wheel DATSUN 210 1979 User Guide
Page 67 of 548
t
IGHTENING
TORQUE
Cylinder
head
bolt
Rocker
shaft
bracket
bolt
ain
bearing
cap
bolt
Flywheel
fixing
bolt
Drive
plate
fixing
bolt
Al4
AlS
Connecting
rod
cap
nut
Camshaft
sprocket
bolt
Locating
plate
bolt
Valve
rocker
adjusting
nut
Oil
strainer
bolt
Oil
pan
bolt
Oil
pan
drain
plug
Timing
chain
cover
bolt
Crank
pulley
bolt
Water
pump
bolt
Fuel
pump
bolt
Spark
plug
Engine
mounting
securing
bolt
Engine
Mechanical
Unit
kg
iii
ft
lb
7
0
to
7
5
51
to
54
2
0t02
5
14to
18
5
0
to
6
0
36
to
43
8
0
to
9
0
58
to
65
8
0
to
9
0
58
to
65
8
5
to
9
5
61
to
69
3
2
to
3
8
23
to
27
4
0
to
4
8
29
to
35
0
5
to
0
8
3
6
to
5
8
1
6
to
2
2
12to
16
0
9
to
I
4
6
5
to
10
1
0
4
to
0
6
2
9
to
4
3
2
0
to
3
0
14
to
22
0
5
to
0
7
3
6
to
5
1
15to
20
l08
to
145
0
9
to
I
4
6
5
to
1O
l
0
9
to
I
4
6
5
to
10
1
1
5
to
2
0
11
to
14
1
9
to
2
5
14to
18
EM
30
Page 81 of 548
2
Loosen
belt
then
remove
fan
blade
from
torque
coupling
and
torque
coupling
and
pulley
from
hub
Air
conditioning
system
equipped
models
only
4
Remove
pump
assembly
and
gas
ket
from
front
cover
C0051
Fig
CO
3
Removing
Water
Pump
INSTALLATION
1
Be
sure
to
clean
the
gasket
sur
faces
in
contact
with
pU
flP
and
front
cover
Always
use
new
gaskets
when
installing
pump
assembly
Be
sure
to
tighten
bolts
i
l
Tightening
torque
Water
pump
securing
bolts
0
9
to
1
4
kg
m
6
5
to
10
1
ft
Ib
2
Fill
cooling
system
and
check
for
leaks
at
pump
3
InstaD
fan
pulley
spacer
or
torque
coupling
and
fan
blade
and
tighten
attaching
bolts
securely
Install
belt
and
adjust
for
specified
tension
4
Operate
the
engine
at
fast
idle
and
re
Check
for
leaks
S
Install
fan
shroud
Note
Ensure
that
clearance
between
shroud
and
fan
even
at
any
place
DISASSEMBLY
Water
pump
should
not
be
disas
sembled
Cooling
System
INSPECTION
Inspect
pump
assembly
for
the
following
conditions
and
replace
if
necessary
I
Badly
rusted
or
corroded
body
assembly
and
vane
2
Excessive
end
play
or
roughness
of
bearings
in
operation
Note
If
excessive
mechanical
seal
squeak
occurs
when
engine
is
mn
ning
use
suitable
water
pump
seal
lubricant
to
prevent
squeak
ADJUSTMENT
Check
belt
deflection
between
alternator
and
fan
pulley
by
a
force
of
10
kg
22
Ib
Fan
belt
deflection
8
to
12
mm
0
31
to
0
47
in
If
adjustment
is
necessary
loosen
bolt
retaining
alternator
adjusting
bar
to
alternator
Move
alternator
toward
or
away
from
engine
until
the
correct
tension
is
obtained
TORQUE
COUPLING
The
torque
coupling
keeps
the
fan
speed
at
2
900
rpm
rated
or
below
to
conserve
horsepower
at
high
engine
speed
It
also
helps
reduce
fan
noise
to
a
minimum
during
high
speed
opera
tion
This
unit
is
filled
with
a
special
silicone
oil
used
as
a
fluid
coupling
which
controls
the
fan
speed
Silicone
oil
can
not
be
replenished
The
torque
coupling
is
installed
only
on
the
model
equipped
with
the
air
conditioning
system
In
this
case
use
7
x
350
mm
13
78
in
diam
eter
cooling
fan
CO
3
C0052
t
Wheel
2
Disc
3
Bearing
Fig
CO
4
Torque
Coupling
REMOVAL
Lousen
fan
belt
2
Remove
fan
blade
from
torque
coupling
3
Remove
torque
coupling
from
pulley
and
water
pump
hub
by
re
moving
securing
nuts
INSTALLATION
I
InstaD
the
torque
coupling
in
the
reverse
order
of
removal
2
Install
belt
and
adjust
belt
ten
sian
DISASSEMBLY
The
torque
coupling
is
so
designed
that
it
can
not
be
disassembled
INSPECTION
Inspect
torque
coupling
for
oil
leak
age
If
necessary
replace
Page 153 of 548
REMOVAL
AND
INSTALLATION
I
Jack
up
the
car
Note
Apply
parking
brake
and
place
wheel
chocks
2
Remove
screws
securing
lower
shelter
of
catalytic
converter
Loosen
flange
bolt
connecting
catalytic
converter
to
front
and
rear
exhaust
tube
Catalytic
converter
assembly
can
then
be
taken
out
3
Installation
i
in
the
reverse
se
quence
of
removal
CAUTION
a
Be
careful
not
to
damage
catalytic
co
when
handliilg
b
Never
wet
catalyzer
with
water
oil
etc
t
J
Tightening
torque
Catalyti
converter
bolts
2
6
to
3
4
kg
m
19
to
25
ft
lb
Emission
Control
System
EC075A
EC076A
Fig
EC
103
Removing
Catalytic
Converter
INSPECTION
PrelimInary
In
pectlon
Vi
ually
check
condition
of
all
component
parts
including
hose
tubes
and
wires
replace
if
necessary
Refer
to
Air
Injection
System
for
inspection
EC
34
Catalytic
converter
Whether
catalytic
converter
is
nor
mal
or
not
can
e
checked
by
ob
serving
variation
in
CO
percentage
The
checking
procedure
is
as
follows
Apply
parking
brake
Shift
gears
into
Neutral
for
manual
transmis
sion
and
N
or
P
for
automatic
transmission
position
I
Adjust
engine
idling
speed
and
CO
percentage
Refer
to
Adjusting
Carburetor
Idle
RPM
and
Mixture
Ratio
for
adjustment
2
Race
engine
1
500
to
2
000
rpm
two
or
three
times
under
no
load
and
make
sure
that
specified
CO
percent
age
obtained
3
Remove
cap
and
connect
air
hose
to
air
check
valve
If
idling
speed
increases
readjust
it
to
specified
speed
with
throttle
adjusting
screw
4
Warm
up
engine
for
about
four
minutes
at
2
000
pm
under
no
load
S
Measure
Ci
percentage
at
idling
speed
After
stepAhas
been
complet
ed
wait
for
one
minute
before
making
CO
percentage
measurement
6
If
CO
percentage
measured
in
step
5
is
less
than
0
3
the
catalytic
converter
is
normaL
7
If
CO
percentage
measured
in
step
5
is
over
0
3
recheck
AJ
S
and
1
replace
air
check
valVe
The
perform
inspection
steps
4
and
S
8
If
CO
percentage
is
still
over
0
3
in
step
7
catalyt
iC
converter
i
mal
functioning
Replace
catalytic
con
verter
Page 166 of 548
2
Inspect
silldered
conneetibn
of
armature
lead
and
commutator
If
loose
connection
is
found
solder
it
using
resin
flux
3
Armature
test
for
ground
Using
a
circuit
tester
place
one
test
probe
onto
armature
core
or
shaft
and
other
onto
each
commutator
bar
If
tester
shows
continuity
armature
is
grounded
and
must
be
replaced
L
L
I
EE022
F
EE
17
Teating
Armature
for
Ground
4
Check
armature
for
short
by
plac
ing
it
on
armature
tester
growler
with
a
piece
of
iron
over
arma
t
ure
core
rotating
armature
If
the
plate
vibrates
armature
is
shorted
jeBel
EE023
Fig
EE
18
Testing
Armature
or
Short
5
Check
armature
for
continuity
by
placing
probes
of
tester
on
two
seg
ments
side
by
side
If
tester
shows
no
continuity
the
circuit
is
open
OVERRUNNING
CLUTCH
ASSEMBLY
Inspect
pinion
assembly
and
screw
sleeve
or
reduction
gear
Screw
sleeve
must
slide
freely
along
armature
shaft
splines
or
pinion
gear
shaft
must
slide
freely
through
reduction
gear
If
dam
age
is
found
or
resistance
except
nor
mal
resistance
due
to
spring
felt
when
sliding
it
must
be
repaired
Inspect
pinion
teeth
If
excessive
rubbing
is
found
on
teeth
replace
Flywheel
ring
gear
also
must
be
inspected
Engine
Electrical
System
@
ll
EE278
Fig
EE
19
Overrunning
Clutch
Assembly
1
Pinion
gear
2
Reduction
gear
EE617
Fig
EE
20
Pinion
and
Reduction
Gear
Overrunni11C
Clutch
AS5em
bly
BRUSH
HOLDER
TEST
FOR
GROUND
Using
a
circuit
tester
place
one
test
probe
onto
negative
side
of
brush
holder
and
another
onto
positive
side
If
tester
shows
continuity
brush
hold
er
is
shorted
to
ground
Replace
brush
holder
EE025
Fig
EE
21
Testing
Brush
for
Ground
BEARING
METAL
Non
reduction
gear
type
spect
bearing
metal
for
wear
or
side
play
If
the
clearance
between
bearing
metal
and
armature
shaft
is
more
than
0
2
mm
0
008
in
replace
metal
EE
8
BAI
L
BEARING
Reduction
gear
type
Holding
outer
race
with
finger
rotate
bearing
to
see
if
there
is
any
play
or
bind
If
necessary
replace
bearing
MAGNETic
SWITCH
ASSEMBLY
I
Using
a
circuit
tester
check
con
tinuity
between
S
terminal
of
mag
netic
switch
and
switch
body
metal
If
continuity
does
not
exist
shunt
coil
is
opened
Replace
switch
assembly
2
In
the
same
manner
as
above
check
continuity
between
terminals
S
and
M
If
continuity
does
not
exist
series
coil
is
opened
Replace
switch
assembly
ASSEMBLY
Reassemble
starting
motor
in
re
verse
sequence
of
disassembly
When
assembling
be
sure
to
apply
grease
to
gear
case
and
rear
cover
bearing
metal
and
apply
oil
lightly
to
pinion
TEST
PERFORMANCE
TEST
Starter
motor
should
be
subjected
to
a
no
load
test
whenever
it
has
been
overhauled
to
ensure
that
its
perfo
rmance
will
be
satisfactory
when
installed
on
engine
Starter
motor
should
also
be
subjected
to
the
test
when
the
cause
of
abnormal
operation
is
to
be
determined
A
brief
outline
of
the
test
is
given
below
No
loadtest
Connect
starting
motor
in
series
willi
specified
12
volts
battery
and
an
ammeter
capable
of
indicating
1
000
amperes
Specified
current
draw
and
rev6lu
tion
in
this
test
are
shown
in
Sp
ci
Cications
Page 199 of 548
REMOVAL
It
is
much
easier
to
remove
engine
and
transmission
as
a
single
unit
than
to
remove
alone
After
removal
engine
can
be
separated
from
the
transmission
assembly
WARNING
a
Place
wheel
chocks
in
fronl
of
front
wheels
and
in
rear
of
rear
wheels
b
Be
sure
to
hoist
engine
in
a
safe
manner
c
You
should
not
remove
engine
until
exhaust
system
has
com
pletely
cooled
off
Otherwise
you
may
burn
your
self
and
or
fire
may
break
out
in
fuel
line
Note
Fender
coven
should
be
used
to
protect
car
body
1
Disconnect
battery
ground
cable
from
battery
terminal
and
fusible
link
at
wire
connector
2
Remove
hood
as
follows
CAUTION
Have
an
assistant
help
you
so
as
to
prevent
damage
to
body
I
Mark
hood
hinge
locations
on
hood
to
facilitate
reinstallation
2
Support
hood
by
ltand
and
re
move
bolts
securing
it
to
hood
hinge
being
careful
not
to
let
hood
slip
when
bolts
are
removed
See
Fig
ER
2
3
Remove
hood
from
hood
hinge
f
Il
I
BF133A
Fig
ER
2
Removing
Hood
Remove
under
cover
Drain
radiator
coolant
and
engine
3
4
oil
5
Disconnect
upper
and
lower
hoses
from
radiator
and
disconnect
oil
cooler
hoses
automatic
transmission
only
6
Remove
four
bolts
securing
radia
Engine
Removal
Installation
tor
to
body
and
detach
radiator
after
removing
radiator
shroud
7
Remove
air
cleaner
assembly
from
carburetor
as
follows
1
Remove
fresh
air
duct
from
air
cleaner
2
Remove
hot
air
duct
from
air
cleaner
3
Loosen
air
cleaner
band
bolt
4
Disconnect
air
cleaner
to
air
pump
hose
at
air
cleaner
5
Disconnect
air
cleaner
ta
rocker
cover
hose
at
rocker
cover
6
Disconnect
air
cleaner
to
A
B
valve
hose
at
air
cleaner
7
Disconnect
air
cleaner
to
related
vacuum
hoses
at
air
cleaner
8
Disconnect
accelerator
control
wire
from
carburetor
9
Disconnect
the
following
cables
wires
and
hoses
Wire
to
auto
choke
heater
Wire
to
throttle
opener
cut
solenoid
or
throttle
switch
Wire
to
fuel
cut
solenoid
Wire
to
vacuum
switching
valve
High
tension
cable
between
igni
tion
coil
and
distributor
Battery
cable
to
starter
motor
Wire
to
distributor
Wire
to
thermal
transmitter
Wire
to
alternator
Engine
ground
cable
oil
pressure
switch
and
engine
harness
No
2
See
Fig
ER
3
o
1
Ground
cable
2
Engine
harness
No
2
3
Oil
pressure
switch
Fig
ER
3
EA368
Disconnecting
Cable
and
Wire
Fuel
hose
at
fuel
pump
and
fuel
return
hose
at
connection
Air
pump
air
cleaner
hose
Carbon
canister
hoses
Heater
inlet
and
outlet
hoses
if
so
equipped
ER
3
Vacuum
hose
of
brake
booster
at
intake
manifold
Air
conditioner
equipped
model
10
Remove
compressor
belt
To
remove
loosen
idler
pulley
nut
and
adjusting
bolt
1
Remove
air
pump
2
Remove
compressor
retaining
bolts
and
move
compressor
toward
fender
to
facilitate
removal
of
engine
Nole
Never
discharge
gas
from
com
pressor
while
work
is
being
per
formed
II
Compressor
EA478
Fig
ER
4
Location
of
Air
Compressor
3
Disconnect
vacuum
hose
of
air
conditioner
from
connector
of
intake
manifold
4
Remove
F
i
C
D
actuator
from
bracket
II
Remove
clutch
operating
cylin
der
from
clutch
housing
manual
trans
mission
only
dJ
Tightening
torque
Clutch
operating
cylinder
E
A3
to
clutch
housing
3
1
to
4
1
kg
22
to
30
ft
lbl
Fig
ER
5
Removing
Clutch
Operating
Cylinder
Page 209 of 548
CLUTCH
DISC
AND
COVER
REMOVAL
1
Remove
transmission
from
en
gine
Refer
to
Removal
Section
MT
2
Insert
Clutch
Aligning
Bar
ST20610000
4
speed
tranSmission
or
KV30100IOO
5
speed
transmission
into
clutch
disc
hub
until
it
will
no
longer
gd
It
is
important
to
support
weight
of
clutch
disc
in
the
steps
that
follow
ST20610000
4
peed
transmission
KV30100100
S
peed
transmission
S
cL194
Fig
CL
W
Supporting
Clutch
Assembly
Clutch
CLUTCH
UNIT
n
j
3
Loosen
bolts
attaching
clutch
cover
to
flywheel
one
turn
each
at
a
time
until
spring
pressure
is
released
Be
sure
to
turn
them
out
in
a
crisscross
fashion
4
Remove
clutch
disc
and
cover
assembly
INSPECTION
Wash
all
disassembled
parts
except
disc
assembly
in
suiiable
cleaning
sol
vent
to
remove
dirt
and
grease
before
making
inspection
and
adjustment
FI
1
and
pressure
plate
Check
friction
surface
of
flywheel
and
pressure
plate
for
scoring
or
roughness
Slight
roughness
may
be
smoothed
by
using
fine
emery
cloth
If
surface
is
deeply
scored
or
grooved
the
part
should
be
replaced
Clutch
disc
sembi
Inspect
clutch
disc
for
worn
or
oily
facings
loose
rivets
and
broken
or
loose
torsional
springs
CL
7
1
Clutch
disc
assembly
2
Clutch
cover
assembly
3
ReleaJe
bearing
4
Bearing
sleeve
S
Withdrawal
lever
6
Withdrawa11ever
ball
pin
7
Return
spring
CL370
Fig
CL
9
Clutch
Unit
I
If
facings
are
oily
disc
should
be
replaced
In
this
case
inspect
transmis
sion
front
cover
oil
seal
pilot
bushing
engine
rear
oil
seals
and
other
points
for
oil
leakage
2
The
disc
should
also
be
replaced
when
facings
are
worn
locally
or
worn
down
io
ihe
specified
limit
Wear
limit
of
facing
A
Les
than
0
3
mm
0
012
in
9111
I
A
M
m
C
L336
Fig
CL
ll
M
asur
ng
Clutch
Facing
Wear
Page 210 of 548
3
Check
disc
plate
for
runout
when
ever
the
old
disc
or
a
new
one
is
installed
4
If
runout
exceeds
the
specified
value
at
outer
circumference
of
fac
g
replace
or
repair
disc
Runout
limit
ltotal
indicator
reading
Less
than
0
5
mm
0
020
in
R
from
hub
center
85
mm
3
35
in
CAUTION
When
repairing
disc
plate
never
hold
it
forcibly
with
pUers
or
bend
it
exces
sively
otherwise
facing
will
be
dam
aged
CL112
Fig
CL
12
Repairing
DiM
Runout
5
Check
fit
of
disc
hub
on
transmis
sion
main
drive
gear
splines
for
smooth
sliding
If
splines
are
worn
clutch
disc
r
main
drive
gear
should
be
replaced
that
is
backlash
exceeds
the
specified
value
at
outer
edge
of
clutch
disc
Backlash
Less
than
0
4
mm
0
016
in
Clutch
cover
a
embly
I
Check
the
end
surface
of
dia
phragm
spring
for
wear
If
excessive
wear
is
found
replace
cluich
cover
assembly
2
Measure
height
of
diaphragm
springs
as
outlined
below
I
Place
Distance
Piece
ST20050100
on
Base
Plate
ST20050010
and
then
tighten
clutch
cover
assembly
on
base
plate
by
using
Set
Bolts
ST20050051
Clutch
ST200S0051
snOO50100
snoo
500
10
re1
F
A
J
eLlSl
Fig
CL
J3
Measuring
H
ight
of
Diaphragm
Spring
2
Measure
height
A
at
several
points
with
a
vernier
caliper
depth
gauge
If
height
A
of
spring
end
is
beyond
the
specified
value
adjust
spring
height
with
Diaphragm
Ad
justing
Wrench
ST20050240
as
sh
1wn
in
Fig
CL
I4
Diaphragm
spring
height
A
29
0
to
31
0
mm
1
142
to
1
220
in
If
necessary
replace
clutch
cover
assembly
Also
unevenness
of
dia
phragm
spring
toe
height
should
be
within
the
specified
limit
Unevenness
of
diaphragm
spring
toe
height
Less
than
0
5
mm
0
020
in
CL152
Fig
CL
I4
Adjusting
Spring
Height
3
Inspect
thrust
rings
for
wear
or
damage
As
these
parts
are
invisible
from
outside
shake
cover
assembly
up
and
down
to
listen
for
chattering
noise
or
lightly
hammer
on
rivets
for
a
slightly
cracked
noise
Any
of
these
noi
s
indicates
need
of
replacement
as
a
complete
assembly
INSTALlATION
I
Apply
a
light
coat
of
grease
in
cluding
molybdenum
disulphide
to
transmission
main
drive
gear
splines
Cl
8
Slide
clutch
disc
on
main
drive
gear
several
times
Remove
clutch
disc
and
wipe
off
excess
lubricant
pushed
off
by
disc
hub
Note
Take
special
care
to
prevent
grease
or
oil
rrom
getting
on
clutch
racing
2
Reinstall
clutch
disc
and
clutch
cover
assembly
Support
clutch
disc
and
cover
assemblies
with
Clutch
Aligning
Bar
ST20610000
4
speed
transmission
or
KV30100IOO
5
speed
transmission
Note
Be
sure
to
keep
disc
racings
flywheel
and
pressure
plate
clean
and
dry
KV30100100
5
peed
transmission
ST20610000
4
speed
trammisaion
CL32
Fig
CL
I5
Installing
Clutch
Diac
and
Cover
Aaembly
3
Install
bolts
to
tighten
clutch
cover
assembly
to
flywheel
squarely
Each
bolt
should
be
tightened
one
turn
at
a
time
in
a
crisscross
fashion
ifJ
Tightening
torque
Clutch
cover
bolt
1
6
to
2
1
kg
m
12
to
15
ft
Ibl
N
te
Dowels
are
used
to
locate
clutch
cover
on
flywheel
properly
4
Remove
clutch
aligning
bar
5
Reinstall
transmission
Refer
to
Installation
Section
MI
RELEASE
BEARING
REMOVAL
1
Remove
transmission
from
en
gine
Refer
to
Removal
Section
MI
2
Disconnect
return
spring
from
bearing
sleeve
3
Remove
release
bearing
and
sleeve
as
an
assembly
from
transmission
case
front
cover
Page 215 of 548
Condition
Clutch
chatters
Noisy
clutch
Clutch
grabs
Clutch
Probable
cause
and
testing
Corr
ctive
action
Clutch
chattering
is
usually
noticeable
when
car
is
just
rolled
off
with
clutch
parlially
engaged
Weak
or
broken
clutch
disc
torsion
spring
Oil
or
grease
on
clutch
facing
Clutch
facing
out
of
proper
contact
or
clutch
disc
runout
Loose
rivets
Warped
pressure
plate
or
clutch
cover
surface
Unevenness
of
diaphragm
spring
toe
height
Loose
engine
mounting
or
deteriorated
rubber
A
noise
is
heard
after
clutch
is
disengaged
Damaged
release
bearing
A
noise
is
heard
when
clutch
is
disengaged
Insufficient
grease
on
the
sliding
surface
of
bearing
sleeve
Clutch
cover
and
bearing
are
not
in
stalled
correctly
Replace
Replace
Replace
Replace
Repair
or
replace
Adjust
or
replace
Retighten
or
replace
I
Replace
Apply
grease
Adjust
A
noise
is
heard
when
car
is
suddenly
rolled
off
with
clutch
partially
engaged
Damaged
pilot
bushing
I
Replace
When
grabbing
of
clutch
occurs
car
will
not
roll
off
smoothly
from
a
standing
start
or
clutch
will
be
engaged
before
clutch
pedal
is
fully
depressed
Oil
or
grease
on
clutch
facing
Clutch
facing
worn
or
loose
rivets
Wear
or
rust
on
splines
in
drive
shaft
and
clutch
disc
Warped
flywheel
or
pressure
plate
Loose
mountings
for
engine
or
power
train
units
CL13
Replace
Replace
Clean
or
replace
Repair
or
replace
Retighten
Page 283 of 548
Note
L
C
llTect
thid
ness
of
bearing
race
end
thrust
washer
is
always
the
one
which
is
nearest
the
calculated
one
b
InsteJled
thid
noss
of
oil
pump
gasket
is
0
4
mm
0
016
in
10
Check
to
b
sure
that
brake
servo
piston
moves
freely
For
detailed
procedure
refer
to
page
AT
33
for
Servo
Piston
Use
care
to
prevent
piston
from
coming
out
of
place
dur
ing
testing
since
servo
retainer
is
not
tightened
at
this
point
of
assembly
II
Make
sure
that
brake
band
strut
is
correctly
installed
Tighten
piston
stem
Back
off
two
full
turns
end
secure
with
lock
nul
l
l
Tightening
torqUl
Piston
stem
1
2
to
1
5
kg
m
9
to
11
ft
lbl
Piston
tem
lock
nut
1
5
to
4
0
kg
m
11
to
29
ft
lbl
Available
diaphragm
rod
Distance
measured
L
mm
in
Under
25
55
1
0059
25
65
to
26
05
1
0098
to
1
0256
26
15
to
26
55
1
0295
to
1
0453
26
65
to
27
05
1
0492
to
1
0650
Over
27
15
1
0689
COMPONENT
PARTS
The
transmission
consists
of
many
all
parts
that
are
quite
alike
in
oonstruction
yet
machined
to
very
close
tolerances
When
disassembling
parts
be
sure
to
place
them
in
order
in
part
rack
so
they
can
be
restored
in
the
unit
in
their
proper
positions
It
is
also
very
important
to
perform
func
lional
test
whenever
it
is
designated
Automatic
Transmission
12
After
inhibitor
switch
is
in
stalled
check
to
be
sure
that
it
op
erates
properly
in
each
range
For
detailed
procedure
refer
to
page
AT
40
for
Checking
and
Adjusting
lnhibi
tor
Switch
13
Check
the
length
L
between
case
end
to
rod
end
of
vacuum
throttle
valve
fully
pushed
in
Then
select
adequate
diaphragm
rod
of
corre
sponding
measured
length
1
11f1
n
1
11
1
1
f
c
dllidf
i
L
AT145
Fig
A
T
51
M
asuring
the
Dutance
L
Diaphragm
rod
length
mm
in
29
0
1
142
295
1
161
30
0
I
181
30
5
1
201
31
0
1
220
FRONT
CLUTCH
Dl
mbly
@
@
@
I
Piston
2
Coil
spring
3
Front
clutch
drum
4
Dished
plate
5
Driven
plate
I
6
R
I
etammg
plate
7
Snap
ring
8
Drive
plate
A
T146
9
Spring
retainer
10
Snip
ring
Fig
AT
52
Section
1
View
of
Fronl
Clulch
AT31
I
Pry
off
snap
ring
j
with
a
suitable
screwdriver
or
a
pair
of
pliers
Remove
a
retaining
plate
@
drive
plate
@
driven
plate
@
and
dished
plate
@
in
the
order
listed
as
shown
in
Fig
AT
52
2
Compress
clutch
springs
using
Clutch
Spring
Compressor
ST25420001
or
ST25420000
Re
move
snap
ring
@
from
spring
reo
tainer
using
Snap
Ring
Remover
ST25320001
Fig
AT
53
Removing
Snap
Ring
Note
When
Clutch
Spring
Compres
sor
ST2S420000
is
to
be
used
cut
the
toe
tips
of
three
legs
by
a
grinding
wheel
L
J
t
E
5
Eo
U
0
20mm
0
79
in
Cut
off
hatched
portion
Fig
A
T
54
Modifying
Coil
Spring
Compressor
AT
148
3
Take
out
spring
retainer
@
and
spring
2
See
Fig
AT
52
4
Blowout
piston
by
directing
a
jet
of
air
into
hole
in
clutch
drum
AT149
Fig
A
T
55
Blowing
Out
Piolon
Page 293 of 548
with
the
pin
hole
of
the
internal
rotor
combined
with
the
manual
shaft
and
check
their
alignment
by
inserting
a
1
5
mm
0
059
in
diameter
pin
into
the
holes
If
the
alignment
is
correct
fasten
the
switch
body
with
the
bolts
pull
out
the
pin
tighten
up
the
screw
in
the
hole
and
fasten
the
selector
lever
as
before
Check
the
continuity
pin
with
the
lesler
If
Ihe
malfunc
tion
still
remains
replace
the
inhibitor
switch
STALL
TEST
The
purpose
of
this
test
is
to
check
the
transmission
and
engine
for
trou
ble
by
measuring
the
maximum
num
bers
of
revoiutions
o
the
cngine
while
vehicle
is
held
in
a
stalled
condition
The
carburetor
is
in
fullthrollle
opera
tion
with
the
selector
lever
in
ranges
1
2
and
I
respectively
Com
pale
the
measured
results
with
the
standard
values
Components
to
be
tested
and
test
itelJUl
I
Clutches
brake
and
band
in
trans
mission
for
slipping
2
Torque
converter
for
proper
func
tioning
3
Engine
for
overall
properly
STAU
TEST
PROCEDURES
Before
testing
check
the
engine
oil
and
torque
converter
oil
warm
up
the
engine
cooling
w
ter
to
suitable
tem
perature
by
running
at
1
200
rpm
with
the
selector
lever
in
the
range
P
for
sevcral
minutes
Warm
up
the
torque
converter
oil
to
suitable
temperature
60
to
lOOoC
140
to
2120F
I
Mount
the
engine
tachometer
at
a
location
that
allows
good
visibility
from
the
driver
s
seat
and
put
a
mark
on
specified
revolutions
on
the
meter
2
Secure
the
front
and
rear
wheels
with
chocks
and
apply
the
hand
brake
Be
SIIre
to
depress
the
brake
pedal
firmly
with
the
left
foot
before
de
pressing
the
accelerator
pedal
3
Throw
the
selector
lever
into
the
range
11
4
Slowly
depress
the
accelerator
pedal
until
the
throttle
valvc
is
fully
Automatic
Transmission
opened
Quickly
read
and
record
the
engine
revolution
when
the
engine
begins
to
rotate
steadily
and
then
release
the
accelerator
pedal
5
Shift
the
selector
lever
to
N
and
operate
the
engine
at
approxi
mately
1
200
rpm
for
more
than
one
minute
to
cool
down
the
torque
con
verter
oil
and
coolant
6
Make
similar
staU
tests
in
ranges
2
I
and
R
CAUTION
The
dill
test
operstion
81
specified
in
i18m
4
should
be
I118de
within
fiv
lIeonds
If
it
tBkes
too
long
the
oil
If
and
the
cluti
hn
blllke
and
b
nd
elll
ly
I
Suf
ficient
cooling
time
should
be
given
r
eech
test
for
the
four
IlInges
0
Z
1
end
R
JUDGEMENT
High
stall
revolution
more
than
staitdard
revolution
If
the
engine
levolulion
in
stall
condi
ion
is
higher
than
the
standard
values
it
indicates
that
onc
or
more
clutches
in
the
transmission
are
slipping
and
therefore
no
further
test
is
required
For
the
following
abnormalities
the
respective
causes
are
presumed
High
rpm
in
all
ranges
low
line
pr
ssure
High
rpm
in
0
2
and
I
and
normal
rpm
in
6R
Rear
clutch
slipping
High
rpm
in
D
and
2
and
normal
rpm
in
One
way
clutch
slipping
High
Ipm
in
R
only
Front
clutch
or
low
and
reverse
brake
slipping
To
determine
which
is
slipping
front
clutch
or
low
and
reverse
brake
a
road
test
is
needed
If
while
coasting
after
starting
with
the
levcr
in
I
range
engine
braking
does
not
work
properly
the
low
and
reverse
brake
is
slipping
Otherwise
the
front
clutch
is
slipping
Slipping
of
the
band
brake
is
diffi
cuJt
to
ascertain
However
jf
it
occurs
with
the
lever
in
1
range
engine
AT
41
revolution
increases
up
to
the
same
level
as
in
1st
range
It
is
impossible
to
check
it
in
the
stall
test
2
Standard
stall
rnoluiion
If
the
engine
revoluiion
in
stall
ondition
is
within
he
standard
values
the
control
elements
are
nOf
mally
operating
in
the
ranges
D
2n
I
and
R
Also
the
engine
and
one
way
clutch
of
the
torque
converter
are
norinal
in
performance
and
operation
The
one
way
clutch
of
the
torque
converter
however
sometimes
sticks
This
is
determined
in
the
road
test
3
Lower
stall
revolution
than
lIand
ard
revolution
If
the
engine
revolution
in
stall
condition
is
lower
than
the
standard
values
it
indicates
that
the
engine
is
in
abnormal
condition
or
the
torque
con
verter
s
one
way
clutch
is
slipping
4
O
hers
I
If
the
accelerating
performance
is
poor
until
vehicle
speed
of
approxi
mately
SO
kmfh
30
MPH
is
attained
and
then
normal
beyond
that
speed
it
can
be
judged
that
the
torque
con
verte
c
s
one
way
clutch
is
slipping
2
If
the
torque
converter
sane
way
dutch
sticks
vehicle
speed
can
not
exceed
approximately
80
kmfh
SO
MPH
in
the
road
tesl
In
such
a
case
the
torque
converter
oil
tem
perature
rises
abnormally
and
so
special
care
is
required
3
If
the
transmission
does
not
op
erate
properly
at
all
vehicle
speeds
it
indicates
poor
engine
performance
ROAD
TEST
An
accurate
knowledge
of
the
au
to
matic
transmission
is
required
for
an
exact
diagnosis
II
is
recommended
that
a
diagnosis
guide
chart
with
the
standard
vehicle
speeds
for
each
stage
of
the
up
and
down
shiftings
be
prepared
Measured
vehicle
speeds
are
to
be
filled
in
the
adjoining
column
after
each
testing
Also
it
is
advisable
to
mount
a
stopper
for
positioning
the
throttle
opening