remove seats DATSUN 610 1969 Workshop Manual

EngIne

INTRODUCTION

ENGINE

Removal

ENGINE

DismantUng

ENGINE

Inspection
and
Overhaul

VALVES
VALVE
GUIDES
VALVE
SEAT
INSERTS

CAMSHAFT
AND
CAMSHAFT

BEARINGS

Checking

CYliNDER

BLOCK

PtSTONS

AND
CONNECTING
RODS

INTRODUCTION

The
1400
1600
cc

and
1800
cc

engines
are
four

cylinder

in
line
units
with
a

single
overhead
camshaft

and

fully
balanced

five

bearing
crankshaft

The
valves
are

operated
through
rockers

which
are

directly
activated

by
the

earn
mechanism

The
crankshaft
is
a

special
steel

forging
with
the
centre

main

bearing

equipped
with
thrust
washers

to
take

up
the
end

thrust

of
the
crankshaft
The

special
aluminium

pistons
are
of

the
strut

construction
to

control
thermal

expansion
and

have

two

compression
rings
and
one
combined
oil

ring

The

gudgeon
pins
have

special
hollow
steel
shafts

and
are

a

fully
floating
fit
in

the

pistons
and
a

press
fit

in
the

connecting

rods

The
aluminium

alloy
cylinder
head
contains

wedge
type

combustion
chambers

and
is
fitted
with
aluminium

bronze
valve

seats

for
the
intake
valves

and
heat
resistant
steel
valve
seats

for
the
exhaust

valves

The
cast

iron
camshaft
is
driven

by
a
double
row
roller

chain
from
the
crankshaft

pulley

The

engine
is

pressure
lubricated

by
a
rotor

type
oil

pump

which
draws
oil

through
an

oil
strainer
into
the

pump
housing

and
then
forces

it

through
a
full
flow

oil
filter

into
the
main
oil

gallery

ENGINE
Removal

Place

alignment
marks
on
the
bonnet

and

hinges
remove

the
bonnet
from
the
vehicle

2

Drain
the

cooling
system
and
engine
and
transmission

lubricant
Remove

the
radiator

grille

3
Discon
ect
the

battery
cables

and
lift
out
the

battery

4
Detach
the

upper
and
lower
radiator

hoses
remove

the

radiator

mounting
bolts
and
lift
the
radiator

away
from

the
vehicle

The

torque
converter

c

jng
pipes
must

be

disconnected
from
the
radiator
on
vehicles

fitted
with

automatic
transmission

S
Remove

the

COOling
fan
and

pulley
disconnect

the
fuel

pipe
from
the
fuel

pump
and

the
heater
hoses
from

the

engine
attachments

6
Disconnect

the
accelerator
control

linkage
and
the

choke
CRANKSHAFT
AND
MAIN
BEARINGS

CAMSHAFT
AND
SPROCKET

FLYWHEEL

ENGINE

Assembling

VALVE
CLEARANCES

Adjusting

ENGINE

LUBRICATION
SYSTEM

OIL
PUMP

OIL
FILTER

CHANGING
THE
ENGINE

OIL

cable
from
the

carburettor

7
Disconnect

the

wirings
from

the
starter
alternator

ignition
coil
oil

pressure
switch

and

temperature
sender

unit

8
Remove

the
clutch
slave

cylinder
Fig
A
2

and
its
return

spring

9
Disconnect

the

speedometer
cable
and
withdraw

the

plug

connector
from
the

reversing
light
switch

10
Disconnect

the
shift
rods
and
seJector

rods
and
remove

the
cross
shaft

assembly
as
described

in
the
section
Gear

box

II
Disconnect

the
front
exhaust

pipe
from
the

exhaust

manifold
disconnect
the
centre

pipe
from

the
rear

pipe

and
remove

the
front

pipe
pre
muffler
and
centre

pipe

assembly

12
Disconnect
the

propeUer
shaft

flange
from
the

companion

flange
from
the

gear
carrier

13
Jack

up
the

gearbox
slightly
and
remove
the
rear

engine

mounting
bracket
bolts
remove
the

mounting
cross

member
and
handbrake

cable

c1amp

14
Remove
the
bolts

securing
the
front

engine
mounting

brackets
to
the
crossmember

15

Attach

lifting
cable
or

chains
to
the
hooks
installed
at

the
front
and
rear
of
the

cylinder
head

Lower
the

jack

under

the

gearbox
and

carefully
lift
and
tilt
the

engine
and

gearbox
unit
Withdraw
the

engine
and

gearbox
from
the

compartment

making
sure
that
it
is

guided

past
the

accessories
installed
on
the

body

ENGINE

Dismantling

Remove
the

engine
as

previously
described
and

carefully

clean

the
exterior
surfaces

Cbeck
for

signs
of
fuel
oil
or

water
leaks

past
the

cylinder
head
and
block
Remove
the
air

cleaner
alternator

distributor
and
starter
motor

Plug
the

carburettor
air
horn

and
distributor
hole
to

prevent
the

ingress

of

foreign
matter

Remove
the

gearbox
from

the

engine
drain
the

engine
oil

and
coolant
Mount
the

engine
in
a
suitable

stand
the

special

engine
attachment
ST05260001
and

engine
ST0501SOO0
should

be
used
if
available

Fig
A
3

5

Remove
the
fan

and
pulley
the

right
hand

engine
mounting

and
oil
filter
Remove
the
oil

pressure
switch
Remove
the

following
items
oil
level

gauge
spark
plugs
thermostat

housing

rocker
cover
carburettor
and
inlet
and
exhaust
manifolds

Remove
the
clutch

assembly
as
described
in
the
section

CLUTCH
Remove
the
left
hand

engine
mounting
crankshaft

pulley
water

pump
fuel

pump
fuel

pump
drive
earn
and
cam

shaft

sprocket
See

Fig
A
4
Remove
the

cylinder
head
bolts

in
the

sequence
shown
in

Fig
A

5
and
lift
off
the

cylinder

head
Invert
the
engine
and
remove
the
oil

sump
and
oil

strainer
oil

pump
and
drive

spindle
assembly
front
cover
and

chain
tensioner
Remove
the

timing
chain
oil
thrower
crank

shaft
worm

gear
and
chain
drive

sprocket
See

Fig
A
6
andA
7

Remove
the

connecting
rod

caps
and

push
the

pistons
and

connecting
rods
through
the

top
of
the
bores
as
shown
in

Fig

A
B

Keep
the

connecting
rod

caps
with
their
respective
rods
to

ensure

that

they
are
assembled
in
their

original
positions

Remove
the
flywheel
retaining
bolts
and
withdraw
the

fly

wheel

Fig
A
9
Remove
the
main

bearing
caps
using
the

special
puller
ST
1651
SOOO
to
withdraw
the
centre
and
rear
main

bearing
caps
as
shown
in

Fig
A

l
O
Remove
the
rear
oil
seal

and
lift
out
the
crankshaft
remove
the
baffie

plate
and

cylinder

block
net

Fig
A
II
Remove
the

piston
rings
with
a

suitable

expander
and

press
out
the

gudgeon
pins
under
an
arbor

press

using
the

special
stand
STl300001
as
shown
in

Fig
A

12

Keep

the
dismantled

parts
in
order
so
that

they
can

be
reassembled

in
their

original
positions
Slacken

the
valve
rocker

pivot
lock

nut
and
remove
the
rocker
arms

by
pressing
down
the
valve

springs

Remove
the
camshaft

taking
care
not
to

damage
the

bearings
and
earn
lobes
Withdraw
the
valves

using
the
valve

lifter
STl2070000
as
shown
in

Fig
A
13

ENGINE

Inspection
and
Overhaul

Cylinder
Head
and
Valves

Clean
all

parts
thoroughly
and
remove
carbon

deposits
with

a

blunt

scraper
Remove

any
rust
which
has
accumulated
in

the
water

passages
and
blow

through
the
oil
holes
with

compres

sed
air
to
make
sure

that

they
are

clear

Measure
the

joint
face
of
the

cylinder
head
for
out
of
true

as
shown
in

Fig
A
14

The
surface
should
be
checked
at
various

positions
using
a

straight
edge
and
feeler

gauge
The
permissible

amount
of
distortion
is
0
05
mm
0
0020
in
or
less
If
the

surface
is
out
of
true

by
more
than
the
limit
of
0
1
mm

0
0039

in
it
will
be

necessary
to

regrind
the
head

Clean
each
valve

by
washing
in

petrol
and

carefully
examine

the
stems
and
heads

If
the
stem
is
worn

damaged
or
not

straight
the
valve
must

be
discarded
Check
the

diameter
of
the
stem
with
a
micro

meter

The
diameter
of

the
inlet
valves
should
be
7
965

7
980
mm
0
3136
0
3142
in
and
the
diameter
of

the
exhaust

valves
7
945
7
960
mm
0
3128
0
3134
in

If

the
seating
face
of
the
valve
is

excessively
burned

damaged
or
distorted
it
must
be
discarded
A

badly
pitted

seating
face
should
be
refaced
on
a
valve

grinding
machine

removing
only
the
minimum
amount
of
metal
Renew
the
valve
if
the
thickness
of

the
valve
head
has

been
reduced

by
0
5
mm
0
0197
in
see
Technical
Data
for

valve
dimensions

The

valve
stem

tip

may
be
refaced
if

necessary
the
maxi

mum
allowance
however
is
0
5
mm
0
0197
in

The
valves
can
be

ground
in
to

their
seats
when

completely

satisfactory
The
valve
seats
and
valve

guides
should

be
in

good

condition
and
must
be
checked
as
described
in
the

following

paragraphs

VALVE
GUIDES

Replacement

The
valve
stem
to
valve

guide
clearance
can
be
checked

by

inserting
a
new
valve
into
the

guide
The
stem
to

guide
clearance

should
be
0
020
0
053
mm
0
0008
0
0021
in
for
the
inlet

valves
and
0
040
0
073
mm
0
0016
0
0029
in
for
the
exhaust

valves
If
the
clearance
exceeds
0
1
mm
0
0039
in
for
the

inlet
valves
and
the
exhaust
valves
then
new

guides
should
be

fitted

The
valve

guides
are
held
in

position
with
an
interference

fit
of
0
027
0
049
mm
0
0011
0
0019
in
and
can
be
removed

by
means
of
a

press
and
drift
2
ton

pressure
This
operation

can
be
carried
out
at
room

temperature
but
will
be
more

effectively
performed
at
a

higher
temperature

Valve

guides
are
available
with
oversize
diameters
of
0
2
mm

0
0079
in

if
required
The
standard
valve

guide
requires
a
bore

in
the

cylinder
head
of
11
985
11
996
mm
dia
0
4719

0
4723
in
dia
and
the
oversize
valve

guide
a
bore
of
12
185

12
196
mm
dia
0
4797
0
4802
in

dial

The

cylinder
head

guide
bore
must
be
reamed
out
at

normal
room

temperature

Heat
the

cylinder
head
to
a

temperature
of
150
2000e

302
3920F
before

pressing
in
the
new
valve

guides
Ream

out
the
bore
of
the

guides
to
obtain
the
desired
fInish
and

clearance
Fig
A
IS
The

special
valve

guid
reamer
ST
1103

SOOO
should
be
used
if
available
Valve

guide
inner
diameters

are

specified
in
Technical
Data
at

the
end
of
this
section
The

valve
seat
surface
must

be
concentric
with
the

guide
bore
and

can
be
corrected
with
the

facing
tool
STll670000

Fig
A
16

using
the
new
valve

guide
as
the
axis

VALVE
SEAT
INSERTS

Replacing

The
valve
seat
inserts
should
be
replaced
if

they
show

signs

of

pitting
and
excessive
wear

The
inserts
can
be
removed

by
boring
out
to
a

depth
which

will
cause
them
to

collapse
although
care
must
be
taken
not

to
bore
beyond
the
bottom
face
of
the
recess

in
the

cylinder

head

Select
the
valve
seat

inserts
and
check
the
outer

diameters

Machine
the
recess
in
the

cylinder
head
to

the
following

dimensions
at
room

temperature

9

reading
Slacken
one
of
the

cap
bolts
and
check
the
clearance

between
the

cap
and

cylinder
block
with
a
feeler

gauge
See

Fig
A
29

The

bearing
crush

nip
should
be
between
0
0
03mm

0
0
0012
in
if
this
is
not

the
case

then
the

bearing
must

be

replaced

beck
the

connecting
rod

bearings
in
a
similar
manner

after

tightening
the

caps
to
the

specified

torque
readings
The

bearing
clearance
should
be
between
0
15
0
045
mm
0
0006

0
0018
in

CAMSIIAFf
AND
SPROCKET

Inspect
the

camshaftjoumals
for

signs
of
wear
or

damage

and
check
the
camshaft
for
run
out

using
a
dial

gauge
in
a

similar
manner
to
that

previously
described
for
the
crankshaft

The

bending
limit
of
0
02
mm
0
0007
in
must
not
be

exceeded

Install
the
camshaft

sprocket
mount

the

assembly
in
V

blocks
as
shown

in
Fig
A
30
and
check
that
the
run
out
of

the

sprocket
does
not

exceed
0
1
mOl
0
04331
in
O1eck
the

timing
chain
and

sprocket
to
ensure
that
the
chain
is
not

stretched
or

damaged
or
the
teeth
of
the

sprocket
damaged
or

distorted
A

timing
chain
which
has
become
stretched
will

affect
the
valve

timing
and
be

noisy
in

operation
Check
the

chain
tensioner
and
chain

guides
for
wear
and

damage
replacing

the

parts
if

necessary

Replace
the

sprocket
if
the
run
out
is
exceeded
or
if
the

teeth
of

the

sprocket
are
worn
or

damaged
in

any
way

The
camshaft
end

play
should
be
within
0
08
0
38
mm

0
0031
O
oI50
in
If
the
clearance
limit
of
0
1
mm

0
0039
in
is
exceeded
it
will
be

necessary
to

replace
the
cam

shaft

locating
plate
See

Fig
A
3l

FLYWHEEL

Inspecting

Ensure
that
the
clutch
disc
contact
face
of

the
flywheel
is

not
worn
or

damaged
The
run
out
of
the

flywheel
contact
face

should
not
exceed
0
2
mOl
0
008
in
when
measured
with
a

dial

gauge

The

flywheel
ring
gear
can
be

replaced
if
the
teeth
are

damaged
or
worn
This

operation
will
entail

splitting
the

ring

gear
to
remove
it
A
hacksaw
should
be
used
to
cut
between
the

teeth
followed

by
splitting
with
a
cold
chisel

When

replacing
the

ring

gear
it
must
be
heated
to

a

temperature
of

approximately
1800
2000
F
before

fitting

and
then
allowed
to

cool

slowly

ENGINE

Assembling

Before

starting
to

assemble
the

engine
make
sure
that
all

components
are

perfectly
clean
It
is

always
advisable
to

pay

particular
attention
to
the

following
points
when

assembling

an

engine
Keep
the
work
bench
and
tools
clean
and
make
sure

that
the
tools
are
to
hand
Ensure
that
all

engine
oil

ways
are

clear
of

foreign
matter
fit
new

gaskets
and
oil
seals

throughout

All

sliding

parts
such
as

bearing
shells
must
be
smeared
with

engine
oil
before

installing

B
Ensure
that
the

specified
tightening

torque
readings
are

strictly
followed

A
mbling
the

cylinder
Head

To
install
the
valves
and
valve

springs
place
the
valve

spring
seats
into

position
and
fit

the
valve

guides
and
oil

lip

seals

Assemble
in
the
following
order
valve

springs
spring

retainers
valve
collets
and
valve
rocker

guides

Use
the

special
compressor
ST
12070000
as

shown
in

Fig
A
32
to

compress
the
valve
springs

Piston
and

connecting
rods

The

piston
piston
pins
and

connectiJ1
rods
must
be

assembled

in
accordance
with
the

cylinder
numbers

The
gudgeon
pin
is

press
fitted
to
the

connecting
rod
and

requires
a

fitting
force
from
0
5
to

1
5
tons
This

operation

will

require
the
use
of
the

special
tool
ST
1303000
as
shown
in

Fig
A
33

Apply
engine
oil
to
the
gudgeon

pin
and

connecting

rod
before

fitting

It
should
be
noted
that
the
oil

jet
of
the

connecting
rod

big

end
must
face

towards
the

right
hand
side
of
the

cylinder
block

See

Fig
A
34

Fit
the

piston
rings
the
oil
control

ring
in
the
bottom

groove
followed

by
the
centre
and

top
compression
rings
which

must

be
installed
with
the
marks

facing
upwards

Install
the

connecting
rod
bearings
and

caps
making
sure

that
the

markings
coincide
Ensure
that
the
backs
of

the
bearing

shells
are

perfectly
clean
otherwise

they
will
be
damaged
when

tightened

Assembling
the

engine

Fit
the
baffle

plate
and

cylinder
block
net
Install
the

crankcase
halves
of
the
main

bearing
shells
the

flanged
shell

is
fitted
to

the
centre

bearing
Smear
the
bearing
surfaces
with

engine
oil
and

carefully
lower
the
crankshaft
into

position

Install
the
main

bearing

caps
with
their
shells

making
sure

that
the
arrow
on
the

caps
faces
to

the
front
of

the

engine

Rotate
the
crankshaft
to
settle
the

caps
and

tighten
the

bearing

cap
bolts

gradually
in
two
or
three

separate
stages
Work
out

wards
from
the
centre

bearing
and
finally
tighten
to
the

specified

torque
reading
of
4
5
5
5

kgm
32
40
Ib
ft

in
the

sequence
shown
in

Fig
A
35
Ensure
that
the
crankshaft
rotates

freely
after

finally
tightening
the

cap
bolts
Check
the
crankshaft

end
float
which
should
be
between
0
05
0
18
mm
0
002

0
0071
in
see

Fig
A
36
Smear

the
side
oil
seals
with
sealant

and
fit
them
into
the
rear
main

bearing
cap
Install
the
rear
oil

seal

using
a
suitable
drift

and

grease
the
lip
of
the
seal

Place
the

flywheel
in

position
and
install
the
lock
washers

and

retaining
baits
Tighten
the
bolts

evenly
to
a

torque

reading
of
14
16

kgm
101
106Ib
ft

Rotate
the

engine
by
a

quarter
turn
and
install
the

piston

15

VALVE
CLEARANCES

Adjusting

Incorrect
valve
clearance
will
affect
the

performance
of

the

engine
and

may
damage
the
valves
and
valve
seats
Insuf

ficient
valve
clearance
will
result
in
loss
of

power
and

may

prevent
the
valve
from

seating
properly
Excessive
clearance

causes
the
valve
to
seat
and
reduces
the
amount
of

valve
lift

This
will
result
in

noisy
operation
with

damage
to
the
valves

and
seats

Adjustment
is
made
with
the

engine
switched
off

and
should
be
carried
out

initially
with
the

engine
cold
to

allow
the

engine
to
run
Final

adjustments
are
made
after

wanning

up
the

engine
to

its
Donnal

operating
temperature
The

engine
can
be
rotated

by
removing
the

sparking
plugs
to
release

the

cylinder
compressions
then

selecting

top
gear
and

pushing

the
vehicle
backwards
and
forwards

The
cold
valve
clearances
should
be
set
to
0
20
mm

0
0079
in
for
the
inlet
valves
and
0
25
mm
0
0098
in
for

the
exhaust
valves
Check
the
clearance
between
the
valve
and

rocker

using
a
feeler

gauge
as
shown
in

Fig
A
40
Slacken
the

locknut
and
turn
the
adjusting
screw
until
the

specified
clearance

is
obtained
then

tighten
the
locknut
and
recheck
the
clearance

The
feeler

gauge
should

just
be
free
to
move
between
the
rocker

and
valve
When
the
cold
valve
clearances
have
been
set
run
the

engine
until
it
reaches
its
normal

operating
temperature
then

switch
off
and

adjust
the
valve
clearances
with
the

engine
warm

to

0
25
mm
0
0098
in
for
the
inlet
valves
and
0
30
mm

0
0118
in
for
the
exhaust
valves

ENGINE
LUBRICATION
SYSTEM
Fig
A
41

OIL
PUMP
Removal
and

Dismantling

The
rotor

type
oil

pump
is
mounted
at
the
bottom
of
the

front

timing
cover
and
driven

by
the
distributor
drive
shaft

assembly

Overhaul
of
the

pump
will

require
careful
measurement

of

the
various
clearances
to
determine
the
amount

of
wear

which

has
taken

place
If

any
part
is
found
to
be
worn
it

may
be
neces

sary
to

replace
the
entire
oil

pump
assembly
To
remove
the
oil

pump
from
the

engine
proceed
as
follows

1
Remove
the
distributor

assembly
as
described
in
the

section
IGNITION
SYSTEM
Remove
the
oil

sump
drain

plug
and
drain
off
the

engine
oil
See
under
the
heading

CHANGING
THE
ENGINE
OIL

2
Remove
the
front
stabiliser
and
the
splash
shield
board

3
Withdraw
the

securing
bolts
and
detach
the
oil

pump

body
together
with
the
drive

gear
spindle

Take
out
the
bolts
securing
the

pump
cover
to
the

pump
body

and
withdraw
the
rotors
and
drive
shaft
See
Fig
A
42

The
pin
securing
the
driven
shaft
and
inner
rotor
must
not

00
taken
out
as
the
shaft
is

press
fitted
to
the
rotor
and
the

pin

is
caulked

Unscrew
the
threaded

plug
and
withdraw
the
regulator

valve
and

spring
Oean
each

part
thoroughly
and
examine
for

signs
of

damage
or
wear
Use
a
feeler

gauge
to
check

the
side

clearances
between
the
outer

and
inner
rotors
the
clearances

at
the

tips
of
the
rotors
and
the
clearance
between
the
outer

rotor
and
the

pump
body
See
Technical
Data
for
the
relevant

clearances
The
clearances
can

be
checked

using
a

straight
edge

as

shown
in

Fig
A
43

OIL
PUMP

Assembly
and
Installation

Assembly
is
a
reversal
of
the

dismantling
procedure
Before

installing
the
oil

pump
in
the

engine
it
will
be

necessary
to

rotate

the

engine
until
the
No
1

piston
is
at

T
D
C
on

its

compression
stroke

Fill
the

pump
housing
with

engine
oil
and

align
the

punch

mark
on
the

spindle
with
the
hole
in
the
oil

pump
as
shown

in

Fig
A
44

Install
the

pump
with
a
new

gasket
and

tighten
the

securing
bolts
to
a

torque
reading
of
1
1
1
5
kgm
8
1
Ilb
ft

Replace
the

splash
shield
board
and
the
front
stabiliser
refill

the

engine
with
the

specified
amount
of

engine
oil

OIL
FILTER

The

cartridge
type
oil
filter
can
be
removed
with
the

special
tool
ST
19320000
or
a
suitable
filter
remover
Interior

cleaning
is
not

necessary
but
the
ftIter

body
and
element
must

be

repiaced
every
10
000
km
6000
miles
Be
care
ul
not
to

overtighten
the
filter
when

replacing
or

oil
leakage

may
occur

CHANGING
THE
ENGINE
OIL

After
the
fIrst
oil

change
which
should
take

place
at
1000

km
600
miles
the
oil
should
be

changed
regularly
at
5000
km

3000
miles
intervals

Draining
is
more

easily
accomplished
after
a

lengthy
run

when
the
oil

being
thoroughly
warm
will
flow

quite
freely

Stand
the
vehicle
on
level

ground
and

place
a
suitable

container
under
the
drain

plug
Remove
the
drain

plug
carefully

as
the
hot
oil

may
spurt
out
with
considerable
force
When

refIlling
the

engine
make
sure

that
the
oil
is
to
the
H
mark
on

the

dipstick

19

and
seats
or
a
weak

diaphragm
return

spring

A

pressure
above
the

specified
figure
may
be
due
to

an

excessively
strong
and
tight
diaphragm

Capacity
test

The

capacity
test
can
be

carried
out
when
the
static

pressure
has
been
tested
and
conforms
with
the

specified
figure

of
0
18

kg
sq
cm
2
6Ib

sq
inJ

Disconnect
the
fuel
line
at

the
carburettor

and

place
a

container
under
the
end
of
the

pipe
to
act
as
a
fuel

sump

Start
the

engine
and
run
it
at
a

speed
of
1000

Lp
m
The

amount

of
fuel
delivered
from
the

pump
in
one
minutc
should

be

1000
cc
2
1
US

pt

If

petrol
does
not
flow
from
the

opcned
end
of

the
pipe

at
the
correct
rate
then
either
the
fuel

pipe
is

clogged
or

the

pump
is
not

operating
correctly

If
the
latter
cause
is

suspected
the

pump
must
be
removed

and

inspected
as
described
below

FUEL
PUMP

Removing
and

Dismantling

Before

removing
the
pump
take
off
the

petrol
tank

cap

and
disconnect
the

pump
inlet
and
outlet

pipes
Blow

through

the

pipes
with

compressed
air
to

make
sure

that

they
are
not

clogged

Remove
the

pump
retaining
nuts

withdraw
the

pump
and

dismantle
it
in
the

following
order

Referring
to

Fig
D
l

Take
out
the
screws

holding
the
two

body
halves

together

and

scparate
the

upper
body
from

the
lower

body

2
Remove
the

cap
and

cap
gasket

3
Unscrew
the
eI
bow
and
connector

4
Take
off

the
valve
retainer
and
remove
the
two
valves

5
To
remove
the

diaphragm
diaphragm
spring
and
lower

body
sealing
washer

press
the

diaphragm
down

against

the
force
of
the

spring
and
tilt
the

diaphragm
at
the
same

time
so
that
the

pull
rod
can
be
unhooked
from
the
rocker

arm

link

Fig
D
7

The
rocker
arm

pin
can

be
driven
out
with
a
suitable

drift

FUEL
PUMP

Inspection
and

Assembly

Check
the

uppcr
and

lower

body
halves
for
cracks

Inspect

the
valve
and
valve

spring
assembly
for

signs
of
wear
and
make

sure
that
the

diaphragm
is
not

holed
or

cracked
also
make
sure

that
the
rocker
arm
is
not
worn
at
the

point
of
contact
with

the

camshaft

The
rocker
arm

pin
may
cause

oil

leakage
if
worn

and

should
be
renewed
Assembly
is
a
reversal
of
the
dismantling
procedure

noting
the

following
points

Fit
new

gaskets
and
lubricate
the
rocker
arm
link
and
the

rocker
arm

pin
before

installing

The

pump
can
be
tested

by
holding
it
approximately
I

metre
3

feet
above

the
level
of
fuel

and
with
a

pipe
connected

between
the
pump
and
fuel
strainer

Operate
the
rocker
ann

by
hand
the

pump
is

operating

correctly
if
fuel
is
drawn

up
soon
after

the
rocker
ann
is

released

CARBURETTOR
IDLING
ADJUSTMENT

The

idling
speed
cannot
be

adjusted
satisfactorily
if
the

ignition
timing
is
incorrect

if
the
spark
plugs
are

dirty
or
if

the
valve
clearances
are
not

correctly
adjusted

Before

adjusting
the

idling
speed
set
the
hot
valve

clearances

t
o
0
25
mm
0
0098
in
for
the
intake
valves

and

0
30
mm
0
0118
in
for
the
exhaust
valves
as
described
in

the
ENGINE

section

Idling
adjustment
is
carried
out

with
the
throttle

stop

screw
in

conjunction
with
the

idling
adjustment
screw

See

Fig
D
8

Run
the

engine
until
it
attains
its
normal

operating

temperature
and
then
switch
off

Starting
from
the
fully
closed

position
unscrew
the

idling
adjustment
screw

by
approximately
three
turns

Screw
the
throttle

stop
screw
in

by
two
or
tftr
e
turns
and

start

th
engine

Unscrew
the
throttle

stop
screw
until
the

engine
commences

to
run

unevenly
then
screw
in
the

idling
adjustment
screw
so

that
the
engine
runs

smoothly
at
the

highest
speed

Readjust
the
throttle

stop
screw
to

drop
the

engine
speed

of

approximately
600
r

p
m
is
obtained

WARNING
Do
not

attempt
to
screw

the

idling
adjustment

screw

down
completely
or
the

tip
of
the
screw

may
be

damaged

FAST
IDLE
OPENING
ADJUSTMENT

The
choke
valve
is

synchronized
with
the
throttle
valve

and
connected
to
it

by
levers
as
shown
in

Fig
D
9
The
fast

idle
opening
can
be
check

by
fully
closing
the
choke
valve
and

measuring
the
clearance
between
the

primary
throttle
valve
and

the
wall
of

the
throttle
chamber
This
clearance

being
shown

as
A

in
the
illustration
The
clearance
for

the
carburettor

types
is
as
follows

Carburettor

type
Throttle

opening

angle

180

180

190
Dimension
A

213304
361

13304
4
I

13282
331
1
55mm
0
06lin

1
55mm
0
06Iin

1
3
mm
0
051
in

35

The

standard
width
of
the
side

bearings
is
20
0mm

0
7874

this
width
must
be

measured
before

attempting
to

calculate
the
thickness

of
the

adjusting
shims
Use
a

dial

gauge

and
surface

plate
to
ohtain

the
measurement
Place
a

weight
of

approximately
2

5

kg
5
5
lb
on
the

bearing
to

obtain

steady

readings

Install
the
differential

cage

assembly
in

the
carrier

Fit
the

sckcted

shims
and
O

rings
into
both

differential
side

bearing

covers

and
install
the
covers

in
the

carrier

using
the

special
tool

ST
33720000

Fig
G
16
l
Make
sure

that
the
side

bearing

outer

races
are
not

damaged

by
the

roller
Measure
the
backlash

between
the

teeth
of

the
crown
wheel

and
drive

pinion
with
a

dial

gauge
as
shown
in

Fig
G
I
Sct
the
dial

gauge
to
0
10

f
O

mm

0
004
0
008
in

I
If
the

backlash
is

less
than
the

specifIed

value
move
he
left
side

adjusting
shim
to
the

right
side
and
vice

versa

if
the
backlash

exceeds
the
specified
figure

Check

that
the
run
out
at
the
rear

of
the

crownwheel
does

not

excecd
O
OSmm
0
002

in
for

the
1800ce
model
or

O
08mm
0

003
in

for
the
1400
Check
the

drive

pinion

turning

torque
Thc

turning
torque
should
be

higher

by
I
3

kg

em

compared
with
the

turning
torque
obtained
before

fitting

the
differential

cage
in
the
carrier
The

higher
value
can

be

provided
if

necessary
by

dmnging
the

jde
cover

shims
Note

howcver

that
any
decrease
or
increase
in

the
thickncss
of
shims

wjJl

alter
tht
budlush

between
the
teeth
of
the
crownwhee1

and

pinion

Check

the
tooth
contact

pat
tern

of
the
crown
wheel
and

pinion
as

described
under
the

appropriate
heading

DIFFERENTIAL

Installation

Secure
the
differential

carrier
on
the
rear

suspension
mem

ber

using
the
four

bolts
and
washers
Fit
the
differential

mounting
member
to
thc

mounting
holes

by
pushing
it
forwards

with
a

suitable
lever

Fig
G
18

Tighten
the

nuts
to
a

torque

reading
of
8

5

kgm
61
5

Ib
ft

Tighten
the
bolts

attaching
the

gear
carrier
to
the

suspension
member
to
a

torque
reading
of

6
7

kg
36
5Ilb
ft
t

The

rcmainder
of
the
installation

operations
are
a
reversal

of

thc
removal

procedure
Fill
the
differential
with

the
correct

quantity
of
recommended
oil

DIFFERENTIAL
CARRIER

Removal
and

Dismantling

Estate
car
alld
Vanl

To

remove
the
differential

carrier
disconnect
and
remove

rhe

propeller
shaft
as

previously
described

and
remove

the
two

rear
axle

shafts
as

described
in

the
section
REAR
AXLL
With

draw

the
nuts

securing
the
differential

and
remove

the
carrier

from
the
rear
axle

Mount

the
unit
on
the

special
attachment
as
shown
in

Fig
G
19
and

carry
out
a

preliminary
check
before

dismantling

Oleck
the
tooth
contact
of
the

crownwheel

and

pinion
by

applying
lead
oxide

to
three
or
four

teeth
of
the

crownwheel

Turn
the
crown

wheel
several
times

to
obtain
an

impression
of

the

tooth
contact

pattern
Check
the
backlash

between
the
teeth

of
the
crownwheel
and

pinion
with
a

dial

gauge
Hold
the
drive

pinion
with
one

hand
and
move

the
crown
wheel

backwards
and
forwards
to

check

that
the
backlash
is
Io

ithin
thL

speL
ified
limits

Shims
and

adjusting
washers
must
bL
altered
if

the
tooth
con

tact

pattern
and
backlash

is

incorre
L
the
neL

cssary
details
for

these

operations
can
be
found
towards
the

end
of

this
section

under
the

appropriate
he
Jdjn

s
Fil1JJly
mark
the

bearing
caps

with
a
hammer

and

punch
to
ensure
correct

t1ignment
on
re

assembly

Remove
the

bearing

caps
nd
withdraw

the
differ

ntial

cage
make

a
note
of

the
left
and

right
hand

positions
so
h
Jt

the

bearing
caps
and
outer
race
can

be
re

assembled
in

their

original
positions

Withdraw

the
side

beJrings
with
the
s

cjal

puller
as

shown

in

Fig
G
20

taking
care
not
to

catch
the

edge
of
the

bearing

inner
races

Place
the

assembly
in
a
vice
and
detach

the
crownwheel

by
slackening
the

retaining
bolts
in
a

diagonal

patter
Fig
G
lf

Drive

out
th

pinion
shaft
lock

pin
from

left
to

right
using
a

suitable

punch
or

special
tool
ST
23520000

Fig
C
22

With

draw
the

pinion
shaft
and
take
out

the

pinions
side

gears
and

thrust
washers

Store
the

gears
and
thrust
washers
so
that

they

can

be
assembled
in
their

original

positions

Check
the
initial

turning
torque
of
the

drive

pinion
with

the

preload
gauge
ST
3190000

and
measure

the

height
of

the

drive

pinion
with
the

special
gauge
ST
31941000

Compare
the

figures
obtained
with
those

givcn
in

Technical
Data
at

the
end

of
this
section

Hold
the
drive

pinion
with

the

speciaJ
wrench
ST
3
J
530000

as
shown
in

Fig
C

23
and
unscrew
the

drivc

pinion
nut

then

pull
out
the
drive

pjnion
flange

Tap
the
drive

pinion
assembly
to
the
rear
with
a

plastic

mallet
and
withdraw
it

together
with

the
rear

bearing
inner
race

bearing
spacer
and
adjusting
washer

Remove

and
discard
the
oil
seal
and

withdraw
thc
front

bearing
inner
race
Drive
out
the
outer
races

of
the
front
and

rear

bearings
with
a
suitable

drift

Fig
G
25

The
drive

pinion
rear

bearing
inncr
race
can
be
removed

with
the

special
tool
ST
300310000
as

shown
in

Fig
G
24

DIFFE
l
ENTlAL

Inspection

Clean
all

components
thoroughly
and

examine
for

signs

of
wear
or

damage

Check
the
teeth
of
the

crownwhcel

and

pinion
for

scoring

and

hipping
Ii
should
be

noted
that
the
crownwhecl

and

pinion
are

supplied
as
a

matched
set
and
if
either

part
is

damaged

the

complete
set
must
be

replaced

Examine
the

inner
faces
of
the
side

gears
and
seats
on
the

differential
case

Inspect
the

bearing
races
and

rollers
and

replace

them
if

necessary

Small
defects

on
the
faces
of

the
thrust

washers
can
be

corrected

using
emery
cloth
however
if

the
clearance
between

side

gear
and

thrust
washer

exceeds
0
1
O
2mm
0
0039

0
0079

in
it
ill
be

necessary
to

replace
the
washer

Various

sizes
of
washers
are
available

and
the
thicknesses
arc
detailed

under
the

heading
DIFFERENTIA
L

GEAR
CAGE

Assembling

69