks
once the engine has been restarted and
warmed-up to normal operating temperature.
20 Crankshaft oil seals renewal
Note: Don’t try to prise these seals out
without removing the oil pump or seal carrier the seals are too soft, and the amount of
space available is too small, for this to be
possible without considerable risk of damage
to the seal housing and/or the crankshaft
journal. Follow exactly the procedure given
below.
19.1 Oil pressure warning light switch
(arrowed) is screwed into rear of cylinder
block, above right-hand driveshaft support
bearing
Right-hand seal
20.2 Driving out crankshaft right-hand oil
seal
1 Remove the oil pump (see Section 16).
2 Drive the oil seal out of the pump from
behind (see illustration).
In-car engine repair procedures 2A•23
20.5 Socket of correct size can be used to
replace Ford service tool, drawing new
seal into place as described
20.6 If seal is tapped into place as shown,
exercise great care to prevent seal from
being damaged or distorted
3 Clean the seal housing and crankshaft,
polishing off any burrs or raised edges, which
may have caused the seal to fail in the first
place.
4 Refit the oil pump (see Section 16). Grease
the lips and periphery of the new seal, to ease
installation.
5 To fit a new seal, Ford recommend the use
of their service tool 21-093A, with the
crankshaft pulley bolt, to draw the seal into
place; an alternative can be arranged using a
socket of suitable size, with a washer to
match the crankshaft pulley bolt (see
illustration).
6 If such tools are not available, press the
seal squarely into place by hand; tap it in until
it is flush with the pump housing, using a softfaced mallet and a socket with an outside
diameter only slightly smaller than the seal’s
(see illustration). This approach requires
great care, to ensure that the seal is fitted
squarely, without distortion or damage.
7 Wash off any traces of oil. The remainder of
reassembly is the reverse of the removal
procedure, referring to the relevant text for
details where required. Check for signs of oil
leakage when the engine is restarted.
8 Remove the transmission (see the relevant
Part of Chapter 7).
9 Where appropriate, remove the clutch
(Chapter 8).
10 Unbolt the flywheel/driveplate (see
Section 21).
11 Remove the sump (see Section 15).
12 Unbolt the oil seal carrier (see
illustration). Remove and discard its gasket.
13 Supporting the carrier evenly on wooden
blocks, drive the oil seal out of the carrier
from behind (see illustration).
14 Clean the seal housing and crankshaft,
polishing off any burrs or raised edges, which
may have caused the seal to fail in the first
place. Clean also the mating surfaces of the
cylinder block/crankcase and carrier, using a
scraper to remove all traces of the old gasket
- be careful not to scratch or damage the
material of either - then use a suitable solvent
to degrease them.
15 Use grease to stick the new gasket in
place on the cylinder block/crankcase, then
offer up the carrier (see illustration).
16 Using a suitable straight edge and feeler
gauges, check that the carrier is both centred
exactly around the crankshaft, and aligned
squarely so that its (sump) mating surface is
exactly the same amount - between 0.3 and
0.8 mm - below that of the cylinder
block/crankcase on each side of the
crankshaft. Being careful not to disturb the
gasket, move the carrier into the correct
position, and tighten its bolts to the specified
torque wrench setting (see illustration).
17 Check that the carrier is correctly located;
if necessary, unbolt it again, and repeat the
full procedure to ensure that the carrier is
correctly aligned.
18 Ford’s recommended method of seal
fitting is to use service tool 21-141, with two
flywheel bolts to draw the seal into place. If
this is not available, make up a guide from a
thin sheet of plastic or similar, lubricate the
lips of the new seal and the crankshaft
shoulder with grease, then offer up the seal,
with the guide feeding the seal’s lips over the
crankshaft shoulder (see illustration). Press
the seal evenly into its housing by hand only,
and use a soft-faced mallet gently to tap it
into place until it is flush with the surrounding
housing.
19 Wipe off any surplus oil or grease; the
remainder of the reassembly procedure is the
reverse of dismantling, referring to the
relevant text for details where required.
Check for signs of oil leakage when the
engine is restarted.
20.15 Use new gasket when refitting lefthand oil seal carrier
20.16 Check the oil seal carrier is correctly
positioned
20.18 Using guide made from thin sheet of
plastic to slide oil seal lips over crankshaft
shoulder
Left-hand seal
20.12 Unscrew bolts (arrowed) to remove
crankshaft left-hand oil seal carrier . . .
2A
20.13 . . . and ensure that carrier is
properly supported when driving out used
oil seal - note notches provided in carrier
for drift
2A•24 In-car engine repair procedures
21 Flywheel/driveplate removal, inspection and refitting
Removal
1 Remove the transmission (see the relevant
Part of Chapter 7). Now is a good time to
check components such as oil seals and
renew them if necessary.
2 Where appropriate, remove the clutch
(Chapter 8). Now is a good time to check or
renew the clutch components and pilot
bearing.
3 Use a centre-punch or paint to make
alignment marks on the flywheel/driveplate
and crankshaft, to ensure correct alignment
during refitting.
4 Prevent the flywheel/driveplate from
turning by locking the ring gear teeth, or by
bolting a strap between the flywheel/
driveplate and the cylinder block/
crankcase. Slacken the bolts evenly until all
are free.
5 Remove each bolt in turn, and ensure that
new replacements are obtained for
reassembly; these bolts are subjected to
severe stresses, and so must be renewed,
regardless of their apparent condition,
whenever they are disturbed.
6 Noting the reinforcing plate (automatic
transmission-equipped
models
only),
withdraw the flywheel/driveplate; do not drop
it - it is very heavy.
Inspection
7 Clean the flywheel/driveplate to remove
grease and oil. Inspect the surface for cracks,
rivet grooves, burned areas and score marks.
Light scoring can be removed with emery
cloth. Check for cracked and broken ring gear
teeth. Lay the flywheel/driveplate on a flat
surface, and use a straight edge to check for
warpage.
8 Clean and inspect the mating surfaces of
the flywheel/driveplate and the crankshaft. If
the crankshaft left-hand seal is leaking, renew
it (see Section 20) before refitting the
flywheel/driveplate.
9 While the flywheel/driveplate is removed,
21.11 Note method used to lock
flywheel/driveplate while (new) bolts are
tightened
clean carefully its inboard (right-hand) face,
particularly the recesses which serve as the
reference points for the crankshaft
speed/position sensor. Clean the sensor’s tip,
and check that the sensor is securely
fastened.
Refitting
10 On
refitting,
ensure
that
the
engine/transmission adaptor plate is in place
(where
necessary),
then
fit
the
flywheel/driveplate to the crankshaft so that
all bolt holes align - it will fit only one way check this using the marks made on removal.
Do not forget the reinforcing plate (where
fitted).
11 Lock the flywheel/driveplate by the
method used on dismantling. Working in a
diagonal sequence to tighten them evenly,
and increasing to the final amount in two or
three stages, tighten the new bolts to the
specified torque wrench setting (see
illustration).
12 The remainder of reassembly is the
reverse of the removal procedure, referring to
the relevant text for details where required.
22 Engine/transmission
mountings inspection and renewal
General
1 The
engine/transmission
mountings
seldom require attention, but broken or
deteriorated mountings should be renewed
immediately, or the added strain placed on
the driveline components may cause damage
or wear.
2 While separate mountings may be removed
and refitted individually, if more than one is
disturbed at a time - such as if the
engine/transmission unit is removed from its
mountings - they must be reassembled and
their fasteners tightened in a strict sequence.
3 On reassembly, the weight of the
engine/transmission unit must not be taken
by the mountings until all are correctly
aligned. Fitting the Ford service tool in place
of the front mounting, tighten the
engine/transmission mounting fasteners to
their specified torque wrench settings, and in
the sequence described in Part B of this
Chapter, Section 4, paragraphs 49 and 50.
Inspection
4 During the check, the engine/transmission
unit must be raised slightly, to remove its
weight from the mountings.
5 Raise the front of the vehicle, and support it
securely on axle stands. Position a jack under
the sump, with a large block of wood
between the jack head and the sump, then
carefully raise the engine/transmission just
enough to take the weight off the mountings.
Warning: DO NOT place any part
of your body under the engine
when it is supported only by a
jack!
6 Check the mountings to see if the rubber is
cracked, hardened or separated from the
metal components. Sometimes the rubber
will split right down the centre.
7 Check for relative movement between each
mounting’s brackets and the engine/
transmission or body (use a large screwdriver
or lever to attempt to move the mountings). If
movement is noted, lower the engine and
check-tighten the mounting fasteners.
Renewal
Front mounting
8 Unbolt the resonator support bracket from
the engine compartment front crossmember,
slacken the two clamp screws securing the
22.8 Engine/transmission front mounting - manual transmission shown, automatic
equivalent similar
1 Transmission
2 Mounting bracket
3 Mounting
5 Mounting centre bolt
4 Front suspension subframe
In-car engine repair procedures 2A•25
22.12 When reassembling
engine/transmission right-hand mounting,
tighten nuts “A” first, release lifting
equipment, then tighten remaining
nuts “B” - do not allow mounting to twist
when doing so
22.10 Engine/transmission right-hand
mounting - standard type
1
2
3
4
Bracket
Mounting
Brackets bolted to cylinder block/crankcase
Vehicle body
resonator to the air mass meter and plenum
chamber hoses, then swing the resonator up
clear of the thermostat housing (see Chapter
4). Unbolt the pulse-air filter housing from the
mounting bracket, then unfasten the
22.11 Engine/transmission right-hand
mounting - hydraulic type (where fitted)
1
2
3
4
Bracket
Hydraulic mounting
Brackets bolted to cylinder block/crankcase
Vehicle body
bolts/nuts securing the mounting to the
subframe, unscrew the centre bolt and
withdraw the mounting; note the location of
the wiring connector bracket. The mounting’s
bracket can be unbolted from the
transmission if required (see illustration).
9 On refitting, ensure that the mounting-totransmission bolts are securely tightened,
then refit the mounting and wiring connector
bracket. Tighten first the mounting-tosubframe bolts/nuts, noting that these are to
be tightened in two stages to the final
specified torque wrench setting. Finally
tighten the mounting’s centre bolt, again to
the specified torque wrench setting.
Right-hand mounting
10 Unscrew the nuts and withdraw the
bracket; note that these nuts are self-locking,
and must therefore be renewed whenever
they are disturbed. Unbolt the mounting from
the body (see illustration).
11 Where hydraulic-type mountings are
fitted - there are only five nuts securing the
bracket, and the mounting is clearly
identifiable from its shape - take care never to
tilt these more than 5° from the vertical (see
illustration).
12 On refitting, renew the self-locking nuts,
and tighten all fasteners to the torque wrench
settings specified. When tightening the nuts,
tighten first the four bracket-to-engine nuts,
then release the hoist or jack to allow the
engine/transmission’s weight to rest on the
mounting. Do not allow the mounting to twist
as the last two of the nuts are tightened (see
illustration).
Left-hand mounting
13 Unplugging the two electrical connectors,
disconnecting the vacuum hose (where fitted)
and disconnecting the crankcase breather
hose from the cylinder head cover, remove
the complete air cleaner assembly with the air
mass meter, the resonator and the plenum
chamber (see Chapter 4).
14 Unscrew the three nuts to release the
mounting from the transmission, then unbolt
it from the body (see illustration). Note that
22.14 Engine/transmission left-hand
mounting - manual transmission shown,
automatic equivalent similar
1
2
3
4
5
Mounting bracket
Mounting
Transmission
Studs
Fastening plate - where fitted
22.15 Engine/transmission left-hand
mounting is secured by self-locking nuts
“A” to transmission, by bolts “B” to body
22.16 Where vehicle is fitted with
automatic transmission, additional damper
may be fastened to underside of engine/
transmission rear mounting, as shown
2A
2A•26 In-car engine repair procedures
22.17A Engine/transmission rear mounting manual transmission type
1 Transmission
4 Mounting
2 Mounting bracket
5 Mounting centre bolt
3 Front suspension subframe
the nuts are self-locking, and must therefore
be renewed whenever they are disturbed.
Unscrew the centre bolt to dismantle the
mounting, if necessary to renew components.
15 On refitting, renew the self-locking nuts,
and do not allow the mounting to twist as the
nuts are tightened (see illustration). Tighten
all fasteners to the specified torque wrench
settings.
22.17B Engine/transmission rear mounting - automatic transmission type
1 Transmission
2 Mounting bracket
3 Mounting
4 Front suspension subframe
Rear mounting
16 Where the vehicle is fitted with automatic
transmission, a separate damper may be
fitted beneath the subframe, which must be
unbolted to reach the mounting’s fasteners
(see illustration).
17 Unbolt the mounting from the subframe,
then unscrew the mounting’s centre bolt. If
required, unbolt the mounting’s bracket from
5 Mounting centre bolt
the transmission (see illustrations).
18 On refitting, ensure that the mounting-totransmission bolts are securely tightened,
then refit the mounting. Tighten first the
mounting-to-subframe bolts, noting that
these are to be tightened in two stages to the
final specified torque wrench setting. Finally
tighten the mounting’s centre bolt, again to
the specified torque wrench setting.
2B•1
Chapter 2 Part B: Engine removal
and general engine overhaul procedures
Contents
Compression test - description and interpretation . . . See Chapter 2A
Crankshaft - inspection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Crankshaft - refitting and main bearing running
clearance check . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
Crankshaft - removal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
Cylinder block/crankcase - cleaning and inspection . . . . . . . . . . . . 11
Cylinder head - dismantling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Cylinder head - reassembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Cylinder head and valve components - cleaning and inspection . . . 7
Engine - initial start-up after overhaul . . . . . . . . . . . . . . . . . . . . . . . . 19
Engine overhaul - dismantling sequence . . . . . . . . . . . . . . . . . . . . . 5
Engine overhaul - general information . . . . . . . . . . . . . . . . . . . . . . .
Engine overhaul - reassembly sequence . . . . . . . . . . . . . . . . . . . . .
Engine/transmission - removal and refitting . . . . . . . . . . . . . . . . . . .
Engine/transmission removal - methods and precautions . . . . . . . .
General information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Main and big-end bearings - inspection . . . . . . . . . . . . . . . . . . . . . .
Piston/connecting rod assemblies - inspection . . . . . . . . . . . . . . . .
Piston/connecting rod assemblies - refitting and
big-end bearing running clearance check . . . . . . . . . . . . . . . . . . .
Piston/connecting rod assemblies - removal . . . . . . . . . . . . . . . . . .
Piston rings - refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Degrees of difficulty
Easy, suitable for
novice with little
experience
Fairly easy, suitable
for beginner with
some experience
2
15
4
3
1
14
12
18
9
16
2B
Fairly difficult, suitable
for competent DIY
mechanic
Difficult, suitable for
experienced DIY
mechanic
Very difficult,
suitable for expert DIY
or professional
Specifications
Cylinder head
Maximum permissible gasket surface distortion . . . . . . . . . . . . . . . . . .
Valve seat included angle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Valve guide bore . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
0.10 mm
90°
6.060 to 6.091 mm
Valves - general
Inlet
7.500 to 7.685 mm
96.870 to 97.330 mm
Exhaust
7.610 to 7.765 mm
96.470 to 96.930 mm
26.0 mm
32.0 mm
6.028 to 6.043 mm
0.017 to 0.064 mm
24.5 mm
28.0 mm
6.010 to6.025 mm
0.035 to 0.081 mm
Valve lift . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Valve length . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Valve head diameter:
1.6 litre engine . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.8 and 2.0 litre engines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Valve stem diameter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Valve stem-to-guide clearance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Cylinder block
Cylinder bore diameter - 1.6 litre engine:
Class 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Class 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Class 3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Cylinder bore diameter - 1.8 litre engine:
Class 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Class 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Class 3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Cylinder bore diameter - 2.0 litre engine:
Class 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Class 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Class 3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
76.000 to 76.010 mm
76.010 to 76.020 mm
76.020 to 76.030 mm
80.600 to 80.610 mm
80.610 to 80.620 mm
80.620 to 80.630 mm
84.800 to 84.810 mm
84.810 to 84.820 mm
84.820 to 84.830 mm
2B•2 Engine removal and general engine overhaul procedures
Pistons and piston rings
Piston diameter - 1.6 litre engine:
Class 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Class 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Class 3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Piston diameter - 1.8 litre engine:
Class 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Class 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Class 3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Piston diameter - 2.0 litre engine:
Class 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Class 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Class 3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Oversizes - all engines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Piston-to-cylinder bore clearance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Piston ring end gaps - installed:
Top compression ring - 1.6 and 1.8 litre engines . . . . . . . . . . . . . . . .
Top compression ring - 2.0 litre engine . . . . . . . . . . . . . . . . . . . . . . .
Second compression ring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Oil control ring - 1.6 litre engine . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Oil control ring - 1.8 litre engine . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Oil control ring - 2.0 litre engine . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
75.975 to 75.985 mm
75.985 to 75.995 mm
75.995 to 76.005 mm
80.570 to 80.580 mm
80.580 to 80.590 mm
80.590 to 80.600 mm
84.770 to 84.780 mm
84.780 to 84.790 mm
84.790 to 84.800 mm
None available
No information available at time of writing
0.30 to 0.50 mm
0.26 to 0.50 mm
0.30 to 0.50 mm
0.25 to 1.00 mm
0.38 to 1.14 mm
0.40 to 1.40 mm
Gudgeon pin
Diameter:
White colour code/piston crown marked “A” . . . . . . . . . . . . . . . . . . .
Red colour code/piston crown marked “B” . . . . . . . . . . . . . . . . . . . .
Blue colour code/piston crown marked “C” . . . . . . . . . . . . . . . . . . . .
Clearance in piston . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Connecting rod small-end eye internal diameter . . . . . . . . . . . . . . . . . .
Interference fit in connecting rod . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
20.622 to 20.625 mm
20.625 to 20.628 mm
20.628 to 20.631 mm
0.010 to 0.016 mm
20.589 to 20.609 mm
0.011 to 0.042 mm
Crankshaft and bearings
Main bearing shell standard inside diameter - installed . . . . . . . . . . . .
Main bearing journal standard diameter . . . . . . . . . . . . . . . . . . . . . . . .
Main bearing journal-to-shell running clearance . . . . . . . . . . . . . . . . . .
Main bearing shell undersizes available . . . . . . . . . . . . . . . . . . . . . . . . .
Big-end bearing shell standard inside diameter - installed . . . . . . . . . . .
Crankpin (big-end) bearing journal standard diameter . . . . . . . . . . . . .
Crankpin (big-end) bearing journal-to-shell running clearance . . . . . . . .
Big-end bearing shell undersizes available . . . . . . . . . . . . . . . . . . . . . .
Crankshaft endfloat . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
58.011 to 58.038 mm
57.980 to 58.000 mm
0.011 to 0.058 mm
0.02 mm, 0.25 mm
46.926 to 46.960 mm
46.890 to 46.910 mm
0.016 to 0.070 mm
0.02 mm, 0.25 mm
0.090 to 0.310 mm
Torque wrench settings
Nm
80
lbf ft
59
18
Angle-tighten a further 90°
10
13
7
8 to 11
24
25
6 to 8
17
18
47
35
32
24
10
23
See Chapter 3
48
See Part A of this Chapter
See Part A of this Chapter
130
7
17
Main bearing cap bolts and nuts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Big-end bearing cap bolts:
Stage 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Stage 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Piston-cooling oil jet/blanking plug Torx screws . . . . . . . . . . . . . . . . . .
Cylinder block and head oilway blanking plugs:
M6 x 10 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
M10 x 11.5 - in block . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1/4 PTF plug - in block . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power steering pump/air conditioning compressor mounting
bracket-to-cylinder block bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Exhaust manifold heat shield mounting bracket-to-cylinder
block bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Crankcase breather system:
Oil separator-to-cylinder block bolts . . . . . . . . . . . . . . . . . . . . . . . . .
Pipe-to-cylinder head bolt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Water pump bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Driveshaft support bearing bracket-to-cylinder block bolts . . . . . . . . . .
Transmission-to-engine bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Engine/transmission mounting fasteners . . . . . . . . . . . . . . . . . . . . . . . .
Front suspension subframe bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Note: Refer to Part A of this Chapter for remaining torque wrench settings.
35
96
Engine removal and general engine overhaul procedures 2B•3
1 General information
How to use this Chapter
This Part of Chapter 2 is devoted to
engine/transmission removal and refitting, to
those repair procedures requiring the removal
of the engine/transmission from the vehicle,
and to the overhaul of engine components. It
includes only the Specifications relevant to
those procedures. Refer to Part A for
additional Specifications, if required.
General information
The information ranges from advice
concerning preparation for an overhaul and
the purchase of replacement parts, to detailed
step-by-step procedures covering removal
and installation of internal engine components
and the inspection of parts.
The following Sections have been written
based on the assumption that the engine has
been removed from the vehicle. For
information concerning in-vehicle engine
repair, as well as removal and installation of
the external components necessary for the
overhaul, see Part A of this Chapter and
Section 5 of this Part.
When overhauling this engine, it is essential
to establish first exactly what replacement
parts are available. At the time of writing,
components such as the piston rings are not
available
separately
from
the
piston/connecting rod assemblies; pistons,
gudgeon pins and valve guides are not
available separately, and very few under- or
oversized components are available for
engine reconditioning. In most cases, it would
appear that the easiest and most
economically-sensible course of action is to
replace a worn or damaged engine with an
exchange unit.
2 Engine overhaul general information
It’s not always easy to determine when, or
if, an engine should be completely
overhauled, as a number of factors must be
considered.
High mileage is not necessarily an
indication that an overhaul is needed, while
low mileage doesn’t preclude the need for an
overhaul. Frequency of servicing is probably
the most important consideration. An engine
that’s had regular and frequent oil and filter
changes, as well as other required
maintenance, will most likely give many
thousands of miles of reliable service.
Conversely, a neglected engine may require
an overhaul very early in its life.
Excessive oil consumption is an indication
that piston rings, valve seals and/or valve
guides are in need of attention. Make sure
that oil leaks aren’t responsible before
deciding that the rings and/or guides are
worn. Perform a cylinder compression check
(Part A of this Chapter, Section 3) to
determine the extent of the work required.
Loss of power, rough running, knocking or
metallic engine noises, excessive valve train
noise and high fuel consumption rates may
also point to the need for an overhaul,
especially if they’re all present at the same
time. If a full service doesn’t remedy the
situation, major mechanical work is the only
solution.
An engine overhaul involves restoring all
internal parts to the specification of a new
engine. Note: Always check first what
replacement parts are available before
planning any overhaul operation; refer to
Section 1 of this Part. Ford dealers, or a good
engine reconditioning specialist/automotive
parts supplier may be able to suggest
alternatives which will enable you to overcome
the lack of replacement parts.
During an overhaul, it is usual to renew the
piston rings, and to rebore and/or hone the
cylinder bores; where the rebore is done by an
automotive machine shop, new oversize
pistons and rings will also be installed - all
these operations, of course, assume the
availability of suitable replacement parts. The
main and big-end bearings are generally
renewed and, if necessary, the crankshaft
may be reground to restore the journals.
Generally, the valves are serviced as well,
since they’re usually in less-than-perfect
condition at this point. While the engine is
being overhauled, other components, such as
the starter and alternator, can be renewed as
well, or rebuilt, if the necessary parts can be
found. The end result should be an as-new
engine that will give many trouble-free miles.
Note: Critical cooling system components
such as the hoses, drivebelt, thermostat and
water pump MUST be replaced with new
parts when an engine is overhauled. The
radiator should be checked carefully, to
ensure that it isn’t clogged or leaking (see
Chapter 3). Also, as a general rule, the oil
pump should be renewed when an engine is
rebuilt.
Before beginning the engine overhaul, read
through the entire procedure to familiarise
yourself with the scope and requirements of
the job. Overhauling an engine isn’t difficult,
but it is time-consuming. Plan on the vehicle
being off the road for a minimum of two
weeks, especially if parts must be taken to an
automotive machine shop for repair or
reconditioning. Check on availability of parts,
and make sure that any necessary special
tools and equipment are obtained in advance.
Most work can be done with typical hand
tools, although a number of precision
measuring tools are required, for inspecting
parts to determine if they must be replaced.
Often, an automotive machine shop will
handle the inspection of parts, and will offer
advice concerning reconditioning and
replacement. Note: Always wait until the
engine has been completely dismantled, and
all components, especially the cylinder
block/crankcase, have been inspected, before
deciding what service and repair operations
must be performed by an automotive machine
shop. Since the block’s condition will be the
major factor to consider when determining
whether to overhaul the original engine or buy
a rebuilt one, never purchase parts or have
machine work done on other components
until the cylinder block/crankcase has been
thoroughly inspected. As a general rule, time
is the primary cost of an overhaul, so it
doesn’t pay to install worn or sub-standard
parts.
As a final note, to ensure maximum life and
minimum trouble from a rebuilt engine,
everything must be assembled with care, in a
spotlessly-clean environment.
3 Engine/transmission removal methods and precautions
If you’ve decided that an engine must be
removed for overhaul or major repair work,
several preliminary steps should be taken.
Locating a suitable place to work is
extremely important. Adequate work space,
along with storage space for the vehicle, will
be needed. If a workshop or garage isn’t
available, at the very least, a flat, level, clean
work surface made of concrete or asphalt is
required.
Cleaning the engine compartment and
engine/transmission before beginning the
removal procedure will help keep tools clean
and organized.
The engine can only be withdrawn by
removing it complete with the transmission;
the vehicle’s body must be raised and
supported securely, sufficiently high that the
engine/transmission can be unbolted as a
single unit and lowered to the ground; the
engine/transmission unit can then be
withdrawn from under the vehicle and
separated. An engine hoist or A-frame will
therefore be necessary. Make sure the
equipment is rated in excess of the combined
weight of the engine and transmission. Safety
is of primary importance, considering the
potential hazards involved in removing the
engine/transmission from the vehicle.
If this is the first time you have removed an
engine, a helper should ideally be available.
Advice and aid from someone more
experienced would also be helpful. There are
many instances when one person cannot
simultaneously perform all of the operations
required when removing the engine/
transmission from the vehicle.
Plan the operation ahead of time. Arrange for,
or obtain, all of the tools and equipment you’ll
need prior to beginning the job. Some of the
equipment
necessary
to
perform
engine/transmission removal and installation
2B
2B•4 Engine removal and general engine overhaul procedures
safely and with relative ease, and which may
have to be hired or borrowed, includes (in
addition to the engine hoist) a heavy-duty trolley
jack, a strong pair of axle stands, some wooden
blocks, and an engine dolly (a low, wheeled
platform capable of taking the weight of the
engine/transmission, so that it can be moved
easily when on the ground). A complete set of
spanners and sockets (as described in the front
of this manual) will obviously be needed,
together with plenty of rags and cleaning
solvent for mopping-up spilled oil, coolant and
fuel. If the hoist is to be hired, make sure that
you arrange for it in advance, and perform all of
the operations possible without it beforehand.
This will save you money and time.
Plan for the vehicle to be out of use for
quite a while. A machine shop will be required
to perform some of the work which the do-ityourselfer can’t accomplish without special
equipment. These establishments often have
a busy schedule, so it would be a good idea
to consult them before removing the engine,
to accurately estimate the amount of time
required to rebuild or repair components that
may need work.
Always be extremely careful when removing
and installing the engine/transmission.
Serious injury can result from careless
actions. By planning ahead and taking your
time, the job (although a major task) can be
accomplished successfully.
Note: Read through the entire Section, as well
as reading the advice in the preceding Section,
before beginning this procedure. The engine
and transmission are removed as a unit,
lowered to the ground and removed from
underneath, then separated outside the vehicle.
Removal
1 Park the vehicle on firm, level ground, apply
the handbrake firmly, and slacken the nuts
securing both front roadwheels.
2 Relieve the fuel system pressure (see
Chapter 4).
3 Disconnect the battery negative (earth) lead
- see Chapter 5, Section 1. For better access
the battery may be removed completely (see
Chapter 5).
4 Place protective covers on the wings and
engine compartment front crossmember, then
remove the bonnet (see Chapter 11).
5 Whenever you disconnect any vacuum
lines, coolant and emissions hoses, wiring
loom connectors, earth straps and fuel lines
as part of the following procedure, always
label them clearly, so that they can be
correctly reassembled.
6 Unplug the two electrical connectors,
disconnect the vacuum hose (where fitted)
and disconnect the crankcase breather hose
from the cylinder head cover, then remove the
complete air cleaner assembly, with the air
mass meter, the resonator and the plenum
chamber (see Chapter 4).
7 Equalise the pressure in the fuel tank by
removing the filler cap, then undo the fuel
feed and return lines connecting the engine to
the chassis (see Chapter 4). Plug or cap all
open fittings (see illustration).
8 Disconnect the accelerator cable from the
throttle linkage as described in Chapter 4 where fitted, also disconnect the cruise
control actuator cable (see Chapter 12).
Secure
the
cable(s)
clear
of
the
engine/transmission.
9 Releasing its wire clip, unplug the power
steering pressure switch electrical connector,
then unbolt the power steering high-pressure
pipe and the earth lead from the cylinder head
rear support plate/engine lifting eye (see
illustrations).
10 Marking or labelling all components as
they are disconnected (see paragraph 5
above), disconnect the vacuum hoses as
follows:
4 Engine/transmission removal and refitting
Warning: Petrol is extremely
flammable, so take extra
precautions when disconnecting
any part of the fuel system. Don’t
smoke, or allow naked flames or bare light
bulbs in or near the work area, and don’t
work in a garage where a natural gas
appliance (such as a clothes dryer or water
heater) is installed. If you spill petrol on
your skin, rinse it off immediately. Have a
fire extinguisher rated for petrol fires
handy, and know how to use it.
4.7 Note colour-coding of unions when
disconnecting fuel feed and return lines
Whenever any wiring is disconnected,
mark or label it as shown, to ensure
correct reconnection . . .
. . . vacuum hoses and pipes should
be similarly marked
Masking tape and/or a touch-up paint applicator work well for marking items. Take
instant photos, or sketch the locations of components and brackets.
4.9A Unplug the power steering pressure
switch electrical connector . . .
4.9B . . . unbolt the power steering highpressure pipe . . .
Engine removal and general engine overhaul procedures 2B•5
4.9C . . . and the earth lead from the
cylinder head rear support plate/engine
lifting eye
4.10A Disconnect vacuum hose shown
from rear of throttle housing . . .
(a) One from the rear of the throttle housing
(only the one hose - there is no need to
disconnect the second hose running to
the fuel pressure regulator) (see
illustration).
(b) One from the union on the inlet manifold’s
left-hand end (see illustration).
(c) The braking system vacuum servo unit
hose - from the inlet manifold (see
Chapter 9 for details).
(d) Also disconnect the vacuum hoses from
the Exhaust Gas Recirculation system
components - one from the EGR valve,
two from the EGR pipe (note that these
last two are of different sizes, as are their
pipe stubs, so that they can only be
connected the correct way round).
(e) While you are there, trace the vacuum line
from the pulse-air filter housing over the
top of the transmission, and disconnect it
by pulling the plastic pipe out of the
rubber hose just beneath the bulkheadmounted pulse-air solenoid valve (see
illustration).
(f) Secure all these hoses so that they won’t
get damaged as the engine/transmission
is removed.
11 Unbolt the engine/transmission-to-body
earth lead from the transmission’s top surface
(see illustration). Disconnect the speedometer drive cable (see Chapter 12) and
secure it clear of the engine/transmission.
12 Where the vehicle is fitted with manual
transmission, disconnect the clutch cable (see
Chapter 8). Where automatic transmission is
fitted, disconnect the selector cable (see
Chapter 7, Part B). Secure the cable clear of
the engine/transmission.
13 Marking or labelling all components as
they are disconnected (see paragraph 5
above), disconnect the engine wiring loom
from the body as follows:
(a) Starting at the left-hand side of the engine
compartment, release and unplug the
three large electrical connectors clipped
to the suspension mounting - note the
wire clips fitted to some connectors (see
illustration).
(b) Disconnect and/or release the battery-tostarter motor wiring, noting the single
connector which must be unplugged.
(c) Unplug the electrical connector(s) to
disconnect the vehicle speed sensor,
oxygen sensor and, where fitted, the oil
level sensor wiring - unclip the connectors
to release the wiring where necessary.
(d) Work along the loom to the bulkhead,
unclipping the loom and unplugging the
various bulkhead-mounted components
connected into it, until you reach the
right-hand side of the engine
compartment (see illustration).
(e) Carefully prise the power steering fluid
reservoir upwards out of its clip on the
suspension mounting, then unscrew the
ECU connector’s retaining bolt and
unplug the connector (see illustration).
(f) Unbolt the earth lead from the right-hand
4.13A Unplug three large electrical
connectors (arrowed) . . .
4.13B . . . unplug engine wiring loom from
battery wiring and bulkhead components
(arrowed) . . .
4.10B . . . vacuum hose (arrowed) from
union on left-hand end on inlet manifold . . .
4.10C . . . also brake servo hose (A), EGR
valve hose (B), EGR pipe hoses (C) - noting
their different sizes - and pulse-air filter
vacuum line (D)
4.11 Unbolt the engine/transmission-tobody earth lead - hidden behind wiring
loom guide - from location (arrowed) on
the transmission’s top surface
4.13C . . . and disconnect ECU wiring and
earth lead (arrowed) to release engine
wiring loom from vehicle body
2B
2B•6 Engine removal and general engine overhaul procedures
4.25A Use split pins as shown to secure
radiator in its raised position . . .
inner wing panel, release the engine
wiring loom and refit the power steering
fluid reservoir.
(g) Secure the engine wiring loom neatly to
the engine/transmission so that it cannot
be damaged as the unit is removed from
the vehicle.
14 Unbolt both parts of the exhaust manifold
heat shield; unclip the coolant hose to allow
the upper part to be withdrawn.
15 Remove the auxiliary drivebelt (see
Chapter 1).
16 Unbolt the power steering pump (see
Chapter 10); secure it as far as possible
(without disconnecting the system’s hoses)
clear of the engine/transmission.
17 Raise the vehicle and support it securely
on axle stands, then remove the front
roadwheels. Drain the cooling system and (if
the engine is to be dismantled) drain the
engine oil and remove the oil filter (see
Chapter 1). Also drain the transmission as
described in the relevant Part of Chapter 7.
18 Withdraw the lower part of the exhaust
manifold heat shield.
19 Unscrew the nuts to disconnect the
exhaust system front downpipe from the
manifold, then unhook all the system’s rubber
mountings and withdraw the complete
exhaust system from under the vehicle (see
Chapter 4 for details).
20 Where the vehicle is fitted with manual
transmission, mark their positions, then
disconnect the gearchange linkage and
transmission support rods from the rear of the
transmission. Unscrew the retaining nuts, and
withdraw the gear linkage heat shield from the
underbody. Unbolt the rear end of the linkage
from the underbody, swivel the linkage around
to the rear, and tie it to the underbody (see
Chapter 7, Part A, for details).
21 Disconnect both anti-roll bar links from
their respective suspension strut - note the
flexible brake hose bracket attached to each
link stud - and both track rod ends from their
steering knuckles. Unfasten the clamp bolt
securing each front suspension lower arm
balljoint to its steering knuckle (see Chapter 10 for details). Check that both balljoints
can be released from the knuckle assemblies
when required, but leave them in place for the
4.25B . . . while you unbolt the bottom
mountings (arrowed) - note that the
mountings are handed, and do not lose the
mounting rubbers
time being, secured by the clamp bolts if
necessary.
22 Where the vehicle is fitted with air
conditioning, unbolt the accumulator/
dehydrator from the subframe; secure it as far
as possible (without disconnecting the
system’s hoses) clear of the engine/
transmission.
Warning: Do not disconnect the
refrigerant hoses.
23 Unbolt the steering gear from the
subframe; if the bolts are not accessible from
above, a Ford service tool will be required to
reach them from underneath the vehicle (see
Chapter 10 for details).
24 Unscrew the two bolts securing the power
steering system pipes to the right-hand side
of the subframe.
25 Hold the radiator in its raised position, by
inserting split pins through the holes in the
rear of the engine compartment front
crossmember and into the radiator’s upper
mounting extensions. Unbolt the radiator
mounting brackets from the subframe; note
that they are handed, and are marked to
ensure correct refitting (see illustrations).
Collect and store the bottom mounting
rubbers for safekeeping, noting which way up
they are fitted.
26 Unbolt the engine/transmission rear
mounting from the subframe - where the
vehicle is fitted with automatic transmission, a
separate damper may be fitted beneath the
subframe, which must be unbolted to reach
the mounting’s fasteners. Where the vehicle is
fitted with manual transmission, also unscrew
the mounting centre bolt, and unbolt the
mounting bracket from the transmission.
27 Unscrew the engine/transmission front
mounting centre bolt, and unbolt the
mounting from the subframe, noting the
location of the wiring connector bracket.
28 Use white paint or similar (do not use a
sharp-pointed scriber, which might break the
underbody protective coating and cause
rusting) to mark the exact relationship of the
subframe to the underbody. Unscrew the four
mounting bolts from the subframe (note their
different-sized washers - see also illus-
4.30 Unscrew bolts (arrowed) to release
air conditioning compressor from engine
tration 4.47A) and allow the subframe to hang
down on the suspension lower arm balljoints.
Disconnect the balljoints one at a time from
the steering knuckle assemblies (see Chapter 10) and lower the subframe to the ground;
withdraw the subframe from under the
vehicle.
29 Marking or labelling all components as
they are disconnected (see paragraph 5
above) and catching as much as possible of
the escaping coolant in the drain tray,
disconnect the cooling system hoses and
pipes as follows - refer to Chapter 3 for further
details, if required:
(a) Remove the radiator top hose.
(b) Remove the (heater) hose running from
the thermostat to the engine
compartment bulkhead union.
(c) Disconnect from the thermostat the hose
running to the expansion tank - secure the
hose clear of the working area.
(d) Disconnect from the thermostat the
coolant hose/pipe which runs to the
radiator bottom hose.
(e) Disconnect the radiator bottom hose from
the radiator union, from the (sump) heater
coolant pipe and from the water pump
union - secure the hose clear of the
working area.
(f) Unbolt the (heater) coolant pipe from the
sump, trace the pipe/hose round to the
engine compartment bulkhead union,
disconnecting (where fitted) the oil cooler
hoses from the cooler unions, then
remove it.
(g) Unless the vehicle has air conditioning
fitted, secure the radiator as far forwards
as possible while it is in its raised position;
if air conditioning is fitted, remove the
radiator completely (see Chapter 3).
30 Where the vehicle is fitted with air
conditioning, unplug the compressor’s
electrical connector, and unbolt the
compressor
from
the
engine
(see
illustration). Secure it as far as possible
(without disconnecting the system’s hoses)
clear of the engine/transmission.
Warning: Do not disconnect the
refrigerant hoses.
Engine removal and general engine overhaul procedures 2B•7
31 Where the vehicle is fitted with manual
transmission, disconnect the driveshafts from
the transmission as follows, referring to
Chapter 8 for further details when required:
(a) Unscrew the nuts securing the right-hand
driveshaft support bearing, and withdraw
the heat shield.
(b) Pull the right-hand driveshaft out of the
transmission; be prepared to catch any
spilt oil.
(c) Secure the driveshaft clear of the
engine/transmission - remember that the
unit is to be lowered out of the vehicle and ensure that the inner joint is not
turned through more than 18°.
(d) Prise the left-hand driveshaft out of the
transmission - again, be prepared for oil
spillage. Secure the driveshaft clear of the
engine/transmission, and ensure that its
inner joint is not turned through more than
18°.
32 Where the vehicle is fitted with automatic
transmission, proceed as follows, referring to
Chapter 7, Part B and to Chapter 8 for further
details when required:
(a) Unscrew its centre bolt, then unbolt the
engine/transmission rear mounting
bracket from the transmission.
(b) Disconnect the fluid cooler pipe from the
rear of the transmission, and secure it
clear of the unit.
(c) Prise the left-hand driveshaft out of the
transmission; be prepared to catch any
spilt oil.
(d) Secure the driveshaft clear of the
engine/transmission - remember that the
unit is to be lowered out of the vehicle and ensure that the inner joint is not
turned through more than 18°.
(e) Unscrew the nuts securing the right-hand
driveshaft support bearing, and withdraw
the heat shield.
(f) Pull the right-hand driveshaft out of the
transmission - again, be prepared for oil
spillage. Secure the driveshaft clear of the
engine/transmission, and ensure that its
inner joint is not turned through more than
18°.
(g) Disconnect the fluid cooler pipe from the
front of the transmission, and secure it
clear of the unit.
33 The engine/transmission unit should now
be hanging on the right- and left-hand
mountings only, with all components which
connect it to the rest of the vehicle
disconnected or removed and secured well
clear of the unit. Make a final check that this is
the case, then ensure that the body is
securely supported, high enough to permit the
withdrawal of the engine/transmission unit
from underneath; allow for the height of the
engine dolly, if used.
34 Take the weight of the engine/
transmission unit, using the lifting eyes
provided on the cylinder head. Unscrew the
six nuts securing the right-hand mounting
bracket, then the three nuts securing the lefthand bracket.
Warning: Do not put any part of
your body under the vehicle, or
under the engine/transmission
unit, when they are supported only by a
hoist or other lifting equipment.
35 Lower the engine/transmission to the
ground, and withdraw it from under the
vehicle (see illustration).
36 Referring to the relevant part of Chapter 7,
separate the transmission from the engine.
37 While the engine/transmission is removed,
check the mountings; renew them if they are
worn or damaged. Similarly, check the
condition of all coolant and vacuum hoses
and pipes (see Chapter 1); components that
are normally hidden can now be checked
properly, and should be renewed if there is
any doubt at all about their condition. Where
the vehicle is fitted with manual transmission,
take the opportunity to overhaul the clutch
components (see Chapter 8). It is regarded by
many as good working practice to renew the
clutch assembly as a matter of course,
whenever major engine overhaul work is
carried out. Check also the condition of all
components (such as the transmission oil
seals) disturbed on removal, and renew any
that are damaged or worn.
Refitting
38 Refitting is the reverse of the removal
procedure, noting the following points.
Tighten all fasteners to the torque wrench
settings given; where settings are not quoted
in the Specifications Sections of the two Parts
of this Chapter, refer to the Specifications
Section of the relevant Chapter of this manual.
39 In addition to the points noted in
paragraph 37 above, always renew any
circlips and self-locking nuts disturbed on
removal.
40 Where wiring, etc, was secured by cable
ties which had to be cut on removal, ensure
that it is secured with new ties on refitting.
41 With all overhaul operations completed,
refit the transmission to the engine as
described in Chapter 7.
42 Manoeuvre the engine/transmission unit
under the vehicle, attach the hoist, and lift the
unit into position until the right- and left-hand
mountings can be reassembled; tighten the
(new) nuts only lightly at this stage. Do not yet
release the hoist; the weight of the
engine/transmission unit must not be taken by
the mountings until all are correctly aligned.
43 Using new circlips, and ensuring that the
inner joints are not twisted through too great
an angle (see Chapter 8), refit the driveshafts.
Where the vehicle is fitted with manual
transmission, the procedure is the reverse of
that outlined in paragraph 31 above. Where
the vehicle is fitted with automatic
transmission, proceed as follows, referring to
Chapter 7, Part B and to Chapter 8 for further
details when required:
(a) Refit the left-hand driveshaft.
(b) Using the clips provided to ensure that
they are correctly routed, and tightening
4.35 Lowering the engine/transmission
unit out of the vehicle
the couplings to the specified torque
wrench setting where possible, reconnect
the fluid cooler pipes, first to the rear,
then to the front, of the transmission.
(c) Refit the right-hand driveshaft to the
transmission, refit the heat shield, and
tighten the support bearing nuts to the
specified torque wrench setting.
(d) Refit the engine/transmission rear
mounting bracket to the transmission,
tightening the bolts to the torque wrench
setting specified, then refit the mounting,
tightening the centre bolt only lightly at
this stage.
44 Where the vehicle is fitted with air
conditioning, do not forget to refit the
compressor; tighten the bolts to the specified
torque wrench setting, and plug in its
electrical connector.
45 Using the marks and notes made on
removal, refit the cooling system hoses.
Where they are left disconnected or unclipped
for the time being, do not forget to secure
them at the appropriate moment during the
reassembly procedure. Refit the radiator (if
removed), using split pins to secure it in the
raised position.
46 Offer up the subframe one side at a time,
and hold it by securing the suspension lower
arm balljoints to the steering knuckle
assemblies. Refit the subframe bolts, ensuring
that the washers are refitted correctly, and
tightening the bolts only lightly at this stage.
47 The subframe must now be aligned on the
underbody. Ford specify the use of service
tool 15-097, which is a pair of tapered guides,
with attachments to hold them in the
subframe as it is refitted. However, since the
working diameter of these tools is 20.4 mm,
and since the corresponding aligning holes in
the subframe and underbody are respectively
21 mm and 22 mm in diameter, there is a
significant in-built tolerance possible in the
subframe’s alignment, even if the correct tools
are used. If these tools are not available, you
can align the subframe by eye, centring the
subframe aligning holes on those of the
underbody, and using the marks made on
removal for assistance. Alternatively, you can
align the subframe using a tapered drift (such
as a clutch-aligning tool), or even a deep
2B
2B•8 Engine removal and general engine overhaul procedures
4.47A Tighten subframe mounting
bolts (A) while ensuring that alignment
remains correct - Ford service tools (B)
shown in use here . . .
4.50A Do not allow the left-hand mounting
to twist as its nuts (arrowed) are tightened
4.50B Tighten the right-hand mounting’s
four bracket-to-engine nuts (A), release
the hoist, then tighten the two bracket-tomounting nuts (B). Do not allow mounting
to twist
4.50C Unbolt special tool . . .
4.47B . . . but alternative methods using
ordinary hand tools can achieve
acceptable alignment, with care
4.49 Special tool required to hold
engine/transmission unit precisely, so that
mountings can be tightened into correct
position
socket spanner of suitable size (see
illustrations).
48 Once the subframe is aligned as precisely
as possible, tighten its bolts to the specified
torque wrench setting without disturbing its
position. Recheck the alignment once all the
bolts are securely tightened.
49 With the subframe aligned and securely
fastened, the engine/transmission unit must
now be positioned precisely, before the
mountings can be reassembled. Ford specify
the use of service tool 21-172; this is a fixture
bolted to the subframe in place of the
engine/transmission front mounting, so that
when the mounting’s centre bolt is refitted, it
is held 60 mm above the subframe’s top
surface, and offset 20 mm to the rear of the
mounting’s subframe bolt holes (centres). DIY
mechanics are advised to obtain the Ford
tool; the only alternative is to have a copy
fabricated (see illustration).
50 Fasten the tool to the subframe in place of
the engine/transmission front mounting, and
lightly tighten the mounting’s centre bolt. Refit
the engine/transmission mountings in the
following sequence:
(a) Tighten the left-hand mounting’s nuts to
the specified torque wrench setting - do
not allow the mounting to twist as it is
tightened (see illustration).
(b) Tighten the right-hand mounting’s four
bracket-to-engine nuts to the specified
torque wrench setting.
(c) Slowly release the hoist so that the weight
of the engine/transmission unit is taken by
the mountings.
(d) Tighten the right-hand mounting’s two
bracket-to-mounting nuts to the specified
torque wrench setting - do not allow the
mounting to twist as it is tightened (see
illustration).
(e) Reassemble the engine/transmission rear
mounting, tightening the fasteners to the
specified torque wrench settings; tighten
the centre bolt last.
(f) Refit the steering gear to the subframe; if
the Ford service tool is used to tighten the
bolts from underneath the vehicle (see
Chapter 10 for details), note that a torque
wrench which can tighten in an anticlockwise direction will be required.
(g) Unbolt the special tool from the front
mounting, refit the mounting - do not
forget the wiring connector bracket - and
tighten first the mounting’s bolts/nuts,
then its centre bolt, to their respective
specified torque wrench settings (see
illustrations).
51 Refit the bottom mounting rubbers to the
radiator - ensure that both are the correct way
up - then refit the radiator mounting brackets
to the subframe, ensuring that each is
returned to its correct (marked) location, and
tightening the bolts to the torque wrench
setting specified. Remove the split pins, and
secure the coolant hose connections (where
necessary).
52 Refit the air conditioning accumulator/
dehydrator (where appropriate) to the
subframe.
53 Tighten the two bolts securing the power
steering system pipes to the right-hand side
of the subframe.
54 Fasten each front suspension lower arm
balljoint and track rod end to their respective
steering knuckles, and both anti-roll bar links
to their respective suspension strut. Note the
flexible brake hose bracket attached to each
link stud (see Chapter 10 for details).
55 Where the vehicle is fitted with manual
transmission, swivel the linkage around to the
front, tighten its rear fasteners, then refit the
4.50D . . . then refit front mounting - do
not forget wiring connector bracket tighten the mounting’s nuts first, then its
centre bolt
Engine removal and general engine overhaul procedures 2B•9
gear linkage heat shield. Reconnect the
gearchange linkage and transmission support
rods to the transmission, adjusting the linkage
using the marks made on removal (see
Chapter 7, Part A, for details).
56 Re-install the remaining components and
fasteners in the reverse order of removal.
57 Add coolant, engine oil and transmission
fluids as needed (see Chapter 1).
58 Run the engine, and check for proper
operation and the absence of leaks. Shut off
the engine, and recheck the fluid levels.
59 Remember that, since the front suspension
subframe and steering gear have been
disturbed, the wheel alignment and steering
angles must be checked fully and carefully as
soon as possible, with any necessary
adjustments being made. This operation is best
carried out by an experienced mechanic, using
proper checking equipment; the vehicle should
therefore be taken to a Ford dealer or similarlyqualified person for attention.
5 Engine overhaul dismantling sequence
1 It is much easier to dismantle and work on
the engine if it is mounted on a portable engine
stand. These stands can often be hired from a
tool hire shop. Before the engine is mounted
on a stand, the flywheel/driveplate should be
removed (Part A of this Chapter, Section 21)
so that the stand bolts can be tightened into
the end of the cylinder block/crankcase.
2 If a stand is not available, it is possible to
dismantle the engine with it mounted on
blocks, on a sturdy workbench or on the floor.
Be extra-careful not to tip or drop the engine
when working without a stand.
3 If you are going to obtain a reconditioned
engine, all external components must be
removed first, to be transferred to the
replacement engine (just as they will if you are
doing a complete engine overhaul yourself).
Note: When removing the external
components from the engine, pay close
attention to details that may be helpful or
important during refitting. Note the fitted
position of gaskets, seals, spacers, pins,
washers, bolts and other small items. These
external components include the following:
(a) Alternator and brackets (Chapter 5).
(b) HT leads and spark plugs (Chapter 1).
(c) Thermostat and housing (Chapter 3).
(d) Dipstick tube.
(e) Fuel injection system components
(Chapter 4).
(f) All electrical switches and sensors - refer
to the appropriate Chapter.
(g) Inlet and exhaust manifolds (Part A of this
Chapter).
(h) Oil filter (Chapter 1).
(i) Engine/transmission mounting brackets
(Part A of this Chapter, Section 22).
(j) Flywheel/driveplate (Part A of this
Chapter, Section 21).
4 If you are obtaining a “short” engine (which
consists
of
the
engine
cylinder
block/crankcase, crankshaft, pistons and
connecting rods all assembled), then the
cylinder head, sump, oil pump, and timing belt
will have to be removed also.
5 If you are planning a complete overhaul, the
engine can be dismantled and the internal
components removed in the following order.
(a) Inlet and exhaust manifolds (Part A of this
Chapter).
(b) Timing belt, toothed pulleys and
tensioner, and timing belt inner cover
(Part A of this Chapter).
(c) Cylinder head (Part A of this Chapter,
Section 14).
(d) Flywheel/driveplate (Part A of this
Chapter, Section 21).
(e) Sump (Part A of this Chapter, Section 15).
(f) Oil pump (Part A of this Chapter, Section 16).
(g) Piston/connecting rod assemblies
(Section 9).
(h) Crankshaft (Section 10).
6 Before beginning the dismantling and
overhaul procedures, make sure that you have
all of the correct tools necessary. Refer to the
introductory pages at the beginning of this
manual for further information.
6 Cylinder head - dismantling
Note: New and reconditioned cylinder heads
are available from the manufacturers, and
from engine overhaul specialists. Due to the
fact that some specialist tools are required for
the dismantling and inspection procedures,
and new components may not be readily
available (refer to Section 1 of this Part), it may
be more practical and economical for the
home mechanic to purchase a reconditioned
head, rather than to dismantle, inspect and
recondition the original head.
1 Remove the camshafts and hydraulic
tappets (Part A of this Chapter, Section 13),
being careful to store the hydraulic tappets as
described (see illustration).
2B
6.1 Cylinder head components
1
2
3
4
Hydraulic tappet
Valve collets
Valve spring upper seat
Valve spring
5 Valve spring lower
seat/stem oil seal
6 Oil-retaining valve
7 Engine lifting eye
8 Cylinder head gasket
9
10
11
12
Inlet valve
Locating dowels
Exhaust valve
Cylinder head bolt
2B•10 Engine removal and general engine overhaul procedures
6.3A Standard valve spring compressor
modified as shown . . .
2 Remove the cylinder head (Part A of this
Chapter, Section 14).
3 Using a valve spring compressor, compress
each valve spring in turn until the split collets
can be removed. A special valve spring
compressor will be required, to reach into the
deep wells in the cylinder head without risk of
damaging the hydraulic tappet bores; such
compressors are now widely available from
most good motor accessory shops. Release
the compressor, and lift off the spring upper
seat and spring (see illustrations).
4 If, when the valve spring compressor is
screwed down, the spring upper seat refuses
to free and expose the split collets, gently tap
the top of the tool, directly over the upper
seat, with a light hammer. This will free the
seat.
5 Withdraw the valve through the combustion
6.3B . . . or purpose-built special version,
is required to compress valve springs
without damaging cylinder head . . .
6.6A Ford service tool in use to remove
valve spring lower seat/stem oil seals . . .
chamber. If it binds in the guide (won’t pull
through), push it back in, and de-burr the area
around the collet groove with a fine file or
whetstone; take care not to mark the
hydraulic tappet bores.
6 Ford recommend the use of their service
tool 21-160 to extract the valve spring lower
seat/stem oil seals; while this is almost
indispensable if the seals are to be removed
without risk of (extremely expensive) damage
to the cylinder head, we found that a
serviceable substitute can be made from a
strong spring of suitable size. Screw on the
tool or spring so that it bites into the seal, then
draw the seal off the valve guide (see
illustrations).
7 It is essential that the valves are kept
together with their collets, spring seats and
springs, and in their correct sequence (unless
they are so badly worn that they are to be
renewed). If they are going to be kept and
used again, place them in a labelled polythene
bag or similar small container (see
illustration). Note that No 1 valve is nearest to
the timing belt end of the engine.
8 If the oil-retaining valve is to be removed (to
flush out the cylinder head oil galleries
thoroughly), seek the advice of a Ford dealer
as to how it can be extracted; it may be that
the only course of action involves destroying
the valve as follows. Screw a self-tapping
screw into its ventilation hole, and use the
screw to provide purchase with which the
valve can be drawn out; a new valve must be
purchased and pressed into place on
reassembly (see illustration).
6.6B . . . can be replaced by home-made
tool if suitable spring can be found
6.7 Use clearly-marked containers to
identify components and to keep matched
assemblies together
6.3C . . . so that both valve split collets
can be removed from the valve’s stem small magnetic pick-up tool prevents loss
of small metal components on removal
and refitting
7 Cylinder head and valve
components cleaning and inspection
Note: Always check first what replacement
parts are available before planning any
overhaul operation; refer to Section 1 of this
Part. A Ford dealer, or a good engine
reconditioning specialist/automotive parts
supplier, may be able to suggest alternatives
which will enable you to overcome the lack of
replacement parts.
1 Thorough cleaning of the cylinder head and
valve components, followed by a detailed
inspection, will enable you to decide how
much valve service work must be carried out
during the engine overhaul. Note: If the
engine has been severely overheated, it is best
to assume that the cylinder head is warped,
and to check carefully for signs of this.
Cleaning
2 Scrape away all traces of old gasket
material and sealing compound from the
cylinder head (see Part A of this Chapter,
Section 14 for details).
3 Scrape away the carbon from the
combustion chambers and ports, then wash
the cylinder head thoroughly with paraffin or a
suitable solvent.
6.8 Cylinder head oil-retaining valve
(arrowed)
Engine removal and general engine overhaul procedures 2B•11
must be fitted. Measure the diameter of the
existing valve stems (see below) and the bore
of the guides, then calculate the clearance,
and compare the result with the specified
value; if the clearance is excessive, renew the
valves or guides as necessary.
9 The renewal of valve guides is best carried
out by an engine overhaul specialist.
10 If the valve seats are to be re-cut, this
must be done only after the guides have been
renewed.
7.6 Check the cylinder head gasket
surfaces for warpage, in the planes
indicated (A to G). Try to slip a feeler
gauge under the precision straight edge
(see the Specifications for the maximum
distortion allowed, and use a feeler blade
of that thickness)
Valves
5 Inspect the head very carefully for cracks,
evidence of coolant leakage, and other
damage. If cracks are found, a new cylinder
head should be obtained.
6 Use a straight edge and feeler blade to
check that the cylinder head gasket surface is
not distorted (see illustration). If it is, it may
be possible to re-surface it.
7 Examine the valve seats in each of the
combustion chambers. If they are severely
pitted, cracked or burned, then they will need
to be renewed or re-cut by an engine overhaul
specialist. If they are only slightly pitted, this
can be removed by grinding-in the valve
heads and seats with fine valve-grinding
compound, as described below.
8 If the valve guides are worn, indicated by a
side-to-side motion of the valve, new guides
11 Examine the head of each valve for
pitting, burning, cracks and general wear, and
check the valve stem for scoring and wear
ridges. Rotate the valve, and check for any
obvious indication that it is bent. Look for pits
and excessive wear on the tip of each valve
stem. Renew any valve that shows any such
signs of wear or damage.
12 If the valve appears satisfactory at this
stage, measure the valve stem diameter at
several points, using a micrometer (see
illustration). Any significant difference in the
readings obtained indicates wear of the valve
stem. Should any of these conditions be
apparent, the valve(s) must be renewed.
13 If the valves are in satisfactory condition,
they should be ground (lapped) into their
respective seats, to ensure a smooth gastight seal. If the seat is only lightly pitted, or if
it has been re-cut, fine grinding compound
only should be used to produce the required
finish. Coarse valve-grinding compound
should not be used unless a seat is badly
burned or deeply pitted; if this is the case, the
cylinder head and valves should be inspected
by an expert, to decide whether seat recutting, or even the renewal of the valve or
seat insert, is required.
14 Valve grinding is carried out as follows.
Place the cylinder head upside-down on a
bench, with a block of wood at each end to
give clearance for the valve stems.
15 Smear a trace of (the appropriate grade
of) valve-grinding compound on the seat face,
and press a suction grinding tool onto the
valve head. With a semi-rotary action, grind
the valve head to its seat, lifting the valve
occasionally to redistribute the grinding
7.12 Measuring the diameter of a valve
stem - if any significant difference is found
in the readings obtained, excessive valve
stem wear is indicated
7.15 Grinding-in a valve seat - do not grind
in the valves any more than absolutely
necessary, or their seats will be
prematurely sunk into the cylinder head
4 Scrape off any heavy carbon deposits that
may have formed on the valves, then use a
power-operated wire brush to remove
deposits from the valve heads and stems.
Inspection
Note: Be sure to perform all the following
inspection procedures before concluding that
the services of a machine shop or engine
overhaul specialist are required. Make a list of
all items that require attention.
Cylinder head
compound (see illustration). A light spring
placed under the valve head will greatly ease
this operation.
16 If coarse grinding compound is being
used, work only until a dull, matt even surface
is produced on both the valve seat and the
valve, then wipe off the used compound, and
repeat the process with fine compound. When
a smooth unbroken ring of light grey matt
finish is produced on both the valve and seat,
the grinding operation is complete. Do not
grind in the valves any further than absolutely
necessary, or the seat will be prematurely
sunk into the cylinder head.
17 When all the valves have been ground-in,
carefully wash off all traces of grinding
compound, using paraffin or a suitable
solvent, before reassembly of the cylinder
head.
Valve components
18 Examine the valve springs for signs of
damage and discolouration, and also measure
their free length by comparing each of the
existing springs with a new component.
19 Stand each spring on a flat surface, and
check it for squareness (see illustration). If
any of the springs are damaged, distorted, or
have lost their tension, obtain a complete set
of new springs.
20 Check the spring upper seats and collets
for obvious wear and cracks. Any
questionable parts should be renewed, as
extensive damage will occur if they fail during
engine operation. Any damaged or
excessively-worn parts must be renewed; the
valve spring lower seat/stem oil seals must be
renewed as a matter of course whenever they
are disturbed.
21 Check the hydraulic tappets as described
in Part A of this Chapter, Section 13.
8 Cylinder head - reassembly
1 Regardless of whether or not the head was
sent away for repair work of any sort, make
sure that it is clean before beginning
reassembly. Be sure to remove any metal
particles and abrasive grit that may still be
present from operations such as valve
7.19 Check each valve spring for
squareness
2B
2B•12 Engine removal and general engine overhaul procedures
8.3 Valve spring pressure is sufficient to
seat lower seat/stem oil seals on
reassembly
8.5 Apply a small dab of grease to each
collet before installation - it will hold them
in place on the valve stem until the spring
is released
9.4 Removing the oil baffle to provide
access to crankshaft and bearings
grinding
or
head
resurfacing.
Use
compressed air, if available, to blow out all the
oil holes and passages.
2 Beginning at one end of the head, lubricate
and install the first valve. Apply molybdenum
disulphide-based grease or clean engine oil to
the valve stem, and refit the valve. Where the
original valves are being re-used, ensure that
each is refitted in its original guide. If new
valves are being fitted, insert them into the
locations to which they have been ground.
3 Fit the plastic protector supplied with new
valve spring lower seat/stem oil seals to the
end of the valve stem, then put the new seal
squarely on top of the guide, and leave it
there; the action of refitting the valve spring
presses the lower seat/stem oil seal into place
(see illustration).
4 Refit the valve spring and upper seat.
5 Compress the spring with a valve spring
compressor, and carefully install the collets in
the stem groove. Apply a small dab of grease
to each collet to hold it in place if necessary
(see illustration). Slowly release the
compressor, and make sure the collets seat
properly.
6 When the valve is installed, place the
cylinder head flat on the bench and, using a
hammer and interposed block of wood, tap
the end of the valve stem gently, to settle the
components.
7 Repeat the procedure for the remaining
valves. Be sure to return the components to
their original locations - don’t mix them up!
8 Refit the hydraulic tappets (Part A of this
Chapter, Section 13).
channels on each side of the bonnet aperture,
and having a hook which will engage the
engine lifting eyes and allow the height of the
engine to be adjusted, could be used. Lifting
equipment such as this can be hired from
most tool hire shops - be sure that any such
equipment is rated well in excess of the
combined weight of the engine/transmission
unit.
1 Remove the cylinder head (Part A of this
Chapter, Section 14).
2 Bolt lifting eyes to suitable points on the
engine and transmission, then attach the
lifting equipment so that the engine/
transmission unit is supported securely.
3 Remove the sump (Part A of this Chapter,
Section 15).
4 Undo the screws securing the oil pump
pick-up/strainer pipe to the pump, then
unscrew the four nuts, and withdraw the oil
pump pick-up/strainer pipe and oil baffle (see
illustration).
5 Temporarily refit the crankshaft pulley, so
that the crankshaft can be rotated. Note that
each piston/connecting rod assembly can be
identified by its cylinder number (counting
from the timing belt end of the engine) etched
into the flat-machined surface of both the
connecting rod and its cap. The numbers are
visible from the front (exhaust side) of the
engine. Furthermore, each piston has an
arrow stamped into its crown, pointing
towards the timing belt end of the engine. If
no marks can be seen, make your own before
disturbing any of the components, so that you
can
be
certain
of
refitting
each
piston/connecting rod assembly the right way
round, to its correct (original) bore, with the
cap also the right way round (see
illustrations).
6 Use your fingernail to feel if a ridge has
formed at the upper limit of ring travel (about a
quarter-inch down from the top of each
cylinder). If carbon deposits or cylinder wear
have produced ridges, they must be
completely removed with a special tool (see
illustration). Follow the manufacturer’s
instructions provided with the tool. Failure to
remove the ridges before attempting to
9 Piston/connecting rod
assemblies - removal
Note: Always check first what replacement
parts are available before planning any
overhaul operation; refer to Section 1 of this
Part. A Ford dealer, or a good engine
reconditioning specialist/automotive parts
supplier, may be able to suggest alternatives
which will enable you to overcome the lack of
replacement parts.
Note: While this task is theoretically possible
when the engine is in place in the vehicle, in
practice, it requires so much preliminary
dismantling, and is so difficult to carry out due
to the restricted access, that owners are
advised to remove the engine from the vehicle
first. In addition to the new gaskets and other
replacement parts required, a hoist will be
needed. Alternatively, an adjustable engine
support bar, fitting into the water drain
9.5B Piston crown markings
9.5A Each connecting rod and big-end
bearing cap will have a flat-machined
surface visible from the front (exhaust)
side of the engine, with the cylinder
number etched in it
A
B
1
2
3
1.6 and 1.8 litre engines
2.0 litre engines
Gudgeon pin diameter grade - when used
Piston skirt diameter grade
Arrow mark - pointing to timing belt end of
engine
Engine removal and general engine overhaul procedures 2B•13
9.6 A ridge reamer may be required, to
remove the ridge from the top of each
cylinder - do this before removing the
pistons!
10.1 Checking crankshaft endfloat with a
dial gauge
10.2 Thrustwashers integral with No 3
(centre) main bearing upper shell control
crankshaft endfloat
remove the piston/connecting rod assemblies
may result in piston ring breakage.
7 Slacken each of the big-end bearing cap
bolts half a turn at a time, until they can be
removed by hand. Remove the No 1 cap and
bearing shell. Don’t drop the shell out of the
cap.
8 Remove the upper bearing shell, and push
the connecting rod/piston assembly out
through the top of the engine. Use a wooden
hammer handle to push on the connecting
rod’s bearing recess. If resistance is felt,
double-check that all of the ridge was
removed from the cylinder.
9 Repeat the procedure for the remaining
cylinders.
10 After removal, reassemble the big-end
bearing caps and shells on their respective
connecting rods, and refit the bolts fingertight. Leaving the old shells in place until
reassembly will help prevent the bearing
recesses from being accidentally nicked or
gouged. New shells should be used on
reassembly.
11 Don’t attempt to separate the pistons
from the connecting rods - see Section 12.
check the reading obtained. The distance that
the crankshaft moved is its endfloat; if it is
greater than specified, check the crankshaft
thrust surfaces for wear. If no wear is evident,
new thrustwashers should correct the
endfloat; these are part of the No 3 (centre)
main bearing upper shell (see illustration).
3 If no dial gauge is available, feeler gauges
can be used. Gently lever or push the
crankshaft all the way towards the right-hand
end of the engine. Slip feeler gauges between
the crankshaft and the right-hand face of the
No 3 (centre) main bearing to determine the
clearance (see illustration).
4 Check the main bearing caps, to see if they
are marked to indicate their locations (see
illustration). They should be numbered
consecutively from the timing belt end of the
engine - if not, mark them with numberstamping dies or a centre-punch. The caps will
also have an embossed arrow pointing to the
timing belt end of the engine. Noting the
different fasteners (for the oil baffle nuts) used on
caps 2 and 4, slacken the cap bolts a quarterturn at a time each, starting with the left- and
right-hand end caps and working toward the
centre, until they can be removed by hand.
5 Gently tap the caps with a soft-faced
hammer, then separate them from the cylinder
block/crankcase. If necessary, use the bolts
as levers to remove the caps. Try not to drop
the bearing shells if they come out with the
caps.
6 Carefully lift the crankshaft out of the
engine. It may be a good idea to have an
assistant available, since the crankshaft is
quite heavy. With the bearing shells in place in
the cylinder block/crankcase and main
bearing caps, return the caps to their
respective locations on the block, and tighten
the bolts finger-tight. Leaving the old shells in
place until reassembly will help prevent the
bearing recesses from being accidentally
nicked or gouged. New shells should be used
on reassembly.
10 Crankshaft - removal
Note: The crankshaft can be removed only
after the engine/transmission has been
removed from the vehicle. It is assumed that
the transmission and flywheel/driveplate,
timing belt, cylinder head, sump, oil pump
pick-up/strainer pipe and oil baffle, oil pump,
and piston/connecting rod assemblies, have
already been removed. The crankshaft lefthand oil seal carrier must be unbolted from
the
cylinder
block/crankcase
before
proceeding with crankshaft removal.
1 Before the crankshaft is removed, check
the endfloat. Mount a DTI (Dial Test Indicator,
or dial gauge) with the stem in line with the
crankshaft and just touching the crankshaft
(see illustration).
2 Push the crankshaft fully away from the
gauge, and zero it. Next, lever the crankshaft
towards the gauge as far as possible, and
10.3 Checking crankshaft endfloat with a
feeler gauge
2B
11 Cylinder block/crankcase cleaning and inspection
Note: Always check first what replacement
parts are available before planning any
overhaul operation; refer to Section 1 of this
Part. A Ford dealer, or a good engine
reconditioning specialist/automotive parts
supplier may be able to suggest alternatives
which will enable you to overcome the lack of
replacement parts.
Cleaning
1 For complete cleaning, remove the water
pump, all external components, and all
electrical switches/sensors. Unbolt the
piston-cooling oil jets or blanking plugs (as
10.4 Before unbolting crankshaft main
bearing caps, note arrows pointing to timing
belt end of engine (A), and bearing numbers
(B) consecutive from timing belt end
2B•14 Engine removal and general engine overhaul procedures
11.1A Remove water pump . . .
11.1B . . . crankcase breather pipe and
PCV valve . . .
11.1C . . . unbolt crankcase ventilation
system oil separator . . .
applicable); note that Ford state that the
piston-cooling oil jets (where fitted) must be
renewed whenever the engine is dismantled
for full overhaul (see illustrations).
2 Remove the main bearing caps, and
separate the bearing shells from the caps and
the cylinder block/crankcase. Mark or label
the shells, indicating which bearing they were
removed from, and whether they were in the
cap or the block, then set them aside (see
illustration). Wipe clean the block and cap
bearing recesses, and inspect them for nicks,
gouges and scratches.
3 Scrape all traces of gasket from the cylinder
block/crankcase, taking care not to damage
the sealing surfaces.
4 Remove all oil gallery plugs (where fitted).
The plugs are usually very tight - they may
have to be drilled out and the holes re-tapped.
Use new plugs when the engine is
reassembled. Drill a small hole in the centre of
each core plug, and pull them out with a car
bodywork dent puller (see illustration).
Caution: The core plugs (also
known as freeze or soft plugs)
may be difficult or impossible to
retrieve if they are driven into the
block coolant passages.
5 If any of the castings are extremely dirty, all
should be steam-cleaned.
6 After the castings are returned from steamcleaning, clean all oil holes and oil galleries
one more time. Flush all internal passages
with warm water until the water runs clear,
then dry thoroughly, and apply a light film of
oil to all machined surfaces, to prevent
rusting. If you have access to compressed air,
use it to speed the drying process, and to
blow out all the oil holes and galleries.
11.1D . . . remove electrical
switches/sensors such as crankshaft
speed/position sensor . . .
11.1E . . . unbolt blanking plugs (where
fitted) to clean out oilways . . .
11.1F . . . but note that piston-cooling oil
jets (where fitted) must be renewed as a
matter of course whenever engine is
overhauled
11.2 Felt marker pens can be used as
shown to identify bearing shells without
damaging them
Warning: Wear eye protection
when using compressed air!
7 If the castings are not very dirty, you can do
an adequate cleaning job with hot soapy
water (as hot as you can stand!) and a stiff
brush. Take plenty of time, and do a thorough
job. Regardless of the cleaning method used,
be sure to clean all oil holes and galleries very
thoroughly, and to dry all components
completely; protect the machined surfaces as
described above, to prevent rusting.
8 All threaded holes must be clean and dry,
to ensure accurate torque readings during
reassembly; now is also a good time to clean
and check the threads of all principal bolts however, note that some, such as the cylinder
head and flywheel/driveplate bolts, are to be
renewed as a matter of course whenever they
are disturbed. Run the proper-size tap into
11.4 The core plugs should be removed
with a puller - if they’re driven into the
block, they may be impossible to
retrieve
Engine removal and general engine overhaul procedures 2B•15
11.8 All bolt holes in the block particularly the main bearing cap and head
bolt holes - should be cleaned and
restored with a tap (be sure to remove
debris from the holes after this is done)
each of the holes, to remove rust, corrosion,
thread sealant or sludge, and to restore
damaged threads (see illustration). If
possible, use compressed air to clear the
holes of debris produced by this operation; a
good alternative is to inject aerosol-applied
water-dispersant lubricant into each hole,
using the long spout usually supplied.
Warning: Wear eye protection
when cleaning out these holes in
this way, and be sure to dry out
any excess liquid left in the holes.
9 When all inspection and repair procedures
are complete (see below) and the block is
ready for reassembly, apply suitable sealant
to the new oil gallery plugs, and insert them
into the holes in the block. Tighten them
securely. After coating the sealing surfaces of
the new core plugs with suitable sealant,
install them in the cylinder block/crankcase
(see illustration). Make sure they are driven
in straight and seated properly, or leakage
could result. Special tools are available for
this purpose, but a large socket with an
outside diameter that will just slip into the
core plug, used with an extension and
hammer, will work just as well.
10 Refit the blanking plugs or (new) pistoncooling oil jets (as applicable), tightening their
Torx screws to the torque wrench setting
specified (see illustration). Refit also all other
external components removed, referring to
11.14A Measure the diameter of each
cylinder just under the wear ridge (A), at
the centre (B) and at the bottom (C)
11.9 A large socket on an extension can
be used to drive the new core plugs into
their bores
11.10 Do not forget to refit all components
- such as oilway blanking plugs (three of
four arrowed) - tighten fasteners to torque
wrench settings specified
the relevant Chapter of this manual for further
details where required. Refit the main bearing
caps, and tighten the bolts finger-tight.
11 If the engine is not going to be
reassembled right away, cover it with a large
plastic bag to keep it clean; protect the
machined surfaces as described above, to
prevent rusting.
Inspection
12 Visually check the castings for cracks and
corrosion. Look for stripped threads in the
threaded holes. If there has been any history
of internal coolant leakage, it may be
worthwhile having an engine overhaul
specialist check the cylinder block/crankcase
for cracks with special equipment. If defects
are found, have them repaired, if possible, or
renew the assembly (see illustration).
13 Check each cylinder bore for scuffing and
scoring.
14 Noting that the cylinder bores must be
measured with all the crankshaft main bearing
caps bolted in place (without the crankshaft
and bearing shells), to the specified torque
wrench settings, measure the diameter of
each cylinder at the top (just under the ridge
area), centre and bottom of the cylinder bore,
parallel to the crankshaft axis. Next, measure
each cylinder’s diameter at the same three
locations across the crankshaft axis (see
illustrations). Note the measurements
obtained.
11.14B The ability to “feel” when the
telescoping gauge is at the correct point will
be developed over time, so work slowly, and
repeat the check until you’re satisfied that
the bore measurement is accurate
2B
11.12 Cylinder block, piston/connecting
rod and crankshaft details
1
2
3
4
5
6
7
Cylinder block/crankcase
Piston
Connecting rod
Big-end bearing shell
Big-end bearing cap
Big-end bearing cap bolts
Crankshaft
11.14C The gauge is then measured with a
micrometer to determine the bore size
2B•16 Engine removal and general engine overhaul procedures
11.15 Measure the piston skirt diameter at
right-angles to the gudgeon pin axis, just
above the base of the skirt
11.23A A “bottle-brush” hone will produce
better results if you have never honed
cylinders before
11.23B The cylinder hone should leave a
smooth, cross-hatch pattern with the lines
intersecting at approximately a 60º angle
15 Measure the piston diameter at rightangles to the gudgeon pin axis, just above the
bottom of the skirt; again, note the results
(see illustration).
16 If it is wished to obtain the piston-to-bore
clearance, measure the bore and piston skirt
as described above, and subtract the skirt
diameter from the bore measurement. If the
precision measuring tools shown are not
available, the condition of the pistons and
bores can be assessed, though not quite as
accurately, by using feeler gauges as follows.
Select a feeler gauge of thickness equal to the
specified piston-to-bore clearance, and slip it
into the cylinder along with the matching
piston. The piston must be positioned exactly
as it normally would be. The feeler gauge
must be between the piston and cylinder on
one of the thrust faces (at right-angles to the
gudgeon pin bore). The piston should slip
through the cylinder (with the feeler gauge in
place) with moderate pressure; if it falls
through or slides through easily, the clearance
is excessive, and a new piston will be
required. If the piston binds at the lower end
of the cylinder, and is loose toward the top,
the cylinder is tapered. If tight spots are
encountered as the piston/feeler gauge is
rotated in the cylinder, the cylinder is out-ofround (oval).
17 Repeat these procedures for the
remaining pistons and cylinder bores.
18 Compare
the
results
with
the
Specifications at the beginning of this
Chapter; if any measurement is beyond the
dimensions specified for that class (check the
piston crown marking to establish the class of
piston fitted), or if any bore measurement is
significantly different from the others
(indicating that the bore is tapered or oval),
the piston or bore is excessively-worn.
19 Worn pistons must be renewed; at the
time of writing, pistons are available as Ford
replacement parts only as part of the
complete piston/connecting rod assembly.
See a Ford dealer or engine reconditioning
specialist for advice.
20 If any of the cylinder bores are badly
scuffed or scored, or if they are excessivelyworn, out-of-round or tapered, the usual
course of action would be to have the cylinder
block/crankcase rebored, and to fit new,
oversized, pistons on reassembly. See a Ford
dealer or engine reconditioning specialist for
advice.
21 If the bores are in reasonably good
condition and not excessively-worn, then it
may only be necessary to renew the piston
rings.
22 If this is the case (and if new rings can be
found), the bores should be honed, to allow
the new rings to bed in correctly and provide
the best possible seal; before honing the
bores, refit the main bearing caps (without the
bearing shells), and tighten the bolts to the
specified torque wrench setting. Note: If you
don’t have the tools, or don’t want to tackle
the honing operation, most engine
reconditioning specialists will do it for a
reasonable fee.
23 Two types of cylinder hones are
commonly available - the flex hone or “bottlebrush” type, and the more traditional
surfacing hone with spring-loaded stones.
Both will do the job and are used with a
power drill, but for the less-experienced
mechanic, the “bottle-brush” hone will
probably be easier to use. You will also need
some paraffin or honing oil, and rags.
Proceed as follows:
(a) Mount the hone in the drill, compress the
stones, and slip it into the first bore (see
illustration). Be sure to wear safety
goggles or a face shield!
(b) Lubricate the bore with plenty of honing
oil, switch on the drill, and move the hone
up and down the bore, at a pace that will
produce a fine cross-hatch pattern on the
cylinder walls. Ideally, the cross-hatch
lines should intersect at approximately a
60° angle (see illustration). Be sure to
use plenty of lubricant, and don’t take off
any more material than is absolutely
necessary to produce the desired finish.
Note: Piston ring manufacturers may
specify a different crosshatch angle - read
and follow any instructions included with
the new rings.
(c) Don’t withdraw the hone from the bore
while it’s running. Instead, switch off the
drill, and continue moving the hone up
and down the bore until it comes to a
complete stop, then compress the stones
and withdraw the hone. If you’re using a
“bottle-brush” hone, switch off the drill,
then turn the chuck in the normal
direction of rotation while withdrawing the
hone from the bore.
(d) Wipe the oil out of the bore, and repeat
the procedure for the remaining cylinders.
(e) When all the cylinder bores are honed,
chamfer the top edges of the bores with a
small file, so the rings won’t catch when
the pistons are installed. Be very careful
not to nick the cylinder walls with the end
of the file.
(f) The entire cylinder block/crankcase must
be washed very thoroughly with warm,
soapy water, to remove all traces of the
abrasive grit produced during the honing
operation. Note: The bores can be
considered clean when a lint-free white
cloth - dampened with clean engine oil used to wipe them out doesn’t pick up
any more honing residue, which will show
up as grey areas on the cloth. Be sure to
run a brush through all oil holes and
galleries, and flush them with running
water.
(g) When the cylinder block/crankcase is
completely clean, rinse it thoroughly and
dry it, then lightly oil all exposed
machined surfaces, to prevent rusting.
24 The cylinder block/crankcase should now
be completely clean and dry, with all
components checked for wear or damage,
and repaired or overhauled as necessary.
Refit as many ancillary components as
possible, for safekeeping (see paragraphs 9
and 10 above). If reassembly is not to start
immediately, cover the block with a large
plastic bag to keep it clean, and protect the
machined surfaces as described above to
prevent rusting.
Engine removal and general engine overhaul procedures 2B•17
12 Piston/connecting rod
assemblies - inspection
Note: Always check first what replacement
parts are available before planning any
overhaul operation; refer to Section 1 of this
Part. A Ford dealer, or a good engine
reconditioning specialist/automotive parts
supplier may be able to suggest alternatives
which will enable you to overcome the lack of
replacement parts.
1 Before the inspection process can be
carried out, the piston/connecting rod
assemblies must be cleaned, and the original
piston rings removed from the pistons. The
rings should have smooth, polished working
surfaces, with no dull or carbon-coated
sections (showing that the ring is not sealing
correctly against the bore wall, so allowing
combustion gases to blow by) and no traces
of wear on their top and bottom surfaces. The
end gaps should be clear of carbon, but not
polished (indicating a too-small end gap), and
all the rings (including the elements of the oil
control ring) should be free to rotate in their
grooves, but without excessive up-and-down
movement. If the rings appear to be in good
condition, they are probably fit for further use;
check the end gaps (in an unworn part of the
bore) as described in Section 16. If any of the
rings appears to be worn or damaged, or has
an end gap significantly different from the
specified value, the usual course of action is
to renew all of them as a set. Note: While it is
usual always to renew piston rings when an
engine is overhauled, this of course assumes
that rings are available separately - if not, it
follows that great care must be taken not to
break or damage any of the rings during the
following procedures, and to ensure that each
ring is marked on removal so that it is refitted
only the original way up, and only to the same
groove.
2 Using a piston ring renoval tool, carefully
remove the rings from the pistons. Be careful
not to nick or gouge the pistons in the
process, and mark or label each ring as it is
removed, so that its original top surface can
12.4A The piston ring grooves can be
cleaned with a special tool, as shown
here . . .
If a piston ring removal tool is not
available, the rings can be removed by
hand, expanding them over the top of
the pistons. The use of two or three old
feeler blades will be helpful in
preventing the rings dropping into
empty grooves.
be identified on reassembly, and so that it can
be returned to its original groove. Take care
also with your hands - piston rings are sharp!
3 Scrape all traces of carbon from the top of
the piston. A hand-held wire brush or a piece
of fine emery cloth can be used, once the
majority of the deposits have been scraped
away. Do not, under any circumstances, use a
wire brush mounted in a drill motor to remove
deposits from the pistons - the piston material
is soft, and may be eroded away by the wire
brush.
4 Use a piston ring groove-cleaning tool to
remove carbon deposits from the ring
grooves. If a tool isn’t available, but
replacement rings have been found, a piece
broken off the old ring will do the job. Be very
careful to remove only the carbon deposits don’t remove any metal, and do not nick or
scratch the sides of the ring grooves (see
illustrations). Protect your fingers - piston
rings are sharp!
5 Once the deposits have been removed,
clean the piston/rod assemblies with solvent,
and dry them with compressed air (if
available). Make sure the oil return holes in the
back sides of the ring grooves, and the oil
12.4B . . . or a section of a broken ring, if
available
hole in the lower end of each rod, are clear.
6 If the pistons and cylinder walls aren’t
damaged or worn excessively - refer to
Section 11 for details of inspection and
measurement procedures - and if the cylinder
block/crankcase is not rebored, new pistons
won’t be necessary. Normal piston wear
appears as even vertical wear on the piston
thrust surfaces, and slight looseness of the
top ring in its groove.
7 Carefully inspect each piston for cracks
around the skirt, at the pin bosses, and at the
ring lands (between the ring grooves).
8 Look for scoring and scuffing on the thrust
faces of the skirt, holes in the piston crown,
and burned areas at the edge of the crown. If
the skirt is scored or scuffed, the engine may
have been suffering from overheating and/or
abnormal combustion, which caused
excessively-high operating temperatures. The
cooling and lubrication systems should be
checked thoroughly. A hole in the piston
crown is an indication that abnormal
combustion (pre-ignition) was occurring.
Burned areas at the edge of the piston crown
are usually evidence of spark knock
(detonation). If any of the above problems
exist, the causes must be corrected, or the
damage will occur again. The causes may
include intake air leaks, incorrect fuel/air
mixture, incorrect ignition timing, or EGR
system malfunctions.
9 Corrosion of the piston, in the form of small
pits, indicates that coolant is leaking into the
combustion chamber and/or the crankcase.
Again, the cause must be corrected, or the
problem may persist in the rebuilt engine.
10 Check the piston-to-rod clearance by
twisting the piston and rod in opposite
directions. Any noticeable play indicates
excessive wear, which must be corrected. The
piston/connecting rod assemblies should be
taken to a Ford dealer or engine reconditioning specialist to have the pistons, gudgeon
pins and rods checked, and new components
fitted as required.
11 Don’t attempt to separate the pistons
from the connecting rods (even if non-genuine
replacements are found elsewhere). This is a
task for a Ford dealer or similar engine
reconditioning specialist, due to the special
heating equipment, press, mandrels and
supports required to do the job. If the
piston/connecting rod assemblies do require
this sort of work, have the connecting rods
checked for bend and twist, since only such
engine repair specialists will have the facilities
for this purpose.
12 Check the connecting rods for cracks and
other damage. Temporarily remove the bigend bearing caps and the old bearing shells,
wipe clean the rod and cap bearing recesses,
and inspect them for nicks, gouges and
scratches. After checking the rods, replace
the old shells, slip the caps into place, and
tighten the bolts finger-tight.
2B
2B•18 Engine removal and general engine overhaul procedures
13.3 Rubbing a penny lengthwise along
each journal will reveal its condition - if
copper rubs off and is embedded in the
crankshaft, the journals should be
reground
13.5 Measure the diameter of each
crankshaft journal at several points, to
detect taper and out-of-round conditions
journal, consult an engine overhaul specialist,
who will be able to advise whether a repair is
possible, or whether a new crankshaft is
necessary.
13 Crankshaft - inspection
Note: Always check first what replacement
parts are available before planning any
overhaul operation; refer to Section 1 of this
Part. A Ford dealer, or a good engine
reconditioning specialist/automotive parts
supplier, may be able to suggest alternatives
which will enable you to overcome the lack of
replacement parts.
1 Clean the crankshaft, and dry it with
compressed air if available.
Warning: Wear eye protection
when using compressed air! Be
sure to clean the oil holes with a
pipe cleaner or similar probe.
2 Check the main and crankpin (big-end)
bearing journals for uneven wear, scoring,
pitting and cracking.
3 Rub a penny across each journal several
times (see illustration). If a journal picks up
copper from the penny, it is too rough.
4 Remove all burrs from the crankshaft oil
holes with a stone, file or scraper.
5 Using a micrometer, measure the diameter
of the main bearing and crankpin (big-end)
journals, and compare the results with the
Specifications at the beginning of this Chapter
(see illustration).
6 By measuring the diameter at a number of
points around each journal’s circumference,
you will be able to determine whether or not
the journal is out-of-round. Take the
measurement at each end of the journal, near
the webs, to determine if the journal is
tapered.
7 If the crankshaft journals are damaged,
tapered, out-of-round, or worn beyond the
limits specified in this Chapter, the crankshaft
must be taken to an engine overhaul
specialist, who will regrind it, and who can
supply the necessary undersize bearing
shells.
8 Check the oil seal journals at each end of
the crankshaft for wear and damage. If either
seal has worn an excessive groove in its
14 Main and big-end bearings inspection
Note: Always check first what replacement
parts are available before planning any
overhaul operation; refer to Section 1 of this
Part. A Ford dealer, or a good engine
reconditioning specialist/automotive parts
supplier, may be able to suggest alternatives
which will enable you to overcome the lack of
replacement parts.
1 Even though the main and big-end bearing
shells should be renewed during the engine
overhaul, the old shells should be retained for
close examination, as they may reveal
valuable information about the condition of
the engine (see illustration).
2 Bearing failure occurs because of lack of
lubrication, the presence of dirt or other
foreign particles, overloading the engine, and
corrosion. Regardless of the cause of bearing
failure, it must be corrected before the engine
is reassembled, to prevent it from happening
again.
3 When examining the bearing shells, remove
them from the cylinder block/crankcase and
main bearing caps, and from the connecting
rods and the big-end bearing caps, then lay
them out on a clean surface in the same
general position as their location in the
engine. This will enable you to match any
bearing problems with the corresponding
crankshaft journal. Do not touch any shell’s
bearing surface with your fingers while
checking it, or the delicate surface may be
scratched.
4 Dirt or other foreign matter gets into the
engine in a variety of ways. It may be left in
the engine during assembly, or it may pass
through filters or the crankcase ventilation
system. It may get into the oil, and from there
into the bearings. Metal chips from machining
operations and normal engine wear are often
present. Abrasives are sometimes left in
engine components after reconditioning,
14.1 When inspecting the main and bigend bearings, look for these problems
especially when parts are not thoroughly
cleaned using the proper cleaning methods.
Whatever the source, these foreign objects
often end up embedded in the soft bearing
material, and are easily recognized. Large
particles will not embed in the material, and
will score or gouge the shell and journal. The
best prevention for this cause of bearing
failure is to clean all parts thoroughly, and to
keep everything spotlessly-clean during
engine assembly. Frequent and regular engine
oil and filter changes are also recommended.
5 Lack of lubrication (or lubrication
breakdown) has a number of inter-related
causes. Excessive heat (which thins the oil),
overloading (which squeezes the oil from the
bearing face) and oil leakage (from excessive
bearing clearances, worn oil pump or high
engine speeds) all contribute to lubrication
breakdown. Blocked oil passages, which
usually are the result of misaligned oil holes in
a bearing shell, will also starve a bearing of oil,
and destroy it. When lack of lubrication is the
cause of bearing failure, the bearing material
is wiped or extruded from the shell’s steel
backing. Temperatures may increase to the
point where the steel backing turns blue from
overheating.
6 Driving habits can have a definite effect on
bearing life. Full-throttle, low-speed operation
(labouring the engine) puts very high loads on
bearings, which tends to squeeze out the oil
film. These loads cause the shells to flex,
which produces fine cracks in the bearing
face (fatigue failure). Eventually, the bearing
material will loosen in pieces, and tear away
from the steel backing. Short-distance driving
leads to corrosion of bearings, because
insufficient engine heat is produced to drive
off condensed water and corrosive gases.
These products collect in the engine oil,
forming acid and sludge. As the oil is carried
Engine removal and general engine overhaul procedures 2B•19
to the engine bearings, the acid attacks and
corrodes the bearing material.
7 Incorrect shell refitting during engine
assembly will lead to bearing failure as well.
Tight-fitting shells leave insufficient bearing
running clearance, and will result in oil
starvation. Dirt or foreign particles trapped
behind a bearing shell result in high spots on
the bearing, which lead to failure. Do not
touch any shell’s bearing surface with your
fingers during reassembly; there is a risk of
scratching the delicate surface, or of
depositing particles of dirt on it.
(g) Timing belt inner cover, tensioner and
toothed pulleys, and timing belt (Part A of
this Chapter).
(h) Engine external components.
3 At this stage, all engine components should
be absolutely clean and dry, with all faults
repaired; they should be laid out (or in
individual containers) on a completely-clean
work surface.
16 Piston rings - refitting
1 Before reassembly begins, ensure that all
new parts have been obtained, and that all
necessary tools are available. Read through
the entire procedure, to familiarise yourself
with the work involved, and to ensure that all
items necessary for reassembly of the engine
are at hand. In addition to all normal tools and
materials, suitable sealant will be required for
two of the joint faces (Ford recommend
Hylosil 102 for the cylinder block/crankcaseto-sump/oil pump/oil seal carrier joints, and
Loctite 518 for the camshaft right-hand
bearing caps). In all other cases, provided the
relevant mating surfaces are clean and flat,
new gaskets will be sufficient to ensure joints
are oil-tight. Do not use any kind of siliconebased sealant on any part of the fuel system
or inlet manifold, and never use exhaust
sealants upstream of the catalytic converter.
2 In order to save time and avoid problems,
engine reassembly can be carried out in the
following order:
(a) Crankshaft (Section 17).
(b) Piston/connecting rod assemblies
(Section 18).
(c) Oil pump (Part A of this Chapter, Section
16).
(d) Sump (Part A of this Chapter, Section 15).
(e) Flywheel/driveplate (Part A of this
Chapter, Section 21).
(f) Cylinder head (Part A of this Chapter,
Section 14).
1 Before installing new piston rings, check
the end gaps. Lay out each piston set with a
piston/connecting rod assembly, and keep
them together as a matched set from now on.
2 Insert the top compression ring into the first
cylinder, and square it up with the cylinder
walls by pushing it in with the top of the piston
(see illustration). The ring should be near the
bottom of the cylinder, at the lower limit of
ring travel.
3 To measure the end gap, slip feeler gauges
between the ends of the ring, until a gauge
equal to the gap width is found (see
illustration). The feeler gauge should slide
between the ring ends with a slight amount of
drag. Compare the measurement to the value
given in the Specifications Section of this
Chapter; if the gap is larger or smaller than
specified, double-check to make sure you
have the correct rings before proceeding. If
you are assessing the condition of used rings,
have the cylinder bores checked and
measured by a Ford dealer or similar engine
reconditioning specialist, so that you can be
sure of exactly which component is worn, and
seek advice as to the best course of action to
take.
4 If the end gap is still too small, it must be
opened up by careful filing of the ring ends
using a fine file. If it is too large, this is not as
serious, unless the specified limit is exceeded,
in which case very careful checking is
required of the dimensions of all components,
as well as of the new parts.
5 Repeat the procedure for each ring that will
be installed in the first cylinder, and for each
16.3 With the ring square in the bore,
measure the end gap with a feeler
gauge
16.6 Look for etched markings (“STD” indicating a standard-sized ring - shown
here) identifying piston ring top surface
15 Engine overhaul reassembly sequence
ring in the remaining cylinders. Remember to
keep rings, pistons and cylinders matched up.
6 Refit the piston rings as follows. Where the
original rings are being refitted, use the marks
or notes made on removal, to ensure that
each ring is refitted to its original groove and
the same way up. New rings generally have
their top surfaces identified by markings
(often an indication of size, such as “STD”, or
the word “TOP”) - the rings must be fitted with
such markings uppermost (see illustration).
Note: Always follow the instructions printed
on the ring package or box - different
manufacturers
may
require
different
approaches. Do not mix up the top and
second compression rings, as they usually
have different cross-sections.
7 The oil control ring (lowest one on the
piston) is usually installed first. It is composed
of three separate elements. Slip the
spacer/expander into the groove (see
illustration). If an anti-rotation tang is used,
make sure it is inserted into the drilled hole in
the ring groove. Next, install the lower side
rail. Don’t use a piston ring installation tool on
the oil ring side rails, as they may be
damaged. Instead, place one end of the side
rail into the groove between the
spacer/expander and the ring land, hold it
firmly in place, and slide a finger around the
piston while pushing the rail into the groove
16.2 When checking piston ring end gap,
the ring must be square in the cylinder
bore (this is done by pushing the ring down
with the top of a piston, as shown)
16.7A Installing the spacer/expander in
the oil control ring groove
2B
2B•20 Engine removal and general engine overhaul procedures
16.7B DO NOT use a piston ring
installation tool when installing the oil ring
side rails
17.4 Tab on each bearing shell must
engage with notch in block or cap, and oil
holes in upper shells must align with block
oilways
17.6 Lay the Plastigage strips (arrowed) on
the main bearing journals, parallel to the
crankshaft centre-line
(see illustration). Next, install the upper side
rail in the same manner.
8 After the three oil ring components have
been installed, check that both the upper and
lower side rails can be turned smoothly in the
ring groove.
9 The second compression (middle) ring is
installed next, followed by the top
compression ring - ensure their marks are
uppermost, and be careful not to confuse
them. Don’t expand either ring any more than
necessary to slide it over the top of the piston.
10 With all the rings in position, space the
ring gaps (including the elements of the oil
control ring) uniformly around the piston at
120° intervals. Repeat the procedure for the
remaining pistons and rings.
out the caps. Lay the caps out in the proper
order, to ensure correct installation.
3 If they’re still in place, remove the old
bearing shells from the block and the main
bearing caps. Wipe the bearing recesses of
the block and caps with a clean, lint-free
cloth. They must be kept spotlessly-clean!
the block and the crankshaft main bearing
journals with a clean, lint-free cloth. Check or
clean the oil holes in the crankshaft, as any
dirt here can go only one way - straight
through the new bearings.
6 Once you’re certain the crankshaft is clean,
carefully lay it in position in the main bearings.
Trim several pieces of the appropriate-size
Plastigage (they must be slightly shorter than
the width of the main bearings), and place one
piece on each crankshaft main bearing
journal, parallel with the crankshaft centre-line
(see illustration).
7 Clean the bearing surfaces of the cap
shells, and install the caps in their respective
positions (don’t mix them up) with the arrows
pointing to the timing belt end of the engine.
Don’t disturb the Plastigage (see illustration).
8 Working on one cap at a time, from the
centre main bearing outwards (and ensuring
that each cap is tightened down squarely and
evenly onto the block), tighten the main
bearing cap bolts to the specified torque
wrench setting. Don’t rotate the crankshaft at
any time during this operation!
9 Remove the bolts, and carefully lift off the
main bearing caps. Keep them in order. Don’t
disturb the Plastigage or rotate the
crankshaft. If any of the main bearing caps are
difficult to remove, tap them gently from sideto-side with a soft-faced mallet to loosen
them.
10 Compare the width of the crushed
Plastigage on each journal with the scale
printed on the Plastigage envelope to obtain
the main bearing running clearance (see
illustration). Check the Specifications to
make sure that the clearance is correct.
11 If the clearance is not as specified, seek
the advice of a Ford dealer or similar engine
reconditioning specialist - if the crankshaft
journals are in good condition (see Section 13), it may be possible simply to renew
the shells to achieve the correct clearance. If
this is not possible, the crankshaft must be
reground by a specialist who can supply the
necessary undersized shells. First though,
17 Crankshaft refitting and main bearing
running clearance check
1 Crankshaft refitting is the first major step in
engine reassembly. It is assumed at this point
that the cylinder block/crankcase and
crankshaft have been cleaned, inspected and
repaired or reconditioned as necessary.
Position the engine upside-down.
2 Remove the main bearing cap bolts, and lift
17.7 Refit the main bearing caps and
tighten the bolts as specified
Main bearing running clearance
check
4 Clean the backs of the new main bearing
shells. Fit the shells with an oil groove in each
main bearing location in the block; note the
thrustwashers integral with the No 3 (centre)
main bearing upper shell. Fit the other shell
from each bearing set in the corresponding
main bearing cap. Make sure the tab on each
bearing shell fits into the notch in the block or
cap. Also, the oil holes in the block must line
up with the oil holes in the bearing shell (see
illustration).
Caution: Don’t hammer the shells
into place, and don’t nick or gouge
the bearing faces. No lubrication
should be used at this time.
5 Clean the bearing surfaces of the shells in
17.10 Compare the width of the crushed
Plastigage to the scale on the envelope to
determine the main bearing oil clearance
(always take the measurement at the
widest point of the Plastigage). Be sure to
use the correct scale; Imperial and metric
scales are included
Engine removal and general engine overhaul procedures 2B•21
Big-end bearing running
clearance check
17.13 Ensure bearing shells are absolutely
clean, lubricate liberally . . .
17.15 . . . and refit the crankshaft
make sure that no dirt or oil was between the
bearing shells and the caps or block when the
clearance was measured. If the Plastigage is
noticeably wider at one end than the other,
the journal may be tapered (see Section 13).
12 Carefully scrape all traces of the
Plastigage material off the main bearing
journals and the bearing surfaces. Be very
careful not to scratch the bearing - use your
fingernail or the edge of a credit card.
bearing cap bolts to the specified torque
wrench setting.
17 Rotate the crankshaft a number of times
by hand, to check for any obvious binding.
18 Check the crankshaft endfloat (see
Section 10). It should be correct if the
crankshaft thrust faces aren’t worn or
damaged, and if the No 3 (centre) main
bearing’s upper shell has been renewed.
19 Refit the crankshaft left-hand oil seal
carrier, and install a new seal (see Part A of
this Chapter, Section 20).
Final refitting
13 Carefully lift the crankshaft out of the
engine. Clean the bearing surfaces of the
shells in the block, then apply a thin, uniform
layer of clean molybdenum disulphide-based
grease, engine assembly lubricant, or clean
engine oil to each surface (see illustration).
Coat the thrustwasher surfaces as well.
14 Lubricate the crankshaft oil seal journals
with molybdenum disulphide-based grease,
engine assembly lubricant, or clean engine oil.
15 Make sure the crankshaft journals are
clean, then lay the crankshaft back in place in
the block (see illustration). Clean the bearing
surfaces of the shells in the caps, then
lubricate them. Install the caps in their
respective positions, with the arrows pointing
to the timing belt end of the engine.
16 Working on one cap at a time, from the
centre main bearing outwards (and ensuring
that each cap is tightened down squarely and
evenly onto the block), tighten the main
18.3 Tab on each big-end bearing shell
must engage with notch in connecting rod
or cap
18 Piston/connecting rod
assemblies refitting and big-end bearing
running clearance check
1 Before refitting the piston/connecting rod
assemblies, the cylinder bores must be
perfectly clean, the top edge of each cylinder
must be chamfered, and the crankshaft must
be in place.
2 Remove the big-end bearing cap from No 1
cylinder connecting rod (refer to the marks
noted or made on removal). Remove the
original bearing shells, and wipe the bearing
recesses of the connecting rod and cap with a
clean, lint-free cloth. They must be kept
spotlessly-clean!
18.9 The piston can be driven gently into
the cylinder bore with the end of a wooden
or plastic hammer handle
3 Clean the back of the new upper bearing
shell, fit it to the connecting rod, then fit the
other shell of the bearing set to the big-end
bearing cap. Make sure the tab on each shell
fits into the notch in the rod or cap recess
(see illustration).
Caution: Don’t hammer the shells
into place, and don’t nick or
gouge the bearing face. Don’t
lubricate the bearing at this time.
4 It’s critically important that all mating
surfaces of the bearing components are
perfectly clean and oil-free when they’re
assembled.
5 Position the piston ring gaps as described
in Section 16, lubricate the piston and rings
with clean engine oil, and attach a piston ring
compressor to the piston. Leave the skirt
protruding about a quarter-inch, to guide the
piston into the cylinder bore. The rings must
be compressed until they’re flush with the
piston.
6 Rotate the crankshaft until No 1 crankpin
(big-end) journal is at BDC (Bottom Dead
Centre), and apply a coat of engine oil to the
cylinder walls.
7 Arrange the No 1 piston/connecting rod
assembly so that the arrow on the piston
crown points to the timing belt end of the
engine. The cylinder number (counting from
the timing belt end of the engine) is etched
into the flat-machined surface of the
connecting rod and its cap, and must be
visible from the front (exhaust side) of the
engine (see illustrations 9.5A and 9.5B).
Gently insert the assembly into the No 1
cylinder bore, and rest the bottom edge of the
ring compressor on the engine block.
8 Tap the top edge of the ring compressor to
make sure it’s contacting the block around its
entire circumference.
9 Gently tap on the top of the piston with the
end of a wooden hammer handle (see
illustration), while guiding the connecting
18.11 The connecting rod and big-end
bearing cap of each assembly must share
the same etched cylinder number, visible
from the same (front/exhaust) side of the
engine
2B
2B•22 Engine removal and general engine overhaul procedures
rod’s big-end onto the crankpin. The piston
rings may try to pop out of the ring
compressor just before entering the cylinder
bore, so keep some pressure on the ring
compressor. Work slowly, and if any
resistance is felt as the piston enters the
cylinder, stop immediately. Find out what’s
binding, and fix it before proceeding. Do not,
for any reason, force the piston into the
cylinder - you might break a ring and/or the
piston.
10 To check the big-end bearing running
clearance, cut a piece of the appropriate-size
Plastigage slightly shorter than the width of
the connecting rod bearing, and lay it in place
on the No 1 crankpin (big-end) journal, parallel
with the crankshaft centre-line (see illustration 17.6).
11 Clean the connecting rod-to-cap mating
surfaces, and refit the big-end bearing cap.
Make sure the etched number on the cap is
on the same side as that on the rod (see
illustration). Tighten the cap bolts evenly first use a torque wrench to tighten the bolts
to the specified (first stage) torque setting,
then use an ordinary socket extension bar
and an angle gauge to tighten the bolts
further through the specified (second stage)
angle. Use a thin-wall socket, to avoid
erroneous torque readings that can result if
the socket is wedged between the cap and
nut. If the socket tends to wedge itself
between the nut and the cap, lift up on it
slightly until it no longer contacts the cap.
Don’t rotate the crankshaft at any time during
this operation!
12 Unscrew the bolts and detach the cap,
being very careful not to disturb the
Plastigage.
13 Compare the width of the crushed
Plastigage to the scale printed on the
Plastigage envelope, to obtain the running
clearance (see illustration 17.10). Compare it
to the Specifications, to make sure the
clearance is correct.
14 If the clearance is not as specified, seek
the advice of a Ford dealer or similar engine
reconditioning specialist - if the crankshaft
journals are in good condition (see Section 13), it may be possible simply to renew
the shells to achieve the correct clearance. If
this is not possible, the crankshaft must be
reground by a specialist, who can also supply
the necessary undersized shells. First though,
make sure that no dirt or oil was trapped
between the bearing shells and the
connecting rod or cap when the clearance
was measured. Also, recheck the crankpin
diameter. If the Plastigage was wider at one
end than the other, the crankpin journal may
be tapered (see Section 13).
15 Carefully scrape all traces of the
Plastigage material off the journal and the
bearing surface. Be very careful not to scratch
the bearing - use your fingernail or the edge of
a credit card.
Final piston/connecting rod
refitting
16 Make sure the bearing surfaces are
perfectly clean, then apply a uniform layer of
clean molybdenum disulphide-based grease,
engine assembly lubricant, or clean engine oil,
to both of them. You’ll have to push the piston
into the cylinder to expose the bearing surface
of the shell in the connecting rod.
17 Slide the connecting rod back into place
on the crankpin (big-end) journal, refit the bigend bearing cap, and then tighten the bolts in
two stages, as described above.
18 Repeat the entire procedure for the
remaining piston/connecting rod assemblies.
19 The important points to remember are:
(a) Keep the backs of the bearing shells and
the recesses of the connecting rods and
caps perfectly clean when assembling
them.
(b) Make sure you have the correct
piston/rod assembly for each cylinder use the etched cylinder numbers to
identify the front-facing side of both the
rod and its cap.
(c) The arrow on the piston crown must face
the timing belt end of the engine.
(d) Lubricate the cylinder bores with clean
engine oil.
(e) Lubricate the bearing surfaces when
refitting the big-end bearing caps after the
running clearance has been checked.
20 After all the piston/connecting rod
assemblies have been properly installed,
rotate the crankshaft a number of times by
hand, to check for any obvious binding.
19 Engine initial start-up after overhaul
1 With the engine refitted in the vehicle,
double-check the engine oil and coolant
levels. Make a final check that everything has
been reconnected, and that there are no tools
or rags left in the engine compartment.
2 With the spark plugs removed and the
ignition system disabled by unplugging the
ignition coil’s electrical connector, remove
fuse 14 to disconnect the fuel pump. Turn the
engine on the starter until the oil pressure
warning light goes out.
3 Refit the spark plugs, and connect all the
spark plug (HT) leads (Chapter 1). Reconnect
the ignition coil wiring, refit the fuel pump fuse,
then switch on the ignition and listen for the fuel
pump; it will run for a little longer than usual,
due to the lack of pressure in the system.
4 Start the engine, noting that this also may
take a little longer than usual, due to the fuel
system components being empty.
5 While the engine is idling, check for fuel,
coolant and oil leaks. Don’t be alarmed if
there are some odd smells and smoke from
parts getting hot and burning off oil deposits.
If the hydraulic tappets have been disturbed,
some valve gear noise may be heard at first;
this should disappear as the oil circulates fully
around the engine, and normal pressure is
restored in the tappets.
6 Keep the engine idling until hot water is felt
circulating through the top hose, check that it
idles reasonably smoothly and at the usual
speed, then switch it off.
7 After a few minutes, recheck the oil and
coolant levels, and top-up as necessary
(Chapter 1).
8 If they were tightened as described, there is
no need to re-tighten the cylinder head bolts
once the engine has first run after reassembly
- in fact, Ford state that the bolts must not be
re-tightened.
9 If new components such as pistons, rings
or crankshaft bearings have been fitted, the
engine must be run-in for the first 500 miles
(800 km). Do not operate the engine at fullthrottle, or allow it to labour in any gear during
this period. It is recommended that the oil and
filter be changed at the end of this period.
3•1
Chapter 3
Cooling, heating, and air conditioning systems
Contents
Air conditioning system - general information
and precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Air conditioning system components - removal and refitting . . . . . . 12
Antifreeze - general information . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Auxiliary drivebelt check and renewal . . . . . . . . . . . . . See Chapter 1
Coolant level check . . . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 1
Coolant renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 1
Cooling system checks (coolant leaks,
hose condition) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 1
Cooling system electrical switches and sensors testing, removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Cooling system hoses - disconnection and renewal . . . . . . . . . . . . 3
Cooling system servicing (draining, flushing
and refilling) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 1
General information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
Heater/air conditioning controls - removal and refitting . . . . . . . . . . 10
Heater/ventilation components - removal and refitting . . . . . . . . . . . 9
Pollen filter renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 1
Radiator and expansion tank - removal, inspection
and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Radiator electric cooling fan(s) - testing, removal and refitting . . . . . 5
Thermostat - removal, testing and refitting . . . . . . . . . . . . . . . . . . . . 4
Water pump - check, removal and refitting . . . . . . . . . . . . . . . . . . . . 8
Degrees of difficulty
Easy, suitable for
novice with little
experience
Fairly easy, suitable
for beginner with
some experience
Fairly difficult, suitable
for competent DIY
mechanic
Difficult, suitable for
experienced DIY
mechanic
Very difficult,
suitable for expert DIY
or professional
Specifications
Coolant
Mixture type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Cooling system capacity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
See Chapter 1
See Chapter 1
System pressure
Pressure test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2 bars - should hold this pressure for at least 10 seconds
Expansion tank filler cap
Pressure rating . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2 bars approximately - see cap for actual value
Thermostat
Starts to open . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
88°C
Radiator electric cooling fan
Switches on at:
Single-speed fans, two-speed fans - first stage . . . . . . . . . . . . . . . . .
Two-speed fans - second stage . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Switches off at:
Single-speed fans, two-speed fans - first stage . . . . . . . . . . . . . . . . .
Two-speed fans - second stage . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
100°C
103°C
93°C
100°C
Coolant temperature sensor
Resistance:
At -40°C . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
At 20°C . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
At 100°C . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
At 120°C . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
860.0 to 900.0 kilohms
35.0 to 40.0 kilohms
1.9 to 2.5 kilohms
1.0 to 1.3 kilohms
Air conditioning system
Refrigerant . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
R134a
3
3•2 Cooling, heating and air conditioning systems
Torque wrench settings
Radiator mounting bracket-to-subframe bolts . . . . . . . . . . . . . . . . . . . .
Fluid cooler pipe unions - automatic transmission . . . . . . . . . . . . . . . . .
Thermostat housing-to-cylinder head bolts . . . . . . . . . . . . . . . . . . . . . .
Water outlet-to-thermostat housing bolts . . . . . . . . . . . . . . . . . . . . . . .
Coolant temperature sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Coolant temperature gauge sender . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Water pump bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Water pump pulley bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Air conditioning compressor mounting bolts . . . . . . . . . . . . . . . . . . . . .
1 General information
Engine cooling system
All vehicles covered by this manual employ
a pressurised engine cooling system with
thermostatically-controlled coolant circulation. A water pump mounted on the drivebelt
end of the cylinder block/crankcase pumps
coolant through the engine. The coolant flows
around each cylinder and toward the
transmission end of the engine. Cast-in
coolant passages direct coolant around the
inlet and exhaust ports, near the spark
plug areas and close to the exhaust valve
guides.
A wax pellet type thermostat is located in a
housing at the transmission end of the engine.
During warm-up, the closed thermostat
prevents coolant from circulating through the
radiator. Instead, it returns through the
coolant metal pipe running across the front of
the engine to the radiator bottom hose and
the water pump. The supply to the heater is
made from the rear of the thermostat housing.
As the engine nears normal operating
temperature, the thermostat opens and allows
hot coolant to travel through the radiator,
where it is cooled before returning to the
engine.
The cooling system is sealed by a pressuretype filler cap in the expansion tank. The
pressure in the system raises the boiling point
of the coolant, and increases the cooling
efficiency of the radiator. When the engine is
at normal operating temperature, the coolant
expands, and the surplus is displaced into the
expansion tank. When the system cools, the
surplus coolant is automatically drawn back
from the tank into the radiator.
Warning: DO NOT attempt to
remove the expansion tank filler
cap, or to disturb any part of the
cooling system, while it or the
engine is hot, as there is a very great risk
of scalding. If the expansion tank filler cap
must be removed before the engine and
radiator have fully cooled down (even
though this is not recommended) the
pressure in the cooling system must first
be released. Cover the cap with a thick
layer of cloth, to avoid scalding, and slowly
unscrew the filler cap until a hissing sound
can be heard. When the hissing has
Nm
23
23
20
8 to 11
23
8
18
See Chapter 2A
25
stopped, showing that pressure is
released, slowly unscrew the filler cap
further until it can be removed; if more
hissing sounds are heard, wait until they
have stopped before unscrewing the cap
completely. At all times, keep well away
from the filler opening.
Warning: Do not allow antifreeze
to come in contact with your
skin, or with the painted surfaces
of the vehicle. Rinse off spills
immediately with plenty of water. Never
leave antifreeze lying around in an open
container, or in a puddle in the driveway or
on the garage floor. Children and pets are
attracted by its sweet smell, but antifreeze
is fatal if ingested.
Warning: If the engine is hot, the
electric cooling fan may start
rotating even if the engine is not
running, so be careful to keep
hands, hair and loose clothing well clear
when working in the engine compartment.
Heating system
The heating system consists of a blower fan
and heater matrix (radiator) located in the
heater unit, with hoses connecting the heater
matrix to the engine cooling system. Hot
engine coolant is circulated through the
heater matrix. When the heater temperature
control on the facia is operated, a flap door
opens to expose the heater box to the
passenger compartment. When the blower
control is operated, the blower fan forces air
through the unit according to the setting
selected.
Air conditioning system
See Section 11.
2 Antifreeze - general information
Warning: Do not allow antifreeze to come in
contact with your skin, or with the painted
surfaces of the vehicle. Rinse off spills
immediately with plenty of water. Antifreeze is
highly toxic if ingested. Never leave antifreeze
lying around in an open container, or in
puddles on the floor; children and pets are
attracted by its sweet smell, and may drink it.
Check with local authorities about disposing
of used antifreeze - many have collection
centres which will see that antifreeze is
disposed of safely.
lbf ft
17
17
15
6 to 8
17
6
13
18
The cooling system should be filled with a
water/ethylene glycol-based antifreeze
solution, of a strength which will prevent
freezing down to at least -25°C, or lower if the
local climate requires it. Antifreeze also
provides protection against corrosion, and
increases the coolant boiling point.
The cooling system should be maintained
according to the schedule described in
Chapter 1. If antifreeze is used that is not to
Ford’s specification, old or contaminated
coolant mixtures are likely to cause damage,
and encourage the formation of corrosion and
scale in the system. Use distilled water with
the antifreeze, if available - if not, be sure to
use only soft water. Clean rainwater is
suitable.
Before adding antifreeze, check all hoses
and hose connections, because antifreeze
tends to leak through very small openings.
Engines don’t normally consume coolant, so if
the level goes down, find the cause and
correct it.
The exact mixture of antifreeze-to-water
which you should use depends on the
relative weather conditions. The mixture
should contain at least 40% antifreeze, but
not more than 70%. Consult the mixture
ratio chart on the antifreeze container
before adding coolant. Hydrometers are
available at most automotive accessory
shops to test the coolant. Use antifreeze
which meets the vehicle manufacturer’s
specifications.
3 Cooling system hoses disconnection and renewal
Note: Refer to the warnings given in Section 1
of this Chapter before starting work.
1 If the checks described in Chapter 1 reveal
a faulty hose, it must be renewed as follows
(see illustration).
2 First drain the cooling system (see Chapter 1); if the antifreeze is not due for renewal,
the drained coolant may be re-used, if it is
collected in a clean container.
3 To disconnect any hose, use a pair of pliers
to release the spring clamps (or a screwdriver
to slacken screw-type clamps), then move
them along the hose clear of the union.
Carefully work the hose off its stubs. The
hoses can be removed with relative ease
when new - on an older car, they may have
stuck.
Cooling, heating and air conditioning systems 3•3
4.5 Unbolt water outlet to withdraw
thermostat
4 Thermostat removal, testing and refitting
Note: Refer to the warnings given in Section 1
of this Chapter before starting work.
Removal
3.1 Cooling system components
1 Radiator
2 (Twin) electric cooling fan
and shroud
3 Expansion tank
4 Filler/pressure cap
5 Bolt
6 (Single) electric cooling fan
and shroud
7
8
9
10
11
12
13
Bolt
Coolant pipe
Nut
Top mounting rubber
Bottom mounting rubber
Bolt
Radiator mounting
bracket
4 If a hose proves stubborn, try to release it
by rotating it on its unions before attempting
to work it off. Gently prise the end of the hose
with a blunt instrument (such as a flat-bladed
screwdriver), but do not apply too much force,
and take care not to damage the pipe stubs or
hoses. Note in particular that the radiator hose
unions are fragile; do not use excessive force
when attempting to remove the hoses. If all
else fails, cut the hose with a sharp knife, then
slit it so that it can be peeled off in two pieces.
While expensive, this is preferable to buying a
new radiator. Check first, however, that a new
hose is readily available.
5 When refitting a hose, first slide the clamps
14
15
16
17
18
19
20
Coolant hose
Bolt
Radiator top hose
Coolant pipe/hose
Stud
Thermostat housing
Radiator bottom hose
onto the hose, then work the hose onto its
unions. If the hose is stiff, use soap (or
washing-up liquid) as a lubricant, or soften it
by soaking it in boiling water, but take care to
prevent scalding.
6 Work each hose end fully onto its union,
then check that the hose is settled correctly
and is properly routed. Slide each clip along
the hose until it is behind the union flared end,
before tightening it securely.
7 Refill the system with coolant (see Chapter 1).
8 Check carefully for leaks as soon as
possible after disturbing any part of the
cooling system.
1 Disconnect the battery negative (earth) lead
(see Chapter 5, Section 1).
2 Unbolt the resonator support bracket from
the engine compartment front crossmember.
Slacken the two clamp screws securing the
resonator to the air mass meter and plenum
chamber hoses, then swing the resonator up
clear of the thermostat housing (see Chapter 4).
3 Drain the cooling system (see Chapter 1). If
the coolant is relatively new or in good
condition, drain it into a clean container and
re-use it.
4 Disconnect the expansion tank coolant
hose and the radiator top hose from the
thermostat housing’s water outlet.
5 Unbolt the water outlet and withdraw the
thermostat (see illustration). Note the
position of the air bleed valve, and how the
thermostat is installed (which end is facing
outwards).
Testing
General check
6 Before assuming the thermostat is to blame
for a cooling system problem, check the
coolant level, auxiliary drivebelt tension and
condition (see Chapter 1) and temperature
gauge operation.
7 If the engine seems to be taking a long time
to warm up (based on heater output or
temperature gauge operation), the thermostat
is probably stuck open. Renew the
thermostat.
8 If the engine runs hot, use your hand to
check the temperature of the radiator top
hose. If the hose isn’t hot, but the engine is,
the thermostat is probably stuck closed,
preventing the coolant inside the engine from
escaping to the radiator - renew the
thermostat.
3
3•4 Cooling, heating and air conditioning systems
Refitting
14 Refitting is the reverse of the removal
procedure. Clean the mating surfaces
carefully, renew the thermostat’s sealing ring
if it is worn or damaged, then refit the
thermostat with its air bleed valve uppermost
(see illustration). Tighten the water outlet
bolts to the specified torque wrench setting.
15 Refill the cooling system (see Chapter 1).
16 Start the engine and allow it to reach
normal operating temperature, then check for
leaks and proper thermostat operation.
4.14 Ensure thermostat is refitted as
shown
Caution: Don’t drive the vehicle
without a thermostat. The lack of
a thermostat will slow warm-up
time. The engine management system’s
ECU will then stay in warm-up mode for
longer than necessary, causing emissions
and fuel economy to suffer.
9 If the radiator top hose is hot, it means that
the coolant is flowing and the thermostat is
open. Consult the “Fault diagnosis” section at
the front of this manual to assist in tracing
possible cooling system faults.
Thermostat test
10 If the thermostat remains in the open
position at room temperature, it is faulty, and
must be renewed as a matter of course.
11 To test it fully, suspend the (closed)
thermostat on a length of string in a container
of cold water, with a thermometer beside it;
ensure that neither touches the side of the
container.
12 Heat the water, and check the
temperature at which the thermostat begins to
open; compare this value with that specified.
Continue to heat the water until the
thermostat is fully open; the temperature at
which this should happen is stamped in the
unit’s end. Remove the thermostat and allow
it to cool down; check that it closes fully.
13 If the thermostat does not open and close
as described, if it sticks in either position, or if
it does not open at the specified temperature,
it must be renewed.
5.10A Fan shroud is secured at top by
mounting nut (A), at bottom by clip (B) . . .
5 Radiator electric cooling
fan(s) - testing,
removal and refitting
Note: Refer to the warnings given in Section 1
of this Chapter before starting work.
Testing
1 The radiator cooling fan is controlled by the
engine management system’s ECU, acting on
the information received from the coolant
temperature sensor. Where twin fans or twospeed fans are fitted, control is through a
resistor assembly, secured to the bottom lefthand corner of the fan shroud - this can be
renewed separately if faulty.
2 First, check the relevant fuses and relays
(see Chapter 12).
3 To test the fan motor, unplug the electrical
connector, and use fused jumper wires to
connect the fan directly to the battery. If the
fan still does not work, renew the motor.
4 If the motor proved sound, the fault lies in
the coolant temperature sensor (see Section 6
for testing details), in the wiring loom (see
Chapter 12 for testing details) or in the engine
management system (see Chapter 6).
7 Drain the cooling system (see Chapter 1).
8 Remove the radiator top hose completely.
Disconnect the metal coolant pipe/hose from
the thermostat, and unbolt the coolant pipe
from the exhaust manifold heat shield.
9 Unplug the cooling fan electrical
connector(s), then release all wiring and hoses
from the fan shroud.
10 Unscrew the two nuts securing the fan
shroud, then lift the assembly to disengage it
from its bottom mountings and from the
radiator top edge (see illustrations).
11 Withdraw the fan and shroud as an
assembly (see illustration).
12 At the time of writing, the fan, motor and
shroud are available only as a complete
assembly, and must be renewed together if
faulty.
13 Refitting is the reverse of the removal
procedure. Ensure that the shroud is settled
correctly at all four mounting points before
refitting and tightening the nuts.
6 Cooling system electrical
switches and sensors testing, removal and refitting
Note: Refer to the warnings given in Section 1
of this Chapter before starting work.
Coolant temperature gauge
sender
Testing
5 Disconnect the battery negative (earth) lead
(see Chapter 5, Section 1).
6 Unbolt the resonator support bracket from
the engine compartment front crossmember.
Slacken the two clamp screws securing the
resonator to the air mass meter and plenum
chamber hoses, then swing the resonator up
clear of the thermostat housing (see Chapter 4).
1 If the coolant temperature gauge is inoperative, check the fuses first (see Chapter 12).
2 If the gauge indicates Hot at any time,
consult the “Fault finding” section at the end
of this manual, to assist in tracing possible
cooling system faults.
3 If the gauge indicates Hot shortly after the
engine is started from cold, unplug the
coolant temperature sender’s electrical
connector. If the gauge reading now drops,
renew the sender. If the reading remains high,
the wire to the gauge may be shorted to earth,
or the gauge is faulty.
4 If the gauge fails to indicate after the engine
has been warmed up (approximately
10 minutes) and the fuses are known to be
sound, switch off the engine. Unplug the
5.10B . . . and is hooked over radiator top
edge (one point arrowed)
5.11 Removing radiator electric cooling
fan and shroud assembly
Removal and refitting
Cooling, heating and air conditioning systems 3•5
sender’s electrical connector, and use a
jumper wire to connect the white/red wire to a
clean earth point (bare metal) on the engine.
Switch on the ignition without starting the
engine. If the gauge now indicates Hot, renew
the sender.
5 If the gauge still does not work, the circuit
may be open, or the gauge may be faulty. See
Chapter 12 for additional information.
Removal
6 Unbolt the resonator support bracket from
the engine compartment front crossmember.
Slacken the two clamp screws securing the
resonator to the air mass meter and plenum
chamber hoses, then swing the resonator up
clear of the thermostat housing (see Chapter 4).
7 Drain the cooling system (see Chapter 1).
8 Disconnect the expansion tank coolant
hose and the radiator top hose from the
thermostat housing’s water outlet, then
disconnect the metal coolant pipe/hose from
the thermostat.
9 Unplug the electrical connector from the
sender (see illustration).
10 Unscrew the sender and withdraw it.
Refitting
11 Clean as thoroughly as possible the
opening in the thermostat housing, then apply
a light coat of sealant to the sender’s threads.
Screw in the sender and tighten it to the
specified torque wrench setting, and plug in
its electrical connector.
12 Reconnect the hoses and refit the
resonator, top-up the cooling system (see
Chapter 1) and run the engine. Check for
leaks and proper gauge operation.
6.9 Location (arrowed) of coolant
temperature gauge sender
Removal
19 Disconnect the battery negative (earth)
lead (see Chapter 5, Section 1).
20 Unbolt the resonator support bracket
from the engine compartment front
crossmember. Slacken the two clamp screws
securing the resonator to the air mass meter
and plenum chamber hoses, then swing the
resonator up clear of the thermostat housing
(see Chapter 4).
21 With the engine completely cool, remove
the expansion tank filler cap to release any
pressure, then refit the cap. Provided you
work swiftly and plug the opening as soon as
the sensor is unscrewed, coolant loss will thus
be minimised; this will avoid the draining of
the complete cooling system which would
otherwise be necessary (see Chapter 1).
22 Unplug the electrical connector from the
sensor.
23 Unscrew the sensor and withdraw it. If the
cooling system has not been drained, plug the
opening as quickly as possible.
Coolant temperature sensor
Refitting
Testing
24 Clean as thoroughly as possible the
opening in the thermostat housing, then apply
a light coat of sealant to the sensor’s threads.
Remove the material used to plug the sensor
hole (where applicable), and quickly install the
sensor to prevent coolant loss. Tighten the
sensor to the specified torque wrench setting,
and plug in its electrical connector.
25 Refit the resonator, top-up the cooling
system (see Chapter 1) and run the engine,
checking for leaks.
13 Disconnect the battery negative (earth)
lead (see Chapter 5, Section 1).
14 Unbolt the resonator support bracket
from the engine compartment front
crossmember. Slacken the two clamp screws
securing the resonator to the air mass meter
and plenum chamber hoses, then swing the
resonator up clear of the thermostat housing
(see Chapter 4).
15 Unplug the electrical connector from the
sensor (see illustration).
16 Using an ohmmeter, measure the
resistance between the sensor terminals.
Depending on the temperature of the sensor
tip, the resistance measured will vary, but
should be within the broad limits given in the
Specifications Section of this Chapter. If the
sensor’s temperature is varied - by removing
it (see below) and placing it in a freezer for a
while, or by warming it gently - its resistance
should alter accordingly.
17 If the results obtained show the sensor to
be faulty, renew it.
18 On completion, plug in the connector and
refit the resonator.
Coolant low level switch
Testing
26 The switch is a reed-type unit mounted in
the bottom of the cooling system expansion
tank, activated by a magnetic float. If the
coolant level falls to the “MIN” level or less,
the appropriate bulb lights in the warning
display.
27 If the bulb fails to light during the 5second bulb test, check the bulb, and renew if
necessary as described in Chapter 12.
28 To check the switch itself, unplug its
electrical connector, and use an ohmmeter to
measure the resistance across the switch
6.15 Location (arrowed) of coolant
temperature sensor
terminals. With the float up, a resistance of
90 ohms should be measured; when it is
down, the resistance should increase to
approximately 150 kilohms.
29 If the results obtained from the check are
significantly different from those expected,
the switch is faulty, and must be renewed.
30 If the switch and bulb are proven to be
sound, the fault must be in the wiring or in the
auxiliary warning control assembly (see
Chapter 12).
Removal
31 Disconnect the battery negative (earth)
lead (see Chapter 5, Section 1).
32 Remove the expansion tank (see Section 7).
33 Unplug the switch electrical connector.
34 Release the switch by twisting its retainer
anti-clockwise, then withdraw it.
Refitting
35 Refitting is the reverse of the removal
procedure. Refill the cooling system (see
Chapter 1). Start the engine, and check for
coolant leaks when it is fully warmed-up.
7 Radiator and expansion tank removal, inspection and refitting
Note: Refer to the warnings given in Section 1
of this Chapter before starting work.
Radiator
Removal
Note: If leakage is the reason for removing the
radiator, bear in mind that minor leaks can
often be cured using a radiator sealant with
the radiator in situ.
1 Remove the radiator fan and shroud
assembly (see Section 5).
2 Disconnect the bottom hose from the
radiator.
3 If the vehicle has automatic transmission,
disconnect the fluid cooler lines, and plug the
lines and fittings.
4 If the vehicle has air conditioning, unscrew
the condenser mounting nuts or bolts, detach
the condenser from the radiator, and tie it to
the engine compartment front crossmember.
3
3•6 Cooling, heating and air conditioning systems
12 If working on an vehicle with automatic
transmission, check and add transmission
fluid as needed (see Chapter 1).
Expansion tank
7.5 Radiator mounting bracket-tosubframe bolts (A), air conditioning system
condenser mounting bolt (B)
Warning: Do not disconnect any
of the refrigerant hoses.
5 Unbolt the radiator mounting brackets from
the subframe; note that they are handed, and
are marked to ensure correct refitting (see
illustration). Collect the bottom mounting
rubbers, noting which way up they are fitted,
and store them carefully.
6 Carefully lower the radiator from the
vehicle, and withdraw it.
7 With the radiator removed, it can be
inspected for leaks and damage. If it needs
repair, have a radiator specialist or dealer
service department perform the work, as
special techniques are required.
8 Insects and dirt can be removed from the
radiator with a garden hose or a soft brush.
Don’t bend the cooling fins as this is done.
13 With the engine completely cool, remove
the expansion tank filler cap to release any
pressure, then refit the cap.
14 Disconnect the hoses from the tank,
upper hose first. As each hose is
disconnected, drain the tank’s contents into a
clean container. If the antifreeze is not due for
renewal, the drained coolant may be re-used,
if it is kept clean.
15 Unscrew the tank’s two mounting bolts
and withdraw it, unplugging the coolant low
level switch electrical connector (where fitted).
16 Wash out the tank, and inspect it for
cracks and chafing - renew it if damaged.
17 Refitting is the reverse of the removal
procedure. Refill the cooling system with the
proper mixture of antifreeze and water (see
Chapter 1), then start the engine and allow it
to reach normal operating temperature,
indicated by the radiator top hose becoming
hot. Recheck the coolant level and add more
if required, then check for leaks.
8 Water pump check, removal and refitting
Note: Refer to the warnings given in Section 1
of this Chapter before starting work.
Refitting
Check
9 Refitting is the reverse of the removal
procedure. Be sure the mounting rubbers are
seated properly at the base of the radiator.
10 After refitting, refill the cooling system
with the proper mixture of antifreeze and
water (see Chapter 1).
11 Start the engine, and check for leaks.
Allow the engine to reach normal operating
temperature, indicated by the radiator top
hose becoming hot. Recheck the coolant
level, and add more if required.
1 A failure in the water pump can cause
serious engine damage due to overheating.
2 There are three ways to check the operation
of the water pump while it’s installed on the
engine. If the pump is defective, it should be
replaced with a new or rebuilt unit.
3 With the engine running at normal operating
temperature, squeeze the radiator top hose. If
the water pump is working properly, a
pressure surge should be felt as the hose is
released.
8.8 Power steering system pump should
be removed to reach water pump hose
union (arrowed)
8.9 Unscrew bolts (arrowed) . . .
Warning: Keep your hands away
from the radiator electric
cooling fan blades!
4 Remove the timing belt covers (see Chapter 2, Part A). Water pumps are equipped with
weep or vent holes. If a failure occurs in the
pump seal, coolant will leak from the hole. In
most cases you’ll need an electric torch to
find the hole on the water pump from
underneath to check for leaks.
5 If the water pump shaft bearings fail, there
may be a howling sound at the drivebelt end
of the engine while it’s running. Shaft wear
can be felt if the water pump pulley is rocked
up and down. Don’t mistake drivebelt
slippage, which causes a squealing sound, for
water pump bearing failure.
Removal and refitting
6 Remove the timing belt and tensioner (see
Chapter 2, Part A). As noted in Chapter 2, if
the belt is fouled with coolant, it must be
renewed as a matter of course.
7 Drain the cooling system (see Chapter 1).
8 Disconnect the radiator bottom hose from
the pump union. It is easier to reach this union
if the power steering pump is unbolted and
moved aside as described in Chapter 10 (see
illustration). There is no need to disconnect
any of the power steering system hoses.
9 Unbolt and remove the water pump (see
illustration). If the pump is to be renewed,
unbolt the timing belt guide pulleys, and
transfer them to the new pump.
10 Clean the mating surfaces carefully; the
gasket must be renewed whenever it is
disturbed (see illustration).
11 On refitting, use grease to stick the new
gasket in place, refit the pump, and tighten
the pump bolts to the specified torque wrench
setting.
12 The remainder of the reassembly
procedure is the reverse of dismantling. Note
that a new tensioner spring and retaining pin
must be fitted if the timing belt has been
removed for the first time. Tighten all
fasteners to the specified torque wrench
settings, and refill the system with coolant as
described in Chapter 1.
8.10 . . . to remove water pump - always
renew gasket and clean all mating
surfaces carefully
Cooling, heating and air conditioning systems 3•7
9.5 Heater blower motor control resistor
can be prised out of heater unit
9 Heater/ventilation components
- removal and refitting
Heater blower motor
Removal
1 Disconnect the battery negative (earth) lead
(see Chapter 5, Section 1).
2 Release the four clips (by pulling them out)
securing the passenger side footwell upper
trim panel, then withdraw the panel.
3 Unplug the motor’s electrical connector.
4 Lift the motor’s retaining lug slightly, twist
the motor anti-clockwise (seen from beneath)
through approximately 30°, then withdraw the
assembly.
5 The motor’s control resistor can be
removed by sliding a slim screwdriver into the
slot provided in one end. Press the
screwdriver in approximately 5 mm against
spring pressure, and prise the resistor out
(see illustration).
9.6 Ensure blower motor retaining lug
(arrowed) engages securely in heater unit
on reassembly
8 Drain the cooling system (see Chapter 1).
9 Disconnect the coolant hoses from the
heater matrix unions protruding through the
engine
compartment
bulkhead
(see
illustrations).
10 Working
inside
the
passenger
compartment, remove the trim panels from
each footwell, just in front of the centre
console. Each panel is secured by two
screws. If additional clearance is required, the
centre console can be removed as well (see
Chapter 11), but this is not essential.
11 Remove the single screw to release the air
duct in the base of the heater unit (see
illustration).
12 Remove the three Torx-type screws (size
T20) securing the air distributor to the heater
unit bottom cover, then release the clips.
9.9A Coolant pipes to heater matrix must
be disconnected . . .
There is a single plastic clip on each side, and
additional metal clips may be found. Push the
duct up to retract it, and withdraw the air
distributor (see illustration).
13 Release the clips - there are two plastic
clips on each side, and additional metal clips
may be found - then withdraw the heater
unit’s bottom cover, complete with the matrix
(see illustration).
14 Undo the screw and withdraw the clamp
to separate the matrix from the bottom cover
(see illustration).
Refitting
15 Refitting is the reverse of the removal
procedure. Additional metal clips may be
required to secure the heater unit’s bottom
cover and the air distributor. Ensure that the
Refitting
6 Refitting is the reverse of the removal
procedure. Refit the motor, and twist it
clockwise until the retaining lug engages
securely (see illustration).
Heater matrix
Removal
7 Disconnect the battery negative (earth) lead
(see Chapter 5, Section 1).
9.9B . . . but can be reached best from
beneath vehicle (arrowed)
9.11 Remove screw to allow air duct to be
retracted into air distributor at base of
heater unit . . .
9.12 . . . release clips (A) to free air
distributor from base of heater unit - note
clips (B) securing . . .
9.13 . . . heater unit’s bottom cover,
complete with matrix
9.14 Remove clamp (one screw) to separate
matrix from heater unit’s bottom cover
3
3•8 Cooling, heating and air conditioning systems
10.4 Remove screws (arrowed) securing
each end of heater control unit
10.8 Unhooking operating cable from
temperature control - note retaining screw
(arrowed)
duct is lowered from the air distributor and
secured with its screw.
16 Refill the cooling system with the proper
mixture of antifreeze and water (see Chapter
1). Start the engine and allow it to reach
normal operating temperature, indicated by
the radiator top hose becoming hot. Recheck
the coolant level and add more if required,
then check for leaks. Check the operation of
the heater.
unhook the operating cable from the
temperature control (see illustration); where
air conditioning is fitted, unplug the control’s
electrical connector. Undo the retaining
screw, and withdraw the control.
Pollen filter
Air distribution control
17 Refer to Chapter 1.
Removal
10 Heater/air conditioning
controls - removal and refitting
Blower/air conditioning control
Removal
1 Disconnect the battery negative (earth) lead
(see Chapter 5, Section 1).
2 Remove the ashtray. Referring to the
relevant Sections of Chapter 11, undo the two
upper screws from the centre console and
pull out the cassette storage compartment,
then remove the radio/cassette player.
3 Pull the heater control/radio bezel out of the
three clips securing its top edge, pull it
forwards and unplug the switch electrical
connector (where fitted).
4 Pull off the heater control knobs, and
remove the screw securing each end of the
heater control unit (see illustration). Pull the
control unit out of the facia.
5 Unplug the two electrical connectors from
the blower/air conditioning control. Remove
the retaining screw and withdraw the control,
twisting it to release it from the panel.
10.10 Unplugging electrical connectors
from rear of heater control unit
procedure. Check the operation of the
controls on completion.
11 Air conditioning system general information and
precautions
Refitting
9 Refitting is the reverse of the removal
procedure; check the operation of the control
on completion.
10 Remove the heater control unit as
described in paragraphs 1 to 4 above. Unplug
the electrical connectors, and unhook the
operating cable (where fitted) to withdraw the
unit (see illustration).
11 Use a pair of slim screwdrivers to release
the clips on each side of the control, then
withdraw the control from the unit.
Refitting
12 Refitting is the reverse of the removal
General information
The air conditioning system consists of a
condenser mounted in front of the radiator, an
evaporator mounted adjacent to the heater
matrix, a compressor mounted on the engine,
an accumulator/dehydrator, and the plumbing
connecting all of the above components - this
contains a choke (or “venturi”) mounted in the
inlet to the evaporator, which creates the drop
in pressure required to produce the cooling
effect (see illustration).
A blower fan forces the warmer air of the
passenger compartment through the
evaporator core (rather like a radiator in
reverse), transferring the heat from the air to
Refitting
6 Refitting is the reverse of the removal
procedure. Check the operation of the control
on completion.
Temperature control
Removal
7 Remove the heater control unit as
described in paragraphs 1 to 4 above.
8 On vehicles without air conditioning,
11.1 Air conditioning system components
1 Quick-release Schrader valve-type
coupling - high-pressure side
2 Quick-release Schrader valve-type
coupling - low-pressure side
3 Pressure-cycling switch - low-pressure side
4
5
6
7
Accumulator/dehydrator
Compressor
Condenser
Pressure-regulating switch - high-pressure
side
Cooling, heating and air conditioning systems 3•9
the refrigerant. The liquid refrigerant boils off
into low-pressure vapour, taking the heat with
it when it leaves the evaporator.
Precautions
Warning: The air conditioning
system is under high pressure.
Do not loosen any fittings or
remove any components until
after the system has been discharged. Air
conditioning refrigerant should be properly
discharged into an approved type of
container, at a dealer service department
or an automotive air conditioning repair
facility capable of handling R134a
refrigerant. Always wear eye protection
when disconnecting air conditioning
system fittings.
When an air conditioning system is fitted, it
is necessary to observe the following special
precautions whenever dealing with any part of
the system, its associated components, and
any items which necessitate disconnection of
the system:
(a) While the refrigerant used - R134a - is
less damaging to the environment than
the previously-used R12, it is still a very
dangerous substance. It must not be
allowed into contact with the skin or eyes,
or there is a risk of frostbite. It must also
not be discharged in an enclosed space while it is not toxic, there is a risk of
suffocation. The refrigerant is heavier than
air, and so must never be discharged over
a pit.
(b) The refrigerant must not be allowed to
come in contact with a naked flame,
otherwise a poisonous gas will be created
- under certain circumstances, this can
form an explosive mixture with air. For
similar reasons, smoking in the presence
of refrigerant is highly dangerous,
particularly if the vapour is inhaled
through a lighted cigarette.
(c) Never discharge the system to the
atmosphere - R134a is not an ozonedepleting ChloroFluoroCarbon (CFC) as is
R12, but is instead a hydrofluorocarbon,
which causes environmental damage by
contributing to the “greenhouse effect” if
released into the atmosphere.
(d) R134a refrigerant must not be mixed with
R12; the system uses different seals (now
green-coloured, previously black) and has
different fittings requiring different tools,
so that there is no chance of the two
types of refrigerant becoming mixed
accidentally.
(e) If for any reason the system must be
disconnected, entrust this task to your
Ford dealer or a refrigeration engineer.
(f) It is essential that the system be
professionally discharged prior to using
any form of heat - welding, soldering,
brazing, etc - in the vicinity of the system,
before having the vehicle oven-dried at a
temperature exceeding 70°C after
repainting, and before disconnecting any
part of the system.
12 Air conditioning system
components removal and refitting
Warning: The air conditioning
system is under high pressure.
Do not loosen any fittings or
remove any components until after the
system has been discharged. Air
conditioning refrigerant should be properly
discharged into an approved type of
container, at a dealer service department
or an automotive air conditioning repair
facility capable of handling R134a
refrigerant. Cap or plug the pipe lines as
soon as they are disconnected, to prevent
the entry of moisture. Always wear eye
protection when disconnecting air
conditioning system fittings.
Note: This Section refers to the components
of the air conditioning system itself - refer to
Sections 9 and 10 for details of components
common to the heating/ventilation system.
Condenser
1 Have the refrigerant discharged at a dealer
service department or an automotive air
conditioning repair facility.
2 Disconnect the battery negative (earth) lead
(see Chapter 5, Section 1).
3 Remove the radiator undershield (see
Chapter 1).
4 Using the Ford service tool 34-001,
disconnect the refrigerant lines from the
condenser. Immediately cap the open fittings,
to prevent the entry of dirt and moisture.
5 Unbolt the condenser (see illustration 7.5)
and lift it out of the vehicle. Store it upright, to
prevent oil loss.
6 Refitting is the reverse of removal.
7 If a new condenser was installed, add 20 cc
of refrigerant oil to the system.
8 Have the system evacuated, charged and
leak-tested by the specialist who discharged
it.
Evaporator
9 The evaporator is mounted with the heater
matrix. Apart from the need to have the
refrigerant discharged, and to use Ford
service tools 34-001 and 34-003 to
disconnect the lines, the procedure is as
described in Section 9 of this Chapter.
10 On reassembly, if a new evaporator was
installed, add 20 cc of refrigerant oil to the
system.
11 Have the system evacuated, charged and
leak-tested by the specialist who discharged
it.
15 Remove the auxiliary drivebelt (see
Chapter 1).
16 Unbolt the compressor from the cylinder
block/crankcase, press it to one side, and
unscrew the clamping bolt to disconnect the
refrigerant lines. Plug the line connections,
swing the compressor upright, unplug its
electrical connector, then withdraw the
compressor from the vehicle. Note: Keep the
compressor level during handling and storage.
If the compressor has seized, or if you find
metal particles in the refrigerant lines, the
system must be flushed out by an air
conditioning
technician,
and
the
accumulator/dehydrator must be renewed.
17 Prior to installation, turn the compressor
clutch centre six times, to disperse any oil that
has collected in the head.
18 Refit the compressor in the reverse order
of removal; renew all seals disturbed.
19 If you are installing a new compressor,
refer to the compressor manufacturer’s
instructions for adding refrigerant oil to the
system.
20 Have the system evacuated, charged and
leak-tested by the specialist that discharged
it.
Accumulator/dehydrator
21 Have the refrigerant discharged at a
dealer service department or an automotive
air conditioning repair facility.
22 Disconnect the battery negative (earth)
lead (see Chapter 5, Section 1).
23 The accumulator/dehydrator, which acts
as a reservoir and filter for the refrigerant, is
located in the left-hand front corner of the
engine compartment. Using the Ford service
tool 34-003, disconnect the refrigerant line
next to the accumulator/dehydrator from the
compressor. Immediately cap the open
fittings, to prevent the entry of dirt and
moisture, then unplug the pressure-cycling
switch electrical connector (see illustration).
24 Remove the radiator undershield (see
Chapter 1).
25 Unbolt the accumulator/dehydrator from
the front suspension subframe.
26 Using the Ford service tool 34-003,
disconnect the lower refrigerant line from the
accumulator/dehydrator. It may be necessary
Compressor
12 Have the refrigerant discharged at a
dealer service department or an automotive
air conditioning repair facility.
13 Disconnect the battery negative (earth)
lead (see Chapter 5, Section 1).
14 Remove the radiator undershield (see
Chapter 1).
12.23 Unplug pressure-cycling switch
electrical connector (arrowed)
3
3•10 Cooling, heating and air conditioning systems
to unscrew the pressure-cycling switch to
allow the use of the tool. Immediately cap the
open fittings, to prevent the entry of dirt and
moisture.
27 Withdraw the accumulator/dehydrator.
28 Refit the accumulator/dehydrator in the
reverse order of removal; renew all seals
disturbed.
29 If you are installing a new accumulator/
dehydrator, refer to the manufacturer’s
instructions for adding refrigerant oil to the
system.
30 Have the system evacuated, charged and
leak-tested by the specialist that discharged
it.
Pressure-cycling and pressureregulating switches
31 Have the refrigerant discharged at a
dealer service department or an automotive
air conditioning repair facility.
32 Disconnect the battery negative (earth)
lead (see Chapter 5, Section 1).
33 Unplug the switch electrical connector,
and unscrew it (see illustration).
34 Refitting is the reverse of the removal
procedure; there is no need to top-up the
refrigerant oil.
35 Have the system evacuated, charged and
leak-tested by the specialist that discharged
it.
12.33 Unplug pressure-regulating switch
electrical connector (arrowed)
4•1
Chapter 4 Fuel and exhaust systems
Contents
Accelerator cable (models with traction control) removal, refitting and adjustment . . . . . . . . . . . . . . . . . . . . . . . . . 6
Accelerator cable (models without traction control) removal, refitting and adjustment . . . . . . . . . . . . . . . . . . . . . . . . . 5
Accelerator pedal - removal and refitting . . . . . . . . . . . . . . . . . . . . . 7
Air cleaner assembly/air intake components - removal and refitting . 4
Air filter element renewal . . . . . . . . . . . . . . . . . . . . . . . See Chapter 1
Catalytic converter . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 6
Exhaust manifold - removal and refitting . . . . . . . . . . . See Chapter 2A
Exhaust system - general information and component renewal . . . . 17
Exhaust system check . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 1
Fuel cut-off switch - removal and refitting . . . . . . . . . . . . . . . . . . . . 13
Fuel filter renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 1
Fuel injection system/engine management system - check . . . . . . . 15
Fuel injection system/engine management system - general . . . . . 14
Fuel lines and fittings - general information . . . . . . . . . . . . . . . . . . . 3
Fuel pump/fuel gauge sender unit - removal and refitting . . . . . . . . 9
Fuel pump/fuel pressure - check . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Fuel system - depressurisation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Fuel system components - check and renewal . . . . . . . . . . . . . . . . 16
Fuel tank - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
Fuel tank cleaning and repair - general information . . . . . . . . . . . . . 11
General information and precautions . . . . . . . . . . . . . . . . . . . . . . . . 1
Idle speed and mixture check and adjustment . . . . . . See Section 14
Inlet manifold - removal and refitting . . . . . . . . . . . . . . See Chapter 2A
Oxygen sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 6
Roll-over valves - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . 12
Underbody fuel/brake line check . . . . . . . . . . . . . . . . . See Chapter 1
Underbonnet hose check . . . . . . . . . . . . . . . . . . . . . . . See Chapter 1
Degrees of difficulty
Easy, suitable for
novice with little
experience
Fairly easy, suitable
for beginner with
some experience
Fairly difficult, suitable
for competent DIY
mechanic
Difficult, suitable for
experienced DIY
mechanic
Very difficult,
suitable for expert DIY
or professional
Specifications
General
Idle speed:
Regulated - nominal (± 50 rpm) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Unregulated - base . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Idle mixture (CO level) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
* Given for reference only - not adjustable.
830 to 880 rpm*
1500 rpm*
Not available
4
Rev limiter operation
Fuel injectors shut off at:
Automatic transmission, position “N” selected . . . . . . . . . . . . . . . . . .
Automatic transmission, any other position selected . . . . . . . . . . . . .
Manual transmission . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4100 rpm
6800 rpm (approximately)
6800 to 7100 rpm
Fuel pressure
Regulated fuel pressure - engine running at idle speed:
Pressure regulator vacuum hose connected . . . . . . . . . . . . . . . . . . .
2.1 ± 0.2 bars
Pressure regulator vacuum hose disconnected . . . . . . . . . . . . . . . . .
2.7 ± 0.2 bars
Note: When the ignition is switched off, the system should hold 1.8 bars for 5 minutes. If the engine is hot, the pressure may rise to maximum of
2.7 bars during this check. Pressure regulator (when reconnected) should prevent any higher pressure being reached.
Fuel injectors
Resistance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
13.7 to 15.2 ohms
Idle speed control valve
Resistance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6 to 14 ohms
Idle-increase solenoid valve
Resistance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
50 to 120 ohms
Torque wrench settings
Nm
4
10
6
6
6
10
24 to 30
40 to 45
Plenum chamber-to-inlet manifold fasteners . . . . . . . . . . . . . . . . . . . . .
Throttle housing-to-inlet manifold screws . . . . . . . . . . . . . . . . . . . . . . .
Idle speed control valve bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Fuel pressure regulator bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Fuel injector bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Fuel rail-to-inlet manifold bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Fuel feed and return line threaded couplings at fuel rail . . . . . . . . . . . . .
All exhaust system nuts and bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
lbf ft
3
7
4
4
4
7
17 to 22
30 to 33
4•2 Fuel and exhaust systems
1 General information and
precautions
This Chapter is concerned with those
features of the engine management system
that supply clean fuel and air to the engine,
meter it in the required proportions, and
dispose of the results. Since the emission
control sub-systems modify the functions of
both the fuel and exhaust sub-systems, all of
which are integral parts of the whole engine
management system, there are many crossreferences to Chapters 5 and 6. Information
on the electronic control system, its fault
diagnosis, sensors and actuators, is given in
Chapter 6.
The air intake system consists of several
plastics components designed to eliminate
induction roar as much as possible. The air
intake tube (opening behind the direction
indicator/headlight assembly) is connected,
via small and large resonators located under
the front left-hand wing, to the air cleaner
assembly in the engine compartment. Once it
has passed through the filter element and the
air mass meter, the air enters the plenum
chamber mounted above the throttle housing
and inlet manifold; the resonator mounted in
the engine compartment further reduces noise
levels.
The fuel system consists of a plastic tank
(mounted under the body, beneath the rear
seats), combined metal and plastic fuel hoses,
an electric fuel pump mounted in the fuel tank,
and an electronic fuel injection system.
The exhaust system consists of an exhaust
manifold, the front downpipe and catalytic
converter and, on production-fit systems, a
rear section incorporating two or three
silencers and the tailpipe assembly. The
service replacement exhaust system consists
of three or four sections: the front
downpipe/catalytic
converter,
the
intermediate pipe and front silencer, and the
tailpipe and rear silencer. On some versions,
the tailpipe is in two pieces, with two rear
silencers. The system is suspended
throughout its entire length by rubber
mountings.
Extreme caution should be exercised when
dealing with either the fuel or exhaust
systems. Fuel is a primary element for
combustion. Be very careful! The exhaust
system is an area for exercising caution, as it
operates at very high temperatures. Serious
burns can result from even momentary
contact with any part of the exhaust system,
and the fire risk is ever-present. The catalytic
converter in particular runs at very high
temperatures - refer to the information in
Chapter 6.
Warning: Many of the procedures
in this Chapter require the
removal of fuel lines and
connections, which may result in
some fuel spillage. Petrol is extremely
flammable, so take extra precautions
when you work on any part of the fuel
system. Don’t smoke, or allow open flames
or bare light bulbs, near the work area.
Don’t work in a garage where a natural
gas-type appliance (such as a water
heater or clothes dryer) with a pilot light is
present. If you spill any fuel on your skin,
rinse it off immediately with soap and
water. When you perform any kind of work
on the fuel system, wear safety glasses,
and have a Class B type fire extinguisher
on hand. Before carrying out any operation
on the fuel system, refer also to the
precautions given in “Safety first!” at the
beginning of this manual, and follow them
implicitly. Petrol is a highly-dangerous and
volatile liquid, and the precautions
necessary when handling it cannot be
overstressed.
2 Fuel system - depressurisation
Warning: The fuel system will
remain pressurised for long
periods of time after the engine is
switched off - this pressure must
be released before any part of the system
is disturbed. Petrol is extremely
flammable, so take extra precautions
when you work on any part of the fuel
system. Don’t smoke, or allow open flames
or bare light bulbs, near the work area.
Don’t work in a garage where a natural
gas-type appliance (such as a water
heater or clothes dryer) with a pilot light is
present. If you spill any fuel on your skin,
rinse it off immediately with soap and
water. When you perform any kind of work
on the fuel system, wear safety glasses,
and have a Class B type fire extinguisher
on hand.
1 The fuel system referred to in this Chapter
is defined as the fuel tank and tank-mounted
fuel pump/fuel gauge sender unit, the fuel
filter, the fuel injectors and the pressure
regulator in the injector rail, and the metal
pipes and flexible hoses of the fuel lines
between these components. All these contain
fuel, which will be under pressure while the
engine is running and/or while the ignition is
switched on.
2 The pressure will remain for some time after
the ignition has been switched off, and must
be relieved before any of these components is
disturbed for servicing work.
3 The simplest method is simply to
disconnect the fuel pump’s electrical supply
while the engine is running - either by
removing the fuel pump fuse (number 14), or
by lifting the red button on the fuel cut-off
switch (see Section 13) - and to allow the
engine to idle until it dies through lack of fuel
pressure. Turn the engine over once or twice
on the starter to ensure that all pressure is
released, then switch off the ignition; do not
forget to refit the fuse (or depress the red
button, as appropriate) when work is
complete.
4 The Ford method of depressurisation is to
use service tool 29-033 fitted to the fuel rail
pressure test/release fitting - a Schrader-type
valve with a blue plastic cap, located on the
union of the fuel feed line and the fuel rail - to
release the pressure, using a suitable
container and wads of rag to catch the spilt
fuel. Do not simply depress the valve core to
release fuel pressure - droplets of fuel will
spray out, with a consequent risk of fire, and
of personal injury through fuel getting into
your eyes.
Warning: Either procedure will
merely relieve the increased
pressure necessary for the
engine to run. Remember that
fuel will still be present in the system
components, and take precautions
accordingly before disconnecting any of
them.
5 Note that, once the fuel system has been
depressurised and drained (even partially), it
will take significantly longer to restart the
engine - perhaps several seconds of cranking
- before the system is refilled and pressure
restored.
3 Fuel lines and fittings general information
Warning: The fuel system
pressure must be released before
any part of the system is
disturbed - see Section 2. Petrol
is extremely flammable, so take extra
precautions when you work on any part of
the fuel system. Don’t smoke, or allow
open flames or bare light bulbs, near the
work area. Don’t work in a garage where a
natural gas-type appliance (such as a
water heater or clothes dryer) with a pilot
light is present. If you spill any fuel on your
skin, rinse it off immediately with soap and
water. When you perform any kind of work
on the fuel system, wear safety glasses,
and have a Class B type fire extinguisher
on hand.
Disconnecting and connecting
quick-release couplings
1 Quick-release couplings are employed at all
unions in the fuel feed and return lines.
2 Before disconnecting any fuel system
component, relieve the residual pressure in
the system (see Section 2), and equalise tank
pressure by removing the fuel filler cap.
Warning: This procedure will
merely relieve the increased
pressure necessary for the
engine to run - remember that
fuel will still be present in the system
components, and take precautions
accordingly before disconnecting any of
them.
Fuel and exhaust systems 4•3
3.3 Disconnect fuel line quick-release
couplings by squeezing together protruding
locking lugs and pulling coupling apart
4.3 Disconnecting the crankcase breather
hose from the cylinder head union
3 Release the protruding locking lugs on each
union, by squeezing them together and
carefully pulling the coupling apart. Use rag to
soak up any spilt fuel. Where the unions are
colour-coded, the pipes cannot be confused.
Where both unions are the same colour, note
carefully which pipe is connected to which,
and ensure that they are correctly
reconnected on refitting (see illustration).
4 To reconnect one of these couplings, press
them together until the locking lugs snap into
their groove. Switch the ignition on and off
five times to pressurise the system, and check
for any sign of fuel leakage around the
disturbed coupling before attempting to start
the engine.
8 Before disconnecting any part of the fuel
system, be sure to relieve the fuel system
pressure (see Section 2), and equalise tank
pressure by removing the fuel filler cap. Also
disconnect the battery negative (earth) lead see Chapter 5, Section 1. Cover the fitting
being disconnected with a rag, to absorb any
fuel that may spray out.
Checking
6 If you must renew any damaged sections,
use original-equipment replacement hoses or
pipes, constructed from exactly the same
material as the section you are replacing. Do
not install substitutes constructed from
inferior or inappropriate material, or you could
cause a fuel leak or a fire.
7 Before detaching or disconnecting any part
of the fuel system, note the routing of all
hoses and pipes, and the orientation of all
clamps and clips. Replacement sections must
be installed in exactly the same manner.
1 Disconnect the battery negative (earth) lead
- see Chapter 5, Section 1.
2 Unclip the air mass meter from the air
cleaner cover (see Chapter 6).
3 Disconnect the crankcase breather hose,
either from the air cleaner housing or from the
cylinder head cover union (see illustration).
4 Remove the rubber retaining band (see
illustration). Withdraw the air cleaner
assembly, lifting it upwards out of its
grommets, and releasing it from the rubber
connector sleeve in the inner wing panel.
5 Refitting is the reverse of the removal
procedure. Ensure that the housing pegs seat
correctly in their grommets, and that the
intake mouth is fully engaged inside the
connector sleeve (see illustration).
4.5 Ensure air filter housing intake mouth
is fully engaged inside connector sleeve
4.7 Unplugging intake air temperature
sensor’s electrical connector
5 Checking procedures for the fuel lines are
included in Chapter 1.
Component renewal
4 Air cleaner assembly and air
intake components removal and refitting
Air cleaner assembly
4.4 Remove rubber retaining band to
withdraw air cleaner assembly
Air intake components
Note: Depending on the reason for removal,
these components can be removed either
individually, or as one assembly. For example,
unplugging the two electrical connectors and
disconnecting the vacuum hose (where fitted),
will allow the air cleaner assembly cover to be
removed with the air mass meter, the
resonator and the plenum chamber.
Air mass meter
6 Refer to Section 4 of Chapter 6.
Resonator (engine compartment)
7 Unbolt the resonator support bracket from
the engine compartment front crossmember.
Slacken the two clamp screws securing the
resonator to the air mass meter and plenum
chamber hoses. Swing the resonator clear of
the thermostat housing, and unplug the intake
air temperature sensor’s electrical connector
(see illustration). Withdraw the resonator.
8 Refitting is the reverse of the removal
procedure.
Plenum chamber
9 Prising out the rubber plugs covering them,
undo the chamber’s fasteners (see
illustration). Slacken the clamp screw
securing the chamber to the resonator hose.
10 Lift the chamber and (where fitted)
disconnect the vacuum hose from its
underside. Withdraw the chamber - note the
two rubber spacers (one on each throttle
4.9 Plenum chamber fasteners (arrowed) four shown here, some vehicles may only
have three
4
4•4 Fuel and exhaust systems
4.10A Lift plenum chamber and (where
fitted) disconnect the vacuum hose - note
the two rubber spacers (arrowed) . . .
housing stud) and the sealing O-ring in the
chamber’s mouth (see illustrations).
11 Refitting is the reverse of the removal
procedure. Ensure that the O-ring and
spacers are correctly seated.
Underwing components
12 Remove the left-hand wheel arch liner
(see Chapter 11).
13 Unbolt and withdraw the air intake tube
and both resonators as required.
14 Refitting is the reverse of the removal
procedure.
4.10B . . . and the sealing O-ring (arrowed)
in the chamber’s mouth
5.3 Removing clip securing accelerator
cable to throttle housing bracket
then release the cable inner wire through the
slot in the pedal (see illustration). Tie a length
of string to the end of the cable.
5 Returning to the engine compartment, pull
the cable through the bulkhead until the string
can be untied and the cable removed.
accelerator pedal. Re-adjust the cable if
required.
12 When the setting is correct, refit the
plenum chamber (see Section 4).
Refitting
6 Refitting is the reverse of the removal
procedure; use the string to draw the cable
through the bulkhead.
7 Adjust the cable as described below.
Removal
1 Disconnect the battery negative (earth) lead
- see Chapter 5, Section 1.
2 Remove the plenum chamber (see Section 4).
3 Remove the clip securing the cable to the
throttle housing bracket (see illustration).
Disconnect the cable end nipple from the
throttle linkage, and release the cable from
any securing clips or ties.
4 Working in the passenger compartment,
reach up to the top of the accelerator pedal.
Pull the end fitting and collar out of the pedal,
5.4 Pull the accelerator cable end fitting
(arrowed) out of the pedal
Removal
8 Remove the plenum chamber (see Section 4).
9 Find the cable adjuster - this is either at the
throttle housing bracket, or two-thirds along
the length of the cable, clipped to the front
suspension right-hand mounting (see
illustration). Remove the metal clip and
lubricate the adjuster’s grommet with soapy
water.
10 Remove any slack by pulling the cable
outer as far as possible out of the adjuster.
Have an assistant depress the accelerator
pedal fully - the cable outer will move back
into the adjuster - and hold it there while the
clip is refitted.
11 Check that the throttle valve moves
smoothly and easily from the fully-closed to
the fully-open position and back again, as the
assistant depresses and releases the
Note: While the following procedure deals
with the complete cable, the pedal-toactuator and actuator-to-throttle housing
sections of the cable are available separately,
and can be removed and refitted individually.
If doing this, modify the procedure as
required.
1 Disconnect the battery negative (earth) lead
- see Chapter 5, Section 1.
2 Remove the plenum chamber (see Section 4).
3 Remove the clip securing the cable to the
throttle housing bracket, then pull the cable’s
grommet out of the bracket. Disconnect the
cable end nipple from the throttle linkage, and
release the cable from any securing clips or
ties.
4 Unplug the TCS throttle actuator’s electrical
connector, and prise off its cover (see
illustration).
5 Noting which cable section is connected to
5.9 Location of accelerator cable adjuster
- remove metal clip (arrowed) to enable
adjustment to be made
6.4 Unplug TCS throttle actuator’s
electrical connector (A), and prise off its
cover at two points (B)
Adjustment
5 Accelerator cable (models
without traction control) removal, refitting and adjustment
6 Accelerator cable (models
with traction control) removal, refitting and adjustment
Fuel and exhaust systems 4•5
6.11 Location of TCS throttle actuator-tothrottle housing cable adjuster (arrowed)
7.2 Removing the accelerator pedal
assembly
which pulley, disconnect the first cable end
nipple from the throttle actuator’s upper
pulley, then slide the cable outer upwards out
of the actuator housing. Disconnect the
second cable in the same way from the
actuator’s lower pulley.
6 Working in the passenger compartment,
reach up to the top of the accelerator pedal.
Pull the end fitting and collar out of the pedal,
then release the cable inner wire through the
slot in the pedal. Tie a length of string to the
end of the cable.
7 Returning to the engine compartment, pull
the cable through the bulkhead until the string
can be untied and the pedal-to-actuator cable
removed.
check that the cable outer’s grommet is
correctly secured in the housing bracket.
16 Again have the assistant depress the
accelerator pedal fully. The actuator-tothrottle housing cable outer will move back
into the adjuster; hold it there, and refit the
clip.
17 Remove the locking pin from the pulleys.
Check that the throttle valve moves smoothly
and easily from the fully-closed to the fullyopen position and back again, as the
assistant depresses and releases the
accelerator pedal. Re-adjust the cable(s) if
required.
18 When the setting is correct, refit the TCS
throttle actuator’s cover and electrical
connector, then refit the plenum chamber (see
Section 4).
Refitting
8 Refitting is the reverse of the removal
procedure. Use the string to draw the pedalto-actuator cable through the bulkhead.
Ensure that each cable end is connected to
the correct actuator pulley.
9 Adjust both cables as described below.
Adjustment
Note: Both sections of the cable must be
adjusted together, even if only one has been
disturbed.
10 Remove the plenum chamber (see
Section 4).
11 Remove the metal clip from the adjuster
of each cable section (see illustration), and
lubricate the adjusters’ grommets with soapy
water.
12 Remove any slack by pulling both cable
outers as far as possible out of their
respective adjusters.
13 Unplug the TCS throttle actuator’s
electrical connector, and prise off its cover.
Lock both pulleys together by pushing a
locking pin (a pin punch or a similar tool of
suitable size) into their alignment holes.
Disconnect the actuator-to-throttle housing
cable’s end nipple from the throttle linkage.
14 Have an assistant depress the accelerator
pedal fully. The pedal-to-actuator cable outer
will move back into the adjuster; hold it there,
and refit the clip.
15 Connect the actuator-to-throttle housing
cable end nipple to the throttle linkage, and
7 Accelerator pedal removal and refitting
1 Disconnect the cable inner wire from the
pedal - see Section 5 or 6, as appropriate.
2 Undo the retaining nuts and bolt, then
withdraw the pedal assembly (see
illustration).
3 Refitting is the reverse of the removal
procedure. Adjust the cable(s) as described in
the relevant Section of this Chapter.
8 Fuel pump/fuel pressure check
Warning: Petrol is extremely
flammable, so take extra
precautions when you work on
any part of the fuel system. Don’t
smoke, or allow open flames or bare light
bulbs, near the work area. Don’t work in a
garage where a natural gas-type appliance
(such as a water heater or clothes dryer)
with a pilot light is present. If you spill any
fuel on your skin, rinse it off immediately
with soap and water. When you perform
any kind of work on the fuel system, wear
safety glasses, and have a Class B type
fire extinguisher on hand.
8.4 A fuel pressure gauge, equipped with
an adaptor to suit the Schrader-type valve
on the fuel rail pressure test/release fitting,
is needed to check fuel pressure
Fuel pump operation check
1 Switch on the ignition and listen for the fuel
pump (the sound of an electric motor running,
audible from beneath the rear seats). Assuming
there is sufficient fuel in the tank, the pump
should start and run for approximately one or
two seconds, then stop, each time the ignition
is switched on. Note: If the pump runs
continuously all the time the ignition is switched
on, the electronic control system is running in
the backup (or “limp-home”) mode referred to
by Ford as “Limited Operation Strategy” (LOS).
This almost certainly indicates a fault in the
ECU itself, and the vehicle should therefore be
taken to a Ford dealer for a full test of the
complete system, using the correct diagnostic
equipment; do not waste time trying to test the
system without such facilities.
2 Listen for fuel return noises from the fuel
pressure regulator. It should be possible to
feel the fuel pulsing in the regulator and in the
feed hose from the fuel filter.
3 If the pump does not run at all, check the
fuse, relay and wiring (see Chapter 6).
Fuel pressure check
3 A fuel pressure gauge, equipped with an
adaptor to suit the Schrader-type valve on the
fuel rail pressure test/release fitting
(identifiable by its blue plastic cap, and
located on the union of the fuel feed line and
the fuel rail) is required for the following
procedure. If the Ford special tool 29-033 is
available (see Section 2), the tool can be
attached to the valve, and a conventional-type
pressure gauge attached to the tool.
4 If using the service tool, ensure that its tap
is turned fully anti-clockwise, then attach it to
the valve. Connect the pressure gauge to the
service tool. If using a fuel pressure gauge
with its own adaptor, connect it in accordance
with its maker’s instructions (see illustration).
5 Start the engine and allow it to idle. Note
the gauge reading as soon as the pressure
stabilises, and compare it with the pressure
listed in this Chapter’s Specifications.
(a) If the pressure is high, check for a
restricted fuel return line. If the line is
clear, renew the pressure regulator.
4
4•6 Fuel and exhaust systems
9.4 Unplugging the fuel pump/fuel gauge
sender unit electrical connector (arrowed)
(b) If the pressure is low, pinch the fuel return
line. If the pressure now goes up, renew
the fuel pressure regulator. If the pressure
does not increase, check the fuel feed
line, the fuel pump and the fuel filter.
6 Detach the vacuum hose from the fuel
pressure regulator; the pressure shown on the
gauge should increase. Note the increase in
pressure, and compare it with that listed in
this Chapter’s Specifications. If the pressure
increase is not as specified, check the
vacuum hose and pressure regulator.
7 Reconnect the regulator vacuum hose, and
switch off the engine. Verify that the fuel
pressure stays at the specified level for five
minutes after the engine is turned off.
8 Carefully disconnect the fuel pressure
gauge. Be sure to cover the fitting with a rag
before slackening it. Mop up any spilt petrol.
9 Run the engine, and check that there are no
fuel leaks.
9 Fuel pump/fuel gauge sender
unit - removal and refitting
Warning: Petrol is extremely
flammable, so take extra
precautions when you work on
any part of the fuel system. Don’t smoke,
or allow open flames or bare light bulbs,
near the work area. Don’t work in a garage
where a natural gas-type appliance (such
as a water heater or clothes dryer) with a
pilot light is present. If you spill any fuel on
your skin, rinse it off immediately with
soap and water. When you perform any
kind of work on the fuel system, wear
safety glasses, and have a Class B type
fire extinguisher on hand.
Note: Ford specify the use of their service tool
23-038 (a large box spanner with projecting teeth
to engage the fuel pump/sender unit retaining
ring’s slots) for this task. While alternatives are
possible, as shown below, in view of the difficulty
experienced in removing and refitting the
pump/sender unit, owners are strongly advised
to obtain this tool before starting work. The help
of an assistant will be required.
1 Relieve the residual pressure in the fuel
system (see Section 2), and equalise tank
pressure by removing the fuel filler cap.
9.5 If fuel couplings are difficult to release,
use pliers and a block of wood as shown
to prise pipe end out of union - be careful
not to damage pipes or unions
Warning: This procedure will
merely relieve the increased
pressure necessary for the
engine to run - remember that
fuel will still be present in the system
components, and take precautions
accordingly before disconnecting any of
them.
2 Disconnect the battery negative (earth) lead
- see Chapter 5, Section 1.
3 Unbolt or fold forwards (as appropriate) the
rear seat base cushion (see Chapter 11).
Withdraw from the vehicle’s floor the grommet
covering the fuel pump/sender unit. Wash off
any dirt from the tank’s top surface, and dry it;
use a vacuum cleaner to clean the immediate
surroundings of the vehicle’s interior, to
reduce the risk of introducing water, dirt and
dust into the tank while it is open.
4 Unplug the fuel pump/sender unit’s
electrical connector (see illustration).
5 To disconnect the fuel feed and return
pipes from the unit, release each pipe’s
coupling, by squeezing together the
protruding locking lugs on each union and
carefully pulling the coupling apart. Use rag to
soak up any spilt fuel. Where the couplings
are difficult to separate, use a pair of pliers
and a block of wood as shown, to lever the
pipe out of the union. Considerable force may
9.7A Removing fuel pump/fuel gauge
sender unit - take care not to bend float
arm, and note how it is fitted on springloaded extension
9.6 Fuel pump/fuel gauge sender unit’s
retaining ring can be released using
ordinary tools as shown. Correct service
tool will probably be required on refitting
be required, but be as careful as possible to
avoid damaging any of the components (see
illustration).
6 Release the fuel pump/sender unit’s
retaining ring by turning it anti-clockwise. As
noted above, Ford recommend the use of
service tool 23-038. For those without access
to such equipment, a hammer and drift, or a
pair of slip-jointed pliers, will serve as an
adequate substitute - at least for removal (see
illustration).
7 Withdraw the fuel pump/fuel gauge sender
unit, taking care not to bend the float arm. The
float arm is mounted on a spring-loaded
extension, to hold it closely against the
bottom of the tank. Note the sealing ring; this
must be renewed whenever it is disturbed
(see illustrations).
8 On refitting, use a new sealing ring, and
ensure that the gauze filter over the base of
the pump pick-up is clean.
9 Align the pump/sender unit with the tank
opening, and refit it, ensuring that the float
arm is not bent. Insert the unit so that the float
arm slides correctly up the extension, until the
unit’s top mounting plate can be aligned with
the tank opening and pressed onto the sealing
ring. This may require a considerable amount
of pressure; if so, be careful to avoid
damaging any of the components. The Ford
service tool provides the best way of holding
9.7B Fuel pump/fuel gauge sender unit’s
sealing ring must be renewed whenever it
is disturbed
Fuel and exhaust systems 4•7
the ring square to the tank and turning it at the
same time.
10 Maintain the pressure while an assistant
refits and engages the retaining ring. When
the ring is engaged in the tank lugs, turn it
clockwise to tighten it until it is secured.
11 The remainder of the refitting procedure is
the reverse of removal. Observe the colourcoding to ensure that the fuel pipes are
reconnected to the correct unions.
10.4 Fuel tank assembly
1 Moulded plastic fuel filler
neck
2 Fuel tank
3 Flexible vent hose
4 Roll-over valves
5 Anti-trickle fill valve
6 Fuel pump/fuel gauge
sender unit
7 Fuel return pipe union
8 Heat shield
9 Fuel filter
10 Fuel pump-to-filter feed
pipe
11 Fuel tank retaining strap 2 off
10 Fuel tank removal and refitting
Warning: The fuel system pressure
must be released before any part
of the system is disturbed - see
Section 2. Petrol is extremely
flammable, so take extra precautions when
you work on any part of the fuel system.
Don’t smoke, or allow open flames or bare
light bulbs, near the work area. Don’t work
in a garage where a natural gas-type
appliance (such as a water heater or clothes
dryer) with a pilot light is present. If you spill
any fuel on your skin, rinse it off
immediately with soap and water. When you
perform any kind of work on the fuel
system, wear safety glasses, and have a
Class B type fire extinguisher on hand.
1 A fuel tank drain plug is not provided; it is
therefore preferable to carry out the removal
operation when the tank is nearly empty.
Before proceeding, disconnect the battery
negative (earth) lead, and syphon or handpump the remaining fuel from the tank.
Alternatively, disconnect the feed pipe from
the fuel filter (see Chapter 1), and connect a
spare length of hose to this so that when the
ignition is switched on, the fuel pump will
empty the tank into a clean container. If this
approach is adopted, ensure that the
container is large enough to take all the fuel in
the tank, and be careful to take all suitable
precautions to prevent the risk of fire. Note:
Before disconnecting or opening any part of
the fuel system, relieve the residual pressure
(see Section 2), and equalise tank pressure by
removing the fuel filler cap. Also disconnect
the battery negative (earth) lead - see Chapter 5, Section 1.
10.6 Unbolt rear anti-roll bar mounting
clamps (one arrowed) when preparing to
remove the fuel tank
2 Unbolt or fold forwards (as appropriate) the
rear seat base cushion (see Chapter 11).
Withdraw from the vehicle’s floor the grommet
covering the fuel pump/sender unit. Unplug
the fuel pump/sender unit’s electrical
connector, and disconnect the fuel return pipe
(coded red) from the unit (see Section 9).
3 Raise the rear of the vehicle, and support it
securely on axle stands. Get underneath and
familiarise yourself with the layout of the fuel
tank assembly before proceeding (see
illustration).
Warning: Do not place any part of
your body under a vehicle when
it’s supported only by a jack!
4 Either remove the fuel filter, or disconnect
its outlet pipe (see Chapter 1).
10.7A Fuel filler vent hose clamp (arrowed)
is accessible through right-hand side
aperture in rear suspension crossmember
on Saloon and Hatchback models . . .
5 Unhook the exhaust system rubber
mountings. Lower the system onto a suitable
support, so that the front downpipe-toexhaust manifold joint is not strained, or
remove it completely (see Section 17).
6 Unbolt the rear suspension anti-roll bar
mounting clamps (see illustration). Swing the
bar down as far as possible - if clearance is
very restricted, it is advisable to remove the
bar completely (see Chapter 10).
7 Disconnect the flexible vent hose from the
moulded plastic fuel tank filler neck as
follows:
(a) On Saloon and Hatchback models, reach
up into the right-hand side aperture in the
rear suspension crossmember, slacken
the clamp, and work the hose off the filler
neck stub. This is a job for someone with
small hands, good tools and a lot of
patience! (see illustration).
10.7B . . . on Estate models, it is immediately
above rear suspension anti-roll bar
4
4•8 Fuel and exhaust systems
10.8 Exhaust system must be lowered and
heat shield removed to enable fuel tank
removal - arrows show location of
retaining strap front bolts
10.11 Lower fuel tank - do not distort filler
neck stub (A) - and unclip (red-coded) fuel
return pipe (B), then disconnect charcoal
canister’s vapour hose (C)
(b) On Estate models, slacken the clamp
immediately above the rear anti-roll bar,
and work the hose off the filler neck stub
(see illustration).
8 Unscrew the six retaining nuts, and
withdraw the exhaust system’s rear heat
shield from the underbody (see illustration).
9 Support the tank with a trolley jack or
similar. Place a sturdy plank between the
support and the tank, to protect the tank.
10 Unscrew the bolt at the front of each
retaining strap, and pivot them down until
they are hanging out of the way. Note the
earth lead under the left-hand strap’s bolt clean the mating surfaces before the tank is
refitted, so that clean, metal-to-metal contact
is ensured.
11 Lower the tank enough to unclip the fuel
return pipe (coded red) from its top surface,
then disconnect the charcoal canister’s
vapour hose from the union at the top rear of
the tank (see illustration). If you have any
doubts, clearly label the fuel lines and hoses,
and their respective unions. Plug the hoses, to
prevent leakage and contamination of the fuel
system.
12 Remove the tank from the vehicle,
releasing it from the filler neck stub. While the
tank is removed, unhook the retaining straps
(twist them through 90° to do so), and check
that they and their locations in the underbody
are in good condition.
13 With the fuel tank removed, the filler neck
can be withdrawn. It is secured by a single
screw in the filler opening, and by two bolts to
the underbody.
14 Refitting is the reverse of the removal
procedure.
(such as a water heater or clothes dryer)
with a pilot light is present. If you spill any
fuel on your skin, rinse it off immediately
with soap and water. When you perform
any kind of work on the fuel system, wear
safety glasses, and have a Class B type
fire extinguisher on hand.
1 Any repairs to the fuel tank or filler neck
should be carried out by a professional who
has experience in this critical and potentiallydangerous work. Even after cleaning and
flushing of the fuel system, explosive fumes
can remain and ignite during repair of the
tank.
2 If the fuel tank is removed from the vehicle,
it should not be placed in an area where
sparks or open flames could ignite the fumes
coming out of the tank. Be especially careful
inside garages where a natural gas-type
appliance is located, because the pilot light
could cause an explosion.
11 Fuel tank cleaning and repair general information
Warning: Petrol is extremely
flammable, so take extra
precautions when you work on
any part of the fuel system. Don’t
smoke, or allow open flames or bare light
bulbs, near the work area. Don’t work in a
garage where a natural gas-type appliance
12 Roll-over valves removal and refitting
Warning: The fuel system
pressure must be released before
any part of the system is
disturbed - see Section 2. Petrol
is extremely flammable, so take extra
precautions when you work on any part of
the fuel system. Don’t smoke, or allow
open flames or bare light bulbs, near the
work area. Don’t work in a garage where a
natural gas-type appliance (such as a
water heater or clothes dryer) with a pilot
light is present. If you spill any fuel on your
skin, rinse it off immediately with soap and
water. When you perform any kind of work
on the fuel system, wear safety glasses,
and have a Class B type fire extinguisher
on hand.
Note: Refer to illustrations 10.4 and 10.11 for
details.
1 Remove the fuel tank (see Section 10).
2 Prise the two valves out of the tank, and
remove the anti-trickle fill valve from its
mounting. Take care not to damage the valves
or the tank. Prise out the rubber seals from
13.3 Fuel cut-off switch retaining screws
(arrowed)
the tank openings, and renew then if they are
worn, distorted, or if either has been leaking.
3 If either valve is thought to be faulty, seek
the advice of a Ford dealer as to whether they
can be renewed individually. If not, the
complete valve and pipe assembly must be
renewed.
4 Refitting is the reverse of the removal
procedure. Ensure that both roll-over valves
are pressed securely into their seals, so that
there can be no fuel leaks.
13 Fuel cut-off switch removal and refitting
1 Disconnect the battery negative (earth) lead
- see Chapter 5, Section 1.
2 Remove the trim panel from the left-hand
footwell.
3 Peel back the sound-insulating material
from the switch, and undo its two retaining
screws (see illustration).
4 Unplug the switch electrical connector, and
withdraw the switch.
5 Refitting is the reverse of the removal
procedure. Ensure that the switch is reset by
depressing its red button.
14 Fuel injection system/engine
management system - general
information
These models are equipped with a
Sequential Electronically-controlled Fuel
Injection (SEFI) system. The system is
composed of three basic sub-systems: fuel
system, air induction system and electronic
control system. Note: Refer to illustrations
2.1A and 2.1B of Chapter 6 for further
information on the components of the system.
Fuel system
An electric fuel pump located inside the fuel
tank supplies fuel under pressure to the fuel
rail, which distributes fuel evenly to all
injectors. A filter between the fuel pump and
the fuel rail protects the components of the
system. A pressure regulator controls the
system pressure in relation to inlet tract
depression. From the fuel rail, fuel is injected
Fuel and exhaust systems 4•9
into the inlet ports, just above the inlet valves,
by four fuel injectors. The system also
includes features such as the flushing of fresh
(ie, cold) fuel around each injector on start-up,
thus improving hot starts.
The amount of fuel supplied by the injectors
is precisely controlled by an Electronic
Control Unit (ECU). The ECU uses the signals
derived from the engine speed/crankshaft
position sensor and the camshaft position
sensor, to trigger each injector separately in
cylinder firing order (sequential injection), with
benefits in terms of better fuel economy and
lower exhaust emissions.
Air induction system
The air system consists of an air filter
housing, an air mass meter, an intake
resonator and plenum chamber, and a throttle
housing. The air mass meter is an informationgathering device for the ECU; it uses a “hotwire” system to send the ECU a constantlyvarying
(analogue)
voltage
signal
corresponding to the volume of air passing
into the engine. Another sensor in the air mass
meter measures intake air temperature. The
ECU uses these signals to calculate the mass
of air entering the engine.
The throttle valve inside the throttle housing
is controlled by the driver, through the
accelerator pedal. As the valve opens, the
amount of air that can pass through the
system increases. The throttle potentiometer
opens further, the air mass meter’s signal
alters, and the ECU opens each injector for a
longer duration, to increase the amount of fuel
delivered to the inlet ports.
Electronic control system
The ECU controls the fuel injection system,
as well as the other sub-systems which make
up the entire engine management system. It
receives signals from a number of information
sensors, which monitor such variables as
intake air mass and temperature, coolant
temperature, engine speed and position,
acceleration/deceleration, and exhaust gas
oxygen content. These signals help the ECU
determine the injection duration necessary for
the optimum air/fuel ratio. These sensors and
associated ECU-controlled relays are located
throughout the engine compartment. For
further information regarding the ECU and its
control of the engine management system,
see Chapter 6.
Idle speed and mixture
adjustment - general
Both the idle speed and mixture are under
the control of the ECU, and cannot be
adjusted. Not only can they not be adjusted,
they cannot even be checked, except with the
use of special diagnostic equipment (see
Chapter 6) - this makes it a task for a Ford
dealer service department. Do not attempt to
“adjust” these settings in any way without
such equipment.
If the idle speed and mixture are thought to
be incorrect, take the vehicle to a Ford dealer
for the complete system to be tested.
On models equipped with a heated
windscreen, an idle-increase solenoid valve is
fitted, which raises the idle speed to
compensate for the increased load on the
engine when the heated windscreen is
switched on. When the valve is open, air from
the plenum chamber bypasses the throttle
housing and idle speed control valve, passing
directly into the inlet manifold through the
union on its left-hand end. The system is
active only for the four minutes that the
heated windscreen circuit is live, and is
supplementary to the main (ECU-controlled)
idle speed regulation.
15 Fuel injection system/engine
management system - check
Warning: Petrol is extremely
flammable, so extra precautions
must be taken when working on
any part of the fuel system. Do
not smoke, or allow open flames or bare
light bulbs, near the work area. Don’t work
in a garage if a natural gas-type appliance
with a pilot light is present. While
performing any work on the fuel system,
wear safety glasses, and have a dry
chemical (Class B) fire extinguisher on
hand. If you spill any fuel on your skin,
rinse it off immediately with soap and
water.
Note: This is an initial check of the fuel delivery
and air induction sub-systems of the engine
management system, to be carried out in
conjunction with the operational check of the
fuel pump (see Section 8), and as part of the
preliminary checks of the complete engine
management system (see Section 3 of
Chapter 6).
1 Check the earth wire connections for
tightness. Check all wiring and electrical
connectors that are related to the system.
Loose electrical connectors and poor earths
can cause many problems that resemble
more serious malfunctions.
2 Check to see that the battery is fullycharged. The ECU and sensors depend on an
accurate supply voltage to properly meter the
fuel.
3 Check the air filter element - a dirty or
partially-blocked filter will severely impede
performance and economy (see Chapter 1).
4 If a blown fuse is found, renew it and see if
it blows again. If it does, search for a shortcircuited wire in the harness related to the
system (see Chapter 6).
5 Check the air intake duct from the intake to
the inlet manifold for leaks, which will result in
an excessively-lean mixture. Also check the
condition of the vacuum hoses connected to
the inlet manifold.
6 Remove the plenum chamber from the
throttle housing. Check the throttle valve for
dirt, carbon or other residue build-up. If it’s
dirty, seek the advice of a Ford dealer - since
the electronic control system is designed to
compensate for factors such as the build-up
of dirt in the throttle housing, it may well be
best to leave it dirty, unless the deposits are
extensive. Note: A warning label on the
housing states specifically that the housing
bore and the throttle valve have a special
coating, and must not be cleaned using
carburettor cleaner, as this may damage it.
7 With the engine running, place a
screwdriver or a stethoscope against each
injector, one at a time. Listen through the
screwdriver handle or stethoscope for a
clicking sound, indicating operation.
8 If an injector isn’t operating (or sounds
different from the others), turn off the engine,
and unplug the electrical connector from the
injector. Check the resistance across the
terminals of the injector, and compare your
reading with the resistance value listed in this
Chapter’s Specifications. If the resistance
isn’t as specified, renew the injector.
9 A rough idle, diminished performance
and/or increased fuel consumption could also
be caused by clogged or fouled fuel injectors.
Fuel additives that can sometimes clean
fouled injectors are available at car accessory
shops.
10 The remainder of the system checks
should be left to a dealer service department
or other qualified repair specialist, as there is
a chance that the ECU may be damaged if
tests are not performed properly.
16 Fuel system components check and renewal
Warning: The fuel system
pressure must be released before
any part of the system is
disturbed - see Section 2. Petrol
is extremely flammable, so take extra
precautions when you work on any part of
the fuel system. Don’t smoke, or allow
open flames or bare light bulbs, near the
work area. Don’t work in a garage where a
natural gas-type appliance (such as a
water heater or clothes dryer) with a pilot
light is present. If you spill any fuel on your
skin, rinse it off immediately with soap and
water. When you perform any kind of work
on the fuel system, wear safety glasses,
and have a Class B type fire extinguisher
on hand.
Throttle housing
Check
1 Remove the plenum chamber (see Section 4), and verify that the throttle linkage
operates smoothly.
2 If the housing bore and valve are dirty
enough for you to think that this might be the
cause of a fault, seek the advice of a Ford
dealer. Do not clean the housing (see the
notes in the checking procedure given in
Section 15).
4
4•10 Fuel and exhaust systems
16.8 Undo screws (arrowed) to remove
throttle housing
16.12A Fuel injectors can be unbolted
(arrowed) . . .
Renewal
Fuel rail and injectors
3 Disconnect the battery negative (earth) lead
- see Chapter 5, Section 1.
4 Remove the plenum chamber (see Section 4).
5 Disconnect the accelerator cable from the
throttle linkage (see Section 5 or 6, as
appropriate). Where fitted, also disconnect
the cruise control actuator cable (see Chapter 12).
6 Releasing its wire clip, unplug the large
electrical connector (next to the fuel pressure
regulator). Similarly release and unplug the
throttle potentiometer’s electrical connector.
7 Clearly label, then detach, all vacuum hoses
from the throttle housing.
8 Remove the throttle housing mounting
screws (see illustration), then detach the
throttle housing and gasket from the inlet
manifold. Discard the gasket - this must be
renewed whenever it is disturbed.
9 Using a soft brush and carburettor cleaner,
thoroughly clean the exterior of the throttle
housing, then blow out all passages with
compressed air.
Caution: Do not clean the throttle
housing’s bore, the throttle valve,
or the potentiometer, either by
scraping or with a solvent. Just
wipe them over carefully with a clean soft
cloth.
10 Refitting is the reverse of the removal
procedure. Fit a new gasket, and tighten the
housing screws to the specified torque.
Check
16.18 Injector removal - disconnect fuel
lines at quick-release couplings (A), unclip
hoses (B), disconnect vacuum hose from
regulator (C), unplug electrical
connectors (D) - three of four shown - and
disconnect breather hose from union (E)
11 Refer to the procedure in the fuel system
check (see Section 15).
Renewal
Note: For simplicity, and to ensure the
necessary
absolute
cleanliness
on
reassembly, the following procedure
describes the removal of the fuel rail
assembly, complete with the injectors and
pressure regulator, so that the injectors can be
serviced individually on a clean work surface.
It is also possible to remove and refit an
individual injector once the fuel system has
been depressurised and the battery has been
disconnected. If this approach is followed,
read through the complete procedure, and
work as described in the relevant paragraphs,
depending on the amount of preliminary
dismantling required. Be careful not to allow
any dirt to enter the system (see
illustrations).
12 Relieve the residual pressure in the fuel
system (see Section 2), and equalise tank
pressure by removing the fuel filler cap.
Warning: This procedure will
merely relieve the increased
pressure necessary for the
engine to run - remember that
fuel will still be present in the system
components, and take precautions
accordingly before disconnecting any of
them.
13 Disconnect the battery negative (earth)
lead - see Chapter 5, Section 1.
14 Remove the plenum chamber (see
Section 4).
15 If the additional clearance is required,
disconnect the accelerator cable from the
throttle linkage (see Section 5 or 6, as
appropriate). Where fitted, also disconnect
the cruise control actuator cable (see Chapter 12).
16 Releasing the wire clips, unplug the four
fuel injector electrical connectors.
17 Disconnect the fuel feed and return lines
at the quick-release couplings next to the
braking system vacuum servo unit, then
unclip the fuel hoses from the inlet manifold;
use rag to soak up any spilt fuel. Note: Do not
disturb the threaded couplings at the fuel rail
unions unless absolutely necessary; these are
16.12B . . . and removed individually if
required, but it is better to remove them
with the fuel rail, if servicing is necessary.
O-ring seals (arrowed) must be renewed
whenever injector is removed
sealed at the factory. The quick-release
couplings will suffice for all normal service
operations.
18 Disconnect the crankcase breather hose
from the cylinder head cover union, and the
vacuum hose from the fuel pressure regulator
(see illustration).
19 Unscrew the three bolts securing the fuel
rail, and withdraw the rail, carefully prising it
out of the inlet manifold, and draining any
remaining fuel into a suitable clean container
(see illustrations). Note the seals between
the rail noses and the manifold; these must be
renewed whenever the rail is removed.
20 Clamping the rail carefully in a vice fitted
with soft jaws, unscrew the two bolts securing
each injector, and withdraw the injectors.
Place each in a clean, clearly-labelled storage
container.
21 If you are renewing the injector(s), discard
the old injector, the nose seal and the O-rings.
If you are simply renewing leaking injector O-
16.19A Unscrew bolts (arrowed) . . .
16.19B . . . and withdraw fuel rail with
injectors and pressure regulator - renew
nose seals (arrowed) whenever rail is
disturbed
Fuel and exhaust systems 4•11
16.29 Disconnect vacuum hose, and
unscrew bolts (arrowed) to withdraw fuel
pressure regulator
16.33 Access to idle speed control valve is
from underneath vehicle - unplug electrical
connector (arrowed) to check valve
rings, and intend to re-use the same injectors,
remove the old nose seal and O-rings, and
discard them.
22 Further testing of the injector(s) is beyond
the scope of the home mechanic. If you are in
doubt as to the status of any injector(s), it can
be tested at a dealer service department.
23 Refitting is the reverse of the removal
procedure, noting the following points:
(a) Lubricate each nose seal and O-ring with
clean engine oil on installation.
(b) Locate each injector carefully in the fuel
rail recess, ensuring that the locating tab
on the injector head fits into the slot
provided in the rail. Tighten the bolts to
the specified torque.
(c) Fit a new seal to each fuel rail nose, and
ensure the seals are not displaced as the
rail is refitted. Ensure that the fuel rail is
settled fully in the manifold before
tightening the three bolts evenly and to
the torque wrench setting specified.
(d) Fasten the fuel feed and return quickrelease couplings as described in Section 3.
(e) Ensure that the breather hose, vacuum
hose and wiring are routed correctly, and
secured on reconnection by any clips or
ties provided.
(f) On completion, switch the ignition on and
off five times, to activate the fuel pump and
pressurise the system, without cranking
the engine. Check for signs of fuel leaks
around all disturbed unions and joints
before attempting to start the engine.
26 Disconnect the battery negative (earth)
lead - see Chapter 5, Section 1.
27 Remove the plenum chamber (see
Section 4).
28 Disconnect the vacuum hose from the
regulator.
29 Unscrew the two regulator retaining bolts,
place a wad of clean rag to soak up any spilt
fuel, and withdraw the regulator (see
illustration).
30 Refitting is the reverse of the removal
procedure, noting the following points:
(a) Renew the regulator sealing O-ring
whenever the regulator is disturbed.
Lubricate the new O-ring with clean
engine oil on installation.
(b) Locate the regulator carefully in the fuel
rail recess, and tighten the bolts to the
specified torque wrench setting.
(c) On completion, switch the ignition on and
off five times, to activate the fuel pump and
pressurise the system, without cranking
the engine. Check for signs of fuel leaks
around all disturbed unions and joints
before attempting to start the engine.
Fuel pressure regulator
Check
24 Refer to the fuel pump/fuel pressure
check procedure (see Section 8).
Renewal
25 Relieve the residual pressure in the fuel
system (see Section 2), and equalise tank
pressure by removing the fuel filler cap.
Warning: This procedure will
merely relieve the increased
pressure necessary for the engine
to run - remember that fuel will
still be present in the system components,
and take precautions accordingly before
disconnecting any of them.
Idle speed control valve
Check
31 Disconnect the battery negative (earth)
lead - see Chapter 5, Section 1.
32 Raise the front of the vehicle, and support
it securely on axle stands.
Warning: Do not place any part of
your body under a vehicle when
it’s supported only by a jack!
33 Unplug the valve’s electrical connector
(see illustration).
34 Connect a 12-volt battery across the
valve’s terminals - positive (+) to terminal 37
(the green/yellow wire) and negative (-) to
terminal 21 (the black/yellow).
Caution: It is essential that the
correct polarity is observed, or
the diode incorporated in the
valve may be damaged.
35 A distinct click should be heard each time
contact is made and broken. If not, measure
the resistance between the terminals. If the
resistance is as specified, the valve is okay
(but there may be a problem with the wiring or
the ECU). If the resistance is not as specified,
renew the valve (see below).
16.40 Unscrew bolts (arrowed) to remove
idle speed control valve
16.43 Location of idle-increase solenoid
valve (A) and diode (B)
36 Plug in the valve’s electrical connector.
Renewal
37 Disconnect the battery negative (earth)
lead - see Chapter 5, Section 1.
38 Raise the front of the vehicle, and support
it securely on axle stands.
Warning: Do not place any part of
your body under a vehicle when
it’s supported only by a jack!
39 Unplug the valve’s electrical connector.
40 Unscrew the two retaining bolts, and
withdraw the valve from the inlet manifold
(see illustration).
41 Since the valve’s individual components
are not available separately, and the complete
assembly must be renewed if it is thought to
be faulty, there is nothing to be lost by
attempting to flush out the passages, using
carburettor cleaner or similar solvent. This
won’t take much time or effort, and may well
cure the fault.
42 Refitting is the reverse of the removal
procedure, noting the following points:
(a) Clean the mating surfaces carefully, and
always fit a new gasket whenever the
valve is disturbed.
(b) Tighten the bolts evenly and to the
specified torque wrench setting.
(c) Once the wiring and battery are
reconnected, start the engine and allow it
to idle. When it has reached normal
operating temperature, check that the idle
speed is stable, and that no induction (air)
leaks are evident. Switch on all electrical
loads (headlights, heated rear window,
etc), and check that the idle speed is still
correct.
4
4•12 Fuel and exhaust systems
Idle-increase solenoid valve
Check
43 If this valve is thought to be faulty, unplug
its electrical connector and disconnect its
vacuum hoses, then connect a battery directly
across the valve’s terminals. Check that air
can flow through the valve’s passages when
the solenoid is energised, and that nothing
can pass when the solenoid is not energised.
Alternatively, connect an ohmmeter to
measure the resistance between the valve’s
terminals, and compare this reading to that
listed in the Specifications Section at the
beginning of this Chapter. Renew the valve if
it is faulty (see illustration).
44 The solenoid’s diode is fitted to control
any voltage “spikes” which might occur as the
solenoid is switched off. A faulty diode would
not, therefore, necessarily interfere with the
operation of the valve. If the diode is thought
to be faulty, however, it can be checked by
unplugging it and connecting an ohmmeter
across its terminals, to check that continuity
exists in one direction only. If continuity is
found in both directions, or in neither, the
diode is faulty, and must be renewed.
Renewal
45 If better access is required, remove the
plenum chamber (see Section 4).
46 Disconnect the battery negative (earth)
lead - see Section 1 of Chapter 5.
46 Unplug the valve’s electrical connector.
Unclip the valve from the bulkhead, then
disconnect its vacuum hoses and withdraw it.
47 Refitting is the reverse of the removal
procedure.
17 Exhaust system general information and
component renewal
Warning: Inspection and repair of
exhaust system components
should be done only after enough
time has elapsed after driving the vehicle
to allow the system components to cool
completely. This applies particularly to the
catalytic converter, which runs at very
high temperatures. Also, when working
under the vehicle, make sure it is securely
supported on axle stands.
1 The exhaust system is composed of an
exhaust manifold, the front downpipe and
catalytic converter, and a rear section
incorporating two silencers (three on some
versions) and the tailpipe assembly. The
service replacement exhaust system consists
of three or four sections: the front
downpipe/catalytic
converter,
the
intermediate pipe and front silencer, and the
tailpipe and rear silencer. On some versions,
the tailpipe is in two pieces, with two rear
silencers. The system is suspended
throughout its entire length by rubber
mountings.
2 If any of these parts are damaged or
17.4A Cutting point for renewal of production-fit exhaust system - 1.6 and 1.8 models
17.4B Cutting points for renewal of production-fit exhaust system - 2.0 models
deteriorated, excessive noise and vibration
will occur.
3 Conduct regular inspections of the exhaust
system, to keep it safe and quiet. Look for any
damaged or bent parts, open seams, holes,
loose connections, excessive corrosion, or
other defects which could allow exhaust
fumes to enter the vehicle. Deteriorated
exhaust system components should not be
repaired - they should be replaced with new
parts.
4 If the exhaust system components are
extremely corroded or rusted together, they
will probably have to be cut from the exhaust
system. The most convenient way of
accomplishing this is to have a quick-fit
exhaust repair specialist remove the corroded
sections. If, however, you want to save money
by doing it yourself (and you don’t have an
oxy/acetylene welding outfit with a cutting
torch), simply cut off the old components with
a hacksaw. If you have compressed air,
special pneumatic cutting chisels can also be
used. If you do decide to tackle the job at
home, be sure to wear eye protection, to
protect your eyes from metal chips, and work
gloves, to protect your hands. If the
production-fit system is still fitted, it must be
cut at the points shown (see illustrations) for
the service-replacement system sections to fit.
5 Here are some simple guidelines to apply
when repairing the exhaust system:
Warning: The catalytic converter
operates at very high
temperatures, and takes a long
time to cool. Wait until it’s completely cool
before attempting to remove the
converter. Failure to do so could result in
serious burns.
(a) Work from the back to the front when
removing exhaust system components.
(b) Apply penetrating fluid to the exhaust
17.5 Tighten exhaust system front
downpipe-to-manifold nuts as described do not overtighten them
(c)
(d)
(e)
(f)
system component fasteners, to make
them easier to remove.
Use new gaskets, rubber mountings and
clamps when installing exhaust system
components.
Apply anti-seize compound to the threads
of all exhaust system fasteners during
reassembly.
Note that the downpipe is secured to the
manifold by two bolts, with a coil spring,
spring seat and self-locking nut on each.
On refitting, tighten the nuts until they
stop on the bolt shoulders; the pressure
of the springs will then suffice to make a
leakproof joint (see illustration). Do not
overtighten the nuts to cure a leak - the
bolts will shear. Renew the gasket and the
springs if a leak is found (also see Chapter 2, Part A).
Be sure to allow sufficient clearance
between newly-installed parts and all points
on the underbody, to avoid overheating the
floorpan, and possibly damaging the
interior carpet and insulation. Pay
particularly close attention to the catalytic
converter and its heat shield.
5•1
Chapter 5 Engine electrical systems
Contents
Alternator - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Alternator brushes and voltage regulator - renewal . . . . . . . . . . . . . 13
Auxiliary drivebelt check and renewal . . . . . . . . . . . . . See Chapter 1
Battery - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Battery check, maintenance and charging . . . . . . . . . See Chapter 1
Battery leads - check and renewal . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Charging system - general information and precautions . . . . . . . . . 10
Charging system - testing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Crankshaft speed/position sensor - checking, removal and refitting 9
Electronic control system - information and
fault diagnosis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 6
Electronic Control Unit (ECU) and system information
sensors - general information . . . . . . . . . . . . . . . . . See Chapter 6
Engine compartment wiring check . . . . . . . . . . . . . . . See Chapter 1
General information, precautions and battery disconnection . . . . . . 1
Ignition coil - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Ignition module (automatic transmission models only) removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Ignition system - general information and precautions . . . . . . . . . . . 4
Ignition system - testing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Ignition timing - checking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Spark plug renewal and HT lead check . . . . . . . . . . . . See Chapter 1
Starter motor - brush and solenoid renewal . . . . . . . . . . . . . . . . . . . 17
Starter motor - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . 16
Starting system - general information and precautions . . . . . . . . . . 14
Starting system - testing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Degrees of difficulty
Easy, suitable for
novice with little
experience
Fairly easy, suitable
for beginner with
some experience
Fairly difficult, suitable
for competent DIY
mechanic
Difficult, suitable for
experienced DIY
mechanic
Very difficult,
suitable for expert DIY
or professional
Specifications
Battery
Type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Rating - Cold cranking/Reserve capacity . . . . . . . . . . . . . . . . . . . . . . .
Lead-acid
500 A/75 RC, 590 A/95 RC, or 650 A/130 RC
Ignition timing
Nominal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
10° ± 2° BTDC
Note: Ignition timing is under control of ECU - it may vary constantly at idle speed, and is not adjustable.
Ignition coil
Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Primary resistances - measured at coil connector terminal pins . . . . . .
5
37.0 kilovolts (minimum)
0.50 ± 0.05 ohms
Alternator
Type:
Bosch unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Mitsubishi unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Minimum brush length - all types . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Regulated voltage @ 4000 (engine) rpm and 3 to 7 amp load - all types .
Model
NC 14V 60-90A
A004T
5.0 mm
13.5 to 14.6 volts
Rated output
90A
90A
Type:
Bosch unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Lucas/Magneti Marelli unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Minimum brush length - all types . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Commutator minimum diameter:
Bosch units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Lucas/Magneti Marelli unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Armature endfloat:
Bosch units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Lucas/Magneti Marelli unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Model
DW
M79
8.0 mm
Rated output
1.1 or 1.4 kW
1.0 kW
Torque wrench settings
Nm
lbf ft
Crankshaft speed/position sensor:
Sensor-to-bracket screw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Bracket-to-cylinder block crankcase screw . . . . . . . . . . . . . . . . . . . .
Ignition coil bracket-to-cylinder head screws . . . . . . . . . . . . . . . . . . . .
Alternator mounting bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Starter motor mounting bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6 to 9
21
21
50
35
4 to 6
15
15
37
26
Starter motor
32.8 mm
Not available
0.30 mm
0.25 mm
5•2 Engine electrical systems
1.2 Always disconnect battery - negative
(earth) lead first - to prevent the possibility
of short-circuits
1 General information,
precautions and battery
disconnection
General information
The engine electrical systems include all
ignition, charging and starting components.
Because of their engine-related functions,
these components are discussed separately
from body electrical devices such as the
lights, the instruments, etc (which are
included in Chapter 12).
Precautions
Always observe the following precautions
when working on the electrical system:
(a) Be extremely careful when servicing
engine electrical components. They are
easily damaged if checked, connected or
handled improperly.
(b) Never leave the ignition switched on for
long periods of time when the engine is
not running.
(c) Don’t disconnect the battery leads while
the engine is running.
(d) Maintain correct polarity when connecting
a battery lead from another vehicle during
jump starting - see the “Booster battery
(jump) starting” section at the front of this
manual.
(e) Always disconnect the negative lead first,
and reconnect it last, or the battery may
be shorted by the tool being used to
loosen the lead clamps (see illustration).
It’s also a good idea to review the safetyrelated information regarding the engine
electrical systems located in the “Safety first!”
section at the front of this manual, before
beginning any operation included in this Chapter.
Battery disconnection
Several systems fitted to the vehicle require
battery power to be available at all times, either
to ensure their continued operation (such as
the clock) or to maintain control unit memories
(such as that in the engine management
system’s ECU) which would be wiped if the
battery were to be disconnected. Whenever the
2.2A Unscrew hold-down nuts (one of two
arrowed) . . .
2.2B . . . and withdraw hold-down clamp
to release battery
battery is to be disconnected therefore, first
note the following, to ensure that there are no
unforeseen consequences of this action:
(a) First, on any vehicle with central locking, it
is a wise precaution to remove the key
from the ignition, and to keep it with you,
so that it does not get locked in if the
central locking should engage accidentally
when the battery is reconnected!
(b) The engine management system’s ECU will
lose the information stored in its memory referred to by Ford as the “KAM” (KeepAlive Memory) - when the battery is
disconnected. This includes idling and
operating values, and any fault codes
detected - in the case of the fault codes, if it
is thought likely that the system has
developed a fault for which the
corresponding code has been logged, the
vehicle must be taken to a Ford dealer for
the codes to be read, using the special
diagnostic equipment necessary for this (see
Chapter 6). Whenever the battery is
disconnected, the information relating to idle
speed control and other operating values will
have to be re-programmed into the unit’s
memory. The ECU does this by itself, but
until then, there may be surging, hesitation,
erratic idle and a generally inferior level of
performance. To allow the ECU to relearn
these values, start the engine and run it as
close to idle speed as possible until it
reaches its normal operating temperature,
then run it for approximately two minutes at
1200 rpm. Next, drive the vehicle as far as
necessary - approximately 5 miles of varied
driving conditions is usually sufficient - to
complete the relearning process.
(c) If the battery is disconnected while the
alarm system is armed or activated, the
alarm will remain in the same state when
the battery is reconnected. The same
applies to the engine immobiliser system
(where fitted).
(d) If a trip computer is in use, any
information stored in memory will be lost.
(e) If a Ford “Keycode” audio unit is fitted,
and the unit and/or the battery is
disconnected, the unit will not function
again on reconnection until the correct
security code is entered. Details of this
procedure, which varies according to the
unit and model year, are given in the
“Ford Audio Systems Operating Guide”
supplied with the vehicle when new, with
the code itself being given in a “Radio
Passport” and/or a “Keycode Label” at
the same time. Ensure you have the
correct code before you disconnect the
battery. For obvious security reasons, the
procedure is not given in this manual. If
you do not have the code or details of the
correct procedure, but can supply proof
of ownership and a legitimate reason for
wanting this information, the vehicle’s
selling dealer may be able to help.
Devices known as “memory-savers” (or
“code-savers”) can be used to avoid some of
the above problems. Precise details vary
according to the device used. Typically, it is
plugged into the cigarette lighter, and is
connected by its own wires to a spare battery;
the vehicle’s own battery is then disconnected
from the electrical system, leaving the
“memory-saver” to pass sufficient current to
maintain audio unit security codes and ECU
memory values, and also to run permanentlylive circuits such as the clock, all the while
isolating the battery in the event of a shortcircuit occurring while work is carried out.
Warning: Some of these devices
allow a considerable amount of
current to pass, which can mean
that many of the vehicle’s systems are still
operational when the main battery is
disconnected. If a “memory-saver” is used,
ensure that the circuit concerned is
actually “dead” before carrying out any
work on it!
2 Battery - removal and refitting
Note: See also the relevant Sections of
Chapter 1.
1 Disconnect the battery leads, negative
(earth) lead first - see Section 1.
2 Remove the battery hold-down clamp (see
illustrations).
3 Lift out the battery. Be careful - it’s heavy.
4 While the battery is out, inspect the tray for
corrosion (see Chapter 1).
Engine electrical systems 5•3
5 If you are renewing the battery, make sure
that you get one that’s identical, with the
same dimensions, amperage rating, cold
cranking rating, etc. Dispose of the old battery
in a responsible fashion. Most local authorities
have facilities for the collection and disposal
of such items - batteries contain sulphuric
acid and lead, and should not be simply
thrown out with the household rubbish!
6 Refitting is the reverse of the removal
procedure.
3 Battery leads check and renewal
Note: See also the relevant Sections of
Chapter 1.
1 Periodically inspect the entire length of
each battery lead for damage, cracked or
burned insulation, and corrosion. Poor battery
lead connections can cause starting problems
and decreased engine performance.
2 Check the lead-to-terminal connections at
the ends of the leads for cracks, loose wire
strands and corrosion. The presence of white,
fluffy deposits under the insulation at the lead
terminal connection is a sign that the lead is
corroded and should be renewed. Check the
terminals for distortion, missing clamp bolts,
and corrosion.
3 When removing the leads, always
disconnect the negative lead first, and
reconnect it last (see Section 1). Even if only
the positive lead is being renewed, be sure to
disconnect the negative lead from the battery
first (see Chapter 1 for further information
regarding battery lead removal).
4 Disconnect the old leads from the battery,
then trace each of them to their opposite
ends, and detach them from the starter
solenoid and earth terminals. Note the routing
of each lead, to ensure correct installation.
5 If you are renewing either or both of the old
leads, take them with you when buying new
leads. It is vitally important that you replace
the leads with identical parts. Leads have
characteristics that make them easy to
identify: positive leads are usually red, larger
in cross-section, and have a larger-diameter
battery post clamp; earth leads are usually
black, smaller in cross-section and have a
slightly smaller-diameter clamp for the
negative post.
6 Clean the threads of the solenoid or earth
connection with a wire brush to remove rust
and corrosion.
battery, make sure that it reaches the battery
post without having to be stretched.
9 Connect the positive lead first, followed by
the negative lead.
4 Ignition system - general
information and precautions
General
The ignition system includes the ignition
switch, the battery, the crankshaft speed/
position sensor, the coil, the primary (low
tension/LT) and secondary (high tension/HT)
wiring circuits, and the spark plugs. On models
with automatic transmission, a separate
ignition module is also fitted, its functions
being incorporated in the ECU on models with
manual transmission. The ignition system is
controlled by the engine management
system’s Electronic Control Unit (ECU). Using
data provided by information sensors which
monitor various engine functions (such as
engine speed and piston position, intake air
mass and temperature, engine coolant
temperature, etc.), the ECU ensures a
perfectly-timed spark under all conditions (see
Chapter 6). Note: The ignition timing is under
the full control of the ECU, and cannot be
adjusted - see Section 8 for further details.
Precautions
When working on the ignition system, take
the following precautions:
(a) Do not keep the ignition switch on for more
than 10 seconds if the engine will not start.
(b) If a separate tachometer is ever required
for servicing work, consult a dealer
service department before buying a
tachometer for use with this vehicle some tachometers may be incompatible
with this ignition system - and always
connect it in accordance with the
equipment manufacturer’s instructions.
(c) Never connect the ignition coil terminals
to earth. This could result in damage to
the coil and/or the ECU or ignition module
(whichever is fitted).
(d) Do not disconnect the battery when the
engine is running.
(e) Make sure that the ignition module (where
fitted) is properly earthed.
(f) Refer to the warning at the beginning of
the next Section concerning HT voltage.
5 Ignition system - testing
Apply a light coat of battery
terminal corrosion inhibitor,
or petroleum jelly, to the
threads, to prevent future
corrosion.
7 Attach the lead to the solenoid or earth
connection, and tighten the mounting nut/bolt
securely.
8 Before connecting a new lead to the
Warning: Because of the high
voltage generated by the ignition
system, extreme care should be
taken whenever an operation is performed
involving ignition components. This not
only includes the ignition module/ECU, coil
and spark plug (HT) leads, but related
components such as electrical connectors,
tachometer and other test equipment also.
Note: This is an initial check of the “ignition
part” of the main engine management system,
to be carried out as part of the preliminary
checks of the complete engine management
system (see Chapter 6).
1 If the engine turns over but won’t start,
disconnect the (HT) lead from any spark plug,
and attach it to a calibrated tester (available at
most automotive accessory shops). Connect
the clip on the tester to a good earth - a bolt
or metal bracket on the engine. If you’re
unable to obtain a calibrated ignition tester,
have the check carried out by a Ford dealer
service department or similar. Any other form
of testing (such as jumping a spark from the
end of an HT lead to earth) is not
recommended, because of the risk of
personal injury, or of damage to the
ECU/ignition module (see notes above and in
Section 4).
2 Crank the engine and watch the end of the
tester to see if bright blue, well-defined sparks
occur.
3 If sparks occur, sufficient voltage is
reaching the plug to fire it. Repeat the check
at the remaining plugs, to ensure that all leads
are sound and that the coil is serviceable.
However, the plugs themselves may be fouled
or faulty, so remove and check them as
described in Chapter 1.
4 If no sparks or intermittent sparks occur,
the spark plug lead(s) may be defective check them as described in Chapter 1.
5 If there’s still no spark, check the coil’s
electrical connector, to make sure it’s clean
and tight. Check for full battery voltage to the
coil at the connector’s centre terminal. The
coil is earthed through the ECU - do not
attempt to check this. Check the coil itself
(see Section 6). Make any necessary repairs,
then repeat the check again.
6 The remainder of the system checks should
be left to a dealer service department or other
qualified repair facility, as there is a chance
that the ECU may be damaged if tests are not
performed properly.
6 Ignition coil removal and refitting
Warning: Because of the high
voltage generated by the ignition
system, extreme care should be
taken whenever an operation is performed
involving ignition components. This not
only includes the ignition module/ECU, coil
and spark plug (HT) leads, but related
components such as electrical connectors,
tachometer and other test equipment also.
Check
1 Having checked that full battery voltage is
available at the centre terminal of the coil’s
electrical connector (see Section 5),
disconnect the battery negative (earth) lead see Section 1.
2 Unplug the coil’s electrical connector, if not
already disconnected.
5
5•4 Engine electrical systems
6.9 Unplug coil electrical connector (A),
suppressor connector (B), and spark
plug/HT leads (C), remove screws (D), then
undo Torx-type screws (E) to release
ignition coil assembly
7.3 Separate ignition module is fitted to
automatic transmission models only - note
electrical connector (A) and retaining
screws (B)
3 Using an ohmmeter, measure the
resistance of the coil’s primary windings,
connecting the meter between the coil’s
terminal pins as follows. Measure first from
one outer pin to the centre pin, then from the
other outer pin to the centre. Compare your
readings with the coil primary resistance listed
in the Specifications Section at the beginning
of this Chapter.
4 Disconnect the spark plug (HT) leads - note
their connections or label them carefully, as
described in Chapter 1. Use the meter to
check that there is continuity (ie, a resistance
corresponding to that of the coil secondary
winding) between each pair of (HT) lead
terminals; Nos 1 and 4 terminals are
connected by their secondary winding, as are
Nos 2 and 3. Now switch to the highest
resistance scale, and check that there is no
continuity between either pair of terminals and
the other - ie, there should be infinite
resistance between terminals 1 and 2, or 4
and 3 - and between any terminal and earth.
5 If either of the above tests yield resistance
values outside the specified amount, or
results other than those described, renew the
coil. Any further testing should be left to a
dealer service department or other qualified
repair facility.
procedure. Ensure that the spark plug (HT)
leads are correctly reconnected, and tighten
the coil screws securely.
Removal and refitting
6 Disconnect the battery negative (earth) lead
- see Section 1.
7 Remove the air mass meter and resonator refer to Chapter 4.
8 Unplug the electrical connector from each
side of the coil, then disconnect the spark
plug (HT) leads - note their connections or
label them carefully, as described in Chapter
1.
9 Undo the two screws securing the EGR
pipe to the coil bracket, then remove the coil
mounting (Torx-type) screws. Withdraw the
coil assembly from the cylinder head (see
illustration).
10 The suppressor can be unbolted from the
mounting bracket, if required; note that the
coil and bracket are only available as a single
unit.
11 Refitting is the reverse of the removal
7 Ignition module (automatic
transmission models only) removal and refitting
Note: See Chapter 6 for component location
illustrations.
1 Disconnect the battery negative (earth) lead
- see Section 1.
2 If better access is required, remove the
resonator (see Chapter 4).
3 Unplug the electrical connector from the
module (see illustration).
4 Remove the retaining screws, and detach
the module from the bulkhead mounting
bracket.
5 Refitting is the reverse of the removal
procedure.
vary significantly if “checked” by simply
connecting a timing light to the system and
running the engine at idle speed.
Not only can the ignition timing not be
adjusted, it cannot be checked either, except
with the use of special diagnostic equipment
(see Chapter 6) - this makes it a task for a
Ford dealer service department.
Owners who are taking their vehicles
abroad should note that the ignition system is
set for the engine to use petrol of 95 RON
octane rating by fitting a “plug-in bridge” to
the service connector on the engine
compartment bulkhead (see illustration).
Removing the “plug-in bridge” retards the
ignition timing - by an unspecified value - to
allow the engine to run on 91 RON fuel. This
grade of fuel is the “Regular” or “Normal”
widely used abroad, but not at present
available in the UK. If you are taking the
vehicle abroad, seek the advice of a Ford
dealer (or of one of the motoring
organisations). This will ensure that you are
familiar with the grades of fuel you are likely to
find (and the sometimes confusing names for
those grades), and that the vehicle is set
correctly at all times for the fuel used. Note:
The octane ratings mentioned above are both,
of course, for unleaded petrol. Do not use
leaded petrol at any time in a vehicle equipped
with a catalytic converter.
9 Crankshaft speed/position
sensor checking, removal and refitting
Checking
1 See Section 4 of Chapter 6.
Removal and refitting
8 Ignition timing - checking
As noted in Section 4, the ignition timing is
controlled entirely by the ECU (acting with the
ignition module, on models with automatic
transmission), and cannot be adjusted. The
value quoted in the Specifications Section of
this Chapter is for reference only, and may
8.3 Service connector (A) mounted on
engine compartment bulkhead is fitted with
“plug-in bridge” (B) to set engine to use
(unleaded) petrol of 95 RON octane rating
2 Disconnect the battery negative (earth) lead
- see Section 1.
3 Raise the front of the vehicle, and support it
securely on axle stands.
Warning: Do not place any part of
your body under a vehicle when
it’s supported only by a jack!
4 Unplug the sensor’s electrical connector
(see illustration).
9.4 Location of crankshaft speed/position
sensor - connector arrowed - in front of
cylinder block/crankcase
Engine electrical systems 5•5
5 Undo the sensor’s retaining screw and
withdraw the sensor. The sensor’s bracket
cannot be unbolted from the cylinder
block/crankcase unless the transmission and
flywheel/driveplate have been removed (see
Chapter 2).
6 Refitting is the reverse of the removal
procedure.
10 Charging system - general
information and precautions
General information
The charging system includes the
alternator, an internal voltage regulator, a nocharge (or “ignition”) warning light, the
battery, and the wiring between all the
components. The charging system supplies
electrical power for the ignition system, the
lights, the radio, etc. The alternator is driven
by the auxiliary drivebelt at the front (righthand end) of the engine.
The purpose of the voltage regulator is to
limit the alternator’s voltage to a preset value.
This prevents power surges, circuit overloads,
etc., during peak voltage output.
The charging system doesn’t ordinarily
require periodic maintenance. However, the
drivebelt, battery and wires and connections
should be inspected at the intervals outlined
in Chapter 1.
The dashboard warning light should come
on when the ignition key is turned to positions
“II” or “III”, then should go off immediately the
engine starts. If it remains on, or if it comes on
while the engine is running, there is a
malfunction in the charging system (see
Section 11). If the light does not come on
when the ignition key is turned, and the bulb is
sound (see Chapter 12), there is a fault in the
alternator.
Precautions
Be very careful when making electrical
circuit connections to a vehicle equipped with
an alternator, and note the following:
(a) When reconnecting wires to the alternator
from the battery, be sure to note the
polarity.
(b) Before using arc-welding equipment to
repair any part of the vehicle, disconnect
the wires from the alternator and the
battery terminals.
(c) Never start the engine with a battery
charger connected.
(d) Always disconnect both battery leads
before using a battery charger.
(e) The alternator is driven by an engine
drivebelt which could cause serious injury
if your hand, hair or clothes become
entangled in it with the engine running.
(f) Because the alternator is connected
directly to the battery, it could arc or
cause a fire if overloaded or shorted-out.
(g) Wrap a plastic bag over the alternator,
and secure it with rubber bands, before
steam-cleaning or pressure-washing the
engine.
(h) Never disconnect the alternator terminals
while the engine is running.
11 Charging system - testing
1 If a malfunction occurs in the charging
circuit, don’t automatically assume that the
alternator is causing the problem. First check
the following items:
(a) Check the tension and condition of the
auxiliary drivebelt - renew it if it is worn or
deteriorated (see Chapter 1).
(b) Ensure the alternator mounting bolts and
nuts are tight.
(c) Inspect the alternator wiring harness and
the electrical connections at the
alternator; they must be in good
condition, and tight.
(d) Check the large main fuses in the engine
compartment (see Chapter 12). If any is
blown, determine the cause, repair the
circuit and renew the fuse (the vehicle
won’t start and/or the accessories won’t
work if the fuse is blown).
(e) Start the engine and check the alternator
for abnormal noises - for example, a
shrieking or squealing sound may indicate
a badly-worn bearing or brush.
(f) Make sure that the battery is fully-charged
- one bad cell in a battery can cause
overcharging by the alternator.
(g) Disconnect the battery leads (negative
first, then positive). Inspect the battery
posts and the lead clamps for corrosion.
Clean them thoroughly if necessary (see
Section 3 and Chapter 1). Reconnect the
lead to the negative terminal.
(h) With the ignition and all accessories
switched off, insert a test light between
the battery negative post and the
disconnected negative lead clamp:
(1) If the test light does not come on, reattach the clamp and proceed to the next
step.
(2) If the test light comes on, there is a short
in the electrical system of the vehicle. The
short must be repaired before the
charging system can be checked.
(3) To find the short, disconnect the
alternator wiring harness:
(a) If the light goes out, the alternator is
at fault.
(b) If the light stays on, remove each fuse
until it goes out - this will tell you
which component is short-circuited.
2 Using a voltmeter, check the battery
voltage with the engine off. It should be
approximately 12 volts.
3 Start the engine and check the battery
voltage again. Increase engine speed until the
voltmeter reading remains steady; it should
now be approximately 13.5 to 14.6 volts.
4 Switch on as many electrical accessories
(eg the headlights, heated rear window and
12.3 Disconnecting alternator wiring
heater blower) as possible, and check that the
alternator maintains the regulated voltage at
around 13 to 14 volts. The voltage may drop
and then come back up; it may also be
necessary to increase engine speed slightly,
even if the charging system is working
properly.
5 If the voltage reading is greater than the
specified charging voltage, renew the voltage
regulator (see Section 13).
6 If the voltmeter reading is less than that
specified, the fault may be due to worn
brushes, weak brush springs, a faulty voltage
regulator, a faulty diode, a severed phase
winding, or worn or damaged slip rings. The
brushes and slip rings may be checked (see
Section 13), but if the fault persists, the
alternator should be renewed or taken to an
auto-electrician for testing and repair.
12 Alternator removal and refitting
1 Disconnect the battery negative (earth) lead
- see Section 1.
2 Remove the plenum chamber (see Chapter 4).
3 Unscrew the nuts to disconnect the wiring
from the alternator (see illustration). If
additional working clearance is required, undo
the right-hand of the three screws securing
the wiring “rail” to the rear of the inlet
manifold.
4 Jack up and support the front right-hand
corner of the vehicle. Remove the auxiliary
drivebelt and the engine oil filter - place a wad
of rag to soak up the spilled oil (see Chapter 1). Rather than refit a used filter, you are
advised to drain the engine oil, and then to fit
a new filter and refill the engine with clean oil
on reassembly. Where an engine oil cooler is
fitted, it may prove necessary to remove this
as well, to provide the clearance necessary to
remove the alternator (see Chapter 2, Part A).
5 Unscrew the two bolts securing the power
steering system pipes to the right-hand side
of the front suspension subframe. With the
front wheels in the straight-ahead position,
disconnect the right-hand track rod end from
the steering knuckle (see Chapter 10).
6 Remove the mounting bolts and nuts (one
5
5•6 Engine electrical systems
at the top, two at the bottom). Withdraw the
alternator from the engine, and manoeuvre it
out through the wheel arch (see illustration).
Do not drop it, it is fragile.
7 If you are renewing the alternator, take the
old one with you when purchasing a
replacement unit. Make sure that the new or
rebuilt unit is identical to the old alternator.
Look at the terminals - they should be the
same in number, size and location as the
terminals on the old alternator. Finally, look at
the identification markings - they will be
stamped in the housing, or printed on a tag or
plaque affixed to the housing. Make sure that
these numbers are the same on both
alternators.
8 Many new/rebuilt alternators do not have a
pulley installed, so you may have to switch the
pulley from the old unit to the new/rebuilt one.
When buying an alternator, ask about the
installation of pulleys - some auto-electrical
specialists will perform this service free of
charge.
9 Refitting is the reverse of the removal
procedure, referring where necessary to the
relevant Chapters of this manual. Tighten all
fasteners to the specified torque wrench
settings.
10 Check the charging voltage to verify
proper operation of the alternator (see Section 11).
13 Alternator brushes and
voltage regulator - renewal
3 Remove the two voltage regulator/brush
holder mounting screws.
4 Remove the regulator/brush holder from the
end frame (see illustration). If you are
renewing the assembly, proceed to paragraph 8, install the new unit, reassemble the
alternator, and refit it to the engine (see
Section 12). If you are going to check the
brushes, proceed to the next paragraph.
5 Measure the exposed length of each brush,
and compare it to the minimum length listed in
this Chapter’s Specifications. If the length of
either brush is less than the specified
minimum, renew the assembly.
6 Make sure that each brush moves smoothly
in the brush holder.
7 Check that the slip rings - the ring of
copper on which each brush bears - are
clean. Wipe them with a solvent-moistened
cloth; if either appears scored or blackened,
take the alternator to a repair specialist for
advice.
8 Refit the voltage regulator/brush holder,
ensuring that the brushes bear correctly on
the slip rings, and that they compress into
their holders. Tighten the screws securely.
9 Install the rear cover, and tighten the
screws securely.
10 Refit the alternator (see Section 12).
14 Starting system - general
information and precautions
General information
starter motor, which does the actual work of
cranking the engine.
The starter motor on a vehicle equipped
with automatic transmission can be operated
only when the selector lever is in Park or
Neutral (“P” or “N”).
If the alarm system is armed or activated,
the starter motor cannot be operated. The
same applies with the engine immobiliser
system (where fitted).
Precautions
Always observe the following precautions
when working on the starting system:
(a) Excessive cranking of the starter motor
can overheat it, and cause serious
damage. Never operate the starter motor
for more than 15 seconds at a time
without pausing to allow it to cool for at
least two minutes. Excessive starter
operation will also risk unburned fuel
collecting in the catalytic converter’s
element, causing it to overheat when the
engine does start (see Chapter 6).
(b) The starter is connected directly to the
battery, and could arc or cause a fire if
mishandled, overloaded or shorted-out.
(c) Always detach the lead from the negative
terminal of the battery before working on
the starting system (see Section 1).
15 Starting system - testing
Note: This procedure assumes that
replacement parts of the correct type have
been obtained. At the time of writing, no
individual alternator components were
available as separate replacement Ford parts.
An auto electrical specialist should be able to
supply parts such as brushes.
The following procedure is for the Bosch
unit fitted to the project vehicle - details may
vary for other alternator types.
1 Remove the alternator from the vehicle (see
Section 12) and place it on a clean
workbench.
2 Remove the three screws, and withdraw the
plastic end cover (see illustration).
The sole function of the starting system is
to turn over the engine quickly enough to
allow it to start.
The starting system consists of the battery,
the starter motor, the starter solenoid, and the
wires connecting them. The solenoid is
mounted directly on the starter motor.
The solenoid/starter motor assembly is
installed on the rear upper part of the engine,
next to the transmission bellhousing.
When the ignition key is turned to position
“III”, the starter solenoid is actuated through
the starter control circuit. The starter solenoid
then connects the battery to the starter. The
battery supplies the electrical energy to the
Note: Before diagnosing starter problems,
make sure that the battery is fully-charged,
and ensure that the alarm/engine immobiliser
system is not activated.
1 If the starter motor does not turn at all when
the switch is operated, make sure that, on
automatic transmission models, the selector
lever is in Park or Neutral (“P” or “N”).
2 Make sure that the battery is fully-charged,
and that all leads, both at the battery and
starter solenoid terminals, are clean and
secure.
3 If the starter motor spins but the engine is
not cranking, the overrunning clutch or (when
applicable) the reduction gears in the starter
motor may be slipping, in which case the
12.6 Alternator must be withdrawn
through right-hand front wheel arch
13.2 Renewing voltage regulator/brush
holder - Bosch alternator. Remove three
screws and withdraw end cover . . .
13.4 . . . then remove regulator/brush
holder assembly (secured by two screws)
Engine electrical systems 5•7
16 Starter motor removal and refitting
16.3 Unscrew upper two starter motor
mounting bolts (arrowed) from above
starter motor must be overhauled or renewed.
(Other possibilities are that the starter motor
mounting bolts are very loose, or that teeth
are missing from the flywheel/driveplate ring
gear.)
4 If, when the switch is actuated, the starter
motor does not operate at all but the solenoid
clicks, then the problem lies with either the
battery, the main solenoid contacts, or the
starter motor itself (or the engine is seized).
5 If the solenoid plunger cannot be heard to
click when the switch is actuated, the battery
is faulty, there is a fault in the circuit, or the
solenoid itself is defective.
6 To check the solenoid, connect a fused
jumper lead between the battery (+) and the
ignition switch terminal (the small terminal) on
the solenoid. If the starter motor now
operates, the solenoid is OK, and the problem
is in the ignition switch, selector lever position
sensor (automatic transmission) or in the
wiring.
7 If the starter motor still does not operate,
remove it (see Section 16). The brushes and
commutator may be checked (see Section 17), but if the fault persists, the motor
should be renewed, or taken to an autoelectrician for testing and repair.
8 If the starter motor cranks the engine at an
16.6 Disconnect starter motor wiring (A),
then unscrew remaining mounting bolt (B),
and remove starter motor from beneath
vehicle
abnormally-slow speed, first make sure that
the battery is charged, and that all terminal
connections are tight. If the engine is partially
seized, or has the wrong viscosity oil in it, it
will crank slowly.
9 Run the engine until normal operating
temperature is reached, then switch off and
disable the ignition system by unplugging the
ignition coil’s electrical connector; remove
fuse 14 to disconnect the fuel pump.
10 Connect a voltmeter positive lead to the
battery positive terminal, and connect the
negative lead to the negative terminal.
11 Crank the engine, and take the voltmeter
readings as soon as a steady figure is
indicated. Do not allow the starter motor to
turn for more than 15 seconds at a time. A
reading of 10.5 volts or more, with the starter
motor turning at normal cranking speed, is
normal. If the reading is 10.5 volts or more but
the cranking speed is slow, the solenoid
contacts are burned, the motor is faulty, or
there is a bad connection. If the reading is less
than 10.5 volts and the cranking speed is
slow, the starter motor is faulty or there is a
problem with the battery.
1 Disconnect the battery negative (earth) lead
- see Section 1.
2 Remove the air mass meter and resonator refer to Chapter 4.
3 Unscrew the upper two starter motor
mounting bolts, noting that one also secures
an engine/transmission earth lead (see
illustration).
4 Raise the front of the vehicle, and support it
securely on axle stands.
Warning: Do not place any part of
your body under a vehicle when
it’s supported only by a jack!
5 Unscrew the nuts to disconnect the wiring
from the starter/solenoid terminals.
6 Remove the remaining starter motor
mounting bolt (see illustration). Remove the
starter.
7 Refitting is the reverse of the removal
procedure. Tighten the bolts to the specified
torque wrench settings.
17 Starter motor - brush and
solenoid renewal
Note: This procedure assumes that
replacement brushes of the correct type have
been obtained - at the time of writing, no
individual starter motor components were
available as separate replacement Ford parts.
An auto electrical specialist should be able to
supply parts such as brushes.
The following procedures are for the
Lucas/Magneti Marelli unit fitted to the project
vehicle - the procedure is essentially the same
for the Bosch unit that may be found on other
models.
1 Remove the starter motor from the vehicle
(Section 16) (see illustration).
17.1 Exploded view of the Bosch DW starter
motor
1
2
3
4
5
6
7
8
9
10
Solenoid
Spring
Plunger
Engaging lever
Drive end housing
Drive pinion and
clutch
Spacer
Ring gear and carrier
Output shaft and
planet gear unit
Circlip
11
12
13
14
15
16
17
18
19
20
Screw
End cap
C-clip
Shim
Commutator end
housing
Brushplate
Yoke
Rubber block
Armature
Retaining plate
5
5•8 Engine electrical systems
17.2A Remove the two screws to release
the end cap. Withdraw the gasket and
prise out the C-clip, noting any shims fitted
to control armature endfloat . . .
17.2B . . . unscrew the two screws . . .
17.2C . . . and withdraw the end
housing . . .
17.2D . . . then unclip the brush holders
and springs . . .
17.2E . . . unscrew the nut securing the
solenoid link . . .
17.2F . . . withdraw the negative
brushes . . .
17.2G . . . lift off the plastic insulating
plate . . .
17.2H . . . remove the brushbox and
remove the positive brushes complete with
the bus bar . . .
17.2I . . . note how the bus bar is engaged
on the brushbox before removing it
moistened cloth. Check that the spring
pressure is equal for all brushes, and holds
the brushes securely against the commutator.
If in doubt about the condition of the brushes
and springs, compare them with new
components.
4 Clean the commutator with a petrolmoistened cloth, then check for signs of
scoring, burning, excessive wear or severe
pitting. If worn or damaged, the commutator
should be attended to by an auto-electrician.
5 Refitting is the reverse of the removal
procedure.
Solenoid renewal
Brush renewal
2 Remove the brushes as shown (see
illustrations).
3 In some cases, the brushes will have wear
limit marks, in the form of a groove etched
along one face of each brush; when the
brushes are worn down to these marks, they
must be renewed. If no marks are provided,
measure the length of each brush, and
compare it with the minimum length given in
the Specifications Section of this Chapter. If
any brush is worn below this limit, renew the
brushes as a set. If the brushes are still
serviceable, clean them with a petrol-
6 Unscrew the nut, noting the lockwasher(s),
and disconnect the motor link from the
solenoid terminal.
7 Unscrew the two bolts securing the
solenoid to the motor drive end housing.
8 Release the solenoid plunger from the
starter engaging lever, then withdraw the
solenoid, noting the spring.
9 Refitting is the reverse of the removal
procedure. Clean the solenoid, its plunger and
the motor/solenoid mating surfaces carefully,
and lubricate the plunger/starter engaging
lever surfaces with a smear of grease.
9•1
Chapter 9 Braking system
Contents
ABS hydraulic unit - removal and refitting . . . . . . . . . . . . . . . . . . . . 20
ABS relay box - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . 22
ABS wheel sensor - testing, removal and refitting . . . . . . . . . . . . . . 21
Brake check . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 1
Brake fluid renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 1
Brake pedal - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Brake pedal-to-servo cross-link (right-hand-drive models
only) - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Front brake caliper - removal, overhaul and refitting . . . . . . . . . . . . 3
Front brake disc - inspection, removal and refitting . . . . . . . . . . . . . 4
Front brake pads - renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
General information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
Handbrake cables - removal and refitting . . . . . . . . . . . . . . . . . . . . . 27
Handbrake lever - removal and refitting . . . . . . . . . . . . . . . . . . . . . . 26
Hydraulic pipes and hoses - inspection, removal and refitting . . . . . 14
Hydraulic system - bleeding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Master cylinder - removal and refitting . . . . . . . . . . . . . . . . . . . . . . .
Pressure-control relief valve (ABS models) - removal and refitting . .
Pressure-control relief valve (non-ABS models) - removal
and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Rear brake caliper - removal, overhaul and refitting . . . . . . . . . . . . .
Rear brake disc - inspection, removal and refitting . . . . . . . . . . . . .
Rear brake drum - removal, inspection and refitting . . . . . . . . . . . . .
Rear brake pads - renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Rear brake shoes - renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Rear wheel cylinder - removal, overhaul and refitting . . . . . . . . . . . .
Stop-light switch - removal, refitting and adjustment . . . . . . . . . . . .
TCS inhibitor switch - removal and refitting . . . . . . . . . . . . . . . . . . .
TCS throttle actuator - removal and refitting . . . . . . . . . . . . . . . . . .
Vacuum servo unit - testing, removal and refitting . . . . . . . . . . . . . .
Vacuum servo unit vacuum hose and non-return valve removal, testing and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
11
19
18
9
10
5
8
6
7
25
23
24
16
17
Degrees of difficulty
Easy, suitable for
novice with little
experience
Fairly easy, suitable
for beginner with
some experience
Fairly difficult, suitable
for competent DIY
mechanic
Difficult, suitable for
experienced DIY
mechanic
Very difficult,
suitable for expert DIY
or professional
Specifications
Front brakes
Type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Disc diameter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Disc thickness:
New . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Minimum . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Maximum disc run-out (fitted) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Maximum disc thickness variation . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Front hub face maximum run-out . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Ventilated disc, with single-piston floating caliper
260.0 mm
24.15 mm
22.20 mm
0.15 mm
0.015 mm
0.05 mm
Rear drum brakes
Type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Drum diameter:
New:
1.6 Saloon/Hatchback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.8 and 2.0 Saloon/Hatchback . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Estate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Maximum diameter:
1.6 Saloon/Hatchback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.8 and 2.0 Saloon/Hatchback . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Estate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Leading and trailing shoes, with automatic adjusters
203.0 mm
228.6 mm
228.6 mm
204.2 mm
229.6 mm
229.6 mm
Rear disc brakes
Type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Disc diameter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Disc thickness:
New . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Minimum . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Maximum disc run-out (fitted) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Maximum disc thickness variation . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Rear hub face maximum run-out . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Solid disc, with single-piston floating caliper
252.0 mm
20.0 mm
18.0 mm
0.15 mm
0.015 mm
0.05 mm
9
9•2 Braking system
Torque wrench settings
Front caliper bracket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Rear caliper bracket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Front caliper guide bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Rear caliper guide bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Rear drum brake backplate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Vacuum servo unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Master cylinder . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
ABS hydraulic unit to bracket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Roadwheel nuts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1 General information
The braking system is of diagonally-split,
dual-circuit design, with ventilated discs at
the front, and drum or disc brakes (according
to model) at the rear. The front calipers are of
floating single-piston design, using asbestosfree pads. The rear drum brakes are of the
leading and trailing shoe type. They are selfadjusting during footbrake operation. The rear
brake shoe linings are of different
thicknesses, in order to allow for the different
proportional rates of wear.
Pressure-control relief (PCR) valves are
fitted to the rear brakes, to prevent rear wheel
lock-up under hard braking. The valves are
sometimes referred to as pressure-conscious
reducing valves. On non-ABS models, they
Nm
120
59
28
41
50
40
23
20
85
are fitted in the master cylinder rear brake
outlet ports; on ABS models, they are located
on the ABS unit.
When rear disc brakes are fitted, the rear
brake caliper is located on the front of the
knuckle on Saloon and Hatchback models,
and on the rear of the knuckle on Estate
models (see illustration).
The handbrake is cable-operated, and acts
on the rear brakes. On rear drum brake
models, the cables operate on the rear trailing
brake shoe operating levers, and on rear disc
brake models, they operate on levers on the
rear calipers. The handbrake lever
incorporates an automatic adjuster, which
removes any slack from the cables when the
lever is disengaged (see illustration).
Handbrake
lever
movement
remains
consistent at all times, and no adjustment is
necessary or possible.
Where fitted, the anti-lock braking system
(ABS) is of the four-channel low-pressure type
(see illustration). It uses the basic
conventional brake system, together with a
lbf ft
89
44
21
30
37
30
17
15
63
Bendix ABS hydraulic unit fitted between the
master cylinder and the four wheel brakes.
The hydraulic unit consists of a hydraulic
actuator, an ABS brake pressure pump, an
ABS module with built-in relay box, and two
pressure-control relief valves. Braking at each
of the four wheels is controlled by separate
solenoid valves in the hydraulic actuator. If
wheel lock-up is detected on a wheel when
the vehicle speed is above 3 mph, the valve
opens, releasing pressure to the relevant
brake, until the wheel regains a rotational
speed corresponding to the speed of the
vehicle. The cycle can be repeated many
times a second. In the event of a fault in the
ABS system, the conventional braking system
is not affected. Diagnosis of a fault in the ABS
system requires the use of special equipment,
and this work should therefore be left to a
Ford dealer. Diagnostic connectors are
located on the side of the left-hand front
suspension turret.
The traction control system (TCS) is fitted
as an option to some models, and uses the
1.1 Rear disc brake location on
Saloon/Hatchback models (A) and Estate
models (B)
1 Handbrake cable lever facing away from
caliper
2 Handbrake cable lever facing towards
caliper
3 Brake hose banjo bolt
4 Front of vehicle
1
2
3
4
1.2 Handbrake lever and associated components
Handbrake lever
5 Fine-toothed segment for the clock spring
Clock spring
6 Pawl for the clock spring
Handbrake cable
7 Underbody bracket
Toothed segment and pawl to lock the
handbrake lever
Braking system 9•3
1.3 Anti-lock Braking System (ABS) and Traction Control System (TCS) component locations (left-hand-drive shown,
right-hand-drive similar)
1 ABS/TCS unit
2 ABS/TCS warning lights
3 TCS switch
basic ABS system, with an additional pump
and valves fitted to the hydraulic actuator (see
illustration). If wheelspin is detected at a
speed below 30 mph, one of the valves
opens, to allow the pump to pressurise the
relevant brake, until the spinning wheel slows
to a rotational speed corresponding to the
speed of the vehicle. This has the effect of
transferring torque to the wheel with most
1.4 Solenoid valves fitted to the ABS/TCS
hydraulic actuator
1 ABS/TCS actuator
2 ABS solenoid valves
3 TCS solenoid valves
4 Rear wheel sensor ring location (drum
brakes left, disc brakes right)
5 Stop-light switch
6 Self-test/diagnosis connectors
7 Front wheel sensor and ring
8 Throttle actuator
traction. At the same time, the throttle plate is
closed slightly, to reduce the torque from the
engine. At speeds above 30 mph, the TCS
operates by throttle plate adjustment only.
brake assembly at a time, using the
assembled brake for reference if necessary.
3 Follow
the
accompanying
photos,
beginning with illustration 2.3A, for the pad
removal procedure. Be sure to stay in order,
and read the caption under each illustration.
4 Inspect the front brake disc for scoring and
cracks. If a detailed inspection is necessary,
refer to Section 4.
5 The piston must be pushed back into the
2 Front brake pads - renewal
Warning: Disc brake pads must
be renewed on both front wheels
at the same time - never renew
the pads on only one wheel, as
uneven braking may result. Although
genuine Ford linings are asbestos-free, the
dust created by wear of non-genuine pads
may contain asbestos, which is a health
hazard. Never blow it out with compressed
air, and don’t inhale any of it. DO NOT use
petroleum-based solvents to clean brake
parts; use brake cleaner or methylated
spirit only. DO NOT allow any brake fluid,
oil or grease to contact the brake pads or
disc. Also refer to the warning at the start
of Section 15 concerning brake fluid.
1 Apply the handbrake. Loosen the front
wheel nuts, jack up the front of the vehicle
and support it on axle stands.
2 Remove the front wheels. Work on one
9
2.3A Prise the retaining clip from the
caliper. Hold it with a pair of pliers, to
avoid personal injury. On models fitted
with pad wear sensors, it will be necessary
to disconnect the wiring
9•4 Braking system
2.3B Prise the plastic covers from the
ends of the two guide pins
2.3C Using a 7 mm Allen key, unscrew . . .
2.3D . . . and remove the guide bolts
securing the caliper to the carrier bracket
2.3E Withdraw the caliper from the disc,
and support it on an axle stand to avoid
straining the hydraulic hose. The outer pad
will normally remain in position against the
disc, but the inner pad will stay attached to
the piston in the caliper
2.3F Pull the inner pad from the piston in
the caliper
2.3G Remove the outer pad from the
caliper frame. Brush all dust and dirt from
the caliper, pads and disc, but do not
inhale it, as it may be harmful to health.
Scrape any corrosion from the disc.
caliper bore, to provide room for the new
brake pads. A C-clamp can be used to
accomplish this. As the piston is depressed to
the bottom of the caliper bore, the fluid in the
master cylinder will rise slightly. Make sure
that there is sufficient space in the brake fluid
reservoir to accept the displaced fluid, and if
necessary, syphon some off first.
6 Fit the new pads using a reversal of the
removal procedure, but tighten the guide
bolts to the torque wrench setting given in the
Specifications at the beginning of this
Chapter.
7 On completion, firmly depress the brake
3.2 Brake hose clamp fitted to the front
flexible brake hose
pedal a few times, to bring the pads to their
normal working position. Check the level of
the brake fluid in the reservoir, and top-up if
necessary.
8 Give the vehicle a short road test, to make
sure that the brakes are functioning correctly,
and to bed-in the new linings to the contours
of the disc. New linings will not provide
maximum braking efficiency until they have
bedded-in; avoid heavy braking as far as
possible for the first hundred miles or so.
3 Front brake caliper removal, overhaul and refitting
Note: Refer to the warning at the beginning of
the previous Section before proceeding.
3.3 Loosening the flexible brake hose at
the caliper
Removal
1 Apply the handbrake. Loosen the front
wheel nuts, jack up the front of the vehicle
and support it on axle stands. Remove the
appropriate front wheel.
2 Fit a brake hose clamp to the flexible hose
leading to the front brake caliper. This will
minimise brake fluid loss during subsequent
operations (see illustration).
3 Loosen (but do not completely unscrew) the
union on the caliper end of the flexible brake
hose (see illustration).
4 Remove the front brake pads as described
in Section 2.
3.6 Removing the caliper carrier bracket
Braking system 9•5
3.15 Tightening the carrier bracket
mounting bolts
4.4A Using a micrometer to measure the
thickness of the front brake disc
4.4B Disc minimum thickness marking
5 Support the caliper in one hand, and
prevent the hydraulic hose from turning with
the other hand. Unscrew the caliper from the
hose, making sure that the hose is not twisted
unduly or strained. Once the caliper is
detached, plug the open hydraulic unions in
the caliper and hose, to keep out dust and
dirt.
6 If required, the caliper carrier bracket can
be unbolted and removed from the steering
knuckle (see illustration).
13 Push the piston squarely into its bore.
14 Fit the dust-excluding rubber seal onto
the piston and caliper, then depress the
piston fully.
disc should be removed, and either reground
by a specialist, or renewed. If regrinding is
undertaken, the minimum thickness must be
maintained. Obviously, if the disc is cracked,
it must be renewed.
5 Using a dial gauge or a flat metal block and
feeler gauges, check that the disc run-out
10 mm from the outer edge does not exceed
the limit given in the Specifications. To do
this, fix the measuring equipment, and rotate
the disc, noting the variation in measurement
as the disc is rotated (see illustration). The
difference between the minimum and
maximum measurements recorded is the disc
run-out.
6 If the run-out is greater than the specified
amount, check for variations of the disc
thickness as follows. Mark the disc at eight
positions 45° apart, then using a micrometer,
measure the disc thickness at the eight
positions, 15 mm in from the outer edge. If the
variation between the minimum and maximum
readings is greater than the specified amount,
the disc should be renewed.
7 The hub face run-out can also be checked
in a similar way. First remove the disc as
described later in this Section, fix the
measuring equipment, then slowly rotate the
hub, and check that the run-out does not
exceed the amount given in the
Specifications. If the hub face run-out is
excessive, this should be corrected (by
renewing the hub bearings - see Chapter 10)
before rechecking the disc run-out.
Overhaul
7 With the caliper on the bench, brush away
all traces of dust and dirt, but take care not to
inhale any dust, as it may be injurious to
health.
8 Pull the dust-excluding rubber seal from the
end of the piston.
9 Apply low air pressure to the fluid inlet
union, and eject the piston. Only low air
pressure is required for this, such as is
produced by a foot-operated tyre pump.
Caution: The piston may be
ejected with some force.
Position a thin piece of wood
between the piston and the
caliper body, to prevent
damage to the end face of the
piston, in the event of it being ejected
suddenly.
10 Using a suitable blunt instrument (for
instance a knitting needle or a crochet hook),
prise the piston seal from the groove in the
cylinder bore. Take care not to scratch the
surface of the bore.
11 Clean the piston and caliper body with
methylated spirit, and allow to dry. Examine the
surfaces of the piston and cylinder bore for wear,
damage and corrosion. If the piston alone is
unserviceable, a new piston must be obtained,
along with seals. If the cylinder bore is
unserviceable, the complete caliper must be
renewed. The seals must be renewed, regardless
of the condition of the other components.
12 Coat the piston and seals with clean
brake fluid, then manipulate the piston seal
into the groove in the cylinder bore.
Refitting
15 Refit the caliper, and where applicable the
carrier bracket, by reversing the removal
operations. Make sure that the flexible brake
hose is not twisted. Tighten the mounting
bolts and wheel nuts to the specified torque
(see illustration).
16 Bleed the brake circuit according to the
procedure given in Section 15, remembering
to remove the brake hose clamp from the
flexible hose. Make sure there are no leaks
from the hose connections. Test the brakes
carefully before returning the vehicle to
normal service.
4 Front brake disc - inspection,
removal and refitting
Note: To prevent uneven braking, BOTH front
brake discs should be renewed or reground at
the same time.
Inspection
1 Apply the handbrake. Loosen the relevant
wheel nuts, jack up the front of the vehicle
and support it on axle stands. Remove the
wheel.
2 Remove the front brake caliper and carrier
bracket with reference to Section 3, but do
not disconnect the flexible hose. Support the
caliper on an axle stand, or suspend it out of
the way with a piece of wire, taking care to
avoid straining the flexible hose.
3 Temporarily refit two of the wheel nuts to
diagonally-opposite studs, with the flat sides
of the nuts against the disc. Tighten the nuts
progressively, to hold the disc firmly.
4 Scrape any corrosion from the disc. Rotate
the disc, and examine it for deep scoring,
grooving or cracks. Using a micrometer,
measure the thickness of the disc in several
places. The minimum thickness is stamped on
the disc hub (see illustrations). Light wear
and scoring is normal, but if excessive, the
9
4.5 Measuring the disc run-out with a dial
gauge
9•6 Braking system
Make sure that the drum contacts the hub
flange.
7 Refit the wheel, then check the remaining
rear drum.
8 Lower the vehicle to the ground, and
tighten the wheel nuts to the specified torque.
Depress the brake pedal several times, in
order to operate the self-adjusting mechanism
and set the shoes at their normal operating
position.
9 Test the brakes carefully before returning
the vehicle to normal service.
4.10A Remove the special washers . . .
Removal
8 With the wheel and caliper removed,
remove the wheel nuts which were
temporarily refitted in paragraph 3.
9 Mark the disc in relation to the hub, if it is to
be refitted.
10 Remove the two special washers (where
fitted), and withdraw the disc over the wheel
studs (see illustrations).
Refitting
11 Make sure that the disc and hub mating
surfaces are clean, then locate the disc on the
wheel studs. Align the previously-made marks
if the original disc is being refitted.
12 Refit the two special washers, where
fitted.
13 Refit the brake caliper and carrier bracket
with reference to Section 3.
14 Refit the wheel, and lower the vehicle to
the ground.
15 Test the brakes carefully before returning
the vehicle to normal service.
4.10B . . . and withdraw the disc
Loosen the relevant wheel nuts, jack up the
rear of the vehicle and support it on axle
stands. Remove the wheel.
2 Remove the two special clips (where fitted),
and withdraw the brake drum over the wheel
studs. If the drum will not pass over the
shoes, it is possible to release the automatic
adjuster mechanism by prising out the small
rubber grommet near the centre of the
backplate, and inserting a screwdriver
through the small hole. The self-adjusting
ratchet can then be rotated, so that the brake
shoes move to their lowest setting (see
illustrations). Refit the rubber grommet
before proceeding.
3 With the brake drum removed, clean the
dust from the drum, brake shoes, wheel
cylinder and backplate, using brake cleaner or
methylated spirit. Take care not to inhale the
dust, as it may contain asbestos.
Inspection
Note: To prevent uneven braking, BOTH rear
brake drums should be renewed at the same
time.
4 Clean the inside surfaces of the brake
drum, then examine the internal friction
surface for signs of scoring or cracks. If it is
cracked, deeply scored, or has worn to a
diameter greater than the maximum given in
the Specifications, then it should be renewed,
together with the drum on the other side.
5 Regrinding of the brake drum is not
recommended.
Removal
Refitting
1 Chock the front wheels, release the
handbrake and engage 1st gear (or “P”).
6 Locate the brake drum over the wheel
studs, and (where fitted) refit the special clips.
5 Rear brake drum - removal,
inspection and refitting
5.2A Releasing the automatic adjuster
mechanism with a screwdriver inserted
through the small hole in the backplate
5.2B Removing a rear brake drum
6 Rear brake shoes - renewal
Warning: Drum brake shoes must
be renewed on both rear wheels
at the same time - never renew
the shoes on only one wheel, as
uneven braking may result. Also, the dust
created by wear of the shoes may contain
asbestos, which is a health hazard. Never
blow it out with compressed air, and don’t
inhale any of it. An approved filtering mask
should be worn when working on the
brakes. DO NOT use petroleum-based
solvents to clean brake parts; use brake
cleaner or methylated spirit only.
1 Remove the rear brake drums as described
in Section 5. Work on one brake assembly at a
time, using the assembled brake for reference
if necessary.
2 Follow the accompanying illustrations for
the brake shoe renewal procedure (see
illustrations 6.2A to 6.2O). Be sure to stay in
order, and read the caption under each
illustration.
3 If the wheel cylinder shows signs of fluid
leakage, or if there is any reason to suspect it
of being defective, inspect it now, as
described in the next Section.
4 Fit the new brake shoes using a reversal of
the removal procedure, but set the eccentric
cam at its lowest position before assembling it
to the trailing shoe.
5 Before refitting the brake drum, it should be
checked as described in Section 5.
6.2A Note the fitted position of the springs
and the adjuster strut, then clean the
components with brake cleaner, and allow
to dry. Position a tray beneath the
backplate, to catch the fluid and residue
Braking system 9•7
6.2B Remove the two shoe hold-down
springs, using a pair of pliers to depress
the upper ends so that they can be
withdrawn downwards off the pins
6.2C Remove the hold-down pins from the
backplate
6.2D Pull the bottom end of the leading
(front) brake shoe from the bottom anchor
(use pliers or an adjustable spanner over
the edge of the shoe to lever it away)
6.2E Release the trailing (rear) brake shoe
from the anchor, then move the bottom
ends of both shoes towards each other
6.2F Unhook the lower return spring from
the shoes, noting the location holes
6.2G Move the bottom ends of the brake
shoes together, and disconnect the top
ends of the shoes from the wheel cylinder,
taking care not to damage the rubber boots
6.2H Unhook the upper return spring from
the shoes . . .
6.2I . . . and withdraw the leading shoe
from the backplate
6.2J To prevent the wheel cylinder pistons
from being accidentally ejected, fit a
suitable elastic band or wire lengthwise
over the cylinder/pistons. Don’t press the
brake pedal while the shoes are removed
9
6.2K Pull the handbrake cable spring back
from the operating lever on the rear of the
trailing shoe. Unhook the cable end from the
cut-out in the lever, and remove the shoe
6.2L Unhook the automatic adjustment
strut from the trailing brake shoe . . .
6.2M . . . and remove the small spring
9•8 Braking system
6.2N Clean the backplate, and apply small
amounts of high-melting-point brake
grease to the brake shoe contact points.
Be careful not to get grease on any friction
surfaces
6.2O Lubricate the sliding components of
the automatic adjuster with a little highmelting-point brake grease, but leave the
serrations on the eccentric cam shown
here clean
6 With the drum in position, refit the wheel,
then carry out the renewal procedure on the
remaining rear brake.
7 Lower the vehicle to the ground, and
tighten the wheel nuts.
8 Depress the brake pedal several times, in
order to operate the self-adjusting mechanism
and set the shoes at their normal operating
position.
9 Make several forward and reverse stops,
and operate the handbrake fully two or three
times. Give the vehicle a road test, to make
sure that the brakes are functioning correctly,
and to bed-in the new linings to the contours
of the disc. Remember that the new linings
will not give full braking efficiency until they
have bedded-in.
5 Unscrew the two bolts securing the wheel
cylinder to the backplate (see illustration).
6 Withdraw the wheel cylinder from the
backplate so that it is clear of the brake
shoes. Plug the open hydraulic unions, to
prevent the entry of dirt, and to minimise
further fluid loss whilst the cylinder is
detached.
7 Rear wheel cylinder removal, overhaul and refitting
Note: Before starting work, check on the
availability of parts (overhaul kit of seals). Also
bear in mind that if the brake shoes have been
contaminated by fluid leaking from the wheel
cylinder, they must be renewed. In principle,
the shoes on BOTH sides of the vehicle must
be renewed, even if they are only
contaminated on one side.
Removal
1 Remove the brake drum as described in
Section 5.
2 Minimise fluid loss either by removing the
master cylinder reservoir cap, and then
tightening it down onto a piece of polythene
to obtain an airtight seal, or by using a brake
hose clamp, a G-clamp, or similar tool, to
clamp the flexible hose at the nearest
convenient point to the wheel cylinder.
3 Pull the brake shoes apart at their top ends,
so that they are just clear of the wheel
cylinder. The automatic adjuster will hold the
shoes in this position, so that the cylinder can
be withdrawn.
4 Wipe away all traces of dirt around the
hydraulic union at the rear of the wheel
cylinder, then undo the union nut.
Overhaul
7 Clean the external surfaces of the cylinder,
and unscrew the bleed screw.
8 Carefully prise off the dust cover from each
end of the cylinder.
9 Tap the wheel cylinder on a block of wood
to eject the pistons and seals, keeping them
identified for location. Finally remove the
spring.
10 Clean the pistons and the cylinder by
washing in methylated spirit or fresh hydraulic
fluid. Do not use petrol, paraffin or any other
mineral-based fluid. Remove and discard the
old seals, noting which way round they are
fitted.
11 Examine the surfaces of the pistons and
the cylinder bores, and look for any signs of
rust or scoring. If such damage is evident, the
complete wheel cylinder must be renewed.
12 Reassemble by lubricating the first piston
in clean hydraulic fluid, then manipulating a
new seal into position, so that its raised lip
faces away from the brake shoe bearing face
of the piston.
13 Insert the piston into the cylinder. As the
seal enters the bore, twist the piston back and
forth so that the seal lip is not trapped.
14 Insert the spring, then refit the remaining
piston and seal, again making sure that the
seal lip is not trapped as it enters the bore.
15 Fit new dust covers to the grooves in the
pistons and wheel cylinder body.
16 Refit the bleed screw.
Refitting
17 Wipe clean the backplate, and remove the
plug from the end of the hydraulic pipe. Fit the
cylinder onto the backplate, and screw in the
hydraulic union nut by hand, being careful not
to cross-thread it.
7.5 Bolts securing the wheel cylinder to
the backplate. Hydraulic union nut and
bleed screw cover are also visible
18 Tighten the mounting bolts, then fully
tighten the hydraulic union nut.
19 Retract the automatic brake adjuster
mechanism, so that the brake shoes engage
with the pistons of the wheel cylinder. To do
this, prise the shoes apart slightly, turn the
automatic adjuster to its minimum position,
and release the shoes.
20 Remove the clamp from the flexible brake
hose, or the polythene from the master
cylinder (as applicable).
21 Refit the brake drum with reference to
Section 5.
22 Bleed the brake hydraulic system as
described in Section 15. Providing suitable
precautions were taken to minimise loss of
fluid, it should only be necessary to bleed the
relevant rear brake.
23 Test the brakes carefully before returning
the vehicle to normal service.
8 Rear brake pads - renewal
Warning: Disc brake pads must
be renewed on BOTH rear wheels
at the same time - never renew
the pads on only one wheel, as
uneven braking may result. Although
genuine Ford linings are asbestos-free, the
dust created by wear of non-genuine pads
may contain asbestos, which is a health
hazard. Never blow it out with compressed
air, and don’t inhale any of it. DO NOT use
petroleum-based solvents to clean brake
parts; use brake cleaner or methylated
spirit only. DO NOT allow any brake fluid,
oil or grease to contact the brake pads or
disc.
1 Chock the front wheels, and engage 1st
gear (or “P”). Loosen the rear wheel nuts, jack
up the rear of the vehicle and support it on
axle stands.
2 Remove the rear wheels. Work on one
brake assembly at a time, using the
assembled brake for reference if necessary.
3 Inspect the rear brake disc as described in
Section 10.
4 Extract the spring clip, and pull out the
retaining pin securing the caliper to the carrier
Braking system 9•9
bracket. Note that on Saloon and Hatchback
models, the pin is at the bottom of the caliper,
whereas on Estate models, it is at the top.
5 Swivel the caliper away from the carrier
bracket, to expose the brake pads (see
illustrations).
6 Disconnect the pad wear warning light wire
(when fitted) at the connector. Also unbolt the
brake hose bracket from the rear suspension
strut, to avoid straining the flexible hose.
7 If necessary, the caliper may be completely
removed by prising off the cap and
unscrewing the pivot guide bolt. Support the
caliper on an axle stand, or tie it to one side
with wire.
8 Remove the pads from the carrier bracket.
9 Brush all dust and dirt from the caliper,
pads and disc, but do not inhale it, as it may
be harmful to health. Scrape any corrosion
from the disc.
10 Before fitting the new pads, screw the
caliper piston fully into its bore, at the same
time pressing the piston fully to the bottom of
the bore. Proprietary tools are available for
this operation - at a pinch, it may be possible
to use long-nosed pliers engaged with the
cut-outs in the piston. Brake fluid will be
displaced into the master cylinder reservoir,
so check first that there is enough space to
accept the fluid. If necessary, syphon off
some of the fluid.
11 Fit the new pads using a reversal of the
removal procedure. On completion, firmly
depress the brake pedal a few times, to bring
the pads to their normal working position.
Check the level of the brake fluid in the
reservoir, and top-up if necessary.
12 Give the vehicle a road test, to make sure
that the brakes are functioning correctly, and
to bed-in the new linings to the contours of
the disc. Remember that full braking
efficiency will not be obtained until the new
linings have bedded-in.
8.5A Rear brake pad removal on Saloon
and Hatchback models
4 Brake caliper
8.5B Rear brake pad removal on Estate
models
5 Brake pads
6 Support the caliper and disconnect the
hydraulic hose, making sure that the hose is
not twisted or strained unduly. Once the
caliper is detached, place it to one side, and
plug the open hydraulic unions to keep dust
and dirt out.
7 If necessary, unbolt the carrier bracket from
the knuckle.
3 Brake caliper
5 Brake pads
Overhaul
8 No overhaul procedures were available at
the time of writing, so check availability of
spares before dismantling the caliper. In
principle, the overhaul information given for
the front brake caliper will apply, noting that it
will be necessary to unscrew the piston from
the handbrake mechanism (see Section 8,
paragraph 10) before being able to expel the
piston from the caliper. On reassembly, push
the piston fully into the caliper, and screw it
back onto the handbrake mechanism. Do not
attempt to dismantle the handbrake
mechanism; if the mechanism is faulty, the
complete caliper assembly must be renewed.
Refitting
9 Refit the caliper, and where applicable the
carrier bracket, by reversing the removal
operations. Tighten the mounting bolts and
wheel nuts to the specified torque, and do not
forget to remove the brake hose clamp from
the flexible brake hose.
9 Rear brake caliper - removal,
overhaul and refitting
Removal
1 Chock the front wheels, and engage 1st
gear (or “P”). Loosen the rear wheel nuts, jack
up the rear of the vehicle and support it on
axle stands. Remove the appropriate rear
wheel.
2 Fit a brake hose clamp to the flexible hose
leading to the rear brake caliper. This will
minimise brake fluid loss during subsequent
operations.
3 Loosen (but do not completely unscrew) the
union on the caliper end of the flexible hose.
4 Remove the rear brake pads, and free the
caliper as described in Section 8.
5 Disconnect the handbrake cable from the
caliper. On Saloon and Hatchback models,
the handbrake lever faces away from the
caliper, whereas on Estate models, it faces
towards the caliper (see illustrations).
9.5A Rear brake caliper on
Saloon/Hatchback models (A) and Estate
models (B)
1
2
3
4
5
6
7
8
9
Caliper body
Frame
Brake pad spring clip
Handbrake cable lever facing away from
caliper
Handbrake cable lever facing towards
caliper
Bleed screw
Guide pin protective cap
Pad wear warning light connector
Flexible hydraulic hose connection
9
9.5B Handbrake operation on the rear
brake caliper
1
2
3
4
5
Piston
Automatic adjusting screw
Spring washers
Cam
Handbrake cable lever
9•10 Braking system
11.1 Brake fluid reservoir and low level
warning light multi-plug
10 Bleed the brake circuit according to the
procedure given in Section 15. Make sure
there are no leaks from the hose connections.
Test the brakes carefully before returning the
vehicle to normal service.
10 Rear brake disc - inspection,
removal and refitting
Refer to Section 4 (front disc inspection).
Once the rear caliper is removed, the
procedure is the same.
11 Master cylinder removal and refitting
Removal
1 Disconnect the low fluid level warning light
multi-plug from the fluid reservoir filler cap
(see illustration). Unscrew and remove the
cap (note that the filler cap should not be
inverted). Draw off the hydraulic fluid from the
reservoir, using an old battery hydrometer or a
poultry baster. Do not syphon the fluid by
mouth; it is poisonous. Any brake fluid spilt on
paintwork should be washed off with clean
water, without delay - brake fluid is also a
highly-effective paint-stripper!
2 Identify the locations of each brake pipe on
the master cylinder. On non-ABS models,
there are four pipes; the two rear brake pipes
are attached to PCR (pressure-conscious
12.3 Removing the hairpin clip from the
right-hand end of the brake pedal pivot shaft
A
B
1
2
Non-ABS models
ABS models
Brake fluid reservoir
Master cylinder
11.2 Master cylinder connections
3 PCR valves for rear brakes
4 Primary brake hydraulic circuit (front right/rear left)
5 Secondary brake hydraulic circuit (front left/rear right)
relief) valves on the master cylinder. On ABS
models, there are only two pipes, which lead
to the ABS hydraulic unit (see illustration).
3 Place rags beneath the master cylinder to
catch spilt hydraulic fluid.
4 Clean around the hydraulic union nuts.
Unscrew the nuts, and disconnect the
hydraulic lines from the master cylinder.
5 Unscrew the mounting nuts, and withdraw
the master cylinder from the studs on the front
of the servo unit. If the nuts are tight, a split
ring spanner should be used in preference to
an open-ended spanner. Plug or cap open
unions, to keep dust and dirt out.
6 Recover the gasket from the master cylinder.
7 If the master cylinder is faulty, it must be
renewed. At the time of writing, no overhaul
kits were available.
the union nuts. Make sure that the nuts enter
their threads correctly.
12 Fill the reservoir with fresh brake fluid.
13 Bleed the hydraulic system as described
in Section 15.
14 Refit the reservoir filler cap, and reconnect
the multi-plug for the low fluid level warning
light.
15 Test the brakes carefully before returning
the vehicle to normal service.
12 Brake pedal removal and refitting
Removal
8 Clean the contact surfaces of the master
cylinder and servo.
9 Locate a new gasket on the master cylinder.
10 Position the master cylinder on the studs
on the servo unit. Refit and tighten the nuts to
the specified torque.
11 Carefully insert the hydraulic lines in the
apertures in the master cylinder, then tighten
1 Working inside the vehicle, move the
driver’s seat fully to the rear, to allow
maximum working area.
2 Remove the ashtray, then unscrew the
screws and remove the lower facia panel.
3 Prise the hairpin clip from the right-hand
end of the pedal pivot shaft, and remove the
washer (see illustration).
4 Unscrew the nut securing the pedal
trunnion to the pushrod. The nut is located
near the top of the pedal (see illustrations).
12.4A Unscrew the nut securing the pedal
trunnion to the pushrod . . .
12.4B . . . and remove the tube from the
pushrod
Refitting
Braking system 9•11
5 Press the pedal pivot shaft to the left,
through the mounting bracket, just far enough
to allow the pedal to be withdrawn. On
manual transmission models, leave the blue
nylon spacer (located between the clutch and
brake pedals) on the pivot shaft (see
illustration). On automatic transmission
models, the shaft can be removed completely
(see illustration).
6 With the pedal removed, prise out the
bushes from each side. If necessary, also
remove the pushrod trunnion and the rubber
pad. Renew the components as necessary
(see illustrations).
Refitting
7 Prior to refitting the pedal, apply a little
grease to the pivot shaft, pedal bushes and
trunnion.
8 Refitting is a reversal of the removal
procedure, but make sure that the pedal
bushes are correctly located, and that the
pedal shaft “D” section locates in the righthand side of the pedal bracket. Also make
sure that the hairpin clip is correctly
located.
13 Brake pedal-to-servo crosslink (right-hand-drive models
only) - removal and refitting
12.5A Leave the nylon spacer (arrowed) in
position on the pivot shaft (left-hand-drive
model shown, right-hand-drive similar)
hold the bolt heads from inside the engine
compartment while the nuts are being
loosened.
6 Clean the cross-link components, and
examine the bushes for wear. Renew the
bushes if necessary.
Refitting
7 Refitting is a reversal of the removal
procedure. Refer to Sections 11 and 16 when
refitting the master cylinder and vacuum servo
unit.
14 Hydraulic pipes and hoses inspection, removal and
refitting
Removal
1 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1).
2 Remove the master cylinder and the
vacuum servo unit as described in Sections 11 and 16. If wished, the master cylinder
may be left attached to the servo unit.
3 Working
inside
the
passenger
compartment, fold down the covering from
the front of both front footwells.
4 Have an assistant support the cross-link
assembly
from
inside
the
engine
compartment.
5 Unscrew and remove the nuts and bolts on
each side of the bulkhead, and remove the
link assembly from inside the engine
compartment. If necessary, have the assistant
Inspection
1 Jack up the front and rear of the vehicle,
and support on axle stands.
2 Check for signs of leakage at the pipe
unions, then examine the flexible hoses for
signs of cracking, chafing and fraying.
3 The brake pipes should be examined
carefully for signs of dents, corrosion or other
damage. Corrosion should be scraped off,
and if the depth of pitting is significant, the
pipes renewed. This is particularly likely in
those areas underneath the vehicle body
where the pipes are exposed and
unprotected.
4 Renew any defective brake pipes and/or
hoses.
12.5B Brake pedal components automatic transmission models
1 Pedal
2 Rubber pad
3 Pivot shaft 5 Washer
4 Bush
6 Hairpin clip
Removal
5 If a section of pipe or hose is to be
removed, loss of brake fluid can be reduced
by unscrewing the filler cap, and completely
sealing the top of the reservoir with cling film
or adhesive tape. Alternatively, the reservoir
can be emptied (see Section 11).
If any brake fluid is spilt onto
the bodywork, it must be
washed off without delay brake fluid is also a highlyeffective paint-stripper!
6 To remove a section of pipe, hold the
adjoining hose union nut with a spanner to
prevent it from turning, then unscrew the
union nut at the end of the pipe, and release it.
9
12.6A Prise out the bushes . . .
12.6B . . . from each side of the pedal . . .
12.6C . . . and remove the pushrod
trunnion
9•12 Braking system
Refitting
10 Refitting of the pipes and hoses is a
reversal of removal. Make sure that all brake
pipes are securely supported in their clips,
and ensure that the hoses are not kinked.
Check also that the hoses are clear of all
suspension components and underbody
fittings, and will remain clear during
movement of the suspension and steering.
11 On completion, bleed the brake hydraulic
system as described in Section 15.
14.6A Unscrewing a brake pipe union nut
using a split ring spanner
14.6B Pulling out a brake pipe mounting
clip
Repeat the procedure at the other end of the
pipe, then release the pipe by pulling out the
clips attaching it to the body (see
illustrations). Where the union nuts are
exposed to the full force of the weather, they
can sometimes be quite tight. If an openended spanner is used, burring of the flats on
the nuts is not uncommon, and for this
reason, it is preferable to use a split ring
(brake) spanner, which will engage all the
flats. If such a spanner is not available, selflocking grips may be used as a last resort;
these may well damage the nuts, but if the
pipe is to be renewed, this does not matter.
7 To further minimise the loss of fluid when
disconnecting a flexible brake line from a rigid
pipe, clamp the hose as near as possible to
the pipe to be detached, using a brake hose
clamp or a pair of self-locking grips with
protected jaws.
8 To remove a flexible hose, first clean the
ends of the hose and the surrounding area,
then unscrew the union nuts from the hose
ends. Recover the spring clip, and withdraw
the hose from the serrated mounting in the
support bracket. Where applicable, unscrew
the hose from the caliper.
9 Brake pipes supplied with flared ends and
union nuts can be obtained individually or in
sets from Ford dealers or accessory shops.
The pipe is then bent to shape, using the old
pipe as a guide, and is ready for fitting. Be
careful not to kink or crimp the pipe when
bending it; ideally, a proper pipe-bending tool
should be used.
15 Hydraulic system - bleeding
Warning: Brake fluid is
poisonous. Take care to keep it
off bare skin, and in particular
not to get splashes in your eyes.
The fluid also attacks paintwork - wash off
spillages immediately with cold water.
1 If the master cylinder has been
disconnected and reconnected, then the
complete system (both circuits) must be bled
of air. If a component of one circuit has been
disturbed, then only that particular circuit
need be bled.
2 Bleeding should commence on one front
brake, followed by the diagonally-opposite
rear brake. The remaining front brake should
then be bled, followed by its diagonallyopposite rear brake.
3 There are a variety of do-it-yourself “oneman” brake bleeding kits available from motor
accessory shops, and it is recommended that
one of these kits be used wherever possible,
as they greatly simplify the brake bleeding
operation. Follow the kit manufacturer’s
instructions in conjunction with the following
procedure. If a pressure-bleeding kit is
obtained, then it will not be necessary to
depress the brake pedal in the following
procedure.
4 During the bleeding operation, do not allow
the brake fluid level in the reservoir to drop
below the minimum mark. If the level is
allowed to fall so far that air is drawn in, the
whole procedure will have to be started again
from scratch. Only use new fluid for toppingup, preferably from a freshly-opened
container. Never re-use fluid bled from the
system.
5 Before starting, check that all rigid pipes
and flexible hoses are in good condition, and
that all hydraulic unions are tight. Take great
care not to allow hydraulic fluid to come into
contact with the vehicle paintwork, otherwise
the finish will be seriously damaged. Wash off
any spilt fluid immediately with cold water.
6 If a brake bleeding kit is not being used,
gather together a clean jar, a length of plastic
or rubber tubing which is a tight fit over the
bleed screw, and a new can of the specified
brake fluid (see Chapter 1 Specifications). The
help of an assistant will also be required.
7 Clean the area around the bleed screw on
the front brake unit to be bled (it is important
that no dirt be allowed to enter the hydraulic
system), and remove the dust cap. Connect
one end of the tubing to the bleed screw, and
immerse the other end in the jar, which should
be filled with sufficient brake fluid to keep the
end of the tube submerged.
8 Open the bleed screw by one or two turns,
and have the assistant depress the brake
pedal to the floor. Tighten the bleed screw at
the end of the downstroke, then have the
assistant release the pedal. Continue this
procedure until clean brake fluid, free from air
bubbles, can be seen flowing into the jar.
Finally tighten the bleed screw with the pedal
in the fully-depressed position.
9 Remove the tube, and refit the dust cap.
Top-up the master cylinder reservoir if
necessary, then repeat the procedure on the
diagonally-opposite rear brake.
10 Repeat the procedure on the remaining
circuit, starting with the front brake, and
followed by the diagonally-opposite rear
brake.
11 Check the feel of the brake pedal - it
should be firm. If it is spongy, there is still
some air in the system, and the bleeding
procedure should be repeated.
12 When bleeding is complete, top-up the
master cylinder reservoir and refit the cap.
16 Vacuum servo unit testing, removal and refitting
Testing
1 To test the operation of the servo unit,
depress the footbrake four or five times to
dissipate the vacuum, then start the engine
while keeping the footbrake depressed. As
the engine starts, there should be a noticeable
“give” in the brake pedal as vacuum builds
up. Allow the engine to run for at least two
minutes, and then switch it off. If the brake
pedal is now depressed again, it should be
possible to hear a hiss from the servo when
the pedal is depressed. After four or five
applications, no further hissing should be
heard, and the pedal should feel harder.
2 Before assuming that a problem exists in
the servo unit itself, inspect the non-return
valve as described in the next Section.
Removal
3 Refer to Section 11 and remove the master
cylinder.
4 Disconnect the vacuum hose adaptor at the
servo unit by pulling it free from the rubber
grommet. If it is reluctant to move, prise it
free, using a screwdriver with its blade
inserted under the flange.
5 Unscrew the four nuts securing the servo
unit to the mounting brackets on the bulkhead
in the engine compartment.
6 On right-hand drive models, withdraw the
servo unit so that its studs are just clear of the
brackets. Have an assistant hold the brake
pedal depressed, then extract the spring clip
Braking system 9•13
and remove the clevis pin securing the servo
unit pushrod to the pedal cross-link arm.
7 On left-hand drive models, unscrew the nut
securing the pedal trunnion to the servo unit
pushrod inside the passenger compartment.
The nut is located near the top of the pedal,
and is accessible through an access hole. For
improved access, remove the lower facia
panel first.
8 Withdraw the servo unit from the bulkhead,
and remove it from the engine compartment.
On left-hand drive models, take care not to
damage the bulkhead rubber grommet as the
pushrod passes through it.
9 Note that the servo unit cannot be
dismantled for repair or overhaul and, if faulty,
must be renewed.
Refitting
10 Refitting is a reversal of the removal
procedure. Refer to Section 11 for details of
refitting the master cylinder.
17 Vacuum servo unit vacuum
hose and non-return valve removal, testing and refitting
Removal
1 Depress the brake pedal four or five times,
to dissipate any remaining vacuum from the
servo unit.
2 Disconnect the vacuum hose adaptor at the
servo unit, by pulling it free from the rubber
grommet (see illustration). If it is reluctant to
move, prise it free, using a screwdriver with its
blade inserted under the flange.
3 Detach the vacuum hose from the inlet
manifold connection, pressing in the collar to
disengage the tabs, then withdrawing the
collar slowly.
4 If the hose or the fixings are damaged or in
poor condition, they must be renewed.
Refitting
6 Refitting is a reversal of the removal
procedure. If fitting a new non-return valve,
ensure that it is fitted the correct way round.
18 Pressure-control relief valve
(non-ABS models) removal and refitting
Removal
1 On non-ABS models, the two pressurecontrol relief valves (sometimes referred to as
pressure-conscious reducing valves) are
located on the master cylinder outlets to the
rear brake line circuits.
2 Unscrew and remove the fluid reservoir filler
cap, and draw off the fluid - see Section 11.
3 Position some rags beneath the master
cylinder, to catch any spilled fluid.
4 Clean around the valve to be removed.
Hold the PCR valve stationary with one
spanner, and unscrew the hydraulic pipe
union nut with another spanner. Pull out the
pipe, and bend it slightly away from the valve.
5 Unscrew the PCR valve from the master
cylinder.
6 Note that the primary and secondary PCR
valves have different thread diameters, to
prevent incorrect fitment. The primary valve
has a 12 mm diameter thread, and the
secondary valve has a 10 mm diameter thread
(see illustration).
Refitting
7 Refitting is a reversal of the removal
procedure. On completion, bleed the
hydraulic system as described in Section 15.
18.6 Pressure-control relief valve
locations
1 Primary PCR valve (12 mm)
2 Secondary PCR valve (10 mm)
compartment, to rest against the left-hand
suspension turret. (Throughout this manual,
left- and right-hand are as seen from the
driver’s seat.)
8 Unscrew the servo unit mounting nuts, and
move the unit to one side.
9 Position some rags beneath the ABS unit,
to catch spilled fluid.
10 Clean around the valve to be removed.
Hold the PCR valve stationary with one
spanner, and unscrew the hydraulic pipe
union nut with another spanner. Pull out the
pipe, and bend it slightly away from the valve.
11 Unscrew the PCR valve from the ABS
unit.
Refitting
12 Refitting is a reversal of the removal
procedure. On completion, bleed the
hydraulic system as described in Section 15.
19 Pressure-control relief valve
(ABS models) removal and refitting
Testing
5 Examine the non-return valve for damage
and signs of deterioration, and renew it if
necessary. The valve may be tested by
blowing through its connecting hoses in both
directions. It should only be possible to blow
from the servo end towards the inlet manifold.
17.2 Removing the plastic adaptor from
the servo unit
Removal
1 On ABS models, the pressure-control relief
valves are located on the ABS hydraulic unit
(see illustration).
2 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1).
3 Remove the air cleaner assembly as
described in Chapter 4.
4 Remove the engine air inlet duct and air
plenum chamber.
5 Disconnect the low fluid level warning
multi-plug from the brake fluid reservoir.
6 Unscrew and remove the brake fluid
reservoir filler cap, and completely seal the
top of the reservoir using cling film or
adhesive tape. This will reduce loss of fluid
when the PCR valve is removed.
7 Unscrew the master cylinder mounting
nuts, and carefully withdraw the cylinder from
the servo unit, leaving the brake pipes still
connected to it. Move the master cylinder
over to the left-hand side of the engine
9
19.1 Pressure-control relief valve locations
on the ABS hydraulic unit
1 PCR valve, rear right brake circuit
2 Outlet, front left brake circuit
3 Inlet, from brake master cylinder secondary
circuit
4 PCR valve, rear left brake circuit
5 Outlet, front right brake circuit
6 Inlet, from brake master cylinder primary
circuit
9•14 Braking system
20 ABS hydraulic unit removal and refitting
Note: If any part of the ABS hydraulic unit is
defective, it must be renewed as an assembly.
Apart from the relay box (Section 22),
individual spare parts are not available.
Removal
1 Remove both pressure-control relief valves
as described in Section 19.
2 Identify the location of the remaining brake
hydraulic pipes on the ABS hydraulic unit,
then unscrew the union nuts and pull out the
pipes. Carefully bend the pipes away from the
hydraulic unit, to allow the unit to be removed.
3 Disconnect the multi-plugs from the
hydraulic unit. To disconnect the main 22-pin
multi-plug, push the locktab, then swivel the
multi-plug outwards and unhook it.
Right-hand drive models
4 Have an assistant hold the brake pedal
depressed, then extract the spring clip and
remove the clevis pin securing the servo unit
pushrod to the pedal cross-link arm.
5 Remove the vacuum servo unit from the
engine compartment.
Left-hand drive models
6 Unscrew the nut securing the pedal
trunnion to the servo unit pushrod inside the
passenger compartment. The nut is located
near the top of the pedal, and is accessible
through an access hole. For improved access,
remove the lower facia panel first.
7 Remove the vacuum servo unit, together
with the pushrod, from the engine
compartment. Take care not to damage the
rubber grommet in the bulkhead.
All models
8 Unscrew the pump mounting nut.
9 Raise the left-hand side of the ABS
hydraulic unit, then swivel the unit out of the
right-hand mounting. Take care not to lose the
bracket studs and insulator ring.
Refitting
10 Locate the insulator ring on the pump
end, and fit the stud cap to the insulator ring.
11 Lower the ABS hydraulic unit into
position, right-hand end first.
12 Fit the right-hand bracket studs onto the
insulators.
13 Lower the left-hand end of the ABS
hydraulic unit onto the bracket, then fit and
tighten the pump mounting nut.
21.4 Unscrew the mounting bolt and
remove the ABS sensor
Right-hand drive models
17 Locate the vacuum servo unit and
pushrod on the bulkhead bracket.
18 Refit the clevis pin and spring clip
securing the servo unit pushrod to the pedal
cross-link arm.
All models
19 Reconnect the multi-plugs to the
hydraulic unit.
20 Reconnect the brake pipes to the
hydraulic unit, and tighten the union nuts.
21 Refit both pressure-control relief valves,
with reference to Section 20.
21 ABS wheel sensor testing, removal and refitting
Testing
1 Checking of the sensors is done before
removal, connecting a voltmeter to the
disconnected sensor multi-plug. Using an
analogue (moving coil) meter is not practical,
since the meter does not respond quickly
enough. A digital meter having an AC facility
may be used to check that the sensor is
operating correctly. To do this, raise the
relevant wheel then disconnect the wiring to
the ABS sensor and connect the meter to it.
Spin the wheel and check that the output
voltage is between 1.5 and 2.0 volts,
depending on how fast the wheel is spun.
Alternatively, an oscilloscope may be used to
check the output of the sensor - an alternating
current will be traced on the screen, of
magnitude depending on the speed of the
rotating wheel.
2 If the sensor output is low or zero, renew
the sensor.
Removal
Left-hand drive models
Front wheel sensor
14 Locate the vacuum servo unit and
pushrod on the bulkhead bracket, taking care
not to damage the rubber grommet.
15 Insert the pushrod in the pedal trunnion,
and tighten the nut.
16 Refit the lower facia panel if it was
removed.
3 Apply the handbrake, jack up the front of
the vehicle and support it on axle stands.
Remove the relevant wheel.
4 Unscrew the sensor mounting bolt located
on the steering knuckle, and withdraw the
sensor (see illustrations).
5 Remove the sensor wiring loom from the
21.12 Rear ABS sensor wiring multi-plug
located beneath the rear seat
support brackets on the front suspension
strut and wheel arch.
6 Prise out the stud clips, and remove the
Torx screws and screw clips holding the wheel
arch liner in position. Withdraw the liner.
7 Disconnect the multi-plug, and withdraw
the sensor and wiring loom.
Rear wheel sensor
8 Chock the front wheels, and engage 1st
gear (or “P”). Jack up the rear of the vehicle
and support it on axle stands. Remove the
relevant wheel.
9 Unscrew the sensor mounting bolt, located
on the brake backplate (drum brakes) or rear
suspension knuckle (disc brakes), and
withdraw the sensor.
10 On disc brake models, prise out the stud
clips, and remove the Torx screws and screw
clips holding the wheel arch liner in position.
Withdraw the liner.
11 Disconnect the sensor wiring loom from
the supports on the rear suspension strut (or
knuckle) and wheel arch.
12 Working inside the vehicle, lift the rear
seat cushion, then disconnect the multi-plug
for the sensor wiring loom (see illustration).
13 Withdraw the sensor and wiring loom
through the rubber grommet in the rear floor.
Refitting
Front and rear wheel sensors
14 Refitting is a reversal of the removal
procedure.
22 ABS relay box removal and refitting
Removal
1 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1).
2 Detach the vacuum hose from the inlet
manifold connection, pressing in the collar to
disengage the tabs, then withdrawing the
collar slowly.
3 To improve access, free the heater hose
from its retaining clips, and position it clear of
the relay box.
4 Disconect the wiring connector(s) from the
relay box and, where necessary, the speed
sender unit.
Braking system 9•15
22.5 Removing the ABS relay box
24.2 Disconnecting the multi-plug
(arrowed) at the TCS actuator
24.3 Removing the TCS motor cover
5 Slacken and remove the four Torx retaining
screws, and withdraw the relay box from the
hydraulic unit (see illustration).
3 Disconnect the multi-plug from the switch,
and withdraw the switch.
4 Turn the upper throttle control segment, to
provide some play in the accelerator cable
leading to the throttle housing, then
disconnect the cable by unhooking the end
stop. Release the cable from the motor
housing support (see illustrations).
5 Turn the lower accelerator control segment,
to provide play in the accelerator cable from
the accelerator pedal, then disconnect the
cable by unhooking the end stop. Release the
cable from the motor housing support (see
illustration).
6 Unscrew the mounting bolts, and lift out the
TCS throttle actuator (see illustration).
Refitting
6 Refitting is a reversal of the removal
procedure. Do not overtighten the relay box
retaining screws, as the plastic is easily
cracked
23 TCS inhibitor switch removal and refitting
Removal
1 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1).
2 Using a small screwdriver and a suitable
pad (to protect the facia), prise out the TCS
inhibitor switch from the facia.
Refitting
4 Refitting is a reversal of the removal
procedure.
24 TCS throttle actuator removal and refitting
Removal
1 The TCS throttle actuator is located in the
front right-hand corner of the engine
compartment. First disconnect the battery
negative (earth) lead (Chapter 5, Section 1).
2 Disconnect the wiring multi-plug at the TCS
actuator (see illustration).
3 Prise off the motor cover (see illustration).
Refitting
7 Refitting is a reversal of the removal
procedure. Adjust the accelerator cables as
described in Chapter 4.
25 Stop-light switch removal and refitting
Removal
24.4A Disconnecting the accelerator cable
(arrowed) from the upper throttle control
segment
24.4B Releasing the cable from the motor
housing support
1 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1).
2 Remove the lower facia panel, with
reference to Chapter 11.
3 Disconnect the wiring multi-plug from the
switch.
4 Rotate the switch anti-clockwise by a
quarter-turn, and withdraw it from the pedal
bracket (see illustration).
9
24.5 Disconnecting the accelerator cable
(arrowed) from the lower throttle control
segment
24.6 Removing the TCS actuator
25.4 Removing the stop-light switch
9•16 Braking system
26.6 Handbrake lever mounting bolts
7 Turn the handbrake lever upsidedown, then
disconnect the primary cable end from the
segment.
8 Withdraw the handbrake from inside the
vehicle.
25.6 To ensure correct adjustment,
position the brake pedal as shown prior to
refitting the switch to its mounting bracket
Refitting and adjustment
5 With the switch removed, reset it by fully
extending its plunger.
6 Depress the brake pedal until the distance
between the pedal and mounting bracket is as
shown (see illustration).
7 Hold the pedal in this position, and refit the
stop-light switch to the mounting bracket .
8 With the switch securely clipped in position,
release the brake pedal, and gently pull it fully
back to the at-rest position. This will
automatically set the adjustment of the stoplight switch.
9 reconnect the wiring connector and the
battery, and check the operation of the switch
prior to refitting the lower facia panel (Chapter 11).
26 Handbrake lever removal and refitting
Removal
1 Raise the front and rear of the vehicle, and
support it on axle stands. Fully release the
handbrake lever.
2 Remove the centre console as described in
Chapter 11.
3 Working beneath the vehicle, release the
exhaust system from the rubber mountings.
Lower the exhaust system as far as possible,
supporting it on blocks or more axle stands.
4 Detach the exhaust heat shield from the
underbody.
5 Unhook the secondary (rear) handbrake
cables from the equaliser bar.
6 Working inside the vehicle, unscrew and
remove the two mounting bolts securing the
handbrake lever to the floor (see illustration).
Refitting
9 Refitting is a reversal of the removal
procedure, making sure that the primary cable
is correctly located in the segment. Check the
operation of the handbrake before returning
the vehicle to normal service.
27 Handbrake cables removal and refitting
Removal
Primary (front)
27.8 Using a ring spanner to compress the
retaining lugs securing the outer cable to
the backplate
5 Working beneath the vehicle, release the
exhaust system from the rubber mountings.
Lower the exhaust system as far as possible,
supporting it on blocks or more axle stands.
6 Unbolt the exhaust heat shield from the
underbody.
7 Unhook the relevant cable from the
equaliser bar.
8 On drum brake models, remove the rear
brake shoes on the relevant side as described
in Section 6, then remove the outer cable from
the backplate by compressing the three
retaining lugs (use a suitable ring spanner)
and pushing the cable through (see
illustration).
9 On disc brake models, unhook the end of
the cable from the handbrake operating arm
on the rear caliper.
10 Release the lugs securing the outer cable
to the underbody brackets, then release the
cable from the clips, and withdraw it from
under the vehicle (see illustrations).
1 Remove the handbrake lever as described
in Section 26.
2 Prise the grommet from the underbody,
and withdraw the cable from beneath the
vehicle.
Refitting
Secondary (rear)
All cables
3 Chock the front wheels, and engage 1st
gear (or “P”). Jack up the rear of the vehicle
and support it on axle stands. Fully release
the handbrake lever.
4 Remove the relevant rear wheel.
11 Refitting is a reversal of the removal
procedure, but make sure that the cable end
fittings are correctly located. Check the
operation of the handbrake before returning
the vehicle to normal service.
27.10A Release the lugs using a ring
spanner . . .
27.10B . . . and remove the outer cable
from the underbody brackets
6•1
Chapter 6 Emissions control systems
Contents
Catalytic converter - general information, checking
and component renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Diagnosis system - general information . . . . . . . . . . . . . . . . . . . . . . 3
Electronic control system - description and precautions . . . . . . . . . 2
Engine compartment wiring check . . . . . . . . . . . . . . . See Chapter 1
EVAPorative emissions control (EVAP) system - general
information, checking and component renewal . . . . . . . . . . . . . . 5
Exhaust Gas Recirculation (EGR) system - general
information, checking and component renewal . . . . . . . . . . . . . . 6
Exhaust system check . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 1
General information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
Information sensors - general information, testing,
removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Positive Crankcase Ventilation (PCV) system - general
information, checking and component renewal . . . . . . . . . . . . . . 8
Positive Crankcase Ventilation (PCV) system check
and filter cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 1
Pulse-air system - general information, checking
and component renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Underbonnet hose check . . . . . . . . . . . . . . . . . . . . . . . See Chapter 1
Degrees of difficulty
Easy, suitable for
novice with little
experience
Fairly easy, suitable
for beginner with
some experience
Fairly difficult, suitable
for competent DIY
mechanic
Difficult, suitable for
experienced DIY
mechanic
Very difficult,
suitable for expert DIY
or professional
Specifications
Crankshaft speed/position sensor
Resistance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
200 to 450 ohms
Camshaft position sensor
Resistance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
200 to 900 ohms
Intake air temperature sensor
Resistance:
At -40°C . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
At 20°C . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
At 100°C . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
At 120°C . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
860 to 900 k ohms
35 to 40 k ohms
1.9 to 2.5 k ohms
1.0 to 1.3 k ohms
6
Throttle potentiometer
Resistance - see text . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
400 to 6000 ohms
Power steering pressure switch
Operating pressure - green switch body:
Contacts open - infinite resistance . . . . . . . . . . . . . . . . . . . . . . . . . .
Contacts close - 0 to 2.5 ohms resistance . . . . . . . . . . . . . . . . . . . .
31.5 ± 3.5 bars
Between 13.5 and 24.0 bars
Charcoal canister-purge solenoid valve
Resistance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
50 to 120 ohms
Pulse-air solenoid valve
Resistance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
50 to 120 ohms
Torque wrench settings
Nm
18 to 23
23
60
lbf ft
13 to 17
17
44
9
10
6
7
47
32
35
24
Camshaft position sensor screw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Intake air temperature sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Oxygen sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Exhaust Gas Recirculation (EGR) system components:
Valve-to-inlet manifold bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Pipe-to-ignition coil screws . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Pulse-air system components:
Filter housing mounting bolt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Piping-to-exhaust manifold sleeve nuts . . . . . . . . . . . . . . . . . . . . . . .
6•2 Emissions control systems
1 General information
To minimise pollution of the atmosphere
from incompletely-burned and evaporating
gases, and to maintain good driveability and
fuel economy, a number of emission control
systems are used on these vehicles. They
include the following:
(a) The engine management system
(comprising both fuel and ignition subsystems) itself.
(b) Positive Crankcase Ventilation (PCV)
system.
(c) Evaporative Emissions Control (EVAP)
system.
(d) Exhaust Gas Recirculation (EGR) system.
(e) Catalytic converter.
The Sections of this Chapter include
general descriptions, checking procedures
within the scope of the home mechanic, and
component renewal procedures (when
possible) for each of the systems listed above.
Before assuming an emissions control system
is malfunctioning, check the fuel and ignition
systems carefully (see Chapters 4 and 5). The
diagnosis of some emission control devices
requires specialised tools, equipment and
training. If checking and servicing become too
difficult, or if a procedure is beyond the scope of
your skills, consult your dealer service
department or other specialist.
This doesn’t mean, however, that emission
control systems are particularly difficult to
maintain and repair. You can quickly and
easily perform many checks, and do most of
the regular maintenance, at home with
common tune-up and hand tools. Note: The
most frequent cause of emissions problems is
simply a loose or broken electrical connector
or vacuum hose, so always check the
electrical connectors and vacuum hoses first.
Pay close attention to any special
precautions outlined in this Chapter. It should
be noted that the illustrations of the various
systems may not exactly match the system
installed on your vehicle, due to changes
made by the manufacturer during production
or from year-to-year.
Vehicles sold in some areas will carry a
Vehicle Emissions Control Information (VECI)
label, and a vacuum hose diagram located in
the engine compartment. These contain
important
specifications
and
setting
procedures for the various emissions control
systems, with the vacuum hose diagram
identifying emissions control components.
When servicing the engine or emissions
systems, the VECI label in your particular
vehicle should always be checked for up-todate information.
2 Electronic control system description and precautions
Description
The EEC-IV (Ford’s fourth-generation
Electronic Engine Control system) engine
management system controls fuel injection by
means of a microcomputer known as the ECU
(Electronic Control Unit) (see illustrations).
The ECU receives signals from various
sensors, which monitor changing engine
operating conditions such as intake air mass
(ie, intake air volume and temperature),
coolant
temperature,
engine
speed,
acceleration/deceleration, exhaust oxygen
content, etc. These signals are used by the
ECU to determine the correct injection
duration.
The system is analogous to the central
nervous system in the human body - the
sensors (nerve endings) constantly relay
signals to the ECU (brain), which processes
the data and, if necessary, sends out a
command to change the operating
parameters of the engine (body) by means of
the actuators (muscles).
Here’s a specific example of how one
portion of this system operates. An oxygen
sensor, located in the exhaust downpipe,
Emissions control systems 6•3
2.1A Engine management system, showing fuel injection,
ignition and emissions control sub-systems
1 ECU (Electronic Control Unit)
2 Fuel pump/fuel gauge sender
unit
3 Fuel pump relay
4 Fuel filter
5 Idle speed control valve
6 Air mass meter
7 Air cleaner assembly
8 Fuel pressure regulator
9 Fuel rail
10 Throttle potentiometer
11 Intake air temperature sensor
12 Fuel injector
13 Camshaft position sensor
14 Charcoal canister
15 Charcoal canister-purge
solenoid valve
16 Ignition coil
17 Battery
18 Ignition module - only
separate (from ECU) on
vehicles with automatic
transmission
19 Coolant temperature sensor
20 Oxygen sensor
21 Crankshaft speed/position
sensor
22 Power supply relay
23 Power steering pressure
switch
24 Air conditioning compressor
clutch solenoid
25 Service connector - for octane
adjustment
26 Self-test connector - for Ford
STAR tester diagnostic
equipment
27 Diagnosis connector - for Ford
diagnostic equipment FDS
2000
28 Ignition switch
29 Fuel cut-off switch
30 Exhaust Gas Recirculation
(EGR) solenoid valve
31 Exhaust Gas Recirculation
(EGR) valve
32 Exhaust Gas Recirculation
(EGR) exhaust gas pressure
differential sensor
33 Exhaust Gas Recirculation
(EGR) pressure differential
measuring point
34 To inlet manifold
35 Pulse-air filter housing
36 Pulse-air solenoid valve
37 Air conditioning/radiator
electric cooling fan control
38 Automatic transmission
control system - where
applicable
2.1B Location of principal fuel injection, ignition and
emissions control system components
1 ECU (Electronic Control Unit)
2 Self-test, diagnosis and service connectors
(left to right)
3 Bulkhead component mounting bracket - manual
transmission - showing from left to right, (EGR) solenoid
valve, pulse-air solenoid valve and (EGR) exhaust gas
pressure differential sensor
4 Bulkhead component mounting bracket - automatic
transmission - showing from left to right, (EGR) solenoid
valve, pulse-air solenoid valve and (EGR) exhaust gas
pressure differential sensor, with separate ignition module
above
5 Throttle housing, including potentiometer
6 Idle speed control valve
7 Intake air temperature sensor
8 Air mass meter
9 Exhaust Gas Recirculation (EGR) valve
10 Coolant temperature sensor
11 Crankshaft speed/position sensor
12 Pulse-air filter housing
13 Oxygen sensor
14 Ignition coil and spark plug (HT) leads
15 Camshaft position sensor
16 Fuel injector(s)
17 Power steering pressure switch
18 Air cleaner assembly
19 Air intake tube and resonators - under left-hand front wing
20 Resonator
6
6•4 Emissions control systems
constantly monitors the oxygen content of the
exhaust gas. If the percentage of oxygen in
the exhaust gas is incorrect, an electrical
signal is sent to the ECU. The ECU processes
this information, and then sends a command
to the fuel injection system, telling it to change
the air/fuel mixture; the end result is an air/fuel
mixture ratio which is constantly maintained
at a predetermined ratio, regardless of driving
conditions. This happens in a fraction of a
second, and goes on almost all the time while
the engine is running - the exceptions are that
the ECU cuts out the system and runs the
engine
on
values
pre-programmed
(“mapped”) into its memory both while the
oxygen sensor is reaching its normal
operating temperature after the engine has
been started from cold, and when the throttle
is fully open for full acceleration.
In the event of a sensor malfunction, a
back-up circuit will take over, to provide
driveability until the problem is identified and
fixed.
Precautions
(a) Always disconnect the power by
uncoupling the battery terminals - see
Section 1 of Chapter 5 - before removing
any of the electronic control system’s
electrical connectors.
(b) When installing a battery, be particularly
careful to avoid reversing the positive and
negative battery leads.
(c) Do not subject any components of the
system (especially the ECU) to severe
impact during removal or installation.
(d) Do not be careless during fault diagnosis.
Even slight terminal contact can invalidate
a testing procedure, and damage one of
the numerous transistor circuits.
(e) Never attempt to work on the ECU, to test
it (with any kind of test equipment), or to
open its cover.
(f) If you are inspecting electronic control
system components during rainy weather,
make sure that water does not enter any
part. When washing the engine
compartment, do not spray these parts or
their electrical connectors with water.
3 Diagnosis system general information
General
The various components of the fuel, ignition
and emissions control systems (not forgetting
the same ECU’s control of sub-systems such
as the radiator cooling fan, air conditioning
and
automatic
transmission,
where
appropriate) are so closely interlinked that
diagnosis of a fault in any one component is
virtually impossible using traditional methods.
Working on simpler systems in the past, the
experienced mechanic may well have been
able to use personal skill and knowledge
immediately to pinpoint the cause of a fault, or
quickly to isolate the fault, by elimination;
however, with an engine management system
integrated to this degree, this is not likely to
be possible in most instances, because of the
number of symptoms that could arise from
even a minor fault.
So that the causes of faults can be quickly
and accurately traced and rectified, the ECU
is provided with a built-in self-diagnosis
facility, which detects malfunctions in the
system’s components. When a fault occurs,
three things happen: the ECU identifies the
fault, stores a corresponding code in its
memory, and (in most cases) runs the system
using back-up values pre-programmed
(“mapped”) into its memory; some form of
driveability is thus maintained, to enable the
vehicle to be driven to a garage for attention.
Any faults that may have occurred are
indicated in the form of three-digit codes
when the system is connected (via the built-in
diagnosis or self-test connectors, as
appropriate) to special diagnostic equipment this points the user in the direction of the
faulty circuit, so that further tests can pinpoint
the exact location of the fault.
Given below is the procedure that would be
followed by a Ford technician to trace a fault
from scratch. Should your vehicle’s engine
management system develop a fault, read
through the procedure and decide how much
you can attempt, depending on your skill and
experience and the equipment available to
you, or whether it would be simpler to have
the vehicle attended to by your local Ford
dealer. If you are concerned about the
apparent complexity of the system, however,
remember the comments made in the fourth
paragraph of Section 1 of this Chapter; the
preliminary checks require nothing but care,
patience and a few minor items of equipment,
and may well eliminate the majority of faults.
(a) Preliminary checks
(b) Fault code read-out *
(c) Check ignition timing and base idle
speed. Recheck fault codes to establish
whether fault has been cured or not *
(d) Carry out basic check of ignition system
components. Recheck fault codes to
establish whether fault has been cured or
not *
(e) Carry out basic check of fuel system
components. Recheck fault codes to
establish whether fault has been cured or
not *
(f) If fault is still not located, carry out system
test *
Note: Operations marked with an asterisk
require special test equipment.
Preliminary checks
Note: When carrying out these checks to
trace a fault, remember that if the fault has
appeared only a short time after any part of
the vehicle has been serviced or overhauled,
the first place to check is where that work was
carried out, however unrelated it may appear,
to ensure that no carelessly-refitted
components are causing the problem.
If you are tracing the cause of a “partial”
engine fault, such as lack of performance, in
addition to the checks outlined below, check
the compression pressures (see Part A of
Chapter 2) and bear in mind the possibility
that one of the hydraulic tappets might be
faulty, producing an incorrect valve clearance.
Check also that the fuel filter has been
renewed at the recommended intervals.
If the system appears completely dead,
remember
the
possibility
that
the
alarm/inhibitor system may be responsible.
1 The first check for anyone without special
test equipment is to switch on the ignition,
and to listen for the fuel pump (the sound of
an electric motor running, audible from
beneath the rear seats); assuming there is
sufficient fuel in the tank, the pump should
start and run for approximately one or two
seconds, then stop, each time the ignition is
switched on. If the pump runs continuously all
the time the ignition is switched on, the
electronic control system is running in the
back-up (or “limp-home”) mode referred to by
Ford as “Limited Operation Strategy” (LOS).
This almost certainly indicates a fault in the
ECU itself, and the vehicle should therefore be
taken to a Ford dealer for a full test of the
complete system using the correct diagnostic
equipment; do not waste time trying to test
the system without such facilities.
2 If the fuel pump is working correctly (or not
at all), a considerable amount of fault
diagnosis is still possible without special test
equipment. Start the checking procedure as
follows.
3 Open the bonnet and check the condition
of the battery connections - remake the
connections or renew the leads if a fault is
found (Chapter 5). Use the same techniques
to ensure that all earth points in the engine
compartment provide good electrical contact
through clean, metal-to-metal joints, and that
all are securely fastened. (In addition to the
earth connection at the engine lifting eye and
that from the transmission to the
body/battery, there is one earth connection
behind each headlight assembly, and one
below the power steering fluid reservoir.)
4 Referring to the information given in
Chapter 12 and in the wiring diagrams at the
back of this manual, check that all fuses
protecting the circuits related to the engine
management system are in good condition.
Fit new fuses if required; while you are there,
check that all relays are securely plugged into
their sockets.
5 Next work methodically around the engine
compartment, checking all visible wiring, and
the connections between sections of the
wiring loom. What you are looking for at this
stage is wiring that is obviously damaged by
chafing against sharp edges, or against
moving suspension/transmission components
and/or the auxiliary drivebelt, by being
trapped or crushed between carelesslyrefitted components, or melted by being
forced into contact with hot engine castings,
Emissions control systems 6•5
3.11A Vacuum hose routing schematic diagram
A Exhaust Gas Recirculation (EGR) solenoid valve
B Pulse-air solenoid valve
C Exhaust Gas Recirculation (EGR) exhaust gas pressure
differential sensor
D Exhaust Gas Recirculation (EGR) valve
E Charcoal canister-purge solenoid valve
F Restrictor
G Idle-increase solenoid valve - where fitted
H Connection to plenum chamber
J Connection to inlet manifold
K Fuel pressure regulator
L Connection to Positive Crankcase Ventilation (PCV) valve
M Pulse-air filter housing
N Connection to heating/air conditioning system controls
P Charcoal canister
coolant or EGR pipes, etc. In almost all cases,
damage of this sort is caused in the first
instance by incorrect routing on reassembly
after previous work has been carried out (see
the note at the beginning of this sub-Section).
6 Obviously wires can break or short together
inside the insulation so that no visible
evidence betrays the fault, but this usually
only occurs where the wiring loom has been
incorrectly routed so that it is stretched taut or
kinked sharply; either of these conditions
should be obvious on even a casual
inspection. If this is thought to have happened
and the fault proves elusive, the suspect
section of wiring should be checked very
carefully during the more detailed checks
which follow.
7 Depending on the extent of the problem,
damaged wiring may be repaired by rejoining
the break or splicing-in a new length of wire,
using solder to ensure a good connection,
and remaking the insulation with adhesive
insulating tape or heat-shrink tubing, as
desired. If the damage is extensive, given the
implications for the vehicle’s future reliability,
the best long-term answer may well be to
renew that entire section of the loom, however
expensive this may appear.
8 When the actual damage has been
repaired, ensure that the wiring loom is
rerouted correctly, so that it is clear of other
components, is not stretched or kinked, and is
secured out of harm’s way using the plastic
clips, guides and ties provided.
9 Check all electrical connectors, ensuring
that they are clean, securely fastened, and
that each is locked by its plastic tabs or wire
clip, as appropriate. If any connector shows
external signs of corrosion (accumulations of
white or green deposits, or streaks of “rust”),
or if any is thought to be dirty, it must be
unplugged and cleaned using electrical
contact cleaner. If the connector pins are
severely corroded, the connector must be
renewed; note that this may mean the renewal
6
3.11B Installation of vacuum hoses in engine compartment
of that entire section of the loom - see your
local Ford dealer for details.
10 If the cleaner completely removes the
corrosion to leave the connector in a
satisfactory condition, it would be wise to
pack the connector with a suitable material
which will exclude dirt and moisture, and
prevent the corrosion from occurring again; a
Ford dealer may be able to recommend a
suitable product. Note: The system’s
connectors use gold-plated pins, which must
not be mixed with the older tin-plated types
(readily identifiable from the different colour) if
a component is renewed, nor must the lithium
grease previously used to protect tin-plated
pins be used on gold-plated connectors.
11 Following the accompanying schematic
diagram, and working methodically around
the engine compartment, check carefully that
all vacuum hoses and pipes are securely
fastened and correctly routed, with no signs
of cracks, splits or deterioration to cause air
leaks, or of hoses that are trapped, kinked, or
bent sharply enough to restrict air flow (see
illustrations). Check with particular care at all
connections and sharp bends, and renew any
damaged or deformed lengths of hose.
12 Working from the fuel tank, via the filter, to
the fuel rail (and including the feed and return),
check the fuel lines, and renew any that are
found to be leaking, trapped or kinked.
13 Check that the accelerator cable is
correctly secured and adjusted; renew the
cable if there is any doubt about its condition,
or if it appears to be stiff or jerky in operation.
Refer to the relevant Sections of Chapter 4 for
further information, if required.
14 If there is any doubt about the operation
of the throttle, remove the plenum chamber
from the throttle housing, and check that the
throttle valve moves smoothly and easily from
the fully-closed to the fully-open position and
6•6 Emissions control systems
back again, as an assistant depresses the
accelerator pedal. If the valve shows any sign
of stiffness, sticking or otherwise-inhibited
movement (and the accelerator cable is
known from the previous check to be in good
condition), spray the throttle linkage with
penetrating lubricant, allow time for it to work,
and repeat the check; if no improvement is
obtained, the complete throttle housing must
be renewed (Chapter 4).
15 Unclip the air cleaner cover, and check
that the air filter element and the crankcase
ventilation system filter are not clogged or
soaked. (A clogged air filter will obstruct the
intake air flow, causing a noticeable effect on
engine performance; a clogged crankcase
ventilation system filter will inhibit crankcase
“breathing”). Renew or clean the filter(s) as
appropriate; refer to the relevant Sections of
Chapter 1 for further information, if required.
Before refitting the air cleaner cover, check
that the air intake (located under the front lefthand wing, opening behind the direction
indicator/headlight assembly) is clear. It
should be possible to blow through the intake,
or to probe it (carefully) as far as the rear of
the direction indicator light.
16 Start the engine and allow it to idle.
Note: Working in the engine compartment
while the engine is running requires great care
if the risk of personal injury is to be avoided;
among the dangers are burns from contact
with hot components, or contact with moving
components such as the radiator cooling fan
or the auxiliary drivebelt. Refer to “Safety
first!” at the front of this manual before
starting, and ensure that your hands, and long
hair or loose clothing, are kept well clear of hot
or moving components at all times.
17 Working from the air intake junction at the
inner wing panel, via the air cleaner assembly
and air mass meter, to the resonator, plenum
chamber, throttle housing and inlet manifold
(and including the various vacuum hoses and
pipes connected to these), check for air leaks.
Usually, these will be revealed by sucking or
hissing noises, but minor leaks may be traced
by spraying a solution of soapy water on to
the suspect joint; if a leak exists, it will be
shown by the change in engine note and the
accompanying air bubbles (or sucking-in of
the liquid, depending on the pressure
difference at that point). If a leak is found at
any point, tighten the fastening clamp and/or
renew the faulty components, as applicable.
18 Similarly, work from the cylinder head, via
the manifold (and not forgetting the related
EGR and pulse-air system components) to the
tailpipe, to check that the exhaust system is
free from leaks. The simplest way of doing
this, if the vehicle can be raised and
supported safely and with complete security
while the check is made, is to temporarily
block the tailpipe while listening for the sound
of escaping exhaust gases; any leak should
be evident. If a leak is found at any point,
tighten the fastening clamp bolts and/or nuts,
renew the gasket, and/or renew the faulty
section of the system, as necessary, to seal
the leak.
19 It is possible to make a further check of
the electrical connections by wiggling each
electrical connector of the system in turn as
the engine is idling; a faulty connector will be
immediately evident from the engine’s
response as contact is broken and remade. A
faulty connector should be renewed to ensure
the future reliability of the system; note that
this may mean the renewal of that entire
section of the loom - see your local Ford
dealer for details.
20 Switch off the engine. If the fault is not yet
identified, the next step is to check the
ignition voltages, using an engine analyser
with an oscilloscope - without such
equipment, the only tests possible are to
remove and check each spark plug in turn, to
check the spark plug (HT) lead connections
and resistances, and to check the
connections and resistances of the ignition
coil. Refer to the relevant Sections of
Chapters 1 and 5.
21 The final step in these preliminary checks
would be to use an exhaust gas analyser to
measure the CO level at the exhaust tailpipe.
This check cannot be made without special
test equipment - see your local Ford dealer for
details.
Fault code read-out
22 As noted in the general comments at the
beginning of this Section, the preliminary
checks outlined above should eliminate the
majority of faults from the engine
management system. If the fault is not yet
identified, the next step is to connect a fault
code reader to the ECU, so that its selfdiagnosis facility can be used to identify the
faulty part of the system; further tests can
then be made to identify the exact cause of
the fault.
23 In their basic form, fault code readers are
simply hand-held electronic devices, which
take data stored within an ECU’s memory and
display it when required as two- or three-digit
fault codes. The more sophisticated versions
now available can also control sensors and
actuators, to provide more effective testing;
some can store information, so that a road
test can be carried out, and any faults
encountered during the test can be displayed
afterwards.
3.26 Location and terminal identification of engine management system self-test,
diagnosis and service connectors
1 Power steering fluid reservoir
2 Diagnosis connector - for Ford diagnostic equipment FDS 2000
3 Self-test connector - for fault code read-out - pin 17 is output terminal, pin 48 is input
terminal, pin 40/60 is earth
4 Service connector - for octane adjustment
5 Plug-in bridge - to suit 95 RON fuel
Emissions control systems 6•7
24 Ford specify the use of their STAR (SelfTest Automatic Readout) tester; most Ford
dealers should have such equipment, and the
staff trained to use it effectively. The only
alternatives are as follows:
(a) To obtain one of those proprietary readers
which can interpret EEC-IV three-digit
codes - at present, such readers are too
expensive for the DIY enthusiast, but are
becoming more popular with smaller
specialist garages.
(b) To use an analogue voltmeter, whereby
the stored codes are displayed as sweeps
of the voltmeter needle. This option limits
the operator to a read-out of any codes
stored - ie, there is no control of sensors
and/or actuators - but can still be useful in
pinpointing the faulty part of the engine
management system. The display is
interpreted as follows. Each code
(whether fault code or
command/separator) is marked by a
three-to-four second pause - code “538”
would therefore be shown as long (3 to
4 seconds) pause, five fast sweeps of the
needle, slight (1 second) pause, three fast
sweeps, slight pause, eight fast sweeps,
long pause.
(c) Owners without access to such
equipment must take the vehicle to a Ford
dealer, or to an expert who has similar
equipment and the skill to use it.
25 Because of the variations in the design of
fault code readers, it is not possible to give
exact details of the sequence of tests; the
manufacturer’s instructions must be followed,
in conjunction with the codes given below.
The following ten paragraphs outline the
procedure to be followed using a version of
the Ford STAR tester, to illustrate the general
principles, as well as notes to guide the owner
using only a voltmeter.
26 The vehicle must be prepared by applying
the handbrake, switching off the air
conditioning (where fitted) and any other
electrical loads (lights, heated rear window,
etc), then selecting neutral (manual
transmission) or the “P” position (automatic
transmission). Where the engine is required to
be running, it must be fully warmed-up to
normal operating temperature before the test
is started. Using any adaptors required,
connect the fault code reader to the system
via the (triangular, three-pin) self-test
connector on the right-hand end of the engine
compartment bulkhead (see illustration). If a
voltmeter is being used, connect its positive
lead to the battery positive terminal, and its
negative lead to the self-test connector’s
output terminal, pin 17. Have a pen and paper
ready to write down the codes displayed.
27 Set the tester in operation. For the Ford
STAR tester, a display check will be carried
out and the test mode requirements must be
entered. If a voltmeter is being used, connect
a spare length of wire to earth the self-test
connector’s input terminal, pin 48. Be very
careful to ensure that you earth the correct
terminal - the one with the white/green wire.
The first part of the test starts, with the
ignition switched on, but with the engine off.
On pressing the “Mem/test” button, the tester
displays “TEST” and the ready code “000”,
followed by a command code “010” - the
accelerator pedal must be fully depressed
within 10 seconds of the command code
appearing, or fault codes “576” or “577” will
appear when they are called up later. If a
voltmeter is being used, code “000” will not
appear (except perhaps as a flicker of the
needle) and “010” will appear as a single
sweep - to ensure correct interpretation of the
display, watch carefully for the interval
between the end of one code and the
beginning of the next, otherwise you will
become confused and misinterpret the readout.
28 The tester will then display the codes for
any faults in the system at the time of the test.
Each code is repeated once; if no faults are
present, code “111” will be displayed. If a
voltmeter is being used, the pause between
repetitions will vary according to the
equipment in use and the number of faults in
the system, but was found to be
approximately 3 to 4 seconds - it may be
necessary to start again, and to repeat the
read-out until you are familiar with what you
are seeing.
29 Next the tester will display code “010”
(now acting as a separator), followed by the
codes for any faults stored in the ECU’s
memory; if no faults were stored, code “111”
will be displayed.
30 When prompted by the tester, the
operator must next depress the accelerator
pedal fully; the tester then checks several
actuators. Further test modes include a
“wiggle test” facility, whereby the operator
can check the various connectors as
described in paragraph 19 above (in this case,
any fault will be logged and the appropriate
code will be displayed), a facility for recalling
codes displayed, and a means for clearing the
ECU’s memory at the end of the test
procedure when any faults have been
rectified.
31 The next step when using the Ford STAR
tester is to conduct a test with the engine
running. With the tester set in operation (see
paragraph 26 above) the engine is started and
allowed to idle. On pressing the “Mem/test”
button, the tester displays “TEST”, followed
by one of two codes, as follows.
32 If warning code “998” appears, followed
by the appropriate fault code, switch off and
check as indicated the coolant temperature
sensor, the intake air temperature sensor, the
air mass meter, the throttle potentiometer
and/or their related circuits, then restart the
test procedure.
33 If command code “020” appears, carry
out the following procedure within ten
seconds:
(a) Depress the brake pedal fully.
(b) Turn the steering to full-lock (either way)
and centre it again, to produce a signal
from the power steering pressure switch if no signal is sent, fault code “521” will
be displayed.
(c) If automatic transmission is fitted, switch
the overdrive cancel button on and off,
then do the same for the
“Economy/Sport” mode switch.
(d) Wait for separator code “010” to be
displayed, then within 10 seconds,
depress the accelerator pedal fully,
increasing engine speed rapidly above
3000 rpm - release the pedal.
34 Any faults found in the system will be
logged and displayed. Each code is repeated
once; if no faults are present, code “111” will
be displayed.
35 When the codes have been displayed for
all faults logged, the ECU enters its “Service
Adjustment Programme”, as follows:
(a) The programme lasts for 2 minutes.
(b) The idle speed control valve is
deactivated, and the idle speed is set to
its pre-programmed (unregulated) value. If
the appropriate equipment is connected,
the base idle speed can be checked
(note, however, that it is not adjustable).
(c) The ignition timing can be checked if a
timing light is connected (note, however,
that it is not adjustable).
(d) Pressing the accelerator pedal fully at any
time during this period will execute a
cylinder balance test. Each injector in turn
is switched off, and the corresponding
decrease in engine speed is logged code “090” will be displayed if the test is
successful.
(e) At the end of the 2 minutes, the
completion of the programme is shown
by the engine speed briefly rising, then
returning to normal idling speed as
the idle speed control valve is
reactivated.
36 As with the engine-off test, further test
modes include a “wiggle test” facility,
whereby the operator can check the various
connectors as described in paragraph 19
above (in this case, any fault will be logged
and the appropriate code will be displayed), a
facility for recalling codes displayed, and a
means for clearing the ECU’s memory at the
end of the test procedure when any faults
have been rectified. If equipment other than
the Ford STAR tester is used, the ECU’s
memory can be cleared by disconnecting the
battery - if this is not done, the code will
reappear with any other codes in the event of
subsequent trouble, but remember that other
systems with memory (such as the clock and
audio equipment) will also be affected. Should
it become necessary to disconnect the
battery during work on any other part of the
vehicle, first check to see if any fault codes
have been logged.
37 Given overleaf are the possible codes,
their meanings, and where relevant, the action
to be taken as a result of a code being
displayed.
6
6•8 Emissions control systems
Code
000
010
020
10
20
30
40
90
111
112 to 114
116 to 118
Meaning
Ready for test
Command/separator code
Command code
Cylinder No 1 low
Cylinder No 2 low
Cylinder No 3 low
Cylinder No 4 low
Cylinder balance test successful
No faults found
Intake air temperature sensor
Coolant temperature sensor - normal
operating temperature not reached
121 to 125 Throttle potentiometer
129
Incorrect response from air mass
meter while conducting test
136, 137
Oxygen sensor
139
Oxygen sensor
144
Oxygen sensor
157 to 159 Air mass meter
167
Incorrect response from throttle
potentiometer while conducting test
171
Oxygen sensor
172
Oxygen sensor - mixture too weak
173
Oxygen sensor - mixture too rich
174, 175
Oxygen sensor
176
Oxygen sensor - mixture too weak
177
Oxygen sensor - mixture too rich
178
Oxygen sensor
179
Fuel system - mixture too weak
181
Fuel system - mixture too rich
182
Idle mixture too weak
183
Idle mixture too rich
184, 185
Air mass meter
186
Injector opening time (pulse width) too long
187
Injector opening time (pulse width) too short
188
Oxygen sensor - mixture too weak
189
Oxygen sensor - mixture too rich
191
Idle mixture too weak
192
194, 195
211
212
213
214
215 to 217
218, 222
226
227
228
229
231
232
233
234 to 237
238
239
241
Idle mixture too rich
Oxygen sensor
No ignition signal to ECU
Tachometer circuit
No ignition signal from ECU
Camshaft position sensor
Ignition coil
Tachometer circuit
ECU/ignition module pulse
Crankshaft speed/position sensor
Ignition module/ignition coil winding 1
Ignition module/ignition coil winding 2
Ignition module/ignition coil winding 3
Ignition coil primary windings
Ignition module
Ignition coil primary windings
Ignition module/ignition coil primary windings
No ignition signal to ECU on cranking
Incorrect response from ECU and/or
ignition module while conducting test
243
Ignition coil failure
311 to 316 Pulse-air system
326
EGR system exhaust gas pressure
differential sensor
Action
Depress accelerator pedal fully, then release
Depress brake pedal fully, then release
During cylinder balance test
During cylinder balance test
During cylinder balance test
During cylinder balance test
Check component (Section 4 of this Chapter)
If fault still exists on reaching normal operating temperature, check
component (Chapter 3)
Check component (Section 4 of this Chapter)
Repeat test
Check component (Section 4 of this Chapter)
Check component (Section 4 of this Chapter)
Check component (Section 4 of this Chapter)
Check component (Section 4 of this Chapter)
Repeat test
Check component (Section 4 of this Chapter)
Check component (Section 4 of this Chapter)
Check component (Section 4 of this Chapter)
Check component (Section 4 of this Chapter)
Check component (Section 4 of this Chapter)
Check component (Section 4 of this Chapter)
Check component (Section 4 of this Chapter)
Check EGR valve (Section 6 of this Chapter)
Check EGR valve (Section 6 of this Chapter)
Check idle speed control valve (Chapter 4)
If mixture OK, check fuel system (see below)
Check component (Section 4 of this Chapter)
Carry out system test (see below)
Carry out system test (see below)
Check component (Section 4 of this Chapter)
Check component (Section 4 of this Chapter)
Check EGR valve (Section 6 of this Chapter) and idle speed control valve
(Chapter 4)
Check EGR valve (Section 6 of this Chapter) and idle speed control valve
(Chapter 4)
Check component (Section 4 of this Chapter)
Carry out system test (see below)
Carry out system test (see below)
Carry out system test (see below)
Check component (Section 4 of this Chapter)
Carry out system test (see below)
Carry out system test (see below)
Carry out system test (see below)
Check component (Chapter 5)
Carry out system test (see below)
Carry out system test (see below)
Carry out system test (see below)
Carry out system test (see below)
Carry out system test (see below)
Carry out system test (see below)
Carry out system test (see below)
Carry out system test (see below)
Repeat test
Carry out system test (see below)
Carry out system test (see below)
Check component (Section 6 of this Chapter)
Emissions control systems 6•9
Code
327
Meaning
EGR system exhaust gas pressure
differential sensor or solenoid valve
328
EGR system solenoid valve
332
EGR valve not opening
334
EGR system solenoid valve
335
EGR system exhaust gas pressure
differential sensor
336
Exhaust gas pressure too high
337
EGR system exhaust gas pressure
differential sensor or solenoid valve
338, 339
Coolant temperature sensor
341
Service connector earthed
411
Engine speed too low during test
412
Engine speed too high during test
413 to 416 Idle speed control valve
452
Vehicle speed sensor
511, 512
ECU memory
513
519, 521
522, 523
536
538
539
542, 543
551
552
556
558
563
564
565
573
574
575
576, 577
621
622
624
625
629
634
635, 637
639
645
646
647
648
653
998
Action
Check components (Section 6 of this Chapter)
Check component (Section 6 of this Chapter)
Check component (Section 6 of this Chapter)
Check component (Section 6 of this Chapter)
Check component (Section 6 of this Chapter)
Check system (Section 6 of this Chapter)
Check components (Section 6 of this Chapter)
Carry out system test (see below)
Unplug connector and repeat test - reconnect on completion
Check for air leaks, then repeat test
Check for air leaks, then repeat test
Check component (Chapter 4, Section 16)
Check component (Section 4 of this Chapter)
Check whether battery was disconnected, then check fuse 11 - if fault still
exists, renew ECU (Section 6 of this Chapter)
Carry out system test (see below)
Check component is fitted and connected, then repeat test - if fault still
exists, carry out system test (see below)
Check component (Chapter 7, Part B)
ECU reference voltage
Power steering pressure switch not
operated during test
Selector lever position sensor
Brake on/off switch not activated
during test
Repeat test
Operator error during test
Repeat test
Air conditioning switched on during test
Switch off and repeat test
Fuel pump circuit
Carry out system test (see below)
Idle speed control valve circuit
Carry out system test (see below)
Pulse-air system circuit
Carry out system test (see below)
Fuel pump circuit
Check fuel pump relay - if fault still exists, carry out system test (see below)
EGR system solenoid valve circuit
Carry out system test (see below)
Radiator (high-speed) electric
cooling fan relay and/or circuit
Carry out system test (see below)
Radiator electric cooling fan relay
and/or circuit
Carry out system test (see below)
Charcoal canister-purge solenoid valve
Check component (Section 5 of this Chapter)
Radiator electric cooling fan relay
and/or circuit
Carry out system test (see below)
Radiator (high-speed) electric
cooling fan relay and/or circuit
Carry out system test (see below)
Fuel pump and/or fuel cut-off
switch circuits
Carry out system test (see below)
Accelerator pedal not depressed fully during
test procedure - automatic transmission
kickdown not activated
Repeat test
Automatic transmission shift solenoid 1 circuit Refer to Chapter 7, Part B
Automatic transmission shift solenoid 2 circuit Refer to Chapter 7, Part B
Automatic transmission electronic
pressure control solenoid
Refer to Chapter 7, Part B
Automatic transmission electronic
pressure control solenoid circuit
Refer to Chapter 7, Part B
Automatic transmission torque
converter clutch solenoid
Refer to Chapter 7, Part B
Selector lever position sensor circuit
Check component (Chapter 7, Part B)
Automatic transmission fluid temperature sensor Refer to Chapter 7, Part B
Automatic transmission speed sensor
Refer to Chapter 7, Part B
Automatic transmission 1st speed
Refer to Chapter 7, Part B
Automatic transmission 2nd speed
Refer to Chapter 7, Part B
Automatic transmission 3rd speed
Refer to Chapter 7, Part B
Automatic transmission 4th speed
Refer to Chapter 7, Part B
Automatic transmission overdrive
cancel button and “Economy/Sport”
mode switch not operated during test
Repeat test
Warning code
Check fault(s) indicated by subsequent code(s)
6
6•10 Emissions control systems
Ignition timing and base idle
speed check
Note: The following procedure is a check only,
essentially of the ECU. Both the ignition timing
and the base idle speed are controlled by the
ECU. The ignition timing is not adjustable at
all; the base idle speed is set in production,
and should not be altered.
38 If the fault code read-out (with any checks
resulting from it) has not eliminated the fault,
the next step is to check the ECU’s control of
the ignition timing and the base idle speed.
This task requires the use of a Ford STAR
tester (a proprietary fault code reader can be
used only if it is capable of inducing the ECU
to enter its “Service Adjustment Programme”),
coupled with an accurate tachometer and a
good-quality timing light. Without this
equipment, the task is not possible; the
vehicle must be taken to a Ford dealer for
attention.
39 To make the check, apply the handbrake,
switch off the air conditioning (where fitted)
and any other electrical loads (lights, heated
rear window, etc), then select neutral (manual
transmission) or the “P” position (automatic
transmission). Start the engine, and warm it
up to normal operating temperature. The
radiator electric cooling fan must be running
continuously while the check is made; this
should be activated by the ECU, when
prompted by the tester. Switch off the engine,
and connect the test equipment as directed
by the manufacturer - refer to paragraph 26
above for details of STAR tester connection.
40 Raise and support the front of the vehicle
securely, and remove the auxiliary drivebelt
cover (see Chapter 1). Emphasise the two
pairs of notches in the inner and outer rims of
the crankshaft pulley, using white paint. Note
that an ignition timing reference mark is not
provided on the pulley - in the normal
direction of crankshaft rotation (clockwise,
seen from the right-hand side of the vehicle)
the first pair of notches are irrelevant to the
vehicles covered in this manual, while the
second pair indicate Top Dead Centre (TDC)
when aligned with the rear edge of the raised
mark on the sump; when checking the ignition
timing, therefore, the (rear edge of the) sump
mark should appear just before the TDC
notches (see Part A of Chapter 2, Section 4,
for further information if required).
41 Start the engine and allow it to idle. Work
through the engine-running test procedure
until the ECU enters its “Service Adjustment
Programme” - see paragraph 35 above.
42 Use the timing light to check that the
timing marks appear approximately as
outlined above at idle speed. Do not spend
too much time on this check; if the timing
appears to be incorrect, the system may have
a fault, and a full system test must be carried
out (see below) to establish its cause.
43 Using the tachometer, check that the
base idle speed is as given in the
Specifications Section of Chapter 4.
44 If the recorded speed differs significantly
from the specified value, check for air leaks,
as described in the preliminary checks
(paragraphs 15 to 18 above), or any other
faults which might cause the discrepancy.
45 The base idle speed is set in production
by means of an air bypass screw (located in
the front right-hand corner of the throttle
housing) which controls the amount of air that
is allowed to pass through a bypass passage,
past the throttle valve when it is fully closed in
the idle position; the screw is then sealed with
a white tamperproof plug (see illustration). In
service, the idle speed is controlled by the
ECU, which has the ability to compensate for
engine wear, build-up of dirt in the throttle
housing, and other factors which might
require changes in idle speed. The air bypass
screw setting should not, therefore, be
altered. If any alterations are made, a blue
tamperproof plug must be fitted, and the
engine should be allowed to idle for at least
five minutes on completion, so that the ECU
can re-learn its idle values.
46 When both checks have been made and
the “Service Adjustment Programme” is
completed, follow the tester instructions to
return to the fault code read-out, and
establish whether the fault has been cured or
not.
Basic check of ignition system
47 If the checks so far have not eliminated
the fault, the next step is to carry out a basic
check of the ignition system components,
using an engine analyser with an oscilloscope
- without such equipment, the only tests
possible are to remove and check each spark
plug in turn, to check the spark plug (HT) lead
connections and resistances, and to check
the connections and resistances of the
ignition coil. Refer to the relevant Sections of
Chapters 1 and 5.
Basic check of fuel system
3.45 Throttle housing air bypass screw is
sealed on production with a white
tamperproof plug (arrowed)
48 If the checks so far have not eliminated
the fault, the next step is to carry out a basic
check of the fuel system components.
49 Assuming that the preliminary checks
have established that the fuel pump is
operating correctly, that the fuel filter is
unlikely to be blocked, and also that there are
no leaks in the system, the next step is to
check the fuel pressure (see Chapter 4). If this
is correct, check the injectors (see Chapter 4)
and the Positive Crankcase Ventilation system
(see Chapter 1).
System test
50 The final element of the Ford testing
procedure is to carry out a system test, using
a break-out box - this is a device that is
connected between the ECU and its electrical
connector, so that the individual circuits
indicated by the fault code read-out can be
tested while connected to the system, if
necessary with the engine running. In the case
of many of the system’s components, this
enables their output voltages to be measured
- a more accurate means of testing.
51 In addition to the break-out box and the
adaptors required to connect it, several items
of specialist equipment are needed to
complete these tests. This puts them quite
beyond the scope of many smaller dealers, let
alone the DIY owner; the vehicle should be
taken to a Ford dealer for attention.
4 Information sensors general information, testing,
removal and refitting
Note: This Section is concerned principally
with the sensors which give the ECU the
information it needs to control the various
engine management sub-systems - for further
details of those systems and their other
components, refer to the relevant Chapter of
this manual.
General
ECU (Electronic Control Unit)
1 This component is the heart of the entire
engine management system, controlling the
fuel injection, ignition and emissions control
systems. It also controls sub-systems such as
the radiator cooling fan, air conditioning and
automatic transmission, where appropriate.
Refer to Section 2 of this Chapter for an
illustration of how it works.
Air mass meter
2 This uses a “hot-wire” system, sending the
ECU a constantly-varying (analogue) voltage
signal corresponding to the mass of air
passing into the engine. Since air mass varies
with temperature (cold air being denser than
warm), measuring air mass provides the ECU
with a very accurate means of determining the
correct amount of fuel required to achieve the
ideal air/fuel mixture ratio.
Crankshaft speed/position sensor
3 This is an inductive pulse generator bolted
(in a separate bracket) to the cylinder
block/crankcase, to scan the ridges between
36 holes machined in the inboard (right-hand)
face of the flywheel/driveplate. As each ridge
Emissions control systems 6•11
passes the sensor tip, a signal is generated,
which is used by the ECU to determine engine
speed.
4 The ridge between the 35th and 36th holes
(corresponding to 90° BTDC) is missing - this
step in the incoming signals is used by the
ECU to determine crankshaft (ie, piston)
position.
Camshaft position sensor
5 This is bolted to the rear left-hand end of
the cylinder head, to register with a lobe on
the inlet camshaft. It functions in the same
way as the crankshaft speed/position sensor,
producing a series of pulses (corresponding
to No 1 cylinder at 46° ATDC); this gives the
ECU a reference point, to enable it to
determine the firing order, and operate the
injectors in the appropriate sequence.
Coolant temperature sensor
6 This component, which is screwed into the
top of the thermostat housing, is an NTC
(Negative Temperature Coefficient) thermistor
- that is, a semi-conductor whose electrical
resistance decreases as its temperature
increases. It provides the ECU with a
constantly-varying (analogue) voltage signal,
corresponding to the temperature of the
engine coolant. This is used to refine the
calculations made by the ECU, when
determining the correct amount of fuel
required to achieve the ideal air/fuel mixture
ratio.
Intake air temperature sensor
7 This component, which is screwed into the
underside of the air intake resonator, is also an
NTC thermistor - see the previous paragraph providing the ECU with a signal corresponding
to the temperature of air passing into the
engine. This is used to refine the calculations
made by the ECU, when determining the
correct amount of fuel required to achieve the
ideal air/fuel mixture ratio.
Throttle potentiometer
8 This is mounted on the end of the throttle
valve spindle, to provide the ECU with a
constantly-varying (analogue) voltage signal
corresponding to the throttle opening. This
allows the ECU to register the driver’s input
when determining the amount of fuel required
by the engine.
Vehicle speed sensor
9 This component is a Hall-effect generator,
mounted on the transmission’s speedometer
drive. It supplies the ECU with a series of
pulses corresponding to the vehicle’s road
speed, enabling the ECU to control features
such as the fuel shut-off on the overrun, and
to provide information for the trip computer,
adaptive damping and cruise control systems
(where fitted).
Power steering pressure switch
10 This is a pressure-operated switch,
screwed into the power steering system’s
high-pressure pipe. Its contacts are normally
closed, opening when the system reaches the
specified pressure - on receiving this signal,
the ECU increases the idle speed, to
compensate for the additional load on the
engine.
Exhaust gas pressure differential
sensor
11 This component measures the difference
in pressure of the exhaust gases across a
venturi (restriction) in the Exhaust Gas
Recirculation (EGR) system’s pipe, and sends
the ECU a voltage signal corresponding to the
pressure difference.
Oxygen sensor
12 The oxygen sensor in the exhaust system
provides the ECU with constant feedback “closed-loop” control - which enables it to
adjust the mixture to provide the best possible
conditions for the catalytic converter to
operate.
13 The sensor has a built-in heating element
which is controlled by the ECU, in order to
bring the sensor’s tip to an efficient operating
temperature as rapidly as possible. The
sensor’s tip is sensitive to oxygen, and sends
the ECU a varying voltage depending on the
amount of oxygen in the exhaust gases. If the
intake air/fuel mixture is too rich, the exhaust
gases are low in oxygen, so the sensor sends
a low-voltage signal, the voltage rising as the
mixture weakens and the amount of oxygen in
the exhaust gases rises. Peak conversion
efficiency of all major pollutants occurs if the
intake air/fuel mixture is maintained at the
chemically-correct ratio for the complete
combustion of petrol, of 14.7 parts (by weight)
of air to 1 part of fuel (the “stoichiometric”
ratio). The sensor output voltage alters sharply
around this point, the ECU using the signal
change as a reference point, and correcting
the air/fuel mixture by altering the fuel injector
pulse width.
Air conditioning system
14 Two pressure-operated switches and the
compressor clutch solenoid are connected to
the ECU, to enable it to determine how the
system is operating. The ECU can increase
idle speed or switch off the system, as
necessary, so that normal vehicle operation
and driveability are not impaired. See Chapter
3 for further details, but note that diagnosis
and repair should be left to a dealer service
department or air conditioning specialist.
Automatic transmission
15 In addition to the driver’s controls, the
transmission has a speed sensor, a fluid
temperature sensor (built into the solenoid
valve unit), and a selector lever position
sensor. All of these are connected to the ECU,
to enable it to control the transmission
through the solenoid valve unit. See Part B of
Chapter 7 for further details.
Testing
ECU (Electronic Control Unit)
16 Do not attempt to “test” the ECU with any
kind of equipment. If it is thought to be faulty,
take the vehicle to a Ford dealer for the entire
electronic control system to be checked using
the proper diagnostic equipment. Only if all
other possibilities have been eliminated should
the ECU be considered at fault, and replaced.
Air mass meter
17 Testing of this component is beyond the
scope of the DIY mechanic, and should be left
to a Ford dealer.
Crankshaft speed/position sensor
18 Unplug the electrical connector from the
sensor.
19 Using an ohmmeter, measure the
resistance between the sensor terminals.
Compare this reading to the one listed in the
Specifications Section at the beginning of this
Chapter. If the indicated resistance is not
within the specified range, renew the sensor.
20 Plug in the sensor’s electrical connector
on completion.
Camshaft position sensor
21 The procedure is as described in
paragraphs 18 to 20 above.
Coolant temperature sensor
22 Refer to Chapter 3.
Intake air temperature sensor
23 Unplug the electrical connector from the
sensor.
24 Using an ohmmeter, measure the
resistance between the sensor terminals.
Depending on the temperature of the sensor
tip, the resistance measured will vary, but it
should be within the broad limits given in the
Specifications Section of this Chapter. If the
sensor’s temperature is varied - by placing it
in a freezer for a while, or by warming it gently
- its resistance should alter accordingly.
25 If the results obtained show the sensor to
be faulty, renew it.
Throttle potentiometer
26 Remove the plenum chamber (see
Chapter 4) and unplug the potentiometer’s
electrical connector.
27 Using an ohmmeter, measure the
resistance between the unit’s terminals - first
between the centre terminal and one of the
outer two, then from the centre to the
remaining outer terminal. The resistance
should be within the limits given in the
Specifications Section of this Chapter, and
should alter smoothly as the throttle valve is
moved from the fully-closed (idle speed)
position to fully open and back again.
28 If the resistance measured is significantly
different from the specified value, if there are
any breaks in continuity, or if the reading
fluctuates erratically as the throttle is
operated, the potentiometer is faulty, and
must be renewed.
6
6•12 Emissions control systems
4.36A Unclip and lift power steering fluid
reservoir - take care not to spill fluid . . .
4.36B . . . unscrew bolt (arrowed) to
release ECU’s electrical connector
Vehicle speed sensor
Removal and refitting
29 Testing of this component is beyond the
scope of the DIY mechanic, and should be left
to a Ford dealer.
General
Power steering pressure switch
30 Unplug the electrical connector from the
sensor.
31 Using an ohmmeter, measure the
resistance between the switch terminals. With
the engine switched off, or idling with the
roadwheels in the straight-ahead position,
little or no resistance should be measured.
With the engine running and the steering on
full-lock, the pressure increase in the system
should open the switch contacts, so that
infinite resistance is now measured.
32 If the results obtained show the switch to
be faulty, renew it.
35 Before disconnecting any of these
components, always disconnect the power by
uncoupling the battery terminals, negative
(earth) lead first - see Section 1 of Chapter 5.
ECU (Electronic Control Unit)
34 Testing of this component can be done
only by attaching special diagnostic
equipment to the sensor wiring, and checking
that the voltage varies from low to high values
when the engine is running; do not attempt to
“test” any part of the system with anything
other than the correct test equipment. This is
beyond the scope of the DIY mechanic, and
should be left to a Ford dealer.
Note: The ECU is fragile. Take care not to
drop it or subject it to any other kind of
impact, and do not subject it to extremes of
temperature, or allow it to get wet.
36 Carefully prise the power steering fluid
reservoir upwards out of its clip on the
suspension mounting. Unscrew the ECU
connector’s retaining bolt, and unplug the
connector (see illustrations).
37 Working in the passenger compartment,
unscrew the retaining bolt and withdraw the
mounting bracket (see illustration).
38 Lifting the ECU to release it from the
bulkhead carrier bracket, withdraw the unit
(see illustration).
39 Refitting is the reverse of the removal
procedure. Whenever the ECU (or battery) is
disconnected, the information relating to idle
speed control and other operating values will
be lost from its memory until the unit has reprogrammed itself; until then, there may be
surging, hesitation, erratic idle and a
generally-inferior level of performance. To
allow the ECU to re-learn these values, start
the engine and run it as close to idle speed as
possible until it reaches its normal operating
4.38 . . . then lift ECU to disengage it, and
withdraw it
4.40 Unplugging the air mass meter’s
electrical connector . . .
Exhaust gas pressure differential
sensor
33 Testing of this component is beyond the
scope of the DIY mechanic, and should be left
to a Ford dealer.
Oxygen sensor
4.37 Unscrew retaining bolt and withdraw
ECU’s mounting bracket . . .
temperature, then run it for approximately two
minutes at 1200 rpm. Next, drive the vehicle
as far as necessary - approximately 5 miles of
varied driving conditions is usually sufficient to complete the re-learning process.
Air mass meter
40 Releasing its wire clip, unplug the meter’s
electrical connector (see illustration).
41 Release the clips and lift the air cleaner
cover, then release the two smaller clips and
detach the meter from the cover (see
illustration).
42 Slacken the clamp securing the meter to
the resonator hose, and withdraw the meter.
43 Refitting is the reverse of the removal
procedure. Ensure that the meter and air
cleaner cover are seated correctly and securely
fastened, so that there are no air leaks.
Crankshaft speed/position sensor
44 Refer to Chapter 5.
Camshaft position sensor
45 Remove the air mass meter and resonator
(refer to Chapter 4) to gain access to the
sensor (see illustration). Release the fuel
feed and return hoses from their clip.
46 Releasing its wire clip, unplug the
sensor’s electrical connector. Remove the
retaining screw, and withdraw the sensor from
the cylinder head; be prepared for slight oil
loss.
47 Refitting is the reverse of the removal
procedure, noting the following points:
4.41 . . . release clips to separate meter
from air cleaner cover
Emissions control systems 6•13
4.45 Camshaft position sensor is located
at left-hand rear end of cylinder head
4.49 Intake air temperature sensor
(arrowed) is screwed into underside of air
intake resonator
(a) Apply petroleum jelly or clean engine oil
to the sensor’s sealing O-ring.
(b) Locate the sensor fully in the cylinder
head, and wipe off any surplus lubricant
before securing it.
(c) Tighten the screw to the specified torque
wrench setting.
normal operating sweep; the unit will be
seriously damaged.
54 Refitting is the reverse of the removal
procedure, noting the following points:
(a) Ensure that the potentiometer is correctly
orientated, by locating its centre on the Dshaped throttle shaft (throttle closed), and
aligning the potentiometer body so that
the bolts pass easily into the throttle
housing.
(b) Tighten the screws evenly and securely
(but do not overtighten them, or the
potentiometer body will be cracked).
Coolant temperature sensor
48 Refer to Chapter 3, Section 6.
Intake air temperature sensor
49 Remove the air mass meter and resonator
(refer to Chapter 4) to gain access to the
sensor (see illustration).
50 Releasing its clip, unplug the sensor’s
electrical connector, then unscrew the sensor
from the resonator.
51 Refitting is the reverse of the removal
procedure. Tighten the sensor to the specified
torque wrench setting; if it is overtightened, its
tapered thread may crack the resonator.
Throttle potentiometer
52 Remove the plenum chamber (see
Chapter 4). Releasing its wire clip, unplug the
large electrical connector (next to the fuel
pressure regulator).
53 Releasing its wire clip, unplug the
potentiometer’s electrical connector. Remove
the retaining screws, and withdraw the unit
from the throttle housing (see illustration). Do
not force the sensor’s centre to rotate past its
4.55 Vehicle speed sensor “A”, with its
electrical connector “B”
Vehicle speed sensor
55 The sensor is mounted at the base of the
speedometer drive cable, and is removed with
the speedometer drive pinion (see
illustration). Refer to the relevant Section of
Chapter 7, Part A or B, as applicable.
Power steering pressure switch
56 Releasing its clip, unplug the switch’s
electrical connector, then unscrew the switch
(see illustration). Place a wad of rag
underneath, to catch any spilt fluid. If a
sealing washer is fitted, renew it if it is worn or
damaged.
57 Refitting is the reverse of the removal
procedure; tighten the switch securely, then
top-up the fluid reservoir (see Chapter 1) to
replace any fluid lost from the system, and
bleed out any trapped air (see Chapter 10,
Section 33).
4.56 Power steering pressure switch is
screwed into pipe at right-hand rear end of
engine
4.53 Throttle potentiometer is secured by
two screws (arrowed)
Exhaust gas pressure differential
sensor
Note: See also Section 6, illustration 6.21.
58 If better access is required, remove the
resonator (see Chapter 4).
59 Releasing its wire clip, unplug the
sensor’s electrical connector. Remove the
two retaining screws, withdraw the unit from
the bulkhead mounting bracket, then
disconnect the two vacuum hoses. Note that
the hoses are of different sizes, to ensure that
they cannot be mixed up on reconnection.
60 Check the condition of both hoses, and
renew them if necessary (see Chapter 1).
61 Refitting is the reverse of the removal
procedure. Ensure that the hoses are securely
connected to the correct unions.
Oxygen sensor
Note: The sensor is delicate, and will not work
if it is dropped or knocked, if its power supply
is disrupted, or if any cleaning materials are
used on it.
62 Release the sensor’s electrical connector
from its bracket on the engine/transmission
front mounting, and unplug it to disconnect
the sensor (see illustration).
63 Raising and supporting the front of the
vehicle if required to remove the sensor from
underneath, unscrew the sensor from the
exhaust system front downpipe; collect the
sealing washer (where fitted).
64 On refitting, clean the sealing washer
4.62 Oxygen sensor is screwed into
exhaust system front downpipe . . .
6
6•14 Emissions control systems
4.64 . . . slotted socket will be required to
tighten sensor with a torque wrench
5.10 Charcoal canister-purge solenoid
valve (arrowed) is clipped to bulkhead
behind engine
5.14 Support rear suspension
crossmember on jack, and remove
mounting bolts (arrowed) . . .
(where fitted) and renew it if it is damaged or
worn. Apply a smear of anti-seize compound
to the sensor’s threads, to prevent them from
welding themselves to the downpipe in
service. Refit the sensor, tightening it to its
specified torque wrench setting; a slotted
socket will be required to do this (see
illustration). Reconnect the wiring and refit
the connector plug.
purge solenoid valve, and disconnected,
misrouted, kinked or damaged vapour or
control hoses.
5 Inspect each hose attached to the canister
for kinks, leaks and cracks along its entire
length. Repair or renew as necessary.
6 Inspect the canister. If it is cracked or
damaged, renew it. Look for fuel leaking from
the bottom of the canister. If fuel is leaking,
renew the canister, and check the hoses and
hose routing.
7 If the canister-purge solenoid valve is
thought to be faulty, unplug its electrical
connector and disconnect its vacuum hoses.
Connect a battery directly across the valve
terminals. Check that air can flow through the
valve passages when the solenoid is thus
energised, and that nothing can pass when the
solenoid is not energised. Alternatively,
connect an ohmmeter to measure the
resistance across the solenoid terminals, and
compare this reading to the one listed in the
Specifications Section at the beginning of this
Chapter. Renew the solenoid valve if it is faulty.
8 Further testing should be left to a dealer
service department.
10 Unplug the valve’s electrical connector
(see illustration). Unclip the valve from the
bulkhead, then disconnect its vacuum hoses
and withdraw it.
11 Refitting is the reverse of the removal
procedure.
5 EVAPorative emissions control
(EVAP) system general information, checking
and component renewal
General description
1 This system is fitted to minimise the escape
of unburned hydrocarbons into the
atmosphere. The fuel tank filler cap is sealed,
and a charcoal canister is mounted
underneath the tank, to collect and store
petrol vapours generated in the tank when the
vehicle is parked. When the engine is running,
the vapours are cleared from the canister
(under the control of the ECU via the canisterpurge solenoid valve) into the inlet tract, to be
burned by the engine during normal
combustion - see illustration 2.1A.
2 To ensure that the engine runs correctly
when it is cold and/or idling, and to protect
the catalytic converter from the effects of an
over-rich mixture, the canister-purge solenoid
valve is not opened by the ECU until the
engine is fully warmed-up and running under
part-load; the solenoid valve is then switched
on and off, to allow the stored vapour to pass
into the inlet.
Charcoal canister - Saloon and
Hatchback models
9 If better access is required, remove the
plenum chamber (see Chapter 4). Disconnect
the battery negative (earth) lead - see Section 1 of Chapter 5.
Note: Read through this procedure carefully
before starting work, and ensure that the
equipment is available that is required to carry
it out safely and with minimum risk of damage,
and to align the crossmember with sufficient
accuracy on reassembly.
12 Remove the fuel tank (see Chapter 4).
13 Ensure that the rear of the vehicle’s body
is supported securely on axle stands, then
support the rear suspension crossmember
with a jack. Remove the roadwheels and
unscrew the rear suspension strut top
mounting bolts (two per side - see Chapter
10).
14 Use white paint or similar (do not use a
sharp-pointed scriber, which might break the
underbody protective coating and cause
rusting) to mark the exact relationship of the
crossmember to the underbody. Unscrew the
four mounting bolts (see illustration). Lower
the crossmember approximately 3 inches (75
mm) on the jack, and support it securely.
Warning: DO NOT place any part
of your body under the vehicle
when it is supported only by a
jack!
5.15 . . . lower crossmember by 3 inches,
and unscrew charcoal canister assembly
rear retaining bolts (arrowed) . . .
5.16 . . . unplug hoses (arrowed) from
canister assembly . . .
Component renewal
Charcoal canister-purge solenoid
valve
Checking
3 Poor idle, stalling and poor driveability can
be caused by an inoperative canister-purge
solenoid valve, a damaged canister, split or
cracked hoses, or hoses connected to the
wrong fittings. Check the fuel filler cap for a
damaged or deformed gasket.
4 Fuel loss or fuel odour can be caused by
liquid fuel leaking from fuel lines, a cracked or
damaged canister, an inoperative canister-
Emissions control systems 6•15
5.17 . . . and remove front retaining bolt
(arrowed) to release canister assembly Saloon and Hatchback models
5.18 Release clip and drive out pin to
separate canister from mounting bracket
15 Unscrew the two rearmost canister
assembly retaining bolts (see illustration).
16 Unplug the two hoses from the canister
assembly, noting which way round they are
fitted (see illustration).
17 Unscrew the canister assembly’s front
retaining bolt (see illustration). Withdraw the
canister assembly.
18 Release the clip, and drive out the pin to
separate the canister from its bracket (see
illustration).
19 On reassembly, refit the canister to its
bracket and refit the assembly to the vehicle,
tightening the retaining bolts securely, and
ensuring that the two hoses are securely
reconnected to their original unions.
20 Offer up the crossmember and refit the
crossmember bolts, tightening them only
lightly at this stage.
21 The crossmember must now be aligned
on the underbody. Ford specify the use of
service tool 15-097, which is a pair of tapered
guides, with attachments to hold them in the
crossmember as it is refitted (see
illustration). However, since the working
diameter of these tools is 20.4 mm, and since
the corresponding aligning holes in the
crossmember and underbody are 21 mm and
22 mm in diameter, there is a significant inbuilt tolerance possible in the crossmember’s
alignment, even if the correct tools are used. If
these tools are not available, align the
crossmember by eye, centring the
crossmember aligning holes on those of the
underbody, and using the marks made on
removal for assistance. Alternatively, use a
tapered drift such as a clutch-aligning tool, or
a deep socket spanner of suitable size.
22 Once the crossmember is aligned as
precisely as possible, tighten its bolts to the
specified
torque
(see
Chapter
10
Specifications) without disturbing its position
(see illustration). Recheck the alignment
once all the bolts are securely tightened.
23 The remainder of the refitting procedure is
the reverse of removal.
24 Remember that, since the rear suspension
crossmember has been disturbed, the wheel
alignment and steering angles must be
checked fully and carefully as soon as
possible, with any necessary adjustments
being made. This operation is best carried out
by an experienced mechanic using proper
checking equipment; the vehicle should
therefore be taken to a Ford dealer or similar
for attention.
Charcoal canister - Estate models
25 Disconnect the battery negative (earth)
lead - see Section 1 of Chapter 5.
26 Raise the rear of the vehicle, and support
it securely on axle stands.
Warning: DO NOT place any part
of your body under the vehicle
when it is supported only by a
jack!
5.21 Refitting rear suspension crossmember
with Ford service tools (arrowed) in place to
align it with underbody . . .
27 Disconnect the two hoses from the
canister assembly, noting which way round
they are fitted.
28 Unscrew the canister assembly retaining
bolt and withdraw the assembly, unclipping it
from the front mounting.
29 Remove the plastic cover, and drive out
the pin to separate the canister from its
bracket (see illustration).
30 On refitting, secure the canister to its
bracket, and refit the assembly to the vehicle.
Tighten the retaining bolt securely, and ensure
that the two hoses are securely reconnected
to their original unions.
6 Exhaust Gas Recirculation
(EGR) system general information, checking
and component renewal
General information
1 To reduce oxides of nitrogen (NO x)
emissions, some of the exhaust gases are
recirculated through the EGR valve to the inlet
manifold. This has the effect of lowering
combustion temperatures.
2 The system consists of the EGR valve, the
EGR exhaust gas pressure differential sensor,
the EGR solenoid valve, the ECU, and various
sensors - see illustration 2.1A. The ECU is
programmed to produce the ideal EGR valve
lift for each operating condition.
Checking
EGR valve
5.22 . . . ensure aligned crossmember
does not move - Ford tools used here while mounting bolts are tightened
5.29 Charcoal canister assembly - Estate
models - showing plastic cover (arrowed)
and pin securing canister to mounting
bracket
3 Start the engine and allow it to idle.
4 Detach the vacuum hose from the EGR
valve, and attach a hand vacuum pump in its
place.
5 Apply vacuum to the EGR valve. Vacuum
should remain steady, and the engine should
run poorly.
(a) If the vacuum doesn’t remain steady and
the engine doesn’t run poorly, renew the
EGR valve and recheck it.
(b) If the vacuum remains steady but the
engine doesn’t run poorly, remove the
6
6•16 Emissions control systems
6.9A Disconnecting vacuum hose from
Exhaust Gas Recirculation (EGR) valve . . .
6.9B . . . unscrew EGR pipe sleeve nut and
remove bolts (arrowed) to release valve
from inlet manifold
6.10 Check end fitting of EGR pipe into
inlet manifold whenever manifold is
removed, but do not disturb
EGR valve, and check the valve and the
inlet manifold for blockage. Clean or
renew parts as necessary, and recheck.
However, check whenever the manifold is
removed that the pipe’s end fitting is securely
fastened (see illustration).
11 Check the valve for sticking and heavy
carbon deposits. If such is found, clean the
valve or renew it.
12 Refitting is the reverse of the removal
procedure. Apply a smear of anti-seize
compound to the sleeve nut threads, fit a new
gasket, and tighten the valve bolts to the
specified torque wrench setting.
their connections on the pipe must be cleaned
thoroughly.
18 Refitting is the reverse of the removal
procedure; ensure that the hoses are securely
connected to the correct unions. Apply a
smear of anti-seize compound to the sleeve
nut threads, tighten the nuts securely, and
tighten the two screws to their specified
torque wrench setting.
EGR pipe
19 Refer to Section 4 of this Chapter.
EGR solenoid valve
7 Disconnect the battery negative (earth) lead
- see Section 1 of Chapter 5.
8 Remove the air mass meter and resonator refer to Chapter 4.
9 Detach the vacuum hose, unscrew the
sleeve nut securing the EGR pipe to the valve,
remove the two valve mounting bolts, and
withdraw the valve from the inlet manifold
(see illustrations). Ensure that the end of the
pipe is not damaged or distorted as the valve
is withdrawn, and note the valve’s gasket; this
must be renewed whenever the valve is
disturbed.
10 Note that the metal pipe from the valve to
the manifold itself should not be disturbed - it
is not available separately from the manifold.
13 Disconnect the battery negative (earth)
lead - see Section 1 of Chapter 5.
14 Remove the air mass meter and resonator
- refer to Chapter 4.
15 Unbolt the exhaust manifold heat shield
and remove both parts, or move them aside
as required to reach the end of the EGR pipe.
Unscrew the sleeve nut securing the pipe to
the exhaust manifold (see illustration).
16 Undo the two screws securing the pipe to
the ignition coil bracket, then disconnect the
two vacuum hoses - note that these are of
different sizes, to ensure that they cannot be
mixed up on reconnection. Unscrew the
sleeve nut securing the EGR pipe to the valve
(see illustration). Withdraw the pipe.
17 Check the condition of both hoses, and
renew them if necessary (see Chapter 1). Note
that if the exhaust gases have been backfiring
excessively - eg, due to a blocked exhaust
system - both hoses must be renewed, and
6.15 Unbolt exhaust manifold heat shield,
and unscrew sleeve nut (arrowed) securing
EGR pipe to exhaust manifold . . .
6.16 . . . undo screws “A” and sleeve
nut “B”, then disconnect hoses “C” - note
different sizes - to release EGR pipe
EGR system
6 Any further checking of the system requires
special tools and test equipment. Take the
vehicle to a dealer service department for
checking.
Component renewal
Note: These components will be very hot
when the engine is running. Always allow the
engine to cool down fully before starting work,
to prevent the possibility of burns.
EGR valve
EGR exhaust gas pressure differential
sensor
Note: This component can be identified by its
larger top and its two fastening screws. Do not
confuse it with the adjacent pulse-air solenoid
valve, especially when reconnecting vacuum
hoses.
20 Disconnect the battery negative (earth)
lead - see Section 1 of Chapter 5.
21 Remove the air mass meter and resonator
- refer to Chapter 4. If better access is
required, remove the plenum chamber also
(see illustration).
22 Releasing its wire clip, unplug the
electrical connector from the valve. Remove
the two retaining screws, and withdraw the
valve from the bulkhead mounting bracket,
then label and disconnect the two vacuum
hoses.
23 Refitting is the reverse of the removal
procedure; ensure that the hoses are correctly
reconnected.
6.21 EGR solenoid valve “A” and EGR
exhaust gas pressure differential sensor
“B”, located on bulkhead mounting bracket
Emissions control systems 6•17
7.10 Pulse-air solenoid valve (arrowed) is
located on bulkhead mounting bracket. It
can be identified by its smaller top and its
clip fastening - do not confuse it with the
adjacent EGR solenoid valve
7 Pulse-air system general information
General information
1 This system consists of the pulse-air
solenoid valve, the pulse-air valve itself,
contained in the filter housing, and the piping
- see illustration 2.1A. It injects filtered air
directly into the exhaust ports, using the
pressure variations in the exhaust gases to
draw air through from the filter housing; air will
flow into the exhaust only when its pressure is
below atmospheric. The pulse-air valve can
allow gases to flow only one way, so there is
no risk of hot exhaust gases flowing back into
the filter.
2 The system’s primary function is raise
exhaust gas temperatures on start-up, thus
reducing the amount of time taken for the
oxygen sensor and catalytic converter to
reach operating temperature. Until this
happens, the system reduces emission of
unburned hydrocarbon particles (HC) and
carbon monoxide (CO) by ensuring that a
considerable proportion of these substances
remaining in the exhaust gases after
combustion are burned up, either in the
manifold itself or in the catalytic converter.
3 To ensure that the system does not upset
the smooth running of the engine under
normal driving conditions, it is linked by the
pulse-air solenoid valve to the ECU, so that it
only functions during engine warm-up, when
the oxygen sensor is not influencing the
fuel/air mixture ratio.
7.13 Disconnect vacuum hose from base
of pulse-air filter housing . . .
7.16 . . . undo screws “A” to disconnect
piping from housing, and mounting
bolt “B” to release housing
7 If the pulse-air solenoid valve is thought to
be faulty, unplug its electrical connector and
disconnect its vacuum hoses. Connect a
battery directly across the valve terminals,
and check that air can flow through the valve
passages when the solenoid is thus
energised, and that nothing can pass when
the solenoid is not energised. Alternatively,
connect an ohmmeter to measure the
resistance across the valve terminals, and
compare this reading to the one listed in the
Specifications Section at the beginning of this
Chapter. Renew the solenoid valve if it is
faulty.
8 Further testing should be left to a dealer
service department.
Withdraw the valve, then label and disconnect
the two vacuum hoses.
12 Refitting is the reverse of the removal
procedure; ensure that the hoses are correctly
reconnected.
Pulse-air filter housing
Note: This component can be identified by its
smaller top and its clip fastening. Do not
confuse it with the adjacent EGR solenoid
valve, especially when reconnecting vacuum
hoses.
9 Disconnect the battery negative (earth) lead
- see Section 1 of Chapter 5.
10 Remove the air mass meter and resonator
- refer to Chapter 4. If better access is
required, remove the plenum chamber also
(see illustration).
11 Releasing its wire clip, unplug the
electrical connector, then use a small
screwdriver to release the clip securing the
valve to the bulkhead mounting bracket.
Note: This component, and those around it,
will be very hot when the engine is running.
Always allow the engine to cool down fully
before starting work, to prevent the possibility
of burns.
13 Raise the front of the vehicle, and support
it securely on axle stands. Disconnect the
vacuum hose from the base of the filter
housing (see illustration).
14 Disconnect the battery negative (earth)
lead - see Section 1 of Chapter 5.
15 Unbolt the resonator support bracket
from the engine compartment front
crossmember, slacken the two clamp screws
securing the resonator to the air mass meter
and plenum chamber hoses, then swing the
resonator up clear of the thermostat housing
(see Chapter 4).
16 Remove the screws securing the filter
housing to the piping, unscrew the mounting
bolt, then withdraw the housing (see
illustration).
17 To dismantle the filter housing, undo the
four screws and separate the top from the
base of the housing; extract the foam filter,
and clean it in a suitable solvent (see
illustrations). If any of the housing’s
7.17A Remove four screws to release filter
housing top from base . . .
7.17B . . .and withdraw foam filter for
cleaning, if required - note valve in base of
housing
Component renewal
Pulse-air solenoid valve
Checking
4 Poor idle, stalling, backfiring and poor
driveability can be caused by a fault in the
system.
5 Inspect the vacuum pipe/hose connected
between the filter housing and the solenoid
valve for kinks, leaks and cracks along its
entire length. Repair or renew as necessary.
6 Inspect the filter housing and piping. If
either is cracked or damaged, renew it.
6
6•18 Emissions control systems
7.23 Removing pulse-air piping - take care
not to bend or distort it
components are worn or damaged, the
assembly must be renewed.
18 Refitting is the reverse of the removal
procedure.
Pulse-air piping
Note: This component, and those around it,
will be very hot when the engine is running.
Always allow the engine to cool down fully
before starting work, to prevent the possibility
of burns.
19 Disconnect the battery negative (earth)
lead - see Section 1 of Chapter 5.
20 Remove the air mass meter and resonator
- refer to Chapter 4.
21 Unbolt the exhaust manifold heat shield;
unclip the coolant hose to allow the upper
part to be withdrawn. Apply penetrating oil to
the EGR pipe sleeve nut, and to the pulse-air
system sleeve nuts.
22 Remove the EGR pipe (see Section 6).
23 Remove the screws securing the filter
housing to the piping - see illustration 7.16.
Unscrew the four sleeve nuts securing the
pipes into the exhaust manifold, and remove
the piping as an assembly, taking care not to
distort it (see illustration).
24 Carefully clean the piping, particularly its
threads and those of the manifold, removing
all traces of corrosion, which might prevent
them seating properly, causing air leaks when
the engine is restarted.
25 On refitting, insert the piping carefully into
the cylinder head ports, taking care not to
bend or distort it. Apply anti-seize compound
to the threads, and tighten the retaining sleeve
nuts while holding each pipe firmly in its port;
if a suitable spanner is available, tighten the
sleeve nuts to the specified torque wrench
setting.
26 The remainder of the refitting procedure is
the reverse of removal.
7.31 Remove mounting bolt (arrowed) to
remove complete pulse-air assembly again, take care not to bend or distort
piping
resonator support bracket from the engine
compartment front crossmember. Slacken the
two clamp screws securing the resonator to
the air mass meter and plenum chamber
hoses, then swing the resonator up clear of
the thermostat housing (see Chapter 4).
28 Drain the cooling system (see Chapter 1)
and disconnect the coolant hose and the
coolant pipe/hose from the thermostat
housing.
29 Unbolt the exhaust manifold heat shield.
Apply penetrating oil to the EGR pipe sleeve
nut, and to the pulse-air system sleeve nuts.
30 Remove the EGR pipe (see Section 6).
31 Unscrew the filter housing mounting bolt.
Unscrew the four sleeve nuts securing the
pipes into the exhaust manifold and remove
the assembly, taking care not to distort it (see
illustration).
32 Clean the piping, particularly its threads
and those of the manifold, removing all traces
of corrosion, which might prevent them
seating properly, causing air leaks when the
engine is restarted.
33 On refitting, insert the piping carefully into
the cylinder head ports, taking care not to
bend or distort it. Apply anti-seize compound
to the threads, and tighten the retaining sleeve
nuts while holding each pipe firmly in its port;
if a suitable spanner is available, tighten the
sleeve nuts to the specified torque wrench
setting.
34 The remainder of the refitting procedure is
the reverse of removal. Refill the cooling
system (see Chapter 1). Run the engine,
check for exhaust leaks, and check the
coolant level when it is fully warmed-up.
8 Positive Crankcase Ventilation
(PCV) system general information
General information
1 The crankcase ventilation system main
components are the oil separator mounted on
the front (radiator) side of the cylinder
block/crankcase, and the Positive Crankcase
Ventilation (PCV) valve set in a rubber
grommet in the separator’s left-hand upper
end. The associated pipework consists of a
crankcase breather pipe and two flexible
hoses connecting the PCV valve to a union on
the left-hand end of the inlet manifold, and a
crankcase breather hose connecting the
cylinder head cover to the air cleaner
assembly (see illustration). A small foam filter
in the air cleaner prevents dirt from being
drawn directly into the engine.
Pulse-air filter housing and piping
assembly
Note: These components, and those around
them, will be very hot when the engine is
running. Always allow the engine to cool down
fully before starting work, to prevent the
possibility of burns.
27 Disconnect the battery negative (earth)
lead - see Chapter 5, Section 1. Unbolt the
8.1 Positive Crankcase Ventilation system
1 Oil separator
2 Gasket
3 Positive Crankcase Ventilation (PCV) valve
4 Cylinder block/crankcase opening
5 Crankcase breather pipe and flexible hoses
Emissions control systems 6•19
2 The function of these components is to
reduce
the
emission
of
unburned
hydrocarbons from the crankcase, and to
minimise the formation of oil sludge. By
ensuring that a depression is created in the
crankcase under most operating conditions,
particularly at idle, and by positively inducing
fresh air into the system, the oil vapours and
“blow-by” gases collected in the crankcase
are drawn from the crankcase, through the oil
separator, into the inlet tract, to be burned by
the engine during normal combustion.
Checking
3 Checking procedures for the system
components are included in Chapter 1.
Component renewal
Cylinder head-to-air cleaner hose
4 See Chapter 1.
Positive Crankcase Ventilation (PCV)
valve
5 The valve is plugged into the oil separator.
Depending on the tools available, access to
the valve may be possible once the pulse-air
assembly has been removed (see Section 7).
If this is not feasible, proceed as outlined in
paragraph 6 below.
Oil separator
6 Remove the exhaust manifold (see Chapter 2, Part A). The Positive Crankcase
Ventilation (PCV) valve can now be unplugged
and flushed, or renewed, as required, as
described in Chapter 1.
7 Unbolt the oil separator from the cylinder
block/crankcase, and withdraw it; remove and
discard the gasket.
8 Flush out or renew the oil separator, as
required (see Chapter 1).
9 On reassembly, fit a new gasket, and
tighten the fasteners to the torque wrench
settings given in the Specifications Section of
Chapter 2, Part B.
10 The remainder of the refitting procedure is
the reverse of removal. Refill the cooling
system (see Chapter 1). Run the engine,
check for exhaust leaks, and check the
coolant level when it is fully warmed-up.
9 Catalytic converter general information, checking
and component renewal
General information
1 The exhaust gases of any petrol engine
(however efficient or well-tuned) consist
largely (approximately 99 %) of nitrogen (N2),
carbon dioxide (CO2), oxygen (O2), other inert
gases and water vapour (H2O). The remaining
1 % is made up of the noxious materials
which are currently seen (CO2 apart) as the
major polluters of the environment: carbon
monoxide (CO), unburned hydrocarbons (HC),
oxides of nitrogen (NO x) and some solid
matter, including a small lead content.
2 Left to themselves, most of these pollutants
are thought eventually to break down naturally
(CO and NOx, for example, break down in the
upper atmosphere to release CO2) having first
caused ground-level environmental problems.
The massive increase world-wide in the use of
motor vehicles, and the current popular
concern for the environment has caused the
introduction in most countries of legislation, in
varying degrees of severity, to combat the
problem.
3 The device most commonly used to clean
up vehicle exhausts is the catalytic converter.
It is fitted into the vehicle’s exhaust system,
and uses precious metals (platinum and
palladium or rhodium) as catalysts to speed
up the reaction between the pollutants and
the oxygen in the vehicle’s exhaust gases, CO
and HC being oxidised to form H2O and CO2
and (in the three-way type of catalytic
converter) NO x being reduced to N 2. Note:
The catalytic converter is not a filter in the
physical sense; its function is to promote a
chemical reaction, but it is not itself affected
by that reaction.
4 The converter consists of an element (or
“substrate”) of ceramic honeycomb, coated
with a combination of precious metals in such
a way as to produce a vast surface area over
which the exhaust gases must flow; the whole
being mounted in a stainless-steel box. A
simple “oxidation” (or “two-way”) catalytic
converter can deal with CO and HC only,
while a “reduction” (or “three-way”) catalytic
converter can deal with CO, HC and NO x.
Three-way catalytic converters are further
sub-divided
into
“open-loop”
(or
“uncontrolled”) converters which can remove
50 to 70 % of pollutants and “closed-loop”
(also known as “controlled” or “regulated”)
converters which can remove over 90 % of
pollutants.
5 The catalytic converter fitted to the Mondeo
models covered in this manual is of the threeway closed-loop type.
6 The catalytic converter is a reliable and
simple device, which needs no maintenance
in itself, but there are some facts of which an
owner should be aware if the converter is to
function properly for its full service life.
(a) DO NOT use leaded petrol in a vehicle
equipped with a catalytic converter - the
lead will coat the precious metals,
reducing their converting efficiency, and
will eventually destroy the converter; it will
also affect the operation of the oxygen
sensor, requiring its renewal if leadfouled. Opinions vary as to how much
leaded fuel is necessary to affect the
converter’s performance, and whether it
can recover even if only unleaded petrol is
used afterwards; the best course of action
is, therefore, to assume the worst, and to
ensure that NO leaded petrol is used at
any time.
(b) Always keep the ignition and fuel systems
(c)
(d)
(e)
(f)
(g)
(h)
(i)
(j)
well-maintained in accordance with the
manufacturer’s schedule (Chapter 1) particularly, ensure that the air filter
element, the fuel filter and the spark plugs
are renewed at the correct intervals. If the
intake air/fuel mixture is allowed to
become too rich due to neglect, the
unburned surplus will enter and burn in
the catalytic converter, overheating the
element and eventually destroying the
converter.
If the engine develops a misfire, do not
drive the vehicle at all (or at least as little
as possible) until the fault is cured - the
misfire will allow unburned fuel to enter
the converter, which will result in its
overheating, as noted above. For the
same reason, do not persist if the engine
refuses to start - either trace the problem
and cure it yourself, or have the vehicle
checked immediately by a qualified
mechanic.
Avoid allowing the vehicle to run out of
petrol.
DO NOT push- or tow-start the vehicle
unless no other alternative exists,
especially if the engine and exhaust are at
normal operating temperature. Starting
the engine in this way may soak the
catalytic converter in unburned fuel,
causing it to overheat when the engine
does start - see (b) above.
DO NOT switch off the ignition at high
engine speeds, in particular, do not “blip”
the throttle immediately before switching
off. If the ignition is switched off at
anything above idle speed, unburned fuel
will enter the (very hot) catalytic converter,
with the possible risk of its igniting on the
element and damaging the converter.
Avoid repeated successive cold starts
followed by short journeys. If the
converter is never allowed to reach its
proper working temperature, it will gather
unburned fuel, allowing some to pass into
the atmosphere and the rest to soak in
the element, causing it to overheat when
a long journey is made - see (b) above.
DO NOT use fuel or engine oil additives these may contain substances harmful to
the catalytic converter. Similarly, DO NOT
use silicone-based sealants on any part of
the engine or fuel system, and do not use
exhaust sealants on any part of the
exhaust system upstream of the catalytic
converter. Even if the sealant itself does
not contain additives harmful to the
converter, pieces of it may break off and
foul the element, causing local
overheating.
DO NOT continue to use the vehicle if the
engine burns oil to the extent of leaving a
visible trail of blue smoke. Unburned
carbon deposits will clog the converter
passages and reduce its efficiency; in
severe cases, the element will overheat.
Remember that the catalytic converter
operates at very high temperatures -
6
6•20 Emissions control systems
hence the heat shields on the vehicle
underbody - and the casing will become
hot enough to ignite combustible
materials which brush against it. DO NOT,
therefore, park the vehicle in dry
undergrowth, over long grass or piles of
dead leaves.
(k) Remember that the catalytic converter is
FRAGILE. Do not strike it with tools
during servicing work, and take great care
when working on the exhaust system (see
Chapter 4). Ensure that the converter is
well clear of any jacks or other lifting gear
used to raise the vehicle. Do not drive the
vehicle over rough ground, road humps,
etc, in such a way as to “ground” the
exhaust system.
(l) In some cases, particularly when the
vehicle is new and/or is used for
stop/start driving, a sulphurous smell (like
that of rotten eggs) may be noticed from
the exhaust. This is common to many
catalytic converter-equipped vehicles,
and seems to be due to the small amount
of sulphur found in some petrols reacting
with hydrogen in the exhaust, to produce
hydrogen sulphide (H2S) gas; while this
gas is toxic, it is not produced in sufficient
amounts to be a problem. Once the
vehicle has covered a few thousand miles,
the problem should disappear - in the
meanwhile, a change of driving style, or of
the brand of petrol used, may effect a
solution.
(m) The catalytic converter on a wellmaintained and well-driven vehicle should
last for between 50 000 and 100 000
miles. From this point on, careful checks
should be made at regular intervals to
ensure that the converter is still operating
efficiently. If the converter is no longer
effective, it must be renewed.
Checking
7 Checking the operation of a catalytic
converter
requires
expensive
and
sophisticated diagnostic equipment, starting
with a high-quality exhaust gas analyser. If the
level of CO in the exhaust gases is too high, a
full check of the engine management system
must be carried out (see Section 3 of this
Chapter) to eliminate all other possibilities
before the converter is suspected of being
faulty.
8 The vehicle should be taken to a Ford
dealer for this work to be carried out using the
correct diagnostic equipment; do not waste
time trying to test the system without such
facilities.
Component renewal
9 The catalytic converter is part of the
exhaust system front downpipe - see Chapter 4 for details of removal and refitting.
10•1
Chapter 10 Suspension and steering systems
Contents
Front anti-roll bar and links - removal and refitting . . . . . . . . . . . . . . 6
Front hub and bearings - inspection and renewal . . . . . . . . . . . . . . 3
Front suspension lower arm - removal, overhaul and refitting . . . . . 7
Front suspension lower arm balljoint - renewal . . . . . . . . . . . . . . . . 8
Front suspension strut - overhaul . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Front suspension strut - removal and refitting . . . . . . . . . . . . . . . . . 4
General information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
Power steering fluid level check . . . . . . . . . . . . . . . . . See Chapter 1
Power steering gear (all except left-hand-drive models
with ABS) - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . 30
Power steering gear (left-hand-drive models with ABS) removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
Power steering gear rubber gaiters - renewal . . . . . . . . . . . . . . . . . . 32
Power steering hydraulic system - bleeding . . . . . . . . . . . . . . . . . . . 33
Power steering pump - removal and refitting . . . . . . . . . . . . . . . . . . 34
Rear anti-roll bar and links (Estate models) - removal and refitting . 20
Rear anti-roll bar and links (Saloon/Hatchback models) removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Rear coil spring (Estate models) - removal and refitting . . . . . . . . . . 21
Rear hub and bearings (Estate models) - inspection and renewal . . 17
Rear hub and bearings (Saloon/Hatchback models) inspection and renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Rear shock absorber (Estate models) - removal, testing and refitting . 19
Rear suspension crossmember (Estate models) - removal
and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
Rear suspension crossmember (Saloon/Hatchback models) removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
Rear suspension front lower arm (Estate models) - removal
and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Rear suspension knuckle (Estate models) - removal and refitting . . 18
Rear suspension knuckle (Saloon/Hatchback models) - removal
and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
Rear suspension lower arms (Saloon/Hatchback models) removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Rear suspension rear lower arm (Estate models) - removal
and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
Rear suspension strut (Saloon/Hatchback models) - overhaul . . . . . 12
Rear suspension strut (Saloon/Hatchback models) removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Rear suspension tie-bar (Estate models) - removal and refitting . . . 25
Rear suspension tie-bar (Saloon/Hatchback models) removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Rear suspension upper arm (Estate models) - removal
and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Steering column - removal, inspection and refitting . . . . . . . . . . . . . 28
Steering column flexible coupling - removal and refitting . . . . . . . . . 29
Steering knuckle and hub assembly - removal and refitting . . . . . . . 2
Steering, suspension and wheel check . . . . . . . . . . . . See Chapter 1
Steering wheel - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . 27
Track rod end - renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
Tyre condition and tyre pressure checks . . . . . . . . . . . See Chapter 1
Wheel alignment and steering angles - general information . . . . . . . 36
Degrees of difficulty
Easy, suitable for
novice with little
experience
Fairly easy, suitable
for beginner with
some experience
Fairly difficult, suitable
for competent DIY
mechanic
Difficult, suitable for
experienced DIY
mechanic
Very difficult,
suitable for expert DIY
or professional
Specifications
Front wheel alignment
Toe setting:
Tolerance allowed before resetting required . . . . . . . . . . . . . . . . . . . .
Adjustment setting (if required) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
0.5 mm to 3.5 mm toe-out (0°05’ to 0°35’ toe-out)
2.0 mm ± 1.0 mm toe-out (0°20’ ± 0°10’ toe-out)
Rear wheel alignment
Toe setting:
Tolerance allowed before resetting required:
Saloon/Hatchback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Estate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Adjustment setting (if required):
Saloon/Hatchback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Estate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.9 mm toe-in to 0.1 mm toe-out (0°38’ toe-in to 0°02’ toe-out)
2.7 mm toe-in to 1.3 mm toe-out (0°27’ toe-in to 0°13’ toe-out)
1.9 mm ± 1.2 mm toe-in (0°18’ ± 0°12’ toe-in)
0.7 mm ± 1.2 mm toe-in (0°07’ ± 0°12’ toe-in)
Roadwheels and tyres
Wheel sizes:
Steel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Alloy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Tyre sizes:
Wheel size 14 x 5 1/2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Wheel size 15 x 6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Tyre pressures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
14 x 5 1/2
14 x 5 1/2 or 15 x 6
185/65/14 or 195/60VR/14
205/55VR/15
See Chapter 1 Specifications
10
10•2 Suspension and steering systems
Torque wrench settings
Nm
lbf ft
110 to 150
58
48 to 60
81 to 111
43
35 to 44
50
70
Slacken completely
50
Tighten through further 90°
24
41 to 58
84
46
59
340
37
52
18
30 to 43
62
34
44
251
Rear suspension (Saloon/Hatchback)
Crossmember mounting bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Front lower arm to knuckle and to crossmember . . . . . . . . . . . . . . . . . .
Rear lower arm to knuckle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Rear lower arm to crossmember . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Anti-roll bar . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Anti-roll bar link . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Suspension strut to knuckle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Drum brake backplate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Disc brake splash shield . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Hub nut . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Tie-bar and tie-bar bracket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Suspension strut upper mounting bolts . . . . . . . . . . . . . . . . . . . . . . . . .
Suspension strut upper nut . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
102 to 138
70 to 98
102 to 138
70 to 98
19 to 26
30 to 40
70 to 98
45 to 54
90
290
102 to 138
23 to 30
41 to 58
75 to 102
52 to 72
75 to 102
52 to 72
14 to 19
22 to 30
52 to 72
33 to 40
66
181
75 to 102
17 to 22
30 to 43
Rear suspension (Estate)
Same as for Saloon/Hatchback, except for the following.
Crossmember mounting bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Front lower arm to knuckle and to crossmember . . . . . . . . . . . . . . . . . .
Upper arm to knuckle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Upper arm to crossmember . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Rear lower arm to knuckle and to crossmember . . . . . . . . . . . . . . . . . .
Anti-roll bar . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Anti-roll bar link . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Hub assembly-to-knuckle retaining bolts . . . . . . . . . . . . . . . . . . . . . . . .
Tie-bar to bracket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Tie-bar bracket to underbody . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Tie-bar to knuckle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Shock absorber upper mounting bolt . . . . . . . . . . . . . . . . . . . . . . . . . . .
Shock absorber lower mounting bolt . . . . . . . . . . . . . . . . . . . . . . . . . . .
120
120
120
84
84
25
35
65
120
120
84
84
120
89
89
89
62
62
19
26
48
89
89
62
62
89
Steering
Steering gear mounting bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Track rod end to steering knuckle . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Track rod end locknut . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Steering wheel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Flexible coupling-to-pinion shaft clamp bolt . . . . . . . . . . . . . . . . . . . . .
Power steering pipe unions to valve body . . . . . . . . . . . . . . . . . . . . . . .
Steering column-to-coupling clamp bolt . . . . . . . . . . . . . . . . . . . . . . . .
Steering column mounting bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Steering pump mounting bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Steering pump pressure line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
114 to 159
25 to 30
34 to 47
45 to 55
23 to 32
27 to 35
20 to 27
20 to 27
21 to 28
57 to 73
84 to 117
18 to 22
25 to 35
33 to 41
17 to 24
20 to 26
14 to 20
14 to 20
15 to 21
42 to 54
Roadwheel nuts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
85
63
Front suspension
Front subframe . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Lower arm balljoint to lower arm (service replacement, bolted on) . . . .
Lower arm balljoint-to-steering knuckle clamp bolt . . . . . . . . . . . . . . .
Lower arm to subframe:
Stage 1 (used components) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Stage 1 (new components) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Stage 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Stage 3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Stage 4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Anti-roll bar . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Anti-roll bar link . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Suspension strut-to-steering knuckle pinch-bolt . . . . . . . . . . . . . . . . . .
Suspension strut upper mounting nut . . . . . . . . . . . . . . . . . . . . . . . . . . .
Suspension strut thrust bearing retaining nut . . . . . . . . . . . . . . . . . . . . .
Driveshaft/hub retaining nut . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
37
Suspension and steering systems 10•3
1 General information
The independent front suspension is of
MacPherson strut type, incorporating coil
springs, integral telescopic shock absorbers,
and an anti-roll bar. The struts are attached to
steering knuckles at their lower ends, and the
knuckles are in turn attached to the lower
suspension arm by balljoints. The anti-roll bar
is bolted to the rear of the subframe, and is
connected to the front suspension struts by
links (see illustration).
On Saloon/Hatchback models, the
independent rear suspension is of
“Quadralink” type, having four mounting
points on each side of the vehicle. The two
lower arms are attached to the rear
suspension knuckle at their outer ends, and to
the rear crossmember at their inner ends. A
tie-bar, located between the bottom of the
knuckle and the floor, counteracts braking
and acceleration forces on each side (see
illustration).
On Estate models, the independent rear
suspension is of “SLA” (Short and Long Arm)
type. This allows a larger load area, since
there are no suspension points projecting into
the luggage area. There are three side arms
on each side: one forged upper arm, and two
1 MacPherson strut
2 Steering knuckle
3 Lower arm
1.1 Front suspension components
4 Vertical silent bush on
6 Front subframe
lower arm
7 Front subframe rubber bush
5 Anti-roll bar
8 Rear subframe rubber bush
1.2 Rear suspension components on
Saloon/Hatchback models
1 Wheel housing
2 Upper mounting bracket and coil spring seat
3 Strut
4 Solenoid valve for adaptive damping
5 Rear suspension crossmember
6 Eccentric bolt for rear toe setting
7 Anti-roll bar
8 Link
9 Front lower arm
10 Rear lower arm
11 Knuckle (drum brake models)
12 ABS wheel sensor
(drum brake models)
13 Tie-bar
14 Backplate
15 Hub and bearing assembly
16 Hub nut
17 Grease cap
18 Brake drum
19 Tie-bar mounting bracket
20 Brake disc
21 Splash shield (disc brake models)
22 Brake caliper (disc brake models)
23 Knuckle (disc brake models)
24 ABS wheel sensor (disc brake models)
10
10•4 Suspension and steering systems
1.3 Rear suspension components on
Estate models
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
Tie-bar bracket
Short front lower arm
Long front upper arm
Shock absorber
Crossmember
Anti-roll bar
Coil spring
Rear lower arm
Stub axle (part of hub and bearing
assembly)
Knuckle
Brake caliper (disc brake models)
Hub nut
Brake drum
Splash guard (disc brake models)
Brake disc
Hub and bearing assembly
Backplate (drum brake models)
ABS wheel sensor
Tie-bar
pressed-steel lower side arms. A tie-bar on
each side supports the rear suspension
knuckles. The coil springs are separate from
the shock absorbers (see illustration).
A rear anti-roll bar is fitted to all models. On
SI models, the front and rear shock absorbers
are gas-filled; on other models, they are filled
with fluid. Self-levelling rear shock absorbers
are fitted as standard to Ghia Estate models.
A variable-ratio type rack-and-pinion
steering gear is fitted, together with a
conventional column and telescopic coupling,
incorporating two universal joints. Powerassisted steering is fitted to all models. A
power steering system fluid cooler is fitted, in
front of the cooling system radiator on the
crossmember (see illustration). On models
with adaptive damping, a steering position
sensor with sensor disc is located above the
upper universal joint.
On models with adaptive damping, it is
possible to select a hard or soft setting for the
front and rear shock absorbers. The system is
computer-controlled; a switch is provided
near the handbrake lever for selection of
“Sport” or “Normal” mode. With this system, a
solenoid valve is fitted to each suspension
strut. When the valve is open, the hydraulic oil
inside the shock absorber is routed through a
bypass channel, making the action “softer”.
When the solenoid valve is closed, the shock
absorber action becomes “harder”. The
system takes into consideration the
roadspeed of the vehicle; at high speeds, the
shock absorbers are automatically set to
“hard”. The adaptive damping computer
module is located in the luggage
compartment, behind the rear seat, and
incorporates a self-test function. Adaptive
damping is not available on Estate models
(see illustrations).
When working on the suspension or
steering, you may come across nuts or bolts
which seem impossible to loosen. These nuts
and bolts on the underside of the vehicle are
continually subjected to water, road grime,
mud, etc, and can become rusted or seized,
making them extremely difficult to remove. In
order to unscrew these stubborn nuts and
bolts without damaging them (or other
components), use lots of penetrating oil, and
allow it to soak in for a while. Using a wire
brush to clean exposed threads will also ease
removal of the nut or bolt, and will help to
prevent damage to the threads. Sometimes, a
sharp blow with a hammer and punch will
break the bond between a nut and bolt, but
care must be taken to prevent the punch from
slipping off and ruining the threads. Heating
the nut or bolt and surrounding area with a
blow lamp sometimes helps too, but this is
not recommended, because of the obvious
dangers associated with fire. Extension bars
or pipes will increase leverage, but never use
one on a ratchet, as the internal mechanism
could be damaged. Actually tightening the nut
or bolt first may help to break it loose. Nuts or
bolts which have required drastic measures to
remove them should always be renewed.
1.5 The power steering system fluid cooler
is located in front of the radiator
1.6A Adaptive damping switch located
near the handbrake lever
1.6B Adaptive damping computer module
located in the luggage compartment
Suspension and steering systems 10•5
Since most of the procedures dealt with in
this Chapter involve jacking up the vehicle
and working underneath it, a good pair of axle
stands will be needed. A hydraulic trolley jack
is the preferred type of jack to lift the vehicle,
and it can also be used to support certain
components during removal and refitting
operations.
Warning: Never, under any
circumstances, rely on a jack to
support the vehicle while working
beneath it. When jacking up the vehicle, do
not lift or support it beneath the front or
rear subframes.
2 Steering knuckle and hub
assembly removal and refitting
Removal
1 Apply the handbrake. Remove the wheel
cover from the relevant front wheel, and
loosen (but do not remove) the driveshaft/hub
nut. This nut is very tight.
2 Loosen the front wheel nuts, jack up the
front of the vehicle and support it on axle
stands. Remove the front wheel.
3 Extract the split pin from the track rod end
balljoint nut. Unscrew the nut, and detach the
rod from the arm on the steering knuckle
using a conventional balljoint removal tool.
Take care not to damage the balljoint seal.
4 Remove the ABS sensor (when fitted) as
described in Chapter 9.
5 Remove the brake caliper and brake disc as
described in Chapter 9, but do not disconnect
the flexible hose from the caliper. Suspend
the caliper from a suitable point under the
wheel arch, taking care not to strain the hose.
6 Unscrew and remove the driveshaft/hub
nut. Note that the nut is of special laminated
design, and should only be re-used a
maximum of 5 times. (It is a good idea to file a
small notch on the nut every time it is
removed.) Obtain a new nut if necessary.
7 Note which way round the lower arm
balljoint clamp bolt is fitted, then unscrew and
remove it from the knuckle assembly. Lever
the balljoint down from the knuckle; if it is
tight, prise the clamp open using a large flatbladed tool. Take care not to damage the
balljoint seal during the separation procedure.
8 Unscrew and remove the pinch-bolt
securing the steering knuckle assembly to the
front suspension strut, noting which way
round it is fitted. Prise open the clamp using a
wedge-shaped tool, and release the knuckle
from the strut. If necessary, tap the knuckle
downwards with a soft-headed mallet to
separate the two components. Support the
knuckle on an axle stand.
9 Pull the steering knuckle and hub assembly
from the driveshaft splines. If it is tight,
connect a universal puller to the hub flange,
and withdraw it from the driveshaft. When the
driveshaft is free, support it on an axle stand,
or suspend it from a suitable point under the
wheel arch, making sure that the inner
constant velocity joint is not turned through
more than 18°. (Damage may occur if the joint
is turned through too great an angle.)
Refitting
10 Lift the steering knuckle and hub
assembly onto the driveshaft splines, and
support the assembly on an axle stand.
11 Locate the assembly on the front
suspension strut. Insert the pinch-bolt with its
head facing forwards. Fit the nut and tighten it
to the specified torque.
12 Refit the lower arm balljoint to the knuckle
assembly, and insert the clamp bolt with its
head facing forwards. Refit the nut and tighten
it to the specified torque.
13 Refit the driveshaft/hub nut, and tighten it
moderately at this stage. Final tightening of
the nut is made with the vehicle lowered to the
ground.
14 Refit the brake caliper and brake disc as
described in Chapter 9.
15 Where fitted, refit the ABS sensor as
described in Chapter 9.
16 Reconnect the track rod end balljoint to
the steering arm, and tighten the nut to the
specified torque. Check that the split pin
holes are aligned; if necessary, turn the nut to
the nearest alignment, making sure that the
torque wrench setting is still within the
specified range. Insert a new split pin, and
bend it back to secure.
17 Refit the front wheel, and lower the
vehicle to the ground. Tighten the wheel nuts
to the specified torque.
18 Tighten the driveshaft/hub nut to the
specified torque, and refit the wheel cover.
the hub using a length of metal tube of
suitable diameter (see illustration).
6 Part of the inner race will remain on the hub,
and this should be removed using a puller.
7 Note that if this procedure is being used to
renew the hub only (ie it is not intended to
renew the bearings), then it is important to
check the condition of the bearing balls and
races, to see if they are fit for re-use. It is
difficult to be sure that no damage has
occurred, especially if makeshift methods
have been used during removal; in practice, it
is probably false economy not to renew the
bearings in any case, having got this far.
8 Using circlip pliers, extract the inner and
outer circlips securing the hub bearing in the
steering knuckle (see illustration).
9 Press or drive out the bearing, using a
length of metal tubing of diameter slightly less
than the bearing outer race.
10 Clean the bearing seating faces in the
steering knuckle.
3 Front hub and bearings inspection and renewal
Inspection
1 The front hub bearings are non-adjustable,
and are supplied already greased.
2 To check the bearings for excessive wear,
apply the handbrake, jack up the front of the
vehicle and support it on axle stands.
3 Grip the front wheel at top and bottom, and
attempt to rock it. If excessive movement is
noted, it may be that the hub bearings are
worn. Do not confuse wear in the driveshaft
outer joint or front suspension lower arm
balljoint with wear in the bearings. Hub
bearing wear will show up as roughness or
vibration when the wheel is spun; it will also
be noticeable as a rumbling or growling noise
when driving.
3.5 Front hub and bearing
1 Hub
4 Stub axle
2 Double-row ball-bearing 5 Steering knuckle
3 Circlips
6 ABS sensor
10
Renewal
4 Remove the steering knuckle and hub
assembly as described in Section 2.
5 The hub must now be removed from the
bearing inner races. It is preferable to use a
press to do this, but it is possible to drive out
3.8 Front wheel bearing retaining circlips
(arrowed)
10•6 Suspension and steering systems
4.2 Removing the brake hose support
bracket from the front of the front
suspension strut
4.7 Removing the anti-roll bar link and
ABS sensor wiring bracket
4.10 Front suspension strut upper
mounting nut
12 Unscrew and remove the pinch-bolt
securing the steering knuckle assembly to the
front suspension strut, noting which way
round it is fitted. Prise open the clamp using a
wedge-shaped tool, and release the knuckle
from the strut (see illustrations).
1 Apply the handbrake, then jack up the front
of the vehicle and support it on axle stands.
Remove the appropriate front wheel.
2 Unbolt the brake hose support bracket from
the front of the suspension strut (see
illustration).
3 Remove the brake caliper as described in
Chapter 9, but do not disconnect the flexible
hydraulic hose from the caliper. Suspend the
caliper from a suitable point under the wheel
arch, taking care not to strain the hose.
4 Extract the split pin from the track rod end
balljoint nut. Unscrew the nut, and detach the
rod from the arm on the steering knuckle
using a conventional balljoint removal tool.
Take care not to damage the balljoint seal.
5 Remove the ABS sensor (when fitted) from
the steering knuckle, as described in Chapter 9.
6 Remove the clip securing the driveshaft
inner gaiter to the inner CV joint. Disconnect
the gaiter from the CV joint housing.
7 Remove the nut and disconnect the anti-roll
bar link from the strut. Note that, on models
fitted with ABS, the ABS wheel sensor wiring
support bracket is located beneath the nut
(see illustration).
8 Note which way round the lower arm
balljoint clamp bolt is fitted, then unscrew and
remove it from the knuckle assembly. Lever
the balljoint down from the knuckle; if it is
tight, prise the clamp open carefully using a
large flat-bladed tool. Take care not to
damage the balljoint seal during the
separation procedure.
9 Where applicable, disconnect the adaptive
damping wiring multi-plug at the strut, and
unclip the wire.
10 Support the strut and steering knuckle on
an axle stand. Working inside the engine
compartment, remove the strut cap (if fitted).
Unscrew and remove the front suspension
strut upper mounting nut, holding the piston
rod stationary with an 8 mm Allen key (see
illustration).
11 Lower the suspension strut, together with
the driveshaft and steering knuckle, from
under the wheel arch, withdrawing the tripod
on the inner end of the driveshaft from the CV
joint housing.
4.12A Steering knuckle-to-strut pinch-bolt
4.12B Releasing the knuckle from the strut
11 Locate one of the circlips in the outer
groove of the knuckle.
12 Press or drive the new bearing into the
knuckle until it contacts the circlip, using a
length of metal tube of diameter slightly less
than the outer race. Do not apply any
pressure to the inner race.
13 Locate the remaining circlip in the inner
groove of the knuckle.
14 Support the inner race on a length of
metal tube, then press or drive the hub fully
into the bearing.
15 Refit the steering knuckle and hub
assembly as described in Section 2.
4 Front suspension strut removal and refitting
Removal
Refitting
13 With the clamp prised open, locate the
front suspension strut on the steering knuckle,
and refit the pinch-bolt with its head facing
forwards. Tighten the bolt to the specified
torque.
14 Locate the suspension strut (together with
the driveshaft and steering knuckle) in its
upper mounting, and loosely screw on the
nut.
15 Locate the tripod on the inner end of the
driveshaft in the CV joint housing, then
manipulate the gaiter onto the housing, and fit
a new clip.
16 Where applicable, reconnect the adaptive
damping multi-plug, and fit the wire in the clip.
17 Locate the lower arm balljoint fully in the
bottom of the steering knuckle. Refit the
clamp bolt and tighten it to the specified
torque.
18 Reconnect the anti-roll bar link to the
strut, and tighten the nut to the specified
torque. On models fitted with ABS, do not
forget to locate the sensor wiring support
bracket beneath the nut.
19 Where fitted, refit the ABS sensor as
described in Chapter 9.
20 Refit the track rod end balljoint to the
steering knuckle, and tighten the nut to the
specified torque. Check that the split pin
holes are aligned; if necessary, turn the nut to
the nearest alignment, making sure that the
torque wrench setting is still within the
specified range. Insert a new split pin, and
bend it back to secure.
21 Refit the brake caliper as described in
Chapter 9.
22 Refit the brake hose support bracket to
the strut, and tighten the bolt.
23 Refit the wheel, and lower the vehicle to
the ground. Tighten the wheel nuts to the
specified torque.
24 Tighten the suspension strut upper
mounting nut to the specified torque, while
Suspension and steering systems 10•7
4.24 Final tightening of the front
suspension strut upper mounting nut
5.3 Coil spring compressor tools fitted to
the coil spring
5.4 Unscrewing the nut from the top of the
strut
holding the piston rod with an 8 mm Allen key.
If the adaptor needed to do this is not
available, the nut can be tightened initially
with a ring spanner while the piston rod is
held. Final tightening can then be carried out
using a torque wrench and a conventional
socket (see illustration).
away all external dirt, then mount it in a vice.
3 Fit the coil spring compressor tools
(ensuring that they are fully engaged), and
compress the spring until all tension is relieved
from the upper mounting (see illustration).
4 Hold the strut piston with an Allen key, and
unscrew the thrust bearing retaining nut with a
ring spanner (see illustration).
5 Withdraw the top mounting, thrust bearing,
upper spring seat and spring, followed by the
gaiter and the bump stop (see illustrations).
6 If a new spring is to be fitted, the original
5 Front suspension strut overhaul
Warning: Before attempting to
dismantle the front suspension
strut, a tool to hold the coil spring
in compression must be obtained.
Do not attempt to use makeshift methods.
Uncontrolled release of the spring could
cause damage and personal injury. Use a
high-quality spring compressor, and
carefully follow the tool manufacturer’s
instructions provided with it. After removing
the coil spring with the compressor still
fitted, place it in a safe, isolated area.
1 If the front suspension struts exhibit signs
of wear (leaking fluid, loss of damping
capability, sagging or cracked coil springs)
then they should be dismantled and
overhauled as necessary. The struts
themselves cannot be serviced, and should
be renewed if faulty, but the springs and
related components can be renewed. To
maintain balanced characteristics on both
sides of the vehicle, the components on both
sides should be renewed at the same time.
2 With the strut removed from the vehicle, clean
5.5A Front suspension strut components
1
2
3
4
5
6
Cap
Nut
Retainer
Nut
Top mounting
Thrust bearing
7
8
9
10
11
Upper spring seat
Spring
Bump stop
Gaiter
Lower spring seat
12
13
14
15
Strut
Steering knuckle
Clamp bolt
Solenoid valve for models
with adaptive damping
10
5.5B Removing the top mounting from the strut
5.5C Removing the gaiter
5.5D Removing the bump stop
10•8 Suspension and steering systems
spring must now be carefully released from
the compressor. If it is to be re-used, the
spring can be left in compression.
7 With the strut assembly now completely
dismantled, examine all the components for
wear and damage, and check the bearing for
smoothness of operation. Renew components
as necessary.
8 Examine the strut for signs of fluid leakage.
Check the strut piston for signs of pitting
along its entire length, and check the strut
body for signs of damage. Test the operation
of the strut, while holding it in an upright
position, by moving the piston through a full
stroke, and then through short strokes of 50
to 100 mm. In both cases, the resistance felt
should be smooth and continuous. If the
resistance is jerky, uneven, or if there is any
visible sign of wear or damage to the strut,
renewal is necessary.
9 Reassembly is a reversal of dismantling,
noting the following points:
(a) Make sure that the coil spring ends are
correctly located in the upper and lower
seats before releasing the compressor.
(b) Check that the bearing is correctly fitted
to the piston rod seat.
(c) Tighten the thrust bearing retaining nut to
the specified torque.
6.2A Unscrew the nut . . .
6.2B . . . and disconnect the anti-roll bar
link and (on ABS models) the sensor wiring
support bracket
5 If necessary, unscrew the nuts and remove
the links from the anti-roll bar.
to the gaiter when the steering knuckle is
moved outwards to remove the lower arm.
7 Note which way round the front suspension
lower arm balljoint clamp bolt is fitted, then
unscrew and remove it from the knuckle
assembly. Lever the balljoint down from the
knuckle; if it is tight, prise the joint open carefully
using a large flat-bladed tool. Take care not to
damage the balljoint seal during the separation
procedure. Support the inner end of the
driveshaft on an axle stand (see illustrations).
8 Remove the lower arm from the subframe,
and withdraw it from the vehicle.
Refitting
6 Refitting is a reversal of the removal
procedure.
7 Front suspension lower arm removal, overhaul and refitting
Removal
1 Apply the handbrake, jack up the front of
the vehicle and support it on axle stands.
Remove both front wheels.
2 Unscrew the nuts, and disconnect the antiroll bar links from the front suspension struts
on both sides of the vehicle. Note that, on
models with ABS, the wheel sensor wiring
support brackets are located beneath the nuts
(see illustrations).
3 Unscrew and remove the anti-roll bar
mounting bolts from the engine subframe on
both sides of the vehicle.
4 Withdraw the anti-roll bar from one side of
the vehicle, taking care not to damage the
surrounding components.
1 Apply the handbrake, jack up the front of
the vehicle and support it on axle stands.
Remove the appropriate wheel.
2 If removing the right-hand side lower arm,
remove the auxiliary drivebelt cover where
necessary.
3 Unscrew and remove the nuts and bolts
securing the lower arm to the subframe (see
illustration).
4 Unscrew the nuts and disconnect the antiroll bar links from the anti-roll bar on both
sides. Swivel the anti-roll bar upwards away
from the lower arm.
5 Extract the split pin from the track rod end
balljoint nut. Unscrew the nut, and detach the
rod from the arm on the steering knuckle
using a conventional balljoint removal tool.
Take care not to damage the balljoint seal.
6 Remove the clip securing the driveshaft
inner gaiter to the inner CV joint, and
disconnect the gaiter from the CV joint
housing. This is necessary to prevent damage
7.3 One of the nuts and bolts securing the
lower arm to the subframe
7.7A Unscrew the lower arm balljoint
clamp bolt . . .
6 Front anti-roll bar and links removal and refitting
Removal
Overhaul
9 Examine the rubber bushes and the
suspension lower balljoint for wear and
damage. The balljoint may be renewed as
described in Section 8. The rubber bushes
may be removed using a press, or a length of
metal tubing together with a long bolt,
washers and nut.
10 Note that the front and rear bushes are
different. The front one has a solid rubber
bush with a cylindrical inner tube, whereas the
rear one has a voided rubber bush with a
barrel-shaped inner tube (see illustration).
11 Press the new bushes into the lower arm,
using the same method as used for removal.
Note that, when fitting the rear bush, the voids
must be in line with the front bush location.
On later models, a pip on the rear bush must
be aligned with a triangular alignment mark on
the arm.
7.7B . . . and disconnect the balljoint from
the knuckle
Suspension and steering systems 10•9
8.0 Original riveted front suspension lower
arm balljoint
1 Front bush
2 Cylindrical inner tube
7.10 Front suspension lower arm bushes
3 Rear bush
5 Front of vehicle
4 Barrel-shaped inner tube
Refitting
12 Locate the lower arm on the subframe,
and insert the mounting bolts. Fit the nuts and
tighten them in stages, first to the specified
torque and then through the angle specified.
13 If removed, locate the tripod on the inner
end of the driveshaft in the CV joint housing,
then refit the gaiter, together with a new clip.
14 Refit the front suspension lower arm
balljoint to the knuckle assembly, and insert
the clamp bolt with its head facing forwards.
Refit the nut and tighten to the specified
torque.
15 Refit the track rod end balljoint to the
steering knuckle, and tighten the nut to the
specified torque. Check that the split pin
holes are aligned; if necessary, turn the nut to
align the holes, making sure that the torque
wrench setting is still within the specified
range. Insert a new split pin, and bend it back
to secure.
16 Swivel the anti-roll bar down, then
reconnect the links to the bar and tighten the
nuts to the specified torque.
17 If working on the right-hand side, refit the
auxiliary drivebelt cover where necessary.
18 Refit the wheel, and lower the vehicle to
the ground.
8 Front suspension lower arm
balljoint - renewal
Note: If the lower arm balljoint is worn, either
the complete lower arm or the balljoint alone
can be renewed. If the balljoint has already
been renewed, it will be bolted in position; if
the original balljoint is being renewed, then it
will be riveted in position (see illustration).
This Section describes the renewal of a
riveted balljoint.
1 Remove the front suspension lower arm as
described in Section 7. It is not recommended
that the balljoint be replaced with the lower
arm in position on the vehicle; the accurate
drilling necessary may not be possible, and
the holes in the arm may be enlarged.
2 With the lower arm on the bench, use a
3 mm drill to make a pilot hole through each of
the three rivets. Now use a 9 mm drill to drill
the rivets to a depth of 12 mm, then use a 7 or
8 mm drift to drive the rivets out of the arm.
3 Clean any rust or dirt from the rivet holes.
4 The new balljoint is supplied with a
protective plastic cover over the rubber boot
and stub, and it is recommended that this
remains in position until it is time to connect
the balljoint to the steering knuckle.
5 Locate the new balljoint on the lower arm,
and use three new bolts to secure it, inserting
the bolts from the top of the arm. Tighten the
nuts to the specified torque. Make sure that
the location lug on the balljoint engages the
hole in the lower arm (see illustration).
6 Refit the front suspension lower arm as
described in Section 7.
9 Rear hub and bearings
(Saloon/Hatchback models) inspection and renewal
Note: Removal of the rear hub damages the
bearings, and renders them unserviceable for
future use. The hub and bearing assembly
must always be renewed if it is removed.
Inspection
1 The rear hub bearings are non-adjustable,
and are supplied complete with the hub. It is
not possible to renew the bearings separately
from the hub.
2 To check the bearings for excessive wear,
8.5 Location lug (1) and bolt hole (2) in the
front suspension lower arm balljoint
chock the front wheels, then jack up the rear
of the vehicle and support it on axle stands.
Fully release the handbrake.
3 Grip the rear wheel at the top and bottom,
and attempt to rock it. If excessive movement
is noted, or if there is any roughness or
vibration felt when the wheel is spun, it is
indicative that the hub bearings are worn.
Renewal
4 Remove the rear wheel.
5 On models fitted with rear brake drums,
remove the rear brake drum as described in
Chapter 9.
6 On models fitted with rear brake discs,
remove the rear brake disc as described in
Chapter 9.
7 On all models, tap off the dust cap and
unscrew the hub nut. Note that the nut is of
special laminated design, and should only be
re-used a maximum of 5 times. It is a good
idea to mark the nut with a file every time it is
removed. Obtain a new one if necessary.
8 Using a suitable puller, draw the hub and
bearing assembly off the stub axle. Note that
this procedure renders the bearings
unserviceable for future use.
9 Locate the new rear hub and bearing
assembly on the stub axle, then refit the hub
nut and tighten it to the specified torque.
10 Tap the dust cap fully onto the hub.
11 Refit the rear brake disc or drum as
applicable, as described in Chapter 9.
12 Refit the rear wheel, and lower the vehicle
to the ground.
10
10•10 Suspension and steering systems
10.5 Two of the bolts securing the brake
backplate to the rear suspension knuckle
10 Rear suspension knuckle
(Saloon/Hatchback models) removal and refitting
Note: Removal of the rear hub from the
knuckle damages the bearings, and renders
them unserviceable for future use. The hub
and bearing assembly must always be
renewed if it is removed.
Removal
1 Chock the front wheels, then jack up the
rear of the vehicle and support it on axle
stands. Remove the appropriate rear wheel.
2 When applicable, remove the ABS sensor
from the knuckle as described in Chapter 9.
3 Remove the rear hub and bearing assembly
as described in Section 9.
Drum brake models
4 Fit a brake hose clamp to the flexible brake
hose, then release the clip and detach the
flexible hose from the strut. Unscrew the
union nut, and detach the rigid brake pipe
from the wheel cylinder. If preferred (to
eliminate any bleeding procedure during
refitting) the rigid brake pipe may remain
attached to the wheel cylinder, provided that
care is taken to prevent damage to both the
rigid and flexible brake pipes.
5 Unbolt the backplate from the rear
suspension knuckle (see illustration), and
support it to one side on an axle stand. The
brake shoes and handbrake cable can remain
attached.
11.3 Unclipping the ABS sensor wiring
from the strut
11.4 Location of the adaptive damping
lead (1) and multi-plug (2)
the knuckle downwards from the strut.
Withdraw the knuckle from under the rear
wheel arch.
be retracted into the strut, and will provide
additional room for releasing the strut from
the bump stop on top of the rear suspension
crossmember.
Refitting
11 Locate the knuckle fully on the strut, then
insert the clamp bolt and tighten to the
specified torque.
12 Refit the front and rear lower arms to the
knuckle, and insert the bolts finger-tight at
this stage.
13 Refit the tie-bar to the bottom of the
knuckle, and insert the bolt finger-tight at this
stage.
14 Refit the backplate (or splash shield, as
applicable) to the rear suspension knuckle,
and tighten the bolts to the specified torque.
Drum brake models
15 Reconnect the rigid brake pipe to the
wheel cylinder (if disconnected), and tighten
the union nut.
16 Attach the flexible hose to the strut, refit
the clip, and remove the hose clamp.
All models
17 Fit a new rear hub and bearing assembly
as described in Section 9.
18 Where applicable, refit the ABS sensor as
described in Chapter 9.
19 Refit the wheel, and lower the vehicle to
the ground.
20 With the weight of the vehicle on the
suspension, fully tighten the mounting bolts
for the tie-bar and lower arms.
21 Where applicable, bleed the hydraulic
brake circuit as described in Chapter 9.
Disc brake models
6 Unbolt the splash shield from the rear
suspension knuckle.
All models
7 Unscrew and remove the bolt securing the
tie-bar to the bottom of the knuckle, and
move the tie-bar downwards.
8 Unscrew and remove the bolts securing the
front and rear lower arms to the knuckle, and
move the arms to one side.
9 Support the knuckle on an axle stand, then
unscrew and remove the clamp bolt securing
the knuckle to the strut.
10 Prise the top of the knuckle apart carefully
using a large flat-bladed tool, and withdraw
11 Rear suspension strut
(Saloon/Hatchback models) removal and refitting
Note: Before attempting to remove the rear
suspension strut, a tool to hold the coil spring
in compression must be obtained. Careful use
of conventional coil spring compressors will
prove satisfactory.
Removal
1 In order to remove the rear suspension
strut, the coil spring must be temporarily
compressed. This will enable the piston rod to
Warning: It is important to only
use a high-quality spring
compressor; carefully follow the
tool manufacturer’s instructions
provided with it.
2 Chock the front wheels, then jack up the
rear of the vehicle and support it on axle
stands. Remove the appropriate wheel.
3 Where fitted, unclip the ABS sensor wiring
from the strut, and remove the sensor from
the knuckle as described in Chapter 9 (see
illustration).
4 On models fitted with adaptive damping,
unclip the wiring from the strut and
disconnect the multi-plug (see illustration).
5 On drum brake models, fit a brake hose
clamp to the rear flexible brake hose, then
unscrew the union nut securing the rigid brake
pipe to the flexible hose on the strut. Extract
the clip, and disconnect the flexible hose from
the strut.
6 On models fitted with rear disc brakes,
unbolt the caliper from the knuckle as
described in Chapter 9, but leave the
hydraulic hose attached. Support the caliper
on an axle stand, making sure that the flexible
hose is not strained.
7 Unscrew the nut securing the rear anti-roll
bar link to the front lower arm on the
appropriate side. Hold the actual link with an
adjustable spanner or grips while unscrewing
the nut, to prevent damage to the link joint.
8 Unscrew and remove the bolt securing the
tie-bar to the bottom of the knuckle. Move the
tie-bar downwards (see illustrations).
9 Unscrew and remove the bolts securing the
front and rear lower arms to the knuckle, and
move the arms to one side (see illustrations).
10 Support the knuckle on a trolley jack, then
unscrew and remove the clamp bolt securing
the knuckle to the strut (see illustrations).
11 Prise the clamp on the knuckle apart
using a large flat-bladed tool. Disconnect the
knuckle from the strut, and lower it on the
trolley jack as far as possible, taking care not
to damage the handbrake cable (see
illustration).
Suspension and steering systems 10•11
11.8A Tie-bar mounting bolt on knuckle
12 Fit the coil spring compressor tool
(ensuring that it is fully engaged), and
compress the coil spring until all tension is
relieved from the upper and lower mountings
(see illustration). This will also release the
bracket on the strut from the bump stop
rubber on the top of the rear crossmember.
13 Support the strut, then reach up under the
wheel arch, and unscrew the two bolts
securing the upper mounting to the
underbody (see illustration).
14 Slightly lift the strut, to force the piston
into the shock absorber and release the strut
bracket from the bump stop on the
crossmember. Lower the strut assembly and
withdraw it from under the vehicle (see
illustration).
11.10A Support the knuckle on a trolley
jack . . .
11.8B Remove the bolt . . .
11.8C . . . and move the tie-bar
downwards
11.9A Unscrew the bolt . . .
11.9B . . . and remove the rear lower arm
from the knuckle
11.10B . . . and remove the knuckle-tostrut clamp bolt
11.11 Separating the knuckle from the
strut
10
11.12 Compressor tools fitted to the rear
coil spring
11.13 Bolts (arrowed) securing the strut
upper mounting to the underbody
11.14 Removing the rear suspension strut
10•12 Suspension and steering systems
12.1A Rear strut dismantling - unscrew
the upper mounting nut . . .
12.1B . . . remove the cup . . .
12.1C . . . upper mounting bracket and
seat . . .
24 Where applicable, refit the ABS sensor as
described in Chapter 9, and clip the wiring to
the strut.
25 Refit the wheel, and lower the vehicle to
the ground.
26 With the weight of the vehicle on the rear
suspension, fully tighten the lower arm and
tie-bar mounting bolts.
12 Rear suspension strut
(Saloon/Hatchback models) overhaul
12.1D . . . gaiter and bump stop . . .
Refitting
15 Locate the strut assembly (together with
the coil spring compressor tool) under the
wheel arch, and locate the bracket on the
bump stop on the rear suspension
crossmember. Insert the two bolts securing
the upper mounting to the underbody tower,
and tighten them to the specified torque.
16 Carefully release the coil spring
compressor tool, making sure that the spring
locates correctly in the upper and lower seats,
and that the strut bracket locates on the
crossmember bump stop. The bump stop is
tapered inwards, and the strut bracket should
be fully engaged with it before releasing the
coil spring.
17 Raise the knuckle and engage it with the
strut, then insert the clamp bolt and tighten to
the specified torque.
18 Reconnect the front and rear lower arms
13.2A Loosen the nut . . .
12.1E . . . and coil spring
to the knuckle, and finger-tighten the bolts at
this stage.
19 Reconnect the tie-bar to the bottom of the
knuckle, and finger-tighten the bolt at this
stage.
20 Refit the anti-roll bar link to the lower arm,
and tighten the nut to the specified torque.
21 On disc brake models, refit the caliper
bracket to the knuckle, and tighten the
mounting bolts to the specified torque (see
Chapter 9). Make sure that the flexible brake
hose is not twisted.
22 On drum brake models, connect the
flexible hose to the strut, insert the clip, then
insert the rigid brake line and tighten the union
nut. Remove the brake hose clamp, then
bleed the hydraulic brake circuit as described
in Chapter 9.
23 Where applicable, reconnect the wiring
multi-plug for the adaptive damping, and clip
the wiring to the strut.
13.2B . . . remove the nut and rubber
bush . . .
1 The procedure is similar to that for the front
suspension strut, and reference should be made
to Section 5. Note that the spring compressor
tools will already be in position on the coil spring
following the removal operation. Refer also to
the accompanying illustrations for details of the
separate components (see illustrations).
13 Rear anti-roll bar and links
(Saloon/Hatchback models) removal and refitting
Removal
1 Chock the front wheels, then jack up the
rear of the vehicle and support it on axle
stands. Remove both rear wheels.
2 Unscrew the nuts securing the anti-roll bar
links to the front lower arms on both sides.
Hold the upper part of the links with a spanner
while loosening the nuts. Recover the rubber
bushes (see illustrations).
13.2C . . . and remove the anti-roll bar link
from the lower arm
Suspension and steering systems 10•13
13.3 Rear anti-roll bar mounting clamp
14.9 Bolt securing the rear lower arm to
the crossmember
3 Unscrew the bolts securing the anti-roll bar
mounting clamps to the rear suspension
crossmember, then unhook the clamps and
withdraw the anti-roll bar from under the
vehicle (see illustration).
4 Examine the rubber bushes for the
mounting clamps and links, and if necessary
renew them. The links are available
individually.
8 The bolt securing the rear lower arm to the
crossmember has an eccentric head and
spacer, which are used to adjust the rear toe
setting. Before removing this bolt, mark its
position, using a scriber or similar sharp
instrument through the aperture in the
crossmember.
9 Unscrew and remove the bolt securing the
rear lower arm to the crossmember (see
illustration). The bolt may be removed
through the aperture in the crossmember.
Recover the eccentric spacer.
10 Withdraw the rear lower arm from under
the vehicle.
Refitting
5 Locate the anti-roll bar on the rear
crossmember, hook the mounting clamps in
position, and insert the bolts. Tighten the
bolts to the specified torque.
6 Locate the anti-roll bar links in the front
lower arms on both sides, making sure that
the rubber bushes are in position. Refit the
nuts and tighten them to the specified torque.
7 Refit the rear wheels, and lower the vehicle
to the ground.
14 Rear suspension lower arms
(Saloon/Hatchback models) removal and refitting
Removal
1 Chock the front wheels, then jack up the
rear of the vehicle and support it on axle
stands. Remove the appropriate rear wheel.
Front lower arm
2 To remove the front lower arm, it is
necessary to remove the fuel tank first. Refer
to Chapter 4 for details.
3 Unscrew the nut and disconnect the antiroll bar link from the lower arm. Hold the
actual link with an adjustable spanner or grips
while unscrewing the nut, to prevent damage
to the link joint. Recover the rubber bush.
4 Unscrew and remove the bolt securing the
front lower arm to the knuckle.
5 Unscrew and remove the bolt securing the
front lower arm to the crossmember.
6 Withdraw the front lower arm from under
the vehicle.
Rear lower arm
7 Unscrew and remove the bolt securing the
rear lower arm to the knuckle.
Refitting
11 Refitting is a reversal of the removal
procedure, but the arm mounting bolts should
be finger-tightened initially, and only fully
tightened after the vehicle is lowered to the
ground, so that its weight is on the rear
suspension. Note that the rear lower arm is
marked “TOP” for correct refitting (see
illustration). The rear toe setting should be
checked, and if necessary adjusted, at the
earliest opportunity.
15 Rear suspension tie-bar
(Saloon/Hatchback models) removal and refitting
Removal
1 Chock the front wheels, then jack up the
rear of the vehicle and support it on axle
stands. Remove the appropriate rear wheel.
2 Disconnect the handbrake cable from the
tie-bar bracket on the underbody.
3 Unscrew and remove the bolt securing the
tie-bar bracket to the rear suspension
knuckle.
4 Unscrew the bolts securing the tie-bar
bracket to the underbody, and withdraw the
bracket from the vehicle (see illustration).
5 Mount the bracket in a vice, then unscrew
and remove the bolt, and remove the tie-bar
from the bracket.
6 It is not possible to renew the rubber
bushes - if they are worn excessively, the tiebar should be renewed complete.
14.11 “TOP” marking on the rear lower
arm
Refitting
7 Refitting is a reversal of the removal
procedure. The bracket-to-underbody bolts
should be fully tightened to the specified
torque before lowering the vehicle. The bolts
securing the tie-bar to the bracket and
knuckle should be finger-tightened initially,
and only fully tightened after the vehicle is
lowered to the ground, so that its weight is on
the rear suspension.
16 Rear suspension
crossmember
(Saloon/Hatchback models) removal and refitting
Note: Before attempting to remove the rear
suspension crossmember, tools to hold the
coil springs in compression must be obtained.
Careful use of conventional coil spring
compressors will prove satisfactory.
Removal
1 Chock the front wheels, then jack up the
rear of the vehicle and support it on axle
stands. Remove both rear wheels.
2 Remove the complete exhaust system as
described in Chapter 4.
3 Unscrew and remove the bolts securing the
tie-bars to the rear suspension knuckles, and
disconnect the tie-bars.
4 Unscrew the nuts securing the rear anti-roll
bar links to the front lower arms. Hold the
10
15.4 Tie-bar bracket on the underbody
10•14 Suspension and steering systems
Refitting
16.8 One of the rear suspension
crossmember mounting bolts
actual links stationary while the nuts are being
unscrewed, to prevent damage to the joints.
Swivel the anti-roll bar upwards, and recover
the rubber bushes.
5 Where applicable, remove the ABS wheel
sensor from the rear suspension knuckle as
described in Chapter 9.
6 Unscrew and remove the bolts, and
disconnect both lower arms from the rear
suspension knuckle.
7 To allow the rear suspension struts to be
released from the rubber stops on the top of
the crossmember, it is necessary to fit coil
spring compressor tools to both of the rear
coil springs, and compress them until all
tension is removed from the upper and lower
mountings.
Warning: It is important to only
use high-quality spring
compressors, and to carefully
follow the tool manufacturer’s
instructions provided with them. With the
compressor tools fitted, support the struts
to one side.
8 Support the rear suspension crossmember
on a trolley jack, then unscrew the four
mounting bolts from the underbody (see
illustration).
9 Lower the crossmember to the ground.
10 Unscrew the bolts securing the anti-roll
bar clamps to the crossmember, then remove
the clamps and withdraw the anti-roll bar.
11 Remove the lower arms from the
crossmember as described in Section 14.
17.7 Mounting bolts (arrowed) for the rear
hub on Estate models
12 Refitting is a reversal of the removal
procedure. Ford specify the use of a special
tool (tool number 15-097) to accurately align
the crossmember onto the underbody before
tightening the mounting bolts. This tool
should be obtained if possible, since
inaccurate alignment would result in bad
handling and excessive tyre wear. The tie-bar
and arm mounting bolts should be fingertightened initially, and only fully tightened
after the vehicle is lowered to the ground, so
that its weight is on the rear suspension. The
rear toe setting should be checked, and if
necessary adjusted, at the earliest
opportunity.
17 Rear hub and bearings
(Estate models) inspection and renewal
18 Rear suspension knuckle
(Estate models) removal and refitting
Removal
1 Chock the front wheels, then jack up the
rear of the vehicle and support it on axle
stands. Remove the appropriate rear wheel,
and release the handbrake.
2 Position a trolley jack or axle stand beneath
the rear suspension lower arm, to keep the
coil spring in compression.
3 Where applicable, remove the ABS sensor
as described in Chapter 9.
Drum brake models
4 Remove the rear brake drum as described
in Chapter 9.
5 Disconnect the flexible hydraulic brake
hose at the bracket on the rear suspension
crossmember as described in Chapter 9.
Inspection
Disc brake models
1 The rear hub bearings are non-adjustable,
and are supplied complete with the hub. It is
not possible to renew the bearings separately
from the hub.
2 To check the bearings for excessive wear,
chock the front wheels, then jack up the rear
of the vehicle and support it on axle stands.
Fully release the handbrake.
3 Grip the rear wheel at the top and bottom,
and attempt to rock it. If excessive movement
is noted, or if there is any roughness or
vibration felt when the wheel is spun, it is
indicative that the hub bearings are worn.
6 Remove the rear brake disc as described in
Chapter 9.
Renewal
4 Remove the rear wheel.
5 On drum brake models, remove the rear
brake drum as described in Chapter 9.
6 On disc brake models, remove the rear
brake disc as described in Chapter 9.
7 Turning the hub as necessary, line up the
hole in the flange with the each of the bolts
securing the hub assembly to the rear
suspension knuckle; unscrew and remove the
bolts (see illustration).
8 Withdraw the hub and bearing assembly.
Refit two of the hub mounting bolts, to hold
the backplate/splash shield in place.
9 If necessary, the stub shaft may be
removed from the hub for inspection of the
bearing, by unscrewing the hub nut. Note that
the hub nut is of special laminated design,
and may only be re-used a maximum of five
times. (It is a good idea to file a small notch on
the nut every time it is removed; obtain a new
nut if necessary.) Tighten the nut on
reassembly.
10 Fit the new hub and bearing assembly
using a reversal of the removal procedure.
Tighten all nuts and bolts to the specified
torque.
All models
7 Remove the rear hub as described in
Section 17.
8 Remove the backplate or splash shield, as
applicable. On drum brake models, support
the backplate assembly on an axle stand, to
prevent damage to the handbrake cable.
9 Unscrew and remove the shock absorber
lower mounting bolt.
10 Unscrew and remove the three bolts
securing the tie-bar to the knuckle.
11 Unscrew and remove the bolt securing
the front lower arm to the knuckle.
12 Unscrew and remove the bolt securing
the upper arm to the knuckle.
13 Support the knuckle, then unscrew and
remove the bolt securing the rear lower arm to
the knuckle, and withdraw the knuckle.
Refitting
14 Refitting is a reversal of the removal
procedure, but delay fully tightening the
rubber bush mounting bolts until the weight of
the vehicle is on the suspension. Tighten all
bolts to the specified torque. Where the
flexible rear brake hose was disconnected,
bleed the hydraulic system as described in
Chapter 9. Finally check, and if necessary
adjust, the rear wheel toe setting as described
in Section 36.
19 Rear shock absorber
(Estate models) removal, testing and refitting
Removal
1 Chock the front wheels, then jack up the
rear of the vehicle and support it on axle
stands. Remove the appropriate wheel.
Suspension and steering systems 10•15
2 Position a trolley jack under the coil spring
area of the rear lower suspension arm, to
keep the coil spring in compression.
3 Unscrew and remove the shock absorber
lower mounting bolt (see illustration).
4 Unscrew and remove the upper mounting
bolt, and withdraw the shock absorber from
under the vehicle.
Testing
5 Check the mounting rubbers for damage
and deterioration. If they are worn, they may
be renewed separately from the shock
absorber body.
6 Mount the shock absorber in a vice,
gripping it by the lower mounting. Examine
the shock absorber for signs of fluid leakage.
Test the operation of the shock absorber by
moving it through a full stroke, and then
through short strokes of 50 to 100 mm. In
both cases, the resistance felt should be
smooth and continuous. If the resistance is
jerky or uneven, the shock absorber should be
renewed.
Refitting
7 Refitting is a reversal of the removal
procedure, but tighten the mounting bolts to
the specified torque.
20 Rear anti-roll bar and links
(Estate models) removal and refitting
Removal
1 Chock the front wheels, then jack up the
rear of the vehicle and support it on axle
stands. Remove both rear wheels.
2 Unscrew the nuts, and remove the washers
and bushes securing the anti-roll bar links to
the rear lower arms (see illustrations).
3 Using a Torx key, unscrew the bolts
securing the anti-roll bar mounting clamps to
the rear suspension crossmember; release the
clamps, and withdraw the anti-roll bar from
under the vehicle (see illustration).
4 Examine the rubber bushes for the
mounting clamps and links, and if necessary
renew them. The links are available
individually.
19.3 Rear shock absorber lower mounting
bolt (Estate)
20.2A Mounting nut (arrowed) and rubber
bush securing the rear anti-roll bar link to
the rear lower arm
Refitting
5 Locate the anti-roll bar on the rear
crossmember, then refit the clamps and
tighten the bolts to the specified torque.
6 Refit the anti-roll bar links to the rear lower
arms, together with the bushes and washers.
Tighten the nuts to the specified torque, while
holding the actual links stationary in their
central position.
7 Refit the rear wheels, and lower the vehicle
to the ground.
21 Rear coil spring (Estate
models) - removal and refitting
Note: Before attempting to remove the rear
suspension coil spring, a tool to hold the coil
spring in compression must be obtained.
Careful use of conventional coil spring
compressors will prove satisfactory.
Removal
1 Chock the front wheels, then jack up the
rear of the vehicle and support it on axle
stands. Remove the appropriate wheel.
2 Support the weight of the rear lower arm
beneath the coil spring position with a trolley
jack.
3 Fit the coil spring compressor tool (ensuring
that it is fully engaged), and compress the coil
spring until all tension is relieved from the
upper mounting.
4 Unscrew the nut, and remove the washer
20.2B View of the anti-roll bar link nut
through the rear lower arm
and bush attaching the anti-roll bar link to the
rear lower arm.
5 Unscrew and remove the bolt securing the
rear lower arm to the knuckle (see
illustration).
6 Unscrew and remove the bolt securing the
front lower arm to the knuckle (see
illustration).
7 Lower the rear lower arm, and withdraw the
coil spring from under the vehicle. Take care
to keep the compressor tool in full
engagement with the coil spring (see
illustration).
8 If a new coil spring is to be fitted, the
original coil spring must be released from the
compressor. If it is to be re-used, the coil
spring can be left in compression.
10
20.3 Anti-roll bar mounting clamp on the
rear suspension crossmember
21.5 Rear lower arm-to-knuckle mounting
bolt
21.6 Front lower arm-to-knuckle mounting
bolt
10•16 Suspension and steering systems
21.7 Removing the coil spring, with
compressor tool attached, from under the
vehicle
21.9 Correct location of the coil spring in
the upper seat (arrowed)
Refitting
Refitting
9 Refitting is a reversal of the removal
procedure, but make sure that the coil spring
is located correctly in the upper and lower
seats (see illustration). Delay fully tightening
the two lower arm mounting bolts until the
weight of the vehicle is on the rear
suspension. Finally check, and if necessary
adjust, the rear wheel toe setting as described
in Section 36.
5 Refitting is a reversal of the removal
procedure, but delay fully tightening the lower
arm mounting bolts until the weight of the
vehicle is on the rear suspension. Finally
check, and if necessary adjust, the rear wheel
toe setting as described in Section 36.
22 Rear suspension rear lower
arm (Estate models) removal and refitting
Removal
1 Remove the rear suspension coil spring as
described in Section 21.
2 The bolt securing the rear lower arm to the
crossmember has an eccentric head and
spacer, which are used to adjust the rear toe
setting. Before removing this bolt, mark its
position, using a scriber or similar sharp
instrument through the aperture in the
crossmember.
3 Unscrew and remove the bolt securing the
rear lower arm to the crossmember. The bolt
may be removed through the aperture in the
crossmember. Recover the eccentric spacer
(see illustration).
4 Withdraw the rear lower arm from under the
vehicle.
23.2 Front lower arm-to-crossmember
securing bolt
23 Rear suspension front lower
arm (Estate models) removal and refitting
Removal
1 Chock the front wheels, then jack up the
rear of the vehicle and support it on axle
stands. Remove the appropriate wheel.
2 Unscrew and remove the bolt securing the
front lower arm to the crossmember (see
illustration).
3 Unscrew and remove the bolt securing the
front lower arm to the knuckle, and withdraw
the arm from under the vehicle (see
illustration).
22.3 Bolts securing the rear lower arms to
the crossmember - note the eccentric
spacers
24 Rear suspension upper arm
(Estate models) removal and refitting
Removal
1 Chock the front wheels, then jack up the
rear of the vehicle and support it on axle
stands. Remove the appropriate wheel.
2 Using a trolley jack, support the rear lower
arm beneath the coil spring position.
3 Unscrew and remove the bolt securing the
upper arm to the knuckle (see illustration).
4 Unscrew and remove the bolt securing the
upper arm to the crossmember, and withdraw
the arm from under the vehicle.
Refitting
5 Refitting is a reversal of the removal
procedure, but delay fully tightening the
mounting bolts until the weight of the vehicle
is on the rear suspension.
25 Rear suspension tie-bar
(Estate models) removal and refitting
Refitting
4 Refitting is a reversal of the removal
procedure, but delay fully tightening the
mounting bolts until the weight of the vehicle
is on the rear suspension.
23.3 Front lower arm (arrowed)
Removal
1 Chock the front wheels, then jack up the
rear of the vehicle and support it on axle
stands. Remove the appropriate wheel.
24.3 Bolt (arrowed) securing the upper
arm to the knuckle
Suspension and steering systems 10•17
25.7 Bolts (arrowed) securing the rear
suspension tie-bar to the knuckle
2 Using a trolley jack, support the rear lower
arm beneath the coil spring position.
3 Unscrew and remove the bolt securing the
rear shock absorber to the knuckle.
4 Where applicable, release the ABS wheel
sensor lead from the tie-bar.
5 Detach the handbrake cable from the tiebar bracket.
6 Refer to Chapter 9, and disconnect the
handbrake cable from the rear brake shoes or
rear caliper, as applicable. Pass the cable
through the hole in the tie-bar.
7 Unscrew and remove the three bolts
securing the tie-bar to the knuckle (see
illustration).
8 Unbolt the tie-bar bracket from the
underbody, and withdraw the assembly from
under the vehicle (see illustrations).
9 Mount the tie-bar in a vice, then unscrew
the bolt, and separate the tie-bar from its
bracket.
10 It is not possible to renew the rubber bush
in the tie-bar, and if it is excessively worn, the
complete tie-bar must be renewed.
Refitting
11 Refitting is a reversal of the removal
procedure, but delay fully tightening the bolt
which secures the arm to the bracket until the
weight of the vehicle is on the rear
suspension. On completion, check the
operation of the handbrake.
25.8A Tie-bar bracket front bolt (arrowed)
on the underbody
26 Rear suspension
crossmember (Estate
models) - removal and refitting
Removal
1 Chock the front wheels, then jack up the
rear of the vehicle and support on axles
stands. Remove both rear wheels. Make sure
that the vehicle is supported high enough for
the crossmember to be removed.
2 Disconnect the handbrake rear cables from
the front primary cable, as described in
Chapter 9.
3 Where applicable, remove the ABS wheel
sensors from the rear knuckles, and
disconnect the wiring leads from the clips as
described in Chapter 9.
4 Disconnect the flexible brake hoses from
the brackets on both sides of the
crossmember, as described in Chapter 9.
5 Working on each side of the vehicle, unbolt
the tie-bar brackets from the underbody.
6 Support the rear suspension crossmember
on a trolley jack.
7 Unscrew the mounting bolts, and lower the
crossmember
to
the
ground
(see
illustrations).
8 If necessary, remove the suspension
components from the crossmember as
described in the appropriate Sections of this
Chapter.
25.8B Tie-bar bracket rear bolt (arrowed)
on the underbody
Refitting
9 Refitting is a reversal of the removal
procedure, noting the following points:
(a) When raising the crossmember, note that
guide pins are provided to ensure correct
alignment (see illustration).
(b) Delay fully tightening the suspension
mounting bolts until the weight of the
vehicle is on the rear suspension.
(c) Tighten all bolts to the specified torque.
(d) Bleed the brake hydraulic system as
described in Chapter 9.
(e) Check, and if necessary adjust, the rear
wheel toe setting as described in Section 36.
27 Steering wheel removal and refitting
Warning: All models are equipped
with an air bag system. Make
sure that the safety
recommendations given in Chapter 12 are
followed, to prevent personal injury.
Removal
1 Disconnect the battery negative (earth) lead
(refer to Chapter 5, Section 1).
Warning: Before proceeding, wait
a minimum of 15 minutes, as a
precaution against accidental
firing of the air bag unit. This
period ensures that any stored energy in
the back-up capacitor is dissipated.
10
26.7A Rear suspension crossmember rear
mounting bolt
26.7B Rear suspension crossmember
front mounting bolt
26.9 Guide pin (arrowed) for correct
alignment of the rear crossmember
10•18 Suspension and steering systems
27.6 Removing the steering wheel
retaining bolt
27.7 Feeding the horn and air bag wiring
through the hole in the steering wheel hub
27.9 Tightening the steering wheel
retaining bolt
2 Turn the steering wheel so that the front
wheels are in the straight-ahead position.
3 Unscrew the screws, and remove the
steering column upper and lower shrouds.
4 From the rear of the steering wheel,
unscrew the air bag module mounting screws.
5 Carefully lift the module from the steering
wheel, and disconnect the air bag multi-plug
and horn wiring connections.
Warning: Position the air bag
module in a safe place, with the
mechanism facing downwards as
a precaution against accidental
operation.
6 Make sure that the steering lock is not
engaged. Unscrew the retaining bolt from the
centre of the steering wheel (see illustration).
7 Remove the steering wheel from the top of
the column, while feeding the horn and air bag
wiring through the hole in the steering wheel
hub (see illustration).
12 Refit the steering column upper and lower
shrouds. Insert and tighten the screws.
13 Reconnect the battery negative lead.
Refitting
8 Make sure that the front wheels are still
facing straight-ahead, then locate the steering
wheel on the top of the steering column.
9 Refit the retaining bolt, and tighten it to the
specified torque while holding the steering
wheel (see illustration). Do not tighten the
bolt with the steering lock engaged, as this
may damage the lock.
10 Reconnect the horn wiring connections
and air bag multi-plug.
11 Locate the air bag module/horn contact
on the steering wheel, then insert the
mounting screws and tighten them.
28.4A Unscrew the screws from the lower
shroud . . .
28.4B . . . remove the rubber ring . . .
28.4C . . . and remove the lower shroud
28.4D Upper shroud retaining screws
(arrowed)
28 Steering column - removal,
inspection and refitting
Warning: All models are equipped
with an air bag system. Make
sure that the safety
recommendations given in
Chapter 12 are followed, to prevent
personal injury.
Removal
1 Disconnect the battery negative (earth) lead
(refer to Chapter 5, Section 1).
Warning: Before proceeding, wait
a minimum of 15 minutes, as a
precaution against accidental
firing of the air bag unit. This
period ensures that any stored energy in
the back-up capacitor is dissipated.
2 Turn the steering wheel so that the front
wheels are in the straight-ahead position.
3 Remove the ignition key, then turn the
steering wheel slightly as necessary until the
steering lock engages.
4 Unscrew the screws, and remove the
steering column lower and upper shrouds. As
the lower shroud is being removed, it will be
necessary to remove the rubber ring from the
ignition
switch/steering
lock
(see
illustrations).
28.4E Removing the upper shroud
Suspension and steering systems 10•19
28.6A Unscrew the clamp plate bolt . . .
28.6B . . . and swivel the clamp plate
around
28.7A Disconnecting the multi-plug from
the ignition switch
5 Remove the driver’s side lower facia panel
(see Chapter 11).
6 Unscrew the clamp plate bolt securing the
steering column shaft to the flexible coupling.
Swivel the clamp plate around, and disengage
it from the flexible coupling stub (see
illustrations).
7 Release the cable tie from the wiring loom
at the steering column, and disconnect the
multi-plugs (see illustrations).
8 Unscrew and remove the steering column
mounting bolts, then slide the column
upwards to disengage the retaining tab from
the groove in the cross-beam bracket, and
withdraw it from inside the vehicle (see
illustrations).
column upper and lower shafts for any signs
of damage or distortion (see illustration).
Where evident, the column should be
renewed complete.
10 Examine the height adjustment lever
mechanism for wear and damage (see
illustration).
11 With the steering lock disengaged, turn
the inner column, and check the upper and
lower bearings for smooth operation. The
bearings are obtainable separately, and
should be renewed if necessary. Dismantling
and reassembly of the column assembly is a
relatively easy operation.
13 Insert the mounting bolts and tighten to
the specified torque (see illustration).
14 Reconnect the multi-plugs, and secure
the wiring loom with the cable tie.
Inspection
Refitting
9 With the steering column removed, check
the universal joints for wear, and examine the
12 Locate the steering column on its bracket,
making sure that the tab slides down into the
groove correctly.
28.7C . . . and main multi-plug from the
steering column
28.8A Steering column mounting bolt
locations (arrowed)
28.7B Disconnecting the small
multi-plug . . .
28.8B Removing the steering column
10
28.9 Steering column and universal joint
28.10 Height adjustment lever mechanism
28.13 Tightening the steering column
mounting bolts
10•20 Suspension and steering systems
30.6 U-shaped Ford spanner for
unscrewing the steering gear mounting
bolts
15 Locate the steering column shaft on the
flexible coupling, swivel the clamp plate
round, then insert the bolt and tighten to the
specified torque.
16 Refit the driver’s side lower trim panel.
17 Refit the steering column upper and lower
shrouds.
18 Reconnect the battery negative lead.
29 Steering column flexible
coupling - removal and refitting
Removal
1 Disconnect the battery negative (earth) lead
(refer to Chapter 5, Section 1).
2 Turn the steering wheel so that the front
wheels are in the straight-ahead position.
Remove the ignition key, then turn the
steering wheel slightly as necessary until the
steering lock engages.
3 Unscrew the clamp plate bolt securing the
steering column shaft to the flexible coupling.
Swivel the clamp plate around, and disengage
it from the flexible coupling stub.
4 Carefully prise the rubber boot from the
bulkhead, and withdraw it into the passenger
compartment. Take care not to damage the
sealing lip of the boot.
5 Using an Allen key, unscrew the clamp bolt
securing the flexible coupling to the pinion
shaft on the steering gear, and withdraw the
coupling from inside the vehicle.
Refitting
6 Refitting is a reversal of the removal
procedure, but tighten the clamp bolts to the
specified torque. Make sure that the rubber
boot engages correctly in the bulkhead and
on the flexible coupling.
30 Power steering gear (all except
left-hand-drive models with
ABS) - removal and refitting
Removal
1 Remove the steering column flexible
coupling as described in Section 29.
2 Apply the handbrake, then jack up the front
30.8 Using an adaptor to fit the Teflon
rings to the union nuts
1 Adaptor
2 Teflon ring
3 Union nut
4 Groove location for the Teflon ring
of the vehicle and support it on axle stands.
Remove both front wheels.
3 Working beneath the vehicle, unbolt the
rear engine mounting from the transmission
and underbody.
4 Extract the split pins from the track rod end
balljoint nuts, then unscrew the nuts, and
detach the rods from the arms on the steering
knuckles using a conventional balljoint
removal tool. Take care not to damage the
balljoint seals.
5 Position a suitable container beneath the
steering gear, then unscrew the union nuts
securing the power steering fluid supply,
return, and cooler lines to the steering gear.
Identify the lines for position, then unbolt the
clamps, disconnect the lines, and allow the
fluid to drain into the container. Cover the
apertures in the steering gear and also the
ends of the fluid pipes, to prevent the ingress
of dust and dirt into the hydraulic circuit.
6 Unscrew and remove the steering gear
mounting bolts. The bolts are located on top
of the steering gear, and are difficult to reach.
Ideally, the special U-shaped Ford spanner
should be used, but it is just possible to reach
them with a normal spanner (see illustration).
7 Withdraw the steering gear through the
wheel arch.
Refitting
8 If the steering gear is being replaced with a
new one, the new unit will be supplied
together with union nuts already fitted. The
new nuts must only be used with new feed
and return lines - otherwise, they must be
removed and discarded. If the original lines
and union nuts are being used, the Teflon
rings on the union nuts must be renewed. To
do this, the rings must be expanded
individually onto a fitting adaptor (see
illustration), then located in the grooves of
the union nuts.
9 Locate the steering gear on the subframe,
and insert the two mounting bolts. Tighten the
bolts to the specified torque (see illustration).
Note that, if the special Ford tool is being
used, the bottom of the tool must be turned
anti-clockwise in order to tighten the
mounting bolts.
30.9 Tightening the steering gear
mounting bolts using the U-shaped
spanner (arrowed)
10 Remove the covers from the apertures on
the steering gear, then reconnect the fluid
lines and tighten the union nuts to the
specified torque. Refit the clamps and tighten
the bolts.
11 Refit the track rod end balljoints to the
steering knuckles, and tighten the nuts to the
specified torque. Check that the split pin
holes are aligned; if necessary, turn the nuts
to the nearest alignment, making sure that the
torque wrench setting is still within the
specified range. Insert new split pins, and
bend them back to secure.
12 Refit the rear engine mounting to the
transmission and underbody, and tighten the
bolts to the specified torque.
13 Refit the front wheels, and lower the
vehicle to the ground.
14 Refit the steering column flexible coupling
with reference to Section 29.
15 Bleed the power steering hydraulic
system as described in Section 33.
16 Have the front wheel alignment checked,
and if necessary adjusted, at the earliest
opportunity (refer to Section 36).
31 Power steering gear
(left-hand-drive models with
ABS) - removal and refitting
Removal
1 Disconnect the battery negative (earth) lead
(refer to Chapter 5, Section 1).
2 Working inside the vehicle, unscrew the
clamp plate bolt securing the steering column
shaft to the flexible coupling. Swivel the clamp
plate around, and disengage it from the
flexible coupling stub.
3 Apply the handbrake, then jack up the front
of the vehicle and support it on axle stands.
Remove both wheels.
4 On
manual
transmission
models,
disconnect the gearchange linkage and
support rods from the transmission, as
described in Chapter 7, Part A.
5 Remove the exhaust downpipe complete,
as described in Chapter 4.
6 Remove the cover from under the radiator
by unscrewing the screws and releasing the
clips.
Suspension and steering systems 10•21
31.7 Method of supporting the radiator in
its raised position
1 Radiator upper mounting extension
2 Small hole
3 Pin or split pin inserted through hole
7 Support the radiator in its raised position,
by inserting split pins through the small holes
in the radiator mounting extensions which
protrude through the upper mountings (see
illustration).
8 Unbolt and remove the radiator lower
mounting brackets.
9 Where applicable, unscrew the bolts
securing the air conditioning accumulator to
the subframe.
10 Working beneath the vehicle, unbolt the
engine rear mounting from the transmission
and underbody.
11 Unscrew the front engine mounting-tocylinder block bolts, and also the throughbolt.
12 Extract the split pins from the track rod
end balljoint nuts, then unscrew the nuts, and
detach the rods from the arms on the steering
knuckles using a conventional balljoint
removal tool. Take care not to damage the
balljoint seals.
13 Working on each side in turn, unscrew the
mounting nuts, and remove the anti-roll bar
links from the front suspension struts. Note
that, on models fitted with ABS, the ABS
sensor wiring support brackets are located
beneath the nuts.
14 Working on each side in turn, note which
way round the front suspension lower arm
balljoint clamp bolt is fitted, then unscrew and
remove it from the knuckle assembly. Lever
the balljoint down from the knuckle - if it is
tight, prise the joint open carefully using a
large flat-bladed tool. Take care not to
damage the balljoint seal during the
separation procedure.
15 Support the weight of the front subframe
assembly on two trolley jacks (or two scissor
jacks).
16 Unscrew and remove the subframe
mounting bolts, then lower the subframe
sufficiently to gain access to the power
steering fluid pipes on top of the steering
gear. Note that the front subframe mounting
bolts are gold in colour - the rear ones are
silver.
17 Position a suitable container beneath the
steering gear, then unscrew the union nuts
securing the power steering fluid supply,
return, and cooler lines to the steering gear.
Identify the lines for position, then unbolt the
clamps, disconnect the lines, and allow the
fluid to drain into the container. Cover the
apertures in the steering gear and also the
ends of the fluid pipes, to prevent the ingress
of dust and dirt into the hydraulic circuit.
18 Lower the subframe, together with the
power steering gear, to the ground.
19 Unscrew the mounting bolts and remove
the power steering gear from the subframe.
20 Using a suitable Allen key, unscrew the
clamp bolt securing the flexible coupling to
the pinion shaft on the steering gear, and
withdraw the coupling.
21 Refer to Section 30, paragraph 8 for
details of renewing the Teflon rings.
Refitting
22 Refit the flexible coupling to the pinion
shaft on the steering gear, then insert and
tighten the clamp bolt using an Allen key.
23 Locate the power steering gear on the
subframe, then insert the mounting bolts and
tighten to the specified torque.
24 Raise the subframe until it is possible to
refit the fluid lines. Tighten the union nuts and
clamps.
25 Raise the subframe, making sure that the
alignment holes are in line with the holes in
the underbody. At the same time, make sure
that the flexible coupling locates correctly on
the steering column. Ford technicians use a
special tool to ensure that the subframe is
correctly aligned - refer to Chapter 2 for more
details of the alignment procedure. With the
subframe aligned, insert and tighten the
mounting bolts to the specified torque. Note
that the front mounting bolts are gold in
colour - the rear bolts are silver.
26 Working on each side in turn, refit the
front suspension lower arm balljoint to the
knuckle assembly, and insert the clamp bolt
with its head facing forwards. Refit the nut
and tighten to the specified torque.
27 Working on each side in turn, refit the
anti-roll bar links and tighten the mounting
nuts to the specified torque. On models fitted
with ABS, don’t forget to locate the wheel
sensor wiring support brackets beneath the
nuts.
28 Refit the track rod end balljoints to the
steering knuckles, and tighten the nuts to the
specified torque. Check if the split pin holes
are aligned, and if necessary turn the nuts to
the nearest alignment, making sure that the
torque wrench setting is still within the
specified range. Insert new split pins, and
bend them back to secure.
29 Refit and tighten the engine front
mounting bolts.
30 Refit the engine rear mounting and tighten
the bolts.
31 Where applicable, insert and tighten the
air conditioning accumulator bolts.
32 Refit the radiator lower mounting brackets
and tighten the bolts.
33 Remove the split pins supporting the
radiator in its raised position.
34 Refit the cover under the radiator.
35 Refit the exhaust downpipe as described
in Chapter 4.
36 On manual transmission models,
reconnect the gearchange linkage and
support rods.
37 Refit the front wheels, and lower the
vehicle to the ground.
38 Working inside the vehicle, reconnect the
steering column clamp plate, then insert the
bolt and tighten to the specified torque.
39 Reconnect the battery negative lead.
40 Bleed the power steering hydraulic
system as described in Section 33.
41 Have the front wheel alignment checked,
and if necessary adjusted, at the earliest
opportunity (refer to Section 36).
32 Power steering gear rubber
gaiters - renewal
1 Remove the track rod end and its locknut
from the track rod, as described in Section 35.
Make sure that a note is made of the exact
position of the track rod end on the track rod,
in order to retain the front wheel alignment
setting on refitting.
2 Release the outer retaining clip and inner
plastic clamp band, and disconnect the gaiter
from the steering gear housing.
3 Disconnect the breather from the gaiter,
then slide the gaiter off the track rod.
4 Scrape off all grease from the old gaiter,
and apply to the track rod inner joint. Wipe
clean the seating areas on the steering gear
housing and track rod.
5 Slide the new gaiter onto the track rod and
steering gear housing, and reconnect the
breather.
6 Fit a new inner plastic clamp band and
outer retaining clip.
7 Refit the track rod end as described in
Section 35.
8 Have the front wheel alignment checked,
and if necessary adjusted, at the earliest
opportunity (refer to Section 36).
33 Power steering hydraulic
system - bleeding
1 Following any operation in which the power
steering fluid lines have been disconnected,
the power steering system must be bled, to
remove any trapped air.
2 With the front wheels in the straight-ahead
position, check the power steering fluid level
in the reservoir and, if low, add fresh fluid until
it reaches the “MAX” or “MAX COLD” mark.
Pour the fluid slowly, to prevent air bubbles
forming, and use only the specified fluid (refer
to Chapter 1 Specifications).
10
10•22 Suspension and steering systems
3 Start the engine, and allow it to run at a fast
idle. Check the hoses and connections for
leaks.
4 Stop the engine, and recheck the fluid level.
Add more if necessary, up to the “MAX” or
“MAX COLD” mark.
5 Start the engine again, allow it to idle, then
bleed the system by slowly turning the
steering wheel from side to side several times.
This should purge the system of all internal
air. However, if air remains in the system
(indicated by the steering operation being very
noisy), leave the vehicle overnight, and repeat
the procedure again the next day.
6 If air still remains in the system, it may be
necessary to resort to the Ford method of
bleeding, which uses a vacuum pump. Turn
the steering to the right until it is near the stop,
then fit the vacuum pump to the fluid
reservoir, and apply 0.15 bars of vacuum.
Maintain the vacuum for a minimum of
5 minutes, then repeat the procedure with the
steering turned to the left.
7 Keep the fluid level topped-up throughout
the bleeding procedure; note that, as the fluid
temperature increases, the level will rise.
8 On completion, switch off the engine, and
return the front wheels to the straight-ahead
position.
34 Power steering pump removal and refitting
Removal
1 Disconnect the battery negative (earth) lead
(refer to Chapter 5, Section 1).
2 Unscrew and remove the bolt securing the
hydraulic fluid line support to the engine lifting
bracket on the right-hand side of the engine.
3 Unscrew and remove the bolt securing the
hydraulic fluid line support to the pump
mounting bracket.
4 Position a suitable container beneath the
power steering pump, to catch spilt fluid.
5 Loosen the clip, and disconnect the fluid
supply hose from the pump inlet. Plug the
hose, to prevent the ingress of dust and dirt.
6 Unscrew the union nut, and disconnect the
high-pressure line from the pump. Allow the
fluid to drain into the container.
7 Apply the handbrake, then jack up the front
of the vehicle and support it on axle stands.
Remove the right-hand front wheel.
8 Unbolt and remove the lower drivebelt
cover.
9 Using a spanner, rotate the drivebelt
tensioner in a clockwise direction to release
the belt tension, then slip the drivebelt off the
pulleys and remove from the vehicle. Refer to
Chapter 1 if necessary.
10 Unscrew and remove the four mounting
bolts, and withdraw the power steering pump
from its bracket. Access to the bolts on the
right-hand side of the engine is gained by
turning the pump pulley until a hole lines up
with the bolt.
Refitting
11 Locate the power steering pump on the
mounting bracket, and secure with the four
bolts. Tighten the bolts to the specified
torque.
12 Slip the drivebelt over the pulleys, then
rotate the drivebelt tensioner in a clockwise
direction, and locate the drivebelt on it.
Release the tensioner to tension the drivebelt.
13 Refit the lower belt cover.
14 Refit the right-hand front wheel, and lower
the vehicle to the ground.
15 If necessary, the sealing ring on the highpressure outlet should be renewed, using the
same procedure as described in Section 30,
paragraph 8.
16 Reconnect the high-pressure line to the
pump, and tighten the union nut.
17 Reconnect the fluid supply hose to the
pump inlet, and tighten the clip.
18 Refit the hydraulic fluid line support to the
pump mounting bracket, and tighten the bolt.
19 Refit the hydraulic fluid line support to the
engine lifting bracket on the right-hand side of
the engine, and tighten the bolt.
20 Reconnect the battery negative lead.
21 Bleed the power steering hydraulic
system as described in Section 33.
35 Track rod end - renewal
1 Apply the handbrake, then jack up the front
of the vehicle and support it on axle stands.
Remove the appropriate front roadwheel.
2 Using a suitable spanner, slacken the
locknut on the track rod by a quarter-turn.
Hold the track rod end stationary with another
spanner engaged with the special flats while
loosening the locknut.
3 Extract the split pin, then unscrew and
remove the track rod end balljoint retaining
nut.
4 To release the tapered shank of the balljoint
from the steering knuckle arm, use a balljoint
separator tool (if the balljoint is to be re-used,
take care not to damage the dust cover when
using the separator tool) (see illustration).
5 Count the number of exposed threads
visible on the inner section of the track rod,
and record this figure.
6 Unscrew the track rod end from the track
rod, counting the number of turns necessary
to remove it. If necessary, hold the track rod
stationary with grips.
Refitting
7 Screw the track rod end onto the track rod
by the number of turns noted during removal,
until it just contacts the locknut.
8 Engage the shank of the balljoint with the
steering knuckle arm, and refit the nut.
Tighten the nut to the specified torque. If the
balljoint shank turns while the nut is being
tightened, press down on the balljoint. The
tapered fit of the shank will lock it, and
prevent rotation as the nut is tightened.
35.4 Using a balljoint separator tool to
release the track rod end balljoint
9 Check that the split pin holes in the nut and
balljoint shank are aligned. If necessary turn
the nut to the nearest alignment, making sure
that the torque wrench setting is still within
the specified range. Insert a new split pin, and
bend it back to secure.
10 Now tighten the locknut, while holding the
track rod end as before.
11 Refit the roadwheel, and lower the vehicle
to the ground.
12 Finally check, and if necessary adjust, the
front wheel alignment as described in Section 29.
36 Wheel alignment and steering
angles - general information
1 Accurate front wheel alignment is essential
to provide positive steering, and to prevent
excessive tyre wear. Before considering the
steering/suspension geometry, check that the
tyres are correctly inflated, that the front
wheels are not buckled, and that the steering
linkage and suspension joints are in good
order, without slackness or wear.
2 Wheel alignment consists of four factors
(see illustration):
Camber is the angle at which the front
wheels are set from the vertical, when viewed
from the front of the vehicle. “Positive
camber” is the amount (in degrees) that the
wheels are tilted outward at the top of the
vertical. Castor is the angle between the
steering axis and a vertical line, when viewed
from each side of the car. “Positive castor” is
when the steering axis is inclined rearward at
the top.
Steering axis inclination is the angle (when
viewed from the front of the vehicle) between
the vertical and an imaginary line drawn
through the suspension strut upper mounting
and the lower suspension arm balljoint.
Toe setting is the amount by which the
distance between the front inside edges of the
roadwheels (measured at hub height) differs
from the diametrically-opposite distance
measured between the rear inside edges of
the front roadwheels.
3 With the exception of the toe setting, all
other steering angles are set during
manufacture, and no adjustment is possible. It
Suspension and steering systems 10•23
can be assumed, therefore, that unless the
vehicle has suffered accident damage, all the
preset steering angles will be correct. Should
there be some doubt about their accuracy, it
will be necessary to seek the help of a Ford
dealer, as special gauges are needed to
check the steering angles.
4 Two methods are available to the home
mechanic for checking the toe setting. One
method is to use a gauge to measure the
distance between the front and rear inside
edges of the roadwheels. The other method is
to use a scuff plate, in which each front wheel
is rolled across a movable plate which records
any deviation, or scuff, of the tyre from the
straight-ahead position as it moves across the
plate. Relatively-inexpensive equipment of
both types is available from accessory outlets.
5 If, after checking the toe setting using
whichever method is preferable, it is found
that adjustment is necessary, proceed as
follows.
6 Turn the steering wheel onto full-left lock,
and record the number of exposed threads on
the right-hand track rod. Now turn the
steering onto full-right lock, and record the
number of threads on the left-hand track rod.
If there are the same number of threads visible
on both sides, then subsequent adjustment
can be made equally on both sides. If there
are more threads visible on one side than the
other, it will be necessary to compensate for
this during adjustment. After adjustment,
there must be the same number of threads
visible on each track rod. This is most
important.
7 To alter the toe setting, slacken the locknut
on the track rod, and turn the track rod using
self-locking pliers to achieve the desired
setting. When viewed from the side of the car,
turning the rod clockwise will increase the
toe-in, turning it anti-clockwise will increase
the toe-out. Only turn the track rods by a
quarter of a turn each time, and then recheck
the setting.
8 After adjustment, tighten the locknuts.
Reposition the steering gear rubber gaiters, to
remove any twist caused by turning the track
rods.
9 The rear wheel toe-setting may also be
checked and adjusted, but as this additionally
requires alignment with the front wheels, it
should be left to a Ford garage or specialist
having the special equipment required.
36.2 Wheel alignment and steering angles
10
11•1
Chapter 11 Bodywork and fittings
Contents
Body side-trim mouldings and adhesive emblems - removal
and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Bonnet - removal, refitting and adjustment . . . . . . . . . . . . . . . . . . . .
Bonnet lock - removal, refitting and adjustment . . . . . . . . . . . . . . . .
Bonnet release cable and lever - removal and refitting . . . . . . . . . . .
Boot lid - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Boot lid lock components - removal and refitting . . . . . . . . . . . . . . .
Bumpers - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Central locking system components - testing, removal and refitting .
Centre console - removal and refitting . . . . . . . . . . . . . . . . . . . . . . .
Door - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Door handle and lock components - removal and refitting . . . . . . . .
Door inner trim panel - removal and refitting . . . . . . . . . . . . . . . . . .
Door window glass - removal and refitting . . . . . . . . . . . . . . . . . . . .
Door window regulator - removal and refitting . . . . . . . . . . . . . . . . .
Exterior mirror and glass - removal and refitting . . . . . . . . . . . . . . . .
Facia - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
General information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
25
8
10
9
18
19
6
23
30
15
14
11
12
13
16
33
1
Glovebox - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Interior mirror - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . .
Interior trim panels - removal and refitting . . . . . . . . . . . . . . . . . . . .
Maintenance - bodywork and underframe . . . . . . . . . . . . . . . . . . . .
Maintenance - upholstery and carpets . . . . . . . . . . . . . . . . . . . . . . .
Major body damage - repair . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Minor body damage - repair . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Overhead console - removal and refitting . . . . . . . . . . . . . . . . . . . . .
Radiator grille - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . .
Seat belts - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . .
Seats - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sunroof - general information and adjustment . . . . . . . . . . . . . . . . .
Tailgate - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Tailgate lock components - removal and refitting . . . . . . . . . . . . . . .
Tailgate support strut - removal and refitting . . . . . . . . . . . . . . . . . .
Wheel arch liner - removal and refitting . . . . . . . . . . . . . . . . . . . . . .
Windscreen and fixed windows - removal and refitting . . . . . . . . . .
32
17
29
2
3
5
4
31
7
28
27
26
20
22
21
34
24
Degrees of difficulty
Easy, suitable for
novice with little
experience
Fairly easy, suitable
for beginner with
some experience
Fairly difficult, suitable
for competent DIY
mechanic
Difficult, suitable for
experienced DIY
mechanic
Very difficult,
suitable for expert DIY
or professional
Specifications
Torque wrench settings
Bonnet and tailgate hinges . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Boot lid . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Front seat mounting bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Seat belt mounting nuts and bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Bumper mounting nuts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1 General information
The bodyshell and underframe on all
models is of all-steel welded construction,
incorporating progressive crumple zones at
the front and rear, and a rigid centre safety
cell. The bulkhead behind the engine
compartment incorporates crash grooves
which determine its energy-absorption
characteristics, and special beams to prevent
the intrusion of the front wheels into the
passenger compartment during a serious
accident. All passenger doors incorporate
side impact bars.
All sheet metal surfaces which are prone to
Nm
24
10
38
38
10
corrosion are galvanized. The painting
process includes a base colour which closely
matches the final topcoat, so that any stone
damage is not noticeable.
Hatchback, Saloon and Estate versions are
available. The front section of the vehicle up to
the “B” pillar is identical on all models.
Automatic seat belts are fitted to all models,
and the front seat belt stalks are mounted on
automatic tensioners (also known as
“grabbers”) (see illustration). In the event of a
serious front impact, a spring mass sensor
releases a coil spring which pulls the stalk
buckle downwards and tensions the seat belt.
It is not possible to reset the tensioner once
fired, and it must therefore be renewed.
In the UK, central locking is standard on all
lbf ft
18
7
28
28
7
11
1.4 Automatic seat belt tensioner
1 Coil spring
2 Lever system
3 Spring mass sensor
11•2 Bodywork and fittings
models (see illustration). In other countries, it
is available on certain models only. Where
double-locking is fitted, the lock mechanism
is disconnected (when the system is in use)
from the interior door handles, making it
impossible to open any of the doors or the
tailgate/bootlid from inside the vehicle. This
means that, even if a thief should break a side
window, he will not be able to open the door
using the interior handle. Models with the
double-locking system are fitted with a
control module located beneath the facia on
the right-hand side. In the event of a serious
accident, a crash sensor unlocks all doors if
they were previously locked.
Many of the procedures in this Chapter
require the battery to be disconnected. Refer
to Chapter 5, Section 1 first.
2 Maintenance bodywork and underframe
The general condition of a vehicle’s
bodywork is the one thing that significantly
affects its value. Maintenance is easy, but
needs to be regular. Neglect, particularly after
minor damage, can lead quickly to further
deterioration and costly repair bills. It is
important also to keep watch on those parts
of the vehicle not immediately visible, for
instance the underside, inside all the wheel
arches, and the lower part of the engine
compartment.
The basic maintenance routine for the
bodywork is washing - preferably with a lot of
water, from a hose. This will remove all the
loose solids which may have stuck to the
vehicle. It is important to flush these off in
such a way as to prevent grit from scratching
the finish. The wheel arches and underframe
need washing in the same way, to remove any
accumulated mud, which will retain moisture
and tend to encourage rust. Paradoxically
enough, the best time to clean the underframe
and wheel arches is in wet weather, when the
mud is thoroughly wet and soft. In very wet
weather, the underframe is usually cleaned of
large accumulations automatically, and this is
a good time for inspection.
Periodically, except on vehicles with a waxbased underbody protective coating, it is a
good idea to have the whole of the
underframe of the vehicle steam-cleaned,
engine compartment included, so that a
thorough inspection can be carried out to see
what minor repairs and renovations are
necessary. Steam-cleaning is available at
many garages, and is necessary for the
removal of the accumulation of oily grime,
which sometimes is allowed to become thick
in certain areas. If steam-cleaning facilities are
not available, there are some excellent grease
solvents available which can be brushapplied; the dirt can then be simply hosed off.
Note that these methods should not be used
on vehicles with wax-based underbody
1 Indicator light
2 Buzzer
3 Central locking module
1.5 Central locking component locations
4 Infra-red receiver
7 Ajar switch
5 Lock motor
8 Infra-red transmitter
6 Set/reset switch
protective coating, or the coating will be
removed. Such vehicles should be inspected
annually, preferably just prior to Winter, when
the underbody should be washed down, and
any damage to the wax coating repaired.
Ideally, a completely fresh coat should be
applied. It would also be worth considering
the use of such wax-based protection for
injection into door panels, sills, box sections,
etc, as an additional safeguard against rust
damage, where such protection is not
provided by the vehicle manufacturer.
After washing paintwork, wipe off with a
chamois leather to give an unspotted clear
finish. A coat of clear protective wax polish
will give added protection against chemical
pollutants in the air. If the paintwork sheen
has dulled or oxidised, use a cleaner/polisher
combination to restore the brilliance of the
shine. This requires a little effort, but such
dulling is usually caused because regular
washing has been neglected. Care needs to
be taken with metallic paintwork, as special
non-abrasive cleaner/polisher is required to
avoid damage to the finish. Always check that
the door and ventilator opening drain holes
and pipes are completely clear, so that water
can be drained out. Brightwork should be
treated in the same way as paintwork.
Windscreens and windows can be kept clear
of the smeary film which often appears, by the
use of proprietary glass cleaner. Never use
any form of wax or other body or chromium
polish on glass.
Bodywork and fittings 11•3
3 Maintenance upholstery and carpets
Mats and carpets should be brushed or
vacuum-cleaned regularly, to keep them free
of grit. If they are badly stained, remove them
from the vehicle for scrubbing or sponging,
and make quite sure they are dry before
refitting. Seats and interior trim panels can be
kept clean by wiping with a damp cloth. If they
do become stained (which can be more
apparent on light-coloured upholstery), use a
little liquid detergent and a soft nail brush to
scour the grime out of the grain of the
material. Do not forget to keep the headlining
clean in the same way as the upholstery.
When using liquid cleaners inside the vehicle,
do not over-wet the surfaces being cleaned.
Excessive damp could get into the seams and
padded interior, causing stains, offensive
odours or even rot.
If the inside of the vehicle
gets wet accidentally, it is
worthwhile taking some
trouble to dry it out properly,
particularly where carpets are involved.
Do not leave oil or electric heaters
inside the vehicle for this purpose.
4 Minor body damage - repair
Note: For more detailed information about
bodywork repair, Haynes Publishing produce
a book by Lindsay Porter called “The Car
Bodywork Repair Manual”. This incorporates
information on such aspects as rust treatment,
painting and glass-fibre repairs, as well as
details on more ambitious repairs involving
welding and panel beating.
Repairs of minor scratches in
bodywork
If the scratch is very superficial, and does
not penetrate to the metal of the bodywork,
repair is very simple. Lightly rub the area of
the scratch with a paintwork renovator, or a
very fine cutting paste, to remove loose paint
from the scratch, and to clear the surrounding
bodywork of wax polish. Rinse the area with
clean water.
Apply touch-up paint to the scratch using a
fine paint brush; continue to apply fine layers
of paint until the surface of the paint in the
scratch is level with the surrounding
paintwork. Allow the new paint at least two
weeks to harden, then blend it into the
surrounding paintwork by rubbing the scratch
area with a paintwork renovator or a very fine
cutting paste. Finally, apply wax polish.
Where the scratch has penetrated right
through to the metal of the bodywork, causing
the metal to rust, a different repair technique
is required. Remove any loose rust from the
bottom of the scratch with a penknife, then
apply rust-inhibiting paint to prevent the
formation of rust in the future. Using a rubber
or nylon applicator, fill the scratch with
bodystopper paste. If required, this paste can
be mixed with cellulose thinners to provide a
very thin paste which is ideal for filling narrow
scratches. Before the stopper-paste in the
scratch hardens, wrap a piece of smooth
cotton rag around the top of a finger. Dip the
finger in cellulose thinners, and quickly sweep
it across the surface of the stopper-paste in
the scratch; this will ensure that the surface of
the stopper-paste is slightly hollowed. The
scratch can now be painted over as described
earlier in this Section.
Repairs of dents in bodywork
When deep denting of the vehicle’s
bodywork has taken place, the first task is to
pull the dent out, until the affected bodywork
almost attains its original shape. There is little
point in trying to restore the original shape
completely, as the metal in the damaged area
will have stretched on impact, and cannot be
reshaped fully to its original contour. It is
better to bring the level of the dent up to a
point which is about 3 mm below the level of
the surrounding bodywork. In cases where the
dent is very shallow anyway, it is not worth
trying to pull it out at all. If the underside of the
dent is accessible, it can be hammered out
gently from behind, using a mallet with a
wooden or plastic head. Whilst doing this,
hold a suitable block of wood firmly against
the outside of the panel, to absorb the impact
from the hammer blows and thus prevent a
large area of the bodywork from being
“belled-out”.
Should the dent be in a section of the
bodywork which has a double skin, or some
other factor making it inaccessible from
behind, a different technique is called for. Drill
several small holes through the metal inside
the area - particularly in the deeper section.
Then screw long self-tapping screws into the
holes, just sufficiently for them to gain a good
purchase in the metal. Now the dent can be
pulled out by pulling on the protruding heads
of the screws with a pair of pliers.
The next stage of the repair is the removal
of the paint from the damaged area, and from
an inch or so of the surrounding “sound”
bodywork. This is accomplished most easily
by using a wire brush or abrasive pad on a
power drill, although it can be done just as
effectively by hand, using sheets of abrasive
paper. To complete the preparation for filling,
score the surface of the bare metal with a
screwdriver or the tang of a file, or
alternatively, drill small holes in the affected
area. This will provide a really good “key” for
the filler paste.
To complete the repair, see the Section on
filling and respraying.
Repairs of rust holes or gashes in
bodywork
Remove all paint from the affected area,
and from an inch or so of the surrounding
“sound” bodywork, using an abrasive pad or a
wire brush on a power drill. If these are not
available, a few sheets of abrasive paper will
do the job most effectively. With the paint
removed, you will be able to judge the severity
of the corrosion, and therefore decide
whether to renew the whole panel (if this is
possible) or to repair the affected area. New
body panels are not as expensive as most
people think, and it is often quicker and more
satisfactory to fit a new panel than to attempt
to repair large areas of corrosion.
Remove all fittings from the affected area,
except those which will act as a guide to the
original shape of the damaged bodywork (eg
headlight shells etc). Then, using tin snips or a
hacksaw blade, remove all loose metal and any
other metal badly affected by corrosion.
Hammer the edges of the hole inwards, in order
to create a slight depression for the filler paste.
Wire-brush the affected area to remove the
powdery rust from the
surface of the remaining metal. Paint the
affected area with rust-inhibiting paint, if the
back of the rusted area is accessible, treat
this also.
Before filling can take place, it will be
necessary to block the hole in some way. This
can be achieved by the use of aluminium or
plastic mesh, or aluminium tape.
Aluminium or plastic mesh, or glass-fibre
matting, is probably the best material to use
for a large hole. Cut a piece to the
approximate size and shape of the hole to be
filled, then position it in the hole so that its
edges are below the level of the surrounding
bodywork. It can be retained in position by
several blobs of filler paste around its
periphery.
Aluminium tape should be used for small or
very narrow holes. Pull a piece off the roll, trim
it to the approximate size and shape required,
then pull off the backing paper (if used) and
stick the tape over the hole; it can be
overlapped if the thickness of one piece is
insufficient. Burnish down the edges of the
tape with the handle of a screwdriver or
similar, to ensure that the tape is securely
attached to the metal underneath.
Bodywork repairs - filling and
respraying
Before using this Section, see the Sections
on dent, deep scratch, rust holes and gash
repairs.
Many types of bodyfiller are available, but
generally speaking, those proprietary kits
which contain a tin of filler paste and a tube of
resin hardener are best for this type of repair.
A wide, flexible plastic or nylon applicator will
be found invaluable for imparting a smooth
and well-contoured finish to the surface of the
filler.
11
11•4 Bodywork and fittings
Mix up a little filler on a clean piece of card
or board - measure the hardener carefully
(follow the maker’s instructions on the pack),
otherwise the filler will set too rapidly or too
slowly. Using the applicator, apply the filler
paste to the prepared area; draw the
applicator across the surface of the filler to
achieve the correct contour and to level the
surface. As soon as a contour that
approximates to the correct one is achieved,
stop working the paste - if you carry on too
long, the paste will become sticky and begin
to “pick-up” on the applicator. Continue to
add thin layers of filler paste at 20-minute
intervals, until the level of the filler is just
proud of the surrounding bodywork.
Once the filler has hardened, the excess
can be removed using a metal plane or file.
From then on, progressively-finer grades of
abrasive paper should be used, starting with a
40-grade production paper, and finishing with
a 400-grade wet-and-dry paper. Always wrap
the abrasive paper around a flat rubber, cork,
or wooden block - otherwise the surface of
the filler will not be completely flat. During the
smoothing of the filler surface, the wet-anddry paper should be periodically rinsed in
water. This will ensure that a very smooth
finish is imparted to the filler at the final stage.
At this stage, the “dent” should be
surrounded by a ring of bare metal, which in
turn should be encircled by the finely
“feathered” edge of the good paintwork.
Rinse the repair area with clean water, until all
of the dust produced by the rubbing-down
operation has gone.
Spray the whole area with a light coat of
primer - this will show up any imperfections in
the surface of the filler. Repair these
imperfections with fresh filler paste or
bodystopper, and once more smooth the
surface with abrasive paper. Repeat this
spray-and-repair procedure until you are
satisfied that the surface of the filler, and the
feathered edge of the paintwork, are perfect.
Clean the repair area with clean water, and
allow to dry fully.
If bodystopper is used, it can
be mixed with cellulose
thinners, to form a really thin
paste which is ideal for filling
small holes.
The repair area is now ready for final
spraying. Paint spraying must be carried out
in a warm, dry, windless and dust-free
atmosphere. This condition can be created
artificially if you have access to a large indoor
working area, but if you are forced to work in
the open, you will have to pick your day very
carefully. If you are working indoors, dousing
the floor in the work area with water will help
to settle the dust which would otherwise be in
the atmosphere. If the repair area is confined
to one body panel, mask off the surrounding
panels; this will help to minimise the effects of
a slight mis-match in paint colours. Bodywork
fittings (eg chrome strips, door handles etc)
will also need to be masked off. Use genuine
masking tape, and several thicknesses of
newspaper, for the masking operations.
Before commencing to spray, agitate the
aerosol can thoroughly, then spray a test area
(an old tin, or similar) until the technique is
mastered. Cover the repair area with a thick
coat of primer; the thickness should be built
up using several thin layers of paint, rather
than one thick one. Using 400-grade wet-anddry paper, rub down the surface of the primer
until it is really smooth. While doing this, the
work area should be thoroughly doused with
water, and the wet-and-dry paper periodically
rinsed in water. Allow to dry before spraying
on more paint.
Spray on the top coat, again building up the
thickness by using several thin layers of paint.
Start spraying at one edge of the repair area,
and then, using a side-to-side motion, work
until the whole repair area and about 2 inches
of the surrounding original paintwork is
covered. Remove all masking material 10 to
15 minutes after spraying on the final coat of
paint.
Allow the new paint at least two weeks to
harden, then, using a paintwork renovator, or
a very fine cutting paste, blend the edges of
the paint into the existing paintwork. Finally,
apply wax polish.
Plastic components
With the use of more and more plastic body
components by the vehicle manufacturers (eg
bumpers. spoilers, and in some cases major
body panels), rectification of more serious
damage to such items has become a matter
of either entrusting repair work to a specialist
in this field, or renewing complete
components. Repair of such damage by the
DIY owner is not really feasible, owing to the
cost of the equipment and materials required
for effecting such repairs. The basic technique
involves making a groove along the line of the
crack in the plastic, using a rotary burr in a
power drill. The damaged part is then welded
back together, using a hot-air gun to heat up
and fuse a plastic filler rod into the groove.
Any excess plastic is then removed, and the
area rubbed down to a smooth finish. It is
important that a filler rod of the correct plastic
is used, as body components can be made of
a variety of different types (eg polycarbonate,
ABS, polypropylene).
Damage of a less serious nature (abrasions,
minor cracks etc) can be repaired by the DIY
owner using a two-part epoxy filler repair
material. Once mixed in equal proportions,
this is used in similar fashion to the bodywork
filler used on metal panels. The filler is usually
cured in twenty to thirty minutes, ready for
sanding and painting.
If the owner is renewing a complete
component himself, or if he has repaired it
with epoxy filler, he will be left with the
problem of finding a suitable paint for finishing
which is compatible with the type of plastic
used. At one time, the use of a universal paint
was not possible, owing to the complex range
of plastics encountered in body component
applications. Standard paints, generally
speaking, will not bond to plastic or rubber
satisfactorily. However, it is now possible to
obtain a plastic body parts finishing kit which
consists of a pre-primer treatment, a primer
and coloured top coat. Full instructions are
normally supplied with a kit, but basically, the
method of use is to first apply the pre-primer
to the component concerned, and allow it to
dry for up to 30 minutes. Then the primer is
applied, and left to dry for about an hour
before finally applying the special-coloured
top coat. The result is a correctly-coloured
component, where the paint will flex with the
plastic or rubber, a property that standard
paint does not normally posses.
5 Major body damage - repair
Where serious damage has occurred, or
large areas need renewal due to neglect, it
means that complete new panels will need
welding-in; this is best left to professionals. If
the damage is due to impact, it will also be
necessary to check completely the alignment
of the bodyshell; this can only be carried out
accurately by a Ford dealer, using special jigs.
If the body is left misaligned, it is primarily
dangerous, as the car will not handle properly,
and secondly, uneven stresses will be
imposed on the steering, suspension and
possibly transmission, causing abnormal wear
or complete failure, particularly to items such
as the tyres.
6 Bumpers - removal and refitting
Removal
Front bumper
1 Apply the handbrake, jack up the front of
the vehicle and support it on axle stands.
2 Where applicable, remove the foglights
from the front bumper (Chapter 12).
3 Where applicable, disconnect the tubing
from the headlight washer jets.
4 Unscrew the screws securing the wheel
arch liners to the front bumper (see
illustration).
5 Unscrew the bumper mounting nuts, and
withdraw the bumper forwards from the
vehicle, at the same time disconnecting the
guides from the side pins (see illustrations).
Rear bumper
6 Chock the front wheels, jack up the rear of
the vehicle and support it on axle stands.
Bodywork and fittings 11•5
6.4 Screw (arrowed) securing the wheel
arch liner to the front bumper
6.5A Front bumper mounting bolt
(arrowed)
6.5B Disconnecting the front bumper from
the side guides
6.9 Rear bumper mounting nuts
7.2 Removing a radiator grille mounting
screw
7.3 Unclipping the radiator grille from the
front panel
7 Disconnect the rear exhaust mounting
rubber, and support the exhaust system on an
axle stand.
8 Remove the screws securing the wheel
arch liners to the rear bumper.
9 Unscrew the bumper mounting nuts, and
withdraw the bumper rearwards from the
vehicle, at the same time disconnecting the
guides from the side pins (see illustration).
Refitting
Front and rear bumpers
10 Refitting is a reversal of the removal
procedure. Make sure that the guides locate
correctly on the side pins.
8 Bonnet - removal,
refitting and adjustment
Removal
1 Open the bonnet, and support it in the open
position using the stay.
2 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1).
3 Prise out the clips from the insulator on the
underside of the bonnet, for access to the
windscreen washer hoses and engine
compartment light. It is not necessary to
completely remove the insulator.
4 Disconnect the wiring from the engine
compartment light, and unclip the wiring from
the bonnet.
5 Unbolt the earth lead from the bonnet (see
illustration).
6 Disconnect the windscreen washer hoses
from the bottom of the jets, and unclip the
hose from the bonnet.
7 To assist in correctly realigning the bonnet
when refitting it, mark the outline of the hinges
with a soft pencil. Loosen the two hinge
retaining bolts on each side (see illustration).
8 With the help of an assistant, unscrew the
four bolts, release the stay, and lift the bonnet
from the vehicle (see illustration).
Refitting
9 Refitting is a reversal of the removal
procedure. Position the bonnet hinges within
the outline marks made during removal, but if
necessary alter its position to provide a
7 Radiator grille removal and refitting
Removal
1 Support the bonnet in the open position.
2 Using a Torx key, unscrew the radiator grille
mounting screws (see illustration).
3 Unclip the radiator grille from the front
panel (see illustration).
11
Refitting
4 Refitting is a reversal of the removal
procedure.
8.5 Earth lead and washer hoses on the
underside of the bonnet
8.7 Mark around the bonnet hinges with a
soft pencil before removal
11•6 Bodywork and fittings
8.8 Removing the bonnet
8.9 Buffer for adjustment of the bonnet
front height
uniform gap all round. Adjust the rear height
of the bonnet by repositioning it on the
hinges. Adjust the front height by
repositioning the lock (see Section 10) and
turning the rubber buffers on the engine
compartment front cross panel up or down to
support the bonnet (see illustration).
weatherstrips from the bottom of the door
apertures.
3 Remove the clips and screws, and
withdraw the lower side trim, to give access to
the bonnet release lever (see illustration).
4 Release the outer cable from the lever
bracket.
5 Unscrew and remove the lever mounting
screws, and turn the lever clockwise through
a quarter-turn to disconnect it from the cable.
6 Remove the radiator grille (Section 7). Also
remove the backing panel from the engine
compartment front crossmember.
7 Release the inner and outer cables from the
lock.
8 Withdraw the cable from the engine
compartment, feeding it through the front
crossmember, and removing the grommet
from the bulkhead.
9 Bonnet release cable and
lever - removal and refitting
Removal
1 With the bonnet open, disconnect the
battery negative (earth) lead (Chapter 5,
Section 1).
2 Working inside the vehicle, remove the trim
from the “B” pillar, and pull off the door
9.3 Bonnet release lever
Refitting
9 Refitting is a reversal of the removal
procedure.
10 Bonnet lock - removal,
refitting and adjustment
Removal
1 Remove the radiator grille (Section 7).
2 Release the inner and outer cables from the
bonnet lock.
3 Mark the position of the lock on the
crossmember, then unscrew the mounting
nuts and withdraw the lock.
Refitting and adjustment
4 Refitting is a reversal of the removal
procedure, starting by positioning the lock as
noted before removal.
5 If the front of the bonnet is not level with the
front wings, the lock may be moved up or
down within the mounting holes. After making
an adjustment, raise or lower the rubber
buffers to support the bonnet correctly.
11 Door inner trim panel removal and refitting
Removal
11.2A Prise out the plastic cover . . .
11.2B . . . remove the screw . . .
11.2C . . . and withdraw the bezel from the
inner door handle
11.3A Remove the window operating
switch . . .
1 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1).
2 Carefully prise out the plastic cover with a
small screwdriver. Remove the screw, and
11.3B . . . and disconnect the multi-plug
Bodywork and fittings 11•7
11.4A Remove the cover . . .
ease the bezel off the inner door handle (see
illustrations).
3 Where applicable, remove the window
operating switch and disconnect the multiplug (see illustrations).
Front door
4 Carefully prise out the cover, remove the
screws and withdraw the door pull handle
(see illustrations).
5 Prise off the plastic cap, remove the screw,
and withdraw the quarter bezel from the front
of the window opening (see illustrations).
Rear door
6 Prise off the cap, then remove the screw
and withdraw the door pull handle (see
illustrations).
11.6A Remove the screw . . .
11.4B . . . then remove the screws and
withdraw the door pull handle
11.5A Remove the plastic cap and the
screw . . .
Front and rear doors
7 On models fitted with manual (ie nonelectric) windows, fully shut the window, and
note the position of the regulator handle.
Release the spring clip by inserting a clean
cloth between the handle and the door trim.
Pull the cloth against the open ends of the clip
to release it, at the same time pulling the
handle from the regulator shaft splines.
Withdraw the handle (and where fitted, the
spacer) and recover the clip (see
illustrations).
8 Prise the caps from the trim panel retaining
screws, then remove the screws and lift off
the panel. Where a speaker is attached to the
trim panel, disconnect the multi-plug (see
illustrations).
11.6B . . . and withdraw the rear door pull
handle
11.5B . . . then withdraw the quarter bezel
11.7A Using a clean cloth to release the
spring clip from the window regulator
handle
11
11.7B Withdrawing the window regulator
handle
11.7C Recover the spring clip from the
window regulator handle
11.8A Prise out the caps . . .
11•8 Bodywork and fittings
11.8B . . . remove the inner-facing
screws . . .
11.8C . . . and the side screws . . .
11.8E Door trim panel components
1
2
3
4
5
Door
Foam seal
Trim panel
Top mounting
Centre mounting
11.8D . . . then lift off the trim panel
9 If necessary, the foam insulation may be
removed from the door. First remove the
speaker as described in Chapter 12.
10 On models with manual windows, remove
the foam spacer from the regulator spindle
(see illustration).
11 On the rear door, unscrew the screws and
remove the door pull bracket (see
illustration).
12 Carefully cut the adhesive with a knife,
and remove the foam insulation (see
illustration).
Refitting
13 Refitting is a reversal of the removal
procedure.
12 Door window glass removal and refitting
Removal
Front (manual/non-electric)
1 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1).
2 Remove the door inner trim panel (Section 11).
3 Remove the door exterior mirror (Section 16).
4 Temporarily refit the regulator handle on its
splines.
5 Lower the window until the glass support
bracket is visible through the holes in the door
inner panel. Remove the regulator handle.
11.10 Removing the foam spacer
11.11 Removing the door pull bracket
from a rear door
11.12 Removing the foam insulation
Bodywork and fittings 11•9
12.12 Window support bracket bolts
(arrowed) viewed through the holes in the
door inner panel
12.13 Removing the weatherstrip from the
outside of the door
6 Carefully prise off the weatherstrip from the
outside of the door.
7 Support the glass, then unscrew the bolts
from the support bracket.
8 Lift the glass from the door while tilting it at
the rear, and withdraw it from the outside.
19 Lower the window until the glass support
bracket and bolts are visible through the holes
in the door inner panel. Remove the regulator
handle.
20 Support the glass, then unscrew the bolts
from the support bracket.
21 Unscrew the screws, and remove the air
vent grilles from the rear of the rear door (see
illustrations).
22 Carefully prise off the weatherstrip from
the outside of the door.
23 Have an assistant raise the glass from the
outside, and hold it near its shut position.
24 Loosen (but do not remove) the three
regulator mounting bolts, then slide the top
bolts to the right, and push them out. Slide the
bottom bolt upwards, and push it out. Lower
the regulator assembly inside the door.
25 Working inside the door, lower the glass
until it is below the regulator position, and
move the glass to the outer side of its
channels.
26 With the help of an assistant, lift the glass
out of the door, and withdraw it from the
outside (see illustration).
Front (electric)
9 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1).
10 Remove the door inner trim panel (Section 11).
11 Remove the door exterior mirror (Section 16).
12 Temporarily reconnect the battery and the
window operating switch. Lower the window
until the support bracket and bolts are visible
through the holes in the door inner panel (see
illustration). Disconnect the battery lead and
the operating switch again.
13 Carefully prise off the weatherstrip from
the outside of the door (see illustration).
14 Support the glass, then unscrew the bolts
from the support bracket.
15 Lift the glass from the door while tilting it
at the rear, and withdraw it from the outside
(see illustration).
Rear (manual/non-electric)
16 Disconnect the battery negative (earth)
lead (Chapter 5, Section 1).
17 Remove the door inner trim panel (Section 11).
18 Temporarily refit the regulator handle on
its splines.
Rear (electric)
27 The procedure is as just described for
manual windows, making allowances for the
difference in the regulator mechanism.
Refitting
All doors
28 Refitting is a reversal of the removal
12.15 Lifting the glass from the front door
12.21A Unscrew the screws . . .
procedure, making sure that the glass is
correctly located in the support bracket.
13 Door window regulator removal and refitting
Removal
1 Remove the window glass (Section 12).
2 Loosen (but do not remove) the regulator
and manual winder/electric motor mounting
bolts (see illustrations).
3 Twist the winder or motor (as applicable) in
the bolt slots, and push it inwards.
4 Slide the top bolts to the right, and push
them out. Slide the bottom bolt upwards, and
push it out.
11
12.21B . . . and remove the air vent grilles
from the rear door
12.26 Lifting the glass from the rear door
13.2A Window regulator upper mounting
bolts (front door)
11•10 Bodywork and fittings
13.2B Electric window motor mounting
bolts (front door)
13.2C Window regulator mounting bolts arrowed (rear door)
13.2D Manual winder mounting bolts (rear
door)
5 On electric windows, disconnect the wiring
multi-plug from the motor (see illustration).
6 Withdraw the window regulator mechanism
from inside the door, through the hole in the
inner panel (see illustrations).
Refitting
7 Refitting is a reversal of the removal
procedure.
13.5 Disconnecting the wiring multi-plug
from an electrically-operated window
13.6A Removing the window regulator
mechanism from the front door
14 Door handle and lock
components removal and refitting
Removal
Front door exterior handle
13.6B Front door window regulator
removed from the vehicle
13.6D Rear door window regulator
removed from the vehicle
13.6C Removing the window regulator
mechanism from the rear door
14.3A Remove the two bolts (arrowed) . . .
1 Remove the door inner trim panel (Section 11).
2 Use a knife to cut through the adhesive
strip, so that the foam insulator can be peeled
back locally for access to the lock. Do not
peel back the foam insulator without first
cutting through the adhesive strip, otherwise
the insulator will be damaged. To ensure a
good seal when the insulator is pressed back,
do not touch the adhesive strip.
3 Unscrew and remove the two bolts for the
exterior handle outer bezel, and remove the
bezel (see illustrations).
14.3B . . . followed by the exterior handle
bezel
Bodywork and fittings 11•11
14.4A Unscrew the lock mounting
bolts . . .
4 Unscrew and remove the lock mounting
bolts on the inner rear edge of the door, and
remove the plate. Also remove the additional
support screw (see illustrations).
5 Unclip and disconnect the wiring multiplugs for the central locking and alarm
systems (see illustration).
6 Disconnect the wiring multi-plug from the
door lock.
7 Disconnect the inner handle illumination
light. Undo the screws and remove the inner
handle. Disconnect the operating cable from
the inner handle, as described later in this
Section (see illustrations).
8 Manipulate the lock and handle assembly
as necessary, and disconnect the wiring
multi-plugs for the alarm sensor and central
locking. Withdraw the complete assembly
from inside the door (see illustrations).
9 To disconnect the handle assembly from
the lock bracket, slide the rubber posts
inwards, and push out the assembly (see
illustration).
10 To remove the handle itself, twist the door
handle through a quarter-turn, and pull out the
connecting rods (see illustration).
11 Remove the alarm sensor and the central
locking “Set-reset” sensor (see illustration).
14.4B . . . and remove the plate
14.4C Removing the additional support
screw
14.5 Disconnecting the central locking
and alarm system wiring multi-plugs
14.7A Removing the inner handle
14.7B Disconnecting the operating cable
from the inner handle
14.8A Removing the lock and exterior
handle assembly from inside the door
Rear door exterior handle
12 Remove the door inner trim panel (Section 11).
13 Use a knife to cut through the adhesive
11
14.8B Front door lock and exterior handle
assembly removed from the vehicle
14.9 Disconnecting the handle assembly
from the lock bracket
14.10 Pulling out the handle connecting
rods
11•12 Bodywork and fittings
14.11 Removing the central locking “Setreset” sensor
14.14A Prise out the plug . . .
strip, so that the foam insulator can be peeled
back for access to the lock. Do not peel back
the foam insulator without first cutting through
the adhesive strip. To ensure a good seal
when the insulator is pressed back, do not
touch the adhesive strip.
14 Prise out the plug from the rear edge of
the door, then unscrew the handle mounting
nuts (see illustrations).
15 Prise up the clip, and disconnect the
operating rod from the lock (see illustration).
16 Withdraw the handle from the outside of
the door (see illustration).
17 Remove the door inner trim panel (Section 11).
18 Use a knife to cut through the adhesive
strip, so that the foam insulator can be peeled
back for access to the lock. Do not peel back
the foam insulator without first cutting through
the adhesive strip. To ensure a good seal
when the insulator is pressed back, do not
touch the adhesive strip.
19 Disconnect the interior handle illumination
light.
20 Undo the screws and remove the interior
handle.
21 To remove the cable, first pull back the
plastic outer cable end and blanking piece.
Apply light inward pressure to the control
lever, with the lever in the locked position,
until the inner cable is aligned with the release
slot in the bottom of the cable holder.
22 Push down on the cable ferrule, and
disconnect the inner cable. Remove the
handle assembly.
14.15 Disconnect the operating rod from
the lock
14.16 Removing the rear door exterior
handle
14.24 Prise out the barrel retaining tab . . .
14.25 . . . and pull out the lock barrel
14.31 Unclipping the door-ajar sensor
14.32 Removing the plastic shield from the
locating post
Interior handle
14.14B . . . and unscrew the handle
mounting nuts
Lock barrel
23 Remove the exterior handle as described
earlier in this Section.
24 Prise out the barrel retaining tab from the
handle body, using a small screwdriver (see
illustration).
25 Insert the key, turn it so that it engages
the barrel, then pull out the barrel (see
illustration).
Lock motor - front door
26 Remove the exterior handle as described
earlier in this Section.
27 Extract the clip, and pull out the operating
rod.
28 Remove the operating rod from the plastic
bush, by turning it through a quarter-turn.
29 Release the sensor wiring loom from the
clip.
Bodywork and fittings 11•13
14.33 Slide the outer cable from the lock
bracket
30 Detach the mounting plate from the lock.
31 Release the door-ajar sensor from the clip
(see illustration).
32 Prise the plastic shield from the locating
post (see illustration).
33 Slide the outer cable from the lock
bracket (see illustration), then turn the inner
cable through a quarter-turn to remove it from
the bell crank.
34 Unscrew the mounting screws and
remove the lock motor (see illustration).
Lock motor - rear door
35 Remove the exterior handle as described
earlier in this Section.
36 Unscrew and remove the three lock
mounting screws.
37 Release the sensor wiring loom from the
clip on the door.
38 Disconnect the wiring multi-plug from the
door lock.
39 Disconnect the interior handle illumination
light.
40 Remove the screws, and remove the
interior handle.
41 Remove the lock assembly.
42 Release the door-ajar sensor from the
clip.
43 Prise the plastic shield from the locating
post.
44 Slide the outer cable from the lock
bracket, then turn the inner cable through a
quarter-turn to remove it from the bell crank.
45 Unscrew the mounting screws and
14.34 Removing a lock motor
15.2A Front door check strap mounting
screw removal
remove the lock motor.
Lock motor
Striker
55 Refitting is a reversal of the removal
procedure.
46 Using a pencil, mark the position of the
striker.
47 Undo the mounting screws using a Torx
key, and remove the striker.
Check strap
48 Disconnect the battery negative (earth)
lead (Chapter 5, Section 1).
49 Using a Torx key, unscrew and remove
the check strap mounting screw(s). On the
front door, there are two screws; on the rear
door, there is only one.
50 Prise the rubber grommet from the door
aperture, then unscrew the mounting nuts and
withdraw the check strap from the door.
Refitting
Handles (exterior and interior)
51 Refitting is a reversal of the removal
procedure.
Lock barrel
52 Check that the retaining clip is fitted
correctly.
53 Align the grooves on the barrel with the
grooves on the body and operating lever, then
carefully push the barrel into the handle until it
engages the clip.
54 The remaining refitting procedure is a
reversal of removal.
Striker
56 Refitting is a reversal of the removal
procedure, but check that the door lock
passes over the striker centrally. If necessary,
re-position the striker before fully tightening
the mounting screws.
Check strap
59 Refitting is a reversal of the removal
procedure.
15 Door - removal and refitting
Removal
1 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1).
2 Using a Torx key, unscrew and remove the
check strap mounting screw(s). On the front
door, there are two screws; on the rear door,
there is only one (see illustrations).
3 Disconnect the wiring connector(s) by
twisting them anti-clockwise. On the front
door, there are two connectors; on the rear
door, there is only one (see illustration).
4 Extract the small circlips from the top of the
upper and lower hinge pins (see illustration).
5 Have an assistant support the weight of the
11
15.2B Front door check strap removed
15.3 Disconnecting a door wiring
connector
15.4 Extract the small circlips . . .
11•14 Bodywork and fittings
15.5A . . . then drive out the hinge pins . . .
door, then drive the hinge pins down through
the hinges using a small drift (see
illustrations).
6 Carefully withdraw the door from the
hinges.
Refitting
7 Refitting is a reversal of the removal
procedure, but check that the door lock
passes over the striker centrally. If necessary,
re-position the striker.
16 Exterior mirror and glass removal and refitting
Removal
1 Where electric mirrors are fitted, disconnect
the battery negative (earth) lead (Chapter 5,
Section 1).
2 Prise off the cap, unscrew the screw, and
remove the quarter bezel from the front of the
window opening.
3 On manual mirrors, detach the adjustment
lever.
4 On electric mirrors, disconnect the wiring
multi-plug (see illustration).
5 On both types of mirror, use a Torx key to
unscrew the mirror mounting screws, then
withdraw the mirror from the outside of the
door (see illustrations). Recover the gasket.
Refitting
6 Refitting is a reversal of the removal
procedure.
15.5B . . . and remove them
17 Interior mirror removal and refitting
Removal
1 Using a length of strong thin cord or fishing
line, break the adhesive bond between the
base of the mirror and the glass. Have an
assistant support and remove the mirror as it
is released.
2 If the original mirror is to be refitted,
thoroughly clean its base with methylated
spirit and a lint-free cloth. Allow a period of
one minute for the spirit to evaporate. Clean
the windscreen black patch in a similar
manner.
Refitting
3 During the installation of the mirror, it is
important that the mirror base, windscreen
black patch and the adhesive patch are not
touched or contaminated in any way,
otherwise poor adhesion will result.
4 Prior to fitting the mirror, the vehicle should
have been at an ambient temperature of at
least 20ºC.
5 With the contact surfaces thoroughly
cleaned, remove the protective tape from one
side of the adhesive patch, and press it firmly
into contact with the mirror base.
6 If fitting the mirror to a new windscreen, the
protective tape must also be removed from
the windscreen black patch.
7 Using a hairdryer or a hot air gun, warm the
16.4 Disconnecting the wiring multi-plug
from an electric exterior mirror
mirror base and the adhesive patch for about
30 seconds to a temperature of 50 to 70ºC.
Peel back the protective tape from the other
side of the adhesive patch on the mirror base.
Align the mirror base and the windscreen
patch, and press the mirror firmly into
position. Hold the base of the mirror firmly
against the windscreen for a minimum period
of two minutes, to ensure full adhesion.
8 Wait at least thirty minutes before adjusting
the mirror position.
18 Boot lid - removal and refitting
Removal
1 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1), and open the boot lid.
2 Where applicable, pull off the trim covering,
and release the wiring on the hinge arm.
3 Where fitted, remove the trim from inside
the boot lid.
4 Disconnect the wiring at the connectors
visible through the boot lid inner skin aperture.
5 Attach a length of strong cord to the end of
the wires in the aperture, to act as an aid to
guiding the wiring through the lid when it is
refitted.
6 Release the cable guide rubber grommet,
and withdraw the wiring loom through it. Untie
the cord, and leave it in the boot lid.
7 Mark the position of the hinge arms with a
pencil.
8 Place rags beneath each corner of the boot
lid, to prevent damage to the paintwork.
9 With the help of an assistant, unscrew the
mounting bolts and lift the boot lid from the
car.
Refitting
16.5A Unscrew the screws . . .
16.5B . . . and withdraw the mirror
10 Refitting is a reversal of the removal
procedure. Check that the boot lid is correctly
aligned with the surrounding bodywork, with
an equal clearance around its edge.
Adjustment is made by loosening the hinge
bolts, and moving the boot lid within the
elongated mounting holes. Check that the
lock enters the striker centrally when the boot
lid is closed.
Bodywork and fittings 11•15
20.6A Unclipping the upper trim panel
from the tailgate
19 Boot lid lock components removal and refitting
20.6B Shelf cord post removal
20.7 Removing the wiring loom rubber
grommet
13 Prise open the plastic lip, and remove the
central locking control rod.
14 Withdraw the lock assembly.
5 Separate the tailgate wiring loom multiplugs, located on the left-hand side of the
luggage compartment, on top of the wheel
arch.
6 Unclip and remove the upper trim panel
from the inside of the tailgate. Also remove
the rear shelf cord plastic post (see
illustrations).
7 Prise out the rubber grommet from the top
of the tailgate aperture, and pull the wiring
loom out through the hole in the body (see
illustration).
8 Disconnect the rear window washer tube
from the jet.
9 Prise out the rubber grommet from the
right-hand side of the tailgate aperture, and
pull out the washer tube.
10 Have an assistant support the tailgate in
its open position.
11 Using a small screwdriver, prise off the
clips securing the struts to the tailgate. Pull
the sockets from the ball-studs, and move the
struts downwards.
12 If the headlining has been pulled back,
unscrew and remove the hinge nuts from the
roof panel. Otherwise, unscrew the bolts
securing the tailgate to the hinges (see
illustration).
13 Withdraw the tailgate from the body
aperture, taking care not to damage the
paintwork.
Refitting
Removal
Lock barrel
1 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1).
2 With the boot lid open, remove the luggage
space trim from the right-hand rear corner.
3 Remove the screws, and prise out the rear
light trim cover from the guides.
4 Release the door-ajar sensor from the clip
near the lock.
5 Slide the outer cable from the lock bracket.
Raise the inner cable until it is aligned with the
slot in the barrel lever, and disconnect it.
6 Pull out the lock locating spring clip.
7 Detach the cable mounting bracket from
the barrel, and remove the barrel.
Lock
8 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1).
9 With the boot lid open, prise out the clips
and remove the trim from inside the boot lid.
10 Release the door-ajar sensor from the clip
near the lock.
11 Using a Torx key, unscrew the lock
mounting screws, and withdraw the lock for
access to the cables.
12 Disconnect both the inner and outer
cables from the lock bracket.
20.12 Unscrewing the bolts securing the
tailgate to the hinges
Lock barrel and lock
15 Refitting is a reversal of the removal
procedure.
20 Tailgate removal and refitting
Removal
Hatchback
1 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1). Open the tailgate.
2 The tailgate may be unbolted from the
hinges and the hinges left in position, or the
hinges may be detached from the roof panel
by unscrewing the mounting nuts. In the latter
case, carefully pull down the rear edge of the
headlining for access to the nuts. Take care
not to damage the headlining.
3 Remove the parcel shelf left-hand support
bracket as follows. Fold the rear seat
forwards, and disconnect the left-hand seat
pull cable from the bracket and clips.
Unscrew the screws and remove the bracket.
4 Pull up the rear seat side bolster, then
carefully remove the side trim from the lefthand side of the luggage area. On low-series
models, the bolster is retained with a screw.
20.16 “D” pillar trim panel retaining
screws (arrowed) - Estate models
Estate
14 Disconnect the battery negative (earth)
lead (Chapter 5, Section 1).
15 The tailgate may be unbolted from the
hinges and the hinges left in position, or the
hinges may be detached from the rear roof
panel by unscrewing the mounting nuts. In the
latter case, carefully pull down the rear edge
of the headlining for access to the nuts. Take
care not to damage the headlining.
16 Unscrew the retaining screws, then unclip
the “D” pillar trim panels from both sides (see
illustration).
17 Unclip and remove the upper trim panel
from inside the tailgate.
18 Carefully remove the side trim from the
left-hand side of the luggage area, and
separate the tailgate wiring loom multi-plugs
in the rear light cluster housing.
11
11•16 Bodywork and fittings
22 Tailgate lock components removal and refitting
Removal
Lock barrel (Hatchback)
20.24 Tailgate hinge and bolts - Estate
models
21.2 Prising the spring clip from the upper
end of the strut
hinge, as desired (see illustration). Withdraw
the tailgate from the body aperture, taking
care not to damage the paintwork.
Refitting
Hatchback and Estate
25 Refitting is a reversal of the removal
procedure, but check that the tailgate is
located centrally in the body aperture, and
that the striker enters the lock centrally. If
necessary, loosen the mounting nuts and reposition the tailgate as required.
21.3 Prising the spring clip from the lower
end of the strut
19 Attach a strong fine cord to the end of the
wiring loom, to act as an aid to guiding the
wiring through the tailgate when it is refitted.
20 Prise the rubber grommet from the top
left-hand side of the tailgate aperture, and pull
out the wiring loom. Untie the cord, leaving it
in position in the “D” pillar.
21 Disconnect the rear window washer tube
from the jet. Pull out the rubber grommet, and
remove the tube.
22 Have an assistant support the tailgate in
its open position.
23 Using a small screwdriver, prise off the
clip securing the struts to the tailgate. Pull the
sockets from the ball-studs, and move the
struts downwards.
24 Unscrew and remove the hinge nuts from
the roof panel, or the hinge bolts from the
22.6 Tailgate lock barrel and bracket
21 Tailgate support strut removal and refitting
Removal
1 Support the tailgate in its open position.
2 Prise off the upper spring clip securing the
strut to the tailgate, then pull the socket from
the ball-stud (see illustration).
3 Similarly prise off the bottom clip (see
illustration), and pull the socket from the ballstud. Withdraw the strut.
1 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1).
2 With the tailgate open, pull up the
weatherstrip for access to the lock. Remove
the screws and clips, and remove the trim
panel from the rear of the luggage
compartment.
3 Unhook the parcel net, then remove the
screws and clips, and remove the rear
crossmember trim.
4 Remove the screws, and prise out the rear
light trim cover from the guides.
5 Release the door-ajar sensor from the clip
near the lock.
6 Slide the outer cable from the lock bracket.
Raise the inner cable until it is aligned with the
slot in the barrel lever, and disconnect it (see
illustration).
7 Pull out the lock barrel locating spring clip.
8 Detach the cable mounting bracket from
the barrel, and remove the barrel and cylinder
(see illustrations).
Lock barrel (Estate)
9 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1).
10 Unclip and remove the tailgate trim panel.
Undo the three screws and remove the lock
shield, then unclip the door-ajar sensor.
11 Working through the aperture in the
tailgate inner panel, pull out the lock barrel
locating spring clip. Unhook the operating rod
and withdraw the lock barrel.
Lock (Hatchback)
4 Refitting is a reversal of the removal
procedure, but make sure that the piston end
of the strut is fitted on the body (ie
downwards).
12 Disconnect the battery negative (earth)
lead (Chapter 5, Section 1).
13 With the tailgate open, pull up the
weatherstrip for access to the lock. Remove
the screws and clips, and remove the trim
panel from the rear of the luggage
compartment.
22.8A Removing the lock barrel . . .
22.8B . . . and cylinder
Refitting
Bodywork and fittings 11•17
22.14 Removing the door-ajar sensor from
the lock
14 Release the door-ajar sensor from the clip
near the lock (see illustration).
15 Using a Torx key, unscrew the lock
mounting screws, and withdraw the lock for
access to the cables (see illustration).
16 Disconnect both the inner and outer
cables from the lock bracket (see
illustration).
17 Prise open the plastic clip, and remove
the central locking control rod.
18 Withdraw the lock assembly.
Lock (Estate)
19 Disconnect the battery negative (earth)
lead (Chapter 5, Section 1).
20 Open the tailgate. Undo the screws and
remove the inner trim.
21 Using a Torx key, unscrew the lock
mounting screws, and carefully withdraw the
lock (see illustration).
22 Release the door-ajar sensor from the clip
near the lock.
23 Disconnect the barrel operating rod, and
remove the lock.
24 If necessary, the lock striker assembly
may be removed by disconnecting the release
cable and unscrewing the mounting bolts (see
illustration).
Refitting
Lock barrel and lock - all models
25 Refitting is a reversal of the removal
procedure.
22.15 Removing a lock mounting screw
23 Central locking system
components testing, removal and refitting
22.16 Disconnecting the cables from the
lock
6 Note that a different module is used for
models without an anti-theft alarm.
Central locking set/reset switch
7 This procedure is covered in Section 14,
under front door handle removal.
Testing
Central locking door-ajar switch
1 The central locking module incorporates a
service-test mode, which is activated by
operating one of the lock position switches 8
times within 10 seconds. A buzzer will sound,
to indicate that the service-test mode is
operating, and to indicate that no faults have
been found in the system. If a fault has been
found, the system should be checked by a
Ford dealer or electrical specialist. The central
locking module also incorporates the alarm
system module.
8 This procedure is covered in Section 14,
under front door lock motor removal.
Removal
Central locking door-ajar switch
Central locking/alarm module
11 Refitting is a reversal of the removal
procedure.
2 To remove the module, first remove the
lower right-hand facia panel (right-hand-drive
models) or the glovebox (left-hand-drive
models).
3 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1).
4 Unscrew the mounting bolts, and remove
the module from the bracket beneath the
facia.
5 Disconnect the wiring multi-plug, and
withdraw the module from inside the vehicle.
Refitting
Central locking/alarm module
9 Refitting is a reversal of the removal
procedure.
Central locking set/reset switch
10 Refitting is a reversal of the removal
procedure.
24 Windscreen and fixed
windows - removal and refitting
1 The windscreen and rear window on all
models are bonded in place with special
mastic, as are the rear side windows on
Estate models. Special tools are required to
cut free the old units and fit replacements;
special cleaning solutions and primer are also
required. It is therefore recommended that
this work is entrusted to a Ford dealer or
windscreen replacement specialist.
2 Note that the windscreen contributes
towards the structural strength of the vehicle
as a whole, so it is important that it is fitted
correctly.
25 Body side-trim mouldings
and adhesive emblems removal and refitting
Removal
22.21 Tailgate lock - Estate models
22.24 Lock striker assembly - Estate
models
1 Insert a length of strong cord (fishing line is
ideal) behind the moulding or emblem
concerned. With a sawing action, break the
11
11•18 Bodywork and fittings
25.1 Using a length of cord to remove the
emblem from the radiator grille
adhesive bond between the moulding or
emblem and the panel (see illustration).
2 Thoroughly clean all traces of adhesive
from the panel using
methylated spirit, and allow the location to
dry.
Refitting
3 Peel back the protective paper from the
rear face of the new moulding or emblem.
Carefully fit it into position on the panel
concerned, but take care not to touch the
adhesive. When in position, apply hand
pressure to the moulding/emblem for a short
period, to ensure maximum adhesion to the
panel.
27.2A Unscrew the Torx-headed
screws . . .
26 Sunroof - general
information and adjustment
1 The sunroof should operate freely, without
sticking or binding, as it is opened and
closed. When in the closed position, check
that the panel is flush with the surrounding
roof panel.
2 If adjustment is required, open the sun
blind, but leave the glass panel shut. Unscrew
and remove the three lower frame-to-glass
panel retaining screws. Slide the lower frame
back into the roof.
3 Loosen the central and front securing
screws. Adjust the glass roof panel so that it is
flush at its front edge with the roof panel, then
retighten the securing screws.
4 Pull the lower frame forwards, and insert
and tighten its retaining screws to complete.
27 Seats - removal and refitting
27.2B . . . and remove the mounting trims
for access to the front seat rear mounting
bolts
the battery negative (earth) lead (Chapter 5,
Section 1). Disconnect the seat wiring multiplugs (see illustration).
5 Unscrew the front mounting bolts, and
remove the seat from the vehicle (see
illustration).
Rear seat cushion
6 Fold the rear seat cushion forwards. (Note
that, on some models, the seat cushion is
held in place by screws which must be
removed first.) Using a Torx key, unscrew and
remove the mounting bolts from the hinges on
each side (see illustration).
7 Withdraw the seat cushion from the vehicle.
Rear seat backrest
8 Fold the rear seat cushion and both
backrests forwards.
9 Unclip the backrest rear trims, where fitted,
and raise them.
10 Using a Torx key, unscrew the mounting
bolts (see illustration).
11 Withdraw the backrest from inside the
vehicle.
Rear seat side bolster
Removal
Front seat
27.4 Disconnecting an electric seat multiplug
27.5 Front seat front mounting bolt
1 Release the seat belt, and slide the seat
fully forwards.
2 Using a Torx key, undo the screws and
remove the rear mounting trims, then unscrew
the rear mounting bolts (see illustrations).
3 Slide the seat fully rearwards.
4 Where electric seats are fitted, disconnect
27.6 Rear seat cushion hinge bolt
12 Fold the rear seat backrest forwards.
13 On low-series models, remove the screw
and pull the bolster forwards to disengage the
clips. On high-series models, simply pull the
bolster upwards to disengage the clips.
Refitting
14 Refitting is a reversal of the removal
procedure, but tighten the mounting bolts to
the specified torque.
27.10 Rear seat backrest mounting bolts
Bodywork and fittings 11•19
28.2 Front seat belt reel unit lower
mounting bolt
28 Seat belts removal and refitting
Warning: Be careful when
handling the seat belt tensioning
device (“grabber”). It contains a
powerful spring, which could
cause injury if released in an uncontrolled
fashion. Once fired, the grabber cannot be
reset, and must be renewed. Note also
that seat belts and associated
components which have been subject to
impact loads must be renewed.
Removal
Front seat belt
1 Remove the trim from the “B” pillar and the
scuttle.
2 Unscrew the mounting bolts and remove
the seat belt reel unit (see illustration).
3 Unscrew the bolt securing the seat belt
guide to the “B” pillar, then unscrew the nut
securing the seat belt shackle (see
illustrations).
4 Detach the stalk cable, then undo the
mounting nut, and remove the stalk and
grabber assembly from the front seat (see
illustrations).
Warning: There is a potential risk
of the grabber firing during
removal, so it should be handled
carefully. As an extra precaution,
28.3A Front seat belt guide and mounting
bolt
28.3B Front seat belt shackle and
mounting nut
a spacer may be fitted on the cable before
removal. Hold the adjustment lever in the
“adjust” position while inserting the
spacer.
5 Remove the recline adjustment knob and
trim from the outer side of the front seat, then
unscrew the bolt and remove the seat belt
end from the seat (see illustrations).
Rear side seat belt
6 Unscrew the screws and remove the trim
from the “C” pillar. It will be necessary to
detach the rear seat release cable, and
remove the plastic cover from the rear seat
lock (see illustrations).
7 Fold the rear seat cushions forward.
Unscrew the mounting bolts from the seat belt
shackle and reel (see illustrations).
28.4B Front seat stalk mounting nut
28.4A Front seat belt stalk cable
28.5A Remove the recline adjustment
knob . . .
11
28.5B . . . unscrew the trim retaining
screws . . .
28.5C . . . and unscrew the seat belt end
retaining bolt
28.6A Detach the rear seat release cable
11•20 Bodywork and fittings
28.6B Removing the plastic cover from the
rear seat lock
8 Unscrew the mounting bolt securing the
seat belt stalk, and withdraw the stalk. Also
unscrew the mounting bolt from the lower
anchorage,
where
applicable
(see
illustration).
Rear centre seat belt
9 Unscrew the mounting bolts securing the
seat belt and stalks to the floor. Note that the
stalks are handed, and are marked Left or
Right.
Refitting
10 Refitting is a reversal of the removal
procedure. Tighten the mounting nuts and
bolts to the specified torque.
28.7A Rear seat belt shackle mounting
bolt
28.7B Rear seat belt reel mounting bolt
Passenger grab handle
29 Interior trim panels removal and refitting
Removal
Sun visor
1 Disconnect the wiring for the vanity mirror
light, where fitted.
2 Unscrew the mounting screws and remove
the visor.
3 Prise up the cover, unscrew the inner
bracket mounting screws, and remove the
bracket.
4 Prise up the covers, then unscrew the
mounting screws and remove the grab
handle.
“A” pillar trim
5 Pull away the door weatherstrip in the area
of the trim.
6 Release the alarm and aerial wiring from the
upper and middle clips.
7 Carefully press the trim away from the
upper and middle clips, and pull the trim
upwards. Recover the lower sealing strip.
8 Remove the upper and middle clips from
the pillar.
“B” pillar and cowl side trim
9 Pull away the door weatherstrip in the area
of the trim.
10 Undo the screws, release the fasteners
and remove the lower trim (see illustrations).
11 Carefully separate the lower trim from the
upper trim, using a screwdriver if necessary
(see illustration).
12 Unscrew the seat belt mounting bolt from
under the front seat, remove the remaining
trim from the “B” pillar, and feed the belt
through the trim.
“C” pillar trim (Saloon and Hatchback)
28.8 Rear seat belt lower anchorage
29.10A Removing a middle screw from the
lower trim
29.10B Releasing the fasteners from the
cowl side trim
29.11 Separating the “B” pillar lower and
upper trim
13 Pull away the door weatherstrip in the
area of the trim.
14 Fold the rear seat cushion forwards.
15 Pull up the rear seat bolster, and release
29.15A Pull up the rear seat bolster . . .
Bodywork and fittings 11•21
29.15B . . . and release the upper hook
the upper hook. Note that, on low-series
models, the bolster is retained with a screw
(see illustrations).
16 Undo the screw, release the clips, and
detach the upper trim.
17 Remove the rear seat belt lower mounting
bolt, then remove the trim, and pass the seat
belt through it.
“C” pillar trim (Estate)
18 Prise off the caps, unscrew the screws,
and remove the upper trim from the “C” pillar
(see illustration).
19 Unscrew the mounting bolt securing the
rear seat belt upper shackle to the “C” pillar.
20 Unclip and remove the trim.
“D” pillar trim (Estate)
29.18 Screw locations (arrowed) for the
“C” pillar upper trim - Estate models
29.23A Unscrew the mounting screws
from the upper corners . . .
30 Centre console removal and refitting
Removal
1 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1).
2 Pull the ashtray from the facia.
3 Pull off the gear lever (or selector lever)
knob (see illustration).
4 Using a screwdriver, carefully prise out the
gear lever gaiter/switch panel or selector lever
panel, as applicable. When necessary,
disconnect the wiring multi-plugs (see
illustration).
5 Remove the adaptive damping switch,
when fitted (Chapter 12).
29.23B . . . and above the coin tray
position . . .
21 Remove the three mounting screws, then
unclip the trim from the “D” pillar.
Lower facia panel
22 Remove the steering column top and
bottom shrouds.
23 Unscrew the mounting screws from the
upper corners and above the coin tray
position, and withdraw the lower facia panel
from the facia (see illustrations).
Refitting
24 Refitting is a reversal of the removal
procedure. Where seat belt fastenings have
been disturbed, make sure that they are
tightened to the specified torque.
29.23C . . . and withdraw the lower facia
panel
30.3 Gear lever knob removal
11
30.4 Prising out the gear lever gaiter
30.6A Prise off the plastic caps . . .
30.6B . . . and unscrew the mounting
screws at the front top . . .
11•22 Bodywork and fittings
30.6C . . . at the sides . . .
30.6D . . . and inside the cassette storage
box
6 Prise off the plastic caps, then unscrew the
centre console mounting screws. These are
located on each side, on the front top, and
inside the cassette storage box. The screws
with the washers go on the side of the
console; the front screws are smaller than the
others, and black in colour (see illustrations).
7 Fully apply the handbrake lever. Withdraw
the centre console, at the same time passing
the gaiter over the handbrake lever (see
illustrations).
8 Disconnect the cigar lighter wiring (see
illustration).
30.7B Passing the gaiter over the
handbrake lever
Refitting
9 Refitting is a reversal of the removal
procedure.
31 Overhead console removal and refitting
Removal
30.8 Disconnecting the cigar lighter wiring
31.3 Removing the sunroof handle
securing screw
1 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1).
2 When applicable, remove the sunroof
switch (Chapter 12).
3 When applicable, remove the sunroof
handle, after undoing the securing screw (see
illustration).
3 Push the console towards the windscreen,
to disengage it from the clips.
32.1 Glovebox removal
30.7A Withdrawing the front of the
console from the facia
Refitting
4 Refitting is a reversal of the removal
procedure.
32 Glovebox removal and refitting
Removal
1 Open the glovebox. Using a screwdriver,
carefully press in one side of the glovebox
near the hinge, to release it from the plastic
clip (see illustration).
2 Withdraw the glovebox and, where
necessary, disconnect the wiring multi-plug
for the light.
3 If necessary, the lock may be removed by
unscrewing the mounting screws and removing
the lock plate and spring (see illustration).
4 To remove the lock barrel, depress the
spring tabs.
Refitting
5 Locate the barrel in the lock plate, making
sure that the clips are fully engaged.
6 Hold the latch pins together, and engage
the right-hand pin of the lock plate.
7 Refit the spring, and engage the left-hand
pin of the lock plate.
8 Refit the lock plate, and tighten the screws.
9 Reconnect the wiring multi-plug and refit
the glovebox, making sure that it is fully
inserted in the plastic clips.
32.3 Glovebox lock mounting screws
(arrowed)
Bodywork and fittings 11•23
33.3A Unscrew the screws . . .
33 Facia - removal and refitting
Removal
1 Disconnect the battery negative (earth) lead
(Chapter 5, Section 1).
2 Remove the windscreen wiper arms
(Chapter 12), then remove the cowl from just
in front of the windscreen. The cowl is in two
sections, with retaining screws located along
its front edge. With the cowl removed,
disconnect the speedometer cable by pulling
it from the intermediate inner cable extension.
3 Remove the centre console (Section 30),
then unscrew the screws and remove the
heater side covers (see illustrations).
4 Remove the steering column (Chapter 10).
5 Remove the instrument panel (Chapter 12).
6 Where fitted, unscrew the screws and
remove the automatic warning system
display.
7 Remove the radio and (if fitted) the CD
player (Chapter 12).
8 Remove the heater control panel (Chapter 3).
9 Using a screwdriver, carefully prise out the
headlight switch panel, and disconnect the
wiring multi-plugs.
10 Remove the glovebox (Section 32).
11 Remove the small piece of carpet from
under the passenger side of the facia.
12 Remove the side trim panels from the “A”
33.3B . . . and remove the heater side
covers
and “B” pillars on each side of the vehicle
(Section 29). The upper panels on the “B”
pillars can be left in position.
13 At the base of the right-hand “A” pillar,
disconnect the wiring multi-plugs, earth leads
and aerial, noting their fitted positions.
14 Identify the position of the wiring multiplugs on the fusebox, then disconnect them.
15 Disconnect the wiring from the footwell
lights, where fitted.
16 Prise out the speedometer cable rubber
grommet at the bulkhead near the pedal
bracket, then release the cable from the clips.
17 Remove the screws and withdraw the
glovebox side trim, for access to the side
facia mounting screw.
18 Open the front doors. Prise off the trim
covers, then pull away the door weatherstrip
by the side mounting bolt positions on each
side (see illustrations).
19 Unscrew the facia side mounting bolts.
20 Unscrew the facia centre mounting bolts
(see illustrations).
21 Withdraw the facia from the bulkhead, far
enough to be able to reach in behind it.
22 Disconnect the remaining multi-plugs and
connections, noting their locations on the
various components for correct refitting. It will
also be necessary to release some wiring
loom holders, clips and plastic ties, and the
fresh air vent hoses (see illustration).
23 Withdraw the facia from one side of the
vehicle.
33.18A Prise off the covers . . .
33.18B . . . and pull away the weatherstrip
to reveal the facia mounting bolts
33.20A Facia mounting bolt positions (lefthand-drive shown, right-hand-drive
similar)
11
33.20B Facia mounting bolt next to the
glovebox
33.20C Facia centre mounting bolt next to
the heater panel
33.20D Facia mounting bolt near the
heater
11•24 Bodywork and fittings
33.22 Disconnecting the fresh air hoses
Refitting
24 Refitting is a reversal of the removal
procedure. On completion, check the
operation of all electrical components.
34 Wheel arch liner removal and refitting
Removal
Front
1 Apply the handbrake, jack up the front of
the vehicle and support it on axle stands. If
34.3 Removing a wheel arch liner retaining
screw
34.4 Removing a front wheel arch liner
wished, remove the wheel to improve access.
2 Prise out the stud clip on the front lower
edge of the liner.
3 Using a Torx key, unscrew the screws
securing the liner to the inner wheel arch
panel (see illustration).
4 Remove the screws and clips securing the
liner to the outer edge of the wheel arch and
bumper. Withdraw the liner from under the
vehicle (see illustration).
6 Unscrew and remove the nuts, located on
either side of the coil spring, securing the
central section of the liner.
7 Using a Torx key, unscrew the screws
securing the liner to the centre of the inner
wheel arch panel.
8 Remove the clips securing the liner to the
outer edge of the wheel arch, and withdraw
the liner from under the vehicle.
Rear
Refitting
5 Chock the front wheels, jack up the rear of
the vehicle and support it on axle stands. If
wished, remove the wheel to improve access.
9 Refitting is a reversal of the removal
procedure. If the wheels were removed,
tighten the wheel nuts to the specified torque.
12•1
Chapter 12 Body electrical system
Contents
Air bag clock spring - removal and refitting . . . . . . . . . . . . . . . . . . . 30
Air bag control module - removal and refitting . . . . . . . . . . . . . . . . . 29
Air bag unit (driver’s side) - removal and refitting . . . . . . . . . . . . . . . 28
Anti-theft alarm system - general information . . . . . . . . . . . . . . . . . . 20
Auxiliary warning system - general information and
component renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
Battery - check, maintenance and charging . . . . . . . . See Chapter 1
Battery - removal and refitting . . . . . . . . . . . . . . . . . . . See Chapter 5
Bulbs (exterior lights) - renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Bulbs (interior lights) - renewal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Clock - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Compact disc player - removal and refitting . . . . . . . . . . . . . . . . . . . 25
Cruise control system - general information . . . . . . . . . . . . . . . . . . . 21
Electrical fault finding - general information . . . . . . . . . . . . . . . . . . . 2
Electrical system check . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 1
Exterior light units - removal and refitting . . . . . . . . . . . . . . . . . . . . . 7
Fuses, relays and timer module - testing and renewal . . . . . . . . . . . 3
General information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
Headlight beam alignment - checking and adjustment . . . . . . . . . . 8
Headlight levelling motor - removal and refitting . . . . . . . . . . . . . . . 9
Horn - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Instrument panel - removal and refitting . . . . . . . . . . . . . . . . . . . . . . 10
Instrument panel components - removal and refitting . . . . . . . . . . . 11
Radio aerial - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . 27
Radio/cassette player - coding, removal and refitting . . . . . . . . . . . 23
Radio/cassette player power amplifier - removal and refitting . . . . . 24
Speakers - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
Speedometer drive cable - removal and refitting . . . . . . . . . . . . . . . 12
Stop-light switch - removal and refitting . . . . . . . . . . . See Chapter 9
Switches - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Tailgate wiper motor assembly - removal and refitting . . . . . . . . . . . 17
TCS inhibition switch - removal and refitting . . . . . . . . See Chapter 9
Trip computer module - removal and refitting . . . . . . . . . . . . . . . . . 18
Windscreen/tailgate washer system and wiper blade
check . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Chapter 1
Windscreen/tailgate washer system components - removal
and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
Windscreen wiper motor and linkage - removal and refitting . . . . . . 16
Wiper arms - removal and refitting . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Degrees of difficulty
Easy, suitable for
novice with little
experience
Fairly easy, suitable
for beginner with
some experience
Fairly difficult, suitable
for competent DIY
mechanic
Difficult, suitable for
experienced DIY
mechanic
Very difficult,
suitable for expert DIY
or professional
Specifications
Fuses (auxiliary fusebox in engine compartment)
Note: Fuse ratings and circuits are liable to change from year to year. Consult the handbook supplied with the vehicle, or consult a Ford dealer,
for specific information.
Fuse No
Rating
Colour
Circuit(s) protected
1
80
Black . . . . . . . . . . . . . . . . . . . . . . . . . .
Power supply to main fusebox
2
60
Yellow . . . . . . . . . . . . . . . . . . . . . . . . .
Radiator electric cooling fans
3
60
Yellow . . . . . . . . . . . . . . . . . . . . . . . . .
Diesel engine glow plugs and/or ABS braking system
4
20
Yellow . . . . . . . . . . . . . . . . . . . . . . . . .
Ignition system, or ignition and daytime running lights
5
30
Light green . . . . . . . . . . . . . . . . . . . . . .
Heated windscreen (left-hand side)
6
30
Light green . . . . . . . . . . . . . . . . . . . . . .
Heated windscreen (right-hand side)
7
30
Light green . . . . . . . . . . . . . . . . . . . . . .
ABS braking system
8
30
Light green . . . . . . . . . . . . . . . . . . . . . .
Air conditioning compressor/heated seats or air conditioning
compressor/daytime running lights
9
20
Light blue . . . . . . . . . . . . . . . . . . . . . . .
ECU (petrol), Cold start solenoid (Diesel)
10
20
Light blue . . . . . . . . . . . . . . . . . . . . . . .
Ignition switch
11
3
Violet . . . . . . . . . . . . . . . . . . . . . . . . . .
ECU memory
12
15
Light blue . . . . . . . . . . . . . . . . . . . . . . .
Horn and hazard flasher warning system
13
15
Light blue . . . . . . . . . . . . . . . . . . . . . . .
Oxygen sensor
14
15
Light blue . . . . . . . . . . . . . . . . . . . . . . .
Fuel pump
15
10
Red . . . . . . . . . . . . . . . . . . . . . . . . . . .
Dipped beam headlight (right-hand side)
16
10
Red . . . . . . . . . . . . . . . . . . . . . . . . . . .
Dipped beam headlight (left-hand side)
17
10
Red . . . . . . . . . . . . . . . . . . . . . . . . . . .
Main beam headlight (right-hand side)
18
10
Red . . . . . . . . . . . . . . . . . . . . . . . . . . .
Main beam headlight (left-hand side)
12
12•2 Body electrical system
Fuses (main fusebox in passenger compartment)
Note: Fuse ratings and circuits are liable to change from year to year. Consult the handbook supplied with the vehicle, or consult a Ford dealer,
for specific information.
Fuse
Rating
Colour
Circuit(s) protected
19
7.5
Brown . . . . . . . . . . . . . . . . . . . . . . . . .
Heated door mirrors
20
10
Black . . . . . . . . . . . . . . . . . . . . . . . . . .
Front/rear wiper motor (circuit breaker)
21
30
Light green . . . . . . . . . . . . . . . . . . . . . .
Front electric windows (only)
21
40
Orange . . . . . . . . . . . . . . . . . . . . . . . . .
Front and rear electric windows
22
7.5
Brown . . . . . . . . . . . . . . . . . . . . . . . . .
ABS module
23
15
Light blue . . . . . . . . . . . . . . . . . . . . . . .
Reversing lights
24
15
Light blue . . . . . . . . . . . . . . . . . . . . . . .
Stop-lights
25
20
Yellow . . . . . . . . . . . . . . . . . . . . . . . . .
Central locking system/double-locking/anti-theft alarm
26
20
Yellow . . . . . . . . . . . . . . . . . . . . . . . . .
Foglights
27
15
Light blue . . . . . . . . . . . . . . . . . . . . . . .
Cigar lighter
28
30
Light green . . . . . . . . . . . . . . . . . . . . . .
Headlight washer system
29
30
Light green . . . . . . . . . . . . . . . . . . . . . .
Heated rear window
30
7.5
Brown . . . . . . . . . . . . . . . . . . . . . . . . .
Interior lighting and auxiliary warning system
31
7.5
Brown . . . . . . . . . . . . . . . . . . . . . . . . .
Instrument panel illumination
32
7.5
Brown . . . . . . . . . . . . . . . . . . . . . . . . .
Radio
33
7.5
Brown . . . . . . . . . . . . . . . . . . . . . . . . .
Front and rear sidelights (left-hand side)
34
7.5
Brown . . . . . . . . . . . . . . . . . . . . . . . . .
Interior lighting and digital clock
35
7.5
Brown . . . . . . . . . . . . . . . . . . . . . . . . .
Front and rear sidelights (right-hand side)
36
30
Light green . . . . . . . . . . . . . . . . . . . . . .
Air bag
37
30
Light green . . . . . . . . . . . . . . . . . . . . . .
Heater blower
38
7.5
Brown . . . . . . . . . . . . . . . . . . . . . . . . .
Adaptive damping
Relays (auxiliary fusebox in engine compartment)
Relay
R1
Colour
Green . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
R2
R3
R3
R4
R5
R5
R6
R7
R8
R9
R10
R11
Black . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Blue (petrol) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Brown (Diesel) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Yellow . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Dark green (petrol) . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Black (Diesel) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Yellow . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Brown . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Brown . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
White . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
White . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Brown . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Circuit(s) protected
Daytime running lights (left-hand-drive, but not all countries) or dimdip lights (UK)
Radiator electric cooling fan (high speed)
Air conditioning cut-out
Air conditioning in conjunction with Diesel engine
Windscreen heater time delay
Radiator electric cooling fan (low speed)
Radiator electric cooling fan (low speed)
Starter solenoid
Horns
Fuel pump
Dipped beam headlights
Main beam headlights
ECU power supply (petrol), cold start (Diesel)
Relays (main fusebox in passenger compartment)
Relay
R12
R13
R14
R15
R16
Colour
White . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Yellow . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Yellow . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Green . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Black . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Circuit(s) protected
Interior, courtesy and footwell lights
Heated rear window
Heater blower
Windscreen wiper motor
Ignition
Auxiliary relays (not in the fuseboxes)
Relay
R17
R18
R19
Colour
Black . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Black . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
...........................................
Blue . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Circuit(s) protected
Diesel glow plug
“One-touch down”
driver’s window relay
Speed control cut-off
R20
R21
R22
R23
R24
R25
R26
Blue . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Orange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
White . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Black . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
White . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
White . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Black . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Headlight washer system
Rear screen wiper interval
Foglights (left-hand-drive only)
Direction indicators
Anti-theft alarm (left-hand side)
Anti-theft alarm (right-hand side)
Heated seats
Location
Battery tray
Driver’s door
Central fuse box bracket the
below instrument panel
Bulb module bracket
Bulb module bracket
Interface module bracket
Steering column
Door lock module bracket
Door lock module bracket
Door lock module bracket
Body electrical system 12•3
Bulbs
Headlight main beam . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Headlight dipped beam . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Foglights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sidelights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Direction indicator lights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Side repeater lights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Stop-lights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Reversing lights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Rear fog/tail lights (Saloon and Estate) . . . . . . . . . . . . . . . . . . . . . . . . . .
Rear tail light (Saloon and Hatchback) . . . . . . . . . . . . . . . . . . . . . . . . . .
Number plate lights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Engine compartment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Interior lights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Reading light . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Wattage
55
55
55
5
21
5
21
21
21/4
5
5
10
10
5
Type
Halogen
Halogen
Halogen
Wedge
Bayonet
Wedge
Bayonet
Bayonet
Bayonet
Bayonet
Festoon
Wedge
Festoon
Wedge
Torque wrench settings
Nm
lbf ft
Windscreen wiper motor bolts:
Into old motor (see text) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Into new motor (see text) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
8
12
6
9
1 General information
Warning: Before carrying out any
work on the electrical system,
read through the precautions
given in “Safety first!” at the beginning of
this manual.
The electrical system is of 12-volt negative
earth type. Power for the lights and all
electrical accessories is supplied by a
lead/acid battery which is charged by the
alternator.
This Chapter covers repair and service
procedures for the various electrical
components not associated with the engine.
Information on the battery, ignition system,
alternator, and starter motor can be found in
Chapter 5.
All models are fitted with a driver’s air bag,
which is designed to prevent serious chest
and head injuries to the driver during an
accident. A similar bag for the front seat
passenger is also available (see illustration).
The sensor and electronic unit for the air bag
is located next to the steering column inside
the vehicle, and contains a back-up capacitor,
crash sensor, decelerometer, safety sensor,
integrated circuit and microprocessor (see
illustration). The air bag is inflated by a gas
generator, which forces the bag out of the
module cover in the centre of the steering
wheel. A “clock spring” ensures that a good
electrical connection is maintained with the air
bag at all times - as the steering wheel is
turned in each direction, the spring winds and
unwinds.
All UK models are fitted with an alarm
system incorporating a movement sensor and
ignition immobiliser. On Saloon and
Hatchback models, the alarm system horn is
located on the left-hand side of the luggage
1.3B Air bag sensor and electronic unit
1 Air bag module (driver’s)
2 Clock spring
1.3A Air bag system components
3 Diagnostic and sensor unit
4 Air bag indicator light
5 Air bag module
(passenger’s)
1
2
3
4
5
Crash sensor
Safety sensor
Voltage back-up
Application Specific Integrated Circuit
Microprocessor
12
12•4 Body electrical system
compartment, but on Estate models, it is on
the right-hand side.
Some models are fitted with a headlight
levelling system, which is controlled by a knob
on the facia. On position “0”, the headlights
are in their base position, and on position “5”,
the headlights are in their maximum inclined
angle.
It should be noted that, when portions of
the electrical system are serviced, the cable
should be disconnected from the battery
negative terminal, to prevent electrical shorts
and fires.
Caution: When disconnecting the
battery for work described in the
following Sections, refer to
Chapter 5, Section 1.
2 Electrical fault finding general information
Note: Refer to the precautions given in
“Safety first!” and in Section 1 of this Chapter
before starting work. The following tests relate
to testing of the main electrical circuits, and
should not be used to test delicate electronic
circuits (such as engine management systems,
anti-lock braking systems, etc), particularly
where an electronic control module is used.
Also refer to the precautions given in Chapter
5, Section 1.
General
1 A typical electrical circuit consists of an
electrical component, any switches, relays,
motors, fuses, fusible links or circuit breakers
related to that component, and the wiring and
connectors which link the component to both
the battery and the chassis. To help to
pinpoint a problem in an electrical circuit,
wiring diagrams are included at the end of this
manual.
2 Before attempting to diagnose an electrical
fault, first study the appropriate wiring
diagram, to obtain a complete understanding
of the components included in the particular
circuit concerned. The possible sources of a
fault can be narrowed down by noting if other
components related to the circuit are
operating properly. If several components or
circuits fail at one time, the problem is likely to
be related to a shared fuse or earth
connection.
3 Electrical problems usually stem from
simple causes, such as loose or corroded
connections, a faulty earth connection, a
blown fuse, a melted fusible link, or a faulty
relay (refer to Section 3 for details of testing
relays). Visually inspect the condition of all
fuses, wires and connections in a problem
circuit before testing the components. Use
the wiring diagrams to determine which
terminal connections will need to be checked
in order to pinpoint the trouble-spot.
4 The basic tools required for electrical faultfinding include a circuit tester or voltmeter (a
12-volt bulb with a set of test leads can also
be used for certain tests); an ohmmeter (to
measure resistance and check for continuity);
a battery and set of test leads; and a jumper
wire, preferably with a circuit breaker or fuse
incorporated, which can be used to bypass
suspect wires or electrical components.
Before attempting to locate a problem with
test instruments, use the wiring diagram to
determine where to make the connections.
5 To find the source of an intermittent wiring
fault (usually due to a poor or dirty
connection, or damaged wiring insulation), a
“wiggle” test can be performed on the wiring.
This involves wiggling the wiring by hand to
see if the fault occurs as the wiring is moved.
It should be possible to narrow down the
source of the fault to a particular section of
wiring. This method of testing can be used in
conjunction with any of the tests described in
the following sub-Sections.
6 Apart from problems due to poor
connections, two basic types of fault can
occur in an electrical circuit - open-circuit, or
short-circuit.
7 Open-circuit faults are caused by a break
somewhere in the circuit, which prevents
current from flowing. An open-circuit fault will
prevent a component from working.
8 Short-circuit faults are caused by a “short”
somewhere in the circuit, which allows the
current flowing in the circuit to “escape” along
an alternative route, usually to earth. Shortcircuit faults are normally caused by a
breakdown in wiring insulation, which allows a
feed wire to touch either another wire, or an
earthed component such as the bodyshell. A
short-circuit fault will normally cause the
relevant circuit fuse to blow.
Finding an open-circuit
9 To check for an open-circuit, connect one
lead of a circuit tester or the negative lead of a
voltmeter either to the battery negative
terminal or to a known good earth.
10 Connect the other lead to a connector in
the circuit being tested, preferably nearest to
the battery or fuse. At this point, battery
voltage should be present, unless the lead
from the battery or the fuse itself is faulty
(bearing in mind that some circuits are live
only when the ignition switch is moved to a
particular position).
11 Switch on the circuit, then connect the
tester lead to the connector nearest the circuit
switch on the component side.
12 If voltage is present (indicated either by
the tester bulb lighting or a voltmeter reading,
as applicable), this means that the section of
the circuit between the relevant connector
and the switch is problem-free.
13 Continue to check the remainder of the
circuit in the same fashion.
14 When a point is reached at which no
voltage is present, the problem must lie
between that point and the previous test point
with voltage. Most problems can be traced to
a broken, corroded or loose connection.
Finding a short-circuit
15 To check for a short-circuit, first
disconnect the load(s) from the circuit (loads
are the components which draw current from
a circuit, such as bulbs, motors, heating
elements, etc).
16 Remove the relevant fuse from the circuit,
and connect a circuit tester or voltmeter to the
fuse connections.
17 Switch on the circuit, bearing in mind that
some circuits are live only when the ignition
switch is moved to a particular position.
18 If voltage is present (indicated either by
the tester bulb lighting or a voltmeter reading,
as applicable), this means that there is a
short-circuit.
19 If no voltage is present during this test,
but the fuse still blows with the load(s)
reconnected, this indicates an internal fault in
the load(s).
Finding an earth fault
20 The battery negative terminal is
connected to “earth” - the metal of the
engine/transmission unit and the vehicle body
- and many systems are wired so that they
only receive a positive feed, the current
returning via the metal of the car body. This
means that the component mounting and the
body form part of that circuit. Loose or
corroded mountings can therefore cause a
range of electrical faults, ranging from total
failure of a circuit, to a puzzling partial failure.
In particular, lights may shine dimly (especially
when another circuit sharing the same earth
point is in operation), motors (eg wiper motors
or the radiator cooling fan motor) may run
slowly, and the operation of one circuit may
have an apparently-unrelated effect on
another. Note that on many vehicles, earth
straps are used between certain components,
such as the engine/transmission and the
body, usually where there is no metal-tometal contact between components, due to
flexible rubber mountings, etc.
21 To check whether a component is
properly earthed, disconnect the battery (refer
to Chapter 5, Section 1) and connect one lead
of an ohmmeter to a known good earth point.
Connect the other lead to the wire or earth
connection being tested. The resistance
reading should be zero; if not, check the
connection as follows.
22 If an earth connection is thought to be
faulty, dismantle the connection, and clean
both the bodyshell and the wire terminal (or
the component earth connection mating
surface) back to bare metal. Be careful to
remove all traces of dirt and corrosion, then
use a knife to trim away any paint, so that a
clean metal-to-metal joint is made. On
reassembly, tighten the joint fasteners
securely; if a wire terminal is being refitted,
use serrated washers between the terminal
and the bodyshell, to ensure a clean and
secure connection. When the connection is
Body electrical system 12•5
remade, prevent the onset of corrosion in the
future by applying a coat of petroleum jelly or
silicone-based grease, or by spraying on (at
regular intervals) a proprietary ignition sealer
such as Holts Damp Start, or a waterdispersant lubricant such as Holts Wet Start.
3 Fuses, relays and timer
module - testing and renewal
Note: It is important to note that the ignition
switch and the appropriate electrical circuit
must always be switched off before any of the
fuses (or relays) are removed and renewed. In
the event of the fuse/relay unit having to be
removed, the battery earth lead must be
disconnected. When reconnecting the battery,
reference should be made to Chapter 5.
1 Fuses are designed to break a circuit when
a predetermined current is reached, in order
to protect components and wiring which
could be damaged by excessive current flow.
Any excessive current flow will be due to a
fault in the circuit, usually a short-circuit (see
Section 2). The main fusebox, which also
carries some relays, is located inside the
vehicle below the facia panel on the
passenger’s side, and is accessed by a lever
behind the glovebox (see illustration).
2 A central timer module is located on the
bottom of the main fusebox. This module
contains the time control elements for the
heated rear window, interior lights and
intermittent wiper operation. The module also
activates a warning buzzer/chime when the
vehicle is left with the lights switched on, or if
a vehicle fitted with automatic transmission is
not parked in position “P”.
3 The auxiliary fusebox is located on the front
left-hand side of the engine compartment,
and is accessed by unclipping and removing
the cover. The auxiliary fusebox also contains
some relays (see illustration). Each circuit is
identified by numbers on the main fusebox
and on the inside of the auxiliary fusebox
cover. Reference to the fuse chart in the
Specifications at the start of this Chapter will
indicate the circuits protected by each fuse.
Plastic tweezers are attached to the main
fusebox and to the inside face of the auxiliary
fuse and block cover, to remove and fit the
fuses and relays.
4 To remove a fuse, use the tweezers
provided to pull it out of the holder. Slide the
fuse sideways from the tweezers. The wire
within the fuse is clearly visible, and it will be
broken if the fuse is blown (see illustration).
5 Always renew a fuse with one of an
identical rating. Never substitute a fuse of a
higher rating, or make temporary repairs using
wire or metal foil; more serious damage, or
even fire, could result. The fuse rating is
stamped on top of the fuse. Never renew a
fuse more than once without tracing the
source of the trouble.
6 Spare fuses of various current ratings are
3.1 Main fusebox layout
1 Fuse/relay removal tweezers
2 Diode
3 Multi-plug connections
3.3 Auxiliary fusebox layout
1 Fuses 1 to 3
2 Fuses 4 to 8, 11 to 14
3 Relays R2, R5 and R6
4 Relays R7 to R11
provided in the cover of the auxiliary fusebox.
Note that if the vehicle is to be laid up for a
long period, fuse 34 in the main fusebox
should be removed, to prevent the ancillary
electrical components from discharging the
battery.
7 Relays are electrically-operated switches,
which are used in certain circuits. The various
relays can be removed from their respective
locations by carefully pulling them from the
sockets. Each relay in the fuseboxes has a
plastic bar on its upper surface to enable the
use of the tweezers. The locations and
5 Relay sockets for relays R1 and R4
6 Diode
12
3.4 The fuses can be checked visually to
determine if they are blown
12•6 Body electrical system
3.7 “One-touch down” window relay in the
driver’s door
4.3A Depress the locking plunger . . .
functions of the various relays are given in the
Specifications (see illustration).
8 If a component controlled by a relay
becomes inoperative and the relay is suspect,
listen to the relay as the circuit is operated. If
the relay is functioning, it should be possible
to hear it click as it is energized. If the relay
proves satisfactory, the fault lies with the
components or wiring of the system. If the
relay is not being energized, then either the
relay is not receiving a switching voltage, or
the relay itself is faulty. (Do not overlook the
relay socket terminals when tracing faults.)
Testing is by the substitution of a known good
unit, but be careful; while some relays are
identical in appearance and in operation,
others look similar, but perform different
functions.
9 The central timer module located on the
bottom of the main fusebox incorporates its
own self-diagnosis function. Note that
diagnosis cannot take place if the heated rear
window is defective.
10 To activate the system, press the heated
rear window button while the ignition is being
switched on, then release the button. Operate
the light switch, washer pump switch and all
of the door switches one after the other, and
check that the buzzer confirms that the input
signals are correct.
11 Now move the wiper lever to the
intermittent wipe position, and check the
output signals by operating the same
switches.
12 The self-diagnosis function is turned off
by switching the ignition off and on again.
4.3B . . . and withdraw the ignition lock
barrel
4 Switches - removal and refitting
Removal
Ignition switch and lock barrel
1 Disconnect the battery negative (earth) lead
(refer to Chapter 5, Section 1).
2 Remove the rubber gaiters and locking
rings, then remove the securing screws and
take off the steering column upper and lower
shrouds.
3 Insert the ignition key, and turn it to the
accessory position. Using a small screwdriver
or twist drill through the hole in the side of the
lock housing, depress the locking plunger and
withdraw the lock barrel (see illustrations).
4 The switch may be removed from the
steering column assembly by disconnecting
the multi-plug, then using a screwdriver to
release the switch retaining tab (see
illustrations).
Windscreen wiper multi-function
switch
4.4A Release the retaining tab . . .
4.4B . . . and remove the ignition switch
4.7 Disconnecting the multi-plug from the
windscreen wiper multi-function switch
4.8A Depress the plastic tab with a
screwdriver . . .
5 Disconnect the battery negative (earth) lead
(refer to Chapter 5, Section 1).
6 Remove the rubber gaiters and locking
rings, then remove the securing screws and
take off the steering column upper shroud.
7 Disconnect the multi-plug (see illustration).
8 Depress the plastic tab with a screwdriver,
and lift the switch assembly from the steering
column (see illustrations).
4.8B . . . and remove the windscreen wiper
multi-function switch
Body electrical system 12•7
4.10 Prising out the light switch
Main light, auxiliary foglight and rear
foglight combination switch
Note: From July 1994 a rvised main light
switch was introduced; this was fitted as
standard in production. If the revised switch is
to be fitted to a pre-July 1994 model, an
adapter lead will also be required to prevent
electrical damage ocurring. Refer to your Ford
dealer for further information
9 Disconnect the battery negative (earth) lead
(refer to Chapter 5, Section 1).
10 Carefully prise the switch panel from the
facia, using a screwdriver against a cloth pad
to prevent damage to the facia (see
illustration).
11 Disconnect the multi-plugs and withdraw
the switch panel (see illustration).
12 Unscrew the four mounting screws, and
remove the switch from the panel.
13 Pull off the switch control knob, and
remove the blanking plug and retainer.
14 Depress the plastic tabs, and remove the
front cover and switch.
Instrument light rheostat
15 Disconnect the battery negative (earth)
lead (refer to Chapter 5, Section 1).
16 Carefully prise the light switch panel from
the facia, using a screwdriver against a cloth
pad to prevent damage to the facia.
17 Disconnect the multi-plugs from the rear
of the switch, then remove the screws and
withdraw the instrument light rheostat from
the panel.
Door mirror control switch
18 Disconnect the battery negative (earth)
lead (refer to Chapter 5, Section 1).
19 Carefully prise the switch from the facia,
using a screwdriver against a cloth pad to
prevent damage to the facia.
20 Disconnect the multi-plug and withdraw
the switch.
Direction indicator, dipped beam and
hazard flasher multi-function switch
21 Disconnect the battery negative (earth)
lead (refer to Chapter 5, Section 1).
22 Remove the rubber gaiters and locking
rings, then remove the screws and take off the
steering column upper shroud.
4.11 Disconnecting the multi-plugs from
the light switch and rheostat
4.23 Removing the direction indicator,
dipped beam and hazard flasher multifunction switch. Direction indicator relay
(flasher unit) is attached
23 Depress the retaining lug and withdraw
the switch assembly, then disconnect the
multi-plug (see illustration).
24 With the switch assembly removed, pull
out the direction indicator relay if required.
38 Depress the retaining lug and remove the
switch assembly, then disconnect the multiplug.
Horn switch (steering wheel without
air bag)
Electrically-operated sunroof switch
and traction control switch
Note: When an air bag is fitted, the horn
switch is removed with the air bag unit. Refer
to Section 28.
25 Disconnect the battery negative (earth)
lead (refer to Chapter 5, Section 1).
26 Carefully pull off the padded centre of the
steering wheel which incorporates the horn
switch.
27 Disconnect the wiring and remove the
switch assembly.
39 Disconnect the battery negative (earth)
lead (refer to Chapter 5, Section 1).
40 Carefully prise out the switch with a
screwdriver, using a cloth pad to prevent
damage to the trim.
41 Disconnect the multi-plug and remove the
switch.
Luggage compartment switch
28 Disconnect the battery negative (earth)
lead (refer to Chapter 5, Section 1).
29 With the tailgate/bootlid open, pull the
weatherstrip from the centre of the rear cross
panel.
30 Carefully prise out the trim fasteners from
the bottom corners of the rear trim, then
unscrew the retaining screws and remove the
trim panel.
31 Disconnect the wiring multi-plug, and pull
out the switch.
Electrically-operated window switch
(single)
32 Disconnect the battery negative (earth)
lead (refer to Chapter 5, Section 1).
33 Carefully prise out the switch from the
door inner trim panel, using a cloth pad to
prevent damage to the trim.
34 Disconnect the multi-plug and remove the
switch.
Handbrake-on warning switch
42 Disconnect the battery negative (earth)
lead (refer to Chapter 5, Section 1).
43 Remove the centre console as described
in Chapter 11.
44 Disconnect the multi-plug, then remove
the screw and withdraw the switch from the
handbrake lever mounting bracket (see
illustration).
“Economy/Sport” mode switch
(automatic transmission models)
45 Disconnect the battery negative (earth)
lead (refer to Chapter 5, Section 1).
46 Select Neutral, then prise out the selector
indicator panel, using a cloth pad to prevent
damage to the surrounding trim.
47 Push the switch out of the panel, and
disconnect the multi-plug.
Electrically-operated window switch
(multiple) and isolator
35 Disconnect the battery negative (earth)
lead (refer to Chapter 5, Section 1).
36 Prise the blanking cap from inside the
inner door handle cavity, and remove the
screw.
37 Hold the inner door handle in its open
position, then remove the bezel and withdraw
it over the handle.
12
4.44 Disconnecting the multi-plug from
the handbrake lever
12•8 Body electrical system
4.49 Prising out the heated rear window
switch
Heated windscreen switch and heated
rear window switch
48 Disconnect the battery negative (earth)
lead (refer to Chapter 5, Section 1).
49 Carefully prise out the switch, using a
cloth pad to prevent damage to the trim (see
illustration).
50 Disconnect the multi-plug and remove the
switch (see illustration).
Electrically-operated seat switch and
heated seat switch
51 Disconnect the battery negative (earth)
lead (refer to Chapter 5, Section 1).
52 Carefully prise out the switch, using a
cloth pad to prevent damage to the trim.
53 Disconnect the multi-plug and remove the
switch.
4.50 Disconnecting the multi-plug from
the heated rear window switch
4.57A Unscrew the cross-head screw . . .
Adaptive damping switch
Refitting
54 Disconnect the battery negative (earth)
lead (refer to Chapter 5, Section 1).
55 Carefully prise out the switch, using a
cloth pad to prevent damage to the trim.
56 Disconnect the multi-plug and remove the
switch.
59 Refitting of all switches is a reversal of the
removal procedure.
Courtesy light door switch
57 Open the door, then unscrew the crosshead screw and carefully pull the switch from
the pillar (see illustrations). Take care not to
force the wire from the switch terminal,
otherwise it will be difficult to retrieve it from
the pillar.
58 Disconnect the wire, and tie it in a loose
knot to prevent it dropping back into the
pillar.
5 Bulbs (exterior lights) renewal
Note: Ensure that all exterior lights are
switched off before disconnecting the wiring
connectors from any exterior light bulbs. Do
not touch the glass of halogen-type bulbs
(headlights, front foglights) with the fingers; if
the glass is accidentally touched, clean it with
methylated spirit.
Headlight (dipped beam)
1 Working under the bonnet, depress the
plastic clips and remove the cover from the
rear of the headlight unit (see illustration).
2 Release the spring clip and withdraw the
bulb, then disconnect the wiring lead (see
illustrations).
3 Fit the new bulb using a reversal of the
removal procedure. Have the headlight beam
alignment checked as described later in this
Chapter.
Headlight (main beam)
4.57B . . . and pull out the courtesy light
switch
5.1 Removing the cover from the rear of
the headlight
5.2A Release the spring clip . . .
5.2B . . . and withdraw the headlight bulb
4 Working under the bonnet, depress the
plastic clips and remove the cover from the
rear of the headlight unit.
5 Turn the bulbholder anti-clockwise, and
remove it from the rear of the headlight unit
(see illustration).
5.5 Removing the headlight (main beam)
bulbholder
Body electrical system 12•9
5.6 Removing the headlight (main beam)
bulb from the bulbholder
6 Pull out the bulb and disconnect the wiring
lead (see illustration).
7 Fit the new bulb using a reversal of the
removal procedure, making sure that the
bulbholder is correctly located in the headlight
unit. Have the headlight beam alignment
checked as described later in this Chapter.
Front sidelight
8 Working under the bonnet, depress
plastic clips and remove the cover from
rear of the headlight unit.
9 Pull the bulbholder from the rear of
headlight unit (see illustration).
10 Pull the wedge-type bulb from
bulbholder (see illustration).
11 Fit the new bulb using a reversal of
removal procedure.
the
the
the
5.9 Removing the front sidelight bulbholder from the rear of the headlight unit
Side repeaters
17 The side repeater light is held in position
by spring pressure.
18 Depending on how the light unit was
previously fitted, press it either forwards or
rearwards, and remove it from the front wing
(see illustration).
19 Turn the bulbholder anti-clockwise, and
disconnect it from the housing (see
illustration).
20 Pull the wedge-type bulb from the holder
(see illustration).
21 Fit the new bulb using a reversal of the
removal procedure.
the
Front foglight
the
22 Unscrew the cross-head screws securing
5.10 Pulling the wedge-type bulb from the
bulbholder
the front foglight unit to the valance, and
withdraw the light unit.
23 Prise open the plastic clips and remove
the rear cover from the light unit.
24 Release the spring clips and withdraw the
bulb, then pull off the wiring connector.
25 Fit the new bulb using a reversal of the
removal procedure.
Rear light cluster
26 With the tailgate or bootlid open, flip open
the trim cover to reveal the bulbholder in the
rear corner of the luggage compartment. On
Estate models, pull back the weatherstrip and
unclip the trim cover (see illustrations).
27 Press the two plastic locking tabs
together, and withdraw the complete rear light
cluster (see illustrations).
Front direction indicator
12 Open the bonnet. Loosen (but do not
remove) the screw located above the front
direction indicator (see illustration 7.10).
13 Withdraw the front direction indicator light
unit.
14 Rotate the bulbholder anti-clockwise, and
withdraw it from the light unit.
15 Twist the bulb anti-clockwise, and remove
it from the bulbholder (see illustration).
16 Fit the new bulb using a reversal of the
removal procedure, but before refitting the
light unit, first insert the holding spring in its
bore.
5.15 Removing the front direction
indicator bulb
5.18 Removing the side repeater from the
front wing
12
5.19 Removing the bulbholder from the
side repeater lens/bulbholder
5.20 Removing the wedge-type bulb from
the side repeater bulbholder
5.26A Pull back the weatherstrip . . .
12•10 Body electrical system
5.26B . . . and unclip the trim cover
5.27A Pressing the two plastic locking
tabs together (Estate)
5.27B Removing the rear light cluster
(Estate)
5.27C Removing the rear light cluster
(Saloon)
5.28A Removing a bulb from the rear light
cluster bulbholder
5.28B Bulb positions in the rear light cluster
28 Depress and twist the appropriate bulb to
remove it from the bulbholder (see
illustrations).
29 Fit the new bulb using a reversal of the
removal procedure. Make sure that the rear
light cluster is fully inserted.
Number plate light
5.30 Remove the cross-head screws . . .
5.31 . . . for access to the festoon-type
bulb
30 Remove the cross-head screws from the
number plate light, and remove the light unit
(see illustration).
31 Release the festoon-type bulb from the
contact springs (see illustration).
32 Fit the new bulb using a reversal of the
removal procedure. Make sure that the
tension of the contact springs is sufficient to
hold the bulb firmly.
Body electrical system 12•11
6.4 Prise out the interior light with a
screwdriver
6 Bulbs (interior lights) - renewal
Engine compartment light
1 With the bonnet open, pull the wedge-type
bulb from the bulbholder.
2 Fit the new bulb using a reversal of the
removal procedure.
Interior lights
3 Switch off the interior light by locating the
switch in its middle position.
4 Using a small screwdriver, carefully prise
out the light or bulb cover, as applicable (see
illustration).
5 Lift up the reflector, then release the
festoon-type bulb from the contact springs
(see illustration).
6 Fit the new bulb using a reversal of the
removal procedure. Make sure that the
tension of the contact springs is sufficient to
hold the bulb firmly.
Reading light
7 With the reading light switched off, prise
out the light using a small screwdriver.
8 Hinge back the contact plate, and release
the festoon-type bulb from the contact
springs.
6.5 Lifting the reflector from the interior
light
9 Fit the new bulb using a reversal of the
removal procedure. Make sure that the
tension of the contact springs is sufficient to
hold the bulb firmly.
Instrument panel illumination and
warning lights
10 Remove the instrument panel as
described in Section 10.
11 Twist the bulbholder anti-clockwise to
remove it (see illustration).
12 Fit the new bulbholder using a reversal of
the removal procedure.
Foglight warning indicator
13 Using a screwdriver, prise out the
indicator from the facia, and disconnect the
multi-plug.
14 Twist the bulbholder anti-clockwise with
the screwdriver, and remove it (see
illustration).
15 Fit the new bulb using a reversal of the
removal procedure.
Hazard warning light
16 Pull the cover directly up from the switch,
then remove the bulb (see illustrations).
17 Fit the new bulb using a reversal of the
removal procedure.
Glovebox light
18 Open the glovebox, then pull out the
wedge-type bulb from the light located under
the upper edge.
6.11 Removing a bulb from the rear of the
instrument panel
Heater fan switch illumination
19 Pull off the switch knob, then depress and
twist the bulb to remove it.
Automatic transmission selector
panel illumination
20 Disconnect the battery negative (earth)
lead (refer to Chapter 5, Section 1).
21 Remove the ashtray.
22 Select Neutral, then prise out the panel
from the centre console.
23 Disconnect the multi-plug from the
overdrive control switch.
24 Disconnect the bulbholder and pull out
the wedge-type bulb.
25 Fit the new bulb using a reversal of the
removal procedure.
Interior door handle illumination
26 Disconnect the battery negative (earth)
lead (refer to Chapter 5, Section 1).
27 Remove the door interior trim panel as
described in Chapter 11.
28 Using a knife, cut free the foam
watershield for access to the rear of the
interior door handle.
29 Pull out the bulbholder and remove the
bulb.
Clock illumination
30 Disconnect the battery negative (earth)
lead (refer to Chapter 5, Section 1).
31 Remove the clock as described in Section 13.
12
6.14 Removing the bulb from the foglight
warning indicator
6.16A Pull off the hazard warning light
cover . . .
6.16B . . . and remove the bulb
12•12 Body electrical system
6.32A Twist the bulbholder
anti-clockwise . . .
32 Twist the bulbholder anti-clockwise using
a screwdriver, then remove the bulbholder
from the rear of the clock (see illustrations).
Heater control illumination
33 Remove the heater control panel (Chapter
3), then twist the bulbholder anti-clockwise
and remove the bulb from the rear of the
panel.
7 Exterior light units removal and refitting
Removal
1 Disconnect the battery negative (earth) lead
(refer to Chapter 5, Section 1).
7.8A Unscrew the outer mounting
screws . . .
7.8D Using a hacksaw to cut through the
middle of the headlight back-piece, in
order to fit a new unit
6.32B . . . and remove it from the rear of
the clock
Headlight unit
2 With the bonnet supported in its open
position, loosen (but do not remove) the screw
located above the front direction indicator.
3 Withdraw the front direction indicator unit
forwards, and disconnect the wiring multiplug. Place the unit to one side.
4 Disconnect the wiring multi-plug for the
headlight unit (see illustration).
5 Remove the radiator grille as described in
Chapter 11.
6 Remove the front bumper as described in
Chapter 11.
7 The headlights fitted from new are a single
unit, joined by a plastic back-piece running
across the front of the vehicle. However, if it is
required to renew a headlight unit on one side
7.4 Disconnecting the headlight unit
wiring multi-plug
only, the back-piece must first be removed
complete, then cut in half on the bench.
8 Unscrew the mounting bolts from each side
of the headlight unit, and withdraw the unit
from the front of the vehicle (see
illustrations). Use a hacksaw to cut through
the centre of the headlight unit (ie between the
two headlights), and obtain a connecting kit
from a Ford dealer to attach the new unit.
9 If necessary, the lens may be removed
separately by releasing the clips (see
illustrations). To remove the diffuser, release
the clips, then remove the rubber seal.
Front direction indicator
10 With the bonnet supported in its open
position, loosen (but do not remove) the screw
7.8B . . . and inner mounting screws . . .
7.8C . . . and withdraw the headlight unit
assembly
7.9A Release the clips . . .
7.9B . . . and remove the headlight lens
Body electrical system 12•13
7.10 Loosen the front direction indicator
retaining screw
7.12 Disconnecting the wiring plug from
the indicator bulbholder
7.20A Rear light cluster mounting nuts
(arrowed)
located above the front direction indicator
(see illustration).
11 Withdraw the front direction indicator light
unit.
12 Rotate the bulbholder anti-clockwise, and
withdraw it from the light unit. Alternatively,
the wiring plug can be disconnected from the
bulbholder, leaving the bulb in position (see
illustration). Remove the light unit.
(a) When refitting the rubber seal on the
headlight unit, note that it has a tapered
seat.
(b) If one or both headlights have been
disturbed, have the beam alignment
checked as described in the next Section.
(c) When refitting the rear light cluster, check
the condition of the sealer on the body
panel, and if necessary renew it.
4 Whenever temporary adjustments are
made, the settings must be checked and if
necessary reset by a Ford dealer or other
qualified person as soon as possible.
Removal
Foglight (front)
13 Unscrew the cross-head screws securing
the front foglight unit to the valance, and
withdraw the light unit from the valance.
14 Prise open the plastic clips, and remove
the rear cover from the light unit.
15 Release the spring clips and withdraw the
bulb, then pull off the wiring connector.
Remove the foglight unit.
Rear light cluster
16 With the tailgate or bootlid open, unhook
the parcel net (where fitted) from the rear of
the luggage compartment.
17 On Saloon and Hatchback models,
remove the screws, release the clips, and
remove the trim panel from the rear cross
panel. On Estate models, it is sufficient to
open the flap.
18 Remove the screws, and press the rear
light trim cover from the guides (where
applicable).
19 Disconnect the wiring multi-plug.
20 Unscrew the four mounting nuts, and
withdraw the light unit from the outside of the
vehicle (see illustrations).
9 Headlight levelling motor removal and refitting
8 Headlight beam alignment checking and adjustment
1 Accurate adjustment of the headlight beam
is only possible using optical beam-setting
equipment. This work should therefore be
carried out by a Ford dealer, or other service
station with the necessary facilities.
2 Temporary adjustment can be made after
renewal of a headlight bulb or unit, or as an
emergency measure if the alignment is
incorrect following accident damage. Turn the
adjustment screws on the top of the headlamp
unit to make the adjustment (see illustration).
3 Before making any adjustments to the
settings, it is important that the tyre pressures
are correct, and that the vehicle is standing on
level ground. Bounce the front of the vehicle a
few times to settle the suspension. Ideally,
somebody of average size should sit in the
driver’s seat during the adjustment, and the
vehicle should have a full tank of fuel. Where a
vehicle is fitted with an electrical beam
levelling system, set the switch to the “O”
position before making any adjustments.
1 Remove the headlight unit as described in
Section 7, then remove the cover.
2 Disconnect the wiring multi-plug from the
motor.
3 Rotate the motor upwards approximately
60∞, then pull it forwards slightly.
4 Disconnect the adjustment spindle by
pressing the ball coupling to one side, away
from the socket on the reflector.
5 Withdraw the motor from the headlight unit.
Refitting
6 Refitting is a reversal of the removal
procedure, but make sure that the motor is
turned down until it engages the stop.
10 Instrument panel removal and refitting
Removal
1 Disconnect the battery negative (earth) lead
(refer to Chapter 5, Section 1).
Rear number plate light assembly
21 Remove both number plate lights as
described in Section 5.
22 With the tailgate or bootlid open, remove
the screws and withdraw the inner trim panel.
23 Unscrew the nuts, and remove the outer
cover and number plate base from the
tailgate.
24 Disconnect the multi-plug and remove the
light assembly.
Refitting
25 Refitting of all the external light units is a
reversal of the removal procedure, noting the
following points:
8.2 Headlight beam setting adjustment
screws
7.20B Removing the rear light cluster unit
1 Vertical alignment screw
2 Horizontal alignment screw
12
12•14 Body electrical system
10.6 Removing the foglight warning
indicator
10.8B . . . and the remaining screws . . .
10.7 Removing a switch blanking cover
10.8A With the blanking covers removed,
unscrew the concealed screws . . .
2 Where fitted, remove the clock as
described in Section 13.
3 Where fitted, remove the trip computer
module as described in Section 18.
4 Remove the heated rear window switch as
described in Section 4.
5 Where fitted, remove the heated
windscreen switch.
6 Where fitted, remove the display assembly
warning indicator for the foglights (see
illustration).
7 Remove any blanking covers from the
unused switch positions (see illustration).
8 Prise out the blanking covers, then unscrew
the retaining screws and remove the
instrument panel surround (see illustrations).
9 Unscrew the mounting screws, and
withdraw the instrument panel a little way
from the facia (see illustration).
10 Disconnect the two multi-plugs from the
rear of the instrument panel (see illustration).
11 Withdraw the instrument panel from the
facia, at the same time releasing the
speedometer intermediate cable.
Refitting
12 Refitting is a reversal of the removal
procedure.
11 Instrument panel
components removal and refitting
Removal
10.8C . . . and lift out the instrument panel
surround
10.9 Three of the instrument panel
mounting screws (arrowed)
1 Remove the warning light and illumination
bulbs by twisting them anti-clockwise (see
illustration).
2 Carefully prise off the glass and bezel from
the front of the instrument panel, noting the
positions of the retaining lugs (see
illustration).
3 Note the positions of the five diffusers, then
remove them from the instrument panel.
4 To remove the speedometer head, unscrew
the three mounting screws and withdraw the
head from the housing.
5 To remove the tachometer, unscrew the
single screw and withdraw it from the
housing.
10.10 Disconnecting the multi-plugs from
the rear of the instrument panel
11.1 Rear view of the instrument panel,
showing bulbholders
11.2 Bezel retaining lug on the instrument
panel
Body electrical system 12•15
12.7A Squeeze the collar . . .
12.7B . . . and disconnect the
speedometer main cable from the
intermediate cable
12.9A Unscrew the cable nut . . .
6 Similarly remove the fuel gauge and
temperature gauge by unscrewing the single
screws.
7 Remove all the pin contacts.
8 Using a small punch, push in the multi-plug
securing pins, and remove the multi-plugs.
9 Carefully lift the printed circuit from the
location dowels on the housing, taking care
not to damage it.
windscreen, withdrawing first one side and
then the other.
6 Disconnect the battery negative (earth) lead
(refer to Chapter 5, Section 1).
7 Reach in behind the bulkhead. Squeeze the
collar on the upper end of the speedometer
cable, where it is attached to the intermediate
cable from the rear of the speedometer head.
Disconnect the cable, and withdraw it from
the bulkhead inner panel, together with the
rubber grommet (see illustrations).
8 Apply the handbrake, jack up the front of
the vehicle and support it on axle stands.
9 Unscrew the nut and disconnect the
speedometer cable from the vehicle speed
sensor on the transmission, then withdraw the
cable from within the engine compartment.
Use two spanners to loosen the nut - one to
counterhold the sensor, and the other to
unscrew the cable nut (see illustrations).
2 Using a small screwdriver, prise the clock
out of the facia (see illustration). To prevent
damage to the facia, place a cloth pad
beneath the screwdriver.
3 Disconnect the multi-plug from the rear of
the clock, and withdraw the clock (see
illustration).
Refitting
10 Refitting is a reversal of the removal
procedure.
12 Speedometer drive cable removal and refitting
Removal
1 Remove the windscreen wiper arms as
described in Section 15.
2 With the bonnet closed, release the grille
panel upper edge from just in front of the
windscreen, by prising off the caps and
unscrewing the upper retaining screws.
3 Open the bonnet, and support with the
stay.
4 Pull off the sealing strip from the cross
panel at the rear of the engine compartment.
5 Unscrew the lower screws, and remove the
grille panel halves from in front of the
Refitting
10 Refitting is a reversal of the removal
procedure.
13 Clock - removal and refitting
Refitting
4 Refitting is a reversal of the removal
procedure. Reset the clock on completion.
14 Horn - removal and refitting
Removal
1 Apply the handbrake, jack up the front of
the vehicle and support it on axle stands.
2 Unscrew the bolts, and release the clips
securing the radiator lower cover to the front
of the vehicle.
3 Disconnect the wiring from the horn
terminal.
4 Unscrew the mounting bolt, and withdraw
the horn with its mounting bracket from under
the vehicle (see illustration).
Removal
Refitting
1 Disconnect the battery negative (earth) lead
(refer to Chapter 5, Section 1).
5 Refitting is a reversal of the removal
procedure.
13.2 Prising the clock out of the facia
13.3 Disconnecting the multi-plug from
the rear of the clock
12
12.9B . . . and disconnect the
speedometer cable from the vehicle speed
sensor
12•16 Body electrical system
14.4 Horn and mounting bracket (arrowed)
15 Wiper arms removal and refitting
Removal
1 Disconnect the battery negative (earth) lead
(refer to Chapter 5, Section 1). If the windscreen
wiper arms are to be removed, close the bonnet.
2 With the wiper(s) “parked” (ie in the normal
at-rest position), mark the positions of the
blade(s) on the screen, using a wax crayon or
strips of masking tape.
3 Lift up the plastic cap from the bottom of
the wiper arm, and loosen the nut one or two
turns (see illustration).
4 Lift the wiper arm, and release it from the
taper on the spindle by moving it to one side.
15.3 Loosening the wiper arm retaining
nut
15.5 Removing the wiper arm from the
spindle
5 Completely remove the nut, and withdraw the
wiper arm from the spindle (see illustration).
panel upper edge from just in front of the
windscreen, by prising off the caps and
unscrewing the upper retaining screws (see
illustrations).
4 Open the bonnet, and support it with the
stay.
5 Pull off the bonnet sealing strip from the
cross panel at the rear of the engine
compartment (see illustration).
6 Unscrew the lower screws, and remove the
grille panel halves from in front of the
windscreen, withdrawing one side then the
other side (see illustrations).
7 Unscrew the mounting bolts securing the
wiper motor and linkage to the bulkhead. On
right-hand-drive models, the linkage is on the
right-hand side of the bulkhead (see
illustration); on left-hand-drive models, it is
on the left-hand side.
Refitting
6 Refitting is a reversal of the removal
procedure. Make sure that the arm is fitted in
the previously-noted position.
16 Windscreen wiper motor and
linkage - removal and refitting
Removal
1 Disconnect the battery negative (earth) lead
(refer to Chapter 5, Section 1).
2 Remove the wiper arms as described in
Section 15.
3 With the bonnet closed, release the grille
16.3A Prise off the cap . . .
16.3B . . . and remove the upper retaining
screws
16.5 Removing the bonnet sealing strip
16.6A Unscrew the lower screws . . .
16.6B . . . and remove the grille panel from
in front of the windscreen
16.7 Wiper motor mounting bolt locations
(right-hand-drive)
Body electrical system 12•17
16.9 Removing the wiper motor and
linkage
16.10 Wiper motor arm and mounting
plate located on the motor
8 Disconnect the wiper motor multi-plug.
9 Withdraw the wiper motor, complete with
the linkage, from the bulkhead (see
illustration).
10 Mark the position of the motor arm on the
mounting plate, then unscrew the centre nut
(see illustration).
11 Unscrew the motor mounting bolts, and
separate the motor from the linkage assembly.
5 Disconnect the wiper motor earth lead.
6 Unscrew the mounting bolts, and remove
the wiper motor from inside the tailgate (see
illustrations).
7 Unbolt and remove the mounting plate. If
necessary, remove the mounting rubbers for
renewal (see illustrations).
Refitting
12 Refitting is a reversal of the removal
procedure. There are two tightening torques
for the motor mounting bolts - the lower one
for bolts that are being re-inserted into an old
motor, and the higher ones for bolts that are
being inserted into a new motor. Make sure
that the wiper motor is in its “parked” position
before fitting the motor arm, and check that
the wiper linkage is in line with the motor arm.
17 Tailgate wiper motor
assembly - removal and refitting
Removal
1 Disconnect the battery negative (earth) lead
(refer to Chapter 5, Section 1).
2 Remove the tailgate wiper arm as
described in Section 15.
3 Remove the tailgate inner trim panel by
unscrewing the retaining screws.
4 Release the multi-plug from the clip, then
disconnect it (see illustration).
Refitting
8 Refitting is a reversal of the removal
procedure. Make sure that the wiper motor is
in its “parked” position before fitting the wiper
arm.
18 Trip computer module removal and refitting
Removal
17.4 Disconnecting the tailgate wiper
motor multi-plug
19 Auxiliary warning system general information and
component renewal
1 Some models are fitted with an auxiliary
warning system, which monitors brake lights,
sidelights, dipped beam and tail lights,
external temperature, and door/tailgate/
bootlid opening. An engine oil level warning
light on the instrument panel is also part of the
system.
2 The auxiliary warning system module and
graphic warning display are combined into
one unit.
Service interval reminder
3 The system also includes a service interval
reminder warning light, which is illuminated if
1 Disconnect the battery negative (earth) lead
(refer to Chapter 5, Section 1).
2 Using a small screwdriver, prise the trip
computer module out of the facia. To prevent
damage to the facia, place a cloth pad
beneath the screwdriver.
3 Disconnect the multi-plug from the rear of
the trip computer module, and withdraw the
unit.
4 If necessary, the bulb can be removed by
twisting it anti-clockwise.
Refitting
5 Refitting is a reversal of the removal
procedure.
17.6A Unscrew the mounting bolts . . .
12
17.6B . . . and remove the tailgate wiper
motor assembly (Hatchback shown Estate similar)
17.7A Tailgate wiper motor assembly and
mounting plate
17.7B A mounting rubber removed from
the mounting plate
12•18 Body electrical system
19.9 Low air temperature sender unit
removal
1 Clip
2 Sender unit
2 Multi-plug
3 Sensor
4 Seal
19.20 Removing the low washer fluid
switch
3 Multi-plug
the specified mileage (or time) since the last
service has been reached.
4 To reset the service interval system and
turn off the light, a switch inside the glovebox
must be depressed for a minimum of 4
seconds with the ignition switched on. This
should be carried out by a Ford dealer if the
vehicle is still in the warranty period.
Component renewal
5 The following paragraphs describe brief
removal procedures for the auxiliary warning
system components. Disconnect the battery
negative (earth) lead before commencing
work (refer to Chapter 5, Section 1). Refitting
procedures are a reversal of removal.
Display warning bulb
6 Remove the control assembly.
7 Prise off the cover, and pull out the relevant
bulb and bulbholder.
Low air temperature warning sender
unit
8 Remove the front bumper.
9 Unclip the sender unit and disconnect the
multi-plug (see illustration).
Engine oil level sensor
10 Apply the handbrake, jack up the front of
the vehicle and support it on axle stands.
11 Place a container beneath the oil level
sensor, to catch any spilt oil.
19.23 Service indicator switch removal
1 Lever out the switch
19.14 Engine oil level sensor removal
1 Cover
2 Cover
3 Wiring
12 Unscrew the screws and remove the
cover from the sensor.
13 Disconnect the multi-plug.
14 Unscrew and remove the sensor, and
remove the seal (see illustration).
Door ajar sensor
15 Remove the door lock as described in
Chapter 11, Section 14.
16 Unclip the sensor and disconnect the
multi-plug.
Low coolant warning switch
25 Unscrew
the
mounting
screws,
disconnect the multi-plugs and remove the
assembly.
Bulb failure module
26 Remove the lower facia panel from under
the steering wheel.
27 Unclip the bulb failure module and
disconnect the multi-plug.
20 Anti-theft alarm system - general
information
17 Refer to Chapter 3, Section 6.
Low washer fluid switch
18 Disconnect the multi-plug from the
washer fluid reservoir.
19 Drain or syphon out the fluid from the
reservoir.
20 Using a screwdriver, lever out the switch
from the reservoir (see illustration).
Service indicator reset switch
21 Remove the glove compartment lid as
described in Chapter 11, Section 32.
22 Carefully lever out the switch using a
small screwdriver.
23 Remove the rear cover and disconnect
the wiring (see illustration).
Control assembly
24 Remove the instrument panel surround,
referring to Section 10.
20.3A Disconnecting a movement sensor
multi-plug
Note: From November 1993, for added
security, a complex Bosch immobiliser system
was fitted to some models. For further details,
refer to your Ford dealer.
1 All UK models are fitted with an anti-theft
alarm system, incorporating movement
sensors and an ignition immobiliser. The
system is activated when the vehicle is
locked.
2 The system includes a start inhibitor circuit,
which makes it impossible to start the engine
with the system armed.
3 The movement sensors consist of two
ultrasonic units, located in the “B” pillars,
incorporating transmitters and receivers (see
illustrations). The receivers check that the
echo frequency matches the original
frequency. If there is any significant
difference, the system triggers the alarm.
20.3B Removing a movement sensor
Body electrical system 12•19
20.6 Infra-red receiver location on the
door handle
20.7 Alarm system horn location on
Hatchback and Saloon models
1 Receiver 2 Infra-red eye on the door handle
20.10 Alarm system door lock switch
removal
1 Clips (arrowed)
2 Multi-plug
4 The system module is located on a bracket
beneath the right-hand side of the facia. The
set and reset switches are located in a
housing by the lock barrel holder in the doors,
tailgate or bootlid.
5 To allow temporary opening of the tailgate
or bootlid, an inhibit switch is fitted to the lock
barrel. This suppresses the alarm system until
the tailgate or bootlid is closed again.
6 Where remote central locking is fitted, an
infra-red receiver is located on the exterior
door handle (see illustration). Note that
excessive heat can destroy this receiver;
therefore, it should be covered with aluminium
tape if (for instance) a paint-drying heat
process is to be used.
7 The alarm system is fitted with its own horn.
On Hatchback and Saloon models, it is
located on the left-hand side of the luggage
compartment; on Estate models, it is located
on the right-hand side of the luggage
compartment (see illustration).
8 The alarm system incorporates a self-test
function, which can be activated by operating
the bonnet switch or one of the lock position
switches eight times within 10 seconds.
During the check, the horn or buzzer issues
acoustic signals which should occur every
time a door, bonnet or tailgate is opened. If
the doors are double-locked, the signal will
occur when something is moved within the
passenger
compartment.
A
more
comprehensive test can be made using the
Ford FDS 2000 diagnostic tester.
9 The door lock switches associated with the
alarm system are located behind the door trim
panels (see illustration).
21 Cruise control system general information
1 Cruise control is available as an option on
some models.
2 The cruise control system components are
shown in the accompanying illustration (see
illustration). The system is active at road
speeds between 25 mph and 125 mph.
3 The system comprises an electronic speed
control unit with integral actuator and
21.2 Cruise control component location on left-hand drive models
1
2
3
4
Speed control unit
Vehicle speed sensor (VSS)
Throttle valve actuator
Interrupt relay (vehicles with traction control
system only)
5 Stop-light switch, brake and clutch pedaloperated disable switches
6 Driver’s controls (buttons on steering wheel)
12
12•20 Body electrical system
21.14 Removal of the speed control
disable switches
1 Clutch switch
2 Brake pedal switch
21.15 Resetting the brake pedal and stoplight switches
21.20 Removing the actuator cable
locking arm
11 Disconnect the multi-plugs, then unscrew
the screws and remove the switch.
slide the actuator out of the mounting pin
holes.
19 Disconnect the multi-plug and remove the
assembly.
20 Depress the actuating cable cap locking
arm, and remove the cap by turning it anticlockwise (see illustration).
21 Gently raise the cable retaining lug by a
maximum of 0.5 mm, and push the cable end
out of the slot in the pulley.
22 When refitting, make sure that the cable
end locks into the slot in the pulley.
23 To locate the cable cap onto the actuator
pulley, keep the cable taut and in the pulley
groove, and pull the throttle linkage end of the
cable to draw the cable cap onto the pulley.
24 To refit the cable cap, keep the cable taut
and the pulley still, then refit the cable cap
tabs into the actuator slots; turn the cap
clockwise until the locking arm locates on the
locking stop. Note: Incorrect assembly of the
cable onto the pulley may result in a high idle
speed. Check that the throttle lever is in its
idle position after refitting the actuator.
3 Stop-light switch
switches mounted in the engine compartment
with a control cable connected to the throttle
valve actuator, driver-operated switches,
brake and clutch pedal switches, an indicator
light, and a road speed sensor.
4 The driver-operated switches are mounted
on the steering wheel, and allow the driver to
control the various functions.
5 The vehicle speed sensor uses the
speedometer cable drive pinion to generate
pulses which are fed to the speed control unit.
6 The stop-light switch, brake pedal switch
and (when applicable) clutch pedal switch are
used to disable the cruise control system. The
stop-light switch is activated when the brake
pedal is applied gently, and the brake pedal
switch is activated when the brake pedal is
applied forcibly.
7 An indicator light on the instrument panel is
illuminated when the system is in operation.
8 The following paragraphs describe brief
removal procedures for the cruise control
system components. The battery negative
(earth) lead should be disconnected before
commencing work (refer to Chapter 5, Section 1). Refitting is a reversal of removal.
Speed control switch
9 Remove the steering column upper and
lower shrouds, with reference to Chapter 10.
10 Remove the air bag module as described
in Section 29.
22.2 Washer reservoir mounting bolts
(arrowed)
Disable switches
12 Remove the lower facia panel from under
the steering column.
13 Disconnect the multi-plugs from the
clutch switch, brake pedal switch and stoplight switch.
14 To remove the clutch and brake pedal
switches, twist them anti-clockwise. To
remove the stop-light switch, twist it
clockwise (see illustration).
15 Refitting is the reverse of removal. To
ensure correct operation of the brake pedal
switches, reset the switch by fully extending
its plunger (see illustration). Depress the
pedal until the distance between it and the
mounting bracket is as shown in Chapter 9,
illustration 25.6. Hold the pedal in this
position, clip the switch securely into position
and gently raise the pedal to the at-rest
position. This will automatically set the
position of the switch.
Speed control actuator
16 Remove the air cleaner as described in
Chapter 4.
17 Disconnect the actuator cable from the
throttle linkage on the throttle housing, by
releasing the inner cable end fitting from the
segment and unclipping the outer cable from
the bracket.
18 Unscrew the actuator mounting bolt, then
22.3 Disconnecting the washer pump and
level sensor multi-plugs
22 Windscreen/tailgate washer
system components removal and refitting
Removal
Washer reservoir and pump
1 Unscrew the bolts, and release the clips to
remove the radiator lower cover.
2 Unscrew the mounting bolts, and pull the
reservoir forwards slightly (see illustration).
For better access, it may be necessary to
remove the front bumper.
3 Disconnect the multi-plugs for the
windscreen washer pump and fluid level
sensor (see illustration).
4 Disconnect the hoses from the windscreen
washer pump and (where applicable) from the
headlamp washer pump. Anticipate some loss
of fluid by placing a container beneath the
reservoir.
5 Withdraw the reservoir from the vehicle.
6 Pull the level sensor, the windscreen
washer pump, and (where applicable) the
Body electrical system 12•21
22.6 Pulling the windscreen washer pump
from the reservoir
22.11 Pull the washer tube from the
bottom of the nozzle
22.12A Remove the nozzle from the
tailgate glass . . .
22.12B . . . and prise out the rubber
grommet
23.6 Using the special U-shaped rods to
remove the radio
do not have the code or details of the correct
procedure, but can supply proof of ownership
and a legitimate reason for wanting this
information, the vehicle’s selling dealer may
be able to help.
3 Note that these units will allow only ten
attempts at entering the code - any further
attempts will render the unit permanently
inoperative until it has been reprogrammed by
Ford themselves. At first, three consecutive
attempts are allowed; if all three are incorrect,
a 30-minute delay is required before another
attempt can be made. Each of any
subsequent attempts (up to the maximum of
ten) can be made only after a similar delay.
beneath the unit, then reach through the
aperture and ease it out from behind.
7 With the radio partly withdrawn, disconnect
the feed, earth, aerial and speaker leads.
Where applicable, also detach and remove
the plastic support bracket from the rear of
the unit.
headlamp washer pump, from the reservoir
(see illustration).
7 Remove the rubber seals.
Washer nozzle (windscreen)
8 With the bonnet supported in its open
position, carefully disconnect the washer tube
from the bottom of the nozzle.
9 Using a screwdriver and working from
under the bonnet, carefully prise out the
nozzle. Where necessary, disconnect the
wiring for the nozzle heater.
Washer nozzle (rear window)
10 With the tailgate open, carefully pull off
the inner trim panel from the top of the
tailgate.
11 Pull the washer tube from the bottom of
the nozzle (see illustration).
12 Carefully prise the nozzle out of the
tailgate glass, then prise out the rubber
grommet
(see
illustrations).
Where
necessary, disconnect the wiring for the
nozzle heater.
Refitting
13 Refitting is a reversal of the removal
procedure. In the case of the washer nozzles,
press them in until they are fully engaged. The
rear window washer nozzle must rest against
the rubber seal.
23 Radio/cassette player coding, removal and refitting
Note: Special tools are required to remove the
radio.
Coding
1 If a Ford “Keycode” unit is fitted, and the
unit and/or the battery is disconnected, the
unit will not function again on reconnection
until the correct security code is entered.
Details of this procedure are given in the
“Ford Audio Systems Operating Guide”
supplied with the vehicle when new, with the
code itself being given in a “Radio Passport”
and/or a “Keycode Label” at the same time.
2 For obvious security reasons, the re-coding
procedure is not given in this manual - if you
Removal
4 Disconnect the battery negative (earth)
lead.
5 Where fitted, prise the cover/surround from
the front of the radio/cassette player. Note
that the cover is not fitted to all models.
6 In order to release the radio retaining clips,
two U-shaped rods must be inserted into the
special holes on each side of the radio (see
illustration). If possible, it is preferable to
obtain purpose-made rods from an audio
specialist, as these have cut-outs which snap
firmly into the clips so that the radio can be
pulled out. Pull the unit squarely from its
aperture, or it may jam. If the unit proves
difficult to withdraw, remove the cassette tray
(or where applicable, the CD player) from
Refitting
6 Refitting is a reversal of removal. With the
leads reconnected to the rear of the unit,
press it into position until the retaining clips
are felt to engage. Reactivate the unit by
entering the correct code in accordance with
the maker’s instructions.
24 Radio/cassette player
power amplifier removal and refitting
Removal
1 Disconnect the battery negative (earth)
lead. See Chapter 5, Section 1.
2 Unscrew the screws and remove the lower
facia panel.
3 The radio/cassette player power amplifier is
located beneath the facia.
4 Unscrew the cross-head screws, disconnect the wiring and remove the amplifier.
Refitting
5 Refitting is a reversal of the removal
procedure.
12
12•22 Body electrical system
25 Compact disc player removal and refitting
1 A compact disc (CD) player is available as
an optional extra on most models. On some
models, an autochanger version is available,
which can hold a number of discs at a time.
Removal
2 The battery negative (earth) lead should be
disconnected before commencing work.
CD player, or autochanger control
unit
1 Prise out the trim cover from the headlining
immediately below the base of the aerial.
2 Unscrew the cross-head screw from the
base of the aerial, and remove the aerial mast.
Warning: Stand the unit with the
cover uppermost, and do not
expose it to heat sources in
excess of 100ºC.
Warning: Do not attempt to open
or repair the air bag unit, or apply
any electrical current to it. Do not
use any air bag unit which is visibly
damaged or which has been tampered
with.
Refitting
Refitting
3 Refitting is a reversal of the removal
procedure.
5 Refitting is a reversal of the removal
procedure.
27 Radio aerial removal and refitting
Removal
3 The procedure is identical to that for the
radio/cassette player described in Section 23.
CD player autochanger
4 The CD player autochanger unit is mounted
on the right-hand side of the luggage
compartment. The wiring loom passes up the
“C” pillar, across to the left-hand side “A”
pillar, then to the centre console area.
5 Remove the trim cover from the
autochanger unit.
6 Unscrew the mounting screws, and remove
the autochanger unit from its mounting
bracket.
7 Disconnect the multi-plug and remove the
unit from inside the vehicle.
Refitting
8 Refitting is a reversal of the removal
procedure.
26 Speakers removal and refitting
Removal
1 Remove the door trim panel as described in
Chapter 11.
2 Unscrew the cross-head screws, and
withdraw the speaker from the door inner
panel.
3 Disconnect the wiring and remove the
speaker.
Refitting
4 Refitting is a reversal of the removal
procedure.
28 Air bag unit (driver’s side) removal and refitting
Warning: Handle the air bag unit
with extreme care, as a
precaution against personal
injury, and always hold it with the
cover facing away from the body. If in
doubt concerning any proposed work
involving the air bag unit or its control
circuitry, consult a Ford dealer or other
qualified specialist.
Removal
1 Disconnect the battery negative (earth) lead
(refer to Chapter 5, Section 1).
Warning: Before proceeding, wait
a minimum of 15 minutes, as a
precaution against accidental
firing of the air bag unit. This
period ensures that any stored energy in
the back-up capacitor is dissipated.
2 Rotate the steering wheel so that one of the
mounting bolt holes is visible above the
steering column upper shroud.
3 Unscrew and remove the first mounting
bolt, then turn the steering wheel as
necessary and remove the remaining
mounting bolts (see illustration).
4 Carefully withdraw the air bag unit from the
steering wheel far enough to disconnect the
wiring multi-plug, then remove it from inside
the vehicle (see illustration).
29 Air bag control module removal and refitting
Removal
1 Disconnect the battery negative (earth) lead
(refer to Chapter 5, Section 1).
Warning: Before proceeding, wait
a minimum of 15 minutes, as a
precaution against accidental
firing of the air bag unit. This
period ensures that any stored energy in
the back-up capacitor is dissipated.
2 Remove the facia panel as described in
Chapter 11.
3 Disconnect the multi-plug from the module,
by pressing the locking tab upwards and
swivelling the retaining strap.
4 Unscrew the mounting bolts and remove
the module from the vehicle.
Refitting
5 Refitting is a reversal of the removal
procedure.
30 Air bag clock spring removal and refitting
Removal
1 Remove the air bag unit as described in
Section 28.
2 Disconnect the horn switch multi-plug.
3 If fitted, disconnect the multi-plugs for the
cruise control.
4 Remove the steering wheel and shrouds.
5 Using a small screwdriver, release the
retaining tabs, then remove the clock spring
from the steering column.
Refitting
28.3 Unscrewing an air bag mounting bolt
28.4 Disconnecting the air bag wiring
multi-plug (arrowed)
6 Refitting is a reversal of the removal
procedure, but make sure that the steering
wheel is centralised. The clock spring must be
fitted in its central position, with the special
alignment marks aligned and the TOP mark
uppermost. To check for this position, turn the
clock spring housing anti-clockwise until it is
tight, then turn in the opposite direction by
two-and-three-quarter turns.
Wiring diagrams 12•23
12
Notes, internal connection details and key to symbols
12•24 Wiring diagrams
Internal connection details continued
Wiring diagrams 12•25
Diagram 1: Starting, charging, warning lights and gauges
12
12•26 Wiring diagrams
Diagram 2: Engine management – sensor inputs (manual transmission models)
Wiring diagrams 12•27
Diagram 3: Engine management – solenoid outputs and fuel pump (manual transmission models)
12
12•28 Wiring diagrams
Diagram 4: Engine management – ignition, tachometer, cooling fan and diagnostic connectors (manual transmission models)
Wiring diagrams 12•29
Diagram 5: Engine management – sensor inputs (automatic transmission models)
12
12•30 Wiring diagrams
Diagram 6: Engine management – solenoid outputs, ignition and fuel pump (automatic transmission models)
Wiring diagrams 12•31
Diagram 7: Engine management – cooling fan, solenoid valve unit and diagnostic connectors (automatic transmission models)
12
12•32 Wiring diagrams
Diagram 8: Exterior lighting – side and headlights (right-hand drive models: dim-dip)
Wiring diagrams 12•33
Diagram 9: Exterior lighting – side and headlights (left-hand drive models: non dim-dip)
12
12•34 Wiring diagrams
Diagram 10: Exterior lighting – side and headlights (left-hand drive models: daytime running lights)
Wiring diagrams 12•35
Diagram 11: Exterior lighting – hazard flasher and direction indicators
12
12•36 Wiring diagrams
Diagram 12: Exterior lighting – foglights, stop-lights and reversing lights
Wiring diagrams 12•37
Diagram 13: Interior lighting – front and rear courtesy, footwell and luggage compartment lights
12
12•38 Wiring diagrams
Diagram 14: Interior lighting – torch, glovebox and engine compartment lights
Wiring diagrams 12•39
Diagram 15: Interior illumination
12
12•40 Wiring diagrams
Diagram 16: Wash/wipe and heated washer jets
Wiring diagrams 12•41
Diagram 17 Headlight washer, horn, clock and cigar lighter
12
12•42 Wiring diagrams
Diagram 18: Heated mirrors and heated front/rear screens
Wiring diagrams 12•43
Diagram 19: Air conditioning and heater blower
12
12•44 Wiring diagrams
Diagram 20: Central door locking (with double locking)
Wiring diagrams 12•45
Diagram 21: Anti-theft alarm
12
12•46 Wiring diagrams
Diagram 22: Electric mirrors and (front) electric window
Wiring diagrams 12•47
Diagram 23: Electric sunroof and (front and rear) electric windows
12
12•48 Wiring diagrams
Diagram 24: Bulb failure warning system
Wiring diagrams 12•49
Diagram 25: Auxiliary warning system
12
12•50 Wiring diagrams
Diagram 26: Trip computer
Wiring diagrams 12•51
Diagram 27: Instrument interface control
12
12•52 Wiring diagrams
Diagram 28: Cruise control
Wiring diagrams 12•53
Diagram 29: ABS with traction control
12
12•54 Wiring diagrams
Diagram 30: Adaptive damping system
Wiring diagrams 12•55
Diagram 31: Heated seats and driver’s seat electric adjustment
12
12•56 Wiring diagrams
Diagram 32: Driver and passenger air bags
Wiring diagrams 12•57
Diagram 33: Radio/cassette (with amplifier)
12
12•58 Wiring diagrams
Diagram 34: Radio/cassette and CD player (with subwoofer)
Tools and Working Facilities
Introduction
Repair and overhaul tool kit
A selection of good tools is a fundamental
requirement for anyone contemplating the
maintenance and repair of a motor vehicle.
For the owner who does not possess any,
their purchase will prove a considerable
expense, offsetting some of the savings made
by doing-it-yourself. However, provided that
the tools purchased meet the relevant national
safety standards and are of good quality, they
will last for many years and prove an
extremely worthwhile investment.
To help the average owner to decide which
tools are needed to carry out the various tasks
detailed in this manual, we have compiled
three lists of tools under the following
headings: Maintenance and minor repair,
Repair and overhaul, and Special. Newcomers
to practical mechanics should start off with
the Maintenance and minor repair tool kit, and
confine themselves to the simpler jobs around
the vehicle. Then, as confidence and
experience grow, more difficult tasks can be
undertaken, with extra tools being purchased
as, and when, they are needed. In this way, a
Maintenance and minor repair tool kit can be
built up into a Repair and overhaul tool kit over
a considerable period of time, without any
major cash outlays. The experienced do-ityourselfer will have a tool kit good enough for
most repair and overhaul procedures, and will
add tools from the Special category when it is
felt that the expense is justified by the amount
of use to which these tools will be put.
These tools are virtually essential for
anyone undertaking any major repairs to a
motor vehicle, and are additional to those
given in the Maintenance and minor repair list.
Included in this list is a comprehensive set of
sockets. Although these are expensive, they
will be found invaluable as they are so
versatile - particularly if various drives are
included in the set. We recommend the halfinch square-drive type, as this can be used
with most proprietary torque wrenches. If you
cannot afford a socket set, even bought
piecemeal, then inexpensive tubular box
spanners are a useful alternative.
The tools in this list will occasionally need to
be supplemented by tools from the Special
list:
M Sockets (or box spanners) to cover range in
previous list
M Reversible ratchet drive (for use with
sockets) (see illustration)
M Extension piece, 250 mm (for use with
sockets)
M Universal joint (for use with sockets)
M Torque wrench (for use with sockets)
M Self-locking grips
M Ball pein hammer
M Soft-faced mallet (plastic/aluminium or
rubber)
M Screwdrivers:
Flat blade - long & sturdy, short (chubby),
and narrow (electrician’s) types
Cross blade - Long & sturdy, and short
(chubby) types
M Pliers:
Long-nosed
Side cutters (electrician’s)
Circlip (internal and external)
M Cold chisel - 25 mm
M Scriber
M Scraper
M Centre-punch
M Pin punch
M Hacksaw
M Brake hose clamp
M Brake bleeding kit
M Selection of twist drills
Maintenance and minor repair
tool kit
The tools given in this list should be
considered as a minimum requirement if
routine maintenance, servicing and minor
repair operations are to be undertaken. We
recommend the purchase of combination
spanners (ring one end, open-ended the
other); although more expensive than openended ones, they do give the advantages of
both types of spanner.
M Combination spanners:
Metric - 8, 9, 10, 11, 12, 13, 14, 15, 16, 17,
19, 21, 22, 24 & 26 mm
M Adjustable spanner - 35 mm jaw (approx)
M Transmission drain plug key (Allen type)
M Set of feeler gauges
M Spark plug spanner (with rubber insert)
M Spark plug gap adjustment tool
M Brake adjuster spanner (where applicable)
M Brake bleed nipple spanner
M Screwdrivers:
Flat blade - approx 100 mm long x 6 mm dia
Cross blade - approx 100 mm long x
6 mm dia
M Combination pliers
M Hacksaw (junior)
M Tyre pump
M Tyre pressure gauge
M Oil can
M Oil filter removal tool
M Fine emery cloth
M Wire brush (small)
M Funnel (medium size)
Sockets and reversible ratchet drive
REF•1
M Steel rule/straight-edge
M Allen keys (inc. splined/Torx type) (see
illustrations)
M Selection of files
M Wire brush
M Axle stands
M Jack (strong trolley or hydraulic type)
M Light with extension lead
Special tools
The tools in this list are those which are not
used regularly, are expensive to buy, or which
need to be used in accordance with their
manufacturers’ instructions. Unless relatively
difficult mechanical jobs are undertaken
frequently, it will not be economic to buy
many of these tools. Where this is the case,
you could consider clubbing together with
friends (or joining a motorists’ club) to make a
joint purchase, or borrowing the tools against
a deposit from a local garage or tool hire
specialist. It is worth noting that many of the
larger DIY superstores now carry a large range
of special tools for hire at modest rates.
The following list contains only those tools
and instruments freely available to the public,
and not those special tools produced by the
vehicle manufacturer specifically for its dealer
network. You will find occasional references
to these manufacturers’ special tools in the
text of this manual. Generally, an alternative
method of doing the job without the vehicle
manufacturers’ special tool is given. However,
sometimes there is no alternative to using
them. Where this is the case and the relevant
tool cannot be bought or borrowed, you will
have to entrust the work to a franchised
garage.
M Valve spring compressor (see illustration)
M Valve grinding tool
M Piston ring compressor (see illustration)
M Piston ring removal/installation tool (see
illustration)
M Cylinder bore hone (see illustration)
M Balljoint separator
M Coil spring compressors (where applicable)
M Two/three-legged hub and bearing puller
(see illustration)
Spline bit set
REF•2
Tools and Working Facilities
Spline key set
Valve spring compressor
Piston ring compressor
Piston ring removal/installation tool
Cylinder bore hone
Three-legged hub and bearing puller
Micrometer set
Vernier calipers
Dial test indicator and magnetic stand
Compression testing gauge
Clutch plate alignment set
Brake shoe steady spring cup removal tool
Tools and Working Facilities
M Impact screwdriver
M Micrometer and/or vernier calipers (see
illustrations)
M Dial gauge (see illustration)
M Universal electrical multi-meter
M Cylinder compression gauge
(see illustration)
M Clutch plate alignment set (see illustration)
M Brake shoe steady spring cup removal tool
(see illustration)
M Bush and bearing removal/installation set
(see illustration)
M Stud extractors (see illustration)
M Tap and die set (see illustration)
M Lifting tackle
M Trolley jack
Buying tools
For practically all tools, a tool factor is the
best source, since he will have a very
comprehensive range compared with the
average garage or accessory shop. Having
said that, accessory shops often offer
excellent quality tools at discount prices, so it
pays to shop around.
Remember, you don’t have to buy the most
expensive items on the shelf, but it is always
advisable to steer clear of the very cheap
tools. There are plenty of good tools around at
Bush and bearing removal/installation set
reasonable prices, but always aim to purchase
items which meet the relevant national safety
standards. If in doubt, ask the proprietor or
manager of the shop for advice before making
a purchase.
Care and maintenance of tools
Having purchased a reasonable tool kit, it is
necessary to keep the tools in a clean and
serviceable condition. After use, always wipe
off any dirt, grease and metal particles using a
clean, dry cloth, before putting the tools away.
Never leave them lying around after they have
been used. A simple tool rack on the garage
or workshop wall for items such as
screwdrivers and pliers is a good idea. Store
all normal spanners and sockets in a metal
box. Any measuring instruments, gauges,
meters, etc, must be carefully stored where
they cannot be damaged or become rusty.
Take a little care when tools are used.
Hammer heads inevitably become marked,
and screwdrivers lose the keen edge on their
blades from time to time. A little timely
attention with emery cloth or a file will soon
restore items like this to a good serviceable
finish.
Working facilities
Not to be forgotten when discussing tools is
Stud extractor set
REF•3
the workshop itself. If anything more than
routine maintenance is to be carried out, some
form of suitable working area becomes
essential.
It is appreciated that many an ownermechanic is forced by circumstances to
remove an engine or similar item without the
benefit of a garage or workshop. Having done
this, any repairs should always be done under
the cover of a roof.
Wherever possible, any dismantling should
be done on a clean, flat workbench or table at
a suitable working height.
Any workbench needs a vice; one with a
jaw opening of 100 mm is suitable for most
jobs. As mentioned previously, some clean
dry storage space is also required for tools, as
well as for any lubricants, cleaning fluids,
touch-up paints and so on, which become
necessary.
Another item which may be required, and
which has a much more general usage, is an
electric drill with a chuck capacity of at least 8
mm. This, together with a good range of twist
drills, is virtually essential for fitting
accessories.
Last, but not least, always keep a supply of
old newspapers and clean, lint-free rags
available, and try to keep any working area as
clean as possible.
Tap and die set
REF•4
General Repair Procedures
Whenever servicing, repair or overhaul work
is carried out on the car or its components, it
is necessary to observe the following
procedures and instructions. This will assist in
carrying out the operation efficiently and to a
professional standard of workmanship.
Joint mating faces and gaskets
When separating components at their
mating faces, never insert screwdrivers or
similar implements into the joint between the
faces in order to prise them apart. This can
cause severe damage which results in oil
leaks, coolant leaks, etc upon reassembly.
Separation is usually achieved by tapping
along the joint with a soft-faced hammer in
order to break the seal. However, note that
this method may not be suitable where
dowels are used for component location.
Where a gasket is used between the mating
faces of two components, ensure that it is
renewed on reassembly, and fit it dry unless
otherwise stated in the repair procedure.
Make sure that the mating faces are clean and
dry, with all traces of old gasket removed.
When cleaning a joint face, use a tool which is
not likely to score or damage the face, and
remove any burrs or nicks with an oilstone or
fine file.
Make sure that tapped holes are cleaned
with a pipe cleaner, and keep them free of
jointing compound, if this is being used,
unless specifically instructed otherwise.
Ensure that all orifices, channels or pipes
are clear, and blow through them, preferably
using compressed air.
Oil seals
Oil seals can be removed by levering them
out with a wide flat-bladed screwdriver or
similar implement. Alternatively, a number of
self-tapping screws may be screwed into the
seal, and these used as a purchase for pliers
or some similar device in order to pull the seal
free.
Whenever an oil seal is removed from its
working location, either individually or as part
of an assembly, it should be renewed.
The very fine sealing lip of the seal is easily
damaged, and will not seal if the surface it
contacts is not completely clean and free from
scratches, nicks or grooves.
Protect the lips of the seal from any surface
which may damage them in the course of
fitting. Use tape or a conical sleeve where
possible. Lubricate the seal lips with oil before
fitting and, on dual-lipped seals, fill the space
between the lips with grease.
Unless otherwise stated, oil seals must be
fitted with their sealing lips toward the
lubricant to be sealed.
Use a tubular drift or block of wood of the
appropriate size to install the seal and, if the
seal housing is shouldered, drive the seal
down to the shoulder. If the seal housing is
unshouldered, the seal should be fitted with
its face flush with the housing top face (unless
otherwise instructed).
Screw threads and fastenings
Seized nuts, bolts and screws are quite a
common occurrence where corrosion has set
in, and the use of penetrating oil or releasing
fluid will often overcome this problem if the
offending item is soaked for a while before
attempting to release it. The use of an impact
driver may also provide a means of releasing
such stubborn fastening devices, when used
in conjunction with the appropriate
screwdriver bit or socket. If none of these
methods works, it may be necessary to resort
to the careful application of heat, or the use of
a hacksaw or nut splitter device.
Studs are usually removed by locking two
nuts together on the threaded part, and then
using a spanner on the lower nut to unscrew
the stud. Studs or bolts which have broken off
below the surface of the component in which
they are mounted can sometimes be removed
using a proprietary stud extractor. Always
ensure that a blind tapped hole is completely
free from oil, grease, water or other fluid
before installing the bolt or stud. Failure to do
this could cause the housing to crack due to
the hydraulic action of the bolt or stud as it is
screwed in.
When tightening a castellated nut to accept
a split pin, tighten the nut to the specified
torque, where applicable, and then tighten
further to the next split pin hole. Never slacken
the nut to align the split pin hole, unless stated
in the repair procedure.
When checking or retightening a nut or bolt
to a specified torque setting, slacken the nut
or bolt by a quarter of a turn, and then
retighten to the specified setting. However,
this should not be attempted where angular
tightening has been used.
For some screw fastenings, notably cylinder
head bolts or nuts, torque wrench settings are
no longer specified for the latter stages of
tightening, “angle-tightening” being called up
instead. Typically, a fairly low torque wrench
setting will be applied to the bolts/nuts in
the correct sequence, followed by one or
more stages of tightening through specified
angles.
Locknuts, locktabs and washers
Any fastening which will rotate against a
component or housing in the course of
tightening should always have a washer
between it and the relevant component or
housing.
Spring or split washers should always be
renewed when they are used to lock a critical
component such as a big-end bearing
retaining bolt or nut. Locktabs which are
folded over to retain a nut or bolt should
always be renewed.
Self-locking nuts can be re-used in noncritical areas, providing resistance can be felt
when the locking portion passes over the bolt
or stud thread. However, it should be noted
that self-locking stiffnuts tend to lose their
effectiveness after long periods of use, and in
such cases should be renewed as a matter of
course.
Split pins must always be replaced with
new ones of the correct size for the hole.
When thread-locking compound is found
on the threads of a fastener which is to be reused, it should be cleaned off with a wire
brush and solvent, and fresh compound
applied on reassembly.
Special tools
Some repair procedures in this manual
entail the use of special tools such as a press,
two or three-legged pullers, spring
compressors, etc. Wherever possible, suitable
readily-available
alternatives
to
the
manufacturer’s special tools are described,
and are shown in use. Unless you are highlyskilled and have a thorough understanding of
the procedures described, never attempt to
bypass the use of any special tool when the
procedure described specifies its use. Not
only is there a very great risk of personal
injury, but expensive damage could be
caused to the components involved.
Environmental considerations
When disposing of used engine oil, brake
fluid, antifreeze, etc, give due consideration to
any detrimental environmental effects. Do not,
for instance, pour any of the above liquids
down drains into the general sewage system,
or onto the ground to soak away. Many local
council refuse tips provide a facility for waste
oil disposal, as do some garages. If none of
these facilities are available, consult your local
Environmental Health Department for further
advice.
With the universal tightening-up of
legislation regarding the emission of
environmentally-harmful substances from
motor vehicles, most current vehicles have
tamperproof devices fitted to the main
adjustment points of the fuel system. These
devices are primarily designed to prevent
unqualified persons from adjusting the fuel/air
mixture, with the chance of a consequent
increase in toxic emissions. If such devices
are encountered during servicing or overhaul,
they should, wherever possible, be renewed
or refitted in accordance with the vehicle
manufacturer’s requirements or current
legislation.
Note: It is
antisocial and
illegal to dump
oil down the
drain. To find
the location of
your local oil
recycling
bank, call this
number free.
Spare Parts/Vehicle Identification
Buying spare parts
Spare parts are available from many
sources; for example, Ford garages, other
garages and accessory shops, and motor
factors. Our advice regarding spare part
sources is as follows.
Officially-appointed Ford garages - This is
the best source for parts which are peculiar to
your vehicle, and which are not generally
available (eg complete cylinder heads, internal
transmission components, badges, interior
trim etc). It is also the only place at which you
should buy parts if the vehicle is still under
warranty. To be sure of obtaining the correct
parts, it will be necessary to give the storeman
the full Vehicle Identification Number, and if
possible, to take the old parts along for
positive identification. Many parts are
available under a factory exchange scheme any parts returned should always be clean. It
obviously makes good sense to go straight to
the specialists on your vehicle for this type of
part, as they are best equipped to supply you.
Other garages and accessory shops - These
are often very good places to buy materials
and components needed for the maintenance
of your vehicle (eg oil filters, spark plugs,
bulbs, drivebelts, oils and greases, touch-up
paint, filler paste, etc). They also sell general
accessories, usually have convenient opening
hours, charge lower prices, and can often be
found not far from home.
Motor factors - Good factors will stock all
the more important components which wear
out comparatively quickly (eg exhaust
systems, brake pads, seals and hydraulic
parts, clutch components, bearing shells,
pistons, valves etc). Motor factors will often
provide new or reconditioned components on
a part-exchange basis - this can save a
considerable amount of money.
REF•5
much information as possible. Quote the
vehicle model, year of manufacture, Vehicle
Identification Number and engine numbers, as
appropriate.
The vehicle identification plate is located on
the engine compartment front crossmember
(see illustration). In addition to many other
details, it carries the Vehicle Identification
Number,
maximum
vehicle
weight
information, and codes for interior trim and
body colours.
The Vehicle Identification Number is given
on the vehicle identification plate. It is also
stamped on the engine compartment
bulkhead, behind the air intake plenum
chamber, and into the body, so that it can be
seen through the bottom left-hand corner of
the windscreen (see illustrations).
The engine number, consisting of two
letters and five digits, with the three-letter
engine code nearby, is stamped into a flatmachined
surface
on
the
cylinder
block/crankcase’s forward-facing flange,
between the pulse-air filter housing and the
transmission. To read the number without
removing the engine compartment air intake
resonator - see Chapter 4 - it is easiest to
raise and support the front of the vehicle on
axle stands, so that the number can be seen
from underneath (see illustration). If the
number cannot be seen in this location,
possible alternative sites are on a lower flange
on the cylinder block’s forward face,
immediately above the sump mating surface,
or on the left-hand end of the cylinder head,
between the oil filler cap and ignition coil.
Vehicle identification plate on engine
compartment front crossmember
Vehicle identification number on engine
compartment bulkhead
Vehicle identification number in body,
visible through bottom left-hand corner of
windscreen
Engine number (arrowed) on front of
cylinder block/crankcase - seen from
beneath vehicle
Vehicle identification numbers
Modifications are a continuing and
unpublicised process in vehicle manufacture,
quite apart from major model changes. Spare
parts manuals and lists are compiled upon a
numerical basis, the appropriate identification
number or code being essential to correct
identification of the component concerned.
When ordering spare parts, always give as
REF•6
Fault Finding
Engine
m
m
m
m
m
m
m
m
m
m
m
m
m
m
m
m
Braking system
2
m
m
m
m
m
Jumps out of gear
Lubricant leaks
Noisy in neutral with engine running
Noisy in one particular gear
Vibration
m
m
m
m
m
m
m
m
8
Brake pedal feels spongy when depressed
Brakes binding
Excessive brake pedal effort required to stop vehicle
Excessive brake pedal travel
Judder felt through brake pedal or steering wheel when braking
Noise (grinding or high-pitched squeal) when brakes applied
Rear wheels locking under normal braking
Vehicle pulls to one side under braking
Suspension and steering systems
3
4
m Clutch fails to disengage (unable to select gears)
m Clutch slips (engine speed increases with no increase
in vehicle speed)
m Judder as clutch is engaged
m Noise when depressing or releasing clutch pedal
m Pedal travels to floor - no pressure or very little resistance
Manual transmission
7
m Clicking or knocking noise on turns (at slow speed on full-lock)
m Vibration when accelerating or decelerating
m Excessive fuel consumption
m Excessive noise or fumes from exhaust system
m Fuel leakage and/or fuel odour
Clutch
6
Driveshafts
Corrosion
External coolant leakage
Internal coolant leakage
Overcooling
Overheating
Fuel and exhaust systems
Automatic transmission
m Engine will not start in any gear, or starts in gears
other than Park or Neutral
m Fluid leakage
m General gear selection problems
m Transmission fluid brown, or has burned smell
m Transmission slips, shifts roughly, is noisy, or
has no drive in forward or reverse gears
m Transmission will not downshift (kickdown) with
accelerator fully depressed
Engine backfires
Engine difficult to start when cold
Engine difficult to start when hot
Engine fails to rotate when attempting to start
Engine hesitates on acceleration
Engine idles erratically
Engine lacks power
Engine misfires at idle speed
Engine misfires throughout the driving speed range
Engine noises
Engine rotates but will not start
Engine runs-on after switching off
Engine stalls
Engine starts but stops immediately
Oil pressure warning light illuminated with engine running
Starter motor noisy or excessively-rough in engagement
Cooling system
m
m
m
m
m
1
m Excessive pitching and/or rolling around corners, or during
braking
m Excessive play in steering
m Excessively-stiff steering
m Lack of power assistance
m Tyre wear excessive
m Vehicle pulls to one side
m Wandering or general instability
m Wheel wobble and vibration
Electrical system
5
9
m
m
m
m
m
m
m
m
m
10
Battery will not hold a charge for more than a few days
Central locking system inoperative, or unsatisfactory in operation
Electric windows inoperative, or unsatisfactory in operation
Horn inoperative, or unsatisfactory in operation
Ignition warning light fails to come on
Ignition warning light remains illuminated with engine running
Instrument readings inaccurate or erratic
Lights inoperative
Windscreen/tailgate washers inoperative, or unsatisfactory in
operation
m Windscreen/tailgate wipers inoperative, or unsatisfactory in
operation
Fault Finding
REF•7
Introduction
The vehicle owner who does his or her own maintenance according
to the recommended service schedules should not have to use this
section of the manual very often. Modern component reliability is such
that, provided those items subject to wear or deterioration are inspected
or renewed at the specified intervals, sudden failure is comparatively
rare. Faults do not usually just happen as a result of sudden failure, but
develop over a period of time. Major mechanical failures in particular are
usually preceded by characteristic symptoms over hundreds or even
thousands of miles. Those components which do occasionally fail
without warning are often small and easily carried in the vehicle.
With any fault-finding, the first step is to decide where to begin
investigations. Sometimes this is obvious, but on other occasions, a
little detective work will be necessary. The owner who makes half a
dozen haphazard adjustments or replacements may be successful in
curing a fault (or its symptoms), but will be none the wiser if the fault
recurs, and ultimately may have spent more time and money than was
necessary. A calm and logical approach will be found to be more
satisfactory in the long run. Always take into account any warning
signs or abnormalities that may have been noticed in the period
preceding the fault - power loss, high or low gauge readings, unusual
smells, etc - and remember that failure of components such as fuses
or spark plugs may only be pointers to some underlying fault.
The pages which follow provide an easy reference guide to the
more common problems which may occur during the operation of the
vehicle. These problems and their possible causes are grouped under
headings denoting various components or systems, such as Engine,
Cooling system, etc. The Chapter and/or Section which deals with the
problem is also shown in brackets. Whatever the fault, certain basic
principles apply. These are as follows:
Verify the fault. This is simply a matter of being sure that you know
what the symptoms are before starting work. This is particularly
important if you are investigating a fault for someone else, who may
not have described it very accurately.
Don’t overlook the obvious. For example, if the vehicle won’t start, is
there petrol in the tank? (Don’t take anyone else’s word on this
particular point, and don’t trust the fuel gauge either!) If an electrical
fault is indicated, look for loose or broken wires before digging out the
test gear.
Cure the disease, not the symptom. Substituting a flat battery with a
fully-charged one will get you off the hard shoulder, but if the underlying
cause is not attended to, the new battery will go the same way. Similarly,
changing oil-fouled spark plugs for a new set will get you moving again,
but remember that the reason for the fouling (if it wasn’t simply an
incorrect grade of plug) will have to be established and corrected.
Don’t take anything for granted. Particularly, don’t forget that a
“new” component may itself be defective (especially if it’s been
rattling around in the boot for months), and don’t leave components
out of a fault diagnosis sequence just because they are new or
recently fitted. When you do finally diagnose a difficult fault, you’ll
probably realise that all the evidence was there from the start.
1 Engine
Engine fails to rotate when attempting to start
m Battery terminal connections loose or corroded (Chapter 5).
m Battery discharged or faulty (Chapter 5).
m Broken, loose or disconnected wiring in the starting circuit
(Chapter 5).
m Defective starter solenoid or switch (Chapter 5).
m Defective starter motor (Chapter 5).
m Starter pinion or flywheel ring gear teeth loose or broken (Chapter 5).
m Engine earth strap broken or disconnected (Chapter 5).
m Automatic transmission not in Park/Neutral position, or selector
lever position sensor faulty (Chapter 7, Part B).
Engine rotates but will not start
m
m
m
m
m
Fuel tank empty.
Battery discharged (engine rotates slowly) (Chapter 5).
Battery terminal connections loose or corroded (Chapter 5).
Ignition components damp or damaged (Chapters 1 and 5).
Broken, loose or disconnected wiring in the ignition circuit
(Chapters 1 and 5).
m Worn, faulty or incorrectly-gapped spark plugs (Chapter 1).
m Major mechanical failure (eg camshaft drive) (Chapter 2, Part A).
Engine difficult to start when cold
m
m
m
m
m
m
Battery discharged (Chapter 5).
Battery terminal connections loose or corroded (Chapter 5).
Worn, faulty or incorrectly-gapped spark plugs (Chapter 1).
Other ignition system fault (Chapters 1 and 5).
Engine management system fault (Chapters 1, 4, 5 and 6)
Low cylinder compressions (Chapter 2, Part A).
Engine difficult to start when hot
m
m
m
m
Air filter element dirty or clogged (Chapter 1).
Engine management system fault (Chapters 1, 4, 5 and 6)
Low cylinder compressions (Chapter 2, Part A).
Faulty hydraulic tappet(s) (Chapter 2, Part A).
Starter motor noisy or excessively-rough in
engagement
m Starter pinion or flywheel ring gear teeth loose or broken (Chapter 5).
m Starter motor mounting bolts loose or missing (Chapter 5).
m Starter motor internal components worn or damaged (Chapter 5).
Engine starts but stops immediately
m Loose or faulty electrical connections in the ignition circuit
(Chapters 1 and 5).
m Engine management system fault (Chapters 1, 4, 5 and 6)
m Vacuum leak at the inlet manifold (Chapters 1, 4 and 6).
Engine idles erratically
m
m
m
m
m
m
m
m
m
Idle speed control valve faulty (Chapter 4).
Engine management system fault (Chapters 1, 4, 5 and 6)
Air filter element clogged (Chapter 1).
Vacuum leak at the inlet manifold or associated hoses (Chapters 1, 4 and 6).
Worn, faulty or incorrectly-gapped spark plugs (Chapter 1).
Faulty hydraulic tappet(s) (Chapter 2, Part A).
Uneven or low cylinder compressions (Chapter 2, Part A).
Camshaft lobes worn (Chapter 2).
Timing belt incorrectly-tensioned (Chapter 2, Part A).
Engine misfires at idle speed
m
m
m
m
m
m
Worn, faulty or incorrectly-gapped spark plugs (Chapter 1).
Faulty spark plug HT leads (Chapter 1).
Idle speed control valve faulty (Chapter 4).
Incorrect ignition timing (Chapters 5 and 6).
Engine management system fault (Chapters 1, 4, 5 and 6)
Vacuum leak at the inlet manifold or associated hoses (Chapters 1, 4 and 6).
m Faulty hydraulic tappet(s) (Chapter 2, Part A).
m Uneven or low cylinder compressions (Chapter 2, Part A).
m Disconnected, leaking or perished crankcase ventilation hoses
(Chapters 1 and 6).
REF•8
Fault Finding
Engine misfires throughout the driving speed range
Engine backfires
m
m
m
m
m Ignition timing incorrect (Chapters 5 and 6).
m Engine management system fault (Chapters 1, 4, 5 and 6).
m Timing belt incorrectly fitted or incorrectly tensioned (Chapter 2,
Part A).
m Vacuum leak at the inlet manifold or associated hoses (Chapters 1, 4 and 6).
m
m
m
m
m
Fuel filter choked (Chapter 1).
Fuel pump faulty or delivery pressure low (Chapter 4).
Fuel tank vent blocked or fuel pipes restricted (Chapter 4).
Vacuum leak at the inlet manifold or associated hoses (Chapters 1, 4 and 6).
Worn, faulty or incorrectly-gapped spark plugs (Chapter 1).
Faulty spark plug HT leads (Chapter 1).
Faulty ignition coil (Chapter 5).
Engine management system fault (Chapters 1, 4, 5 and 6)
Uneven or low cylinder compressions (Chapter 2, Part A).
Engine hesitates on acceleration
m Worn, faulty or incorrectly-gapped spark plugs (Chapter 1).
m Engine management system fault (Chapters 1, 4, 5 and 6).
m Vacuum leak at the inlet manifold or associated hoses (Chapters 1, 4 and 6).
Engine stalls
Oil pressure warning light illuminated with engine
running
m
m
m
m
m
m
Low oil level or incorrect oil grade (Chapter 1).
Faulty oil pressure warning light switch (Chapter 2, Part A).
Worn engine bearings and/or oil pump (Chapter 2).
High engine operating temperature (Chapter 3).
Oil pressure relief valve defective (Chapter 2, Part A).
Oil pick-up strainer clogged (Chapter 2, Part A).
Engine noises
m Idle speed control valve faulty (Chapter 4).
m Engine management system fault (Chapters 1, 4, 5 and 6).
m Vacuum leak at the inlet manifold or associated hoses (Chapters 1, 4 and 6).
m Fuel filter choked (Chapter 1).
m Fuel pump faulty or delivery pressure low (Chapter 4).
m Fuel tank vent blocked or fuel pipes restricted (Chapter 4).
Pre-ignition (pinking) or knocking during acceleration or under
load
m Ignition timing incorrect (Chapters 5 and 6).
m Incorrect grade of fuel (Chapter 4).
m Vacuum leak at the inlet manifold or associated hoses (Chapters 1, 4 and 6).
m Excessive carbon build-up in engine (Chapter 2, Part A).
Engine lacks power
Whistling or wheezing noises
m Leaking inlet manifold gasket (Chapter 2, Part A).
m Leaking exhaust manifold gasket or downpipe-to-manifold joint
(Chapters 1, 2 Part A, and 4).
m Leaking vacuum hose (Chapters 1, 4, 6 and 9).
m Blowing cylinder head gasket (Chapter 2, Part A).
m Incorrect ignition timing (Chapters 5 and 6).
m Engine management system fault (Chapters 1, 4, 5 and 6).
m Timing belt incorrectly fitted or incorrectly tensioned (Chapter 2,
Part A).
m Fuel filter choked (Chapter 1).
m Fuel pump faulty or delivery pressure low (Chapter 4).
m Uneven or low cylinder compressions (Chapter 2, Part A).
m Worn, faulty or incorrectly-gapped spark plugs (Chapter 1).
m Vacuum leak at the inlet manifold or associated hoses (Chapters 1, 4 and 6).
m Brakes binding (Chapters 1 and 9).
m Clutch slipping (Chapter 8).
m Automatic transmission fluid level incorrect (Chapter 1).
Engine runs-on after switching off
m
m
m
m
Idle speed excessively high (Chapters 4 and 6).
Engine management system fault (Chapters 1, 4, 5 and 6).
Excessive carbon build-up in engine (Chapter 2, Part A).
High engine operating temperature (Chapter 3).
Tapping or rattling noises
m Faulty hydraulic tappet(s) (Chapter 2, Part A).
m Worn valve gear or camshaft (Chapter 2, Part A).
m Worn timing belt or tensioner (Chapter 2, Part A).
m Ancillary component fault (water pump, alternator, etc) (Chapters 3 and 5).
Knocking or thumping noises
m Worn big-end bearings (regular heavy knocking, perhaps less
under load) (Chapter 2, Part B).
m Worn main bearings (rumbling and knocking, perhaps worsening
under load) (Chapter 2, Part B).
m Piston slap (most noticeable when cold) (Chapter 2, Part B).
m Ancillary component fault (water pump, alternator, etc) (Chapters 3 and 5).
2 Cooling system
Overheating
Overcooling
m
m
m
m
m Thermostat faulty (Chapter 3).
m Inaccurate coolant temperature gauge sender (Chapter 3).
m
m
m
m
m
m
Insufficient coolant in system (Chapter 1).
Thermostat faulty (Chapter 3).
Radiator core blocked or grille restricted (Chapter 3).
Radiator electric cooling fan(s) or coolant temperature sensor faulty
(Chapter 3).
Engine management system fault (Chapters 1, 4, 5 and 6).
Pressure cap faulty (Chapter 3).
Auxiliary drivebelt worn or slipping (Chapter 1).
Ignition timing incorrect (Chapters 5 and 6).
Inaccurate coolant temperature gauge sender (Chapter 3).
Air-lock in cooling system (Chapter 1).
External coolant leakage
m
m
m
m
m
m
Deteriorated or damaged hoses or hose clips (Chapter 1).
Radiator core or heater matrix leaking (Chapter 3).
Pressure cap faulty (Chapter 3).
Water pump seal leaking (Chapter 3).
Boiling due to overheating (Chapter 3).
Core plug leaking (Chapter 2, Part B).
Fault Finding
REF•9
Internal coolant leakage
Corrosion
m Leaking cylinder head gasket (Chapter 2, Part A).
m Cracked cylinder head or cylinder bore (Chapter 2, Part B).
m Infrequent draining and flushing (Chapter 1).
m Incorrect antifreeze mixture, or inappropriate antifreeze type
(Chapter 1).
3 Fuel and exhaust system
Excessive fuel consumption
Excessive noise or fumes from exhaust system
m
m
m
m
m
m Leaking exhaust system or manifold joints (Chapters 1, 2 Part A,
and 4).
m Leaking, corroded or damaged silencers or pipe (Chapter 1).
m Broken mountings, causing body or suspension contact (Chapters 1 and 4).
Unsympathetic driving style, or adverse conditions.
Air filter element dirty or clogged (Chapter 1).
Engine management system fault (Chapters 1, 4, 5 and 6).
Ignition timing incorrect (Chapters 5 and 6).
Tyres under-inflated (Chapter 1).
Fuel leakage and/or fuel odour
m Damaged or corroded fuel tank, pipes or connections (Chapter 1).
m Charcoal canister and/or connecting pipes leaking (Chapter 6).
4 Clutch
Pedal travels to floor - no pressure or very little
resistance
m
m
m
m
Broken clutch cable (Chapter 8).
Incorrect clutch adjustment (Chapter 8).
Broken clutch release bearing or fork (Chapter 8).
Broken diaphragm spring in clutch pressure plate (Chapter 8).
Clutch fails to disengage (unable to select gears)
m
m
m
m
m
Incorrect clutch adjustment (Chapter 8).
Clutch disc sticking on transmission input shaft splines (Chapter 8).
Clutch disc sticking to flywheel or pressure plate (Chapter 8).
Faulty pressure plate assembly (Chapter 8).
Clutch release mechanism worn or incorrectly assembled (Chapter 8).
Clutch slips (engine speed increases with no
increase in vehicle speed)
m Incorrect clutch adjustment (Chapter 8).
m Clutch disc linings excessively worn (Chapter 8).
m Clutch disc linings contaminated with oil or grease (Chapter 8).
m Faulty pressure plate or weak diaphragm spring (Chapter 8).
Judder as clutch is engaged
m
m
m
m
m
m
Clutch disc linings contaminated with oil or grease (Chapter 8).
Clutch disc linings excessively worn (Chapter 8).
Clutch cable sticking or frayed (Chapter 8).
Faulty or distorted pressure plate or diaphragm spring (Chapter 8).
Worn or loose engine/transmission mountings (Chapter 2, Part A).
Clutch disc hub or transmission input shaft splines worn (Chapter 8).
Noise when depressing or releasing clutch pedal
m
m
m
m
m
Worn clutch release bearing (Chapter 8).
Worn or dry clutch pedal bushes (Chapter 8).
Faulty pressure plate assembly (Chapter 8).
Pressure plate diaphragm spring broken (Chapter 8).
Broken clutch disc cushioning springs (Chapter 8).
5 Manual transmission
Noisy in neutral with engine running
Jumps out of gear
m Input shaft bearings worn (noise apparent with clutch pedal
released, but not when depressed) (Chapter 7, Part A).*
m Clutch release bearing worn (noise apparent with clutch pedal
depressed, possibly less when released) (Chapter 8).
m
m
m
m
Worn or damaged gear linkage (Chapter 7, Part A).
Incorrectly-adjusted gear linkage (Chapter 7, Part A).
Worn synchroniser assemblies (Chapter 7, Part A).*
Worn selector forks (Chapter 7, Part A).*
Noisy in one particular gear
m Worn, damaged or chipped gear teeth (Chapter 7, Part A).*
Difficulty engaging gears
m
m
m
m
Clutch fault (Chapter 8).
Worn or damaged gear linkage (Chapter 7, Part A).
Incorrectly-adjusted gear linkage (Chapter 7, Part A).
Worn synchroniser assemblies (Chapter 7, Part A).*
Vibration
m Lack of oil (Chapter 1).
m Worn bearings (Chapter 7, Part A).*
Lubricant leaks
m
m
m
m
m
Leaking differential side gear oil seal (Chapter 7, Part A).
Leaking housing joint (Chapter 7, Part A).*
Leaking input shaft oil seal (Chapter 7, Part A).*
Leaking selector shaft oil seal (Chapter 7, Part A).
Leaking speedometer drive pinion O-ring (Chapter 7, Part A).
* Although the corrective action necessary to remedy the symptoms
described is beyond the scope of the home mechanic, the above
information should be helpful in isolating the cause of the condition, so
that the owner can communicate clearly with a professional mechanic.
REF•10
Fault Finding
6 Automatic transmission
Note: Due to the complexity of the automatic transmission and its
electronic control system, it is difficult for the home mechanic to
properly diagnose and service this unit. For problems other than the
following, the vehicle should be taken to a dealer service department
or automatic transmission specialist.
Fluid leakage
m Automatic transmission fluid is usually deep red in colour. Fluid
leaks should not be confused with engine oil, which can easily be
blown onto the transmission by airflow.
m To determine the source of a leak, first remove all built-up dirt and
grime from the transmission housing and surrounding areas, using
a degreasing agent, or by steam-cleaning. Drive the vehicle at low
speed, so airflow will not blow the leak far from its source. Raise
and support the vehicle, and determine where the leak is coming
from. The following are common areas of leakage:
(a) Housing joints (Chapters 1 and 7, Part B).
(b) Dipstick tube (Chapters 1 and 7, Part B).
(c) Transmission-to-fluid cooler pipes/unions (Chapters 3 and 7,
Part B).
(d) Speedometer drive pinion O-ring (Chapter 7, Part B).
(e) Differential side gear oil seals (Chapter 7, Part B).
Transmission fluid brown, or has burned smell
m Transmission fluid level low, or fluid in need of renewal (Chapter 1).
Transmission will not downshift (kickdown) with
accelerator pedal fully depressed
m Low transmission fluid level (Chapter 1).
m Incorrect selector cable adjustment (Chapter 7, Part B).
m Engine management system fault (Chapters 1, 4, 5 and 6).
General gear selection problems
m Chapter 7, Part B, deals with checking and adjusting the selector
cable on automatic transmissions. The following are common
problems which may be caused by a poorly-adjusted cable:
(a) Engine starting in gears other than Park or Neutral.
(b) Indicator on gear selector lever pointing to a gear other than the
one actually being used.
(c) Vehicle moves when in Park or Neutral.
(d) Poor gear shift quality or erratic gear changes.
Refer to Chapter 7, Part B for the selector cable adjustment
procedure.
Engine will not start in any gear, or starts in gears
other than Park or Neutral
m Incorrect selector lever position sensor adjustment (Chapter 7,
Part B).
m Incorrect selector cable adjustment (Chapter 7, Part B).
Transmission slips, shifts roughly, is noisy, or has no
drive in forward or reverse gears
m There are many probable causes for the above problems, but the
home mechanic should be concerned with only one possibility fluid level. Before taking the vehicle to a dealer or transmission
specialist, check the fluid level and condition of the fluid as
described in Chapter 1. Correct the fluid level as necessary, or
change the fluid if needed. If the problem persists, professional
help will be necessary.
7 Driveshafts
Clicking or knocking noise on turns (at slow speed
on full-lock)
m Lack of constant velocity joint lubricant (Chapter 8).
m Worn outer constant velocity joint (Chapter 8).
Vibration when accelerating or decelerating
m Worn inner constant velocity joint (Chapter 8).
m Bent or distorted driveshaft (Chapter 8).
8 Braking system
Note: Before assuming that a brake problem exists, make sure that the tyres are in good condition and correctly inflated, that the front wheel
alignment is correct, and that the vehicle is not loaded with weight in an unequal manner. Apart from checking the condition of all pipe and hose
connections, any faults occurring on the Anti-lock Braking System (ABS) should be referred to a Ford dealer for diagnosis - the same applies to the
components of the Traction Control System (TCS).
Vehicle pulls to one side under braking
m Worn, defective, damaged or contaminated front or rear brake
pads/shoes on one side (Chapter 1).
m Seized or partially-seized front or rear brake caliper/wheel cylinder
piston (Chapter 9).
m A mixture of brake pad/shoe lining materials fitted between sides
(Chapter 1).
m Brake caliper mounting bolts loose (Chapter 9).
m Rear brake backplate mounting bolts loose (Chapter 9).
m Worn or damaged steering or suspension components (Chapter 10).
Noise (grinding or high-pitched squeal) when brakes
applied
m Brake pad or shoe friction lining material worn down to metal
backing (Chapter 1).
m Excessive corrosion of brake disc or drum (may be apparent after
the vehicle has been standing for some time) (Chapter 1).
m Foreign object (stone chipping, etc) trapped between brake disc
and splash shield (Chapter 1).
Excessive brake pedal travel
m Inoperative rear brake self-adjust mechanism (Chapter 9).
m Faulty master cylinder (Chapter 9).
m Air in hydraulic system (Chapter 9).
Fault Finding
Brake pedal feels spongy when depressed
m
m
m
m
Air in hydraulic system (Chapter 9).
Deteriorated flexible rubber brake hoses (Chapter 9).
Master cylinder mounting nuts loose (Chapter 9).
Faulty master cylinder (Chapter 9).
Excessive brake pedal effort required to stop
vehicle
m Faulty vacuum servo unit (Chapter 9).
m Disconnected, damaged or insecure brake servo vacuum hose
(Chapter 9).
m Primary or secondary hydraulic circuit failure (Chapter 9).
m Seized brake caliper or wheel cylinder piston(s) (Chapter 9).
m Brake pads or brake shoes incorrectly fitted (Chapter 9).
m Incorrect grade of brake pads or brake shoes fitted (Chapter 1).
m Brake pads or brake shoe linings contaminated (Chapter 1).
REF•11
Judder felt through brake pedal or steering wheel
when braking
m Excessive run-out or distortion of front discs or rear drums
(Chapter 9).
m Brake pad or brake shoe linings worn (Chapter 1).
m Brake caliper or rear brake backplate mounting bolts loose
(Chapter 9).
m Wear in suspension or steering components or mountings (Chapter 10).
Brakes binding
m Seized brake caliper or wheel cylinder piston(s) (Chapter 9).
m Faulty handbrake mechanism (Chapter 9).
m Faulty master cylinder (Chapter 9).
Rear wheels locking under normal braking
m Rear brake shoe linings contaminated (Chapter 1).
m Faulty brake pressure regulator (Chapter 9).
9 Suspension and steering systems
Note: Before diagnosing suspension or steering faults, be sure that the trouble is not due to incorrect tyre pressures, mixtures of tyre types, or
binding brakes. Apart from checking the condition of all electrical connections, any faults occurring on the Adaptive Damping System should be
referred to a Ford dealer for diagnosis.
Vehicle pulls to one side
Excessive play in steering
m Defective tyre (Chapter 1).
m Excessive wear in suspension or steering components (Chapter 10).
m Incorrect front wheel alignment (Chapter 10).
m Accident damage to steering or suspension components (Chapter 10).
m Worn steering column universal joint(s) or flexible coupling
(Chapter 10).
m Worn steering track-rod end balljoints (Chapter 10).
m Worn rack-and-pinion steering gear (Chapter 10).
m Worn steering or suspension joints, bushes or components
(Chapter 10).
Wheel wobble and vibration
m Front roadwheels out of balance (vibration felt mainly through the
steering wheel) (Chapter 1).
m Rear roadwheels out of balance (vibration felt throughout the
vehicle) (Chapter 1).
m Roadwheels damaged or distorted (Chapter 1).
m Faulty or damaged tyre (Chapter 1).
m Worn steering or suspension joints, bushes or components
(Chapter 10).
m Roadwheel nuts loose (Chapter 1).
Lack of power assistance
Excessive pitching and/or rolling around corners, or
during braking
Tyres worn on inside or outside edges
m Defective shock absorbers (Chapter 10).
m Broken or weak coil spring and/or suspension component (Chapter 10).
m Worn or damaged anti-roll bar or mountings (Chapter 10).
Wandering or general instability
m Incorrect front wheel alignment (Chapter 10).
m Worn steering or suspension joints, bushes or components
(Chapter 10).
m Roadwheels out of balance (Chapter 1).
m Faulty or damaged tyre (Chapter 1).
m Roadwheel nuts loose (Chapter 1).
m Defective shock absorbers (Chapter 10).
Excessively-stiff steering
m
m
m
m
m
Lack of steering gear lubricant (Chapter 10).
Seized track-rod end balljoint or suspension balljoint (Chapter 10).
Broken or slipping auxiliary drivebelt (Chapter 1).
Incorrect front wheel alignment (Chapter 10).
Steering rack or column bent or damaged (Chapter 10).
m
m
m
m
m
Broken or slipping auxiliary drivebelt (Chapter 1).
Incorrect power steering fluid level (Chapter 1).
Restriction in power steering fluid hoses (Chapter 10).
Faulty power steering pump (Chapter 10).
Faulty rack-and-pinion steering gear (Chapter 10).
Tyre wear excessive
m Tyres under-inflated (wear on both edges) (Chapter 1).
m Incorrect camber or castor angles (wear on one edge only)
(Chapter 10).
m Worn steering or suspension joints, bushes or components
(Chapter 10).
m Excessively-hard cornering.
m Accident damage.
Tyre treads exhibit feathered edges
m Incorrect toe setting (Chapter 10).
Tyres worn in centre of tread
m Tyres over-inflated (Chapter 1).
Tyres worn on inside and outside edges
m Tyres under-inflated (Chapter 1).
Tyres worn unevenly
m
m
m
m
Tyres out of balance (Chapter 1).
Excessive wheel or tyre run-out (Chapter 1).
Worn shock absorbers (Chapter 10).
Faulty tyre (Chapter 1).
REF•12
Fault Finding
10 Electrical system
Note: For problems associated with the starting system, refer to the faults listed under “Engine” earlier in this Section.
Battery will not hold a charge more than a few days
m
m
m
m
m
m
m
Battery defective internally (Chapter 5).
Battery electrolyte level low (Chapter 1).
Battery terminal connections loose or corroded (Chapter 5).
Auxiliary drivebelt worn or incorrectly-adjusted (Chapter 1).
Alternator not charging at correct output (Chapter 5).
Alternator or voltage regulator faulty (Chapter 5).
Short-circuit causing continual battery drain (Chapters 5 and 12).
Ignition (no-charge) warning light remains
illuminated with engine running
m
m
m
m
m
Auxiliary drivebelt broken, worn, or incorrectly-adjusted (Chapter 1).
Alternator brushes worn, sticking, or dirty (Chapter 5).
Alternator brush springs weak or broken (Chapter 5).
Internal fault in alternator or voltage regulator (Chapter 5).
Broken, disconnected, or loose wiring in charging circuit (Chapter 5).
Ignition (no-charge) warning light fails to come on
m Warning light bulb blown (Chapter 12).
m Broken, disconnected, or loose wiring in warning light circuit
(Chapters 5 and 12).
m Alternator faulty (Chapter 5).
Lights inoperative
m
m
m
m
m
m
Bulb blown (Chapter 12).
Corrosion of bulb or bulbholder contacts (Chapter 12).
Blown fuse (Chapter 12).
Faulty relay (Chapter 12).
Broken, loose, or disconnected wiring (Chapter 12).
Faulty switch (Chapter 12).
Wiper blades sweep over too large or too small an area of
the glass
m Wiper arms incorrectly-positioned on spindles (Chapter 1).
m Excessive wear of wiper linkage (Chapter 1).
m Wiper motor or linkage mountings loose or insecure (Chapter 12).
Wiper blades fail to clean the glass effectively
m Wiper blade rubbers worn or perished (Chapter 1).
m Wiper arm tension springs broken, or arm pivots seized (Chapter 1).
m Insufficient windscreen washer additive to adequately remove road
film (Chapter 1).
Windscreen/tailgate washers inoperative, or
unsatisfactory in operation
One or more washer jets inoperative
m Blocked washer jet (Chapter 1).
m Disconnected, kinked or restricted fluid hose (Chapter 1).
m Insufficient fluid in washer reservoir (Chapter 1).
Washer pump fails to operate
m
m
m
m
Broken or disconnected wiring or connections (Chapter 12).
Blown fuse (Chapter 12).
Faulty washer switch (Chapter 12).
Faulty washer pump (Chapter 12).
Washer pump runs for some time before fluid is emitted
from jets
m Faulty one-way valve in fluid supply hose (Chapter 12).
Instrument readings inaccurate or erratic
Electric windows inoperative, or unsatisfactory in
operation
Instrument readings increase with engine speed
Window glass will only move in one direction
m Faulty voltage regulator (Chapter 12).
m Faulty switch (Chapter 12).
Fuel or temperature gauges give no reading
Window glass slow to move
m Faulty gauge sender unit (Chapters 3 or 4).
m Wiring open-circuit (Chapter 12).
m Faulty gauge (Chapter 12).
Fuel or temperature gauges give continuous maximum reading
m Faulty gauge sender unit (Chapters 3 or 4).
m Wiring short-circuit (Chapter 12).
m Faulty gauge (Chapter 12).
m
m
m
m
Horn inoperative, or unsatisfactory in operation
Horn fails to operate
m Blown fuse (Chapter 12).
m Cable or cable connections loose, broken or disconnected (Chapter 12).
m Faulty horn (Chapter 12).
Horn emits intermittent or unsatisfactory sound
m Cable connections loose (Chapter 12).
m Horn mountings loose (Chapter 12).
m Faulty horn (Chapter 12).
Horn operates all the time
m Horn push either earthed or stuck down (Chapter 12).
m Horn cable to horn push earthed (Chapter 12).
Incorrectly-adjusted door glass guide channels (Chapter 11).
Regulator seized or damaged, or in need of lubrication (Chapter 11).
Door internal components or trim fouling regulator (Chapter 11).
Faulty motor (Chapter 12).
Window glass fails to move
m
m
m
m
m
Incorrectly-adjusted door glass guide channels (Chapter 11).
Blown fuse (Chapter 12).
Faulty relay (Chapter 12).
Broken or disconnected wiring or connections (Chapter 12).
Faulty motor (Chapter 12).
Central locking system inoperative, or
unsatisfactory in operation
Complete system failure
m Blown fuse (Chapter 12).
m Faulty relay (Chapter 12).
m Broken or disconnected wiring or connections (Chapter 12).
Latch locks but will not unlock, or unlocks but will not lock
Windscreen/tailgate wipers inoperative or
unsatisfactory in operation
m Faulty master switch (Chapter 11).
m Broken or disconnected latch operating rods or levers (Chapter 11).
m Faulty relay (Chapter 12).
Wipers fail to operate, or operate very slowly
One lock motor fails to operate
m
m
m
m
m
m Broken or disconnected wiring or connections (Chapter 12).
m Faulty lock motor (Chapter 11).
m Broken, binding or disconnected latch operating rods or levers
(Chapter 11).
m Fault in door latch (Chapter 11).
Wiper blades stuck to screen, or linkage seized or binding (Chapter 12).
Blown fuse (Chapter 12).
Cable or cable connections loose, broken or disconnected (Chapter 12).
Faulty relay (Chapter 12).
Faulty wiper motor (Chapter 12).
Glossary of Technical Terms
A
ABS (Anti-lock brake system) A system,
usually electronically controlled, that senses
incipient wheel lockup during braking and
relieves hydraulic pressure at wheels that are
about to skid.
Air bag An inflatable bag hidden in the
steering wheel (driver’s side) or the dash or
glovebox (passenger side). In a head-on
collision, the bags inflate, preventing the
driver and front passenger from being thrown
forward into the steering wheel or windscreen.
Air cleaner A metal or plastic housing,
containing a filter element, which removes
dust and dirt from the air being drawn into the
engine.
Air filter element The actual filter in an air
cleaner system, usually manufactured from
pleated paper and requiring renewal at regular
intervals.
Asbestos is a health hazard and the dust
created by brake systems should never be
inhaled or ingested.
Axle A shaft on which a wheel revolves, or
which revolves with a wheel. Also, a solid
beam that connects the two wheels at one
end of the vehicle. An axle which also
transmits power to the wheels is known as a
live axle.
Axleshaft A single rotating shaft, on either
side of the differential, which delivers power
from the final drive assembly to the drive
wheels. Also called a driveshaft or a halfshaft.
B
Ball bearing
An anti-friction bearing
consisting of a hardened inner and outer race
with hardened steel balls between two races.
Bearing The curved surface on a shaft or in a
bore, or the part assembled into either, that
permits relative motion between them with
minimum wear and friction.
Air filter
Allen key A hexagonal wrench which fits into
a recessed hexagonal hole.
Alligator clip A long-nosed spring-loaded
metal clip with meshing teeth. Used to make
temporary electrical connections.
Alternator A component in the electrical
system which converts mechanical energy
from a drivebelt into electrical energy to
charge the battery and to operate the starting
system, ignition system and electrical
accessories.
Ampere (amp) A unit of measurement for the
flow of electric current. One amp is the
amount of current produced by one volt
acting through a resistance of one ohm.
Anaerobic sealer A substance used to
prevent bolts and screws from loosening.
Anaerobic means that it does not require
oxygen for activation. The Loctite brand is
widely used.
Antifreeze A substance (usually ethylene
glycol) mixed with water, and added to a
vehicle’s cooling system, to prevent freezing
of the coolant in winter. Antifreeze also
contains chemicals to inhibit corrosion and
the formation of rust and other deposits that
would tend to clog the radiator and coolant
passages and reduce cooling efficiency.
Anti-seize compound
A coating that
reduces the risk of seizing on fasteners that
are subjected to high temperatures, such as
exhaust manifold bolts and nuts.
Asbestos A natural fibrous mineral with great
heat resistance, commonly used in the
composition of brake friction materials.
Bearing
Big-end bearing The bearing in the end of
the connecting rod that’s attached to the
crankshaft.
Bleed nipple A valve on a brake wheel
cylinder, caliper or other hydraulic component
that is opened to purge the hydraulic system
of air. Also called a bleed screw.
Brake bleeding Procedure for removing air
from lines of a hydraulic brake system.
REF•13
Brake drum The component of a drum brake
that rotates with the wheels.
Brake linings The friction material which
contacts the brake disc or drum to retard the
vehicle’s speed. The linings are bonded or
riveted to the brake pads or shoes.
Brake pads The replaceable friction pads
that pinch the brake disc when the brakes are
applied. Brake pads consist of a friction
material bonded or riveted to a rigid backing
plate.
Brake shoe The crescent-shaped carrier to
which the brake linings are mounted and
which forces the lining against the rotating
drum during braking.
Braking systems For more information on
braking systems, consult the Haynes
Automotive Brake Manual.
Breaker bar A long socket wrench handle
providing greater leverage.
Bulkhead The insulated partition between
the engine and the passenger compartment.
C
Caliper The non-rotating part of a disc-brake
assembly that straddles the disc and carries
the brake pads. The caliper also contains the
hydraulic components that cause the pads to
pinch the disc when the brakes are applied. A
caliper is also a measuring tool that can be set
to measure inside or outside dimensions of an
object.
Camshaft A rotating shaft on which a series
of cam lobes operate the valve mechanisms.
The camshaft may be driven by gears, by
sprockets and chain or by sprockets and a
belt.
Canister A container in an evaporative
emission control system; contains activated
charcoal granules to trap vapours from the
fuel system.
Canister
Brake bleeding
Brake disc The component of a disc brake
that rotates with the wheels.
Carburettor A device which mixes fuel with
air in the proper proportions to provide a
desired power output from a spark ignition
internal combustion engine.
Castellated Resembling the parapets along
the top of a castle wall. For example, a
castellated balljoint stud nut.
Castor In wheel alignment, the backward or
forward tilt of the steering axis. Castor is
positive when the steering axis is inclined
rearward at the top.
REF•14
Glossary of Technical Terms
Catalytic converter A silencer-like device in
the exhaust system which converts certain
pollutants in the exhaust gases into less
harmful substances.
Catalytic converter
Circlip A ring-shaped clip used to prevent
endwise movement of cylindrical parts and
shafts. An internal circlip is installed in a
groove in a housing; an external circlip fits into
a groove on the outside of a cylindrical piece
such as a shaft.
Clearance The amount of space between
two parts. For example, between a piston and
a cylinder, between a bearing and a journal,
etc.
Coil spring A spiral of elastic steel found in
various sizes throughout a vehicle, for
example as a springing medium in the
suspension and in the valve train.
Compression Reduction in volume, and
increase in pressure and temperature, of a
gas, caused by squeezing it into a smaller
space.
Compression ratio The relationship between
cylinder volume when the piston is at top
dead centre and cylinder volume when the
piston is at bottom dead centre.
Constant velocity (CV) joint A type of
universal joint that cancels out vibrations
caused by driving power being transmitted
through an angle.
Core plug A disc or cup-shaped metal device
inserted in a hole in a casting through which
core was removed when the casting was
formed. Also known as a freeze plug or
expansion plug.
Crankcase The lower part of the engine
block in which the crankshaft rotates.
Crankshaft The main rotating member, or
shaft, running the length of the crankcase,
with offset “throws” to which the connecting
rods are attached.
Crankshaft assembly
Crocodile clip See Alligator clip
D
Diagnostic code Code numbers obtained by
accessing the diagnostic mode of an engine
management computer. This code can be
used to determine the area in the system
where a malfunction may be located.
Disc brake A brake design incorporating a
rotating disc onto which brake pads are
squeezed. The resulting friction converts the
energy of a moving vehicle into heat.
Double-overhead cam (DOHC) An engine
that uses two overhead camshafts, usually
one for the intake valves and one for the
exhaust valves.
Drivebelt(s)
The belt(s) used to drive
accessories such as the alternator, water
pump, power steering pump, air conditioning
compressor, etc. off the crankshaft pulley.
Endfloat
The amount of lengthwise
movement between two parts. As applied to a
crankshaft, the distance that the crankshaft
can move forward and back in the cylinder
block.
Engine management system (EMS) A
computer controlled system which manages
the fuel injection and the ignition systems in
an integrated fashion.
Exhaust manifold A part with several
passages through which exhaust gases leave
the engine combustion chambers and enter
the exhaust pipe.
F
Fan clutch A viscous (fluid) drive coupling
device which permits variable engine fan
speeds in relation to engine speeds.
Feeler blade A thin strip or blade of hardened
steel, ground to an exact thickness, used to
check or measure clearances between parts.
Accessory drivebelts
Driveshaft Any shaft used to transmit
motion. Commonly used when referring to the
axleshafts on a front wheel drive vehicle.
Drum brake A type of brake using a drumshaped metal cylinder attached to the inner
surface of the wheel. When the brake pedal is
pressed, curved brake shoes with friction
linings press against the inside of the drum to
slow or stop the vehicle.
E
EGR valve A valve used to introduce exhaust
gases into the intake air stream.
Electronic control unit (ECU) A computer
which controls (for instance) ignition and fuel
injection systems, or an anti-lock braking
system. For more information refer to the
Haynes Automotive Electrical and Electronic
Systems Manual.
Electronic Fuel Injection (EFI) A computer
controlled fuel system that distributes fuel
through an injector located in each intake port
of the engine.
Emergency brake
A braking system,
independent of the main hydraulic system,
that can be used to slow or stop the vehicle if
the primary brakes fail, or to hold the vehicle
stationary even though the brake pedal isn’t
depressed. It usually consists of a hand lever
that actuates either front or rear brakes
mechanically through a series of cables and
linkages. Also known as a handbrake or
parking brake.
Feeler blade
Firing order The order in which the engine
cylinders fire, or deliver their power strokes,
beginning with the number one cylinder.
Flywheel A heavy spinning wheel in which
energy is absorbed and stored by means of
momentum. On cars, the flywheel is attached
to the crankshaft to smooth out firing
impulses.
Free play The amount of travel before any
action takes place. The “looseness” in a
linkage, or an assembly of parts, between the
initial application of force and actual
movement. For example, the distance the
brake pedal moves before the pistons in the
master cylinder are actuated.
Fuse An electrical device which protects a
circuit against accidental overload. The typical
fuse contains a soft piece of metal which is
calibrated to melt at a predetermined current
flow (expressed as amps) and break the
circuit.
Fusible link A circuit protection device
consisting of a conductor surrounded by
heat-resistant insulation. The conductor is
smaller than the wire it protects, so it acts as
the weakest link in the circuit. Unlike a blown
fuse, a failed fusible link must frequently be
cut from the wire for replacement.
Glossary of Technical Terms
G
I
Gap The distance the spark must travel in
jumping from the centre electrode to the side
electrode in a spark plug. Also refers to the
spacing between the points in a contact
breaker assembly in a conventional pointstype ignition, or to the distance between the
reluctor or rotor and the pickup coil in an
electronic ignition.
Ignition timing The moment at which the
spark plug fires, usually expressed in the
number of crankshaft degrees before the
piston reaches the top of its stroke.
Inlet manifold A tube or housing with
passages through which flows the air-fuel
mixture (carburettor vehicles and vehicles with
throttle body injection) or air only (port fuelinjected vehicles) to the port openings in the
cylinder head.
J
Jump start Starting the engine of a vehicle
with a discharged or weak battery by
attaching jump leads from the weak battery to
a charged or helper battery.
L
Adjusting spark plug gap
Gasket Any thin, soft material - usually cork,
cardboard, asbestos or soft metal - installed
between two metal surfaces to ensure a good
seal. For instance, the cylinder head gasket
seals the joint between the block and the
cylinder head.
Load Sensing Proportioning Valve (LSPV) A
brake hydraulic system control valve that
works like a proportioning valve, but also
takes into consideration the amount of weight
carried by the rear axle.
Locknut A nut used to lock an adjustment
nut, or other threaded component, in place.
For example, a locknut is employed to keep
the adjusting nut on the rocker arm in
position.
Lockwasher A form of washer designed to
prevent an attaching nut from working loose.
M
Gasket
Gauge An instrument panel display used to
monitor engine conditions. A gauge with a
movable pointer on a dial or a fixed scale is an
analogue gauge. A gauge with a numerical
readout is called a digital gauge.
H
Halfshaft A rotating shaft that transmits
power from the final drive unit to a drive
wheel, usually when referring to a live rear
axle.
Harmonic balancer A device designed to
reduce torsion or twisting vibration in the
crankshaft. May be incorporated in the
crankshaft pulley. Also known as a vibration
damper.
Hone An abrasive tool for correcting small
irregularities or differences in diameter in an
engine cylinder, brake cylinder, etc.
Hydraulic tappet A tappet that utilises
hydraulic pressure from the engine’s
lubrication system to maintain zero clearance
(constant contact with both camshaft and
valve stem). Automatically adjusts to variation
in valve stem length. Hydraulic tappets also
reduce valve noise.
MacPherson strut
A type of front
suspension system devised by Earle
MacPherson at Ford of England. In its original
form, a simple lateral link with the anti-roll bar
creates the lower control arm. A long strut - an
integral coil spring and shock absorber - is
mounted between the body and the steering
knuckle. Many modern so-called MacPherson
strut systems use a conventional lower A-arm
and don’t rely on the anti-roll bar for location.
Multimeter An electrical test instrument with
the capability to measure voltage, current and
resistance.
N
NOx Oxides of Nitrogen. A common toxic
pollutant emitted by petrol and diesel engines
at higher temperatures.
O
Ohm The unit of electrical resistance. One
volt applied to a resistance of one ohm will
produce a current of one amp.
Ohmmeter An instrument for measuring
electrical resistance.
O-ring A type of sealing ring made of a
special rubber-like material; in use, the O-ring
is compressed into a groove to provide the
sealing action.
Overhead cam (ohc) engine An engine with
the camshaft(s) located on top of the cylinder
head(s).
REF•15
Overhead valve (ohv) engine An engine with
the valves located in the cylinder head, but
with the camshaft located in the engine block.
Oxygen sensor A device installed in the
engine exhaust manifold, which senses the
oxygen content in the exhaust and converts
this information into an electric current. Also
called a Lambda sensor.
P
Phillips screw A type of screw head having a
cross instead of a slot for a corresponding
type of screwdriver.
Plastigage A thin strip of plastic thread,
available in different sizes, used for measuring
clearances. For example, a strip of Plastigage
is laid across a bearing journal. The parts are
assembled and dismantled; the width of the
crushed strip indicates the clearance between
journal and bearing.
Plastigage
Propeller shaft The long hollow tube with
universal joints at both ends that carries
power from the transmission to the differential
on front-engined rear wheel drive vehicles.
Proportioning valve A hydraulic control
valve which limits the amount of pressure to
the rear brakes during panic stops to prevent
wheel lock-up.
R
Rack-and-pinion steering A steering system
with a pinion gear on the end of the steering
shaft that mates with a rack (think of a geared
wheel opened up and laid flat). When the
steering wheel is turned, the pinion turns,
moving the rack to the left or right. This
movement is transmitted through the track
rods to the steering arms at the wheels.
Radiator A liquid-to-air heat transfer device
designed to reduce the temperature of the
coolant in an internal combustion engine
cooling system.
Refrigerant Any substance used as a heat
transfer agent in an air-conditioning system.
R-12 has been the principle refrigerant for
many years; recently, however, manufacturers
have begun using R-134a, a non-CFC
substance that is considered less harmful to
the ozone in the upper atmosphere.
Rocker arm A lever arm that rocks on a shaft
or pivots on a stud. In an overhead valve
engine, the rocker arm converts the upward
movement of the pushrod into a downward
movement to open a valve.
REF•16
Glossary of Technical Terms
Rotor In a distributor, the rotating device
inside the cap that connects the centre
electrode and the outer terminals as it turns,
distributing the high voltage from the coil
secondary winding to the proper spark plug.
Also, that part of an alternator which rotates
inside the stator. Also, the rotating assembly
of a turbocharger, including the compressor
wheel, shaft and turbine wheel.
Runout The amount of wobble (in-and-out
movement) of a gear or wheel as it’s rotated.
The amount a shaft rotates “out-of-true.” The
out-of-round condition of a rotating part.
Sprocket A tooth or projection on the
periphery of a wheel, shaped to engage with a
chain or drivebelt. Commonly used to refer to
the sprocket wheel itself.
Starter inhibitor switch On vehicles with an
automatic transmission, a switch that
prevents starting if the vehicle is not in Neutral
or Park.
Strut See MacPherson strut.
S
T
Sealant A liquid or paste used to prevent
leakage at a joint. Sometimes used in
conjunction with a gasket.
Sealed beam lamp An older headlight design
which integrates the reflector, lens and
filaments into a hermetically-sealed one-piece
unit. When a filament burns out or the lens
cracks, the entire unit is simply replaced.
Serpentine drivebelt A single, long, wide
accessory drivebelt that’s used on some
newer vehicles to drive all the accessories,
instead of a series of smaller, shorter belts.
Serpentine drivebelts are usually tensioned by
an automatic tensioner.
Serpentine drivebelt
Shim Thin spacer, commonly used to adjust
the clearance or relative positions between
two parts. For example, shims inserted into or
under bucket tappets control valve
clearances. Clearance is adjusted by
changing the thickness of the shim.
Slide hammer A special puller that screws
into or hooks onto a component such as a
shaft or bearing; a heavy sliding handle on the
shaft bottoms against the end of the shaft to
knock the component free.
Tappet
A cylindrical component which
transmits motion from the cam to the valve
stem, either directly or via a pushrod and
rocker arm. Also called a cam follower.
Thermostat A heat-controlled valve that
regulates the flow of coolant between the
cylinder block and the radiator, so maintaining
optimum engine operating temperature. A
thermostat is also used in some air cleaners in
which the temperature is regulated.
Thrust bearing The bearing in the clutch
assembly that is moved in to the release
levers by clutch pedal action to disengage the
clutch. Also referred to as a release bearing.
Timing belt A toothed belt which drives the
camshaft. Serious engine damage may result
if it breaks in service.
Timing chain A chain which drives the
camshaft.
Toe-in The amount the front wheels are
closer together at the front than at the rear. On
rear wheel drive vehicles, a slight amount of
toe-in is usually specified to keep the front
wheels running parallel on the road by
offsetting other forces that tend to spread the
wheels apart.
Toe-out The amount the front wheels are
closer together at the rear than at the front. On
front wheel drive vehicles, a slight amount of
toe-out is usually specified.
Tools For full information on choosing and
using tools, refer to the Haynes Automotive
Tools Manual.
Tracer A stripe of a second colour applied to
a wire insulator to distinguish that wire from
another one with the same colour insulator.
Tune-up A process of accurate and careful
adjustments and parts replacement to obtain
the best possible engine performance.
Turbocharger A centrifugal device, driven by
exhaust gases, that pressurises the intake air.
Normally used to increase the power output
from a given engine displacement, but can
also be used primarily to reduce exhaust
emissions (as on VW’s “Umwelt” Diesel
engine).
U
Universal joint or U-joint A double-pivoted
connection for transmitting power from a
driving to a driven shaft through an angle. A
U-joint consists of two Y-shaped yokes and a
cross-shaped member called the spider.
V
Valve A device through which the flow of
liquid, gas, vacuum, or loose material in bulk
may be started, stopped, or regulated by a
movable part that opens, shuts, or partially
obstructs one or more ports or passageways.
A valve is also the movable part of such a
device.
Valve clearance The clearance between the
valve tip (the end of the valve stem) and the
rocker arm or tappet. The valve clearance is
measured when the valve is closed.
Vernier caliper
A precision measuring
instrument that measures inside and outside
dimensions. Not quite as accurate as a
micrometer, but more convenient.
Viscosity The thickness of a liquid or its
resistance to flow.
Volt
A unit for expressing electrical
“pressure” in a circuit. One volt that will
produce a current of one ampere through a
resistance of one ohm.
W
Welding Various processes used to join metal
items by heating the areas to be joined to a
molten state and fusing them together. For
more information refer to the Haynes
Automotive Welding Manual.
Wiring diagram A drawing portraying the
components and wires in a vehicle’s electrical
system, using standardised symbols. For
more information refer to the Haynes
Automotive Electrical and Electronic Systems
Manual.
Index
REF•17
Note: References throughout this index relate to Chapter•page number
A
A pillar trim - 11•20
ABS - 9•14
Accelerator cable - 4•4
Accelerator pedal - 4•5
Accumulator - 3•9
Acknowledgements - 0•4
Adaptive damping switch - 12•8
Aerial - 12•22
Air bag - 0•5, 1•22, 12•22
Air cleaner - 4•3, 6•19
Air conditioning - 1•15, 3•2, 3•8, 3•9, 6•11
Air distribution control - 3•8
Air induction system - 4•9
Air intake components - 4•3
Air mass meter - 4•3, 6•10, 6•11, 6•12
Air temperature warning sender unit 12•18
Alarm - 11•17, 12•18
Alternator - 5•5, 5•6
Amplifier - 12•21
Anti-lock Braking System - 9•14
Anti-roll bar - 10•8, 10•12, 10•15
Anti-theft alarm system - 12•18
Antifreeze - 1•2, 1•22, 3•2
Asbestos - 0•5
ATF - 1•2
Automatic transmission - 1•11, 1•17,
2A•24, 2B•3, 2B•4, 6•11, 7B•1 et seq,
12•11
Automatic transmission fault finding REF•10
Automatic transmission fluid - 1•2
Auxiliary drivebelt - 1•13
Auxiliary warning system - 12•17
B
B pillar trim - 11•20
Backfire - REF•8
Backrest - 11•18
Battery - 0•5, 1•8, 1•11, 5•2, 5•3
Battery fault - REF•12
Big-end bearings - 2B•18, 2B•21
Bleeding brakes - 9•12
Bleeding power steering - 10•21
Blower/air conditioning control - 3•8
Body corrosion - 0•10
Body electrical system - 12•1 et seq
Bodywork and fittings - 11•1 et seq
Bonnet - 1•20, 11•5, 11•6
Booster battery (jump) starting - 0•12
Boot - 11•14, 11•15
Brake check - 1•19
Brake fluid - 1•2, 1•8, 1•26
Brake line check - 1•19
Braking system - 0•7, 0•8, 0•9, 1•20, 9•1 et
seq
Braking system fault finding - REF•10
Brush renewal - 5•8
Bulb failure module - 12•18
Bulbs - 12•8, 12•11, 12•18
Bumpers - 11•4, 11•5
Burning - 0•5
C
C pillar trim - 11•20, 11•21
Cables - 4•4, 7B•2, 8•2, 9•16, 11•6, 12•15
Calipers - 9•4, 9•9
Camshaft - 2A•13, 2A•14, 6•11, 6•12
Cassette player - 12•21
Catalytic converter - 6•19
CD player - 12•22
Central locking system - 11•17
Central locking system fault - REF•12
Centre console - 11•21
Charcoal canister - 6•14
Charging - 1•12, 5•5
Check strap - 11•13
Clock - 12•11, 12•15
Clutch and driveshafts - 1•17, 1•20, 8•1 et
seq
Clutch fault finding - REF•9
CO emissions (mixture) - 0•10
Coil spring - 10•15
Compact disc player - 12•22
Compression test - 2A•5
Compressor - 3•9
Condenser - 3•9
Connecting rods - 2B•12, 2B•17, 2B•21,
2B•22
Console - 11•21, 11•22
Contents - 0•2
Conversion factors - 0•14
Coolant - 1•2, 1•6, 1•7, 1•21
Coolant leakage - REF•9
Coolant low level switch - 3•5
Coolant temperature gauge sender - 3•4
Coolant temperature sensor - 3•5, 6•11,
6•13
Coolant warning switch - 12•18
Cooling, heating, and air conditioning
systems - 1•22, 3•1 et seq
Cooling, heating, and air conditioning
systems fault finding - REF•8
Corrosion - REF•9
Courtesy light - 12•8
Crankcase - 2B•13
Crankshaft - 2A•9, 2A•13, 2A•22, 2B•13,
2B•18, 2B•20, 5•4, 6•10, 6•11, 6•12
Crossmember - 10•13, 10•17
Cruise control system - 12•19
Crushing - 0•5
Cushion - 11•18
CV joints - 1•18, 8•7, 8•9
Cylinder block - 2B•13
Cylinder head - 2A•6, 2A•17, 2B•9, 2B•10,
2B•11, 6•19
D
D pillar trim - 11•21
Damping switch - 12•8
Dehydrator - 3•9
Dents in bodywork - 11•3
Depressurisation - 4•2
Diagnosis system - 6•4
Differential - 7A•2, 7B•3
Dimensions - 0•6
Dipped beam switch - 12•7
Direction indicators - 12•7, 12•9, 12•12
Discs - 1•19, 9•5, 9•10
Display warning bulb - 12•18
Doors - 0•8, 1•20, 11•6, 11•7, 11•8, 11•9,
11•10, 11•11, 11•13, 12•7, 12•8, 12•11,
12•18
Drivebelts - 1•13
Driveplate - 2A•24
Driveshafts - 0•9, 1•18, 8•5, 8•6, 8•7, 8•9,
8•10
Driveshafts fault finding - REF•10
Drivetrain - 1•20
Drums - 1•19, 9•6
REF•18
Index
E
Earth fault - 12•4
Economy/Sport mode switch - 12•7
ECU (Electronic Control Unit) - 6•10, 6•11,
6•12
EGR exhaust gas pressure differential
sensor - 6•16
EGR system - 6•15, 6•16
Electric shock - 0•5
Electric windows fault - REF•12
Electrical system - 0•8, 1•11, 1•20
Electrical system fault - REF•12
Electrically-operated windows - 12•7
Electrolyte - 1•8
Electronic control system - 4•9, 6•2
Emblems - 11•17
Emission checks - 0•10
Emissions control systems - 6•1
Engine compartment light - 12•11
Engine electrical systems - 5•1 et seq
Engine fault finding - REF•7, REF•8, REF•10
Engine management system - 4•8, 4•9
Engine oil - 1•2, 1•6, 1•16
Engine oil level sensor - 12•18
Engine removal and general engine
overhaul procedures - 2B•1 et seq
Environmental considerations - REF•4
Evaporative emissions control (EVAP)
system - 6•14
Evaporator - 3•9
Exhaust gas pressure differential sensor 6•11, 6•12, 6•13
Exhaust Gas Recirculation (EGR) system 6•15, 6•16
Exhaust manifold - 2A•8
Exhaust system - 0•9, 0•10, 1•18, 4•12,
REF•9
Expansion tank - 3•5, 3•6
F
Facia - 11•21, 11•23
Fan(s) - 3•4, 12•11
Fault code read-out - 6•6
Fault finding - REF•6 et seq
Fault finding - automatic transmission 7B•1
Fault finding - electrical system - 12•4
Filling - 11•3
Fire - 0•5
Fluid level checks - 1•6
Flywheel - 2A•24
Foglight - 12•7, 12•9, 12•13
Foglight warning indicator - 12•11
Fuel and exhaust systems - 0•10, 4•1 et
seq
Fuel and exhaust system fault finding REF•9
Fuel consumption high - REF•9
Fuel cut-off switch - 4•8
Fuel filter - 1•26
Fuel gauge - 4•6
Fuel gauge fault - REF•12
Fuel hoses - 1•15
Fuel injection system - 4•8, 4•9
Fuel injectors - 4•10
Fuel lines - 1•19, 4•2
Fuel odour - REF•9
Fuel pressure check - 4•5
Fuel pressure regulator - 4•11
Fuel pump - 4•5, 4•6
Fuel rail - 4•10
Fuel system - 4•2
Fuel tank - 4•7, 4•8
Fume or gas intoxication - 0•5
Fumes from exhaust system - REF•9
Fuses - 12•5
G
Gaiters - 1•18, 8•7, 8•9, 10•21
Gashes in bodywork - 11•3
Gaskets - REF•4
Gear lever - 7A•2
Gear selection problems - REF•9, REF•10
Gearbox oil - 1•2
Gearchange linkage - 7A•2
Gearchange selector shaft - 7A•3
Glossary of technical terms - REF•13
Glovebox - 11•22
Glovebox light - 12•11
Grab handle - 11•20
H
Handbrake - 0•7, 9•16, 12•7
Handles - 11•10, 11•11, 11•12, 11•13,
12•11
Hazard flashers - 12•7, 12•11
HC emissions - 0•10
Headlight - 1•8, 12•7, 12•8, 12•12, 12•13
Heated rear window - 12•8
Heated seat - 12•8
Heated windscreen - 12•8
Heater - 3•2, 3•7, 3•8, 12•11, 12•12
Horn - 12•7, 12•15
Horn fault - REF•12
Hoses - 1•14, 3•2, 9•11
HT leads - 1•24
Hub and bearings - 10•5, 10•9, 10•14
Hydraulic fluid - 1•2
Hydraulic pipes and hoses - 9•11
Hydraulic system - 9•12
Hydraulic tappets - 2A•14
Hydrofluoric acid - 0•5
I
Idle speed - 4•9, 4•11, 6•10
Idle-increase solenoid valve - 4•12
Ignition coil - 5•3
Ignition module - 5•4
Ignition switch - 12•6
Ignition system - 5•3
Ignition timing - 5•4, 6•10
In-car engine repair procedures - 2A•1 et
seq
Indicators - 12•7, 12•9, 12•12
Information sensors - 6•10
Inlet manifold - 2A•7
Instrument panel - 12•7, 12•11, 12•14
Instruments - 1•20
Instruments fault - REF•12
Intake air temperature sensor - 6•11, 6•13
Introduction to the Ford Mondeo - 0•4
J
Jacking - 0•11
Joint mating faces - REF•4
Jump starting - 0•12
K
Knuckle - 10•5, 10•10, 10•14
L
Leaks - 0•13, 1•14, REF•9
Light units - 12•12
Lights - 12•7, 12•11
Lights inoperative - REF•12
Locknuts, locktabs and washers - REF•4
Locks - 11•6, 11•10, 11•12, 11•13, 11•15,
11•16, 11•17, 12•6, REF•12
Low air temperature warning sender unit 12•18
Low coolant warning switch - 12•18
Low washer fluid switch - 12•18
Lower suspension arm - 10•8, 10•9, 10•13,
10•16
Lubrication system - 2A•4
Luggage compartment switch - 12•7
M
Main bearings - 2B•18, 2B•20
Maintenance - Also see Routine
maintenance
Maintenance - bodywork and underframe 11•2
Maintenance - upholstery and carpets 11•3
Manifolds - 2A•7, 2A•8
Manual transmission - 1•17, 2A•24, 2B•3,
2B•4, 7A•1 et seq
Manual transmission fault finding - REF•9
Manual transmission oil - 1•2
Master cylinder - 9•10
Mirrors - 0•7, 11•14, 12•7
Misfire - REF•7, REF•8
Mixture - 0•10, 4•9
MOT test checks - 0•7 et seq
Mountings - 2A•24, 7A•7, 7B•5
N
Number plate light - 12•10, 12•13
O
Oil (transmission) - 1•2
Oil (engine) - 1•2, 1•6, 1•16
Oil cooler - 2A•22
Oil level sensor - 2A•22, 12•18
Oil pressure warning light illuminated REF•8
Index
Oil pressure warning light switch - 2A•22
Oil pump - 2A•21
Oil seals - 2A•13, 2A•22, 7A•2, 7B•3, REF•4
Oil separator - 6•19
Open-circuit - 12•4
Overcooling - REF•8
Overhead console - 11•22
Overheating - REF•8
Oxygen sensor - 6•11, 6•12, 6•13
P
Pads - 9•3, 9•8
Pedals - 1•17, 4•5, 8•3, 9•10, 9•11
Piston rings - 2B•19
Pistons - 2B•12, 2B•17, 2B•21, 2B•22
Pitching and/or rolling around corners REF•11
Plastic components - 11•4
Plenum chamber - 4•3
Poisonous or irritant substances - 0•5
Pollen filter - 1•20, 3•8
Position sensor - 5•4, 6•10, 6•11, 6•12
Positive Crankcase Ventilation (PCV)
system - 1•23, 6•18, 6•19
Power steering - 1•8, 1•10, 6•11, 6•12,
6•13, 10•20, 10•21, 10•22
Power steering fluid - 1•2
Pressure-control relief valve - 9•13
Pressure-cycling and pressure-regulating
switches - 3•10
Project vehicles - 0•4
Pulse-air - 6•17, 6•18
Purge solenoid valve - 6•14
R
Radiator - 3•4, 3•5
Radiator grille - 11•5
Radio - 12•21, 12•22
Radio aerial - 12•22
Reading light - 12•11
Rear light cluster - 12•9, 12•13
Rear window - 12•8, 12•21
Relays - 12•5
Repair procedures - REF•4
Resonator (engine compartment) - 4•3
Respraying - 11•3
Reversing light switch - 7A•3
Road test - 1•20
Roadwheels - 1•17, 1•18, 1•20
Roll-over valves - 4•8
Routine maintenance and servicing - 1•1 et
seq
Rubber gaiters- 1•18, 8•7, 8•9, 10•21
Rust holes in bodywork - 11•3
S
Safety first! - 0•5
Scalding - 0•5
Scratches in bodywork - 11•3
Screw threads and fastenings - REF•4
Seat belts - 0•8, 1•13, 11•19, 11•20
Seats - 0•8, 11•18, 12•8
Selector assembly - 7B•2
Selector cable - 7B•2
Selector lever position sensor - 7B•2
Selector panel illumination - 12•11
Service indicator - 12•17, 12•18
Servo unit - 9•12, 9•13
Shock absorbers - 0•8, 0•9, 10•14
Shoes - 9•6
Short-circuit - 12•4
Sidelight - 12•9
Solenoid renewal - 5•8
Spare parts - REF•5
Spark plugs - 1•23
Speakers - 12•22
Speed control - 12•20
Speed sensor - 6•11, 6•12, 6•13
Speedometer - 7A•2, 7A•3, 7B•2, 7B•3,
12•15
Springs - 0•9
Starter motor - 5•7
Starter motor fault - REF•7
Starting system - 5•6
Steering - 0•7, 0•8, 0•9, 1•17, 1•20
Steering angles - 10•22
Steering column - 10•18, 10•20
Steering fault - REF•11
Steering knuckle - 10•5
Steering wheel - 10•17
Stop-light switch - 9•15
Striker - 11•13
Struts - 10•6, 10•7, 10•10, 10•12
Sump - 2A•19
Sun visor - 11•20
Sunroof - 11•18, 12•7
Suspension and steering systems - 0•8,
0•9, 1•17, 1•18, 1•20, 10•1 et seq
Suspension and steering systems fault
finding - REF•11
Switches - 2A•22, 3•4, 3•5, 3•10, 4•8 6•11, 6•12, 6•13, 7A•3, 9•15, 11•17,
12•6, 12•7, 12•8, 12•11, 12•18, 12•20
T
Tailgate - 1•8, 1•10, 11•15, 11•16, 12•17,
12•20, REF•12
Tappets - 2A•14
TCS inhibitor switch - 9•15
TCS throttle actuator - 9•15
Temperature gauge fault - REF•12
Thermostat - 3•3, 3•4
Throttle actuator - 9•15
Throttle housing - 4•9
Throttle potentiometer - 6•11, 6•13
Tie-bar - 10•13, 10•16
Timer module - 12•5
Timing - 5•4, 6•10
Timing belt - 1•26, 2A•10, 2A•13
Tools - REF•1, REF•3, REF•4
Top Dead Centre (TDC) for No 1 piston 2A•6
Towing - 0•11
Track rod end - 10•22
REF•19
Traction Control System - 9•15, 12•7
Transmission - 1•11, 1•17, 2A•24, 2B•3,
2B•4, 7A•1 et seq, 7B•1 et seq, 12•11
Trim mouldings - 11•17
Trim panels - 11•6, 11•20
Trip computer - 12•17
Tyre wear - REF•11
Tyres - 0•10, 1•8
U
Underbody check - 1•19
Upper suspension arm - 10•16
V
Vacuum hoses - 1•15
Vacuum servo unit - 9•12, 9•13
Valve clearances - 2A•5
Valves - 2B•10, 2B•11
Vehicle identification - 0•8, REF•5
Vehicle pulls to one side - REF•10, REF•11
Vehicle speed sensor - 6•11, 6•12, 6•13
Ventilation system - 1•20, 3•7
Voltage regulator - 5•6
W
Warning lights - 12•11
Warning system - 12•17
Washer jets fault - REF•12
Washer nozzle - 12•21
Washer pump fault - REF•12
Washer reservoir and pump - 12•20
Washer system - 1•8, 1•10, 12•18, 12•20
Water pump - 3•6
Weights - 0•6
Wheel alignment - 10•22
Wheel arch liner - 11•24
Wheel bearings - 0•9
Wheel changing - 0•11
Wheel cylinders - 9•8
Wheel sensors - 9•14
Wheel wobble - REF•11
Wheels - 0•10, 1•17, 1•18, 1•20
Wheels locking - REF•11
Window glass - 11•8
Window regulator - 11•9
Windows - 11•17, 12•7, 12•8, 12•21,
REF•12
Windscreen - 0•7, 1•8, 1•10, 11•17, 12•6,
12•8, 12•16, 12•20, 12•21, REF•12
Wiper arms - 12•16
Wiper blade - 1•10
Wiper blade fault - REF•12
Wiper motor - 12•16, 12•17
Wipers - 12•6
Wiper fault - REF•12
Wiring - 1•15
Wiring diagrams - 12•23 et seq
Working facilities - REF•3
REF•20
Preserving Our Motoring Heritage
<
The Model J Duesenberg
Derham Tourster.
Only eight of these
magnificent cars were
ever built – this is the
only example to be found
outside the United
States of America
Almost every car you’ve ever loved, loathed or desired is gathered under one roof at the Haynes Motor
Museum. Over 300 immaculately presented cars and motorbikes represent every aspect of our motoring
heritage, from elegant reminders of bygone days, such as the superb Model J Duesenberg to curiosities like
the bug-eyed BMW Isetta. There are also many old friends and flames. Perhaps you remember the 1959 Ford
Popular that you did your courting in? The magnificent ‘Red Collection’ is a spectacle of classic sports cars
including AC, Alfa Romeo, Austin Healey, Ferrari, Lamborghini, Maserati, MG, Riley, Porsche and Triumph.
A Perfect Day Out
Each and every vehicle at the Haynes Motor Museum has played its part in the history and culture of
Motoring. Today, they make a wonderful spectacle and a great day out for all the family. Bring the kids, bring
Mum and Dad, but above all bring your camera to capture those golden memories for ever. You will also find
an impressive array of motoring memorabilia, a comfortable 70 seat video cinema and one of the most
extensive transport book shops in Britain. The Pit Stop Cafe serves everything from a cup of tea to
wholesome, home-made meals or, if you prefer, you can enjoy the large picnic area nestled in the beautiful
rural surroundings of Somerset.
>
John Haynes O.B.E.,
Founder and
Chairman of the
museum at the wheel
of a Haynes Light 12.
<
Graham Hill’s Lola
Cosworth Formula 1
car next to a 1934
Riley Sports.
The Museum is situated on the A359 Yeovil to Frome road at Sparkford, just off the A303 in Somerset. It is about 40 miles south of Bristol, and
25 minutes drive from the M5 intersection at Taunton.
Open 9.30am - 5.30pm (10.00am - 4.00pm Winter) 7 days a week, except Christmas Day, Boxing Day and New Years Day
Special rates available for schools, coach parties and outings Charitable Trust No. 292048