1969 DATSUN 610 length

ENGINE

Dismantling

Remove

the

engine
from
the
vehicle
as

previously
described

and

carefully
clean
the
exterior

surfaces
The
alternator

distribu

tor

and
starter
motor
should
be
removed
before

washing
Plug

the
carhurettor

air
horn
to

prevent
the

ingress
of

foreign
matter

Place
the

engine
and
transmission
on

the
engine
carrier
ST4797

0000
if

available
and
dismantle
as
follows

Remove
the

gearbox
from
the

engine
Disconnect
the
intake

manifold

water
hose
the
vacuum

hose
and
the
intake
manifold

to
oil

separator
hose
Remove
the
intake
manifold
with
the

carburettor
Fit
the

engine
attachment
ST3720OG18
to
the

cylin

der
block
and

place
tre

engine
on
the
stand
ST371
00000

Remove
the
clutch

@
Ssembly
as
described
in
the
section

CLUTCH
Remove
the
exhaust
manifold
and
heat
baffle

plate

Take
off
the
fan
blades
and
remove
the
water

pump
pulley
and

fan
belt
Remove
the
rocker
cover
hose
manifold
heat
hose
and

by
pass
hoses

Remove
the

generator
bracket
and
the
oil
fIlter
Extract
the

engine
breather

assembly
from
above
Note
that
the
breather

is
fitted
to
the

guide
and
is
installed
with
a
O

ring
which
is

pressed
into
the

cylinder
block

Flatten
the
10ckwasher
and
unscrew
the
crankshaft
pulley

nut
Withdraw
the

pulley
with
the

puller
ST44820000
if
available

but
do
not
hook
it
in
the
V

groove
of
the

pulley

Remove
the
rocker
cover
and
take
off
the
rubber

plug

located
on
the
front
of
the
cylinder
head

Straighten
the
lock

ing
washer
and
remove
the
bolt

securing
the

distributor
drive

gear
and
camshaft

sprocket
to
the
camshaft
Remove
the
drive

gear
and
take
off
the

sprocket
See

Fig
A
3

Remove
the

cylinder
head
bolts
in
reverse

order
to
the

tightening

sequence
sOOwn
in

Fig
A
18
and
lift
off
the

cylinder

head
as
an

assembly
See

Fig
A
4
Note

that
in
addition
to
the

ten

cylinder
head
bolts
there
are
also
two
bolts

securing
the

chain
cover
to

the
head
Invert
the

engine
and
remove
the
oil

sump
Remove
the
chain
cover
and
oil

flinger
Take
off
the
nut

securing
the
oil

pump
sprocket
and
withdraw
the

sprocket
with

the
chain
in

position
as
shown
in

Fig
A5
Remove
the
oil

pump

and
stramer
Note

that
two
of
the

pump
mounting
bolts
are

pipe
guides

Remove
the

timing
chain
crankshaft

sprocket
chain
ten

sioner
and
chain

stop

Remove
the

connecting
rod

caps
and

push
the

piston
and

connecting
rod
assemblies

through
the
tops
of
the
bores

Keep

all

parts
in
order
so

they
can
be
assembled
in
their

original
posi

tions

Take

out
the

flywheel
retaining
bolts
and
withdraw
the

flywheel
Remove
the
main

bearing

caps
but
take
care
not
to

damage
the

pipe
guides
Lift
out

the
crankshaft
and
main
bear

ings
noting
that
the

bearings
must
be
reassembled
in
their

original

positions
Remove
the

piston
rings
with
a
suitable

expander
and

take
off
the

gudgeon
pin
clips
The

piston
should
be
heated
to

a

temperature
of
50
to
600
122
to
1400F
before

extracting

the

gudgeon
pin
Keep
the
dismantled

parts
in
order
so

they

can
be
reassembled
in
their

original
positions

Remove
the
camshaft
rocker
ann
shaft
and
rocker
ann

assemblies
from
the

head

by
taking
off
the
cam

bracket

clamp

ing
nuts
It
is
advisable
to
insert
disused
bolts
in
the
No
1

and

No
5
bracket
holes
as
the
cam
bracket
will
fall
from
the
rocker

ann
shaft
when

it
is
removed
Remove

the
valve

cotters

using

the

special
tool
ST47450000

and
dismantle
the
valve
assemblies
Keep
the

parts
together
so

they
can
be
installed
in
their

original

order

ENGINE

Inspection
and
Overhaul

Cylinder
head
and
valves

Inspection
and
overhaul

procedures
can

be
carried
out

by

following
the
instructions

previously
given
for
the
L14
LI6

and
LIB

engines
noting
the

following
points

Measure
the

joint
face
of
the

cylinder
head

using
a

straight

edge
and
feeler

gauge
The

permissible
amount
of
distortion
is

0
03
mm
0
0012
in
or
less
The
surface
of
the
head
must
be

reground
if
the
maximum
limit
of
0

1
mm

0
0039
in
is

exceeded

Oean
each
valve

by
washing
in
petrol
then

carefully
examine

the
stems
and
heads
Discard

any
valves
with
worn

or

damaged

stems
Use
a

micrometer
to
check
the
diameter
of
the
stems

which
should
be
8
0
mm
0
315
in
for
both
intake
and
exhaust

valves
If

the
seating
face
of
the
valve
is

excessively
burned

damaged
or
distorted
the
valve
must
be
discarded
The
valve

seating
face
and
valve

tip
can
be
refaced
if

necessary
but

only

the
minimum
amount
of
metal
should
be
removed
Check
the

free

length
and
tension
of
each
valve

spring
and

compare
the

figures
obtained
with
those

given
in
Technical
Data
at
the
end

of
this
section
Use
a

square
to
check
the

springs
for
deformation

and

replace
any
spring
with
a
deflection
of
1
6
mm
0
0630
in

or
more

Valve

guides

Measure
the
clearance
between
the
valve

guide
and
valve

stern
The
stem
to

guide
clearance
should

be
0
025
0
055
mm

0
0010
0
0022
in
for
the
intake
valves
and
0
04
0
077
mm

0
0016
0
0030
in
for
the
exhaust
valves
The
maximum
clear

ance

limit
is
0
1
mm
0
0039
in
The
valve

guides
are
held
in

position
with
an
interference
fit
of
0
040
0
069
mm
0
0016

0
0027
in
and
can
be
removed

using
a

press
and
valve

guide

replacer
set
ST49730000
under
2
ton

pressure
This

operation

can

be
carried
out
at
room

temperature
but
will
be
more
effec

tively

performed
at
a

higher
temperature
Valve

guides
are

available
with
oversize
diameters
of
0
2
mm
0
0079
in
The

cylinder
head
guide
bore
must
be
reamed
out
at

normal
room

temperature
and
the
new

guides
pressed
in
after

heating
the

cylinder
head
to
a

temperature
of

approximately
800
C
1760F

The
standard
valve

guide
requires
a
bore
of
14
0
14
018
mm

0
551
0
552

in
and
the
oversize
valve

guide
a
bore
of
14
2

14
218
mm
0
559
0
560
in
Ream
out
the
bore
of
the

guides

to
obtain
the
desired
finish
and
clearance
Use
the
reamer
set

ST49710000
to

ream
the
bore
to
8
000
8
015
mm
0
3150

0
3156
in
The
valve
seat

surface
must

be
concentric
with
the

guide
bore
and
must
be
corrected
if

necessary
using
the
new

valve

guide
as
axis

Valve
seat
inserts

Check
the
valve
seat

inserts
for

signs
of

pitting
The

inserts

cannot
be

replaced
but

may
be
corrected
if

necessary
using
a

valve
seat
cutter

ST49720000

Scrape
the
seat

with
the
450

cutter
then

reduce
the
width
of
the

contacting
faces

using
the

150
and
600
cutters
for
the
intake
valve
inserts
and
150
cutter

for
the
exhaust
valve
inserts
Seat
correction
dimensions
are

shown
in
millimeters
in

Fig
A
6

Lap
each
valve
into
its
seat
after

correcting
the
seat
inserts

Place
a
small

quantity
of
fme

grinding
paste
on

the

seating
face

of
the
valve

and
lap
in
as

previously
described
for
the
Ll4
LI6

and
L
18

engines

S5

pulley
should
be

aligned
with
the
T
mark
on
the
chain
cover

Install

the
cylinder
head

assembly
Coat

the

cylinder
block

side
of
the
head

gasket
with

sealing
agent
Three
Bond
No
4

or

equivalent
but
take
care
that

the
scaling
agent
does
not

enter

the

cylinders

Tighten
the
head
bolts
in
several

stages
to
a

torque
reading

of
8

0
to
9

0

kgrn
58
to
65
lb

ft
Tighten
the
bolts
to
the

sequence
shown
in

Fig
A

IB

Pull
the

timing
chain
out
of
the
chain
cover
and
set
it
on

the
camshaft

sprocket
so
that
the

timing
marks
are

aligned
then

place
the

sprocket
and
chain
on

the
camshaft

Install
the
distributor
drive

gear
on
the
camshaft
and

tighten
the
bolt
to
a

torque
reading
of
4
5
to

5
5

kgrn
32
6
to

39
8
lb
ft
Note
that
the
camshaft
bolt
has
a
left
hand
thread

Adjust
the
valve
clearances
as
described
under
the

appro

priate
heading
Fit
the
rubber

plugs
at
the
front
and
rear
of
the

cylinder
head

taking
care
to

apply
sealing
agent
to
the
rear

plug

Install
the
chain

adjusting
screw
and

adjust
the
tension

of
the
chain
in

the

following
manner

Rotate
the
crankshaft
clockwise
to
establish
the
correct

chain
tension
screw
the

adjusting
screw

fully
home
then
back

it
off

by
half
a
turn

and
secure
with
the
locknut

Install
the
valve
rocker
cover
and
fit
the
water

pump
Note

that
one
of
the
water

pump
mounting
bolts
also
secures
the

generator
adjusting
arm

Install
the
bracket
and
alternator
water

pump
pulley
fan

blades
and
fan
belt

Tighten
the
fan
bolts
and
lock
each
pair

of
bolts

together
using
wire
inserted
through
the
holes

provided

in
the
bolts

Install
the
oil
filter
and
fit
the
rocker
cover
hose
Install

the
distributor
so
that
the
vacuum
control
unit

and
rotor

arc

positioned
as
shown
in

Fig
A
19

Oil
the
distributor
driven

gear
Fit
the
breather

assembly

the
clamp
of
the

pipe
is

tightened
together
with
the
exhaust

manifold
Install
the

spark
plugs
and
connect
the

high
tension

leads

Install
the
exhaust
manifold
Fit
the
head
shield

plate
and

engine
slinger
and

tighten
them

together
Note
that
the
exhaust

manifold

gasket
must
be
fitted
with
the
steel

plate
facing
the

manifold
Install
the
clutch
as
described
in
the
section
CLUTCH

Remove
the

engine
from
the

mounting
stand
and
install

the
gearbox
intake
manifold
and
carburettor
stater
motor

engine
mounting
oil

pressure
warning
switch
etc

Fill
the

engine
and

gearbox
to
the
correct
levels
with

recommended
oils
and
refill
the

cooling
system
Adjust
the

ignition

timing
and
carburettor

as
described
in
the

appropriate

sections

VALVE
CLEARANCES

Adjusting

The
valves
clearances
can

be
adjusted
in
a
similar
manner

to
the
instructions

given
for
the
L14
LI6
L18

engines

Initially
adjust
the
clearances
with
the

engine
switched
off
and

cold
to

0
2
mm
0
0079

in
for
both
intake
and
exhaust
valves

Set
the
final
clearances
to
0
28
mm
0
011
in
for
both
intake

and
exhaust
valves
with
the

engine
warmed
up
to
its
normal

operating
temperature
OIL
PUMP

The

gear
type
oil

pump
is

chain
driven
from
a

sprocket
on

the

crankshaft
The

pump
can

be
removed
in
the

following
manner

1
Remove

the

sump
plug
and
drain
the

engine
oil
Remove

the
distributor
as
described
in
the
section
IGNITION

2
Remove
the

cylinder
head

assembly
fan
belt
crankshaft

pulley
and

oil

sump

3
Take
off
the
chain
cover
with

oil
fl

inger

4
Remove
the
oil

pump
and
crankshaft

sprockets
with
the

drive
chain
then
withdraw
the

pump
after

removing
the

four

mounting
bolts

Separate
the
cover
from
the

body
by

unscrewing
the
four

securing
bolts
and
withdraw
the
drive
and
idler

gear

assemblies
Unscrew
the
threaded

plug
and

take
out

the

relief
valve
and

spring

Clean
the

parts
thoroughly
and

inspect
them
four

signs

of
wear
or

damage
Check

the

following
clearances

Gear
backlash
0

1
to

0
5
mm
0
0039
to

0
0195

in

Side
clearance
between

gear
and

body
0
016
to
0
15
mm
0
0006
to

0

0059
in

Clearance
between

drive
shaft
and

body
0
016
to
0
1
mm
0
0006
to

0
0039
in

Clearance
between

drive
shaft
and
cover
0
02
to
0
1
mm
0
00078
to

0
0039
in

Clearance
between

idler

gear
and
idler
shaft
0
016
to

0
1
mm
0

0006
to

0
0039
in

Assembly
is
a
reversal
of
the

dismantling
procedures
taking

care
to

position
the
gears
so

that
the
dotted
mark
is
towards
the

cover

Install
the

pump
and

adjust
the
tension
of
the
drive
chain

by
ph
otting
the
pump

body
as

shown
in
Fig
A
20

When
the

chain
is

correctly
tensioned
it
should
be

capable
of
a
deflection

of
2
0
to

3
0
mm

0
079
to

0
118
in
as

indicated

OIL
PRESSURE
RELIEF
VALVE

The

pressure
relief
valve
shown
in

Fig
A
21
is
not

adjustable

This
valve

regulates
the
oil

pressure
to
4
55
4
85

kg

sq
cm

64
7
69
0
lb

sq
in
and
when

opened
allows
the
oil
to

by
pass

through
a

passage
in
the

pump
body
and
return
to
the

sump

Check
the
free

length
of
the

spring
which
should
be
64
0

to
66
0
mm
2
51
to
2
60
in
The

compressed
length
should

be
50
mm
at

7
8
to

9
7

kg
1
96
in
at
17
2
to
21
4Ibs
Renew

the
spring
if

necessary

OIL
FILTER

The
oil
filter
is
of
the
full
flow

type
with
a

replaceable

element
and

incorporates
a

by
pass
valve
in
the
cover

Oil

leaks
can
be
corrected

by
replacing
the

body
centre

shaft
or
cover

gaskets
The

body
and
centre

shaft

gaskets
should

always
be
renewed
after

dismantling
the
filter

S
1

Renew
the
ruter
element
at

10
000
km
6000

miles
inter

vals

Dismantling
is
a

straight
forward

operation
Remove
the

plug
from
the
cover

and
withdraw
the
washer
spring
and

by
pass

valve
Check
the
free

length
and

compressed
length
of
the

by
pass

valve

spring
and
renew
if
necessary
The
free

length
of
the

spring

should
be
54
5
to
56
0
mm
2
14
to
2
20
in
and
the

compressed

length
49
0
mm
1
93
in

EMISSION
CONTROL
SYSTEM

Crankcase
and
exhaust

gas
emissions
are
controlled

by
two

systems
The
crankcase
emissions
by
a
Positive
Crankcase
Ventila

tion
System
and
the
exhaust
emissions

by
a
Nissan
Air

Injection

System
Brief

descriptions
of
the

systems
together
with
the
test

ing
and

servicing
procedures
are

given
below

Positive
Crankcase
Ventilation

System

lbis

system
returns
the
blow

by
gases
to
the
intake
mani

fold
and
the
carburettor
air
cleaner
see

Fig
A
22
Under

part

throttle
conditions
the
intake
manifold
draws
the

gases
through

a
variable
orifice
valve
Control
valve
into
the
combustion

chambers

Ventilating
air
is
then
drawn
from
the
carburettor

air
cleaner
and

passes
throy
gh
a
tube
in
to
the
crankcase

With
the
throttle

fully
open
the
manifold
vacuum
is
insuf

ficient
to
draw
the

gases
through
the
valve
Under
these
conditions

the

gases
flow

tluough
the
tube
to
the
air
cleaner
in
the
reverse

direction
The

gases
are
therefore
retained
or
burnt
to
lessen

the
risk
of
air

pollution

Servicing
and
testing

Once
a

year
or

every
20
000
km
12
000
miles
the
Posi

tive
Crankcase
Ventilation
System
should
be
serviced
as
follows

Check
all
hoses
and
connectors
for

signs
or

leakage
Discon

nect

the
hoses
and
blow

through
them
with

compressed
air
to

make
sure

they
are
not
blocked
Fit
a
new
hose
if
air
cannot

be
forced
through

Check
the
ventilation
control
valve
for

servicability
and

renew
it
if
defective
To
test
the
valve
run

the
engine
at

idling

speed
see
under
IGNITION
TIMING
AND
IDLING
SPEED

and
disconnect
the
ventilation
hose
from
the
rocker
cover
If

the
valve
is

working
correctly
a

hissing
noise
will
be
heard
as

air

passes
through
the
valve
and
a

strong
vacuum
should
be
felt

immediately
a

fInger
is

placed
over
the
valve
inlet
The
valve

cannot
be
serviced
and
must
be
renewed
if

unsatisfactory

Exhaust
emission
control

system

The
Nissan
Air

Injection
System
comprises
an
air
cleaner

belt
driven
air
injection

pump
check
valve
anti
backfIre
valve

and
the
related

connecting
tubes
and
hoses
The
sealed

pump
is

driven

by
the

engine
and

injects
clean
mtered
air
into
the
exhaust

port
of
each

cylinder
The
clean
air
combines
with
unbumt

gases

as

they
are

expelled
into
the
exhaust
manifolds
and
reduces
the

emissions
to
below
the

permissible
level

required
by
air

pollution

laws

A
modified
carburettor
and
distributor
is
fitted
with
this

type
of

system
The
air

injection
system
is
shown
in

Fig
A
23

The
anti
backfrre

valve
is
controlled

by
intake
manifoLd

vacuum
and
is
fitted
to

prevent
the
exhaust

system
from
back

fIring
during
deceleration
When
decelerating
the
mixture
in

the
intake
manifold
is
too
rich
to
bum
and

ignites
as
it
combines

with
air

injected
by
the

pump
The
valve
shuts
off

the
air
delivered

SI2
to
the
exhaust

system
during
the

flrstpredetennined
period

of

dCl
cleration
and

prevents
back

firing
from

occuring

To

check
valve
is
located

between
the
air

pump
and
air

injection
nozzle
and
is
fitted
to

prevent
a
backflow
of
exhaust

gases
from

entering
the

system
The
valve
doses
when
the

exhaust
manifold

pressure
exceeds
air

injection

pressure
as
It

will

at
high
speed
or
if
the

pump
drive
belt
fails

A
relief
valve
is
mounted
in
the

discharge
cavity
of
the
air

pump
and
is

incorporated
to

hold
the
exhaust

gas
temperatures

to
a
minimum
to
minimize

any
loss
of

power
caused

by
the
air

injection

system
and
to

protect
the

pump
from
excessive
back

pressures

Testing

The

following
tests
should

be
carried
out
to
make
sure
that

the
exhaust
emission
control

system
is

operating
correctly
The

engine
must

be
at
normal

operating

temperature
to

perfonn
the

tests
Before
the

system
can
be
tested
the

engine
itself
must
be

checked
to

ensure
that
It
is
functioning
correctly
Disconnect

the
ant
backflTe
valve

sensing
hose
and
insert
a

plug
into
the

hose
to
close
the

passage
to
the
intake
manifold
Make
sure
that

the

engine
operates
normally
and
then

reconnect
the

parts

Testing
the
check
valve

Run
the

engine
until
it
reaches
its
nonnal

operating
tem

pemture
and
check
all
hoses
and
connectors
for

signs
of
leakage

Disconnect
the
air

supply
hose
from
the
check
valve
and

check
the
position
of
the

plate
inside
the
valve
body
The

plate

should
be

lightly
positioned
against
the
valve
seat
and
away
from

the
air
distributor
manifold
Insert
a
suitable
probe
into
the

valve
and

depress
the

plate
When
released
the

plate
should

return

freely
to
its

position
against
the
valve
seat

Leave
the
hose
disconnected
and
start

the

engine
Slowly

increase
the

engine
speed
to
1500
r

p
m
and
examine
the
valve

to

make
sure
that
the
exhaust

gases
are
not

leaking
The
valve

may
flutter
or
vibrate
at

idling
speed
but
this
is

quite
nonnal

Renew
the
valve
if

necessary

Testing
the
ant

backftre
valve

Run
the

engine
until
it
reaches
its

normal
operating
tem

perature
Check
the
hoses
and
connections
for

signs
of

leakage

Rectify
any
leakage
before

testing
the
vaNe

Accelerate
the
engine
in
neutral
and
allow
the
throttle

to
close

quickly
The
valve
is

operating
correctly
if
the
exhaust

system
does
not
backfire

Further
test
can
be
made
with
the

by

pass
hose
to
the
air

pump
suction
line
disconnected
from
the

valve

Open
and
close
the
throttle
valve
rapidly
Hold
a

fInger

over
the
valve
outlet
and
check
that
air
flows
for
between
a

half
and
one
second
If
air
does
not

flow
or

alternatively
if
it

flows

continuously
for
more

than
two
seconds
the
valve
is

faulty
and
must
be
renewed

Disconnect
the
vacuum

sensing
hose
from
the
valve
Insert

a

suitable

plug
securely
into
the

hose
The
valve
is
not

functioning

correctly
if
the

idling
speed
now
differs

excessively
from
the

speed
at

which
the

engine
operated
with
the
hose
connected

Testing
the
air

pump

Special
tools
are

required
to
test
the
air

pump
The
vehicle

should
therefore
be
taken
to
an

Approved
Agent
capable
of

4

Cylinder
head

gasket

Cylinder
block
side
6
Oil

pump

5
Intake
manifold
Block

installing
surface

near
to

oil
exit

Control
valve

Angle
tube
connector
7
Rocker
cover

Tapping
screw
of
bume

plate
installing

SPECIFICATION

a
Valve

mechanism

Valve
clearance
cold
In
0
25
mm
0
0098
in

Ex
0
25
mm
0
0098
in

Hot
Reference
value
0
0098
in

In
0
28
mm
0
011
in

Ex
0
28
mm
0
011
in

Valve
head
diameter
In
42mm
1
654
in

Ex
35mm
1
378
in

Valve
stem
diameter
In
Ex
8mm
0
3150

in

Valve

length
In
116
4
mm
4
58
in

Ex
117
2
mm
4

61
in

Valve
lift
9
0mm
0
354
in

Valve

spring
free

length
Outer
42
5
mm
1
673
in

Inner
414mm
1
630

in

Valve

spring
loaded

length
Outer
29
0
mm
I
142
in

Inner
26
0
mm
1
024

in

Valve

spring
assembling
height
Outer
37
0mm
I
457

in

Inner
34
0
mm
1
339
in

Valve

spring
effective
wind
number
Outer
4
5mm
0
1772
in

Inner
6
25
mm
0
2461
in

Valve

spring
wire
diameter
Outer
4
2mm
0
1654
in

Inner
29mm
0
1142
in

Valve

spring
coil
diameter
Outer
27
5
mm
1
083
in

Inner
19
9mm
0
733

in

Valve

guide
length
In
48mm
1
890
in

Ex
60mm
2
362
in

Valve

guide
height
from
cylinder
head
In
Ex
16
7mm
0
657
in

Valve

guide
inner
diameter
In
Ex
7mm
0
2756
in

Valve

guide
outer

diameter
In
Ex
14
2mm
0
559
in

Valve

guide
to
stem
clearance
In
0
025
0
055

mm

0
0010
0
0022
in

Ex
0
04
0
077
mm

0
0016
0
0030
in

Valve

guide
interference
fit
In
Ex
0
040
0
069
mm

0
0016
0
0027
in

Max
tolerance
of
above
clearance
In
Ex
0

1
mm
0
0049
in

Valve
seat
width
In
Ex
2
05
2
33mm

0
0807
0
0917
in

Valve
seat

angle
In
Ex
900

b
Camshaft
and

timing
chain

Camshaft
end

play
0
07
0
148
mm

0
0028
0
0058
in

Cam

height
36
53
mm
1
438
in

Camshaft

journal
diameter
37
45
37
475
mm

1
474

1
475
in

S14

Tighten
the
inner

socket
until
the
ball
seat
is
at

the
rack

end
then
back

off
the
socket

by
30
to

40

degrees
and

tighten

the

stop
nut

to
a

torque

reading
of
8
0
to
10
0

kgm
57
8
to

72
3
Ib
ft
as

shown
in

Fig
C
25

With
the

tie
rod
assembled
measure
the
force

required
to

swing
the
tie
rod
Hook
a

spring
balance
at
the
end
of

the
rod

as
shown
in

Fig
C

26
and
check
that
the
force
is
from
3
0
to

6

0

kgm
6
6
to
13
2
lb
Measure

the
stroke
of
the

rack
which

should
be
73
0
mm

2
874
in
Fit

grease
nipples
at
both

ends
of
the
rack
and

pinion
housing
Apply
multipurpose
ase

to
each

joint
until

a
small

quantity
of

grease
appears
at

the
out

let

hole
in
the
boot
Do
not
use
an
excessive

amount
of

grease

The

pinion
housing
should

be
lubricated
until
a
small

quantity

of

grease

appears
between

rack
and

housing

Remove

the

grease
nipple
and
fit
the

plug
Fit
the
boot

Fill

the
grease
reseIVoir
with

grease
and
attach
it
to

the
rack

housing
Adjust
the

length
of

the
tie
rods
at
both

sides
as

des
ribed
under
FRONT
WHEEL

ALIGNMENT

Assemble
the

steering
lower

joint
to
the

rack
and

pinion

and

tighten
the
lower

joint
bolt
to

a

torque
reading
of
4
0
to

5
0

kgm
29
0
to

36
0
Ib
ft
Installation
of

the
rack
and

pinion
assembly
is
a
reversal

of

the
removal

procedure

COLLAPSIBLE

STEERING

Removi
8
and

Dismantti
8

The

steering
coluJllfl
See

Fig
C
3
can
be
removed

in
a

similar
manner
to
the
standard

type
of
column

Take
care
not

to

drop
the
column

when
it
is
removed
from
the

vehicle
or
the

shaft

may
collapse
Do
not
exert

any
pressure
on

the
column
or

the
bellows
may
be
defonned
To
dismantle

proceed
as
follows

Remove
the

retaining
wire
and

pull
out

the
lower
shaft

Disconnect
the
control

linkage
if
the
vehicle
is
fitted
with
auto

matic
transmission
Slide
the

steering
shaft
bracket

away
With

draw
the

screws
and

separate
the

upper
and
lower
tubes

Assembly
is
a
reversal
of

the

dismantling
procedure
Note

that
the
slot
in
the
universal

joint
must
be

aligned
with
the

punch

mark
at
the

top
of
the

upper

steering
shaft
as
shown
in

Fig
C
28

When

installing
the
column
make
sure
that

the
bellows
do
not

become
bent
of
twisted

as
the

clamp
and
bottom

plate
bolts

are

tightened

TechnICal
Data

TYP

Gear
I1ltio
Rack
and

pinion

17
8
I

Steerin
column
shaft

spring
Wire
diameter

Freelenath

CoiltW
llJ

Load

length

Retainer

sprinJ
dimension
Wire
diameter

F

CoilturnJ

l
oadxlensth

Side
rod

SPrina
dimeruion
Wire
diameter

Fn
elenath

Coil
turns

Load
x

lensth

Side
rod
inner
ball

joint
ax
ia
I

play

Side
rod

outer
ball

joint
uiaJ

play

Pinion

thrultplay

Retainer
float

play

Rack
moke

Side
rod
inner
ball

joint

swinsinl
torque

Side
rod
uter
ball

joint

swingina
torque

Pinion
oration

torque

Rack

pre1
d

Wheel

alipment
1IIl1a
a
ondition

Cut

c
m

Kinl
pin
inclination

Toe
in

S
In

teerinlan

eOut
10
40

8005

12

15
mm
0
47
0

59
in

38024

35036
2
9

mm
0
11
2
in

36
5
mm

1
4370
in

3

25q
551
18mm
0
7087

2

6
mm
1
102in

26
3
mm
1
035
in

5
5

20

kl
lbs

16
3

mm
0
642
in

26
mm

0
102

in

19
0
mm
0
748

in

6
3

40

q
88Ibs
17
0

mm
0
669
in

0
06
mm
0
002
m

0
1
0
5
mm

0
0039
0

0197
in

less
than
0
3
mm
0

0118
in

0
09
mm
0
0035
in

73
mm
t

2
87
in

0
8
1

5

q
m

5
8
10

8Ib
n

0
8
J
S

kg
m
5
8
JO
8Ib
ft

8

20q
7
17
lb

in

8
18

q
l7
6
39

7Ibs

Strut

DlelDbly

Strut
outer
Ilia

50
8
mm

2
0
in

Piston
rod
di
a

20
mm

0
787
in

Cylinder
inner
dia
30mm
I
181
in

Dampinl
force
at

pistonlpeed

0
3
m
I

1
08
ft
I

Expansion
67

IOq
I47
7
221bs

Compression
25

4kl
55
1

8
81bs

Shock
absorber
inner

cylinderlcngth
IOmm
16
1

in

R
IlD
vchicle

LH
D

ehide

CoiIsprina

LIi
IlIi
OOIh

Wire
diameter
mm

in
12
0
472
12
0
472
12
0
472

Coil
diameter
mm
in

130
5
12
130
5

12
130
5
12

Coil
Ium
S

Coil

effective
turnl

6
5
6
5
6
5

Free

lenJth
mm
in
371
5
14
6
386
5
15

2
371
5
14
6

Installed
hei
ht
load

mmq
180
270
200

270
180
270

in
lb
7
1
594
7

9
594
7
1
594

SpriDgCOfl
ltant

ka
mm

1
45
US
1
45

529

1

Clamp
the

flange
and
bolt

assembly
in
a
vice
Push
the

rear

shell
and
stud
assembly
down
and
turn
it
anti
clockwise

to
release
Take
care
not
to

drop
the

valve
body
and

di

phrd

gm
plate
which
will
be
detached
at
the
same

time

Remove
the
retainer
and
detach
the

bearing
and
seal
from

the
rear
shelL
A

needle
can
be
used
to
remove

the
retainer

Pull
the
diaphragm
from
the

groove
in
the

diaphragm
plate

Remove
the
valve

body
guard
and
the
air
silencer
See

Fig

0
8
Remove

the
valve

plunger
stop
key

Fig
D
9
detach

the
valve
rod
and

plunger
assembly
and
the
air
silencer

fllter
from
the
valve

body
and

diaphragm
plate
Pull
out
the

reaction
di
c

To
dismantle
the
front
shell
and
stud

assembly
first
pull

out

the

push
rod
then
remove
the

plate
and
seal
and
the

check
valve

MASfER
V

AC
SERVO
UNIT

Assembling

inspect
the

components
and

replace
any
which
show
signs

of
wear
or

damage
As

previously
stated
the

repair
kit
contains

a
number
of
items
which
must

be
used
to

replace
the
original

parts
Assembly
is
a

reversal
of
the

dismantling
procedure
but

the
following

components
should
be
lubricated
with
silicon

grease

Grease
the

lip
and
face
of
the
seal
the
lip
of
the

poppet

both
faces
of
the
reaction
disc
Grease
the
diaphragm
edge
in

contact
with
the
front
and
rear
shell

Grease
the
face
of
the

plate
and
seal

assembly
which
con

tacts
the
front
shell
and
push
rod
the
face
of
the
check
valve

in
contact

with
the

packing
and
also
the
push
rod
at
the

point

of
contact
with
the

diaphragm
plate

Check
the
clearance
between
the
master

cylinder
and
push

rod
after
assembling
The
clearance
should
be
4
0
0
5
0
mm

ot
575
0
0197
0
in
and
can
be

adjusted
if
necessary
by

altering
the
length
of
the

push
rod
Installation
of
the
Master

Vac
unit
is
a
reversal
of
the
removal

procedure

HANDBRAKE
CABLES

Removing

The
cables
of
the
mechanical
handbrake
See

Fig
D
3
can

be
removed
in
the
following
manner

Front
cable

1
Release
the
hand
brake
and
disconnect
the
front
cable

by

removing
the
clevis

pin
1
in

Fig
D
I
0
at

the
handbrake

equalizer
Screw
out
the

adjusting
nut
2
to
disconnect

the
cable
from
the
handbrake
lever

2

Straighten
the
cable

clamp
I
in

Fig
D
II
and

pullout
the

the
lock

plate
2
to
extract
the
cable
from
the
retainer

3
Detach
the
cable
outer

casing
from
the
handbrake
control

bracket
then

pull
out
the
front

cable

Control
Stem

Removal
of
the
control
stem
is
a

straight
forward

opera

tion
Refer
to

Fig
D
12

and
take
out

the
clevis

pin
I
connect

ing
the

yoke
2
to
the
lever

3
Remove
the
clevis

pin
4
secur

ing
the

guide
5
to
the
bracket
6
then
withdraw
the
control

stem

S34
Re
lf
rnble

Remove
the
nut
from
the

adjuster
and
disconnect
the

left
hand
rear
cable

Disconnect
the
rear

cables
from
the
wheel

cylinders
Refer

to

Fig
D
13

pull
out
the
lock

plates
1
and
2
andremove

the
clevis

pin

HANDBRAKE
CABLES

Inspection
and
Installation

lnspect
the
cables
and

replace
them
if

any
of
the
wires

have
broken
Cables
which
have
stretched
must

be
renewed
as

it
will
no

longer
be

possible
to

adjust
the
handbrake

correctly

Check
the

springs
and
renew
them
if

they
have
weakened
or

broken

Oteck
the
centre
lever
trunnion

pin
and

equalizer
and

replace
as

necessary

Installation
is
a
reversal
of
the
removal

procedure
Grease

all

sliding

parts
and

adjust
the
handbrake
as
described
below

HANDBRAKE

Adjusting

Release
the
handbrake
and

adjust
the
rear
brake
shoes
as

described
under
the

appropriate
heading

Adjust
the
front
and
rear
cables
to

give
a
handbrake
lever

stroke
of
85
to

95
mm
0
35
to
3
74
in

by
setting
the

adjust

ing
nuts
shown
arrowed
in

Fig
D
14

BRAKE
PEDAL

Adjusting

Adjust
the

length
of

the
master
cylinder
push
rod
until

the
brake
pedal

pad
is
set
to
a

height
of
187
0
mm
7
36
in

with
the
brake

light
switch
free
from
the

pedal
stopper
Lock

the

push
rod

by
tightening
the
locknut

l
in

Fig
D
15
Screw

in
the
brake

light
switch
until
the
screwed
shaft
of

the
switch

makes
contact

with
the

stopper
brJ
cket
bolt
then

retighten
the

locknut

Adjust
the

stopper
bolt
2
until
the
brake

pedal
pad
is
set

to
a

height
of
183
0
mm

7
2
in
then

retighten
the
locknut

The

full
stroke
of
the
brake

pedal
should
now
be
set
to
150
0

mm
5
9
in

The
brake

lamps
should

light
up
when
the

pedal
is

depressed

15
0
mm
0
6
in
see

Fig
D
16

Lubricate
all
sliding

parts
with

bearing
grease

REAR
DRUM
BRAKE

Adjusting

Jack

up
the
vehicle
at

the
rear

and
release
the
handbrake

Depress
the
brake
pedal
several

times
and
turn
the

adjuster

clockwise
until
the
drum
is
locked
See

Fig
D
I
Turn

the

adjuster
in

the

opposite
direction
until
the
shoes
arc

just
dear

of
the
drum
and
the
wheel
can
be

turned

freely
by
hand

Repeat
the

operation
on
the
other

adjuster
and
then

depress

the
brake

pedal
to
make
sure
the
brakes
are

working
correctly

BLEEDING
THE
HYDRAULIC
SYSTEM

Refer
to
the
section
BRAKING
SYSTEM
for
L14
Ll6

and
LIS

engines
and
follow
the
instructions

given
under
the

appropriate
heading

Brake

pedal

Pedal
free

height

Full
stroke
of

pedal
head

Master

cylinder

Inner
dia
of
master

cylinder

with
Master
vac

without
Master
vac

Allowable
max
clearance

between

cylinder
wall
and

piston

Wheel

cylinder

Inner
dia
of
wheel

cylinder

Front

Rear

Allowable
max
clearance

between

cylinder
wall
and

piston

Brake
drum
and
rotor

Rear
brake
drum
inner
dia

Front
brake
rotor
outer
dia
Technical
Data

Drum

inside
out
of
roundness
below
0
05

mm
0
002
in

Limit
of

reconditioning
drum

in
dia

Run
out
of
the
rotor

Limit
of

reconditioning
rotor

in
thickness
183
mm
7
2
in

150
4
mm
5
9
0
158
in

22
22
mm
7
8
in

19
05
mm

3
4
in
Lining
dimension

Front
width
x

thickness
x

length

0
13
mm
0
0051
in

Rear
width
x

thickness
x

length

50
8
mm
2
in

20
64
mm

13
16
in
Material

Pad
width
x
thickness
x

length

0
18
mm
0
0709
in
Pad

material

228
6
mm

9
in

232
mm
9
130
in
Total

braking
area

Front

Rear
229
6
mm
9
039
in

below
0
06
mm

0
0024
in

8
4
mm
0
331
in

40
x
4
5
x
219
5
mm
1
575
x

1
772
x

8
642
in

40
x

4
5
x

219
5
mm

1
575
x

1
772
x
8
642
in

D233

397
x

9
x
86
mm
1
563
x
0
354

x
3
386
in

standard
M78S

option
Sl6D

114
2
em2

17
7
in
2

351
em2
54
4in
2

835