clock FORD GRANADA 1985 Service User Guide

1Check the cost and availability of spare parts
before deciding to dismantle the carburettor. If
the unit has seen much service, fitting a new or
reconditioned carburettor may prove more
satisfactory than any attempt at overhaul.
2Obtain a carburettor repair kit, which will
contain the necessary gaskets, diaphragms
and other renewable items.
3With the carburettor removed from the
vehicle, clean it thoroughly externally and
place it on a clean worksurface.
4 Referringto the exploded view of the
carburettor(see illustration),remove each
component part whilst making a note of its
fitted position. Make alignment marks on
linkages etc.
5Reassemble in the reverse order to
dismantling, using new gaskets, O-rings etc.
6To check the choke pull-down after
reassembly, position the fast idle screw on the
highest step of the cam. Press the pull-down
adjusting screw towards the pull-down
diaphragm and measure the choke valve
opening with a twist drill or gauge rod of the
specified diameter. Adjust if necessary using
a 2 mm Allen key (see illustration).
7After refitting the throttle damper, adjust its
position in the bracket so that with a 2 mm
(0.08 in) feeler blade inserted between the idle
speed adjusting screw and the throttle lever,
the damper plunger is just touching the
actuating lever(see illustration).
8Adjust the idle speed and mixture, and if
necessary the fast idle speed, after refitting the
carburettor.
9Recheck the throttle damper adjustment,
when applicable.
1This is not a routine operation. It should only
be necessary after overhaul, or when a new
carburettor is fitted.
2The idle speed and mixture must be
correctly set and the engine must be at
operating temperature.3Remove the air cleaner and plug the
manifold vacuum connection.
4With the engine running, position the fast
idle screw on the second highest step of the
fast idle cam(see illustration).Measure the
engine speed and compare it with that given in
the Specifications.
5If adjustment is necessary, remove the
tamperproof plug from the fast idle screw by
crushing it with pliers. Stop the engine and
open the throttle to gain access to the screw
with a small screwdriver. Turn the screw a
small amount clockwise to increase the speed,
anti-clockwise to reduce it, then reseat the
screw on the second highest step of the cam
and recheck the engine speed. Repeat as
necessary.
6Fit a new tamperproof cap where this is
required by law, then refit the air cleaner.
Idle speed cannot be adjusted in the usual
way on this carburettor, as it is controlled by
the ESC ll module.
If mixture adjustment is required, proceed
as described in Chapter 1, Section 16.
1Disconnect the battery negative lead.
2Remove the air cleaner.3Disconnect the choke and stepper motor
wiring. The stepper motor multi-plug locking
device must be depressed to release the plug
(seeillustration).
4Unclip the throttle arm from the throttle lever
and remove the throttle cable bracket.
5Disconnect the fuel hose from the
carburettor and plug it. If a crimped type hose
clip is fitted, cut it off and use a worm drive
clip when refitting.
6Disconnect the vacuum pipe(s) from the
carburettor, noting their connecting points if
there is any possibility of confusion.
7Remove the four carburettor-to-manifold
nuts. Check that nothing has been overlooked,
then lift off the carburettor. Recover the
gasket.
8Clean the carburettor and manifold mating
faces, being careful not to sweep dirt into the
manifold.
9Refit by reversing the removal operations. If
the stepper motor has been disturbed, refer to
Chapter 5, Section 19 for the initial
adjustment.
1Check the cost and availability of spare
parts before deciding to dismantle the
carburettor. If the unit has seen much service,
fitting a new or reconditioned carburettor may
prove more satisfactory than any attempt at
overhaul.
2Obtain a carburettor repair kit, which will
contain the necessary gaskets, diaphragms
and other renewable items.
3With the carburettor removed from the
vehicle, clean it thoroughly externally and
place it on a clean worksurface.
4 Referringto the exploded view of the
carburettor(see illustration),remove each
component part whilst making a note of its
fitted position. Make alignment marks on
linkages etc.
5Reassemble in the reverse order to
dismantling, using new gaskets, O-rings etc.
Be careful not to kink the diaphragms.
17Weber 2V carburettor -
dismantling and reassembly
16Weber 2V carburettor -
removal and refitting
15Weber 2V carburettor - idle
speed and mixture adjustments
14Pierburg 2V carburettor - fast
idle adjustment
13Pierburg 2V carburettor -
dismantling and reassembly
Fuel and exhaust systems 4•9
4
14.4 Fast idle adjustment - Pierburg 2V
Tip of fast idle screw is arrowed
13.6 Choke pull-down adjustment13.7 Throttle damper adjustment - Pierburg
2V carburettor
A Actuating lever
B Damper plungerC Damper locknut
D Feeler blade
16.3 Depress locking clip (arrowed) when
disconnecting stepper motor multi-plug
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16Start the engine and note the engine
speed (rpm). The engine speed should
increase above the normal idle speed, and
should be as given in the Specifications.
17If the engine speed is not as specified,
remove the tamperproof plug from the top of
the throttle kicker housing, and turn the
adjustment screw to give the specified speed.
18On completion of adjustment, fit a new
tamperproof cap.
19Disconnect the tubing from the inlet
manifold, and reconnect the throttle kicker
vacuum hose.
20Refit the plastic shield and the air cleaner.
On 2.4 & 2.9 litre V6 models especially,
residual pressure will remain in the fuel lines
long after the vehicle was last used therefore
the fuel system must be depressurised before
any hose is disconnected; the system is
depressurised via the vent valve on the fuel
rail, noting that it may be necessary to depress
the valve several times before the pressure is
fully released. As an added precaution place a
rag over the valve as it is depressed to catch
any fuel which is forcibly expelled. Before
carrying out any operation on the fuel system
refer 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.
Access to the relays is obtained by
removing the facia top cover (crash pad).
The relays are located on the passenger
side(see illustration). Also see Chapter 13,
Section 16.
See Chapter 1, Section 41.
SOHC and 2.8 litre V6 engines
1Idle speed is controlled by the EEC IV
module and no direct adjustment is possible.
2Idle mixture adjustment should not be
necessary on a routine basis. After component
renewal or a similar circumstance it may be
checked and adjusted as follows.
3The engine must be at operating temperature.
The valve clearances must be correct, the air
cleaner element must be clean and the ignition
system must be in good condition.
4Connect an exhaust gas analyser (CO
meter) and a tachometer (rev. counter) to the
engine as instructed by their makers.
5Run the engine at 3000 rpm for 15 seconds,
then allow it to idle. Repeat the procedure
every 60 seconds until adjustment is
complete.
6With the engine idling after the 3000 rpm
burst, record the CO level when the reading
has stabilised. The desired value is given in the
Specifications.
7If adjustment is necessary, remove the
tamperproof plug from the mixture adjusting
screw on the underside of the vane airflow
meter (see illustration).
8On V6 models, note that adjustment should
first be carried out on the front airflow meter.The rear meter should only be adjusted if the
range of adjustment on the front meter is
insufficient.
9Turn the mixture adjusting screw with a
hexagon key until the CO level is correct (see
illustration).
10Stop the engine and disconnect the test
gear.
11Fit a new tamperproof plug if required.
DOHC engine
Note: Before carrying out any adjustments
ensure that the ignition timing and spark plug
gaps are as specified. To carry out the
adjustments, an accurate tachometer and an
exhaust gas analyser (CO meter) will be
required.
12Idle speed is controlled by the EEC IV
module, and manual adjustment is not possible,
although the “base” idle speed can be adjusted
by a Ford dealer using special equipment.
13On models with a catalytic converter, the
mixture is controlled by the EEC IV module,
and no manual adjustment is possible.
14On models without a catalytic converter,
the idle mixture can be adjusted as follows.
15Run the engine until it is at normal
operating temperature.
16Stop the engine and connect a tachometer
and an exhaust gas analyser in accordance
with the manufacturer’s instructions.
17Start the engine and run it at 3000 rpm
for 15 seconds, ensuring that all electrical
loads (headlamps, heater blower, etc) are
switched off, then allow the engine to idle, and
check the CO content. Note that the reading
will initially rise, then fall and finally stabilise.
18If adjustment is necessary, remove the
cover from the mixture adjustment
potentiometer (located on the right-hand side
of the engine compartment, behind the MAP
sensor), and turn the screw to give the
specified CO content (see illustration).
19If adjustment does not produce a change
in reading, the potentiometer may be at the
extreme of the adjustment range. To centralise
the potentiometer, turn the adjustment screw
20 turns clockwise followed by 10 turns anti-
clockwise, then repeat the adjustment
procedure.
31Fuel-injection system - idle
speed and mixture adjustment
30Fuel filter - renewal
29Fuel-injection system relays -
location
28Fuel-injection system -
depressurisation
4•14Fuel and exhaust systems
31.18 Remove the cover from the mixture
adjustment potentiometer31.9 Idle mixture adjustment - fuel-injection
models
29.2 Fuel injection system relays - 2.4 and
2.9 litre V6 engines
A Power relayB Fuel pump relay
31.7 Tamperproof plug (arrowed) covering
mixture adjusting screw
Airflow meter is inverted for photo
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The ignition system is responsible for
igniting the fuel/air charge in each cylinder at
the correct moment. The components of the
system are the spark plugs, ignition coil,
distributor and connecting leads. Overall
control of the system is one of the functions of
the engine management module. Fuel-
injection models have a subsidiary ignition
module mounted on the distributor.
There are no contact breaker points in the
distributor. A square wave signal is generated
by the distributor electro-magnetically; this
signal is used by the engine management
module as a basis for switching the coil LT
current. Speed-related (centrifugal) advance is
also handled by the module. On carburettor
models, ignition timing is also advanced under
conditions of high inlet manifold vacuum.The engine management models are “black
boxes” which regulate both the fuel and the
ignition systems to obtain the best power,
economy and emission levels. The module
fitted to carburettor models is known as the
ESC II (Electronic Spark Control Mk II) module.
On fuel-injection models the more powerful
EEC IV (Electronic Engine Control Mk IV)
module is used.
Both types of module receive inputs from
sensors monitoring coolant temperature,
distributor rotor position and (on some
models) manifold vacuum. Outputs from the
module control ignition timing, inlet manifold
heating and (except on 1.8 litre models) idle
speed. The EEC IV module also has overall
control of the fuel-injection system, from
which it receives information.
Provision is made for the ignition timing to
be retarded to allow the use of low octane fuel
if necessary. On all except 1.8 litre models
there is also a facility for raising the idle speed.The EEC IV module contains self-test
circuitry which enables a technician with the
appropriate test equipment to diagnose faults
in a very short time. A Limited Operation
Strategy (LOS) means that the car is still
driveable, albeit at reduced power and
efficiency, in the event of a failure in the
module or its sensors.
Due to the complexity and expense of the
test equipment dedicated to the engine
management system, suspected faults should
be investigated by a Ford dealer, or other
competent specialist. This Chapter deals with
component removal and refitting, and with
some simple checks and adjustments.
On DOHC carburettor engines, the basic
operating principles of the ignition system are
as described above. A development of the
ESC II (Electronic Spark Control ll) system is
used to control the operation of the engine.
The ESC II module receives information from a
crankshaft speed/position sensor and an
1General information and
precautions
5•2Engine electrical systems
Ignition coil
Make . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Bosch, Femsa or Polmot
Primary resistance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0.72 to 0.86 ohm
Secondary resistance:
All except DOHC fuel-injection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4.5 to 7.0 k ohms
DOHC fuel-injection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4.5 to 8.6 k ohms
Output voltage (open-circuit):
All except DOHC fuel-injection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25 kV minimum
DOHC fuel-injection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .30 kV minimum
HT leads
Maximum resistance per lead . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .30 k ohms
Distributor
Make . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Bosch or Motorcraft
Rotation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Clockwise (viewed from above)
Automatic advance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Controlled by module
Dwell angle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Controlled by module
Ignition timing (see text)
SOHC and 2.8 litre V6 engines:
Leaded fuel (97 octane):
Carburettor models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10°BTDC
Fuel-injection models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12°BTDC
Unleaded fuel (95 octane):
Carburettor models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6°BTDC
Fuel-injection models:
2.0 litre . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8°BTDC
2.8 litre . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12°BTDC (no change)
2.4 & 2.9 litre V6 engines:
Models with catalytic converter . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15°BTDC
Models without catalytic converter . . . . . . . . . . . . . . . . . . . . . . . . . . .12°BTDC*
* Standard setting for 97 octane leaded fuel.
Torque wrench settingsNmlbf ft
Alternator adjusting strap:
To steering pump bracket (OHC) . . . . . . . . . . . . . . . . . . . . . . . . . . . .21 to 2616 to 19
To front cover (V6) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .41 to 5130 to 38
Spark plugs:
All models except 2.8 litre V6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20 to 2815 to 21
2.8 litre V6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .30 to 4022 to 30
Air charge temperature sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20 to 2515 to 18
Engine coolant temperature sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . .20 to 2515 to 18
Fuel rail temperature sensor (DOHC) . . . . . . . . . . . . . . . . . . . . . . . . . . .8 to 116 to 8
Crankshaft speed/position sensor screw (DOHC) . . . . . . . . . . . . . . . . .3 to 52 to 4
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multi-plug. Disconnect the plug, pulling on the
plug itself, not the wires (see illustration).
6Make alignment marks between the
distributor body and the engine, then remove
the distributor clamp bolt and clamp plate
(see illustration). On V6 models access is
poor, and a crow’s-foot spanner will be
needed. The clamp bolt may be covered insealant to discourage tampering - if so, scrape
it off. Unbolt the support bracket, when fitted.
7Lift out the distributor (see illustration).
Mark the position taken up by the rotor arm
after removal.
8If the distributor is mechanically or
electrically defective, it must be renewed. The
only spares available are the cap, rotor arm,
module (when applicable) and the shaft O-ring
(see illustration).
9Commence refitting by positioning the rotor
arm to the point noted in paragraph 7. This will
be approximately 20°clockwise from the No 1
firing point (paragraph 4)(see illustration).
10Make sure that the engine is stillpositioned at the firing point for No1 cylinder.
11Offer the distributor to the engine,
observing the distributor body-to-engine
alignment marks. As the drivegear meshes,
the distributor shaft will turn anti-clockwise.
The rotor arm should end up in the correct
position for No1 firing - if not, withdraw the
distributor, re-position the shaft and try again.
5•6Engine electrical systems
13.6 Distributor clamp bolt (arrowed)
13.8 Distributor shaft O-ring
13.7 Removing the distributor
13.5 Disconnecting a distributor multi-plug
13.3 Distributor rotor arm positions before removal - No 1 firing point
A Carburettor modelsB OHC fuel-injection modelsC V6 models
13.9 Distributor rotor arm positions ready for refitting
A Carburettor modelsB OHC fuel-injection modelsC V6 models
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6If adjustment is necessary, stop the engine.
Slacken the distributor clamp bolt and turn the
distributor body slightly. To retard the ignition
(move the mark nearer TDC) turn the
distributor body clockwise, and vice versato
advance the ignition. Tighten the clamp bolt
and re-check the timing.
7When adjustment is correct, stop the engine
and disconnect the timing light. Reconnect the
vacuum pipe, when applicable, and reconnect
any “octane adjustment” wires.
DOHC engine
8The ignition timing for this engine is
controlled by the ESC II or EEC IV module and
no adjustment is possible.
SOHC and 2.8 litre V6 engines
1Disconnect the battery negative lead.
2Disconnect the distributor multi-plug.
3On V6 models only, make alignment marks
between the distributor body and the engine.
Slacken the distributor clamp bolt and swivel
the distributor to make the module securing
screws accessible.
4Remove the two screws which secure the
module (see illustration). These screws are
deeply recessed. The screws seen here have
Torx heads; ordinary hexagon heads have also
been encountered, and to undo these a thin
socket or box spanner will be required.
5Pull the module downwards and remove it.
6When refitting, coat the rear face of the
module with heat sink compound to Ford spec
815F-12103-AA. This is extremely expensive,
so it may be worthwhile trying to obtain a
smear from a friendly dealer or auto
electrician.
7Plug the module into the distributor and
secure it with the two screws.8On V6 models, return the distributor to its
original position and nip up the clamp bolt.
9Reconnect the distributor multi-plug.
10Reconnect the battery and run the engine
to check for correct function.
11On V6 models, check the ignition timing
and then finally tighten the distributor clamp
bolt.
DOHC engine
12The ignition module is located in the left-
hand front corner of the engine compartment,
beside the air cleaner housing.
13To remove the module, first disconnect
the battery negative lead.
14To improve access remove the air cleaner
housing.
15Release the locking lug and disconnect
the ignition module wiring plug (see
illustration). Pull on the plug, not on the
wiring.
16Remove the two securing screws, and
remove the module from the engine
compartment.
17Refitting is a reversal of removal, ensuring
that the underside of the module and the
corresponding area of the body panel are
clean.
2.4 & 2.9 litre V6 engines
Note: Removal of the ignition module requires
the distributor to be disturbed.
18The ignition module is mounted onto the
side of the distributor.
19To remove the module first disconnect the
battery negative terminal.
20Carefully disconnect the distributor wiring
connector.
21Make alignment marks between the
distributor mounting and cylinder block then
scrape the sealant from around the distributor
clamp bolt and slacken but do not remove the
bolt.
22Rotate the distributor to gain access to the
ignition module retaining bolts.
23Slacken and remove the two retaining
bolts and carefully slide the module
downwards to disengage it from the
distributor, taking great care not to damage
the module wiring pins.
24Apply a coating of the special Ford heat-
sink compound (Part number 815F-12103-AA,
available from a Ford dealer This is extremely
expensive, so it may be worthwhile trying to
obtain a smear from a friendly dealer or auto
electrician) to the rear of the ignition module
and carefully slide the module into position on
the distributor. Note: Do not force the module
15Ignition module (fuel-injection
models) - removal and refitting
5•8Engine electrical systems
15.4 Two screws (arrowed) which secure
the ignition module15.15 Ignition module (viewed with air
cleaner removed)
14.3c Ignition timing marks - V6
A Timing scaleB Pulley14.3b Ignition timing marks - SOHC
A Cast pulleyB Pressed steel pulley
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1It is necessary to remove the rear wheels in
order to inspect the rear pads. The pads can
be viewed through the top of the caliper after
removing the spring clip. If any one pad is
worn down to the minimum specified, all four
pads (on both rear wheels) must be renewed.
2Free the handbrake cable from its clip on
the suspension lower arm. Release the
handbrake.
3Remove the caliper slide bolt nearest the
front, counter-holding the slide pin with
another spanner (see illustration).
4Disconnect the pad wear warning wires,
when fitted (see illustration).
5Swing the caliper rearwards and remove the
pads (see illustration). Do not press the brake
pedal with the caliper removed.
6Clean the dust and dirt from the caliper,
bracket and disc, using a damp cloth or old
paintbrush which can be thrown away
afterwards. Take care not to disperse the dust
into the air, or to inhale it, since it may contain
asbestos. Scrape any scale or rust from the
disc. Investigate any hydraulic fluid leaks.
7Retract the caliper piston, by turning it
clockwise, to accommodate the extra
thickness of the new pads. There is a Ford tool
(No 12-006) for this purpose, but a pair of
circlip pliers or any similar tool can be used
instead (see illustration).
8Remove any backing paper from the newpads, then fit them to the caliper bracket. Be
careful not to contaminate the friction surfaces
with oil or grease.
9Swing the caliper over the pads. Refit and
tighten the slide bolt.
10Reconnect the wear warning wires, if fitted.
11Repeat the operations on the other rear
caliper.
12Secure the handbrake cable, refit the wheels
and lower the vehicle. Tighten the wheel nuts.
13Switch on the ignition and pump the brake
pedal several times to bring the pads up to the
discs. Switch off the ignition and check the
operation of the handbrake.
14Avoid heavy braking as far as possible for
the first hundred miles or so to allow the new
pads to bed in.
1With the ignition off, pump the brake pedal
at least 20 times (or until it becomes hard) to
depressurise the hydraulic system.
2Slacken the front wheel nuts, raise and
support the vehicle and remove the relevant
front wheel.
3Slacken the flexible hose hydraulic union at
the caliper by no more than a quarter turn.
4Remove the brake pads (Section 7).
5The caliper can now be removed by holding
the flexible hose stationary and rotating the
caliper to unscrew it. Be prepared for hydraulic
fluid spillage: plug or cap the caliper and hose.A brake hose clamp may be used if available
(see illustration). Take great care to keep dirt
out of the hydraulic system.
6The caliper bracket may be unbolted from
the stub axle carrier if wished.
7Refit by reversing the removal operations,
but before refitting the wheel, check the
positioning of the flexible hose. It must not be
kinked, nor foul adjacent components, in any
position of the steering wheel. Release the
other end of the hose from its bracket if
necessary and reposition it.
8Bleed both front brake calipers as described
in Section 2.
1It is possible to carry out these operations
without disconnecting the caliper hydraulic
hose, but this is not recommended because of
the risk of introducing dirt into the hydraulic
system. Scrupulous cleanliness is essential.
2Obtain a caliper repair kit, which will contain
a piston seal and a dust boot. (The piston itself
can also be renewed if necessary.)
3Remove the piston from the caliper. This is
best done with low air pressure (eg from a foot
pump) applied to the hydraulic inlet union.
Place a piece of wood opposite the piston to
prevent damage, and keep your fingers clear
as the piston may be ejected with some force.
4With the piston removed, pull off the dust
boot (see illustration).
10Front caliper - overhaul
9Front caliper - removal and
refitting
8Rear brake pads - inspection
and renewal
Braking system 10•5
10
8.3 Undoing a rear caliper front slide bolt8.4 Pad wear warning multi-plug (arrowed)
on rear caliper8.5 Removing a rear brake pad
8.7 Rotating the caliper piston to retract it9.5 Removing a front caliper - note clamp
on brake hose10.4 Removing the dust boot from a front
caliper
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5Extract the piston seal from the groove in
the bore, using a blunt instrument (see
illustration). Discard the seal and dust boot.
6Clean the piston and bore with methylated
spirit and inspect them for scuffs, scores or
other damage. If the piston is corroded it must
be renewed. Slight imperfections in the bore
can be polished out with wire wool.
7Place the clean component on a clean
surface ready for reassembly. Lubricate the
caliper hose with clean hydraulic fluid.
8Fit the new piston seal to the groove in the
bore, using fingers only to work it into position.
9Lubricate the piston with clean hydraulic
fluid and fit the dust boot over the piston,
making sure it is the right way up. Insert the
piston into the bore and press it home,
engaging the dust boot lip with the groove on
the caliper (see illustration).
10This completes the overhaul of the hydraulic
components. Items such as slide bolts and
bracket can also be renewed if necessary.
11Remove the bleed screw while the caliper
is on the bench and apply a little anti-seize
compound to its threads, to avoid trouble in
undoing it later.
1With the ignition off, pump the brake pedal
at least 20 times (or until it becomes hard) to
depressurise the system.
2Chock the front wheels and release the
handbrake. Slacken the rear wheel nuts, raiseand support the vehicle and remove the
relevant wheel.
3Disconnect the pad wear warning wires,
when fitted.
4Disconnect the flexible hose from the brake
pipe. Plug or cap the open unions to reduce
spillage and to keep dirt out. Unscrew the
flexible hose from the caliper and remove it.
5Remove the two slide bolts. Lift the caliper
off the pads and bracket, at the same time
unhooking the handbrake cable (see
illustrations). Alternatively, the two bracket-
to-hub bolts can be removed and the caliper
and bracket separated on the bench.
6Refit by reversing the removal operations,
but before refitting the wheel, bleed both rear
calipers as described in Section 2.
7When bleeding is complete, pump the brake
pedal several times to bring the pads up to the
disc, then check the operation of the
handbrake.
Note: Complete dismantling of the rear caliper
should not be attempted unless Ford spring
compressor (tool No 12-007) is available. or
unless the problems likely to arise in the absence
of the tool are understood. Renewal of the piston
seal and dust boot requires no special tools.
1Clean the caliper externally and mount it in a
soft-jawed vice.
2Rotate the piston anti-clockwise until it isprotruding from the bore by about 20 mm (0.8 in).
Free the dust boot from the groove in the
piston, then carry on unscrewing the piston
and remove it. Remove and discard the dust
boot.
3The piston and bore may now be cleaned
and examined, and the piston seal and dust
boot renewed, as described for the front
caliper (Section 10).
4The piston adjuster nut seal should also be
renewed. Remove the circlip from the piston,
then extract the thrustwashers, wave washer
and thrust bearing. Note the fitted sequence of
these components. Finally remove the nut
(see illustrations).
5Remove the seal from the nut, noting which
way round it is fitted. Clean the nut with
methylated spirit. Lubricate the new seal with
clean hydraulic fluid and fit it to the nut.
12Rear caliper - overhaul
11Rear caliper - removal and
refitting
10•6Braking system
10.5 Removing the piston seal
12.4a Removing the circlip from a rear
caliper piston . . .12.4b . . . followed by a thrustwasher . . .
11.5b . . . and remove the rear caliper
10.9 Pressing the piston into the bore11.5a Unhook the handbrake cable . . .
12.4c . . . a wave washer and (not shown)
another thrustwasher . . .
procarmanuals.com

reference to horn switch plate retaining
screws. Note that the wheel is retained by a
bolt, not a nut as on earlier models. To gain
access to the bolt, prise out the horn button
and disconnect the wiring connectors.
1This operation is for correcting small errors
in steering wheel centralisation - up to 60°. For
larger errors, remove the steering wheel and
make a rough correction by repositioning the
wheel on refitting.
2Drive the vehicle in a straight line on a level
surface. Note the angle by which the steering
wheel deviates from the desired straight-
ahead position.
3Raise the front of the vehicle by driving it
onto ramps, or with a jack and axle stands
(see “Jacking”).
4Slacken both track rod end locknuts. Also
slacken the steering rack bellows outer clips.
5Make alignment marks between each track
rod end and its rod, so that the amount of
rotation applied can be accurately determined.
6Turn both track rodsin the same direction
to correct the steering wheel position. As a
rough guide, 19°of track rod rotation will
change the steering wheel position by 1°. To
correct error at the steering wheel, rotate both
track rods anti-clockwise (viewed from the
left-hand side of the vehicle), and the reverse
to correct as anti-clockwise errors. Both track
rods must be rotated by the same amount.
7Tighten the bellows clips and the track rod
end locknuts when adjustment is correct.
Lower the vehicle.
1Disconnect the battery negative lead.
2Position the steering in the straight-ahead
position.
3Remove the steering wheel. This is not
essential, but will improve access.
4Working under the bonnet, disconnect the
intermediate shaft universal joint from the
steering column shaft.5Remove the steering column shrouds and
disconnect the switch multi-plugs. Do not
forget the ignition/starter switch.
6Disconnect the bonnet release cable from the
operating lever on the underside of the column.
7Prise out the driver’s side air vent. Remove
the under-dash insulation and trim panel on
the driver’s side, unclipping the bulb failure
module, where applicable.
8Remove the three nuts which secure the
column height adjuster to the mounting bracket
(see illustration). Remove the column assembly
by drawing it into the vehicle. Do not drop it or
otherwise mistreat it if it is to be re-used.9When refitting, have an assistant guide the
column shaft into the intermediate shaft
universal joint. Secure the column with the
three nuts inside the vehicle and adjust it to
the minimum length position, then tighten the
coupling pinch-bolt.
10Complete refitting by reversing the
removal operations.
1Remove the steering column (see
illustration).
2Insert the key into the lock and turn it to
position 1. (If the lock has failed so that the key
will not enter, destructive methods will have to
be used.)
8Steering column lock - removal
and refitting
7Steering column - removal and
refitting
6Steering wheel - centralising
Steering and suspension 11•5
11
7.8 Two of the three nuts (arrowed) which
secure the column height adjuster
8.1 View of steering wheel and column
A Steering wheel
B Mounting bracket and
spring
C Thrust washer and spring
D Lower bearingE Height adjuster
F Column shaft and spire
washer
G Multi-function switchH Ignition/steering lock
I Horn brush unit
J Upper bearing
K Multi-function switch
Make alignment marks
between the two shafts for
reference when reassembling.
procarmanuals.com

times, then use a proprietary balljoint
separator to break the taper (see illustration).
5Use a stout piece of wood to lever the lower
arm downwards and free the balljoint from the
stub axle carrier.
6Remove the ABS wheel sensor from its
hole.
7Remove the spring clip from one of the
wheel studs and pull the brake disc off the
hub.
8Remove the stub axle carrier pinch-bolt.
Spread the stub axle carrier by carefully
introducing a chisel or blunt instrument into its
slot. Draw the stub axle carrier off the
suspension strut and remove it.
9Refit by reversing the removal operations,
noting the following points:
a)Tighten all fastenings to the specified
torque
b)Use new split pins, when applicable
c)Renew the wheel sensor O-ring if
necessary; clean the sensor and its bore,
and smear them with wheel bearing
grease
Models before August 1989
1Remove the stub axle carrier as described
in the previous Section.
2Screw the wheel nuts onto the studs to
protect the threads. Clamp the stub axle
carrier in a vice by means of the studs and
nuts; do not overtighten.
3Remove the dust cap from the hub nut,
carefully levering it free (see illustration). A
new cap and a new hub nut will be required for
reassembly.
4Undo the hub nut. This nut is very tight. The
right-hand hub nut has a left-handthread,
therefore it is undone in a clockwisedirection.
5Remove the ABS rotor from below the hub
nut.
6Lift the carrier off the stub axle, tapping it
with a mallet if necessary to free it. Remove
the bearing inner race from the carrier.
7Prise the oil seal out of the carrier and
recover the bearing outer race.8Drive the bearing tracks out of the stub axle
carrier using a blunt drift and a hammer. Be
careful not to mark the bearing seats.
9Clean all old grease and debris from the
stub axle carrier.
10New bearing components are matched in
production and must only be fitted as a set.
Only the manufacturer’s approved
components should be used in order to obtain
the required long service life and freedom from
adjustment.
11Drive the new bearing tracks into the
carrier, preferably using a suitable diameter
tube to seat them. Make sure the tracks are
fully seated.
12Work some clean grease into the bearing
races. Use high melting-point lithium-based
grease (to Ford spec. SAMIC-9111A or
equivalent). Make sure all the spaces between
the rollers are filled; do not pack grease into
the space between the inner and outer
bearings however.
13Fit the bearing outer race. Grease the lips
of a new oil seal and fit it to the stub axle
carrier, lips facing inwards. Seat the seal with
a pipe or large socket and a mallet.
14Offer the carrier to the stub axle, tapping it
home if necessary. Fit the bearing inner race
over the stub axle.
15Refit the ABS rotor, dished face
uppermost.
16Fit a new hub nut (left-hand thread on the
right-hand hub) and tighten it to the specified
torque.17Fit a new dust cap and seat it by tapping
round the rim (see illustration).
18Refit the stub axle carrier.
Models from August 1989
19Modified front wheel bearing assemblies
were fitted to all models after 1989. The
modified bearings are of similar design, but
are interference fit type bearings. This was to
reduce the amount of endfloat present at the
wheel hub and to improve bearing preload
tolerances. This was achieved by increasing
the diameter of the stub axle, thus causing the
axle to be an interference fit in the bearing.
Note that the modified bearings can be fitted
to earlier models which were originally
equipped with non-interference fit front wheel
bearings. Note: Due to the design of the
interference fit bearings, a suitable heavy duty
bearing puller and a hydraulic press and
several suitable mandrels will be required to
remove the originalbearing and install the new
one.
20Interference fit front wheel bearings can be
removed and refitted as described above,
noting the following points.
a)It will be necessary to press or draw the
stub axle out of the carrier using a
hydraulic press or a suitable bearing
puller.
b)Draw the outer bearing off the stub axle
using a suitable bearing puller.
c)Press new bearing tracks into the hub
carrier using a suitable tubular spacer
which bears only on the tracks outer edge.
d)Pack the new outer bearing with Ford
grease (SAM-1C9111-A) and press the
bearing into the carrier.
e)Press a new seal into position in the
carrier and pack all cavities with the
specified grease.
f)Position the hub carrier over the stub axle
and press the carrier onto the axle using a
suitable tubular spacer which bears only
on the bearing track outer edge.
g)Pack the new inner bearing with the
specified grease then press the bearing
onto the stub axle, using a suitable tubular
spacer, whilst rotating the hub carrier to
ensure that the bearing is correctly seated.
h)Whilst tightening the hub nut to the
specified torque, rotate the hub carrier to
ensure that the bearing preload is correct
and bearings are correctly seated. Once
the nut is tightened to the specified
torque, rotate the hub carrier 20 times to
settle the bearings in position then
recheck that the hub nut is tightened to
the specified torque. Pack the inner
bearing with the specified grease and fit a
new dust cap.
17Front wheel bearings -
renewal
11•8Steering and suspension
16.4 Slackening the front suspension lower
arm balljoint nut
17.17 Seating the new dust cap17.3 Removing the dust cap from the stub
axle carrier to expose the hub nut
procarmanuals.com

15Bleed the brake hydraulic system and
adjust the handbrake on completion.
Models from 1987
16From 1987, the tab washer which secures
the guide plate centre bolt on each side has
been deleted. A self-locking bolt and plain
washer are used instead.
17The new bolt and washer should be fitted
to earlier models if the old bolt has been
removed for any reason. The tab washer
should be discarded.
18The tightening torque for the new bolt
remains the same as that given for the original.
1Remove the wheel trim. Apply the
handbrake and chock the front wheels.
2Slacken the driveshaft stub axle. This nut is
very tight. The left-hand nut has aleft-hand
thread, therefore it is undone clockwise.
3Remove the brake disc.
4Remove the driveshaft stub axle.
5Remove the four bolts which secure the
hub. Pull the hub off the driveshaft stub,
leaving the disc splash shield loose.
6Refit by reversing the removal operations.
Carry out the final tightening of the driveshaft
stub nut with the wheels on the ground.
1Remove the rear hub as described in the
previous Section (see illustration).
2Prise out both oil seals from the hub.
Recover the bearing races.
3Drive the bearing tracks out of the hub with
a hammer and a blunt drift.4Clean grease and debris from the hub and
clean up any burrs or nicks.
5Fit the new bearing tracks, pressing them in
squarely with the help of a piece of pipe or
tube.
6Thoroughly grease the bearing races and
pack the lips of the oil seals with grease.
7Fit the races and the oil seals, lips inwards.
Seat the oil seals with a mallet and the pipe or
tube.
8Refit the rear hub.
1This procedure is only specified by the
manufacturers as applying to the rear wheels,
but there is no reason to believe that it will not
work on the front.
2Remove the rear wheel, brake caliper and
brake disc.
3Drive the wheel stud out of the hub flange. 4Insert the new stud from the inboard side of
the flange. Engage the splines by hand
pressure, then draw the stud into place with a
wheel nut and progressively thicker spacers
(see illustration).
5Refit the brake disc, caliper and wheel.
1Raise and support the rear of the vehicle.
2Unbolt the driveshaft outboard flange from
the stub. It is secured by six Torx screws.
3Disconnect the anti-roll bar from the link rod
by prising it free. On models with ride height
control, also disconnect the height sensor
from the anti-roll bar link rod.
4Free the brake pipe and flexible hose from
the brackets next to the spring. If it is the left-
hand spring which is being removed, also
unbolt the brake pipe T-piece from the floor.
5Raise a jack under the rear suspension
lower arm to load the spring.
6Unbolt the shock absorber from the lower
arm.
27Rear spring - removal and
refitting
26Wheel stud - renewal
25Rear wheel bearings -
renewal
24Rear hub - removal and
refitting
Steering and suspension 11•11
11
25.1 Rear hub components
A Outer oil seal
B Outer bearing
C HubD Inner bearing
E Inner oil seal26.4 Fitting a new wheel stud using a nut
and spacer
23.10b Rear suspension components
1 Lower arm outer bush
2 Lower arm
3 Lower arm inner bush
4 Final drive rear mounting
5 Buffer
6 Spring seat
7 Crossmember
8 Insulator
9 Guide plate
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