radiator FORD GRANADA 1985 Service Repair Manual

1•3
1
Maintenance Schedule
Engine oil
SOHC:
With filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3.75 litres (6.6 pints)
DOHC:
With filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4.5 litres (7.9 pints)
Without filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4.0 litres (7.0 pints)
V6:
With filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4.25 litres (7.5 pints)
Cooling system
OHC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8.0 litres (14.1 pints)
V6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8.5 litres (15.0 pints)
Fuel tank
All models . . . . . . . . . . . . . . . . . . . . . . . . . . . . .70 litres (15.4 gallons)
Manual gearbox
All models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1.25 litres (2.2 pints)
Automatic transmission
All models (from dry) . . . . . . . . . . . . . . . . . . . . . . .8.5 litres (15.0 pints)
Final drive
7 inch crownwheel . . . . . . . . . . . . . . . . . . . . . . . . . .0.9 litres (1.6 pints)
7.5 inch crownwheel . . . . . . . . . . . . . . . . . . . . . . . . .1.3 litres (2.3 pints)
Power steering
OHC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0.65 litres (1.1 pints)
V6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0.75 litres (1.3 pints)
Capacities
1 Battery
2 Engine oil dipstick
3 Inlet manifold
4 Throttle/kickdown cable
bracket
5 Suspension turrets
6 Ignition coil
7 Air cleaner cover
8 Fuel pressure regulator
9 Vane airflow meter
10 Headlight covers
11 Tune-up label
12 Idle speed control valve
13 Oil filler cap
14 Spark plug leads
15 VIN plate
16 Radiator hoses
17 Horn
18 Windscreen washer
pump19 Windscreen washer
reservoir
20 Alternator
21 Coolant expansion tank
cap
22 Engine mounting
23 Heater hose
24 Automatic transmission
fluid dipstick
25 Brake fluid reservoir
cap
26 Brake hydraulic unit
accumulator
27 Brake hydraulic unit
valve block
28 Main fuse/relay box
29 Wiper motor (behind
cover)
30 Heater blower cover
1 Windscreen wiper motor
2 Battery
3 Suspension strut top
mounting
4 Brake fluid reservoir
5 Ignition distributor
6 Coolant expansion tank
7 Washer fluid reservoir
8 Automatic transmission
fluid dipstick
9 Oil filler cap
10 Engine oil level dipstick
11 Air cleaner element
housing
12 Idle speed control valve
13 Ignition module
14 Manifold Absolute
Pressure (MAP) sensor15 Throttle position sensor
16 Power steering fluid
reservoir
17 Anti-theft alarm horn
18 Speed control system
diaphragm
19 Speed control system
vacuum pump
20 Vehicle identification
(VIN) plate
21 Fuel pressure regulator
22 Air charge temperature
sensor
23 Manifold absolute
pressure (MAP) sensor
vapour trap
24 Fuse/relay boxUnder-bonnet view of a 2.0 litre SOHC Granada with
fuel-injection
Under-bonnet view of a 2.0 litre DOHC Granada with
fuel-injection
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1•4Maintenance Schedule
1 Battery
2 Suspension turrets
3 Air cleaner cover
4 Vane airflow meters
5 Headlight covers
6 Tune-up label
7 Auxiliary driving light covers
8 Crankcase ventilation hoses
9 Throttle linkage cover
10 Throttle cable and kickdown switch
11 Plenum chamber
12 Idle speed control valve
13 Radiator top hose
14 Oil filler cap
15 Power steering fluid reservoir
16 Horn
17 Washer fluid level switch
18 Windscreen washer pump
19 Windscreen washer reservoir
20 Coolant level switch
21 Coolant expansion tank cap
22 Engine mounting
23 Heater hose
24 Brake hydraulic unit valve block
25 Brake fluid reservoir cap
26 Brake hydraulic unit accumulator
27 Main fuse/relay box
28 Wiper motor (behind cover)
29 Heater blower cover
30 Fuel pressure regulator
31 Distributor screening lid
32 Engine oil dipstick
33 Automatic transmission fluid dipstick Under-bonnet view of a 2.8 litre V6 Granada
1 Brake and fuel pipes
2 Transmission sump
3 Transmission crossmember
4 Speedometer sender unit
5 Propeller shaft coupling
6 Exhaust flanged joint
7 Exhaust mounting
8 Exhaust pipe
9 Jacking points
10 Anti-roll bar clamps
11 Anti-roll bar
12 Brake calipers
13 Brake flexible hoses
14 Suspension lower arms
15 Front crossmember
16 Track rods
17 Track rod ends
18 Steering rack bellows
19 Radiator bottom hose
20 Alternator
21 Transmission fluid cooler hoses
22 Crankshaft pulley
23 Fan
24 Oil filter
25 Sump drain plug
26 Starter motor
27 Starter motor solenoid Front underbody view of a 2.0 litre SOHC Granada with automatic transmission
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1•5
1
Maintenance Schedule
1 Track rod end
2 Track rod
3 Steering gear gaiter
4 Water pump
5 Starter motor
6 Front suspension lower arm
7 Front suspension anti-roll bar
8 Exhaust downpipe
9 Exhaust gas oxygen (HEGO) sensor -
models with catalytic converter
10 Front suspension crossmember
11 Sump drain plug
12 Power steering pump
13 Washer fluid reservoir
14 Radiator cooling fans
15 Catalytic converter (where fitted)
16 Catalytic converter heatshield (where
fitted)
17 Transmission crossmember
18 Fuel feed and return pipes
19 Rear brake pipes
20 Steering gear feed and return hosesFront underbody view of a 2.0 litre DOHC Granada with automatic transmission
1 Rear silencer
2 Fuel pump (fuel-injection)
3 Fuel filter (fuel-injection)
4 Fuel tank
5 Fuel tank straps
6 Anti-roll bar clamps
7 Final drive rear mounting
8 Anti-roll bar
9 Driveshafts
10 Driveshaft joints
11 Final drive unit
12 Handbrake cables
13 Suspension lower arms
14 Crossmember
15 Exhaust hanger
16 Guide plates
17 Propeller shaft
18 Propeller shaft universal joint
19 Brake and fuel pipes
20 Shock absorber lower mountings
21 Jacking points
22 Intermediate silencer
23 Exhaust pipe
Rear underbody view of a 2.0 litre SOHC Granada with fuel-injection
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to release any pressure. When pressure has
been released, carry on unscrewing the cap
and remove it.
9Top-up to the MAX mark with the specified
coolant (see illustration).In an emergency
plain water is better than nothing, but
remember that it is diluting the proper coolant.
Do not add cold water to an overheated
engine whilst it is still hot.
10Refit the expansion tank cap securely
when the level is correct. With a sealed type
cooling system like this, the addition of
coolant should only be necessary at very
infrequent intervals. If frequent topping-up is
required, it is likely there is a leak in the
system. Check the radiator, all hoses and joint
faces for any sign of staining or actual
wetness, and rectify as necessary. If no leaks
can be found, it is advisable to have the
pressure cap and the entire system pressure-
tested by a dealer or suitably-equipped
garage, as this will often show up a small leak
not previously apparent.
Brake fluid
Be sure to use only the specified brake
hydraulic fluid, since mixing different types of
fluid can cause damage to the system. See
“Lubricants, fluids and capacities”at the
beginning of this Chapter. 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.
11Check the brake fluid level as follows.
12With the vehicle parked on level ground
and the ignition switched off, pump the brake
pedal at least 20 times or until the pedal feels
hard.
13Open the bonnet. Switch on the ignition:
the hydraulic unit pump will be heard running.
Wait until the pump stops, then switch off the
ignition.
14The fluid level in the reservoir should now
be between the MAX and MIN marks. If
topping-up is necessary, unplug the electrical
connectors from the cap, then unscrew and
remove it (see illustration).Catch the
hydraulic fluid which will drip off the level
sensor with a piece of rag.
15Top-up with fresh brake fluid of the
specified type (see illustration).Do not
overfill. Refit and reconnect the reservoir cap
immediately.16The fluid level in the reservoir will drop
slightly as the brake pads wear down during
normal operation. If the reservoir requires
repeated replenishment to maintain the proper
level, this is an indication of a hydraulic leak
somewhere in the system, which should be
investigated immediately.
Washer fluid
17When topping-up the windscreen or rear
screen washer fluid reservoir, a screenwash
additive should be added in the quantities
recommended on the bottle.
1On later models tyres may have tread wear
safety bands, which will appear when the
tread depth reaches approximately 1.6 mm.
Otherwise, tread wear can be monitored with a
simple, inexpensive device known as a tread
depth indicator gauge (see illustration).
2Wheels and tyres should give no real
problems in use, provided that a close eye is
kept on them with regard to excessive wear or
damage. To this end, the following points
should be noted.
3Ensure that the tyre pressures are checked
regularly and maintained correctly (see
illustration). Checking should be carried out
with the tyres cold, not immediately after the
vehicle has been in use. If the pressures are
checked with the tyres hot, an apparently-high
reading will be obtained, owing to heat
expansion. Under no circumstancesshould
an attempt be made to reduce the pressures
to the quoted cold reading in this instance, or
effective under-inflation will result.
4Note 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.
5Under-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 excessive wear, not to
mention the danger of sudden tyre failure due
to heat build-up.
4Tyre checks
1•7
1
Weekly checks
3.14 Removing the brake fluid reservoir cap3.15 Topping up the brake fluid reservoir
4.1 Checking the tyre tread depth4.3 Checking tyre pressure
3.9 Topping up the cooling system
Warning: Brake hydraulic fluid
can harm your eyes and damage
painted surfaces, so use extreme
caution when handling and
pouring it. Do not use fluid that has been
standing open for some time, as it absorbs
moisture from the air. Excess moisture can
cause a dangerous loss of braking
effectiveness.If any brake fluid gets onto
paintwork, wash it off
immediately with clean water.
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14Refit the other disturbed components.
15Run the engine and check that there are
no oil leaks from the rocker cover.
2.8 litre engine
16If the engine is in the vehicle, carry out the
preliminary steps:
a)Disconnect the battery negative lead
b)Remove the throttle mechanism cover, air
cleaner cover, airflow meters and inlet
trunking
c)Remove the HT leads from the spark plugs
and unclip them from the rocker cover
d)Unbolt and remove the rocker covers
17Although not essential, it will be easier to
turn the engine if the spark plugs are removed.
18Valve clearances must be adjusted with
the engine cold (less than 40°C/104°F).
19Turn the engine, using a spanner on the
crankshaft pulley bolt, until the crankshaft
pulley timing mark is aligned with the TDC
(zero) pointer on the timing cover and the
valves of No 5 cylinder are overlapping, ie the
exhaust valve is closing and the inlet valve is
opening. (No 5 cylinder is the middle one on
the left-hand bank - left being the vehicle’s
left, not necessarily to operator’s.) (see
illustration).
20When the valves of No 5 cylinder are in
this position, check the valve clearances of
No1 cylinder by inserting a feeler blade of the
specified thickness between the rocker arm
and the valve stem. Adjust the clearance, if
necessary, by turning the rocker arm adjustingscrew until the specified clearance is obtained
(see illustration).Inlet and exhaust valve are
different.
21If the engine is now rotated one-third of a
turn clockwise at the crankshaft, the valves of
No 3 cylinder will be overlapping and the
valves of No4 cylinder can be checked and
adjusted.
22Proceed to adjust the clearances
according to the firing order as follows. The
cylinders are numbered (see illustration)and
the valves are listed in their correct order,
working from the front of the engine:
Valves overlappingValves to adjust
No 5 cylinderNo 1 cylinder (in, ex)
No 3 cylinderNo 4 cylinder (in, ex)
No 6 cylinderNo 2 cylinder (in, ex)
No 1 cylinderNo 5 cylinder (ex, in)
No 4 cylinderNo 3 cylinder (ex, in)
No 2 cylinderNo 6 cylinder (ex, in)
23Refit the rocker covers, using new gaskets
if necessary. Tighten the rocker cover bolts to
the specified torque.
24If the engine is in the vehicle, refit the other
displaced components.
2.4 & 2.9 litre engines
25The operation for these engines is
essentially as described for the 2.8 litre
engine, noting that the valve arrangement is
changed (see illustrations).
Using a spanner of the appropriate size,
check each manifold securing nut in turn
whilst referring to the appropriate Sections in
Chapter 2C for tightening sequences and
torque loading figures.
Remove the radiator grille and clean any
leaves, insects etc. from the condenser coil
and fins. Be very careful not to damage the
condenser fins: use a soft brush, or a
compressed air jet, along (not across) the fins
(see illustration).
25Air conditioner condenser
check
24Engine inlet manifold security
check - V6 only
1•14Every 12 000 miles or 12 months
23.19 Inlet and exhaust valve location -
2.8 litre V6 engine
23.20 Adjusting a valve clearance -
V6 engine
23.11 Cutaway socket spanner
23.25a Valve arrangement for RH cylinder
head - 2.4 & 2.9 litre engines
Upper arrow points to front of engine23.25b Valve arrangement for LH cylinder
head - 2.4 & 2.9 litre engines
Upper arrow points to front of engine
23.22 Cylinder numbering and HT lead
connections - V6 engine
White arrow points to front of engine
25.1 Cleaning the air conditioner
condenser fins
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1Remove the radiator grille being careful not
to damage the condenser fins.
2Check the refrigerant charge as follows. The
engine should be cold and the ambient
temperature should be between 18°and 25°C
(64°and 77°F).
3Start the engine and allow it to idle. Observe
the refrigerant sight glass(see illustration)
and have an assistant switch on the air
conditioning to fan speed III. A few bubbles
should be seen in the sight glass as the
system starts up, but all bubbles should
disappear within 10 seconds. Persistent
bubbles, or no bubbles at all, mean that the
refrigerant charge is low. Switch off the
system immediately if the charge is low and do
not use it again until it has been recharged.
4Inspect the refrigerant pipes, hoses and
unions for security and good condition. Refit
the radiator grille.
5The air conditioning system will lose a
proportion of its charge through normal
seepage typically up to 100 g (4 oz) per year -
so it is as well to regard periodic recharging as
a maintenance operation.
1Check the final drive oil level as follows.
2Position the vehicle over a pit, or raise it at
front and rear on ramps or axle stands (see
“Jacking”). The vehicle must be level.
3Wipe clean around the final drive filler/level
plug (see illustration).Unscrew the plug with
a hexagon key. Using a piece of bent wire as
a dipstick, check that the oil is no more than
10 mm (0.4 in) below the plug hole.
4If topping-up is necessary, use clean gear
oil of the specified type. Do not overfill.
Frequent need for topping-up can only be due
to leaks, which should be rectified.
5When the level is correct, refit the filler/level
plug and tighten it.
6There is no requirement for periodic oil
changing, and no drain plug is provided. Lubricate the transmission selector and
kickdown linkages with engine oil or aerosol
lubricant.
1Examine all steering and suspension
components for wear and damage. Pay
particular attention to dust covers and gaiters,
which if renewed promptly when damaged can
save further damage to the component
protected.
2At the same intervals, check the front
suspension lower arm balljoints for wear by
levering up the arms(see illustration).
Balljoint free movement must not exceed
0.5 mm (0.02 in). The track rod end balljoints
can be checked in a similar manner, or by
observing them whilst an assistant rocks the
steering wheel back and forth. If the lower arm
balljoint is worn, the complete lower arm must
be renewed.
3Check the shock absorbers by bouncing the
vehicle up and down at each corner in turn.
When released, it should come to rest within
one complete oscillation. Continued
movement, or squeaking and groaning noises
from the shock absorber suggests that
renewal is required.Position the vehicle over a pit, or raise it at
front and rear on ramps or axle stands.
Examine the driveshaft joint rubber gaiters.
Flex the gaiters by hand and inspect the folds
and clips. Damaged or leaking gaiters must be
renewed without delay to avoid damage
occurring to the joint itself
Check the tightness of the final drive
mounting bolts and the driveshaft flange
screws.
1Except on vehicles with a wax-based
underbody protective coating, 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.
2Steam-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 brush-applied;
the dirt can then be simply hosed off.
3After cleaning, position the vehicle over a
pit, or raise it at front and rear on ramps or axle
stands.
4Using a strong light, work around the
underside of the vehicle, inspecting it for
corrosion or damage. If either is found, refer to
Chapter 12 for details of repair.
Periodically inspect the rigid brake pipes for
rust and other damage, and the flexible hoses
for cracks, splits or “ballooning”. Have an
assistant depress the brake pedal (ignition on)
and inspect the hose and pipe unions for
leaks. Renew any defective item without delay.
On 2.0 litre engines, good electrical contact
between the carburettor stepper motor
plunger and the adjusting screw is essential to
maintain a regular idle speed.
Clean the plunger and adjusting screw
contact faces with abrasive paper followed by
switch cleaning fluid. Switch cleaning fluid is
available from electronic component shops.
33Idle speed linkage clean
32Brake pipe and hose check
31Underbody inspection
30Driveshaft check
29Steering and suspension
security check
28Automatic transmission
selector linkage lubrication
27Final drive oil level check
26Air conditioner refrigerant
charge check
1•15
1
Every 12 000 miles or 12 months
27.3 Final drive oil filler/level plug (arrowed)
29.2 Checking a front suspension lower
arm balljoint
26.3 Refrigerant sight glass (arrowed)
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12Place a piece of wood in the caliper jaws
to limit piston travel. Keep your fingers clear of
the piston. Have the assistant depress the
brake pedal gentlyin order to move the
caliper piston out.
13With the pedal held depressed, slacken
the bleed screw on the right-hand caliper and
again depress the piston. Tighten the bleed
screw when the piston is retracted. The pedal
can now be released.
14Disconnect the bleed tube. Refit the right-hand brake pad and caliper.
15Remove the left-hand caliper and inboard
pad again. Carry out the operations described
in paragraphs 10 to 14 on the left-hand
caliper.
16Bleed the rear brakes as described in
Chapter 10.
17Refit the front wheels, lower the vehicle
and tighten the wheel nuts.
18Pump the brake pedal to bring the pads
up to the discs, then make a final check of thehydraulic fluid level. Top-up and refit the
reservoir cap.
Camshaft drivebelt renewal is
recommended as a precautionary measure.
Refer to Chapter 2, Part A, Sections 13 and 45
for the full renewal procedure.
45Camshaft drivebelt renewal -
SOHC engines
1Before proceeding, note the precautions
given in Chapter 3, Section 1.
2Disconnect the battery negative lead.
3Remove the expansion tank cap. Take
precautions against scalding if the system is
hot.
4Place a drain pan of adequate capacity
beneath the radiator drain plug. Unscrew the
plug, without removing it, and allow the
coolant to drain (see illustration). On OHC
engines, release the hose clip and remove the
rubber cap from the bleed spigot on top of the
thermostat housing (see illustration). On V6
engines, remove the bleed screw (if fitted)
from the radiator top hose.
5Place another drain pan below the cylinder
block drain plug, which is located on the right-
hand side of the engine (except DOHC engine
which has no plug). Remove the drain plug
and allow the coolant to drain from the block.
6Dispose of the old coolant safely, or keep it
in a covered container if it is to be re-used.7Flushing should not be necessary unless
periodic renewal of the coolant has been
neglected, or unless plain water has been
used as coolant. In either case the coolant will
appear rusty and dark in colour. Flushing is
then required and should be carried out as
follows.
8Drain the system and disconnect the top
hose from the radiator. Insert a garden hose
into the radiator and run water into the radiator
until it flows clear from the drain plug.
9Run the hose into the expansion tank (OHC
engines) or into the radiator top hose (V6
engines) until clean water comes out of the
cylinder block drain plug. On DOHC engines
there is no drain plug in the cylinder block, so
the engine should be flushed until water runs
clear from the radiator bottom hose.
10If, after a reasonable period the water still
does not run clear, the radiator can be flushed
with a good proprietary cleaning agent.
11Flush the heater matrix by disconnecting
one of the heater hoses and running the hose
into that.
12In severe cases of contamination the
radiator should be removed, inverted andflushed in the reverse direction to normal flow,
ie with the water going in at the bottom and
out at the top. Shake the radiator gently while
doing this to dislodge any deposits.
13Refit any hoses which were disturbed,
making sure that they and their clips are in
good condition. Refit the cylinder block drain
plug and tighten the radiator drain plug.
14On OHC engines, make sure that the
bleed spigot cap is still removed (not DOHC).
On V6 engines, check, if applicable, that the
bleed screw is still removed.
15Pour coolant in through the expansion
tank filler hole until the level is up to the MAX
line.
16Refit the bleed spigot cap or screw when
coolant starts to emerge from the spigot.
Tighten the clip.
17Squeeze the radiator hoses to help
disperse airlocks. Top-up the coolant further if
necessary, then refit and tighten the expansion
tank cap.
18Run the engine up to operating
temperature, checking for coolant leaks. Stop
the engine and allow it to cool, then top-up the
coolant again to the MAX mark if necessary.
46Engine coolant renewal
1•20Every 2 years
46.4b Releasing the bleed spigot cap -
OHC engine46.4a Radiator drain plug (arrowed) -
OHC engine
Every 2 years (regardless of mileage)
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The cylinder head is of crossflow design
with the inlet manifold mounted on the left-
hand side and the exhaust manifold mounted
on the right-hand side.
Lubrication is by means of a bi-rotor pump
which draws oil through a strainer located
inside the sump, and forces it through a full-
flow filter into the engine oil galleries where it
is distributed to the crankshaft, camshaft and
auxiliary shaft. The big-end bearings are
supplied with oil via internal drillings in the
crankshaft.The undersides of the pistons are
supplied with oil from drillings in the big-ends.
The distributor shaft is intermittently supplied
with oil from the drilled auxiliary shaft. The
camshaft and cam followers are supplied with
oil via a drilled spray tube from the centre
camshaft bearing.
A semi-closed crankcase ventilation system
is employed whereby piston blow-by gases
are drawn into the inlet manifold via an oil
separator and on carburettor models a control
valve.
The following operations can be carried out
without removing the engine, although the
work may be easier and quicker with the
engine removed:
a)Removal and refitting of the cylinder head
b)Removal and refitting of the camshaft
(after removing the cylinder head)
c)Removal and refitting of the timing belt
and sprockets
d)Removal and refitting of the sump and oil
pump
e)Removal and refitting of the pistons,
connecting rods and big-end bearings
f)Renewal of the engine mountings
g)Renewal of the crankshaft oil seals
h)Removal and refitting of the auxiliary shaft
j)Removal and refitting of the flywheel
The engine must be removed from the
vehicle for the following operations:
a)Renewal of the crankshaft main bearings
b)Removal and refitting of the crankshaft
The engine may be lifted out either on its
own or together with the gearbox. Unless work
is also necessary on the gearbox it is
recommended that the engine is removed on
its own. Where automatic transmission is
fitted, the engine should be removed on its
own owing to the additional weight. If the
engine and gearbox are removed together,
they will have to be tilted at a very steep angle;
make sure that the range of the lifting tackle is
adequate.1Disconnect the battery negative lead.
2Remove the bonnet.
3On carburettor models, remove the air
cleaner. On fuel-injection models, remove the
air cleaner cover, vane airflow meter and air
inlet trunking.
4If a splash guard is fitted, remove it.
5Release the securing clips and bolts and
remove the upper half of the fan shroud. On
carburettor models remove the lower half of
the shroud too.
6Drain the cooling system.
7Disconnect the radiator top and bottom
hoses from the thermostat housing and water
pump. Disconnect the top hose spur from the
expansion tank and unclip it.
8Disconnect the heater hoses from the water
pump and from the inlet manifold or automatic
choke housing. Unclip the hoses.
9On models with power steering, remove the
steering pump.
10Disconnect the vacuum pipe(s) from the
inlet manifold, labelling them if there is any
possibility of confusion.
11Disconnect the following wiring, as
applicable:
a)Alternator
b)Temperature gauge sender
c)Engine management temperature sensor
d)Distributor
e)Oil pressure switch
f)Automatic choke and thermo-switch
g)Carburettor stepper motor
h)Fuel-injection system sub-harness
j)Inlet manifold heater
12Disconnect the HT lead from the coil.
13If an oil level sensor is fitted, remove it
(see illustration).
14Unbolt the throttle cable bracket,
disconnect the inner cable and move the cable
and bracket aside. Also disconnect the
downshift cable on automatic transmission
models.
15On carburettor models, disconnect the
fuel lines from the fuel pump (mechanised
type) and from the carburettor. Be prepared
for fuel spillage.
16On fuel-injection models, disconnect the
fuel supply union from the injector rail, and the
fuel return pipe from the fuel pressureregulator. Be prepared for fuel spillage, and
for some spray if the supply side is still
under pressure.
17Unbolt the exhaust downpipe from the
manifold.
18On models with air conditioning, unbolt
the compressor and move it aside without
straining the flexible hoses.
19Remove the starter motor.
20Although not specified by the
manufacturers, the author advises that either
the radiator or the cooling fan be removed, to
reduce the risk of damage.
21Attach the lifting tackle to the two lifting
eyes on the engine, so that when suspended
the engine will be roughly horizontal. Take the
weight of the engine.
22Remove the single nut on each side which
secures each engine bearer to its mounting.
23Working under the vehicle, remove the
bracing strap which connects the engine and
transmission. Unbolt the adapter plate from
the bottom of the transmission bellhousing.
24On automatic transmission models, unbolt
the torque converter from the driveplate.
25Remove the engine-to-bellhousing bolts.
Note the location of the battery earth strap.
26Support the transmission, preferably with
a trolley jack.
27Check that nothing has been overlooked,
then raise the engine and draw it forwards
clear of the transmission input shaft. Do not
allow the weight of the engine to hang on the
shaft, and do not lift the transmission by it.
28On automatic transmission models, make
sure that the torque converter stays engaged
with the oil pump in the transmission as the
engine is withdrawn,
29Lift the engine out of the engine bay and
take it to the bench.
1Engine removal with automatic transmission
is not recommended.
2Proceed as in the previous Section,
paragraphs 1 to 18.
3Disconnect the wiring from the starter
motor, and release the battery earth cable
from its bellhousing bolt.
4Remove the radiator.
5Remove the propeller shaft.
6Disconnect and unclip the reversing light
switch and speedometer sender unit wiring.
7Disconnect the clutch cable.
8Unbolt the anti-roll bar mounting brackets
and lower the anti-roll bar as far as possible.
9From inside the vehicle remove the gear
lever.
10Drain the engine oil.
11Unhook the exhaust system from its
mounting on the gearbox crossmember. Either
support the system or remove it completely.
12Support the gearbox, preferably with a
trolley jack, then unbolt and remove the
gearbox crossmember. Note the earth strap (if
fitted) under one of the crossmember bolts.
13Attach lifting tackle to the two lifting eyes
on the engine so that when suspended it will
be at an angle of approximately 45°.
6Engine - removal with manual
gearbox
5Engine - removal leaving
gearbox/transmission in vehicle
4Methods of engine removal
3Major operations requiring
engine removal
2Major operations possible with
the engine in the vehicle
SOHCengines 2A•5
2A
5.13 Oil level sensor
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14Take the weight of the engine and remove
the two engine bearer-to-mounting nuts.
15Lift the engine/transmission, at the same
time lowering the trolley jack. Draw the unit
forwards and lift it out of the engine bay.
16Temporarily refit the anti-roll bar if the
vehicle is to be moved.
1With the engine and gearbox on the bench,
remove the starter motor.
2Remove the bolt from the engine adapter plate.
3Remove the bracing strap and the
remaining engine-to-bellhousing bolts.
4With the aid of an assistant draw the
gearbox off the engine. Do not allow the weight
of the gearbox to hang on the input shaft.
1It is best to mount the engine on a
dismantling stand, but if this is not available,
stand the engine on a strong bench at a
comfortable working height. Failing this, it will
have to be stripped down on the floor.
2Cleanliness is most important, and if the
engine is dirty, it should be cleaned with
paraffin while keeping it in an upright position.
3Avoid working with the engine on a concrete
floor, as grit can be a real source of trouble.
4As parts are removed, clean them in paraffin.
However, do not immerse parts with internal
oilways in paraffin as it is difficult to remove,
usually requiring a high pressure hose.
5It is advisable to have suitable containers to
hold small items according to their use, as this
will help when reassembling the engine and
also prevent possible losses.
6Always obtain complete sets of gaskets
when the engine is being dismantled, but
retain the old gaskets with a view of using
them as a pattern to make a replacement if a
new one is not available.7When possible, refit nuts, bolts and washers
in their location after being removed, as this
helps protect the threads and will also be
helpful when reassembling the engine.
8Retain unserviceable components in order
to compare them with the new parts supplied.
9A Torx key, size T55, will be needed for
dealing with the cylinder head bolts. A 12-
spline key (to fit bolt size M8) will be needed
for the oil pump bolts. Other Torx and 12-
spline bolts may be encountered; sets of the
keys required to deal with them are available
from most motor accessory shops and tool
factors.
10Another tool which is useful, though by no
means essential, is a valve spring compressor
of the type which hooks under the camshaft
(see illustration). As a Ford tool this bears the
number 21-005-A; proprietary versions may
also be available.
Before dismantling the engine into its main
components, the following ancillary
components can be removed. The actual
items removed, and the sequence of removal,
will depend on the work to be done:
Inlet manifold and associated items
Exhaust manifold
Fuel pump (mechanical type) and pushrod
Alternator
Distributor, HT leads and spark plugs
Fan, water pump and thermostat
Oil pressure switch
(see illustration)
Temperature gauge senderOil filter and dipstick
Engine bearer arms (see illustration)
Crankcase ventilation components
Clutch
Alternator mounting bracket (see
illustration)
1If the engine is still in the vehicle, carry out
the following preliminary operations:
a)Disconnect the battery negative lead
b)Drain the cooling system
c)Remove the inlet and exhaust manifolds
d)Disconnect the radiator top hose from the
thermostat housing, and the spur from the
expansion tank
e)Disconnect the wiring from the
temperature gauge sender
f)Remove the distributor cap, HT leads and
spark plugs
2Unscrew the bolts and withdraw the timing
cover (see illustration). Note the location of
the cover in the special bolt.
3Using a socket on the crankshaft pulley bolt.
turn the engine clockwise until the TDC (top
dead centre) notch on the pulley is aligned
with the pointer on the crankshaft front oil seal
housing, and the pointer on the camshaft
sprocket is aligned with the indentation on the
cylinder head (see illustrations).Note the
position of the distributor rotor arm, and mark
its contact end in relation to the rim of the
distributor body.
4Slacken the timing belt tensioner bolts. Pivot
10Cylinder head - removal
9Ancillary components - removal
8Engine dismantling - general
information
7Engine - separation from
manual gearbox
2A•6SOHCengines
9.1a Engine oil pressure switch (arrowed)
9.1b Removing an engine bearer arm9.1c Removing the alternator bracket
8.10 This valve spring compressor is used
by hooking it under the camshaft
Clean oilways with nylon pipe
cleaners.
10.2 Removing the timing cover
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1Remove the camshaft as described in the
previous Section. (If tool 21-005-A is available,
leave the camshaft in place until the valves
have been removed).
2Using a valve spring compressor, compress
each valve spring in turn until the split collets
can be removed. Release the compressor and
remove the cap and spring, keeping them
identified for location (see illustrations).
3Remove each valve from the cylinder head,
but identify them for location (see illustration).
4Prise the valve stem oil seals from the tops
of the valve guides (see illustration).
5If necessary unscrew the cam follower ball-
pins from the cylinder head, keeping them
identified for location.
6If necessary unscrew the bolts and remove
the timing belt tensioner.
7Remove the thermostat and housing.
8Remove the temperature gauge sender unit.
9Remove the manifold studs if wished by
locking two nuts onto each stud in turn and
unscrewing it.
1If the engine is still in the vehicle, carry out
the following preliminary operations:
a)Disconnect the battery negative lead
b)Remove the radiator and disconnect the
hose from the thermostat housing
c)Remove the accessory drivebelt(s)
2Unscrew the bolts and withdraw the timing
cover. Note the location of the cover in the
special bolt.
3Using a socket on the crankshaft pulley bolt,
turn the engine clockwise until the TDC (top
dead centre) notch on the pulley is alignedwith the pointer on the crankshaft front oil seal
housing, and the pointer on the camshaft
sprocket is aligned with the indentation on the
cylinder head. Note the position of the
distributor rotor arm. Mark the contact end of
the rotor in relation to the rim of the distributor
body.
4Slacken the timing belt tensioner retaining
bolts then pivot the tensioner pulley away from
the belt, to obtain maximum drivebelt free play
(see illustration). Hold the tensioner pulley in
this position and securely retighten the
retaining bolts.
5Mark the running direction of the belt if it is
to be re-used, then slip it off the camshaft
sprocket.
6Slacken the crankshaft pulley bolt. Prevent
the crankshaft from turning by engaging 5thgear (manual gearbox), or by removing the
starter motor and jamming the ring gear teeth.
Alternatively, if the pulley has peripheral bolt
holes, screw in a couple of bolts and use a
lever between them to jam it. Do not allow the
crankshaft to turn very far, or piston/valve
contact may occur.
7Remove the bolt and washer and withdraw
the pulley. If the pulley will not come off easily,
refit the bolt part way and use a puller (see
illustration). A puller will almost certainly be
required on fuel-injection models.
8Remove the guide washer from in front of
the crankshaft sprocket, then remove the
timing belt (see illustration). Do not kink it or
get oil on it if it is to be re-used.
9Remove the crankshaft sprocket using a
puller if necessary (see illustration).
13Timing belt and sprockets -
removal
12Cylinder head - dismantling
2A•8SOHCengines
12.2a Compressing a valve spring
13.4 Timing belt tensioner bolts (arrowed)13.7 Using a puller to remove the
crankshaft pulley
12.4 Removing a valve stem oil seal
13.8 Remove the guide washer from in
front of the crankshaft sprocket
12.2b Removing a valve spring and cap
12.3 Removing a valve
If the caps are difficult to
remove do not continue to
tighten the compressor, but
gently tap the top of the tool
with a hammer. Always ensure that the
compressor is held firmly over the cap.
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