check engine light FORD GRANADA 1985 Service Owner's Manual

3Recover the oil pump driveshaft, noting
which way round it is fitted.
4Recover the oil pump-to-block gasket.
2.4 & 2.9 litre engines
5Remove the sump.
6Unbolt the oil pump/inlet pipe assembly and
remove it then extract the driveshaft, which is
splined into the distributor shaft (see illustration).
1Remove the cylinder heads,the sump and
the oil pump.
2Check that the big-end bearing caps and
connecting rods have identification marks. This
is to ensure that the correct caps are fitted to the
correct connecting rods and at reassembly are
fitted in their correct cylinder bores. Note that
the pistons have an arrow (or notch) marked on
the crown to indicate the forward facing side.
3Remove the big-end nuts and place to one
side in the order in which they are removed.
4Pull off the big-end caps, taking care to
keep them in the right order and the correct
way round. Also ensure that the shell bearings
are kept with their respective connecting rods
unless they are being renewed.5To remove the shell bearings, press the
bearing on the side opposite the groove in
both the connecting rod and the cap, and the
bearing will slide out.
6Withdraw the pistons and connecting rods
upwards out of the cylinder bores.
1Remove the cylinder heads and pushrods.
2Remove the tappets from their bores, using
a pencil magnet or by inserting a piece of bent
brass wire through the lubrication holes (see
illustration).
3Remove the timing cover and the camshaft
gear.
4Remove the two bolts which secure the
camshaft thrust plate. Withdraw the camshaft,
thrust plate and spacer ring.
5The intermediate plate may now be
removed after removing the retaining bolts.
Note the oil seals on the timing cover locating
dowels, which must also be removed.
1The engine must be removed from the
vehicle for this task.
2Remove the flywheel/driveplate, timing
cover and crankshaft gear, and the pistons
and connecting rods, as described in the
preceding Sections. (If no work is to be done
on the pistons, they need not actually be
pushed out of their bores.)
3Make sure that the main bearing caps carry
identification marks, then remove the bolts
and lift off the caps. Tap the caps with a soft-
faced mallet if necessary to free them.
4Note that the rear main bearing cap also
retains the crankshaft rear oil seal, and that the
shells for No 3 main bearing have thrust
flanges to control crankshaft endfloat.
5Lift out the crankshaft. Do not drop it, it is
heavy.
6Recover the upper half main bearing shells
from their seats in the crankcase, again
keeping them in order if they are to be re-
used.
7Remove the old oil seal from the rear of the
crankshaft.
Refer to Part A, Section 23 of this Chapter.1Disconnect the battery negative lead.
2Remove the crankshaft pulley (and damper,
when fitted).
3Extract the old oil seal by levering it out with
a hooked tool.
4Clean out the seal seat in the timing cover.
Lubricate the new seal and fit it, lips inwards. Seat
the seal with a piece of tube or a large socket. (If
available, Ford tool 21-063 and a non-damper
type pulley may be used to seat the seal.)
5Lubricate the sealing surface of the pulley or
damper and refit it.
6The remainder of refitting is a reversal of the
removal procedure. Check the engine oil level
on completion.
Refer to Part A, Section 18 of this Chapter.
Refer to Part A, Section 25 of this Chapter.
New cylinder head bolts are not required if
they are of the hexagon head type. Torx type
bolts must be renewed. The two types of
cylinder head bolt must not be mixed on the
same engine.
1Tap out the roll pin from one end of the
rocker shaft and remove the spring washer
(see illustration).
2Slide the rocker arms, rocker supports and
springs off the rocker shaft. Keep them in the
correct order so that they can be reassembled
in the same position (see illustration).
20Rocker shaft - dismantling,
examination and reassembly
19Examination and renovation -
general information
18Crankshaft rear oil seal -
renewal
17Crankshaft front oil seal -
renewal
16Engine mountings - renewal
15Crankshaft and main
bearings - removal
14Camshaft and intermediate
plate - removal
13Pistons and connecting rods
- removal
2C•12V6 engines
12.6 Removing the oil pump and driveshaft
20.1 Rocker shaft roll pin (arrowed)14.2 Using a piece of wire to remove the
tappets
If the big-end caps are
difficult to remove they can
be tapped lightly with a soft
faced hammer.
Keep the bearing shells with
their caps if they are to be re-
used.
If a rocker support sticks it
can be removed by tapping it
with a soft-faced hammer.
procarmanuals.com

3Examine the rocker shaft and rocker arms for
wear. If the rocker arm surface that contacts the
valve stem is considerably worn, renew the
rocker arm. If it is worn slightly step-shaped it
may be cleaned up with a fine oil stone.
4Oil the parts and reassemble them on their
shafts in the original order. With both rocker
shafts fitted the oil holes must face
downwards to the cylinder heads. This
position is indicated by a notch on one end
face of the rocker shaft (see illustration).
Inspect the tappets for scuffing, surface wear
or other damage. Renew them if necessary. It is
good practice to renew the tappets if a new
camshaft is being fitted.Check the pushrods for bending by rolling
them on a flat surface. Straighten or renew as
necessary. Also check the pushrod ends for
wear or damage.
1If there is excessive wear in the camshaft
bearings they will have to be renewed. As the
fitting of new bearings requires special tools
this should be left to your local Ford dealer.
2The camshaft may show signs of wear on
the bearing journals or cam lobes. The main
decision to take is what degree of wear
necessitates renewing the camshaft, which is
expensive. Scoring or damage to the bearing
journals cannot be removed by regrinding;
renewal of the camshaft is the only solution.
3The cam lobes may show signs of ridging or
pitting on the high points. If ridging is slight
then it may be possible to remove it with a fine
oil stone or emery cloth. The cam lobes,
however, are surface hardened and once the
hard skin is penetrated wear will be very rapid.
4Excessive endfloat of the camshaft may be
remedied by fitting a thicker spacer and/or
thrust plate - see Specifications.
5Excessive backlash in the camshaft drive
gears (timing gears), which will have been
noticed before dismantling by virtue of the
characteristic growling noise, can only be
remedied by renewing the gears.1Clean the dirt and oil off the cylinder heads.
Remove the carbon deposits from the
combustion chambers and valve heads with a
scraper or rotary wire brush.
2Remove the valves by compressing the
valve springs with a suitable valve spring
compressor and lifting out the collets. Release
the valve spring compressor and remove the
valve spring retainer, spring and valve (see
illustrations).Note: When removing and
refitting the valve spring take care not to
damage the valve stem when pressing down
the valve spring retainer to remove or refit the
collets. If the stem gets damaged the sealing
will be ineffective and result in excessive oil
consumption and wear of the valve guides.
3Remove the valve stem oil seals from the
valve guides and discard them.
4With the valves removed clean out the
carbon from the ports.
5Examine the heads of the valves and the
valve seats for pitting and burning. If the
pitting on valve and seat is slight it can be
removed by grinding the valves and seats
together with coarse, and then fine, valve
grinding paste.
6Severe pitting or burning of the valves
probably means that they must be renewed.
Badly burnt valve seats can be recut, or
inserts can be fitted, by a Ford dealer or other
specialist.
7Check the valve guides for wear by inserting
the valve into its guide until the valve stem is
flush with the end of the guide, then checking
the play at the valve head(see illustration).
Movement in excess of 0.6 mm (0.024 in)
means that the clearance between guide and
stem is excessive.
8Valve guide wear is dealt with by reaming
the guides to a known oversize and fitting new
valves with oversize stems. Again, this is a
dealer or specialist task.
23Cylinder heads - overhaul
22Camshaft and bearings -
examination and renovation
21Tappets and pushrods -
examination
V6 engines 2C•13
2C
20.2 Rocker shaft and associated
components20.4 Notch (arrowed) shows position of oil
holes
23.2a Compressing a valve spring to
expose the collets
23.2b Removing the spring retainer and
spring23.2c Removing an inlet valve23.7 Checking valve guide wear using a
valve and a dial test indicator
Mark each valve so that they
can be fitted in the same
location.
procarmanuals.com

1Make sure that the oil pump and crankcase
mating faces are clean.
2Check that the washer on the oil pump
driveshaft is located correctly (see illustration).
3If a new or overhauled pump is being fitted,
prime it by injecting oil into it and turning it by
hand.
4Insert the oil pump driveshaft into the block
with the pointed end towards the distributor
(see illustration).
5Fit the assembled oil pump, using a new
gasket. Insert the pump-to-block bolts and
tighten them to the specified torque (see
illustration).
6Refit the sump.Refer to Part A, Section 40 of this Chapter.
2.8 litre engines
1Lubricate a new oil seal and fit it to the
timing cover (see illustration).
2If the Woodruff keys were removed from the
camshaft and crankshaft, refit them.
3Refit the crankshaft gear, if removed, using
a length of tube to drive it home.
4Position the camshaft and crankshaft so
that their keyways are facing each other(seeillustration).Slide the camshaft gear onto the
camshaft, rotating the shafts slightly if
necessary so that the marks on the two gears
are aligned. Remember that there are two
marks on the crankshaft gear.
5Fit the camshaft gear retaining bolt and
washer(see illustration).Tighten the bolt to
the specified torque.
6Apply sealant to the mating faces of the
timing cover and the intermediate plate.
7Position a new gasket on the intermediate
plate and fit the timing cover to the cylinder
block (see illustrations).
8Fit the timing cover bolts, but do not tighten
them yet.
9Oil the sealing face of the crankshaft pulley
or damper. Fit the pulley/damper and the
central bolt and washer, applying sealant to
the inboard face of the washer (see
illustration). Draw the pulley/damper into
36Timing cover and drive -
refitting
35Flywheel/driveplate and
adapter plate - refitting34Oil pump - refitting
V6 engines 2C•17
2C
34.2 Oil pump driveshaft washer location34.4 Fitting the oil pump driveshaft34.5 Oil pump in position
36.7a Timing cover gasket in position
36.1 Timing cover oil seal36.5 Camshaft gear washer and bolt36.4 Crankshaft and camshaft gears
correctly aligned
36.7b Fitting the timing cover36.9 Fitting the crankshaft pulley
procarmanuals.com

See Chapter 1, Section 46.
See Chapter 1, Section 46.
See Chapter 1, Section 46.
1Drain the radiator. There is no need to drain
the cylinder block. On DOHC engines the
electric cooling fan assembly must be removed
to gain the clearance to remove the radiator.
2Disconnect the top and bottom hoses from
the radiator by slackening the hose clips and
pulling off the hoses with a twisting motion
(see illustrations). Do not use excessive force
- the radiator side tanks are made of plastic.
3On OHCmodels, disconnect the small hose
running from the expansion tank to the radiator.
4On automatic transmission models, clean
around the transmission fluid cooler unions on
the radiator and disconnect them (seeillustration). Be prepared for fluid spillage;
plug or cap the cooler lines to keep dirt out.
5On models with air conditioning, disconnect
the auxiliary fan thermo-switch. If the thermo-
switch is mounted in the radiator, remove It.
6Remove the upper half of the fan shroud by
removing the two bolts and two clips (see
illustration), and the lower half which is
secured by two bolts.
7Release the two radiator top mounting clips
by pulling out the plastic plugs (see illustration).
8Raise and support the front of the vehicle.
Support the radiator and remove the two
bottom mounting bolts (see illustration).
9Carefully lower the radiator slightly to free
the top mountings, then remove it from under
the vehicle.
10If a new radiator is being fitted, transfer the
fan shrouds and mountings from the old one.
11Refit by reversing the removal operations,
then refill the cooling system.
12On automatic transmission models, check
the transmission fluid level.
1If the radiator has been removed because of
suspected blockage, reverse-flush it.
2Clean dirt and debris from the radiator fins,
using an air jet, or water and a soft brush. Be
careful not to damage the fins, or cut your
fingers. 3A radiator specialist can perform a “flow
test” on the radiator to establish whether an
internal blockage exists.
4A leaking radiator must be referred to a
specialist for permanent repair. Do not attempt
to weld or solder a leaking radiator, as
damage to the plastic parts may result.
5In an emergency, minor leaks from the
radiator can be cured by using a radiator
sealant while the radiator is in situ.
SOHC engines
1Disconnect the battery negative lead.
2Drain the cooling system. As it is not
necessary to completely drain the radiator, the
bottom hose can be disconnected from the
water pump.
3Disconnect the top hose from the
thermostat housing at the front of the cylinder
head (see illustration).
4Unscrew the bolts and remove the housing
and gasket (see illustration).
5Using a screwdriver, prise the retaining clip
from the housing, and extract the thermostat
and sealing ring (see illustrations).
6Clean the thermostat housing and cylinder
head mating surfaces. Obtain a new gasket for
reassembly, and if necessary a new sealing
ring too.
7Refit by reversing the removal operations.
7Thermostat - removal and
refitting
6Radiator - inspection and repair
5Radiator - removal and refitting
4Cooling system - filling
3Cooling system - flushing
2Cooling system - draining
Cooling, heating and ventilation systems 3•3
3
5.2a Radiator top hose5.2b Radiator bottom hose (A)
Also shown are automatic transmission fluid
cooler lower union (B) and hose to expansion
tank (C)5.4 Transmission fluid cooler upper union
5.6 Fan shroud clip5.7 Pull out the plug to release the radiator
top mounting5.8 One of the radiator bottom mounting
bolts (arrowed)
procarmanuals.com

20Checking and adjustment should be
completed within 30 seconds of the meter
readings stabilising. If this has not been
possible, run the engine at 3000 rpm for 15
seconds, then allow the engine to idle. Re-
check the CO content and carry out further
adjustments if necessary.
21On completion of adjustment, stop the
engine and disconnect the tachometer and the
exhaust gas analyser. Refit the cover to the
adjustment screw.
2.4 & 2.9 litre V6 engines
22As with the 2.8 V6, idle speed is
electronically controlled. Basic idle speed
adjustment can only be carried out by a Ford
dealer using special equipment.
23On models not equipped with a catalytic
converter, mixture adjustment can be carried
out as described above.
24On models equipped with a catalytic
converter, the mixture is controlled by the EEC IV
module and no manual adjustment is possible.
SOHC and V6 engines
1Disconnect the battery negative lead.
2Free the throttle position sensor multi-plug
from its clip. On the OHCmodels this is below
the idle speed control valve, on the underside
of the inlet manifold; on V6 engines it is
located below the throttle valve housing.
3Relieve the locktabs and unbolt the throttle
position sensor (see illustration). Pull the
sensor off the throttle valve shaft, disconnect
the multi-plug and remove the sensor.
4Do not rotate the centre part of the sensor
beyond its normal range of movement, or
damage may result.
5When refitting, line up the flat on the throttle
valve shaft with the flat on the centre of the
sensor. Make sure that the sensor is the right
way round and fit it over the shaft.
6Fit and tighten the two bolts and secure it
with the locktabs.
7Reconnect and secure the multi-plug, then
reconnect the battery.
DOHC engine
8Disconnect the battery negative lead.
9Free the throttle position sensor wiring plug
from the retaining clip located on the
underside of the throttle body. Disconnect the
wiring plug halves by releasing the locktabs
and pulling on the plug halves, not the wiring
(see illustration).
10Unscrew the two sensor securing screws,
and withdraw the sensor from the throttle
shaft.
11Refitting is a reversal of removal, noting
that the sensor fits with the wiring at the
bottom, and ensuring that the sensor
actuating arm engages correctly with the
throttle spindle.1On DOHC models, disconnect the battery
negative lead.
2Free the throttle position sensor wiring plug
from the retaining clip located on the
underside of the throttle body. Disconnect the
wiring plug halves by releasing the locktabs
and pulling on the plug halves, not the wiring.
3Disconnect the throttle cable and (where
necessary) the speed control cable from the
throttle linkage.
4Loosen the securing clip, and disconnect
the air inlet hose from the throttle body.
5Unscrew the four securing bolts and
withdraw the throttle body from the inlet
manifold along with the gasket.
6Refitting is a reversal of removal, bearing in
mind the following points.
a)Ensure that the mating faces of the
throttle body and the inlet manifold are
clean, and fit a new gasket.
b)On completion, adjust the throttle cable
and where necessary, adjust the speed
control cable so that there is only a small
amount of slack in the cable.
c)Where applicable, check and if necessary
adjust the idle mixture.
SOHC and all V6 engines
1Disconnect the battery negative lead.
2Disconnect the multi-plug from the idle
speed control valve by prising up the retaining
lug and pulling the plug, not the wires (see
illustration).
3Remove the two securing nuts (OHC) or
bolts (V6) and withdraw the valve (see
illustration). Recover the gasket.
4If necessary, the solenoid can be separated
from the valve block by removing the two
screws to enable the parts to be cleaned.
Contamination or air leaks in this area will
cause unstable idling. After careful cleaning,
the parts can be reassembled.
5Refit the valve, using a new gasket, and
tighten the retaining nuts or bolts. Reconnect
the multi-plug and the battery.
6Start the engine and check that the idle is
steady. Bring the engine to operating
temperature, then switch on all possible electrical
loads (headlights, heated screens, heater blower
etc) and check that the idle remains steady. This
confirms that the valve is working.
DOHC engine
7Disconnect the battery negative lead.
8Loosen the securing clip, and disconnect
the air inlet hose from the throttle body.
34Idle speed control valve -
removal and refitting33Throttle body - removal and
refitting
32Throttle position sensor -
removal and refitting
Fuel and exhaust systems 4•15
4
32.3 Throttle position sensor retaining bolts
(arrowed)32.9 Throttle position sensor (A) and wiring
plug (B)
34.2 Disconnecting the idle speed control
valve34.3 Removing the idle speed control valve
procarmanuals.com

connector is supplied with a captive “tell-tale”
ring, the purpose being to hold the connector
teeth retracted. When the two halves of the
connector are pressed together, the ring is
ejected to show that the connection has been
successfully made. Fit the fuel pipe connector
clip (see illustrations).
56As soon as the injectors and fuel rail are
installed and the fuel pipes are connected,
connect the battery and switch the ignition on
and off twice, without cranking the engine, to
pressurise the fuel system. With the system
pressurised check all disturbed fuel unions for
leaks.
57Refit and reconnect all other removed and
disconnected components.
58Reconnect the battery.
SOHC and 2.8 litre V6 engines
1Disconnect the battery negative lead.
2On V6 models, unclip the HT leads from the
fuel pressure regulator bracket.
3Place a drain pan or plenty of rags beneath the
regulator, then disconnect the fuel return pipe
(see illustration). Be prepared for fuel spillage.
4Disconnect the vacuum pipe from the
regulator (see illustration).
5Slacken the fuel feed union nut (see
illustration). Wait until any residual fuel
pressure has decayed, then unscrew the nut.
6Unscrew the nut from the base of the
regulator. Remove the regulator.
7When refitting, only tighten the regulator
base nut lightly at first. Secure the fuel feed
union and tighten its nut, then fully tighten the
base nut.
8Reconnect the vacuum and fuel return pipes.
9Remove the drain pan or rags. On V6
models, secure the HT leads to their clip.
10Reconnect the battery. Switch the ignition
on and off five times (without cranking the
engine) and check that there are no fuel leaks
from the regulator.
DOHC engine
11Disconnect the battery negative lead.
12Slowly loosen the fuel rail feed union to
relieve the pressure in the system. Beprepared for fuel spillage, and take adequate
fire precautions.
13Disconnect the fuel return hose from the
pressure regulator (see illustration). Again, be
prepared for fuel spillage.
14Disconnect the vacuum pipe from the top
of the pressure regulator.
15Unscrew the two securing bolts, and
withdraw the regulator from the fuel rail along
with the O-ring seal. Discard the O-ring.
16Fit a new O-ring to the regulator, and
lubricate it with a smear of clean engine oil.
17Fit both the securing bolts to the regulator,
then position the regulator on the fuel rail, and
tighten the securing bolts.
18Further refitting is a reversal of removal,
but if the fuel return line was originally secured
with a crimped-type clip, discard this and use
a new worm drive hose clip.
19On completion, check the fuel line
connections for leaks, pressurising the system
by switching the ignition on and off several times.
2.4 & 2.9 litre V6 engines
20Disconnect the battery negative lead.
21Depressurise the fuel system.
22On models equipped with an aluminium
fuel rail and late level fuel pressure regulator,
remove the fuel return pipe retaining collar
from the top of the regulator.
23On all models, place a suitable container
below the engine to catch any spilt fuel, then
disconnect the fuel return pipe and the
vacuum pipe from the fuel pressure regulator
(see illustration).
37Fuel pressure regulator -
removal and refitting
4•18Fuel and exhaust systems
36.55a Pressing connector together to
eject “tell-tale” ring
37.4 Disconnecting the vacuum pipe from
the fuel pressure regulator
37.5 Slackening the fuel pressure regulator
feed union nut37.13 Disconnect the fuel return hose
(arrowed) from the fuel pressure regulator37.23 Disconnecting the vacuum hose from
the fuel pressure regulator
36.55b Fitting fuel rail connector clip37.3 Disconnecting the fuel return pipe
from the fuel pressure regulator
procarmanuals.com

24Unbolt and remove the regulator from the
fuel rail. Remove the sealing O-ring and
discard it; a new one must be used on
refitting.
25Refitting is a reverse of the removal
procedure applying a smear of clean engine oil
to the new regulator O-ring. On models
equipped with a late level regulator, ensure
that the return pipe is securely held in position
by the retaining collar.
26On completion, switch the ignition on and
off five times without cranking the engine to
pressurise the fuel system.
27With the system pressurised check all
disturbed fuel unions for signs of leakage.
1The potentiometer is located on the right-
hand side of the engine compartment, behind
the MAP sensor.
2Disconnect the battery negative lead.
3Remove the securing screw, then withdraw
the potentiometer and disconnect the wiring
plug.
4Refitting is a reversal of removal. On
completion adjust the idle mixture.1On 2.4 & 2.9 litre V6 engines, disconnect the
battery.
2Disconnect the switch wiring connector.
3Slacken and remove the switch from the
fuel rail (see illustration).
4Refitting is a reverse of removal, tightening
the switch to the specified torque setting.
Carburettor models
All engines except DOHC
1Remove the carburettor or, if preferred, the
final removal of the carburettor from the
manifold can be left until the manifold has
been removed).
2Drain the cooling system.
3Disconnect the coolant and vacuum pipes
from the manifold, noting their positions if
there is any possibility of confusion.
4Disconnect the wires from the manifold
heater and the coolant temperature sender
unit.
5Disconnect the crankcase ventilation hose
from the manifold.
6Unscrew the six nuts and bolts which
secure the manifold and withdraw it. Recover
the gasket.
7Before refitting the manifold, make sure that
the mating surfaces are perfectly clean.
8Apply a bead of sealant at least 5 mm (0.2 in)
wide around the central coolant aperture on
both sides of a new gasket.
9Place the gasket over the studs, then fit the
manifold and secure it with the six nuts and
bolts. Tighten the nuts and bolts evenly to the
specified torque.
10The remainder of refitting is a reversal of
the removal procedure. Refill the cooling
system on completion.
DOHC engine
11Disconnect the battery negative lead.
12Drain the cooling system.13Remove the air cleaner.
14Disconnect the coolant hoses from the
thermostat housing and the inlet manifold,
noting the locations to assist with refitting.
15Disconnect the fuel supply and return
hoses from the carburettor. Plug their ends to
minimise petrol spillage.
16Release the coolant hose from the bracket
under the automatic choke housing.
17Disconnect the HT leads from the spark
plugs, and move them to one side.
18Disconnect all relevant wiring and vacuum
pipes from the carburettor, thermostat
housing and inlet manifold, noting the
locations as an aid to refitting.
19Disconnect the crankcase breather hose
from the inlet manifold.
20Disconnect the throttle cable from the
throttle linkage.
21Make a final check to ensure that all
relevant wires, pipes and hoses have been
disconnected to facilitate removal of the
manifold.
22Unscrew the ten bolts and two nuts
securing the manifold to the cylinder head.
23Lift the manifold clear of the cylinder head
and recover the gasket.
24Recover the two plastic spark plug spacers
from the recesses in the cylinder head.
25If desired, the carburettor can be removed
from the manifold by unscrewing the securing
screws.
26Refitting is a reversal of removal, bearing
in mind the following points.
a)Ensure that all mating faces are clean and
renew all gaskets.
b)Ensure that the spark plug spacers are in
position in the cylinder head recesses
before refitting the manifold.
c)Tighten all manifold securing nuts and
bolts progressively to the specified torque.
d)Make sure that all hoses, pipes and wires
are securely reconnected in their original
positions. Replace all crimp-type hose
clips (where fitted) with standard worm
drive hose clips.
e)On completion, refill the cooling system,
check the adjustment of the throttle cable,
then check, and if necessary adjust the
idle speed and mixture.
Fuel-injection models
SOHC engine
27Disconnect the battery negative lead.
28Drain the cooling system.
29Disconnect the vacuum pipe(s) from the
manifold. The number of pipes varies
according to equipment. Label the pipes if
necessary (see illustration).
30Disconnect the fuel-injection harness
multi-plugs at the bulkhead end of the
manifold (see illustration).
31Disconnect the oil pressure warning light
sender wire from below the manifold.
32Release the hose clips and move the
airflow meter-to-manifold trunking clear of the
manifold.
40Inlet manifold - removal and
refitting
39Fuel rail temperature switch -
removal and refitting
38Mixture adjustment
potentiometer - removal and
refitting
Fuel and exhaust systems 4•19
4
39.3 Fuel rail components
A Fuel pressure regulator
B Fuel temperature switch
C Fuel rail
D Fuel injectors
40.29 Manifold vacuum pipe T-piece
(arrowed)40.30 Fuel-injection wiring harness plugs
procarmanuals.com

1Disconnect the battery negative (earth) lead.
2Disconnect the battery positive leads. These
may be protected by a plastic cover. Do not
allow the spanner to bridge the positive and
negative terminals.
3Release the battery hold-down clamp. Lift
out the battery. Keep it upright and be careful
not to drop it - it is heavy.
4Commence by placing the battery in its tray,
making sure it is the right way round. Secure it
with the hold-down clamp.
5Clean the battery terminals if necessary
then reconnect them. Connect the positive
lead first, then the negative lead.
1Should it appear that the alternator is not
charging the battery, check first that the
drivebelt is intact and in good condition and
that its tension is correct. Also check the
condition and security of the alternator
electrical connections and the battery leads.
2Accurate assessment of alternator output
requires special equipment and a degree of
skill. A rough idea of whether output is
adequate can be gained by using a voltmeter
(range 0 to 15 or 0 to 20 volts) as follows.
3Connect the voltmeter across the battery
terminals. Switch on the headlights and note
the voltage reading: it should be between 12
and 13 volts.
4Start the engine and run it at a fast idle
(approx 1500 rpm). Read the voltmeter: it
should indicate 13 to 14 volts.
5With the engine still running at a fast idle,
switch on as many electrical consumers as
possible (heated rear window, heater blower
etc). The voltage at the battery should be
maintained at 13 to 14 volts. Increase the
engine speed slightly if necessary to keep the
voltage up.
6If alternator output is low or zero, check the
brushes. If the brushes are OK, seek expert
advice.7Occasionally the condition may arise where
the alternator output is excessive. Clues to this
condition are constantly blowing bulbs;
brightness of lights vary considerably with
engine speed; overheating of alternator and
battery, possible with steam or fumes coming
from the battery. This condition is almost
certainly due to a defective voltage regulator,
but expert advice should be sought.
8Note that the alternator voltage regulator
can be renewed without removing the
alternator from the vehicle. The procedure is
part of brush renewal.
1Disconnect the battery negative lead.
2Disconnect the multi-plug from the rear of
the alternator. It may be secured by a wire clip.
3Slacken the alternator adjusting and pivot
nut(s), bolt(s)and washer(s)(see illustration).
Swing the alternator towards the engine and
slip the drivebelt(s) off the pulley.
4Support the alternator. Remove the
adjusting and pivot nuts, bolts and washers,
noting the fitted positions of the washers. Lift
out the alternator. Do not drop it, it is fragile.
5Refit by reversing the removal operations.
Tension the drivebelt(s) then tighten the
adjustment strap bolt followed by the pivot nut
and bolt. If there are two pivot bolts, tighten
the front one first.
6Refit the multi-plug and reconnect the
battery.
1The alternator brushes can be inspected or
renewed without removing the alternator from
the vehicle, but disconnect the battery
negative lead first.
2From the rear of the alternator remove the
two screws which secure the voltage
regulator/brush carrier assembly. Withdraw
the assembly (see illustration).
3Measure the length of each brush
protruding from the carrier (see illustration). If
they are worn down to, or below, the minimumspecified, the old brushes will have to be
unsoldered and new ones soldered into place.
Some skill with a soldering iron will be
required; excess heat from the soldering iron
could damage the voltage regulator. When
fitted, the new brushes must move freely in
their holders.
4Clean the slip rings with a cloth moistened
with methylated spirit (see illustration). If they
are badly burnt or damaged, seek expert
advice.
5Refit the assembled brush carrier/voltage
regulator and secure it with the two screws. If
the alternator is on the vehicle, reconnect the
battery negative lead.
1If the starter motor fails to operate, first
check that the battery is charged by switching
on the headlights. If the headlights do not
come on, or rapidly become dim, the battery
or its connections are at fault.
2Check the security and condition of the
battery and starter solenoid connections.
Remember that the heavy lead to the solenoid
is always “live” - disconnect the battery
negative lead before using tools on the
solenoid connections.
8Starter motor - testing on the
vehicle7Alternator - brush renewal
6Alternator - removal and
refitting
5Alternator - testing on the
vehicle
4Battery - removal and refitting
5•4Engine electrical systems
7.3 Measuring brush protrusion7.4 Clean the slip rings (arrowed)
6.3 Alternator mounting details
A Large washer
B Small washer (not always fitted)
C Mounting bracket
D Alternator
Some models have a single pivot bolt
7.2 Removing the voltage regulator/brush
carrier
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Solenoid check
3Disconnect the battery negative lead, and all
leads from the solenoid.
4Connect a battery and a 3 watt test lamp
between the solenoid body and the solenoid
motor terminal (see illustration).The test
lamp should light: if not, the solenoid windings
are open-circuit.
5Connect a battery and an 18 to 21 watt test
lamp across the solenoid motor and battery
terminals. Connect a further lead from the
battery positive terminal to the solenoid spade
terminal(see illustration).The solenoid
should be heard to operate and the test lamp
should light: if not, the solenoid contacts are
defective.
On load voltage check
6Remake the original connections to the
solenoid and reconnect the battery negative
lead. Connect a voltmeter across the battery
terminals, then disconnect the low tension
lead from the coil positive terminal and
operate the starter by turning the ignition
switch. Note the reading on the voltmeter
which should not be less than 10.5 volts.
7Now connect the voltmeter between the
starter motor terminal on the solenoid and the
starter motor body. With the coil low tension
lead still disconnected, operate the starter and
check that the recorded voltage is not more
than 1 volt lower than thatpreviously noted. If
the voltage drop is more than 1 volt a fault
exists in the wiring from the battery to the
starter.
8Connect the voltmeter between the battery
positive terminal and the terminal on the
starter motor. With the coil low tension lead
disconnected operate the starter for two or
three seconds. Battery voltage should be
indicated initially, then dropping to less than 1
volt. If the reading is more than 1 volt there is a
high resistance in the wiring from the battery
to the starter and the check in paragraph 9
should be made. If the reading is less than 1
volt proceed to paragraph 10.
9Connect the voltmeter between the two
main solenoid terminals and operate the
starter for two or three seconds. Batteryvoltage should be indicated initially then
dropping to less than 0.5 volt. If the reading is
more than 0.5 volt, the solenoid and
connections may be faulty.
10Connect the voltmeter between the
battery negative terminal and the starter motor
body, and operate the starter for two or three
seconds. A reading of less than 0.5 volt should
be recorded; however, if the reading is more,
the earth circuit is faulty and the earth
connections to the battery and body should be
checked.
1Disconnect the battery negative lead. Raise
and support the front of the vehicle.
2From underneath the vehicle, disconnect
the feed (heavy) cable from the solenoid.
3Disconnect the command lead from the
solenoid spade terminal.
4Undo the starter motor securing bolts and
(where fitted) the support bracket fastenings.
Withdraw the starter motor from the vehicle.
5Refit by reversing the removal operations.
Check for correct operation on completion.
1Disconnect the motor lead from the
solenoid terminal.
2Remove the two screws which secure the
armature end cap. Remove the cap, the C-
washer and the plain washer(s).
3Remove the two through-bolts or studs.
4Remove the commutator end cover to
expose the brushgear. Carefully withdraw the
brushplate from the commutator. Be careful to
avoid damage to the brushes as they are
released.
5Examine the brushes: they should not beexcessively worn (see Specifications) and
must slide freely in their holders. Brush
renewal varies according to motor type as
follows:
Short frame - the brush lead must be
removed from the stand-off connector on the
brushplate, and the clip on the new brush lead
soldered to the connector.
Long frame - the old brush leads must be
cut and the new leads attached by soldering
Reduction gear - the brushplate must be
renewed complete with brushes, holders and
springs
6Reassembly is the reverse of dismantling
whilst noting the following:
7Clean the commutator with a rag moistened
with methylated spirit, then refit the
brushplate.
8Either clip the brushes in place after fitting
the plate, or use a tube of suitable diameter to
keep the brushes retracted during fitting.
9Make sure that the brushplate is correctly
positioned to allow the passage of through-
bolts or studs.
See Chapter 1, Section 20.
See Chapter 1, Section 39.
All engines except 2.4 & 2.9 litre V6
Note: The distributor should not be removed
without good cause, since the accuracy of
ignition timing achieved in production is
unlikely to be regained
1Disconnect the battery negative lead.
2Remove the distributor cap as described in
the previous Section. Depending on model, it
may be possible to move the cap aside
without disconnecting the HT leads.
3Using a spanner on the crankshaft pulley
bolt, turn the engine to bring No 1 cylinder to
firing point. (If the distributor cap is secured by
clips, make sure the clips stay clear of the
distributor moving parts.) No 1 cylinder is at
firing point when:
a)The timing marks are in alignment.
b)The tip of the rotor arm is pointing to the
place occupied by the No 1 HT lead
connector in the distributor cap (see
illustration).
4With No 1 cylinder at firing point, the tip of
the rotor arm should also be aligned with a
notch in the distributor body. Mark the notch
for reference when refitting.
5Depress the locking tab on the distributor
13Distributor - removal and
refitting
12HT leads, distributor cap and
rotor arm - removal, inspection
and refitting
11Spark plugs - removal,
inspection and refitting
10Starter motor - brush renewal
9Starter motor - removal and
refitting
Engine electrical systems 5•5
5
8.4 Solenoid winding check
A Battery terminal
B Motor terminalC Spade terminal
8.5 Solenoid contact check
A Battery terminal
B Motor terminalC Spade terminal
If the stud nuts are
inaccessible, lock two nuts
together on the stud and turn
them to unscrew it .
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12When the distributor is at the firing point,
the leading edge of one of the vanes should be
in line with the rib on the sensor (see
illustration). Turn the distributor body slightly
if necessary to achieve this.
13Refit the clamp plate and bolt. Just nip up
the bolt for the time being. Tighten it finally
after checking the timing. Also secure the
support bracket, when fitted.
14Refit the rotor arm, distributor cap and HT
leads.
15Reconnect the distributor multi-plug.
16Reconnect the battery. Run the engine
and check the ignition timing as described in
the next Section.
2.4 & 2.9 litre V6 engines
Note: The distributor should not be removed
or disturbed without good cause, since the
accuracy of timing achieved in production is
unlikely to be regained. If difficulty is
experienced in setting the timing after refitting,
or if a new distributor has been fitted, the
timing should be set by a Ford dealer using a
STAR (Self Test Automatic Readout) tester.
17Disconnect the battery negative lead.
18Disconnect the HT leads from the spark
plugs noting the correct fitted locations.
19Release the distributor cap and place it to
one side, complete with the HT leads.
20Turn the engine by means of the vibration
damper centre bolt until No 1 piston is at its
firing point (12°BTDC) (see illustration).
21If there is no mark visible, mark the rim of
the distributor body to indicate the point of
alignment of the contact end of the rotor.
22Mark the position of the distributor
mounting plate in relation to the cylinder
block.
23Disconnect the distributor wiring
connector.
24Scrape the sealant from around the
distributor clamp bolt then unscrew the bolt
and withdraw the distributor.
25Prior to refitting the distributor check that
the crankshaft is still set in the 12°BTDC
position for the No 1 piston.
26Hold the distributor over the hole so that
the mounting plinth and cylinder head marks
are aligned then align the rotor arm contact
end with the mark on the distributor rim (see
illustration).
27As the distributor is inserted, the rotor will
turn due to the meshing of the drive gears.
When the distributor is fully inserted, rotate the
distributor body until the rotor arm aligns with
mark C on the distributor rim.
28Once the rotor arm, cylinder head and
distributor alignment marks are all correctly
aligned, fit the clamp bolt and tighten it
securely.
29Refit the distributor cap then connect the
HT leads, reconnect the vacuum pipe and
wiring plug.
30Run the engine to normal operating
temperature and check the ignition timing,
bearing in mind the note made at the start of
this sub-Section.
All engines except DOHC
1Ignition timing is set very accurately in
production. It does not need to be checked or
adjusted on a routine basis. Adjustment will
only be necessary if the distributor, or an
associated component such as the timing belt,
has been disturbed.
2Before checking the timing, the following
conditions must be met:
a)The engine must be warmed up
b)On carburettor models, the vacuum pipe
must be disconnected from the manifold
and the manifold hole be plugged
c)Idle speed must be below 900 rpm
d)Any earthed “octane adjustment” wires
must be temporarily isolated
3Locate the timing marks. On SOHC engines
the timing scale is on the crankshaft pulley,
and a pointer on the timing cover must be
aligned with the appropriate mark on the
pulley (see illustration). Note that two
alternative types of pulley may be fitted (see
illustration).On V6 engines there is a single
notch on the pulley and the timing scale is on
the timing cover (see illustration).The desiredvalues are given in the Specifications.
Highlight the appropriate marks with white
paint.
4Connect a timing light (strobe) to No 1 HT
lead, following the maker’s instructions. Some
lights require additional power connections to
be made, either to the mains or to the battery.
5Run the engine at idle and shine the timing
light onto the marks. Take care not to get the
timing light leads, clothing etc tangled in the
fan blades or other moving parts. The timing
marks will appear stationary and (if the timing
is correct) in alignment.
14Ignition timing - checking
Engine electrical systems 5•7
5
13.12 Vane leading edge and sensor rib
(arrowed) are aligned at firing point13.20 Crankshaft pulley notch set to the 12°
BTDC position
14.3a Timing marks and pointer
Cast pulley shown
13.26 Rotor arm position before (1) and after (2) refitting the distributor
X = XC Notch
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