heater FORD GRANADA 1985 Service User Guide

Cooling system
The cooling system is of pressurised type
and includes a front mounted crossflow
radiator, belt-driven water pump, temperature-
sensitive thermo-viscous fan (on DOHC
models, an electrically-operated cooling fan is
fitted, operated by a switch in the thermostat
housing), wax type thermostat, and an
expansion and degas tank.
The radiator matrix is of copper and brass
construction and the end tanks are of plastic.
On automatic transmission models the right-
hand side end tank incorporates the
transmission oil cooler.
The thermostat is located behind the water
outlet elbow at the front of the cylinder head
on OHCmodels, and on the front of the water
pump on V6 models. Its purpose is to ensure
rapid engine warm-up by restricting the flow of
coolant in the engine when cold, and also to
assist in regulating the normal operating
temperature of the engine.
The expansion tank incorporates a pressure
cap which effectively pressurises the cooling
system as the coolant temperature rises,
thereby increasing the boiling point of the
coolant. The tank also has a further degas
function. Any accumulation of air bubbles in
the coolant, in particular in the thermostat
housing and the radiator, is returned to the
tank and released in the air space thus
maintaining the efficiency of the coolant.
On models fitted with the auxiliary warning
system, the expansion tank contains a level
sensor which operates a warning light if the
coolant level falls significantly.
When the engine is started from cold, the
water pump circulates coolant around the
cylinder block, cylinder head(s) and inlet
manifold. The warm coolant passes through
the automatic choke housing (when
applicable) and through the heater matrix
before returning to the engine. As the coolant
expands, the level in the expansion tank rises.
Circulation of coolant through the radiator is
prevented while the thermostat is shut. When
the coolant reaches the predeterminedtemperature the thermostat opens and hot
water passes through the top hose to the top
of the radiator. As the water circulates down
through the radiator, it is cooled by the
passage of air past the radiator when the car is
in forward motion, supplemented by the action
of the thermo-viscous fan when necessary.
Having reached the bottom of the radiator, the
water is now cool and the cycle is repeated.
Circulation of water continues through the
expansion tank, inlet manifold and heater at all
times; the heater temperature control being by
an air flap.
The thermo-viscous fan is controlled by the
temperature of air behind the radiator. When
the air temperature reaches a predetermined
level, a bi-metallic coil commences to open a
valve within the unit and silicon fluid is fed
through a system of vanes. Half of the vanes
are driven directly by the water pump and the
remaining half are connected to the fan blades.
The vanes are arranged so that drive is
transmitted to the fan blades in relation to the
drag or viscosity of the fluid, and this in turn
depends on ambient temperature and engine
speed. The fan is therefore only operated when
required, and compared with direct drive type
fan represents a considerable improvement in
fuel economy, drivebelt wear and fan noise.
Air conditioning
Air conditioning is fitted as standard on
Scorpio models and is optionally available on
some other models. In conjunction with the
heater, the system enables any reasonable air
temperature to be achieved inside the car, it
also reduces the humidity of the incoming air,
aiding demisting even when cooling is not
required.
The refrigeration side of the air conditioning
system functions in a similar way to a
domestic refrigerator. A compressor, belt-
driven from the crankshaft pulley, draws
refrigerant in its gaseous phase from an
evaporator. The compressed refrigerant
passes through a condenser where it loses
heat and enters its liquid phase. After
dehydration the refrigerant returns to the
evaporator where it absorbs heat from air
passing over the evaporator fins. The
refrigerant becomes a gas again and the cycle
is repeated.Various subsidiary controls and sensors
protect the system against excessive
temperature and pressures. Additionally,
engine idle speed is increased when the
system is in use to compensate for the
additional load imposed by the compressor.
Precautions
Antifreeze mixture
Antifreeze mixture is poisonous. Keep it out
of reach of children and pets. Wash splashes
off skin and clothing with plenty of water.
Wash splashes off vehicle paintwork to avoid
discolouration.
Antifreeze/water mixture must be renewed
every two years to preserve its anti-corrosive
properties. In climates where antifreeze
protection is unnecessary, a corrosion
inhibitor may be used instead - consult a Ford
dealer. Never run the engine for long periods
with plain water as coolant. Only use the
specified antifreeze, as inferior brands may not
contain the necessary corrosion inhibitors, or
may break down at high temperatures.
Antifreeze containing methanol is particularly
to be avoided, as the methanol evaporates.
The specified mixture is 45 to 50%
antifreeze and 50 to 55% clean soft water (by
volume). Mix the required quantity in a clean
container.
Air conditioning refrigerant
Although the refrigerant is not itself toxic, in
the presence of a naked flame (or a lighted
cigarette) it forms a highly toxic gas. Liquid
refrigerant spilled on the skin will cause
frostbite. If refrigerant enters the eyes, rinse
them with a dilute solution of boric acid and
seek medical advice immediately.
In view of the above points, and of the need
for specialised equipment for evacuating and
recharging the system, any work which
requires the disconnection of a refrigerant line
must be left to a specialist.
Do not allow refrigerant lines to be exposed
to temperatures above 110°C (230°F) - eg
during welding or paint drying operations and
do not operate the air conditioning system if it
is known to be short of refrigerant, or further
damage may result.
1General information and
precautions
3•2Cooling, heating and ventilation systems
Torque wrench settingsNmlbf ft
Radiator lower mountings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 to 126 to 9
Thermostat housing bolts:
SOHC, DOHC and 2.8 litre V6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17 to 2013 to 15
2.4 & 2.9 litre V6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 to 105 to 7
Water pump bolts:
SOHC, M8 bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17 to 2113 to 16
SOHC, M10 bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .35 to 4226 to 31
DOHC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21 to 2816 to 21
2.8 litre V6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 to 137 to 10
2.4 & 2.9 litre V6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 to 105 to 7
Water pump pulley bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21 to 2616 to 19
Water pump/alternator drivebelt tensioner bolt (DOHC) . . . . . . . . . . . .70 to 9752 to 72
Fan-to-viscous clutch bolts:
SOHC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 to 106 to 7
V6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17 to 2313 to 17
Fan shroud bolts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 to 116 to 8
Cylinder block drain plug . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21 to 2516 to 18
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V6 engines
17The thermostat is removed in the course
of water pump removal.
1A rough test of the thermostat may be made
by suspending it with a piece of string in a
saucepan full of water(see illustration).Bring
the water to the boil. The thermostat most
open by the time the water boils. If not, renew
it.
2If a thermometer is available, the precise
opening temperature of the thermostat may be
determined and compared with that given in
the Specifications.
3A thermostat which fails to close as the
water cools must also be renewed.
1Disconnect the battery negative lead.
2Remove the upper half of the fan shroud
(two bolts, four clips).
3Undo the nut which secures the fan clutch
to the water pump.This nut has a left-hand
thread, ie it is undone in a clockwise direction.
A thin cranked spanner, 32 mm (OHC) or 36
mm (V6) AF is needed(see illustration);
alternatively, if two of the pulley bolts are
removed, a normal thickness or even anadjustable spanner can be used (see
illustrations). Tap the spanner with a mallet if
need be to release the nut.
4The fan can now be unbolted from the
viscous clutch if required. Do not overtighten
the bolts when refitting.
5Refit by reversing the removal operations.
1Disconnect the battery negative lead.
2To provide additional clearance when
removing the cooling fan shroud assembly
(which is removed from below the vehicle),
apply the handbrake, then jack up the front of
the vehicle and support it securely on axle
stands (see “Jacking”).
3Disconnect the wiring plug(s) from the
motor(s), and where applicable, unclip the
wiring from the fan shroud.
4Unclip the expansion tank hose from the fan
shroud.
5Unscrew the two nuts securing the fan shroud
to the top of the radiator, then tilt the top of theshroud away from the radiator, and lift the
shroud to release the lower securing clips.
Withdraw the assembly from below the vehicle.
6To remove the fan blades, prise the
securing clip from the end of the motor shaft.
7The motor can be separated from the fan
shroud by unscrewing the three securing nuts
and bolts.
8Note that two cooling fans may be fitted,
depending on model. Both fans are secured to
the shroud in the same manner.
9Refitting is a reversal of removal, but when
fitting the fan blades, ensure that the drive dog
on the motor shaft engages with the slot in the
rear of the fan blades.
SOHC engines
1Disconnect the battery negative lead.
2Drain the cooling system.
3Remove the fan and viscous coupling.
4If not already done, remove the pump
drivebelt(s), then unbolt and remove the water
pump pulley (see illustration).
5Disconnect the radiator bottom hose and
the heater return hose from the pump.
6Remove the timing belt cover, which is
secured by three bolts.
11Water pump - removal and
refitting
10Electric cooling fan(s) -
removal and refitting
9Viscous-coupled fan - removal
and refitting
8Thermostat - testing
Cooling, heating and ventilation systems 3•5
3
7.16 Thermostat relief valve (arrowed)
positioned in the 12 o’clock position8.1 Checking the thermostat opening
temperature9.3a Dimensions of spanner for undoing
fan clutch nut. Spanner thickness must not
exceed 5 mm (0.2 in)
9.3b Undoing the viscous fan clutch nut9.3c Removing the fan and clutch11.4 Undoing a water pump pulley bolt
X = 10 mm (0.4 in)
Y = 10 mm (0.4 in)Z = 50 mm (2.0 in)
If problems are experienced
with the pulley turning as the
nut is undone, remove the
drivebelt and clamp an old
drivebelt round the pulley to restrain it,
using self-locking pliers.
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7Remove the three securing bolts and
withdraw the water pump (see illustrations).
8A leaking, noisy or otherwise defective
pump must be renewed.
9Clean the mating faces and obtain a new
gasket for reassembly (see illustration).
10Refit by reversing the removal operation,
tightening all fastenings to the correct torque
(where specified).
11Refill the cooling system.
DOHC engines
12Disconnect the battery negative lead.
13On fuel-injection models, for access to the
water pump, remove the air inlet hose, plenum
chamber, and air cleaner lid as an assembly.
14Drain the cooling system.
15Remove the water pump/alternator
drivebelt.16If the pump pulley is to be removed, it is
easiest to do this with the pump in position as
follows. Prevent the pulley from rotating using
a strap wrench (which can be improvised
using an old drivebelt and a large socket and
wrench), and unscrew the four pulley securing
bolts. Withdraw the pulley.
17Position a suitable container beneath the
water pump to catch the coolant which will be
released as the pump is removed, then
unscrew the five securing bolts and withdraw
the pump from the housing in the cylinder
block (see illustration). Recover the O-ring
seal and discard it; a new one must be used
on refitting.
18Refitting is a reversal of removal, bearing
in mind the following points:
a)Ensure that the mating faces of the water
pump and cylinder block are clean and fit
a new O-ring to the pump (see
illustration).
b)Tighten the water pump bolts and where
applicable the pump pulley bolts to the
specified torque.
c)On completion refill the cooling system.
19Note that on models up to May 1990, the
coolant hoses were connected to the water
pump housing as shown(see illustration).
20On models from May 1990, the heater
hose (A) and the expansion tank hose (B)
connections were swapped over.21If the hoses are disconnected on earlier
models, such as during engine removal, they
should be reconnected as on later models, ie
connect the heater hose to connection B and
connect the expansion tank hose to connection
A. This will reduce the possibility of noises from
the heater matrix due to air in the system.
V6 engines
22Disconnect the battery negative lead.
23Drain the cooling system.
24Remove the fan and viscous coupling.
25If not already done, remove the pump
drivebelt(s), then unbolt and remove the water
pump pulley.
26Disconnect the radiator bottom hose and the
heater return hose from the thermostat housing.
27Remove the three bolts which secure the
thermostat housing to the water pump.
Remove the housing and the thermostat.
28Remove the twelve securing bolts and
withdraw the water pump. Note that on some
models it will be necessary to remove the
crankshaft pulley and damper to gain access
to the lower water pump bolts (see
illustration).
29A leaking, noisy or otherwise defective
pump must be renewed.
30Clean the mating faces and obtain a new
gasket for reassembly. Use a new thermostat
housing gasket also.
31Refit by reversing the removal operation,
tightening all fastenings to the correct torque
(where specified).
32Refill the cooling system.
3•6Cooling, heating and ventilation systems
11.7a This water pump bolt also secures
the alternator strap
11.18 On refitting, renew the water pump
O-ring (arrowed)
11.17 Withdrawing the water pump from
the cylinder block (engine removed)
11.19 Water pump housing hose
connections
A Heater hose connection - up to May 1990
B Expansion tank hose connection - up to
May 1990
C Bottom radiator hose
11.28 Removing the water pump
11.7b Water pump removed11.9 Fitting a new gasket to the water
pump
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See Chapter 1, Section 21.
1On 2.0 litre DOHC engines only, remove the
water pump/alternator drivebelt as described
in the previous Section.
2Loosen the alternator lower mounting
through-bolt, then remove the alternator upper
mounting bolt, and swing the alternator away
from the engine.
3Unscrew the central securing bolt, and
withdraw the drivebelt tensioner assembly.
4Commence refitting by positioning the
tensioner on the cylinder block, ensuring that
the lug on the rear of the tensioner bracket
engages with the corresponding hole in the
cylinder block (see illustration). Tighten the
securing bolt.
5Swing the alternator into position to align
the upper mounting bolt hole with the
corresponding hole in the drivebelt tensioner
assembly, then refit and tighten the upper
mounting bolt, then the lower throughbolt.
6Check the full length of the drivebelt for cracks
and deterioration and renew if necessary.
7Fit the drivebelt using a reversal of the
removal procedure, and release the tensioner
to tension the drivebelt.
1Disconnect the battery negative lead.
2Depressurize the cooling system by
unscrewing the expansion tank cap. Take
precautions against scalding if the system
is hot.
3Slacken the hose clips on all the hoses
which are connected to the tank. Pull off and
plug those hoses which are above the
waterline.4Remove the two screws which secure the
tank. Tilt the tank so that the coolant lies away
from the outlets, then disconnect and plug the
remaining hose.
5Disconnect the coolant level sensor, when
fitted, and remove the tank.
6Refit by reversing the removal operations.
Top-up the cooling system on completion.
1The temperature gauge sender is located
towards the front of the engine. On SOHC
models it is just below the inlet manifold (see
illustration); on V6 models it is just below the
top hose connection on the front of the left-
hand cylinder head, and on DOHC models it is
located at the front of the inlet manifold (see
illustration).
2Slacken the expansion tank cap to release
pressure in the cooling system, taking
precautions against scalding if the system
is hot.Tighten the cap again to minimise
coolant loss.
3Disconnect the wiring from the sender unit.
Unscrew and remove it, being prepared for
some coolant spillage.
4Smear sealant on the sender unit threads
before refitting, then insert and tighten it.
Reconnect the wiring.
5Top-up the cooling system if necessary,
then run the engine and check the operation of
the temperature gauge.The cooling fan switch is located in the end
of the thermostat housing.
Removal and refitting of the switch is as
described for the temperature gauge sender in
the previous Section.
Models before April 1992
Front
1Disconnect the battery negative lead.
2Remove the instrument cluster (Chapter 13).
3Remove the facia top (Chapter 12).
4Unclip the two control cables from the
control levers (see illustration).
5On air conditioned models, disconnect the
hoses from the vacuum switch.
6Remove the four screws which secure the
heater control assembly. Withdraw the
assembly from the facia.
7When refitting, secure the control assembly
with the four screws. Reconnect the vacuum
switch (when applicable) and the control
cables. Adjust the control cables if necessary
by altering the positions of the cable clips.
8When satisfied with the operation of the
cables, refit the other disturbed components.
Rear
9Remove the centre console (Chapter 12).
10Unclip the control cables and remove the
control unit.
11Refit in the reverse order to removal.
Models from April 1992
12Undo the two instrument panel surround
retaining screws, then carefully release the
retaining clips and remove the surround from
the facia.
13Pull off the three knobs from the heater
and ventilation controls to gain access to the
two hidden central vent panel retaining
screws. Slacken and remove the four panel
retaining screws and partially withdraw the
17Heater controls - removal and
refitting
16Cooling fan switch - removal
and refitting
15Temperature gauge sender -
removal and refitting
14Expansion tank - removal and
refitting
13Water pump/alternator
drivebelt tensioner - removal
and refitting
12Water pump/alternator
drivebelt(s) - inspection,
renewal and adjustment
Cooling, heating and ventilation systems 3•7
3
13.4 On refitting, ensure the drivebelt
tensioner lug (A) engages with hole in the
mounting bracket (B)15.1a Temperature gauge sender (manifold
removed)15.1b Temperature gauge sender unit
location (arrowed)
17.4 Heater control cable clip (arrowed)
viewed through windscreen
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panel. Disconnect the wiring connectors from
the heated window switches and fuel
computer (where fitted) and remove the panel
from the car.
14Undo the two retaining screws then
manoeuvre the control panel out of the facia
and disconnect the wiring connector (see
illustration).
15Unclip the central fan switch from the
panel then, using a small flat-bladed
screwdriver, bend back the retaining tabs and
remove the cover from the panel base plate
(see illustration).
16Cut the cable retaining clips then release
the cables from the toothed guides and
remove the base plate.
17Refitting is a reversal of the removal
procedure securing the cables to the base
plate using new retaining clips.
Models before April 1992
Front
1Remove the heater controls as described in
the previous Section.
2Remove the centre console as described in
Chapter 12. Also remove the console bracket
and the gear lever inner gaiter.
3Unclip the under-dash trim on both sides.
Remove the glovebox lid.
4Remove the radio (Chapter 13).
5Remove the ABS and (when applicable) the
EEC IV modules (Chapters 10 and 13).
6Remove the remaining lower trim on the
passenger side to expose the heater casing.
7Remove the two securing screws and
release the cables from the heater.
8When refitting, place the air distribution and
temperature control valve levers in their
uppermost positions, then connect the cables.
9The remainder of refitting is a reversal of the
removal procedure.
Rear
10Remove the centre console (Chapter 12).
11Remove the front seat on the side
concerned. Also remove the rear seat cushion. 12Remove the front seat belt lower anchor bolt.
13Remove the front scuff plate, which is
secured by three screws. Remove the front
screw from the rear scuff plate.
14Roll back the front carpet from the scuff
plates to expose the heater cable. Release the
cable from its ties and disconnect it from the
control unit and the nozzle (see illustration).
15Refit by reversing the removal operations.
Models from April 1992
16Remove the facia undercovers, the right-
hand lower facia panel and the glovebox .
17Undo the two retaining nuts, then release
the retaining clips and remove the trim panel
from the glovebox aperture.
18Remove the heater control panel.
19Slacken and remove the control cable
retaining screws then release the retaining
clips (one screw and one clip for each cable).
Detach the cables from the heater assembly
and withdraw them from the facia whilst noting
the correct routing (see illustration).
20Refitting is a reverse of the removal
procedure noting the following points.
a)Ensure that the cables are correctly routed
prior to connecting them to the heater
housing.
b)Prior to refitting the glovebox aperture trim
panel, check that the panel controls
function correctly and that the cables
move the relevant operating lever
smoothly from the fully open to the fully
closed position without any trace of undue
friction.
Models before April 1992
1Disconnect the battery negative lead.
2Depressurise the cooling system by
slackening the expansion tank cap. Take
precautions against scalding if the system is
hot.3Disconnect the two heater hoses from the
stubs on the bulkhead. Be prepared for some
coolant spillage: catch the coolant in a clean
container if it is fit for re-use. Plug the hoses,
or tie them up with their open ends raised.
4Expel as much coolant as possible from the
heater matrix by blowing through it.
5Remove the matrix connector plate and
gasket from the bulkhead.
6Working inside the vehicle, remove the
centre console and other trim as described for
access to the heater control cables .
7Remove the instrument cluster surround,
which is secured by four screws. Also pull out
the heater louvre panel.
8Remove the facia panel top, which is
secured by five screws and four clips.
9Detach the air trunking from the heater
casing. Release the trunking from the
bulkhead when necessary.
10Remove the two nuts which secure the
heater unit. Pull the unit into the vehicle until
the pipe stubs are clear of the bulkhead, then
remove it sideways. Be prepared for coolant
spillage.
11Check the condition of the foam gasket on
the bulkhead and renew it if necessary.
12Refit by reversing the removal operations.
13Top-up the cooling system on completion,
and check the level again after the engine has
been run.
Models from April 1992
14Disconnect the battery negative terminal.
15Drain the cooling system.
19Heater assembly - removal
and refitting
18Heater control cables -
removal and refitting
3•8Cooling, heating and ventilation systems
17.14 Heater control panel retaining screws
(arrowed)
18.19 Heater control cable retaining screw
and clip (arrowed)
17.15 Exploded view of the heater control
panel
A Control cable retaining clips
B Cover
C Fan switch
D Base plate18.14 Rear heater control cable at nozzle
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16Locate the heater matrix feed and return
hoses on the engine compartment bulkhead.
Slacken the retaining clips and disconnect
both hoses from the matrix unions. Be
prepared for some coolant spillage. Plug the
matrix unions to prevent residual coolant
being spilt as the assembly is removed.
17Slacken and remove the two retaining
screws then remove the matrix cover plate
and gasket from the bulkhead; discard the
gasket as a new one should be used on
refitting.
18Remove the facia panel.
19Release the facia wiring loom from the
bulkhead to gain access to the demister
nozzle fasteners (see illustration).
20Remove the retaining nut and screw then
detach each windscreen demister nozzle from
the heater assembly. Undo the two retaining
nuts and detach the centre face level nozzle
from the heater.
21Slacken and remove the two retaining nuts
then detach the right-hand face level nozzle
from the heater and remove it from the vehicle.
Repeat the procedure for the left-hand nozzle.
22To detach each rear footwell nozzle from
the heater unit, remove the pin from the nozzle
retaining clip whilst supporting the outer part
of the retaining clip from the rear (see
illustration). Note: If the rear of the clip is not
supported when the pin is removed it will drop
down into the nozzle. To retrieve the clip will
require the removal of the vent which first
requires the front seat to be removed and
carpet lifted.
23Disconnect the wiring connector from the
heater control panel.
24Undo the two nuts securing the heater
assembly to the bulkhead then carefully
manoeuvre the assembly out of the vehicle
whilst being prepared for the possibility of
coolant spillage from the matrix unions.
25Refitting is a reverse of the removal
procedure noting the following points.
a)Tighten all retaining nuts and screws
securely and ensure that all nozzles are
securely connected to the heater
assembly so that there are no air gaps or
leaks.b)Check the operation of all heater cables
before refitting the facia, ensuring that the
relevant component moves smoothly from
the fully open to the fully closed position.
c)Ensure that the heater hoses are correctly
reconnected and are securely held by the
retaining clips.
d)Use a new gasket when refitting the matrix
cover plate.
e)Refill the cooling system.
1Remove the heater assembly as described
in the previous Section.
2Remove the two screws which secure the
heater matrix. Withdraw the matrix.
3If the matrix is leaking it is best to obtain a
new or reconditioned unit; home repairs are
seldom successful.4To dismantle, release the clips which secure
the casing halves together by using a
screwdriver. Carefully prise the halves apart
and separate them.
5Remove the flap valves and operating levers
from the casing halves, noting how they are
fitted for reference when reassembling.
6Flush the matrix with clean water to remove
any debris.
7Reassembly is a reversal of dismantling.
Additional clips may be needed to secure the
casing halves once they have been separated.
1Drain the cooling system.
2Noting the correct fitted positions, slacken
the retaining clips and disconnect the coolant
hoses from the valve.
3Disconnect the vacuum pipe from the top of
the valve then unclip the valve and remove it
from the retaining bracket.
4Refitting is a reverse of the removal
procedure ensuring that the coolant hoses are
reconnected to their original unions on the
valve and are securely held in position with the
retaining clips.
1Only those items which can be renewed
without discharging the system are described
here. Other items must be dealt with by a Ford
dealer or air conditioning specialist (see
illustration).
Compressor drivebelt
2Disconnect the battery earth lead.
3On OHC engines, remove the radiator
cooling fan.
4Slacken the compressor strap and pivot
bolts (see illustration),move the compressor
22Air conditioning system -
component renewal
21Heater coolant valve -
removal and refitting
20Heater matrix - dismantling
and reassembly
Cooling, heating and ventilation systems 3•9
3
19.19 Release the facia wiring loom from
the bulkhead to gain access to the
demister nozzle retaining nut and screw
(arrowed)19.22 Detach the rear footwell nozzles from
the heater assembly
If the heater matrix is blocked
it can sometimes be cleared
by reverse-flushing using a
garden hose and a proprietary
radiator cleaning product if necessary.
22.1 Air conditioning system
component locations
1 De-ice thermostat
2 Evaporator
3 Expansion valve
4 Compressor
5 Compressor clutch
6 Pressure switch
7 Sight glass
8 Dehydrator
9 Cooling fan
10 Condenser
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towards the engine and remove the old
drivebelt.
5Fit the new drivebelt, position the
compressor to achieve the correct belt tension
and tighten the strap and pivot bolts.
6Refit and secure the fan, when applicable,
and reconnect the battery.
7Recheck the belt tension after it has run for
at least 10 minutes under load.
Condenser fan and motor
8Disconnect the battery earth lead and
remove the radiator grille.
9Disconnect the fan wiring connector at the
right-hand side of the condenser.
10Remove the three securing bolts andremove the fan and motor(see illustration).
Turn the frame to position the fan wiring on the
dehydrator side to avoid damaging the wiring.
Take care also not to damage the condenser
fins or tube.
11Unclip the fan guard from the top of the
frame.
12To remove the fan blades from the motor,
remove the retaining nut and circlip. The nut
has a left-hand threadie it is undone
clockwise.
13With the blades removed, the motor can
be unscrewed from the frame.
14Reassemble and refit in the reverse order
of dismantling and removal.
De-ice thermostat
15Disconnect the battery negative lead.
16Disconnect the vacuum hoses from the
plenum chamber cover. Pull off the rubber seal
and remove the plenum chamber cover; it is
secured by four screws and one nut.
17Disconnect the thermostat from the
evaporator casing and remove it. Also remove
the thermostat probe.
18Refit by reversing the removal operations.
Heater water valve
19The heater water valve used with air
conditioning is vacuum-operated. It is located
on the right-hand side of the engine bay, near
the bulkhead. 20Drain the cooling system.
21Slacken the hose clips and detach the
coolant hoses from the valve, noting how they
are connected.
22Disconnect the vacuum hose from the top
of the valve.
23Unclip the valve from its bracket and
remove it.
24Refit by reversing the removal operations.
Refill the cooling system.
3•10Cooling, heating and ventilation systems
22.4 Air conditioning compressor adjuster
strap bolts (arrowed)22.10 Condenser fan securing bolts
(arrowed)
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8Remove the drill and the rubber band.
9Refit the heat shield, making sure it is
properly located.
10Refit the bi-metal housing, engaging the
end of the spring with the choke valve lever.
Fit the three screws, position the housing in its
original alignment (paragraph 4) and tighten
the screws.
11If the bi-metal housing alignment has been
lost, refer to the Specifications(see
illustration).Small deviations from the
specified setting may be made to correct over
or under-choking.
12Reconnect the choke feed wire, refit the
air cleaner and reconnect the battery.
13Check the idle mixture adjustment.
To adjust idle speed, refer to Chapter 1,
Section 15.
To adjust idle mixture, refer to Chapter 1,
Section 16.
1Disconnect the battery negative lead.
2Remove the air cleaner.
3Disconnect the wiring from the anti-
dieselling (anti-run-on) valve.
4Disconnect the wiring from the automatic
choke heater.
5Disconnect the fuel supply and return hoses,
noting their locations to aid refitting. Plug the
ends of the hoses to minimise petrol spillage and
prevent the ingress of dirt into the fuel system.
6Disconnect the link arm from the throttle
linkage.
7Disconnect the vacuum pipe.
8Release the coolant hose from the bracket
under the automatic choke housing.
9Unscrew the four Torx screws, and lift the
carburettor from the inlet manifold. Recover
the gasket.10Refitting is a reversal of removal, bearing
in mind the following points.
a)Ensure that the mating faces of the inlet
manifold and the carburettor are clean,
and use a new gasket.
b)Ensure that all hoses, pipes and wiring are
correctly routed, and free from
restrictions. If any of the hoses were
originally secured with crimped-type clips,
discard these and replace them with
standard worm drive hose clips.
c)On completion check and if necessary,
adjust the idle speed and mixture settings.
1Disconnect the battery negative lead.
2Remove the air cleaner.
3Thoroughly clean all external dirt from the
carburettor.
4Disconnect the fuel supply and return hoses
from the carburettor, noting their locations to
aid refitting, and plug their ends to minimise
petrol spillage (see illustration).
5Disconnect the wiring from the automatic
choke.
6Disconnect the wiring from the anti-
dieselling (anti-run-on) valve.
7Remove the four Torx screws securing the
carburettor to the inlet manifold.
8Remove the two securing screws, and lift off
the carburettor top cover, leaving the
carburettor main body in place on the inlet
manifold.
9Slide the float retaining pin from the carburettor
top cover, tapping it gently if necessary, then lift
out the float and needle valve.
10If desired, the needle valve housing can be
unscrewed from the top cover. Recover the
washer and discard it; a new one must be
fitted on reassembly.
11Inspect the components for damage, and
renew as necessary. Check the needle valve
for wear, and check the float assembly for
leaks by shaking it to see if it contains petrol.12Refitting is a reversal of removal, bearing
in mind the following points.
a)Use a new washer when refitting the
needle valve housing.
b)When refitting the float and needle valve,
ensure that the tag on the float locates
under the spring clip on the needle valve.
Check that the float and needle valve
operate smoothly.
c)Check and, if necessary, adjust the float
level as described below.
d)Ensure that the carburettor mating
surfaces are clean then fit a new gasket
onto the main body and refit the
carburettor top cover.
e)If the fuel hoses were originally secured
with crimped clips, discard these and
secure the hoses in position with new
worm drive hose clips.
f)On completion, check and if necessary
adjust the idle speed and mixture.
13With the carburettor top cover removed as
described above, proceed as follows.
14Fit a new gasket to the top cover, then hold
the carburettor top cover in a vertical position,
with the needle valve uppermost and shut.
15Measure the distance between the top
cover gasket and the bottom of the float(see
illustration).
16If the distance is not as specified, adjust
by bending the tag on the float assembly.
17Refit the carburettor top cover by
reversing the removal operations.
1Disconnect the battery negative terminal.
2Remove the air cleaner assembly.
3Disconnect the diaphragm operating rod
from the throttle linkage by pulling the lower
section of the rod downwards and twist the
end of the rod from the socket.
4Remove the four cover retaining screws
then remove the cover and withdraw the
spring (see illustration).
22Weber 2V TLD carburettor -
secondary throttle valve
vacuum diaphragm renewal
21Weber 2V TLD carburettor -
needle valve and float removal,
refitting and adjustment
20Weber 2V TLD carburettor -
removal and refitting
19Weber 2V TLD carburettor -
idle speed and mixture
adjustments
Fuel and exhaust systems 4•11
4
18.11 Bi-metal housing alignment marks -
Weber 2V carburettor
A Rich
B IndexC Lean
21.4 Float and needle valve locations in
carburettor top cover - Weber 2V TLD
carburettor
A Fuel hose
connectionsB Float
C Needle valve
21.15 Float level adjustment - Weber 2V
TLD carburettor
A Check dimensionB Adjustment tag
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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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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
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