oil filter DATSUN PICK-UP 1977 User Guide
Page 85 of 537
ENGINE
LUBRICATION
SYSTEM
ENGINE
LUBRICATION
SYSTEM
CONTENTS
LUBRICATION
CIRCUIT
01
L
PUMP
Removal
Installation
Disassembly
and
assembly
EL
2
EL
2
EL
2
EL
2
EL
3
Inspection
OIL
PRESSURE
REGULATOR
VALVE
OIL
FILTER
RELIEF
VALVE
EL
3
EL
4
EL
4
EL
4
E
L049
Fig
Elr
I
Lubricating
circuit
LUBRICATION
CIRCUIT
The
pressure
lubrication
of
the
engine
is
accomplished
by
a
tro
choid
type
oil
pump
This
pump
draws
the
oil
through
the
oil
strainer
into
pump
housing
and
then
forces
it
through
the
full
flow
type
oil
filter
into
the
main
oil
gallery
Part
of
the
oil
is
supplied
to
all
crankshaft
bearings
chain
tensioner
and
timing
chain
Oil
supplied
to
crankshaft
bearings
is
fed
to
connecting
rod
bearings
through
the
drilled
passages
in
the
crankshaft
Oil
injected
from
jet
holes
on
connecting
rods
Iubri
cates
the
cylinder
walls
and
piston
pins
The
other
part
of
the
oil
is
brought
to
the
oil
gallery
in
the
cylinder
head
to
provide
lubrication
of
the
valve
mechanism
and
timing
chain
as
shown
in
Figure
EL
2
ELOSO
Fig
EL
2
Lubricating
vallie
mechanism
EL
2
From
this
gallery
oil
holes
go
directly
to
all
camshaft
bearings
through
cam
brackets
Oil
supplied
through
the
No
2
and
No
3
camshaft
bearings
is
then
fed
to
the
rocker
arm
valve
and
eam
lobe
through
the
oil
gallery
in
the
camshaft
and
the
small
channel
at
the
base
circle
portion
of
each
earn
OIL
PUMP
The
oil
pump
is
secured
on
the
bottom
of
the
front
cover
with
four
bolts
and
driven
by
the
oil
pump
drive
spindle
assembly
which
is
driven
by
the
helical
gear
on
the
crankshaft
The
oil
pump
assembly
consists
of
an
oil
pressure
regulator
valve
and
outer
and
inn
r
rotors
The
spring
loaded
oil
pressure
regu
lator
valve
limits
the
oil
pressure
to
a
maximum
of
5
6
kg
em
80
psi
Removal
I
Remove
distributor
2
Drain
engine
oil
if
necessary
3
Remove
oil
pump
body
with
drive
spindle
assembly
Installation
I
Before
installing
oil
pump
on
engine
turn
crankshaft
so
that
No
I
piston
is
at
TD
C
Page 87 of 537
ENGINE
LUBRI
CATION
SYSTEM
Note
Pump
rotors
and
body
are
not
serviced
separately
If
pump
rotors
or
body
are
damaged
or
worn
replacement
of
the
entire
oil
pump
assembly
is
necessary
Tightening
torque
Oil
pump
mounting
bolts
Oil
pump
cover
bolts
Regulator
valve
cap
nut
Specifications
Oil
pressure
at
idling
Regulator
valve
spring
Free
length
Pressured
length
Regulator
valve
opening
pressure
OIL
FILTER
The
oil
filter
is
a
cartridge
type
The
oil
filter
element
should
be
reo
placed
periodically
with
the
use
of
Oil
Filter
Wrench
ST19320000
When
installing
an
oil
filter
fasten
it
to
cylinder
block
by
hand
Note
Do
not
overtighten
filter
or
oil
leakage
may
occur
OIL
PRESSURE
REGULATOR
VALVE
The
oil
pressure
regulator
valve
is
not
adjustable
At
the
released
position
the
valve
permits
the
oil
to
by
pass
through
the
passage
in
the
pump
cover
to
the
inlet
side
of
the
pump
Check
regulator
valve
spring
to
ensure
that
spring
tension
is
correct
kg
m
ft
Ib
kg
m
ft
lb
kg
m
ft
lb
kg
cm2
psi
mm
in
mm
in
kg
em
2
psi
RELIEF
VALVE
The
relief
valve
located
at
the
center
portion
securing
oil
fIlter
to
the
cylinder
block
by
passes
the
oil
into
the
main
gallery
when
the
oil
fIlter
element
is
excessively
clogged
STl9320000
EL015
Fig
EL
9
Removing
oil
filter
EL
4
EL014
Fig
EL
B
Regulator
value
l
l
to
1
5
8
0
to
11
0
7
to
1
0
5
Ito
7
2
4
to
5
29
to
36
0
8
to
2
8
II
to
40
52
5
2
067
34
8
1
370
35
to
5
0
50
to
71
With
oil
fIlter
removed
check
valve
unit
for
operation
Inspect
for
a
cracked
or
broken
valve
If
replace
ment
is
necessary
remove
valve
by
prying
it
out
with
a
screwdriver
Install
a
new
valve
in
place
by
tapping
it
EL016
Fig
EL
JO
Relief
lJOlue
Page 89 of 537
No
Tool
number
tool
name
STl9320000
Oil
filter
wrench
ENGINE
LUBRICATION
SYSTEM
SPECIAL
SERVICE
TOOL
Description
Unit
nun
in
For
use
on
Reference
page
or
Figure
No
This
tool
is
used
to
take
oil
f1Iter
out
of
place
In
tightening
All
Fig
EL
9
the
f1Iter
do
not
use
this
tool
to
prevent
excess
tightening
models
I
120
4
7
SE197
EL
6
Page 98 of 537
Engine
Fuel
AUTOMATIC
TEMPERATURE
CONTROL
A
T
C
AIR
CLEANER
DESCRIPTION
OPERATION
A
T
C
AIR
CLEANER
HOT
AIR
OPERATION
A
T
C
AIR
CLEANER
COLD
AIR
OPERATION
A
T
C
AIR
CLEANER
COLD
AND
HOT
AIR
OPERATION
TEMPERATURE
SENSOR
DESCRIPTION
The
air
cleaner
removes
dust
and
dirt
from
the
air
before
it
enters
the
carburetor
and
engine
It
also
muffles
noise
resulting
from
the
intake
of
air
into
the
engine
The
air
cleaner
especially
designed
for
improved
exhaust
emission
control
is
referred
to
as
Automatic
Tempera
ture
Control
Air
Cleaner
In
order
to
reduce
HC
emission
when
the
under
hood
temperature
is
below
300C
860F
the
automatic
temperature
control
system
maintains
the
tempera
ture
of
air
to
be
sucked
in
the
carbure
tor
at
30
to
540C
86
to
1290F
thereby
enabling
lean
setting
for
carburetor
calibration
n
addition
to
this
the
automatic
temperature
con
twl
system
is
effective
to
improve
warm
up
characteristics
of
the
engine
CONTENTS
EF
2
EF
3
VACUUM
MOTOR
AND
AIR
CONTROL
VALVE
REMOVAL
AND
INSTALLATION
TEMPERATURE
SENSOR
VACUUM
MOTOR
FRESH
AIR
DUCT
AIR
CLEANER
INSPECTION
1
AIR
CLEANER
ELEMENT
2
HOT
AIR
CONTROL
SYSTEM
EF
3
EF
4
EF
4
EF
5
and
to
remove
carburetor
icing
The
A
T
C
air
cleaner
system
con
sists
of
the
following
devices
1
Air
cleaner
element
The
air
cleaner
element
employed
is
a
viscous
paper
type
It
requires
only
periodical
replacment
and
should
not
be
cleaned
2
Automatic
temperature
control
air
cleaner
In
the
A
T
C
air
cleaner
the
air
control
valve
is
actuated
by
intake
manifold
vacuum
to
control
the
intake
air
flow
circuit
The
temperature
sen
sor
detects
the
temperature
inside
the
air
cleaner
and
opens
or
closes
the
vacuum
passage
3
Hot
air
duct
The
hot
air
duct
is
mounted
on
the
exhaust
manifold
The
air
warmed
up
EF
2
EF
5
EF
5
EF
5
EF
5
EF
5
EF
6
EF
6
EF
6
EF
6
between
the
exhaust
manifold
and
hot
air
duct
is
led
to
the
air
cleaner
through
the
hose
4
Blow
by
gas
filter
The
blow
by
gas
nIter
removes
dirt
and
oil
from
the
blow
by
gas
sucked
in
the
air
cleaner
from
the
engine
rocker
cover
5
Fresh
air
duct
Except
for
Canada
The
fresh
air
duct
leads
the
outside
fresh
air
directly
to
the
air
cleaner
6
Idle
compensator
See
paragraph
Idle
Compensator
Page
EF
7
7
Altitude
compensator
California
models
See
paragraph
Altitude
Compensa
tor
Page
EF
20
Page 107 of 537
3
Check
diaphragm
for
small
holes
carcks
or
wear
4
Check
rocker
arm
for
wear
at
the
mating
portion
with
camshaft
5
Check
rocker
arm
pin
for
wear
A
worn
pin
may
cause
oil
leakage
6
Check
all
other
components
for
any
abnormalities
and
replace
if
neces
sary
DESCRIPTION
INSPECTION
REMOVAL
AND
INSTALLATION
DESCRIPTION
The
electric
fuel
pump
is
adopted
on
air
conditioner
equipped
models
Engine
Fuel
ASSEMBLY
Reverse
the
order
of
disassembly
Closely
observe
the
following
instruc
tions
L
Use
new
gaskets
2
Lubricate
rocker
ann
rocker
arm
link
and
rocker
arm
pin
before
installa
tion
3
To
test
the
function
proceed
as
follows
Position
fuel
pump
assembly
about
I
meter
3
3
ft
above
fuel
level
of
fuel
strainer
and
connect
a
pipe
from
strainer
to
fuel
pump
Operate
rocker
arm
by
hand
If
fuel
is
drawn
up
soon
after
rocker
arm
is
released
fuel
pump
is
functioning
properly
ELECTRIC
FUEL
PUMP
CONTENTS
EF
11
EF
11
EF
12
DISASSEMBL
Y
ASSEMBL
Y
TROUBLE
DIAGNOSES
AND
CORRECTIONS
EF
12
EF
12
The
silicon
transistor
type
fuel
pump
consists
of
a
transistor
diodes
a
sole
I
Tr
lOsistor
6
Ou
tIet
valve
2
Plunger
7
Return
spring
3
Diaphragm
8
Filter
4
Diode
9
Magnet
5
Magnet
coil
10
Inlet
valve
INSPECTION
I
Disconnect
fuel
hose
at
pump
outlet
2
Connect
a
suitable
hose
approxi
mately
6
mm
0
24
in
inner
dia
meter
to
pump
outlet
ev
J
J
Note
If
diameter
is
too
small
the
following
proper
delivery
capacity
cannot
be
obtained
even
if
pump
functions
properly
EF
11
EF
13
noid
a
pump
mechanism
and
filter
parts
I
T
nsistor
2
Re
ist
f
I
3
Dinde
4
Signal
coil
5
Main
coil
6
Resistor
3
7
Zener
dlOdl
8
Resistor
2
EF719
Fig
EF
22
Construction
of
electric
fuel
pump
3
With
hose
outlet
in
a
higher
posi
tion
than
pump
operate
pump
and
check
delivery
capacity
for
more
than
15
seconds
4
The
capacity
should
be
I
400
cc
Page 135 of 537
There
are
three
types
of
control
system
These
are
J
Closed
type
CIllnkcase
emission
control
system
Emission
Control
System
of
GENERAL
DESCRIPTION
2
Exhaust
emission
control
system
3
Evaporative
ell
lhsion
control
sys
tem
Pericxiic
inspection
and
required
seCV1Clng
of
these
systems
should
be
carried
out
to
reduce
harmful
emis
sions
to
a
minimum
CRANKCASE
EMISSION
CONTROL
SYSTEM
c
01
Lkf
If
1
TIL
II
tll
1
j
GUuuu
DESCRIPTION
This
system
returns
blow
by
gas
to
both
the
intake
manifold
and
carbure
tor
air
cleaner
The
positive
crankcase
ventilation
p
C
V
valve
is
provided
to
conduct
crankcase
blow
by
gas
to
the
intake
manifold
During
partial
throttle
operation
of
the
engine
the
intake
manifold
sucks
the
blow
by
gas
through
the
P
C
V
valve
Normally
the
capacity
of
the
valve
is
sufficient
to
handle
any
blow
by
and
a
small
amount
of
ventilating
air
4
c
Fresh
air
Blow
by
gas
The
ventilating
air
is
then
drawn
from
the
dust
side
of
the
cadlUretor
air
cleaner
tluough
the
tube
con
necting
carburetor
air
cleaner
to
rock
er
cover
into
the
crankcase
Under
full
tluottle
condition
the
manifold
vacuwn
is
insufficient
to
draw
the
blow
by
flow
tluough
the
valve
and
its
flow
goes
through
the
tube
connection
in
the
reverse
diree
tion
On
vehicles
with
an
excessively
high
blow
by
some
of
the
flow
will
go
through
the
tube
connection
to
carbu
retor
air
cleaner
under
all
conditions
1
Sealtypc
oil
level
gauge
2
Bame
plate
3
Flame
arrester
4
Filler
5
P
C
Y
valve
6
Steel
net
7
Bame
plate
EC716
Fig
EC
l
Crankcase
miaion
control
ay
tem
EC
2
INSPECTION
P
c
V
VALVE
AND
FILTER
Checking
P
C
V
valve
in
accord
ance
with
the
following
method
With
engine
running
at
idle
remove
the
ventilator
hose
from
P
C
V
valve
if
the
valve
is
working
a
hissing
noise
will
be
heard
as
air
passes
through
the
valve
and
a
strong
vacuwn
should
be
felt
immediately
when
a
fmger
is
placed
over
valve
inlet
Replace
P
C
V
valve
and
filter
in
accordance
with
the
maintenance
schedule
VENTILATION
HOSE
1
Check
hoses
and
hose
connec
tions
for
leaks
2
Disconnect
all
hoses
and
clean
with
compressed
air
If
any
hose
cannot
be
free
of
obstructions
replace
Ensure
that
flame
arrester
is
surely
inserted
in
hose
between
air
cleaner
and
rocker
cover
Page 163 of 537
3
Check
ignition
system
with
regard
to
the
following
items
Refer
to
Inspection
of
Ignition
System
1
Ignition
AMP
2
Distributor
Emission
Control
System
3
Ignition
coil
4
High
tension
code
5
Spark
plug
4
Check
idle
CO
adjustment
Refer
to
Inspection
of
Idle
CO
Adjustment
Note
Even
if
there
is
nothing
wrong
with
engine
the
warning
lamp
may
come
on
if
vebicle
is
being
driven
on
a
steep
slope
continuously
in
lower
gears
at
high
engine
speeds
EVAPORATIVE
EMISSION
CONTROL
SYSTEM
CONTENTS
DESCRIPTION
OPERATION
INSPECTION
FUEL
TANK
VAPOR
LIQUID
SEPARATOR
AND
VAPOR
VENT
LINE
DESCRIPTION
The
evaporative
emission
control
system
is
used
to
reduce
hydrocarbons
emitted
to
the
atmosphere
from
the
fuel
system
This
reduction
of
hydro
EC
30
EC
30
EC
31
CARBON
CANISTER
PURGE
CONTROL
VALVE
CARBON
CANISTER
FILTER
FUEL
TANK
VACUUM
RELIEF
VALVE
IEC
32
IEC
32
EC
32
EC
31
carbons
is
accomplished
by
activated
charcoals
in
the
carbon
canister
This
system
is
made
up
to
the
following
I
Fuel
tank
with
positive
sealing
filler
cap
@
2
Vapor
liquid
separator
3
Vapor
vent
line
4
Carbon
canister
5
Vacuum
signal
line
6
Canister
purge
line
5
OPERATION
Fuel
vapors
from
the
sealed
fuel
tank
are
led
into
the
carbon
canister
1
Fuel
tank
2
Fuel
nIler
cap
with
vacuum
relief
valve
3
liquid
vapor
separator
4
Vapor
vent
line
5
Canister
purge
line
6
Vacuum
signal
line
7
Carbon
canister
EF274
Fig
EC
76
Schematic
drawing
of
l
Iaporotive
emiaion
control6ydem
The
canister
is
fined
with
activated
charcoals
to
absorb
the
fuel
vapors
EC
30
when
the
engirie
is
at
rest
or
at
idlin
ll
See
Figure
EC
77
Page 381 of 537
DISASSEMBLY
AND
ASSEMBLY
1
00
11I
1
Reservoir
cap
2
Oil
mter
3
Oil
reservoir
4
Packing
5
Valve
cap
Brake
System
00
oC
1
O
b
0
1
r
r
L
BA927
6
Secondary
piston
stopper
7
Bleeder
screw
8
Secondary
return
spring
9
Secondary
piston
10
Primary
return
spring
11
Primary
piston
12
Piston
stopper
13
Piston
stopper
ring
1
Remove
reservoir
cap
and
filter
and
drain
out
brake
fluid
2
Pry
off
stopper
ring
using
a
screwdriver
3
Remove
stopper
screw
and
take
out
stopper
primary
piston
assembly
spring
and
secondary
piston
assembly
in
the
order
shown
Note
Discard
piston
cup
if
it
is
re
moved
from
piston
sembly
and
use
a
new
one
4
Unscrew
plugs
to
gain
access
to
check
valve
for
disassembling
Note
Never
detach
reservoir
tank
U
it
is
removed
for
any
reason
dis
canI
it
and
install
a
new
one
S
Assemble
master
cylinder
in
the
reverse
sequence
of
disassembly
pay
ing
particular
attention
to
the
follow
ing
notes
Fig
BR
10
Master
cylinder
Tightening
torque
Valve
cap
T
okico
8
t09
kg
m
S8
to
6S
ft
Ib
Nabco
2
5
to
3
S
kg
m
18
to
2S
ft
Ib
Bleeder
0
7
to
0
9
kg
m
S
to
7
ft
lb
Notes
a
Replace
gaskets
and
packings
with
new
ones
b
Apply
brake
fluid
or
rubber
grease
to
sliding
contact
surfaces
of
parts
to
facilitate
assembly
of
master
cylinder
c
The
blllke
master
cylinder
is
avail
able
in
both
NABCO
make
and
TOKlCO
make
There
is
no
inter
changeability
of
repair
kits
or
com
ponent
parts
between
NABCO
and
TOKlCO
JIIlkes
When
replacing
the
repair
kit
or
component
parts
BR
6
ascertain
the
brand
of
the
brake
master
cylinder
body
Be
sure
to
use
parts
of
the
same
make
as
the
former
ones
INSPECTION
Thoroughly
clean
all
parts
in
a
suitable
solvent
and
check
for
WOol
or
damaged
parts
Replace
any
part
that
is
faulty
Note
Do
not
clean
robber
parts
with
minerai
oil
since
this
will
be
the
sure
way
of
deteriolllting
parts
Use
brake
fluid
or
alcohoL
When
alco
hol
is
used
for
leaning
these
parts
do
not
immerse
them
in
it
longer
than
30
seconds
After
parts
are
cIeaned
dry
with
compressed
air
I
Check
cylinder
and
position
for
evidence
of
abnonnaI
wear
or
damage
Replace
if
found
faulty
2
Check
piston
to
cylinder
clear
ance
If
it
is
more
than
O
IS
mm
0
OOS9
in
replace
either
piston
or
cylinder
Master
cylinder
inner
diameter
19
0S
mm
Yoin
3
Check
for
weakened
fatigued
or
damaged
springs
and
replace
if
neces
sary
4
When
master
cylioder
is
disassem
bled
be
sure
to
discard
cups
and
valves
Replace
any
other
part
which
shows
evidence
of
deformation
wear
or
damage
S
Replace
damaged
oil
reservoirs
and
caps
INSTALLATION
Install
master
cylinder
in
the
re
verse
sequence
of
removal
Bleed
air
out
of
master
cylinder
by
loosening
bleeder
screw
after
it
is
installed
in
its
original
position
Tightening
torque
Brake
master
cylinder
attaching
nut
0
8
to
1
1
kg
m
6
to
8
ft
Ib
Brake
tube
connector
I
S
to
1
8
kg
m
II
to
13
ft
Ib
Page 518 of 537
INSPECTION
Evaporator
Check
evaporator
for
leakage
or
damage
If
damaged
replace
Expansion
valve
Check
expansion
valve
for
leakage
or
clogging
If
clogged
clean
filter
in
expansion
valve
If
damaged
replace
RECEIVER
DRYER
AND
PIPING
REMOVAL
AND
INSTAUATION
Receiver
dryer
I
Disconnect
battery
ground
cable
2
Discharge
system
Refer
to
Dis
charging
System
under
General
Service
section
3
Disconnect
compressor
lead
wire
at
connector
4
Disconnect
cooling
pipes
at
joints
Acno
Fig
AC
39
Diaconnecting
coo
ing
pipes
Notes
a
Plug
all
piping
joints
immediately
after
pipe
disconnection
to
prevent
entry
of
dust
or
moisture
laden
air
into
receiver
dryer
or
air
aJOdi
tioning
system
b
Use
two
wrenches
when
dIsconnect
ing
cooling
pipes
5
Remove
four
screws
securing
receiver
dryer
bracket
to
vehicle
body
and
detach
compressor
relay
and
pres
sure
switch
as
an
assembly
6
To
install
receiver
dryer
and
piping
reverse
the
order
of
removal
Air
Conditioning
Notes
a
Apply
a
coat
of
fresh
compressor
oil
to
sealing
surfaces
when
con
necting
cooling
pipes
b
Use
two
wrenches
when
connecting
cooling
pipes
c
Evacuate
cooling
system
then
re
charge
with
refrigerant
Refer
to
Evacuating
and
Checking
System
under
General
Service
sec
tion
d
Check
refrigerant
leakage
if
neces
sary
repair
Refer
to
Evacuating
and
Charging
System
under
General
Service
See
tion
Condenser
Disconnect
battery
ground
cable
2
Discharge
system
Refer
to
Dis
charging
System
under
General
Service
section
3
Drain
engine
coolant
4
Remove
radiator
grille
5
Remove
radiator
shroud
and
radiator
On
automatic
transmission
models
disconnect
both
torque
converter
oil
hoses
Note
While
cooling
water
is
hot
take
precautions
against
scalding
6
Disconnect
two
pipes
from
con
denser
remove
two
screws
securing
condenser
Condenser
can
now
be
removed
AC485
Fig
AC
40
Removing
conden
er
Notes
a
Use
two
wrenches
when
disconnect
ing
pipe
joints
b
Plug
openings
immediately
after
disconnecting
pipes
7
To
install
reverse
the
order
of
removal
AC
29
Tightening
torque
Flare
nut
for
copper
tube
from
compressor
2
5
to
4
0
kg
m
i8
to
29
ft
Ib
Flare
nut
for
copper
tube
to
receiver
dryer
2
5
to
3
5
kg
m
i8
to
25
ft
lb
Notes
a
When
disconnecting
and
connecting
cooler
pipes
be
sure
to
use
two
wrenches
b
Apply
a
coat
of
fresh
compressor
oil
to
sealing
surfaces
when
con
necting
cooler
pipes
c
To
prevent
possibility
of
explosion
due
to
high
pressure
within
cooling
system
do
not
clean
condenser
with
steam
Always
use
cold
water
or
cold
compressed
air
d
Evacuate
cooling
system
then
re
charge
with
refrigerant
Refer
to
Evacuating
and
Charging
System
under
General
Service
sec
tion
e
Check
refrigerant
leakage
if
neces
sary
repair
Refer
to
Checking
for
Leaks
under
General
Service
sec
tion
INSPECTION
RecelYer
dryer
Check
for
refrigerant
leakage
or
damage
Check
for
proper
connection
of
two
lead
wires
running
to
pressure
switch
If
any
component
part
is
found
damaged
replace
receiver
dryer
and
pressure
switch
as
an
assembly
Condenser
I
Check
inlet
and
outlet
pipe
joints
and
sealing
surfaces
for
damage
Re
place
parts
if
damaged
or
leaky
2
Clogged
condenser
fins
or
air
pas
sages
may
reduce
cooling
efficiency
of
condenser
Clean
these
areas
with
dry
compressed
air
Piping
Check
piping
for
leakage
If
leakage
occurs
at
connections
retighten
connecting
nuts
Replace
if
leakage
persists
Page 532 of 537
Service
Equipment
TOOL
LIST
ENGINE
TOOL
Tool
Number
Tool
Name
Newly
added
Class
Remarks
ST050
I
SODa
Engine
stand
assembly
5
FIO
B2iO
610
710
S30
tST05011000
Engine
stand
ST050
I
2000
Base
ST05260001
Engine
attachment
5
610
710
STlOl20000
Cylinder
head
bolt
wrench
2
610
710
S30
STl
0640001
Pivot
adjuster
I
610
710
S30
KVIOI039S0
Valve
guide
reamer
set
3
FiO
B210
610
710
S30
STl1081
000
Reamer
12
2
mffi
0
480
in
dia
J
STl1032000
Reamer
8
0
mffi
0
315
in
dia
STl1320000
Drift
STll650001
Valve
seat
cutter
set
2
610
710
S30
STl2070000
Valve
lifter
5
B210
610
710
S30
STl3030001
Piston
pin
press
stand
2
610
710
S30
STl53
10000
Crankshaft
rear
oil
seal
drift
2
610
710
S30
KVI01041S0
Crankshaft
main
bearing
cap
puller
2
610
710
S30
KVIOI04110
Crankshaft
main
bearing
puller
STl6512001
Adapter
STl6701001
Adapter
STl6610001
Pilot
bushing
puller
3
610
710
S30
STl7420001
Chain
stopper
2
610
710
S30
STl9320000
Oil
filter
wrench
FIO
B210
610
710
S30
STl9870000
Air
pump
test
gauge
FI0
B210
610
710
STl98
10000
Hexagonal
wrench
3
FIO
B2iO
610
710
STl9890000
Rotor
adapter
2
FIO
B210
610
710
STl9900000
Dummy
shaft
2
FIO
B210
610
710
STl99
10000
Bearing
drift
2
FIO
B210
610
710
STl9920000
Rotor
stand
2
FIO
B210
610
710
STl9930000
Bearing
adapter
2
FIO
B210
610
710
ST
I
9940000
Bearing
pressing
tool
3
FIO
B210
610
710
EM03470000
Piston
ring
compressor
2
FIO
B210
610
710
S30
SE
3