automatic transmission DATSUN PICK-UP 1977 Owner's Guide
Page 198 of 537
CHECKING
AND
ADJUSTMENT
CAP
AND
ROTOR
HEAD
Cap
and
rotor
head
should
be
in
spected
periodically
as
specified
in
the
Maintenance
Schedule
Remove
cap
and
clean
all
dust
and
carbon
deposits
from
cap
and
rotor
If
cap
is
cracked
or
is
leaking
replace
with
a
De
one
CONTACT
POINT
Contact
point
should
be
replaced
in
accordance
with
the
Maintenance
Schedule
Standard
point
gap
is
0
45
to
0
55
mm
O
OIS
to
0
022
in
In
case
size
is
off
the
standard
adjustment
is
made
by
loosening
point
screws
Gap
gauge
is
required
for
adjustment
When
point
surface
is
rough
take
off
any
irregularities
with
fine
sand
paper
of
No
500
or
600
or
with
oil
stone
When
wear
on
contact
points
is
noticeable
replace
points
together
with
contact
arm
To
replace
proceed
as
follows
EE322
Fig
EE
58
Adju
ting
point
gap
EE321
I
Primary
lead
termina
2
Ground
lead
wire
3
Set
screw
4
Adjuster
5
Screw
Fig
EE
59
Breaker
Engine
Electrical
System
First
turn
out
set
screws
1
to
1
5
turns
at
contact
arm
and
primary
lead
wire
connection
just
for
enough
to
pull
out
primary
lead
terminal
Referring
to
Figure
EE
59
unSCrew
two
contact
set
fixing
screws
and
remove
lead
wire
While
holding
contact
arm
by
fingers
pull
out
contact
set
toward
you
by
raising
it
slightly
Contact
point
and
afm
can
then
be
removed
together
Install
new
contact
point
and
arm
assembly
in
reverse
sequence
of
removal
Coat
cam
with
a
light
coating
of
grease
ADVANCE
MECHANISMS
Specifications
Application
Vacuum
advance
Distributor
degrees
distributor
mmHg
inHg
Centrifugal
advance
Distributor
degrees
distribu
tor
rpm
For
Canada
Vacuum
advance
mechanism
mechanical
parts
If
vacuum
advance
mechanism
fails
to
operate
properly
check
for
the
following
items
and
correct
the
mal
function
as
required
1
Check
vacuum
inlet
for
signs
of
leakage
at
its
connection
Ifnecessacy
retighten
or
replace
with
a
new
one
2
Check
vacuum
diaphragm
for
air
leak
If
leak
is
found
replace
vacuum
controller
assembly
3
Inspect
breaker
plate
for
smooth
moving
If
pia
te
does
not
move
smoothly
this
condition
could
be
due
to
sticky
steel
balls
or
pivot
Apply
grease
to
steel
balls
or
if
necessary
replace
breaker
plate
as
an
assembly
EE
31
CONDENSER
Satisfactory
performance
of
con
denser
depends
on
capacity
and
degree
of
insulation
requiring
attention
to
be
sure
that
terminals
are
clean
and
set
screws
are
tight
Checking
of
condenser
is
made
by
a
condenser
tester
D4A4
06
D4A6
07
D4A4
07
D4A6
0S
Automatic
transmission
Manual
transmission
00
150
5
91
30
250
9
S4
00
170
6
69
6
50
300
1I
S1
00
550
11
0
2
300
00
600
110
1
950
Centrifugal
advance
mechanical
parts
When
cause
of
engine
malfunction
is
traced
to
centrifugal
advance
me
chanical
part
use
distributor
tester
to
check
its
characteristic
See
the
specifications
above
When
nothing
is
wrong
with
its
characteristic
conceivable
causes
are
break
down
abnormal
wearing
out
of
driving
part
or
others
So
do
not
disassemble
it
In
case
of
improper
characteristic
take
off
contact
breaker
assembly
and
check
closely
cam
assembly
governor
weight
shaft
and
governor
spring
etc
In
case
centrifugal
advance
me
chanical
part
is
reassembled
be
sure
to
check
advance
characteristic
by
dis
tributor
tester
Page 219 of 537
Engine
Removal
Installation
ENGINE
REMOVAL
AND
INSTAllATION
REMOVAL
INSTALLATION
ENGINE
MOUNTING
INSULATORS
REMOVAL
It
is
much
easier
to
remove
engine
and
transmission
as
a
single
unit
than
to
remove
them
separately
After
re
moval
engine
can
be
separated
from
transntission
assembly
Notes
a
Be
sure
to
hoist
engine
and
jack
up
transmission
in
a
safe
manner
b
Use
fender
cove
to
protect
vehicle
body
1
Remove
battery
2
Scribe
hood
hinge
location
for
proper
reinstallation
and
remove
hood
Note
Have
an
assistant
help
you
so
as
to
prevent
damage
to
body
3
Drain
radiator
coolant
4
Disconnect
upper
and
lower
radiator
hoses
from
engine
5
Remove
two
oil
cooler
hoses
from
lower
end
of
radiator
Auto
ma
tic
transmission
models
only
6
Remove
radiator
shroud
7
Remove
four
bolts
securing
radia
tor
and
detach
radiator
Note
Always
tighten
securing
bolt
at
upper
right
hand
side
together
with
body
harness
terminal
8
Remove
carburetor
air
cleaner
as
follows
Remove
fresh
air
duct
Remove
hot
air
duct
Loosen
air
cleaner
band
bolt
and
air
cleaner
supporting
bolts
Disconnect
air
cleaner
ta
air
pump
hose
Disconnect
air
cleaner
to
rocker
cover
hose
at
rocker
cover
Disconnect
air
cleaner
to
air
control
valve
hose
California
models
only
CONTENTS
ER
2
ER
3
ER
3
FRONT
INSULATOR
REAR
INSULATOR
TIGHTENING
TORQUE
ER
4
ER
4
ER
4
Disconnect
air
deaner
to
A
B
valve
hose
Disconnect
air
cleaner
ta
vacuum
hoses
Note
Protect
carburetor
from
dust
and
foreign
matter
by
placing
cover
over
air
inlet
opening
9
Disconnect
fuel
pump
to
fuel
fdter
hose
and
return
hose
10
Disconnect
carbon
canister
hose
on
engine
side
II
Disconnect
air
pump
air
C1eaner
to
al
p
p
hose
12
Disconnect
following
cables
wires
and
hoses
Engine
ground
cable
Accelerator
wire
at
carburetor
High
tension
cable
between
ignition
coil
and
distributor
Wire
to
distributor
at
body
ter
minal
Wire
to
oil
pressure
switch
Wires
to
thermal
transmitter
Wires
to
B
C
p
D
cut
solenoid
Non
California
models
only
auto
choke
heater
and
anti
dieseling
solenoid
Wires
to
alternator
Wires
to
starter
motor
Heater
inlet
and
outlet
hoses
if
so
equipped
Vacuum
hose
of
Master
Vac
at
in
taJce
manifold
Wires
for
back
up
lamp
switch
Cable
to
speedometer
13
Remove
transmission
control
linkage
from
transmission
Manual
transmission
models
I
Detach
rubber
boot
2
Remove
E
ring
and
control
lever
pin
from
transmission
striking
rod
guide
and
remove
control
lever
ER
2
Fig
ER
l
Automatic
transmission
models
I
Disconnect
selector
range
lever
from
manual
shaft
2
Disconnect
wires
at
inhibitor
switch
and
down
shift
solenoid
14
Air
conditioner
equipped
models
need
following
procedures
1
After
removing
flexible
hose
support
remove
four
comi
ressor
se
curing
bolts
Then
move
the
com
pressor
to
battery
support
2
Remove
vacuum
hoses
of
F
LC
D
solenoid
valve
3
Remove
F
LC
D
actuator
15
Remove
two
bolts
securing
clutch
operating
cylinder
Then
dis
connect
operating
cylinder
and
flexi
ble
tube
as
an
assembly
Manual
transmission
models
only
16
Disconnect
front
exhaust
tube
from
exhaust
manifold
17
Remove
propeller
shaft
I
Disconnect
propeller
shaft
center
bearing
bracket
from
third
crossmember
2
Disconnect
propeller
shaft
from
companion
flange
of
differential
carrier
3
Remove
propeller
shaft
from
transmission
and
plug
up
rear
end
of
extension
housing
of
transmission
to
prevent
oil
leakage
18
Attach
a
suitable
wire
or
chain
to
lift
engine
19
Remove
front
engine
mounting
bolts
at
engine
mounting
front
sup
port
Page 226 of 537
Release
bearing
and
sleeve
Check
for
abnormal
wear
on
con
tact
surface
of
withdrawal
lever
ball
pin
and
bearing
sleeve
DESCRIPTION
CLUTCH
PEDAL
Removal
and
installation
I
nspection
and
adjustment
CLUTCH
MASTER
CYLINDER
Removal
and
installation
Disassembly
and
assembly
DESCRIPTION
The
hydraulic
clutch
control
con
sists
of
a
pendent
pedal
a
master
cylinder
an
operating
cylinder
and
a
withdrawal
lever
When
the
clutch
pedal
is
depressed
the
piston
of
the
master
cylinder
CLUTCH
Pilot
bushing
Check
pilot
bushing
in
crankshaft
for
wear
or
roughness
If
necessary
replace
it
CLUTCH
CONTROL
CONTENTS
When
bushing
is
faulty
be
sure
to
check
transmission
main
drive
gear
at
the
same
time
CL
5
CL
6
CL
6
CL
6
CL
7
CL
7
CL
7
Inspection
OPERATING
CYLINDER
Removal
and
installation
Disassembly
and
assembly
Inspection
BLEEDING
CLUTCH
SYSTEM
CL
B
CL
B
CL
B
CL
B
CL
B
CL
B
forwards
clutch
fluid
to
the
operating
cylinder
via
a
pipe
line
The
movement
of
the
operating
cylinder
piston
is
transmitted
to
the
withdrawal
lever
through
the
push
rod
thus
disengaging
the
clutch
The
operating
cylinder
is
a
non
adjustable
type
that
uses
no
return
spring
In
this
unit
the
withdrawal
to
push
rod
play
adjustment
is
not
neces
sary
since
the
8
as
shown
in
Figure
CL
15
serves
to
automatically
compen
sate
for
wear
on
the
clutch
disc
2
I
l
1
Clu
tch
pedal
6
Push
rod
2
Return
spring
7
Withdrawal
lever
3
Clutch
master
cylinder
8
Release
bearing
4
Clutch
piping
9
Clutch
cover
5
Operating
cylinder
10
Clutch
disc
CL
5
5
Cl305
Fig
CL
14
Clutch
operating
system
Page 262 of 537
The
model
3N7l
B
automatic
trans
mission
is
a
fully
automatic
unit
con
sisting
primarily
of
3
element
hydrau
lic
torque
converter
and
two
planetary
gear
sets
Two
multiple
disc
clutches
a
multiple
disc
brake
a
band
brake
and
a
one
way
sprag
clutch
provide
the
friction
elements
required
to
obtain
the
desir
d
function
of
lhe
two
plane
tary
gear
sets
The
two
planetary
gear
sets
give
three
forward
ratios
and
one
reverse
Changing
of
the
gear
ratios
is
fully
automatic
in
relation
to
vehicle
speed
and
engine
torque
input
V
chide
speed
and
engine
manifold
vacuum
signals
are
constantly
fed
to
the
transmission
to
provide
the
proper
gear
ralio
for
maximum
efficiency
and
performance
at
all
throttle
openings
The
model
3N71
B
has
six
selector
1
9sition
LP
R
N
D
2
1
I
Park
position
positively
locks
the
output
shaft
to
the
transmission
case
by
means
of
a
locking
pawl
to
prevent
the
vehicle
from
rolling
in
either
direction
This
position
should
be
selected
whenever
the
driver
leaves
Ihe
vehicle
Thc
engine
may
be
slarted
in
Park
position
R
Reverse
range
enables
the
vehicle
to
be
operated
in
a
reverse
direction
N
Neutral
position
enables
the
engine
to
be
started
and
run
without
driving
the
vehicle
0
Drive
range
is
used
for
all
normal
driving
conditions
Drive
range
has
three
gear
ratios
from
the
starting
ratio
to
direct
drive
Automatic
Transmission
DESCRIPTION
2
2
range
provides
performance
for
driving
on
slippery
surfaces
2
range
can
also
be
used
for
engine
braking
2
range
can
be
selected
at
any
vehicle
speed
and
prevents
the
trans
mission
from
shifting
out
of
second
gear
I
I
range
can
be
selected
at
any
vehicle
speed
and
the
transmission
will
shift
to
second
gear
and
remain
in
second
until
v
hicle
speed
is
reduced
10
approximately
40
to
50
kmfh
25
to
30
MPH
I
range
position
prevents
the
transmission
from
shifting
out
of
low
gear
This
is
particularly
beneficial
for
maintaining
maximum
engin
braking
when
continuous
low
gear
operation
is
desirable
The
torque
converter
assembly
is
of
welded
construction
and
can
nOlbe
disassembled
for
service
FLUID
RECOMMENDATION
Use
automatic
transmission
fluid
having
DEXRON
identifications
only
in
the
3N71
B
automatic
transmis
sion
IDENTIFICATioN
NUMBER
Stamped
position
The
plate
is
attached
to
the
right
hand
side
of
transmission
case
as
shown
io
Figure
AT
I
AT
2
AT344
Fig
AT
I
Identification
number
Identification
of
number
Arrangements
See
below
Model
code
JAPAN
AUTOMATIC
0J
TRANSMISSION
CO
LTD
I
MODEL
X2402
I
J
I
NO
4912345
I
Unit
number
Number
designation
4
9
I
234
5
L
Serial
production
number
for
the
month
Month
of
production
X
Oct
Y
Nov
Z
Dec
last
figure
denoting
the
year
A
D
Page 263 of 537
Automatic
Transmission
o
J
II
IIlI
r
I
r
A
T288
I
Transmission
ca
e
2
Oil
pump
3
Front
clutch
4
Band
brake
5
Rear
clutch
6
Front
planetary
gear
7
Rear
planetary
gear
8
One
way
clutch
9
Low
Rever5e
brake
10
Oil
distributor
II
Governor
12
Output
shaft
13
Rear
extension
14
Oil
pan
IS
Control
valve
16
Input
Jlihafl
17
Torque
converter
t
8
Converter
housing
19
Drive
plate
Tightening
torque
T
of
bolts
and
nuts
kg
m
ft
lb
@
T
4105
29
10
36
@
T
141016
10110116
@
T
4
5
to
5
5
33
1040
@
T
0
6100
8
4
106
@
T
0
5
to
0
7
4
10
5
T
2
0102
5
14
10
18
@
T
1
3
10
1
8
9
10
13
T
0
55100
75
4
105
CD
T
0
25
10
0
35
2
to
3
Fig
AT
2
Cross
sectional
view
of
3N71B
automatic
transmission
AT3
Page 264 of 537
Automatic
Transmission
HYDRAULIC
CONTROL
SYSTEM
FUNCTIONS
OF
HYDRAULIC
CONTROL
UNIT
AND
VALVES
OIL
PUMP
MANUAL
LINKAGE
VACUUM
DIAPHRAGM
DOWNSHIFT
SOLENOID
GOVERNOR
VALVE
CONTROL
VALVE
ASSEMBLY
HYDRAULIC
SYSTEM
AND
MECHANICAL
OPERATION
FUNCTIONS
OF
HYDRAULIC
CONTROL
UNIT
AND
VALVES
The
hydraulic
control
system
con
CONTENTS
P
RANGE
PAR
K
R
RANGE
REVERSE
N
RANGE
NEUTRAL
D1
RANGE
LOW
GEAR
D2
RANGE
2ND
GEAR
D3
RANGE
TOP
GEAR
D
RANGE
KICK
DOWN
2
RANGE
2ND
GEAR
t
RANGE
LOW
GEAR
12
RANGE
2ND
GEAR
AT
4
AT
4
AT
4
AT
5
AT
5
AT
5
AT
6
AT13
tains
an
oil
pump
for
packing
p
oil
from
the
oil
pan
through
the
oil
strainer
A
shift
control
is
provided
by
two
centrifugally
operated
hydraulic
governors
on
the
output
shaft
vacuum
control
diaphragm
and
downshift
AT14
AT16
AT18
AT
20
AT
22
AT
24
AT
26
AT
28
AT
30
AT
32
solenoid
These
parts
work
in
conjunc
tion
with
valves
in
the
valve
body
assembly
located
in
the
base
of
the
transmission
The
valves
regulate
oil
pressure
and
direct
it
to
appropriate
transmission
components
Oil
pump
I
I
Control
valve
I
Torque
converter
1
I
I
I
Manual
linkage
Front
clutch
Vacuum
diaphragm
I
Rear
clutch
I
Low
and
reverse
brake
Downshift
solenoid
I
Band
brake
Governor
valve
r
I
Lubrication
OIL
PUMP
The
oil
pump
is
the
source
of
control
medium
i
e
oil
for
the
control
system
The
oil
pump
is
of
an
internal
involute
gear
type
The
drive
sleeve
is
a
part
of
the
torque
converter
pump
impeller
and
serves
to
drive
the
pump
inner
gear
with
the
drive
sleeve
direct
ly
coupled
with
the
engine
operation
The
oil
flows
through
the
following
route
Oil
pan
Oil
strainer
bottom
of
the
control
valve
Control
valve
lower
body
suction
port
Transmission
case
suction
port
Pump
housing
suction
port
Pump
gear
space
Pump
housing
delivery
port
Transmission
case
delivery
port
Lower
body
delivery
port
Control
valve
line
pressure
circuit
AT071
I
Housin
4
Inner
gear
2
Cover
5
Crescent
3
Ouler
gear
Fig
AT
3
Oil
pump
AT
4
MANUAL
LINKAGE
The
hand
lever
motion
the
hand
lever
is
localed
in
the
driver
s
compart
ment
mechanically
transmitted
from
lhe
remote
control
linkage
is
further
transmitted
to
the
inner
manual
lever
in
the
transmission
case
from
the
range
selector
lever
in
the
right
center
par
tion
of
the
transmission
case
through
the
manual
shaft
The
inner
manual
lever
is
thereby
turned
A
pin
installed
on
the
bottom
of
the
inner
manual
lever
slides
rhe
manu
al
valve
spool
of
the
conlrol
valve
thus
positioning
the
spool
opposite
rhe
appropriate
select
posilion
The
parking
rod
pin
is
held
in
rhe
groove
on
the
top
of
Ihe
inner
manual
Page 265 of 537
plate
The
parking
rod
pin
operates
the
rod
at
p
range
and
operates
the
mechanical
lock
system
The
above
described
manual
shaft
is
further
equipped
with
an
inhibitor
switch
A
rotor
inside
the
inhibitor
switch
rotates
in
response
to
each
range
When
tne
range
is
selected
at
p
or
N
the
rotor
closes
the
starter
magnet
circuit
so
that
the
engine
can
be
started
When
the
range
is
selected
at
R
the
rolor
closes
the
back
up
lamp
circuit
and
the
back
up
lamp
lights
CD
1
Manual
pia
te
2
Inhibitor
switch
ATOB7
Parking
rod
Manual
shaft
Fig
AT
4
Manual
linkage
VACUUM
DIAPHRAGM
The
vacuum
diaphragm
is
installed
on
the
left
center
portio
n
of
the
transmission
case
The
internal
con
struction
of
the
vacuum
diaphragm
is
as
follows
A
rubber
diaphragm
forms
a
parti
tion
in
the
center
The
engine
intake
manifold
negative
pressure
l
led
through
a
vacuum
tube
and
spring
force
is
applied
to
the
front
surfaceof
the
rubber
diaphragm
while
atmos
pheric
pressure
is
applied
to
the
back
surface
The
difference
between
pres
sure
applied
to
the
front
and
ba
K
I
surfaces
causes
a
vacuum
reactIOn
which
activates
the
throttle
valve
of
the
control
valve
inside
the
transrhis
sion
case
Wheri
accelerator
pedal
is
fully
de
pressed
and
the
buretor
is
fU
IIy
opened
but
th
engirie
sp
eed
is
not
suificientl
increased
the
manifold
negative
plre
sure
lowers
Le
tends
towards
atmospheric
pressure
and
the
Automatic
Transmission
vacuum
reaction
increases
since
the
flow
velocity
of
mixture
inside
the
intake
m
mifold
is
slow
Contrarily
when
the
engine
speed
increases
and
the
flow
velocity
of
the
mixture
in
creases
or
when
the
carburetor
is
closed
the
manifold
negative
pressure
increases
Le
tends
towards
vacuum
and
the
vacuum
reaction
is
reduced
Thus
a
signal
to
genera
Ie
hydraulic
pressure
P
rfe
tly
suited
to
the
engine
loading
at
trye
control
valve
is
trans
mitted
from
the
vacuum
diaphragm
and
the
most
suitable
timing
for
speed
change
and
lin
e
pressure
is
obtaine
so
that
the
most
proper
torque
capacity
is
obtained
against
the
transmitting
torque
To
inl
lkc
manifold
AT088
Fig
AT
5
Vacuum
diaphragm
DOWNSHIFT
SOLENOID
T
e
downshift
solenoid
is
of
a
magnetic
type
installed
on
the
left
re
r
portion
of
the
transmission
case
When
a
driver
requires
accelerating
power
and
dePresses
the
accelerator
pedal
down
to
the
stopper
a
kickdown
switch
19ca
ted
in
the
middle
of
the
accelerator
link
is
depressed
by
a
push
rod
he
kickdown
switch
doses
cur
rent
flows
to
the
solenoid
the
sole
noid
push
rod
is
depressed
the
down
shift
valve
of
the
control
valvc
insidc
the
transmi
ssion
case
is
depressed
nd
the
speed
is
changed
forcedly
fmm
3rd
to
2nd
within
a
cerlaill
vehi
cle
speed
limit
Note
Since
theki
kdown
switch
closes
when
the
accelerator
pedal
is
d
epr
ssed
from
7
i
t
I
S
I
6
of
tiie
whole
stroke
the
a
ccel
rator
ped
1
should
be
correctly
adjusted
so
as
arf
rd
a
omplete
stro
e
I
The
arrangement
of
the
swit
h
wries
ccording
m
eI
AT
S
c
C
r
11
I
Kickdown
h
switch
Dowri
shift
solenoid
AT089
Fig
AT
6
Downshifl80lenoid
GOVERNER
VALVE
The
primary
and
secondary
gover
nor
valves
are
installed
separately
on
the
back
of
the
oil
distributor
on
the
transmission
outp
t
sha
ft
tn
y
op
erate
al
the
same
speed
as
th
ar
iJf
tile
output
shaft
thai
is
they
operate
at
a
speed
in
proportion
10
the
vehicle
speed
The
line
press
retis
applied
to
those
valves
s
the
input
from
the
control
valve
through
the
transmission
case
rear
flange
and
oil
distributor
The
governor
pressure
in
proportion
to
the
ouiput
shaft
speed
vehicle
speed
is
led
to
the
shift
valve
ofthe
control
valve
through
the
opposite
route
of
the
output
In
this
manner
speed
change
and
line
pressure
are
controlled
Operation
of
secondary
governor
valve
T
e
secon
ary
valve
is
a
contro
valve
Y
hich
receives
line
pressure
an
cqQ
rols
the
governor
pressu
e
When
the
manual
valve
is
selected
at
D
2
or
l
range
line
pressure
is
applied
t
the
ri
g
sh
aped
area
of
this
valve
from
circuit
I
l
and
this
I
v
Jy
is
depressed
lOW
jr
tI
c
fer
Movemcnt
of
this
valvl
III
a
cr
in
positillll
doses
the
dr
uit
from
Olto
15
while
simultaneously
making
a
sr
rronl
IS
to
Iii
center
d
niin
port
and
press
re
in
tllc
ci
rJ
it
l5j
is
lowered
When
thc
vehicle
is
stopped
1
d
the
cenlrifugal
force
of
this
valve
is
zero
the
v
lve
is
balanced
At
this
poini
a
govcr
lOr
pressurc
y
hich
bal
i1
nced
with
th
spr
ng
force
occurs
on
IS
Wh
n
thc
vehicle
is
st
rted
nd
the
centrifugal
fqr
incre
ses
this
valve
movcs
slightly
10
Ihc
oUlSide
and
as
Page 266 of 537
the
space
from
I
to
IS
increases
space
from
15
to
the
drain
port
simultaneously
decreases
As
a
resull
governor
pressure
of
15
increases
and
the
governor
pressure
is
balanced
with
the
sum
of
centrifugal
force
and
spring
force
The
governor
pressure
thus
changes
in
response
to
the
vehicle
speed
change
centrifugal
force
Operation
of
prlmar
governor
valve
The
valve
is
an
ON
OFF
valve
which
closes
the
governor
pressure
IS
regulated
by
the
secondary
gover
nor
valve
when
the
vehicle
reaches
the
minimum
speed
and
when
the
vehicle
speed
exceeds
a
certain
level
the
governor
opens
and
forwards
the
gov
ernor
pressure
15
to
the
control
valve
When
the
vehicle
is
stopped
the
governor
pressure
is
zero
However
when
the
vehicle
is
running
slowly
this
valve
is
depressed
to
Ihe
center
and
the
groove
to
15
is
closed
since
the
governor
pressure
applied
to
the
ring
shaped
area
is
higher
than
the
centrifugal
force
of
this
valve
When
the
governor
speed
exceeds
a
certain
revolution
the
governor
pressure
in
the
circuit
15
also
increases
How
ever
as
the
centrifugal
force
increases
and
exceeds
the
governor
pressure
this
valve
moves
toward
the
outside
and
the
governor
pressure
is
transmitted
to
the
circuil
5
Two
different
valves
are
employed
in
the
governor
so
that
it
will
inde
pendently
control
the
speed
at
high
and
low
speeds
That
is
within
the
low
speed
range
the
governor
pressure
is
not
generated
because
of
the
primary
valve
whereas
at
the
high
speed
range
above
the
breaking
point
governor
pressure
is
regulated
by
the
secondary
valve
The
breaking
point
is
the
point
at
which
the
function
of
one
of
the
governor
is
transferred
to
the
other
as
the
speed
changes
from
the
low
speed
to
the
high
speed
range
Automatic
Transmission
To
onlml
valve
l
Governor
pre
S1I
1I5
j
I
Q
J
J
f
1
1
CID
l
l
m
Line
pressure
t
D@
I
Primary
governor
2
Secondary
governor
3
Governor
valve
body
AT090
4
Oil
di
lributor
5
Output
sh
lft
Fig
AT
7
Cr05s
sectionallliew
of
governor
CONTROL
VALVE
ASSEMBLY
Ai09
Fig
AT
S
Output
shaft
with
oil
distributor
and
overnor
r
@
@
0
aBUlllI8
iUQlli
V
JlAU
I
Oil
distributor
2
Governor
nlve
body
A
T092
3
Primary
governor
valve
4
Secondary
governol
valve
Fig
A
T
9
Exploded
view
of
governor
Flow
cbar
of
control
valve
system
Oil
from
pump
Regulator
valve
1
I
i
j
Throttle
valve
I
I
l
Manual
valve
I
I
I
I
I
I
I
L
n
L
j
Speed
change
valve
I
I
t
t
I
I
I
I
I
I
Governor
I
I
valve
I
I
I
L
L
1
II
Auxiliary
valve
Line
pressure
j
Clutch
and
brake
The
control
valve
assembly
receives
oil
from
the
pump
and
individual
signals
from
the
vacuum
diaphragm
and
transmits
the
individual
line
pres
sures
to
the
transmission
friction
ele
ment
torque
converter
circuit
and
lubricating
system
circuit
as
outputs
More
specifically
the
oil
from
the
oil
pump
is
regulated
by
the
regulator
valve
as
line
pressure
build
up
the
line
pressure
is
fed
out
from
the
control
valve
assembly
through
various
direc
AT
6
tion
changeover
valves
including
ON
OFF
valve
and
regulator
valves
are
newly
reformed
to
a
throllle
system
oil
pressure
and
operate
other
valves
Finally
the
line
pressure
is
transmilled
to
the
required
dutch
or
brake
servo
pisJon
unit
in
response
to
the
individu
af
running
conditions
after
re
ejving
signals
from
the
va
uum
diaphragm
downshift
solenoid
governor
V
dlvc
and
or
manual
linkage
Page 267 of 537
The
control
valve
assembly
consists
of
the
following
valves
See
Figure
AT
20
I
Pressure
regulator
valve
PRV
2
Manual
valve
MNV
3
I
st
2nd
shift
valve
FSV
4
2nd
3rd
shift
valve
SSV
5
Pressure
modifier
valve
PMV
6
Vacuum
throttle
valve
VTV
7
Throttle
back
up
valve
TBV
8
Solenoid
downshift
valve
SDV
9
Second
lock
valve
SL
V
10
2nd
3rd
timing
valve
TMV
Pressure
regulator
valve
PRV
The
pressure
regulator
valve
re
ceives
valve
spring
force
force
from
the
plug
created
by
the
throttle
pres
sure
16
and
line
pressure
7
and
force
of
the
throttle
pressure
18
With
the
interaction
of
those
forces
the
PRY
regulates
the
line
pressure
7
to
that
most
suitable
for
individual
driving
conditions
The
oil
from
the
oil
pump
is
ap
plied
to
the
ring
shaped
area
through
orifice
20
As
a
result
the
PRV
is
depressed
downward
and
moves
from
port
7
up
to
such
extent
that
the
space
to
the
next
drain
port
marked
with
X
in
Figure
AT
10
opens
slightly
Thus
the
line
pressure
7
is
balanced
with
the
spring
force
there
by
balancing
the
PRV
In
this
opera
tion
Ihe
space
from
port
7
to
the
subsequent
converter
oil
pressure
14
circuit
has
also
been
opened
As
a
result
the
converter
is
filled
with
pressurized
oil
in
circuit
14
and
this
oil
is
further
used
for
lubrication
of
the
rear
unit
Moreover
part
of
the
oil
is
branched
and
used
for
lubrication
of
the
front
unit
for
the
front
and
rear
clutches
When
Ihe
accelerator
pedal
is
de
presscd
the
throttle
pressure
16
in
creases
as
described
in
the
preceding
paragraph
oil
pressure
is
applied
to
the
plug
through
orifice
21
and
this
pressure
is
added
to
the
spring
force
As
a
result
the
PRV
is
contrarily
forced
upward
space
to
the
drain
port
is
reduced
and
Ihe
line
pressure
7
increases
Automatic
Transmission
11
AT095
Fig
AT
10
Pressure
regulator
ualue
When
the
range
is
selected
at
R
Reverse
the
line
pressure
6
is
applied
10
the
plug
in
a
manner
identi
caito
the
throttle
pressure
16
and
is
added
10
the
spring
force
Consequent
ly
the
line
pressure
7
further
in
creases
When
vehicle
speed
increases
and
the
governor
pressure
rises
the
theot
tle
pressure
18
is
applied
to
the
port
on
the
top
of
the
PRV
and
pressure
is
applied
contrarily
against
the
spring
force
As
a
result
the
line
pressure
7
decreases
Moreover
at
individual
con
ditions
the
line
pressure
7
is
equal
to
the
line
pressure
6
and
the
throttle
pressure
16
is
equal
to
18
Manual
valve
MNV
The
manual
lever
turning
motion
is
converted
to
reciprocating
motion
of
the
manual
valve
through
a
pin
and
the
MNV
is
positioned
so
that
the
line
pressure
7
is
distributed
to
the
indi
vidual
line
pressure
circuits
at
each
P
R
N
D
2
or
I
range
as
shown
below
P
range
7
4
SDV
and
TBV
5
FSV
12
TBV
and
Low
reverse
brake
R
range
7
4
same
as
above
5
same
as
above
6
PRY
and
SSV
F
C
and
band
release
N
range
D
range
7
7
None
I
Governor
valve
FSV
and
rear
clutch
2
SLY
3
SL
V
and
SSV
2
range
7
I
Same
as
above
2
SL
V
9
Band
applied
4
SDV
and
TBV
I
range
7
I
Same
as
above
4
Same
as
above
5
FSV
Moreover
1
2
3
4
5
and
6
are
always
drained
at
a
position
where
the
line
pressure
is
not
dis
tributed
from
7
u
JJX
g4Vhl
dIillillt
1
dlMIi
W
ld
IiIb
It
i
B
J
jd
l
tJj
fitMi
td
j
L@
x
x
j
j
P
R
N
17
l
AT7
AT096
Fig
AT
11
Manual
ualvp
Page 268 of 537
1st
2nd
shift
valve
FSV
The
FSV
is
a
transfer
valve
which
shifts
gears
from
low
to
second
When
Ihe
vehicle
is
stopped
the
FSV
is
depressed
to
the
right
side
by
force
of
a
spring
located
on
the
left
side
putting
the
FSV
is
in
the
low
position
When
vehicle
speed
increases
the
governor
pressure
15
is
applied
to
Ihe
right
side
of
the
FSV
and
the
FSV
is
forced
toward
the
left
Contrarily
the
line
pressure
I
togelher
with
the
spring
force
force
the
FSV
toward
the
right
opposing
the
governor
pressure
15
When
the
vehide
speed
exceeds
a
certain
level
the
governor
pressure
15
exceeds
the
sum
of
the
throttle
pressure
and
Ihe
spring
force
and
the
FSV
is
forced
toward
the
left
When
the
FSV
is
depressed
10
a
certain
position
the
lire
pressure
I
is
closed
and
only
the
spring
depresses
the
FSV
toward
the
right
and
it
is
depressed
to
the
end
for
a
moment
As
a
resull
the
line
p
ressure
lJ
is
for
warded
to
8
the
band
servo
is
engaged
through
the
SLY
and
the
speed
is
shifted
to
2nd
With
the
accelerator
pedal
depressed
the
FSV
remains
iIi
the
Low
position
unless
the
governor
pressure
IS
increases
to
a
high
leVel
corresponding
to
the
line
pressure
I
since
the
line
pressure
I
increase
when
the
accelerator
pedal
is
depresse9
Contrarily
when
vehicle
speed
de
creases
the
governor
pressure
15
decrease
Howeve
f
the
gear
is
not
shifted
to
Low
nless
the
governor
pressure
15
becomes
zero
since
the
force
depressing
the
FSV
toward
the
right
is
being
delivered
only
by
the
spring
Low
in
range
I
is
led
to
the
low
and
reverse
clutch
from
line
pres
sure
5
through
line
prbssure
12
2nd
is
simultaneousi
y
led
to
the
ieft
end
spring
unit
Consequently
al
thougp
the
goverflor
pressure
in
creases
the
valve
is
still
forced
toward
the
right
and
the
SFV
is
fixedjn
the
Low
position
When
kicked
down
to
the
2nd
speed
the
SDV
operates
and
the
line
pressure
13
forces
the
FSV
toward
the
right
Although
the
Automatic
Transmission
governor
pressure
15
is
considerably
high
the
valve
is
forced
completely
toward
the
right
and
the
FSV
is
returned
to
the
Low
position
This
operation
is
alled
Kickdown
shift
15
j
13
1
c5
I
0
t
r
I
I
q
1
AT091
Fig
AT
12
lsl
2nd
shift
valve
2nd
3rd
shift
valve
SSV
The
SSV
is
a
transfer
valve
which
shifts
gears
from
2nd
to
3rd
When
the
vehicle
is
stopped
the
SSV
is
forced
toward
the
right
by
the
spring
and
is
in
the
2nd
position
It
is
so
design
d
however
that
the
FSV
can
decide
to
shift
either
to
Low
or
2nd
When
the
vehicle
is
running
the
governor
pressure
15
is
applied
to
the
right
end
surface
and
th
SSV
is
forced
toward
the
left
Contrarily
the
Spri
l
force
line
pressure
3
and
throttle
press
re
19
force
the
SSV
toward
the
right
When
vehicle
speed
exceeds
a
cee
tain
level
the
governor
pressure
sur
passes
the
sum
of
the
spring
force
line
pressure
and
throttle
pressure
and
the
valve
is
forced
toward
the
left
The
line
pressure
3
is
then
closed
Con
sequently
the
forces
being
rapjdly
unbalanced
the
force
depressing
the
SSV
toward
the
right
decreases
and
thus
the
SSV
is
depressed
to
the
l
ft
end
for
a
moment
With
Ihe
SSV
depressed
toward
the
left
end
lhe
line
pressure
3
is
connected
with
the
line
pressure
10
the
band
servo
is
re
leased
the
front
clutch
is
engaged
and
AT
8
speed
is
shifted
to
3rd
When
the
accelerator
pedJI
is
de
prcssed
both
the
line
pressure
3
and
the
throttle
pressure
19
are
high
allll
the
SSV
is
thus
retained
in
nd
unless
the
governor
pressure
15
ex
ceeds
the
line
pressure
3
and
the
throttle
pressure
19
In
the
3rd
position
force
de
pressing
ihe
SSV
toward
the
right
is
retained
only
by
the
throttle
pressure
16
and
the
throttle
pressure
16
is
slightly
Idwer
than
that
toward
the
right
which
is
applied
while
shifting
from
2nd
to
3rd
Consequently
the
SSV
is
returned
to
the
2nd
position
at
a
slightly
lower
speed
Shifting
from
3rd
to
2nd
occurs
at
a
speed
slightly
lower
than
that
for
2nd
to
3rd
shifting
When
kicked
down
at
3rd
line
pressure
13
is
led
from
the
SDV
and
the
SSV
is
forced
toward
the
right
Although
the
governor
pres
ure
is
con
siderably
high
the
valve
is
forced
completely
loward
the
right
and
tht
SSV
is
thus
returned
to
2nd
posi
tion
fhis
operation
is
called
K
cli
down
shift
When
the
shift
iever
is
shifted
to
2
or
I
range
at
the
3rd
speed
the
line
pressure
3
if
diained
at
the
MNV
Consequently
the
front
clutch
and
band
servo
releasing
oils
are
drained
As
a
result
the
transmission
is
shifted
to
2nd
or
low
speed
ai
though
the
SSV
is
in
the
3rd
posi
tion
When
the
specd
IS
shifted
io
the
3r
1
a
one
way
orifice
24
on
the
topof
the
SSV
relieves
oil
transmitting
velocity
from
the
line
pressure
3
to
the
line
pressure
10
and
reduces
the
shock
generated
fioni
the
shifting
Contrarily
when
the
lever
is
shifted
to
2
or
I
range
and
the
speed
is
shifted
from
3rd
to
the
2nd
the
orifice
checking
valve
spring
24
is
depressed
the
throttle
becomes
in
effective
the
line
pressure
10
is
drained
quickly
and
delay
in
shifting
speeds
is
thus
eliminated
The
throttle
of
line
pressure
6
transmits
Hie
oil
transmitting
velocity
from
line
pressure
6
to
line
pressurc
10
wtien
the
lever
is
shifted
to
the
R
range
and
transmits
drain
veloci
ty
from
line
pressure
10
to
line