engine DATSUN 210 1979 Service Manual
Page 250 of 548
Manual
Transmission
TROUBLE
DIAGNOSES
AND
CORRECTIONS
Condition
Difficult
to
intermesh
gears
Causes
for
difficult
gear
shifting
are
classi
fie
t
o
ro
lb
c
QncerlJing
coJltr
1
syste
and
transmission
When
gear
shift
lever
is
heavy
and
it
is
difficult
to
shift
gears
clutch
disengagement
may
also
be
unsmooth
First
make
sure
that
clutch
operates
correctly
and
inspect
transmjssion
Gear
slips
out
of
mesh
In
most
cases
this
troubk
occurs
when
check
baD
and
or
spring
is
waIn
or
weaken
ed
or
when
control
system
is
faulty
In
this
case
the
troubk
cannot
be
correct
by
replacing
gears
and
therefore
trouble
shoot
ing
must
be
carried
out
carefuDy
It
should
also
be
noted
that
gear
slips
out
of
mesh
due
to
vibration
generated
by
weakened
front
and
rear
enigne
mounts
Noise
When
noise
occurs
with
engine
idling
and
ceases
when
clutch
is
disengaged
or
when
noise
occurs
while
shifting
gears
it
is
an
indication
that
the
noise
is
from
trans
mission
Transmission
may
rallk
during
engine
idling
Check
air
fuel
mixture
and
ignition
timing
After
above
procedure
readjust
engine
idling
Probable
cause
Worn
gears
shaft
and
or
bearing
Insufficient
operating
stroke
due
to
worn
or
loose
sliding
part
Worn
or
damaged
syncluonizer
Worn
check
baD
and
or
weakened
or
broken
spring
Worn
fork
rod
baU
groove
Worn
or
damaged
bearing
Worn
or
damaged
gear
Insufficient
or
improper
lubricant
Oil
leaking
due
to
damaged
oil
seal
or
sealant
clogged
breather
etc
Worn
bearing
High
humming
occurs
at
a
high
speed
Damaged
bearing
Cyclic
knocking
sound
occurs
also
at
a
low
speed
Worn
spline
Worn
bushing
MT34
Corrective
action
Replace
Repair
ClI
replace
Replace
Replace
Replace
Replace
Replace
Add
oil
or
replace
with
designated
oil
Clean
or
replace
Replace
Replace
Replace
Replace
as
a
rear
ex
tension
assembly
Page 255 of 548
Automatic
Transmission
HYDRAULIC
CONTROL
UNIT
AND
VALVES
The
hydraulic
or
a
tomatic
control
system
is
comprised
of
four
4
basic
groups
the
pressure
supply
system
the
pressure
regulating
system
the
flow
control
valves
and
the
friction
elements
PRESSURE
SUPPLY
SYSTEM
The
pressure
supply
system
consists
of
a
gear
type
oil
pwnp
driven
by
the
engine
through
the
torque
converter
The
pump
provides
pressure
for
aU
hydraulic
and
lubrication
needs
PRESSURE
REGULATOR
VALVES
The
pressure
regulating
valves
con
trol
the
output
pressure
of
the
oil
pump
Pre
ure
rellulator
valve
The
pressure
regulator
valve
con
trois
mainline
pressure
based
on
throttle
opening
for
the
operation
of
the
band
clutches
and
brake
Governor
valve
The
governor
valve
transmits
re
gulated
pressure
based
on
car
peed
to
the
shift
valves
to
control
upshifts
and
downshifts
Vacuum
throttle
valve
The
vacuum
throttle
valve
transmits
regulated
pressure
based
on
engine
load
vacuum
This
pressure
controls
the
pressure
regulator
valve
Also
this
pressure
is
applied
to
one
end
of
the
shift
valves
in
opposition
to
governor
pressure
which
acts
on
the
other
end
of
the
shift
valves
controlling
upshift
and
downshift
speeds
FLOW
CONTROL
VALVES
Manual
valve
The
manual
valve
is
moved
manual
Iy
by
the
car
operator
to
select
the
different
drive
ranges
1
2
ShHt
valve
The
1
2
shift
valve
automaticaIly
shifts
the
transmission
from
first
to
second
or
from
second
to
first
depend
ing
upon
governor
and
throttle
pres
sure
along
with
accelerator
position
solenoid
downshift
valve
See
Hy
draulic
Control
Circuits
Drive
2
2
3
ShHt
valve
The
2
3
shift
valve
automaticaIly
shifts
the
transmission
from
second
to
top
gear
or
from
top
to
second
de
pending
upon
governor
and
throttle
pressure
or
accelerator
position
sole
noid
downshift
valve
See
Hydraulic
Control
Circuits
Drive
3
Range
2
3
Tlmlnll
valve
For
2
3
shifts
a
restrictive
orifice
slows
the
application
fluid
to
the
front
clutch
while
the
slower
reacting
band
is
allowed
to
release
This
prevents
a
hard
2
3
or
3
2
shift
Under
heavy
load
however
the
engine
will
tend
to
run
away
during
the
2
3
or
3
2
shift
pause
therefore
a
2
3
timing
valve
using
throttle
and
governor
pressure
is
used
to
bypass
the
restrictive
orifice
during
such
heavy
load
conditions
Solenoid
down
hHt
valve
The
solenoid
downshift
valve
is
activated
electrically
when
the
ac
celerator
is
f1oor
d
causing
a
forced
downshift
from
top
to
second
top
to
first
or
second
to
first
gear
depending
upon
car
speed
governor
pressure
AT
3
Pre
ure
modified
valve
The
pressure
modifier
valve
assists
the
mainline
pressure
regulator
valve
in
lowering
mainline
pressure
during
high
speed
light
load
conditions
such
as
steady
speed
cruise
Governor
pres
sure
working
against
a
spring
opens
the
valve
which
aUows
modified
throt
tle
pressure
to
work
against
the
pres
sure
regulator
valve
spring
lowering
mainline
pressure
Lower
operating
pressure
under
light
load
reduces
oil
temperature
and
increases
transmis
sian
life
Throttle
back
up
valve
The
throttle
back
up
valve
assists
the
vacuum
throttle
valve
to
increase
line
pressure
when
the
manual
valve
is
shifted
either
to
2
or
I
range
Second
lock
valve
The
second
lock
valve
is
used
to
bypa
the
1
2
shift
valve
to
maintain
the
band
apply
pressure
in
2
posi
tion
The
valve
is
also
used
as
an
oil
passage
for
the
1
2
shift
valve
band
apply
pressure
in
D2
D3
and
12
Range
CLUTCHES
AND
BAND
SERVOS
The
servo
pistons
of
the
clutches
low
reverse
brake
and
band
are
moved
hydraulically
to
engage
the
clutches
brake
and
apply
the
band
The
clutch
and
brake
istons
are
released
by
spring
tension
and
band
piston
is
released
by
spring
tension
and
hy
draulic
pressure
Page 257 of 548
OIL
CHANNEL
IDENTIFICATION
The
circuit
numbers
shown
in
each
Hydraulic
Control
Circuit
are
classified
as
follows
according
to
the
function
Pressure
source
of
the
line
7
Operating
line
pressure
for
friction
elements
I
2
3
4
5
6
g
9
10
11
12
Auxiliary
line
pressure
13
Torque
converter
pressure
14
Governor
pressure
15
Throttle
system
pressure
16
17
18
19
Oil
pump
discharge
hole
7
f
Torque
converter
pressure
14
Rear
clutch
pressure
1
Front
clutch
pressure
11
W
h0i1
pu
6
suction
hote
e
8
IIlIlJJIII
Automatic
Transmission
L
f
AT106
Fig
AT
5
Oil
Channela
in
Cou
Front
Face
lo
o
o
0
Oil
pump
discharge
hole
7
Governor
pressure
15
1
h
Torque
converter
I
pressure
14
0
0
Servo
release
Rear
clutch
l
press
re
10
r
L
Governor
reed
pressure
1
pressure
1
Servo
tlghtemng
li
nb
o
0
pressure
9
r
Front
clutch
fI
Low
reverse
brake
pressure
12
pressure
11
U
0
111
1
1
P
u
n
e
AT107
ATlOS
Fig
A
T
4
Oil
Channell
in
Oil
Pump
Fig
A
T
6
Oil
Channell
in
Cou
Fac
MECHANICAL
OPERATION
In
the
3N71B
automatic
transmis
sion
each
part
operates
as
shown
in
the
following
table
at
each
gear
select
position
RanKe
Cm
ratio
Clutch
Low
A
Front
Rear
brake
One
w
y
dutch
Parkin
pa
l
Band
servo
Operation
Release
Park
on
on
Reftrst
2
182
on
on
on
Neutral
Dl
Lo
2
458
on
on
Drift
02
Second
1
458
on
03
Top
1
000
on
on
on
2
Second
1
4
8
on
on
12
Second
1458
on
on
Low
2
4
8
on
on
Note
The
low
brake
is
applied
in
11
raiW
to
prevent
free
whee6ng
when
coasting
and
aIlows
engine
braking
AT
5
Page 258 of 548
Automatic
Transmission
HYDRAULIC
CONTROL
CIRCUITS
P
RANGE
PARK
Po
r
flow
In
P
range
the
shift
linkage
actuated
parking
pawl
meshes
in
a
gear
splined
to
the
output
shaft
preventing
movement
of
the
car
When
the
engine
is
running
the
low
and
reverse
brake
is
applied
by
pressure
from
the
manual
valve
passing
through
the
1
2
shift
valve
Free
Lock
II
AT086
Fig
AT
7
Parking
M
haniml
FI
1d
flow
Manual
Valve
4
Downshift
Valve
13
2nd
3rd
Shift
Valve
L
1st
2nd
Shift
Valve
Throttle
Back
up
Valve
5
1st
2nd
Shift
Valve
12
I
Throttle
Back
up
Valve
Y
Low
Reverse
Brake
I
AT
6
Page 260 of 548
RANGE
REVERSE
Po
r
flow
With
the
selector
lever
in
R
range
the
front
clutch
is
applied
to
transmit
clockwise
engine
torque
through
the
connecting
shell
to
the
sull
gear
The
clockwise
otation
of
the
sun
gear
causes
the
planet
gears
to
rotate
counterclockwise
With
the
low
and
reverse
brake
holding
the
rear
planet
carrier
the
rear
internal
gear
splined
to
the
output
shaft
turm
counterclockwise
in
a
reduction
ratio
ofapproximately2
18
to
1
Fluid
flow
Manual
Valve
4
Automatic
Tninsmission
Front
gear
set
Rear
gear
ell
Output
Input
throush
front
clutch
Held
by
low
A
reverse
brake
AT329
lW
w
Y
Front
clutch
Rear
clutch
Low
and
reverse
brake
Brake
band
servo
On
way
clutch
5
Throttle
Back
up
Valve
Low
A
reverse
brake
ON
Downshift
Valve
1st
2nd
Shift
Valve
12
6
L
Pressure
Regulator
Valve
2nd
3rd
Shift
Valve
10
AT
8
AT085
ON
OFF
ON
OFF
Preuwe
release
o
ernmnin
F
AT
9
M
hanical
Operation
during
R
Range
13
2nd
3rd
Shift
Valve
L
1st
2nd
Shift
Valve
I
Throttle
Back
up
Valve
y
Low
Reve
Brake
Band
Servo
Release
Side
11
Front
Clut
h
I
Page 264 of 548
DI
RANGE
LOW
GEAR
Po
r
flow
With
the
shift
selector
in
0
low
gear
engine
torque
is
traJWnitted
through
the
applied
rear
clu
tch
to
the
internal
gear
of
the
front
gear
set
The
c1o
kwise
rotation
o
f
the
front
inter
naI
gear
causes
the
front
planet
gears
to
rotate
clockwise
driving
the
com
pound
sun
gear
counterclockwise
The
front
planetary
carrier
is
splined
to
the
output
shaft
This
cau
the
planet
gears
to
drive
the
sun
gear
instead
of
walking
around
the
sun
gear
This
counterclockwise
rotation
of
the
sun
gear
causes
the
rear
planet
gears
to
rotate
clockwise
With
the
one
way
clutch
holding
the
rear
planet
carrier
the
rear
planetary
gears
turn
the
rear
internal
gear
and
output
shaft
clock
wise
in
a
reduction
ratio
of
approxi
mately
2
46
to
L
Fluid
flow
Manual
Valve
2
3
Automatic
Transmission
Fiont
gear
set
Rear
gear
set
Input
t1uOllsh
rear
clutch
Output
shaft
Held
by
on
way
clutch
Input
from
front
gear
set
Output
to
real
gear
set
AT330
1
J
ld
AT081
Front
clutch
Reu
clutch
Low
and
revcrx
brake
Brake
band
servo
Onto
way
clutch
OFF
ON
OFF
OFF
HOLDING
Fig
AT
12
MochanicaIOp
rationduri
DJ
Ra
Governor
Valve
Pressure
Modifier
Valve
15
2nd
3rd
Shift
Valve
lst
2nd
Shift
Valve
2nd
3rd
Timing
Valve
1st
2nd
Shift
Valve
j
Rear
Clutch
I
Second
Lock
Valve
Second
Lock
Valve
LOrifice
Check
Valve
2nd
3rd
Shift
Valve
AT12
Page 266 of 548
D2
RA
NGE
2ND
GEAR
Power
flow
In
02
range
the
brake
band
is
applied
to
hold
the
connecting
shell
and
sun
gear
stationary
Engine
torque
through
the
applied
rear
clutch
is
delivered
to
t
he
int
D
1l
1
gear
of
the
front
gear
set
in
a
clockwise
rotation
Clockwise
rotation
of
the
internal
gear
causes
the
planet
gears
to
walk
around
the
stationary
sun
gear
in
a
clockwise
direction
This
causes
the
output
shaft
which
is
splined
to
the
front
planet
carrier
to
turn
ina
clock
wise
direction
with
a
reduction
ratio
of
about
I
46
to
I
Fluid
flow
As
car
speed
and
governor
pressure
increase
the
governor
pressure
acting
on
the
end
of
the
1
2
shift
valve
Manual
Valve
I
Automatic
Tra
l
mission
Front
Bear
set
Rear
gear
set
Input
throuah
rear
clutch
AT331
1f
j
cW
oo
w
I
ATD79
Front
Clutch
Rearc1utch
Low
and
reverse
brake
Broke
band
One
way
clutch
OFF
ON
OFF
ON
OFF
AT447
F
S
AT
14
MechanicalOperation
during
DJ
Range
overcomes
the
force
of
the
1
2
shift
valve
spring
and
line
pressure
This
allows
the
1
2
shift
valve
to
move
to
the
upshift
position
which
directs
line
pressure
through
the
2nd
lock
valve
and
on
to
the
brake
band
Governor
Valve
15
Pressure
Modifier
Valve
2nd
3rd
Timing
Valve
2nd
3rd
Shift
Valve
1st
2nd
Shift
Valve
econd
Lock
Valve
9
Band
Servo
I
Apply
Side
1st
2nd
Shift
Valve
8
l
Rear
CIutclt
I
Second
Lock
Valve
2
3
Second
Lock
Valve
L
Orifice
Check
Valve
2nd
3rd
Shift
Valve
AT
14
Page 268 of 548
Automatic
Transmission
D3
RANGE
3RD
GEAR
Front
gear
set
Rei
r
gear
set
Input
through
flODt
and
rear
clutches
Power
flow
In
D3
range
engine
troque
is
transmitted
through
both
clutches
The
front
clutch
turns
the
internal
gear
of
the
forward
gear
set
clockwise
The
rear
clutch
turns
the
sun
gears
in
a
clockwise
direction
also
With
both
the
internal
gear
and
the
sun
gear
of
the
forward
gear
set
turning
in
the
same
direction
at
the
same
speed
the
planet
gears
are
locked
in
position
and
turn
as
a
unit
The
output
shaft
spIined
to
the
forward
planet
carrier
turns
at
a
ratio
of
L
Output
shaft
AT332
Front
clutch
ON
Ij
1f
Front
clutch
Rear
e1utd
Low
reverse
brake
Brake
band
On
way
clutch
ON
ON
OFF
OFF
Pressure
rdeaJe
OFF
A
T083
Fill
AT
I6
Mechanical
Operation
hiring
D
Ronge
Fluid
flow
Governor
pre
ure
increases
to
the
poinl
that
it
can
overcome
the
com
bined
forces
of
spring
and
throttle
pressure
and
move
the
2nd
3rd
shift
valve
When
the
2nd
3rd
shift
valve
opens
pressure
passes
through
the
valve
lands
to
the
2
3
timing
valve
and
on
to
apply
the
front
clutch
and
release
the
brake
band
The
car
is
now
in
D3
or
direct
drive
the
rear
clutch
was
already
applied
Manual
Valve
I
Governor
Valve
IS
Pressure
Modifier
Valve
2nd
3rd
Timin8
Valve
2nd
3rd
Shift
Valve
ht
2nd
Shift
Valve
1st
2nd
Shift
Valve
8
Second
Lock
Valve
9
Band
Servo
Apply
Side
2
i
I
I
Band
Servo
is
released
t
Second
Lock
Valve
L
Orifice
Check
Valve
2nd
3rd
Shift
Valve
10
r
Band
Servo
Rele
Side
I
L
2nd
3rd
Timing
Valve
I
I
I
Front
Clutch
I
J
Second
Lock
Valve
I
Rear
Clutch
I
3
AT
16
Page 274 of 548
Automatic
Transmission
l
RANGE
LOW
AND
2ND
GEAR
second
12
afwvernor
preSsure
pre
vents
the
I
2
shift
valve
from
closing
The
range
1
position
is
used
to
lock
the
car
in
1st
gear
preventing
any
upshifts
If
the
selector
lever
is
moved
to
the
I
position
while
the
car
is
moving
at
high
speeds
the
transmis
sion
w
ill
not
shift
into
first
gear
until
car
speed
slows
to
approxiniately
55
km
h
35
mph
Instead
it
will
shift
to
Po
r
flow
The
power
flow
in
11
differs
slight
ly
from
01
in
that
the
low
and
reverse
band
is
applied
to
hold
the
rear
gear
set
planet
carrier
providing
engine
hraking
Power
flow
in
12
is
the
same
a
io02
Manual
Valve
Governor
Valve
15
Pressure
Modifier
Valve
I
Fluid
flow
Lolft
ar
Manual
pressure
passing
through
the
1
2
shift
valve
is
used
to
close
the
1
2
shift
valve
preventing
a
1
2
up
shift
Manual
pressure
pusing
through
the
downshift
valve
lock
the
2
3
siuit
valve
closed
along
with
applying
addi
tional
closing
pressure
to
the
I
2
shift
valve
2nd
3rd
Timing
Valve
2nd
3rd
Shift
Valve
lst
2ndSti
ft
Valve
1st
2nd
Shift
Valve
iRea
Clutcb
I
4
Solenoid
Downshift
Valve
13
I2nd
3rd
Shift
Valve
ht
2nd
Shift
Valve
Throttle
Back
up
Valve
5
C
1st
2nd
Shift
Valve
12
I
Throttle
Back
up
Valve
y
Low
Reverse
Bra1ce
I
Fluid
flow
2nd
ar
Manual
Valve
Governor
Valve
15
Preuurc
Modjfier
Valve
2nd
3rd
Timing
Valve
2nd
3rd
Shift
Valve
1st
2nd
Shift
Valve
8
1st
2nd
Shift
Valve
Second
Lock
Valve
9
I
Band
Servo
I
Apply
Side
4
t
Rear
Clutch
I
Solenoid
Downshift
Valve
13
I
2nd
3rd
Shift
Valve
ht
2nd
Shift
Valve
Throttle
Back
up
Valve
17
PreSlure
Modifier
Valve
2nd
3rd
Shift
Valve
2nd
3rd
Timing
Valve
Throttle
Drain
Valve
s
ht
2nd
Shift
Valve
Pressure
Regulator
Valve
AT
22
Page 277 of 548
Automatic
Transmission
REMOVAL
AND
INSTALLATION
TRANSMISSION
ASSEMBLY
When
dismounting
the
automatic
transmission
from
a
car
pay
attention
to
the
following
points
I
Before
dismounting
the
trans
mission
rigidly
inspect
it
by
aid
of
the
Trouble
shooting
Chart
and
dis
mount
it
only
when
coll5idered
to
be
necessary
2
Dismount
the
transmission
with
utmost
care
and
when
mounting
observe
the
tightening
torque
indi
cated
on
another
table
not
to
exert
excessive
force
REMOVAL
In
dismounting
automatic
transmis
sion
from
car
proceed
as
follows
I
Disconnect
battery
ground
cable
from
terminal
2
Disengage
torsion
shaft
from
ac
eelerator
linkage
3
Jack
up
vehicle
and
support
its
weight
on
safety
stands
Recommend
a
hydraulic
hoist
or
open
pit
be
utilized
if
available
Make
sure
that
safety
is
insured
4
Remove
propeller
shaft
Note
Pl
ll
up
the
openina
in
the
rear
extension
to
prevent
oil
from
flow
ing
out
S
Disconnect
front
exhaust
tube
6
Disconnect
selector
ra
8e
lever
from
manual
shaft
7
Disconnect
wire
connections
at
inhibitor
switch
8
Disconnect
vacuum
lube
from
vacuum
diaphragm
and
wire
connee
tions
at
downshift
solenoid
9
Disconnect
speedometer
cable
from
rear
exlension
10
Disconnect
oil
charging
pipe
II
Disconnect
oil
cooler
inlet
and
outlet
tubes
al
transmission
case
12
Support
engine
by
locating
a
jack
under
oil
pan
with
a
wooden
block
used
between
oil
pan
and
jack
Support
transmission
by
means
of
a
transmission
jack
CAUTION
Do
not
plecs
the
jack
under
the
oil
pin
dnin
plug
13
Detach
converter
housing
dust
cover
Remove
bolts
securing
torque
converter
to
drive
plate
AT261
Fig
A
T
22
Removi
Torqu
Converter
Attachirrg
Bolt
Note
Before
toni
COD
v
ter
ICnlJe
match
mark
011
two
parts
10
that
they
may
be
replaced
in
their
original
position
at
sa
sembly
14
Remove
rear
engine
mount
Se
curing
bolts
and
crossmember
mount
i
8
bolts
IS
Remove
starter
motor
16
Remove
bolts
securing
transmis
sion
to
engine
After
removing
these
bolts
support
engine
and
transmission
with
jack
and
lower
the
jack
gradually
until
transmission
can
be
removed
and
take
out
transmission
under
the
ear
Note
P1
I
up
the
opening
such
u
oil
chergina
pipe
oil
cooler
tuba
etc
CAUTION
Take
cin
in
dismounting
tnnStnlllioA
not
to
strike
any
adjacent
paru
INSTALLATION
Ill5tallation
of
automatic
transmls
sian
on
car
is
reverse
order
of
removal
However
observe
the
following
in
stallation
notes
Drive
plate
runout
Turn
crankshaft
one
full
turn
and
measure
drive
plate
runout
with
indi
AT
25
eating
finger
of
a
dial
gauge
rested
against
plate
Maximum
ellowable
runout
0
5
mm
0
020
in
AT268
Fig
A
T
3
Me
uring
Drive
PIote
Runout
2
Installation
of
torque
converter
Line
up
notch
in
torque
converter
with
that
in
oil
pump
Be
extremely
careful
not
to
eause
undue
stresses
in
parts
In
inataIIing
torque
converter
AT116
Fig
A
T
24
Torqu
Converter
A
ligning
Cut
3
When
connecting
torque
con
verter
to
transmission
measure
dis
tance
A
10
be
certain
that
they
are
correctly
assembled
Distance
HA
Melre
irian
21
5
mm
0
846
in
A
AT117
Fig
AT
26
1116talling
Torque
Convert
r