check engine DATSUN PICK-UP 1977 Service Manual
Page 312 of 537
Automatic
Transmission
TROUBLE
DIAGNOSIS
AND
ADJUSTMENT
INSPECTION
AND
ADJUSTMENT
BEFORE
TRQUBLE
DIAGNOSIS
TESTING
INSTRUMENT
FOR
INSPECTION
CHECKING
OIL
LEVEL
INSPECTION
AND
REPAIR
OF
OIL
EAKAGE
CHECKING
ENGINE
IDLING
REVOLUTION
CHECKING
AND
ADJUSTING
KICKDOWN
SWITCH
AND
DqWNSHIFT
SOLENOID
N
J
J
CII
Q
t
L
8li
p
JYSTMs
T
OF
MANUAL
LINKAGE
CHECKING
AND
ADJUSTING
INHIBITOR
SWITCH
STALL
TEST
STALL
TEST
PROCEDURES
JUDGEMENT
Since
most
automatic
transmission
troubles
can
be
repaired
by
simple
adjustment
do
not
disassemble
im
mediately
Firstly
inspect
and
adjust
the
auto
matic
transmission
in
place
utilizing
the
Trouble
Shooting
Chart
If
the
trouble
can
not
be
solved
by
this
procedure
remove
and
disas
semble
the
automatic
transmission
It
is
advisable
to
check
overhaul
and
repair
each
part
in
the
order
listed
in
the
Trouble
Shooting
Chart
I
In
the
Trouble
Shooting
Chart
the
diagnosis
items
are
arranged
ac
cording
to
difficulty
from
easy
to
difficult
therefore
please
follow
these
items
The
transmission
should
not
be
removed
unless
necessary
2
Tests
and
adjustments
should
be
made
on
the
basis
of
standard
values
and
the
data
should
be
recorded
INSPECTION
AND
ADJUSTMENT
BEFORE
TROUBLE
DIAGNOSIS
TESTING
INSTRUMENT
FOR
INSPECTION
I
Engine
tachometer
2
Vacuum
gauge
ROAD
TEST
VEHICLE
SPEED
AT
GEAR
SHIFT
CHECKING
SPEED
CHANGING
CONDITION
CHECKING
ITEMS
DURING
SPEED
CHANGE
SHIFT
SCHEDULE
LINE
PRESSURE
TEST
LINE
PRESSURE
governor
feed
pressure
JUDGEMENT
IN
MEASURING
LINE
PRESSURE
At
49
TR6
uBLE
SHOOTINC
CHART
INSPECTING
ITEMS
TROUBLE
SHOOTING
CHART
FOR
3N71B
AUTOMATIC
TRANSMISSION
TROUBLE
SHOOTING
GUIDE
FOR
3N71B
AUTOMATIC
TRANSMISSION
CONTENTS
AT
4B
AT
48
AT
4B
AT
49
AT
49
AT
49
AT
49
AT
50
AT
50
AT
50
3
Oil
pressure
gauge
It
is
convenient
to
install
these
instruments
in
a
way
that
allows
meas
urements
to
be
made
from
the
driver
s
seat
CHECKING
OIL
LEVEL
In
checking
the
automatic
transmis
sion
the
o
illevel
and
the
condition
of
oil
around
the
oil
level
gauge
should
be
examined
This
is
an
easy
and
effective
trouble
shooting
procedure
since
some
changes
in
oil
condition
are
often
linked
with
developed
troubles
For
instance
Lack
of
oil
causes
faulty
operation
by
making
the
clutches
and
brakes
slip
resulting
in
severe
wear
This
is
because
the
oil
pump
sucks
air
causing
oil
foaming
thus
rapidly
deteriorating
the
oil
quality
and
pro
ducing
sludge
and
varnish
Excessive
oil
is
also
bad
because
of
oil
foaming
caused
by
the
gears
stirring
up
the
oil
During
high
speed
driving
excessive
oil
in
the
transmission
often
blows
out
from
the
breather
Measuring
011
level
To
check
the
fluid
level
start
the
engine
and
run
it
until
normal
operat
T
AO
AT
51
AT
51
AT
52
AT
52
AT
52
AT
52
AT
53
AT
3
AT
53
AT
53
AT
54
AT
57
ing
temperatures
o
temperature
SO
to
800C
122
to
l760F
Approxi
mately
ten
minute
of
operation
will
raise
the
temperature
to
this
range
and
engine
idling
conditions
are
stabi
lized
Then
apply
the
brakes
and
move
the
transmission
shift
lever
through
all
drive
positions
and
place
it
in
park
P
position
In
this
inspec
tion
the
car
must
be
placed
on
a
level
surface
The
amount
of
the
oil
varies
with
the
temperature
As
a
rule
the
oil
level
must
be
measured
after
its
temper
ture
becomes
sufficiently
high
1
Fill
the
oil
to
the
line
H
The
difference
of
capacities
between
both
H
and
L
is
approximately
0
4
liter
Ji
V
S
p
Y
Imp
pl
and
therefore
do
not
to
fill
beyond
the
line
H
2
When
topping
up
and
changing
oil
care
should
be
taken
to
prevent
mixing
the
oil
with
dust
and
water
InspectIng
011
condition
The
condition
of
oil
sticking
to
the
level
gauge
indicates
whether
to
over
haul
and
repair
the
transmission
or
look
for
the
faulty
part
If
the
oil
has
deteriorated
to
a
varnish
ike
quality
it
causes
the
con
trol
valve
to
stick
Blackened
oil
indi
cates
a
burned
clutch
brake
band
etc
Page 313 of 537
In
these
cases
the
transmission
must
be
repaired
Notes
a
In
checking
oil
level
use
special
paper
cloth
to
handle
the
level
gauge
and
be
careful
not
to
let
the
scraps
of
paper
and
cloth
stick
to
the
gauge
b
Insert
the
gauge
fully
and
take
it
out
quickly
before
splashing
oil
adheres
to
the
gauge
Then
observe
the
level
c
Use
automatic
transmission
fluid
having
DEXRON
identifications
only
in
the
3N71B
automatic
trans
mission
d
Pay
attention
because
the
oil
to
be
used
differs
from
that
used
in
the
Nissan
Full
Automatic
TranSJTIis
sion
3N71A
Never
mix
the
oils
INSPECTION
AND
REPAIR
OF
OIL
LEAKAGE
When
oil
leakage
takes
place
the
portion
near
the
leakage
is
covered
with
oil
presenting
difficulty
in
detecting
the
spot
Therefore
the
places
where
oil
seals
and
gaskets
are
equipped
are
enumerated
below
11
Converter
housing
Rubber
ring
of
oil
pump
housing
Oil
seal
of
oil
pump
housing
Oil
seal
of
engine
crankshaft
Bolts
of
converter
housing
to
case
2
Trarismission
and
rear
extension
Junction
of
transm
ss
ion
and
rear
extension
J
Oil
cooler
tube
connectors
Oil
pan
Oil
pressure
inspection
holes
Refer
to
Figure
AT
il2
Mounting
portion
of
vacuum
dia
phragm
and
downshift
solenoid
Breather
and
oil
charging
pipe
Speedometer
pinion
sleeve
Oil
se
l
of
rear
extension
To
exactly
locate
the
place
of
oil
leaka
le
proceed
as
follows
Place
the
vehicle
in
a
pit
and
by
sampling
the
leaked
oil
determine
if
it
is
the
torque
converter
oil
The
torque
converter
oil
has
a
color
like
r
d
wine
So
it
is
easily
distinguished
from
engine
oil
or
gear
oil
Automatic
rransmission
Wipe
off
the
leaking
oil
and
dust
and
deiecl
the
spol
of
oil
eakage
l
se
nonflammable
organic
solve
t
s
ch
as
carbon
tetrachloride
for
wiping
Raise
the
oil
tcmperalure
by
op
erating
the
engine
and
shift
the
lever
to
D
to
increase
the
oil
pressure
The
spot
of
oil
lcakage
will
then
be
found
more
easily
Note
As
oil
leakage
from
the
breaih
er
does
not
take
place
except
when
running
at
high
speed
it
is
impos
sible
to
locate
this
leakage
with
vehicle
stationary
CHECKING
ENGINE
IDLING
REVOLUTION
The
engine
idling
revolution
should
be
properly
adjusted
If
the
engine
revolution
is
too
low
the
engine
does
not
operate
smoothly
and
if
too
high
a
strong
shock
or
creep
develops
when
changing
over
from
N
to
D
or
R
CHECKING
AND
ADJUSTING
KICK
DOWN
SWITCH
AND
DOWNSHIFT
SOLENOID
When
the
kickdown
operation
is
not
made
properly
or
the
speed
chang
ing
point
s
too
high
check
the
kick
down
switch
downshift
solenoid
and
wiring
between
them
When
the
igni
li
n
key
is
pqsitioned
a
t
the
I
st
stage
nd
the
accelerator
pedal
is
depressed
deeply
the
switch
contact
should
be
closed
and
the
solenoid
should
click
If
it
does
not
click
it
indicates
a
defect
Then
check
each
part
with
the
testing
instruments
See
Figure
ATl09
d
I
t
AT10S
Fig
AT
109
Downshift
solenoid
Note
Watch
for
oil
leakage
from
transmission
case
AT
4Q
INSPECTION
AND
ADJUSTMENT
OF
MANUAL
LINKAGE
The
adjustmcnt
of
manual
linkage
is
equaUy
important
as
Inspection
of
Oil
Level
for
the
automatic
transmis
sion
Thereforc
great
care
should
be
exercised
because
incorrect
adjustment
will
rcsult
in
the
brcakdown
of
the
transmission
Inspection
Pull
the
selector
lever
toward
you
and
turn
it
as
far
as
P
to
I
range
wherc
clicks
will
be
felt
by
the
hand
This
is
the
detcnt
of
manual
valve
in
the
valve
body
and
indicates
th
correct
position
of
the
lever
Inspect
whether
the
pointer
of
selector
dial
corresponds
to
this
point
and
also
whether
the
lever
comes
in
alignment
with
the
stepping
of
posi
tion
plate
when
it
is
released
Adjustment
This
procedure
can
be
accomplish
ed
by
refcrring
to
page
AT
35
for
Removal
and
Installa
tion
CHECKING
AND
ADJUSTING
INHIBITOR
SWITCH
The
inhibitor
switch
lights
the
re
verse
lamp
in
the
range
R
of
the
transmission
operatio
l
and
also
rotates
the
starter
motor
in
the
ranges
N
and
P
CD
@
b
ell
If
L
t
7
4l
@
1l
j7
@
@
@
dl
AT109
6
Washer
7
Nut
8
Inhibitor
switch
9
Range
select
lever
t
Inhibitor
switch
2
Manual
shaft
3
Washer
4
Nut
5
Manual
plate
Fig
AT
110
Construction
of
inhibitor
switch
Page 314 of 537
Using
the
tester
check
the
two
black
yellow
BY
wires
from
the
in
hibitor
switch
in
the
ranges
N
and
I
and
the
tw
re
d
black
RBj
wir
s
in
the
range
R
for
continuity
Turn
range
select
lever
in
both
directions
from
each
lever
set
position
and
check
each
continuity
range
It
is
normal
if
the
electricity
is
on
while
the
lever
is
within
an
angle
of
about
30
on
both
sides
from
each
lever
set
line
How
ever
if
its
continl
ity
range
is
obvious
ly
unequal
on
both
sides
adjustment
is
required
If
any
malfunction
is
found
un
screw
the
fastening
nut
of
the
range
selector
lever
and
two
fastening
bolts
of
the
switch
body
and
then
remove
the
machine
screw
under
the
switch
body
Adjust
the
manual
shaft
correct
ly
to
the
position
N
by
means
of
the
selector
lever
When
the
slot
of
the
shaft
becomes
vertical
the
detent
works
to
position
the
shaft
correctly
with
a
clicking
sound
MSlVe
the
switch
slightly
asj
Je
so
that
the
screw
hole
will
be
aligned
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
again
with
the
tester
If
the
malfunc
tion
still
remains
replace
the
inhibitor
switch
Chcck
whether
the
reverse
lamp
and
the
starter
motor
operate
normal
ly
in
these
ranges
If
Ihere
is
any
lrouble
first
check
the
linkage
If
no
fault
is
found
in
the
linkage
check
the
inhibitor
switch
Separate
the
manual
lever
from
Ihe
remote
control
selector
rod
and
turn
the
range
selcct
lever
to
N
Note
In
the
position
N
the
slot
of
the
manual
shaft
is
vertical
STALL
TEST
The
purpose
of
this
test
is
to
check
the
transmission
and
engine
for
trou
ble
by
measuring
the
maximum
num
bers
of
revolutions
of
the
engine
while
Automatic
Transmission
vehicle
is
held
in
a
stalled
condition
The
carburctor
is
in
full
throttle
opera
tion
with
the
selector
lever
in
ranges
f
2
and
I
respectively
Com
pare
the
measured
results
with
the
slandard
values
Components
to
be
tested
and
test
items
I
Clutches
brake
and
band
in
trans
mission
for
slipping
2
Torque
converter
for
proper
fune
tioning
3
Engine
for
overall
properly
STALL
TEST
PROCEDURES
Before
Icsting
c
heck
the
engine
oil
and
torque
converter
oil
warm
up
the
engine
cooling
water
to
suitable
tem
perature
by
running
at
1
200
rpm
with
the
selector
lever
in
the
range
P
for
several
minutes
Warm
up
the
torque
converter
oil
to
suitable
temperature
6010
1000C
140
to
2l20F
I
Mount
the
engine
tachometer
at
a
location
that
allows
good
visibility
fro
the
dri
er
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
sure
to
depress
the
brake
pedal
fumly
with
the
left
foot
before
de
pressing
the
accelerator
pedal
3
Throw
the
selector
lever
into
the
range
1
4
Slowly
depress
the
accelerator
pedal
until
the
throttle
valvc
is
fully
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
ver
ter
oil
and
coolant
6
Make
similar
stall
tests
in
ranges
2
I
and
RIO
Note
The
stall
test
operation
as
speci
f
d
in
item
4
should
be
I
l3de
wiihin
five
seconds
If
it
takes
too
long
the
oil
deteriorates
an
the
clutches
brake
and
band
are
ad
versely
affected
Sufficient
cooling
time
should
be
given
between
each
AT
5O
test
for
the
four
ranges
0
2
I
and
R
JUDGEMENT
High
stall
revolution
more
than
standard
revolution
If
the
engine
revolution
in
stall
condition
is
higher
than
the
standard
values
it
indicates
that
one
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
Iine
pressure
High
rpm
in
D
2
and
I
and
normal
rpm
in
R
Rear
clutch
slipping
High
rpm
in
0
and
normal
rpm
in
I
clutch
slipping
High
rpm
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
nceded
If
whilc
coasting
after
starting
with
the
lever
in
1
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
cult
to
ascertain
However
if
it
occurs
with
the
lever
in
2
range
engine
revolution
increases
Jp
to
thesarne
level
as
in
I
strange
It
is
impossible
to
check
it
in
the
stall
test
2
and
One
way
2
Standard
stall
revolution
If
the
engine
revolution
in
stall
condition
is
within
the
standard
values
the
control
elements
are
nor
mally
operating
in
the
ranges
0
2
I
and
R
Also
tIle
engine
and
one
way
clutch
of
the
torque
converter
are
normal
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
stand
ard
revolution
If
the
engine
revolution
in
stall
condition
is
lower
than
the
standard
Page 316 of 537
CHECKING
SPEED
CHANGING
CONDITION
The
driver
s
feeling
during
gear
changes
should
also
be
checkedatten
tively
I
A
sharp
shock
or
unSffioothness
is
felt
during
a
gear
change
2
A
gear
change
is
made
with
a
long
and
dragging
feeling
These
indicate
that
the
tIuottle
pressure
is
too
low
or
some
valve
connected
to
the
throttle
is
faulty
h
k
100
1
1
2
I
2
J
I
1
2
I
I
I
2
3
oo
I
c
I
E
I
I
300
I
Z
5
L
mmHg
t
1
400
I
I
1
Output
shaft
speed
rpm
20
30
40
50
60
70
80
90100
00
io
3
0
40
0
60
Vehicle
speed
R
4
315
r
0
321
6
00
14
ATll0
Fig
AT
111
Shift
IChedule
Automatic
Transmission
SHI
SCHEDULE
500
CHECKING
ITEMS
DURING
km
hO
1O
SPEED
CHANGE
I
In
D
range
gear
changes
DI
D2
D3
are
effected
In
R
range
the
speed
does
not
increase
2
The
kickdown
operates
properly
3
By
moving
the
lever
from
D
to
I
gear
changes
D
2
1
2
1
are
effected
In
the
ranges
12
and
I
the
engine
braking
works
prop
erly
4
In
I
the
speed
does
not
in
crease
5
Should
be
quickly
fixed
at
2
range
6
In
P
vehicle
can
he
parked
properly
If
any
malfunction
occurs
in
second
gear
during
the
road
test
that
is
if
vehicle
shakes
drags
or
slings
while
shifting
up
from
D
directly
to
D
or
in
shifting
up
from
D
to
D2
the
brake
band
should
be
ad
justed
If
these
troubles
remain
after
the
brake
band
is
adjusted
check
the
servo
piston
seal
for
oil
leakage
MPH
Ii
io
LINE
PRESSURE
TEST
When
any
slipping
occurs
in
clutch
or
brake
or
the
feeling
during
a
speed
change
is
not
correct
the
line
pressure
must
be
checked
Measuring
line
pressure
is
done
by
a
pressure
gauge
attached
to
two
pres
sure
measuring
holes
after
removing
blind
plugs
located
at
transmission
case
See
Figure
AT
112
The
line
pressure
measurement
is
begun
at
idling
and
taken
step
by
step
by
enlarging
the
throttle
opening
I
A
sharp
shock
in
up
shifting
or
too
high
changing
speeds
are
caused
mostly
by
too
high
throttle
pressure
2
Slipping
or
incapability
of
opera
tion
is
mostly
due
to
oil
pressure
leakage
within
the
gear
trains
or
spool
valve
AT
S2
3
3SA
000
t
I
1
I
c
l
1
c
7
D
jf
o
CV
ATl13
1
Lige
pressure
2
Governor
feed
3
SerVo
release
pressure
Fig
AT
112
MeCJ
uring
line
preuure
Page 317 of 537
Automatic
Transmission
LINE
PRESSURE
GOVERNOR
FEED
PRESSURE
At
cut
back
point
After
cut
back
Throttle
opening
under
approximately
over
approximately
15
kmfh
10
MPH
35
kmfh
22
MPH
Unit
mmHg
Unit
kgfcm2
psi
Unit
kgfcm2
psi
Full
throtlle
0
9
4
to
11
0
134
to
156
5
5
to
6
5
78
to
92
Minill1um
throttle
450
3
0
to
4
0
43to
57
3
0
to
4
0
43
to
57
Fulllhrotlle
0
10
0
to
12
0
142
to
171
5
5
to
7
0
78
to
100
Minimum
throttle
450
6
0
to
12
0
85to171
5
5
to
7
0
78
to
100
Full
throtlle
0
14
0
to
16
0
199
to
228
14
0
to
16
0
199
to
228
Minimum
throttle
450
3
0
to
5
5
43
to
78
3
0
to
5
5
4
lo
78
Range
D
2
R
Notes
a
The
line
pressure
during
idling
corresponds
to
the
oil
pressure
before
cut
down
at
minimum
throttle
b
The
oil
pressure
After
cut
back
means
that
after
the
pressure
modifier
valve
has
operated
JUDGEMENT
IN
MEASURING
LINE
PRESSURE
Low
idling
line
pressure
in
the
ranges
D
2
I
R
and
pH
This
can
be
atlributed
to
trouble
in
the
pressure
supply
system
or
too
low
output
of
power
caused
by
I
A
worn
oil
pump
2
An
oil
pressure
leak
in
the
oil
pump
valve
body
or
case
3
A
sticking
regulator
valve
2
Low
idling
line
pressure
in
cer
tain
ranges
only
This
is
presumably
caused
by
an
oil
leak
in
the
devices
or
circuits
con
nected
to
the
relevant
ranges
I
When
there
is
an
oil
leak
in
the
rear
clutch
and
governor
the
line
pressure
in
D
2
and
I
are
low
but
the
pressure
is
norrrial
in
R
2
When
an
oil
leak
occurs
in
the
low
and
reverse
brake
circuit
the
line
pressure
in
R
and
P
are
low
but
the
pressure
is
normal
in
D
2
and
I
3
High
idling
line
pressure
This
is
presumably
caused
by
an
increased
vacuum
throttle
pressure
owing
to
a
leak
in
the
vacuum
tube
or
dia
phragm
or
by
an
increased
line
pressure
due
to
a
sticking
regulator
valve
Vacuum
leakage
is
checked
by
directly
measuring
the
negative
pres
sure
after
removing
the
vacuum
pipe
A
puncture
of
the
vacuum
dia
phragm
can
be
easily
ascertained
because
the
torque
converter
oil
is
absorbed
into
the
engine
and
the
exhaust
pipe
emits
white
smoke
4
Items
to
be
checked
when
the
line
pressure
is
increasing
In
this
check
the
line
pressure
should
be
measured
with
vacuums
of
450
mmHg
and
0
mmHg
in
accordance
with
the
stall
test
procedure
I
If
the
line
pressure
do
not
n
crease
despite
the
vacuum
decrease
check
whether
the
vacuum
rod
is
incorporated
2
If
the
line
pressure
do
not
meet
the
standard
it
is
caused
mostly
by
a
sticking
pressure
regulating
valve
pres
sure
regulating
valve
plug
or
amplifier
TROUBLE
SHOOTING
CHART
INSPECTING
ITEMS
1
Inspection
with
automatic
trans
mission
on
vehicle
AT
53
A
Oil
level
B
Ra
lge
select
linkage
C
Inhibitor
switch
and
wiring
D
Vacuum
diaphragm
and
piping
E
Downshift
solenoid
kickdown
switch
and
wiring
F
Engine
idling
rpm
G
Oil
pressure
throttle
H
Engine
stall
rpm
I
Rear
lubrication
J
Control
valve
manual
K
Governor
valve
L
Band
servo
M
Transmission
air
check
N
Oil
quantity
o
Ignition
switch
and
starter
motor
P
Engine
adjustment
and
brake
in
spection
2
Inspection
after
inspecting
auto
matic
transmission
on
vehicle
m
Rear
clutch
n
Front
clutch
q
Band
brake
r
Low
and
reverse
brake
s
Oil
pump
t
Leakage
of
oil
passage
u
One
way
clutch
of
troque
coilVerter
v
One
way
clutch
of
transmission
w
Front
clutch
check
ball
x
Parking
linkage
y
Planetary
gear
Page 318 of 537
Automatic
Transmission
TROUBLE
SHOOTING
CHART
FOR
3N718
AUTOMATIC
TRANSMISSION
The
number
shown
beluw
indicates
the
sequence
in
which
the
checks
should
be
taken
up
Trouble
ABeD
EFGHIIJKL
MNOP
tnnqr
stuv
wxy
ngine
does
not
start
in
N
P
ranges
2
3
1
Engine
starts
in
other
range
than
N
and
P
1
2
Sharp
shock
in
shifting
from
N
to
0
range
Vehicle
will
not
run
in
D
range
bul
I
TUns
in
2u
l
and
R
ranges
2
4
@
3
5
6
3
7
@
@
2
1
3
Vehicle
will
not
run
in
0
1
2
ranges
bul
runs
in
R
range
1
2
Clutch
slips
Very
poor
acceleration
4
Vehicle
will
nol
run
in
R
range
bul
runs
in
0
2
and
I
r
nges
1
2
Iukh
slips
Very
poor
acceleration
3
5
6
4
@@
1
@
@
Vehicle
will
not
run
in
any
range
1
2
3
5
6
4
1
@
@
Clutches
or
brakes
slip
somewhat
1
2
6
I
3
5
7
4
@@
in
starting
Vehicle
runs
in
N
range
I
3
2
Maximum
speed
not
allained
1
2
4
5
7
6
3
8
OO
I@
Acceleration
poor
Vehicle
braked
by
Ihrowing
Icver
inlo
3
2
1
@
I
@
R
range
I
Excessive
creep
1
No
creep
al
all
I
2
3
5
4
@@
@
1
Failure
10
dumge
gear
from
2nd
I
2
3
5
6
8
7
4
@
@
to
3rd
Failure
tllchJllgC
gear
from
1
1
1
2
3
5
6
8
7
4
@
@
@
to
2ud
Too
high
a
gear
change
poinl
from
I
sC
to
2nd
from
2nd
to
1
2
3
5
6
4
1
3rd
Gear
change
directly
from
lsl
to
2
4
3
1
@
@
rd
occurs
AT
54
Page 321 of 537
Automatic
Transmission
TROUBLE
SHOOTING
GUIDE
FOR
3N71B
AUTOMATIC
TRANSMISSION
Order
Test
item
Checking
Oil
level
gauge
2
Downshift
solenoid
3
Manuallinkage
L
4
Inhibitor
switch
5
Engine
idling
rpm
6
Vacuum
pressure
of
vacuum
pipe
7
Operation
in
each
range
8
Creep
of
vehicle
Stall
test
I
Oil
pressure
before
tesling
1
2
Stall
test
3
Oil
pressure
after
testing
Road
test
Slow
acceleration
I
st
2nd
2nd
3rd
2
Quick
acceleration
lst
2nd
2nd
3rd
3
Kick
down
operation
3rd
2nd
or
2nd
1st
Procedure
Check
gauge
for
oil
level
and
leakage
before
and
after
each
test
Check
for
sound
of
operating
solenoid
when
depressing
accelerator
pedal
fully
with
ignition
key
ON
Check
by
shifting
into
P
lR
IN
D
2
and
I
ranges
with
selector
lever
Check
whether
starter
operates
in
N
and
p
ranges
only
and
whether
reverse
lamp
operates
in
R
range
only
Check
whelher
idling
rpm
meet
standard
Check
whether
vacuum
pressure
is
more
than
450
mmHg
in
idling
and
whether
it
decreases
with
increasing
rpm
Check
whether
transmission
engages
positively
by
shifting
N
0
N
2
N
l
I
and
N
R
range
while
idling
with
brake
applied
Check
whether
there
is
any
creep
in
D
2
R
ranges
and
Measure
line
pressures
in
D
2
I
and
R
range
while
idling
Measure
engine
rpm
and
line
pressure
in
D
2
I
and
R
ranges
during
full
throttle
operati
n
Notes
a
Temperature
of
torque
converter
oil
used
in
test
should
be
from
600
to
1000C
1400
to
2120F
i
e
sufficiently
warmed
up
but
not
overheated
b
To
cool
oil
between
each
stall
test
for
D
2
I
and
R
ranges
idle
engine
i
e
rpm
at
about
1
200
rpm
for
more
than
1
minute
in
P
range
Measurement
time
must
not
be
more
than
5
seconds
Same
as
item
I
Check
vehide
speeds
and
engine
cpm
in
shifting
up
Ist
2nd
range
and
2nd
Jo3rd
range
while
running
with
lever
in
D
range
and
engine
vacuum
pressure
of
about
200
I11I1lHg
Same
as
item
1
above
except
with
engine
vacuum
pressure
of
0
mmHg
i
e
in
position
just
before
kickdown
Check
whether
the
kickdown
operates
and
measure
the
time
delays
while
running
at
30
40
50
60
70
km
h
18
25
30
37
43
MPH
in
D3
range
AT
57
Page 322 of 537
Automatic
Transmission
Order
Test
item
4
Shift
down
Dr
O2
0
5
Shift
down
DJ
12
1
6
Shift
down
DJ
2
7
Shift
up
I
12
8
Shift
up
or
down
when
start
iog
in
2
range
9
Parking
Others
Abnormal
shock
oil
leakage
Procedure
Check
vehicle
speeds
and
engine
rpm
in
shifting
down
from
3rd
2nd
I
st
sequentially
while
coasting
with
accelerater
pedal
released
in
D3
range
and
engine
vacuum
pressure
of
about
450
mmHg
Check
for
shifting
down
OJ
12
and
engine
braking
and
further
for
shifting
down
12
I
and
engine
braking
after
shifting
the
lever
into
I
range
with
the
accelerator
pedal
released
and
the
engine
vacuum
pressure
of
0
mmHg
while
driving
at
about
50
km
h
30
MPH
in
OJ
range
Check
for
quick
shifting
down
0
2
and
engine
biaking
after
shifting
the
lever
into
2
range
while
driving
at
about
50
km
h
30
MPH
in
OJ
range
Further
check
for
locking
of
the
transmission
in
2nd
gear
ratio
regardless
of
vehicle
speed
Check
for
failure
of
the
transmission
to
shift
up
during
acceleration
when
starting
in
I
range
Check
the
transmission
for
not
shifting
up
or
down
during
acceleration
or
deceleration
when
starting
in
2
rang
Confirm
that
vehicle
will
not
move
on
grade
when
shifting
to
P
range
Enter
into
record
conditions
observed
during
these
tests
such
as
gear
noise
abnormal
clutch
noise
and
acceleration
performance
AT
58
Page 360 of 537
Note
When
installing
fulcrum
pin
insert
it
from
rearward
of
vehicle
12
Install
tension
rod
shock
ab
sorber
I
stabilizer
torsion
bar
spring
and
knuckle
arm
referring
to
the
related
paragraphs
13
Install
brake
disc
to
knuckle
spindle
and
torque
securing
bolt
to
4
2
to
5
0
kg
m
30
to
36
ft
Ib
14
Install
wheel
and
brake
drum
as
an
assembly
and
torque
knuckle
spin
dle
nut
to
8
0
to
9
0
kg
m
58
to
65
ft
Ib
DISASSEMBLY
AND
ASSEMBLY
Upper
link
I
Detach
upper
link
spindle
from
upper
links
and
remove
clamp
dust
cover
and
dust
seal
Secure
upper
link
in
a
vise
and
loosen
screw
bushing
Assemble
link
spindle
in
reverse
sequence
to
disassembling
noting
the
following
instructions
2
Torque
screw
bushing
on
upper
link
to
3S
to
55
kg
m
253
to
398
ft
Ib
Install
new
dust
seal
and
dust
cover
and
secure
them
with
clamp
3
Coat
grease
to
screw
bushing
in
side
and
the
thread
portion
of
upper
link
spindle
liberally
Screw
front
and
rear
links
to
upper
link
spindle
in
the
same
length
so
as
to
obtain
the
speci
fied
figures
as
shown
in
Figure
FA
23
Unit
mm
in
I
44
6
1
156
FA2
Upper
link
and
upper
link
spindle
Fig
FA
23
Front
Axle
Front
Suspension
4
Make
sure
to
operate
upper
link
spindle
smoothly
after
installation
5
Replace
filler
plug
with
grease
nipple
and
pack
grease
until
grease
comes
out
from
dust
cover
Reinstall
f1ller
plug
Lower
link
When
installing
torque
arm
on
lower
link
tighten
it
to
the
following
specifications
Serration
boss
1
8
to
2
6
kg
m
13
to
19
ft
Ib
Arm
head
2
7
to
3
7
kg
m
20
to
27
ft
tb
INSPECTION
Upper
link
spindle
fulcrum
pin
and
screw
bushing
Apply
screw
bushing
to
upper
link
spindle
or
fulcrum
pin
and
measure
axial
end
play
between
them
When
the
end
play
exceeds
0
35
mm
0
0138
in
replace
upper
link
spindle
or
fulcrum
pin
together
with
screw
bushings
Condition
Vehicle
empty
no
payload
Vehicle
loaded
Notes
a
Vehicle
empty
no
payload
consists
of
the
following
conditions
I
Full
tank
of
gasoline
radiator
f1lled
and
engine
oil
level
full
2
Spare
tire
wheel
jack
and
jack
handle
in
design
position
b
Vehicle
loaded
consists
of
the
fol
lowing
conditions
For
all
models
2
persons
and
SIlO
leg
I
103lb
payload
FA
Check
the
screw
of
upper
link
spindle
fulcrum
pin
and
screw
bush
ing
and
repair
or
replace
if
necessary
Note
Discard
dust
cover
and
dust
seal
when
disassembled
ADJUSTMENT
VEHICLE
POSTURE
Vehicle
posture
may
be
incorrect
due
to
weakened
spring
or
other
faulty
condition
The
following
procedures
are
necessary
when
adjustment
is
Ie
quired
That
is
the
vehicle
posture
can
be
adjusted
by
obtaining
only
the
speci
fied
H
dimension
changing
the
length
of
anchor
bolt
I
Raise
front
of
vehicle
on
stands
2
Adjust
H
dimension
with
turn
ing
nut
adjusting
anchor
bolt
H
dimension
changes
approximately
3
5
mm
0
J38
in
vertically
when
adjust
nut
is
turned
one
complete
turn
3
To
make
the
best
vehicle
posture
H
dimension
must
be
in
the
follow
ing
range
H
dimension
mOl
in
All
models
79
to
84
3
11
to
3
31
54
5
2
15
o
i
Fig
FA
24
FA242
Dimension
for
standard
vehicle
postl4re
Page 374 of 537
Rear
Axle
Rear
Suspension
Spring
front
pin
Spring
shackle
Bearing
cage
fIXing
bolt
Wheel
bearing
lock
nut
Air
breather
Differential
gear
carrier
to
axle
case
nut
Propeller
shaft
flange
bolt
Drain
and
filler
plug
Bumper
rubber
fixing
bolt
Wheel
nut
kg
m
ft
lb
kg
m
ft
Ib
kg
en
ft
lb
kg
m
ft
Ib
kg
m
ft
Ib
kg
m
ft
Ib
kg
en
ft
Ib
kg
m
ft
Ib
kg
m
ft
Ib
kg
m
ft
lb
11
5
to
13
0
83
to
94
11
5
to
13
0
83
to
94
S
4
to
6
4
39
to
46
IS
to
20
108
to
l4S
0
7
to
0
9
S
I
to
6
S
17
to
2
7
12
to
20
2
0
to
2
7
14
to
20
6
to
10
43
to
72
1
6
to
2
2
12
to
16
8
to
9
S8
to
6S
TROUBLE
DIAGNOSES
AND
CORRECTIONS
When
rear
axle
and
suspension
is
suspected
of
being
noisy
it
is
advisable
to
make
a
thorough
test
to
determine
whether
the
noise
originates
in
the
tires
road
surface
exhaust
propeller
shaft
engine
transmission
universal
joint
wheel
bearings
or
suspension
Noise
which
originates
in
other
places
can
not
be
corrected
by
adjust
ment
or
replacement
of
parts
in
the
rear
axle
and
rear
suspension
In
case
of
oil
leak
first
check
if
there
is
any
damage
or
restriction
in
breather
Condition
Probable
cause
Noise
Loose
wheel
nuts
Loose
one
or
more
securing
bolts
Lack
of
lubricating
oil
or
grease
Faulty
shock
absorber
Incorrect
adjustment
of
rear
axle
shaft
end
play
Damaged
or
worn
wheel
bearing
Worn
spline
portion
of
rear
axle
shaft
Broken
leaf
spring
Loose
journal
connections
or
so
no
Wheel
and
tire
unbalance
Damaged
rubber
parts
such
as
leaf
spring
bush
shock
absorber
moun
ting
bush
Faulty
universal
joints
Instability
in
driving
Loose
wheel
nuts
Worn
shock
absorber
Worn
or
broken
leaf
spring
Oil
leakage
Damaged
or
restricted
air
breather
Damaged
oil
seal
in
rear
axle
case
or
differ
ential
carrier
Oil
leakage
from
between
the
differential
carrier
and
axle
case
RA
8
Corrective
action
Tighten
the
wheel
nuts
Tighten
the
bolts
to
the
specified
torque
Lubricate
as
required
Replace
the
shock
absorber
Adjust
the
rear
axle
shaft
end
play
Replace
wheel
bearing
Replace
if
necessary
Replace
leaf
spring
Tighten
to
the
given
torque
Balance
wheel
and
tire
Replace
the
required
parts
Adjust
or
replace
Tighten
to
the
given
torque
Replace
faulty
shock
absorber
Replace
leaf
spring
Clean
or
replace
air
breather
Replace
the
damaged
oil
seal
Tighten
to
the
specified
torque
or
replace
gasket