1987 NISSAN PULSAR differential

Manual Transaxle and Drive Shafts 135
possible to move the striking rod from fifth gear to
reverse without first moving sideways in the neutral
gate.
4. DIFFERENTIAL AND FINAL DRIVE ASSEMBLY
Special Equipment Required:
To Measure Differential Turning Torque —
Suitable slotted adaptor and torque gauge
TO CHECK VISCOUS COUPLING
From July 1989, Manual transaxle Pulsar Q and
Vector SSS models are equipped with a limited slip
differential incorporating a viscous coupling.

(1) Raise the front of the vehicle and support it
on chassis stands. (2) Rotate one front wheel and check the rota-
tional direction of the opposite wheel. (3) If both front wheels rotate in the same
direction, the viscous coupling is functioning nor-
mally. (4) If the front wheels rota te in opposite direc-
tions, the viscous coupling is unserviceable and must
be renewed as an assembly.
TO DISMANTLE AND ASSEMBLE

It is necessary to remove and dismantle the
transaxle assembly to gain access to the differential
and final drive assembly.

Refer to the Transaxle Assembly heading for the
removal of the transaxle from the vehicle. Operations
1-9 of the dismantling procedure under the same
heading describe the removal of the differential and
final drive assembly from the transaxle.

(1) If necessary, cut and remove the speedome-
ter drive gear from the differential case. (2) Using a suitable puller, remove the differen-
tial carrier bearing cone and roller assemblies from the
differential case and remove the speedometer drive
gear stopper.
(3) Remove the ring gear retaining bolts and
separate the ring gear from the differential case using
a soft faced hammer.
(4) Using a pin punch, remove the retaining pin
from the differential pinion shaft.
(5) Remove the pinion shaft from the differen-
tial case. (6) Remove the pinion gears and thrust washers
from the differential case. (7) Remove the side gears and spacers from the
differential case.
NOTE: If applicable, the viscous coupling is
integral with the left hand side gear.

(8) Wash all the differential components with
cleaning solvent. (9) Check the gears, spacer s, thrust washers,
pinion shaft and differential case for wear, pitting and
damage. Renew parts as necessary.
(10) Install the side gears and spacers to
the
differential case.
(11) Install the pinion gear s and thrust washers
to
the differential case.
(12) Install the pinion shaft to the differential case
aligning the retaining pin hole. (13) Install the retaining pin to the pinion shaft
until the end of the pin is level with the differential
case. (14) With a dial gauge contacting the end of the
side gear, lift the side gear evenly and measure the
clearance between the side gear and the differential
case. The clearance should be 0.1-0.2 mm.
NOTE: Do not tilt the side gear or the dial
gauge reading will be incorrect.

(15) If necessary, adjust the side gear clearance
using selective fit spacers.

NOTE: Spacers are available from 0.15 mm
to 1.00 mm in increments of 0.05 mm.

(16) Measure and if necessary, adjust the other
side gear clearance. (17) On models equipped with a viscous cou-
pling, adjust the side gear clearance as follows:
(a) Temporarily secure the differential case with
two bolts. (b) Position the differential case so that the right
hand side gear is uppermost. (c) Insert a 0.03 mm feeler gauge between the
View of the differential ass embly removed from the
transaxle.

136 Manual Transaxle and Drive Shafts
right hand side gear and the adjacent spacer in an area
where there is no oil groove in the differential case.
(d) Insert another 0.03 mm feeler gauge diago-
nally opposite the first feeler gauge to avoid tilting the
side gear.

(e) Insert a splined adaptor into the right hand
side gear and attempt to rotate the gear by hand.
(f) If the gear cannot be rotated, change the
thickness of the left hand side gear spacer, repeating
the test until the gear can be rotated.
NOTE: Spacers are available in thicknesses
from 0.8 mm to 1.5 mm in increments of
0.1 mm.

(g) Remove the 0.03 mm feel er gauges and insert
0.09 mm feeler gauges to the same position. The gear
should lock.

(h) The spacer selection is correct when the right
hand side gear can be rotated with 0.03 mm feeler
gauges inserted but locks when 0.09 mm feeler gauges
are inserted.

(18) Install the ring gear to the differential case
with the chamfered edge of the ring gear inwards. (19) Install and tighten the retaining bolts in
a
diagonal sequence to the specified torque.
(20) Install a new speedometer drive gear to
the
differential case. Install the stopper adjacent to the
drive gear.
(21) Install the differentia] carrier bearing
cones
and roller assemblies to the differential case.
(22) Remove the adjusting shim from behind the
carrier bearing outer race in the transaxle case and
replace the outer race in the transaxle case.
(23) Install the differential assembly to the clutch
housing. (24) Install the transaxle case to the clutch housing
and tighten the retaining bolts to the specified torque.
(25) Mount a dial gauge to the clutch housing so
that the contact point is resting on the differential
case. (26) Insert a bar through the opposite side gear
and, contacting the pinion shaft, raise and lower the
differential case and measure the end float in the
carrier bearings. (27) Using the following table, select a shim to
correspond to the relevant end float.
END FLOAT SHIM THICKNESS

0.30-0.34 mm....................................................0.64 mm
0.34-0.38 mm................................................... 0.68 mm
0.38-0.42 mm................................................... 0.72 mm
0.42-0.46 mm................................................... 0.76 mm
0.46-0.50 mm................................................... 0.80 mm
0.50-0.54 mm................................................... 0.84 mm
0.54-0.58 mm................................................... 0.88 mm
0.58-0.62 mm................................................... 0.92 mm
0.62-0.66 mm................................................... 0.96 mm
0.66-0.70 mm................................................... 1.00 mm
0.70-0.74 mm................................................... 1.04 mm
0.74-0.78 mm ................................................... 1.08 mm
0.78-0.82 mm ................................................... 1.12 mm
0.82-0.86 mm ................................................... 1.16 mm
0.86-0.90 mm ................................................... 1.20 mm
0.90-0.94 mm ................................................... 1.24 mm
0.94-0.98 mm ................................................... 1.28 mm
0.98-1.02 mm ................................................... 1.32 mm
1.02-1.06 mm ................................................... 1.36 mm
1.06-1.10 mm ................................................... 1.40 mm
1.10-1.14 mm ................................................... 1.44 mm
1.14-1.18 mm ................................................... 1.48 mm
1.18-1.22 mm ................................................... 1.52 mm
1.22-1.26 mm ................................................... 1.56 mm
1.26-1.30 mm ................................................... 1.60 mm
1.30-1.34 mm ................................................... 1.64 mm
1.34-1.38 mm ................................................... 1.68 mm
1.38-1.42 mm ................................................... 1.72 mm
1.42-1.46 mm ................................................... 1.76 mm
The thickest shim available is 0.88 mm. Multiple
shims are required above this thickness.

(28) Install the shim behind the carrier
bearing
outer race in the transaxle case and assemble the unit
once more. (29) Using a suitable slotted adaptor engage the
pinion shaft and using a to rque gauge, measure the
differential turning torque. The turning torque when new carrier bearings
have been installed should be 3.9-7.8 Nm or slightly
lower if the original carrier bearings have been
replaced.

(30) Assemble the transaxle and measure the total
turning torque of the diff erential assembly and the
mainshaft. The total turning torque should be 5.9 to
13.7 Nm with new bearings or slightly lower if the
original bearings have been replaced.

5. GEAR LEVER ASSEMBLY
TO DISMANTLE AND ASSEMBLE
(1) Remove the gear lever knob and remove the
centre console as described in the Body section. If not
previously removed, remove the rubber boot sur-
rounding the gear lever. (2) Raise the front of the vehicle and support it
on chassis stands. Remove the catalytic converter and
heat shield as described in the Engine section.
(3) Remove the bolt and disconnect the control
rod from the bottom of the gear lever, noting the
position of the return spring and bracket.
(4) Remove the nuts retaining the gear lever
socket to the support rod. (5) Working inside the vehicle, lift the gear lever
out of the floor bracket. (6) Separate the lower rubber boot, socket,
spring seat, spring, upper ball seat and lower ball seat
from the gear lever, noting the location of each
component to aid assembly.

138 Manual Transaxle and Drive Shafts
Brakes section if necessary. Suspend the caliper with
wire or cord attached to the coil spring.

(9) Hold the steering knuckle and hub assembly
and tap the drive shaft out of the hub using a soft

faced hammer.
(10) Drain the oil from the transaxle into a
container.
(11) Prise the drive shaft out of the transaxle and
remove the drive shaft from the vehicle.
Installation is a reversal of the removal procedure
with attention to the following points:

(1) Ensure that the drive sh aft is firmly attached
to the differential side gear by attempting to pull the
shaft out of the gear. (2) Tighten all nuts securely and install new split
pins. (3) Fill the transaxle with the specified grade and
quantity of oil.
TO DISMANTLE AND ASSEMBLE

(1) Remove the drive shaft from the vehicle as
previously described.
(2) Remove and discard both the inner C.V.
joint boot retaining clips from the inner C.V. joint. (3) Roll back the large en d of the inner C.V.-
joint boot using a thin blade screwdriver, prise out the
C.V. joint retaining ring.
(4) Withdraw the C.V. joint housing from the
drive shaft and ball assembly. (5) Remove the inner snap ring retaining the ball
assembly to the drive shaft and withdraw the ball
assembly. (6) Remove the remaining inner C.V. joint re-
taining snap ring and the C.V. joint boot from the
drive shaft. (7) Noting their installed positions remove the
cage and ball assembly off the inner race and press the
balls out of the cage. (8) Remove and discard the clips retaining the
outer C.V. joint boot to the drive shaft and remove
the C.V. joint boot.
NOTE: The outer C.V. joint cannot be
dismantled.

(9) Wash all parts in a suitable solvent and blow
dry with compressed air.
(10) Inspect the ball contact faces of the inner ball
race and C.V. joint housing for pitting and wear.

(11) Inspect the ball cage and the balls for wear
and damage. (12) Rotate the drive shaft with the outer C.V.
joint at a sharp angle and inspect the internal
components of the outer C.V. joint for wear and
damage. Renew if necessary by tapping the C.V. joint
from the drive shaft.
NOTE: Do not reuse the retaining snap ring
if the C. V. joint is removed from the drive
shaft.

(13) Check the C.V. joint boots for damage and
deterioration. (14) Renew all worn or damaged components as
necessary. Assembly is a reversal of the dismantling proce-
dure with attention to the following points:

(1) Thoroughly pack the outer C.V. joint with
molybdenum disulphide grease. (2) Install the outer C.V. joint boot and retain in
position using new retaining clips. Ensure that the
boot and the clips ar e correctly seated.
(3) Install the inner C.V. joint boot, small
end
first, onto the drive shaft and pull it well down the
shaft. (4) Install the outer snap ri ng for the inner C.V.
joint into its locating groove in the drive shaft. (5) Position the inner ball race inside the ball
cage with the chamfered end of the ball race towards
the small end of the cage. (6) Press the balls firmly into the ball cage,
ensure that the balls are fully seated. (7) Install the ball assem bly onto the drive
shaft
with the small end of the cage towards the outer C.V.
joint and install the inner snap ring retaining the
ball
assembly onto the drive shaft.
(8) Pack the C.V. joint with the prescribed
amount of molybdenum disul phide grease. Refer to
Specifications. (9) Install the C.V. joint retaining ring into the
C.V. joint housing. Ensure that the retaining ring is
correctly seated.

Dismantled view of the inner C.V. joint. Install the ball assembly onto the drive shaft, with the
small end of the cage towards the outer C.V. joint.

Automatic Transaxle 141

(2) Incorrectly adjusted kickdown cable: Check
and adjust or renew the kickdown cable as required.

NOTE: Check and adjust the throttle cable
before adjusting the kickdown cable.

ENGINE WILL NOT START IN P OR N
RANGE OR WILL START IN ANY RANGE

(1) Neutral safety switch faulty: Adjust or renew
the neutral safety switch. (2) Incorrectly adjusted selector cable: Check
and adjust the selector cable as detailed.
2. DESCRIPTION

The automatic transaxle combines a fluid coup-
ling or torque converter with a fully automatic three
speed epicyclic gear system.

The transaxle provides th ree forward ratios and
one reverse. The hydraulic system consists of a single
pump and valv e arrangement.

The final drive or differential and the transaxle
use a common lubricant. The transaxle oil pan and
final drive drain plug will have to be removed to drain
the transaxle completely. Topping up or refilling is
done through the dipstick tube.

The gear selector lever is floor mounted and
connected to the transaxle by an adjustable cable. The
selector quadrant adjacent to the base of the lever is
marked P, R, N, D, 2, 1.

It is necessary for the selector lever to be in P or
N before the engine can be started. When testing or
tuning the engine, the handbrake must be firmly
applied and the selector lever placed in the P position,
otherwise the vehicle could move forward or back-
wards as the engine speed is increased.

For long distance towing the vehicle should be
towed with the front end raised.

It is not possible to start the engine by either
towing or pushing the vehicle.

The transaxle can be removed from the vehicle
without engine removal.

NOTE: As extensive knowledge and equip-
ment is required to overhaul the automatic
transaxle assembly, it is therefore not a
worthwhile repair proposition for the aver-
age person. However if the transaxle must
be overhauled by a specialist or be replaced
with a reconditioned unit, the removal and
installation procedure is fully described at
the end of this section.

3. TRANSAXLE FLUID
Only use the recommended transaxle fluid speci-
fied by the manufacturer when topping up or changing
the fluid in the system.

TO CHECK AND TOP UP
NOTE: The fluid level should be checked
after approximately 5 minutes driving on
the road when the engine has achieved its
normal operating temperature of approxi-
mately 65 deg C.

(1) Place the vehicle on a level floor and open
the engine bonnet.

NOTE: When working on the automatic
transaxle cleanliness is very important. Do
not reuse transaxle fluid and do not allow
foreign matter to enter the filler opening.

(2) Clean around the top of the dipstick to
ensure that no dirt or foreign matter can enter the
dipstick tube.
(3) Place the selector in the P position and
firmly apply the handbrake. (4) Move the selector thro ugh each gear return-
ing it to the P position.
(5) Check the fluid level with the engine running
at idle. Install the dipstick fully into the dipstick tube.
NOTE: If the vehicle has been driven at high
speed, or has been towing a load, or driven
through heavy city traffic in hot weather, a
period of about 30 minutes should be
allowed to permit the transaxle to cool
before checking the fluid level.

(6) Withdraw the dipstick and check the fluid
level reading. The fluid should be at the H mark on
the dipstick. If the fluid is low, stop the engine and
remove the dipstick from the vehicle. Using a funnel,
top up the transaxle with the recommended type of
transaxle fluid through the dipstick tube. (7) If the level is reading too high allow the
engine to cool down for about 30 minutes and recheck
the level as described. If the level is still too high, a
small amount of transaxle fluid may be drained from
the transaxle.

Checking the fluid level on the automatic transaxle
dipstick.

156
FRONT SUSPENSION
SPECIFICATIONS
Type.................. Independent MacPherson strut with
coil springs and control arms
Shock absorber .................. Hydraulic, non-repairable
Hub bearing end float (maximum) ............. 0.05 mm
Ball joint axial play (maximum) ....................0.7 mm
Ball joint turning torque (used)...............0.5-4.9 Nm
Wheel alignment:
Toe in ..................................................... 0-2 mm
Camber ........................................- 0 ° 1 0 ' ± 4 5 '
Caster ..............................................1 ° 1 0 ' ± 4 5 '
King pin inclination..................... 1 3 ° 5 5 ' ± 4 5 '
TORQUE WRENCH SETTINGS
Hub bearing nut..................................... 196-235 Nm
Suspension unit to steering knuckle nut ...... 118 Nm
Suspension unit to body nuts ......................... 29 Nm
Piston rod nut .................................................. 72 Nm
Brake caliper to steering knuckle bolts ........... 52 Nm
Ball joint to steering knuckle bolt ................... 86 Nm
Control arm bracket bolts ............................... 98 Nm
Control arm pivot bolt ................................ 118 Nm
Stabiliser bar link nuts..................................... 44 Nm
Stabiliser bar bracket bolts .............................. 21 Nm
1. FRONT SUSPENSION TROUBLE
SHOOTING

FRONT END NOISE
(1) Loose upper suspension mounting or piston
rod: Tighten the mounting or piston rod nuts. (2) Loose or worn suspension unit lower ball
joint: Tighten or renew the lower ball joint.
(3) Noise in the suspension unit: Renew the
faulty suspension unit, preferably in pairs.
(4) Worn or loose steering gear: Overhaul the
steering gear assembly. (5) Worn front hub bearings: Renew the hub
bearings:
(6) Loose or defective stab ilizer bar, control arm
or mountings: Check, tighten or renew the mounting
rubbers.

Check the ball joints for wear and deterioration.
(7) Worn stabilizer bar link ball joints: Renew
the stabilizer bar links.
(8) Drive shafts worn or insufficiently lubri-
cated: Check the lubricant and the dust boots and
renew as necessary. (9) Drive shaft splines in the hub or the
differential worn or dama ged: Check and renew as
necessary.

NOTE: To check the front suspension com-
ponents for wear, raise the front of the
vehicle, support it on chassis stands and
allow both front wheel to hang free. With an
assistant pushing and pulling the front
wheels in and out at the top and then at the
bottom, check for excessive looseness at the
front hub bearings and lower control arm
inner pivot bushes. Noise or vibration in the
front end can also be caused by excessive
tire or wheel unbalance. Drive shaft joint
noise is usually more pronounced when
moving slowly with the steering on full lock.

POOR OR ERRATIC ROAD HOLDING
ABILITY

(1) Low or uneven tire pressures: Inflate the
tires to the recommended pressures.

(2) Defective suspension unit: Renew the faulty
unit, preferably in pairs.

172
BRAKES
SPECIFICATIONS
Type:
Except Pulsar/Vector GL from
July 1989 and Astra models ... Four wheel disc
Pulsar/Vector GL from
July 1989 and Astra models —
Front...............................................................Disc
Rear..............................................................Drum
Operation:
Footbrake ............... Vacuum assisted diagonally
split dual hydraulic
Handbrake................ Mechanical on rear wheels

Fluid type ...........................................................Dot 4
Master cylinder:
Make ........................................................ Girlock
Bore diameter —
Large .................................................... 25.40 mm
Small .................................................... 20.64 mm
Front disc brakes:
Caliper bore diameter ........................... 48.1 mm
Disc diameter ........................................ 240 mm
Disc thickness, minimum ......................... 16 mm
Disc runout, maximum ......................... 0.07 mm
Disc pad thickness, minimum ....................2 mm
Rear disc pads:
Caliper bore diameter ......................... 30.16 mm
Disc diameter ........................................ 234 mm
Disc thickness, minimum ...........................9 mm
Disc runout, maximum .......................... 0.07 mm
Disc pad thickness, minimum ....................2 mm
Rear drum brakes:
Wheel cylinder bore diameter ............ 15.87 mm
Drum diameter, maximum ............... 204.50 mm
Drum out of round, maximum.............. 0.03 mm
Drum runout, maximum ........................ 0.05 mm
Brake lining wear limit ........................... 1.5 mm
TORQUE WRENCH SETTINGS
Brake pedal bracket to body........................... 11 Nm
Brake pedal pivot bolt ..................................... 11 Nm
Brake servo unit to body................................. I I N m
Brake servo unit to master cylinder ............... 11 Nm
Pressure differential piston plug ...................... 12 Nm
Proportioning valve plug................................. 27 Nm
Caliper anchor plate bolts ............................... 52 Nm
Caliper guide bolts .......................................... 31 Nm
Brake hose to caliper....................................... 34 Nm
Handbrake cable bracket bolt ......................... 49 Nm
Handbrake lever to body ................................ 11 Nm
Cable clamp to body....................................... 11 Nm
Cam lever nut.................................................. 49 Nm
1. BRAKES TROUBLE SHOOTING
BRAKE PEDAL HARD
(1) Seized caliper piston or wheel cylinder: Over-
haul the caliper or wheel cylinder.
(2) Seized master cylinder piston: Overhaul the
master cylinder. (3) Seized pedal pivot: Rectify or renew the
pedal pivot shaft and bushes. (4) Restricted brake line: Remove the restriction
or renew the brake line.
(5) Vacuum servo system inoperative: Check
and repair the servo system.
NOTE: The vacuum servo system can be
checked as follows: With the engine
switched off, pump the brake pedal several
times to deplete any vacuum in the system.
With the engine still switched off, press
down firmly on the brake pedal and hold it
there noting the position and pressure re-
quired. Start the engine. If the servo unit is
operating correctly, the brake pedal will sink
slightly and the pressure required to hold it
may reduce. If the pedal does not sink
slightly when the engine is started, check the
vacuum supply to the servo unit. If vacuum
is reaching the brake servo unit, the unit can
be considered inoperative.

BRAKE DRAG
(1) Clogged master cylinder ports: Clean the
master cylinder and the fluid reservoir. Renew the
brake fluid. (2) Seized caliper piston or wheel cylinder: Over-
haul the caliper or wheel cylinder.
(3) Seized handbrake linkage: Free up or renew
the linkage.

Brakes 175
A pressure proportioning valve is incorporated in
each circuit to prevent premature locking of the rear
wheels during severe braking.

The four wheel hydraulically operated brakes
utilize disc brakes on each front wheel and disc brakes
or leading and trailing drum brake shoes on each rear
wheel.

The front disc brakes comprise a disc attached to
the hub assembly and a caliper bolted to the steering
knuckle.

The rear disc brakes comprise a disc and hub
assembly attached to the rear stub axle and a caliper
and anchor plate bolted to the backing plate.

The front and rear calipers are of the sliding type.
As pad wear takes place, the caliper piston is allowed
to slide outwards through the seal to take up a new
position in the caliper bore. Elastic deformation of the
seal takes place when the brakes are applied, which
returns the piston slightly when the brakes are re-
leased. Thus a constant clearance is maintained
between the pads and the disc when the brakes are in
the off position.

The disc brakes do not require periodical adjust-
ment in service to compensate for pad wear as they
are self adjusting.

The leading and trailing shoe drum brakes on the
rear wheels use a double ended wheel cylinder to
operate both brake shoes at the top. The lower end of
each brake shoe abuts a fixed anchor point. The brake
shoes are automatically adju sted when the brakes are
operated.

The handbrake operates the rear brakes via a
cable arrangement.

3. MASTER CYLINDER
Special Equipment Required:
To Install New Seals — Suitable machined drift
TO REMOVE
(1) Depress the brake pedal several times to
deplete the vacuum from the system.

(2) Raise the bonnet and install covers to
both
the front mudguards. Cover the areas of paintwork
beneath the master cylinder with absorbent cloth.
(3) Disconnect the wiring from the pressure
sensing switch. (4) Disconnect the brake pipes from the master
cylinder and plug the outlets and pipes to prevent the
loss of fluid and the ingress of dirt.
(5) Remove the nuts retaining the master cylin-
der to the brake servo unit and remove the master
cylinder from the vehicle.
TO DISMANTLE

(1) Remove the master cylinder as previously
described. (2) Remove the reservoir cap and diaphragm,
drain and discard the brake fluid from the reservoir. (3) Carefully remove the reservoir from the
master cylinder by pulling it from the reservoir
retainers by hand. Remove and discard the retainers
from the master cylinder. (4) Using internal snap ring pliers, remove the
snap ring from the primary reservoir port. (5) Remove the fast fill valve assembly and the
O ring from the port. Remove and discard the valve
washer from the fast fill valve.
(6) Remove the proportioning valve plugs and
the O rings. Discard the O rings. Withdraw the springs
and valve plungers from the master cylinder. Remove
and discard the seals from the valve plungers. (7) Remove the pressure sensing switch and
lever assembly from the master cylinder. {8) Remove the cylinder end plug from the
master cylinder. Remove and discard the O ring from
the plug.

(9) Carefully tap the front of the master cylinder
vertically on a block of wo od and remove the pressure
differential pistons from the master cylinder. Remove
and discard the O rings from the pistons. (10) Push the primary piston forward in the
cylinder with a blunt rod and while holding the
pressure, remove the stop pin from the master cylin-
der.
(11) The primary piston may now be withdrawn
from the cylinder bore. The secondary piston, retainer
and spring can also be withdrawn by carefully tapping
the master cylinder on a block of wood. (12) Prise the legs of the seal retainer upwards
and remove it from the primary piston. Remove the
seal and guide. Discard the seal and retainer.
NOTE: The secondary piston must no! be
dismantled by removing the screw. This
assembly has a factory p reset length and the
screw must not be altered in service.

(13) Remove the main seal and the guide from
the front of the secondary piston. Stretch the rear seal
from the groove and remove it from the piston. Take

Installed view of the master cylinder and servo unit. Air
duct removed for clarity. 1.8 liter model.

Brakes 177
installed. Install the second back up ring, large
diam-
eter first.

(6) Install the second garter spring. Insert
a
machined drift into the bore and lightly push the
garter spring into its locating groove.
(7) Smear the secondary piston with clean brake
fluid. Ease the seal over the piston body into the
groove adjacent to the spring, ensuring that the seal lip
faces the spring and that the nylon spacer is against
the back of the seal. (8) Install the guide onto the secondary
piston,
large internal diameter first, followed by the main seal
with the lip facing away from the spring. (9) Lubricate the secondary piston assembly
with clean brake fluid and install the secondary spring
and retainer to the piston. Install the complete assem-
bly into the master cylinder bore. (10) Smear the primary piston with clean brake
fluid. Install the guide, large internal diameter first,
followed by the main seal with the lip facing towards
the small end of the piston.
(11) Install the retainer to the spigot on the front
end of the primary piston ensuring that the legs of the
retainer engage with the groove on the piston. (12) Lubricate the primary piston assembly with
clean brake fluid and install the assembly into the
master cylinder bore. With a blunt rod, push the
assembly down the bore sufficiently to preload the
pistons. While holding the preload, install the stop pin
and valve assemblies into
the master cylinder body and tighten securely. (13) Install a new O ring to the groove on the boss
of the mounting flange of the master cylinder.
(14) Install new O rings to th e pressure differential
pistons, smear them with cl ean brake fluid and install
them into the master cylinder body. (15) Install a new O ring to the pressure differen-
tial end plug, install the plug to the master
cylinder
body and tighten to the specified torque. (16) Using a blunt probe entered through the
sensing switch location hole, separate the pressure
differential pistons and install the switch actuating
lever between them. (17) Screw the sensing switch into its locating
hole until the detents on the switch body just contact
the locating hole facing (w ith the radial grooves).
Screw the switch assembly in a further half to one full
turn ensuring that the dete nts locate in the grooves.
(18) Install new valve seal s to the proportioning
valve plungers, with the serrations of the seals facing
away from the hexagons of the plungers.
(19) Install the new O rings to the
proportioning
valve plugs. (20) Install the valve springs over the stems of the
proportioning valves, insert the install the valve
plugs.
Tighten the plugs to the specified torque.
(21) Install a new O ring to the base of the fast fill
valve assembly. Install a new valve washer to the base
of the valve.
(22) Install the fast fill valve assembly in
the
primary reservoir port (nearest to the mounting flange
of the master cylinder) and install the snap ring
to
retain the assembly. Ensure that the snap ring is
correctly seated in the groove. (23) Smear the new reservoir retainers with clean
brake fluid and install them into the reservoir ports.
Carefully press the brake fluid reservoir into position,
ensuring that the outlet extensions are fully inserted in
the reservoir retainers. (24) Install the reservoir cap insert to the dia-
phragm and press the cap assembly onto the reservoir.
TO INSTAL

Installation is a reversal of the removal procedure
with attention to the following points:

(1) Pour a small amount of clean brake fluid into
the reservoir and pump the master cylinder pistons
with a blunt rod until fluid begins to emerge from the
outlets. (2) Install the master cylinder to the brake servo
unit and loosely install the master cylinder retaining
nuts. (3) Connect the brake pipes to the master cylin-
der outlets, but do not tighten at this stage. (4) Securely tighten the nuts retaining the master
cylinder to the brake servo unit.
(5) Securely tighten the brake pipes and connect
the wiring to the pressure sensing switch.

(6) Fill the master cylinder reservoir with clean
brake fluid and bleed the brakes as described under
the Hydraulic System heading. (7) Check and if necessary adjust the brake
pedal height and free play as described under the
Brake Pedal heading.
4. BRAKE SERVO UNIT

TO CHECK OPERATION
(1) With the engine switched off, apply the
footbrake several times to exhaust all vacuum from
the system.
(2) Apply the footbrake and hold the brake pedal
fully depressed.
(3) Start the engine. If the servo unit is function-
ing satisfactorily a distinct downward movement of
the
brake pedal should be noticed. Should the pedal fail to move downward when the
engine has been started, the vacuum system can be
considered inoperative.

NOTE: If the pedal continues to fall away
there is a fault in the hydraulic system.

(4) Ensure that the brake pedal is fully released,
start the engine and run it at medium speed. Stop the
engine.