1969 DATSUN 610 wheel alignment
[x] Cancel search: wheel alignmentPage 96 of 171
the
system
operates
smoothly
COLLAPSIBLE
STEERING
The
collapsible
steering
column
is
designed
so
that
compression
occurs
when
the
vehicle
is
involved
in
a
head
on
collision
See
Fig
K
13
Two
forces
can
be
considered
when
a
collision
of
this
type
takes
place
These
being
the
primary
force
in
which
the
forward
motion
of
the
car
is
suddenly
halted
and
the
secondary
force
as
the
driver
continues
in
a
forward
direction
onto
the
steering
wheel
and
column
The
collapsible
column
is
designed
so
that
it
does
not
move
to
the
rear
i
e
into
the
driving
com
partment
when
the
primary
force
or
forward
motion
of
the
car
is
suddenly
halted
When
the
secondary
force
takes
place
as
the
driver
is
thrown
forward
the
column
jacket
gradually
collapses
and
partially
absorbs
the
amount
of
impact
The
collapsible
type
of
column
is
no
more
susceptible
to
damage
than
an
ordinary
column
when
it
is
installed
in
the
vehicle
however
when
a
collapsible
column
is
removed
it
must
be
carefully
handled
A
sharp
blow
on
the
end
of
the
shaft
or
gear
change
levers
dropping
or
leaning
on
the
assembly
can
cause
the
column
jacket
to
bend
particularly
at
the
bellows
part
which
absorbs
the
shock
The
steering
movement
is
transmitted
by
the
lower
shaft
and
upper
tube
The
lower
shaft
exterior
and
upper
tube
interior
are
tightly
fitted
together
with
four
plastic
pins
com
pletely
eliminating
any
gap
When
a
collision
occurs
the
plastic
pins
shear
and
the
lower
shaft
enters
the
upper
tube
this
action
will
cause
the
shaft
end
to
spread
and
the
lower
shaft
cannot
then
be
withdrawn
unless
an
extremely
high
load
is
applied
The
shaft
is
prevented
from
moving
towards
the
drivers
compartment
when
the
primary
force
takes
place
i
e
when
the
forward
motion
of
the
vehicle
is
suddenly
halted
by
the
three
stoppers
on
the
jacket
tube
The
steering
lock
collar
mounted
to
the
shaft
contacts
the
stoppers
and
prevents
a
rear
ward
movement
A
part
of
the
jacket
tube
is
specially
formed
to
act
as
an
energy
absorbing
part
of
the
collapsible
steering
The
upper
and
lower
guide
tubes
joined
with
polyacetal
resin
are
inserted
into
the
mesh
tube
so
that
energy
generated
by
a
collision
can
be
absorbed
as
smoothly
as
possible
with
a
low
load
The
steering
column
clamp
shown
in
Fig
K
14
is
secured
to
the
jacket
tube
and
body
by
bolts
with
two
aluminium
slidings
blocks
set
to
the
body
by
plastic
pins
An
impact
from
the
drivers
side
causes
the
plastic
pins
to
shear
and
leave
the
sliding
block
in
the
column
clamp
side
allowing
the
clamp
to
move
with
the
jacket
as
it
collapses
COLLAPSffiLE
STEERING
Removal
and
Inspection
Steering
Wheel
I
Disconnect
the
battery
earth
cable
2
Disconnect
the
horn
wiring
and
remove
the
horn
pad
3
Remove
the
steering
wheel
nut
using
the
special
puller
ST
27180000
Eig
K
15
Remove
the
column
shell
covers
Fig
K
16
and
the
turn
signal
switch
assembly
Column
shaft
4
Remove
the
cotter
pin
and
detach
the
shift
rod
Automatic
Transmission
Remove
the
bolt
securing
the
worm
shaft
and
coupling
Fig
K
17
5
Take
out
the
bolts
securing
the
column
tube
flange
to
the
dash
panel
and
the
bolts
securing
the
column
clamp
With
draw
the
steering
column
shaft
towards
the
car
interior
A
careful
check
should
be
made
to
ensure
that
the
assembly
is
not
damaged
in
any
way
Pull
out
the
lower
shaft
tap
the
column
clamp
towards
the
steering
wheel
end
and
remove
the
screws
securing
the
upper
and
lower
tubes
Separate
the
upper
and
lower
tubes
Remove
the
snap
ring
from
the
upper
end
of
the
column
pull
the
upper
jacket
down
and
separate
it
from
the
upper
jacket
tube
Take
care
not
to
damage
the
bearing
Remove
the
plain
washer
and
spring
from
the
upper
shaft
Check
the
column
bearings
for
damage
and
lack
of
smooth
ness
Apply
multi
purpose
grease
to
the
bearing
if
necessary
Inspect
the
jacket
tubes
for
signs
of
deformation
renew
the
tubes
if
necessary
Check
the
dimension
A
in
Fig
K
1B
to
make
SUfe
that
the
jacket
has
not
been
crushed
Check
the
dimension
B
Fig
K
14
COLLAPSffiLE
STEERING
Assembly
and
Installation
Assembly
is
a
reversal
of
the
dismantling
procedure
noting
the
following
points
Lubricate
the
column
bearing
the
spring
and
dust
seal
sliding
parts
Ensure
that
the
upper
shaft
steering
lock
hole
and
the
steering
lock
are
correctly
positioned
Fig
K
19
When
assembling
the
lower
shaft
take
care
to
coincide
the
notch
on
the
universal
joint
with
the
punched
mark
on
the
shaft
Coat
the
upper
and
lower
shaft
serrations
with
multi
purpose
grease
Set
the
steering
in
the
straight
ahead
position
and
fit
the
column
shaft
to
the
steering
gear
See
Fig
K
20
Insert
the
column
through
the
dash
board
and
install
it
to
the
gear
so
that
the
punch
mark
at
the
top
of
the
shaft
is
forced
upwards
Slide
the
universal
joint
to
the
steering
gear
and
temporarily
install
the
column
clamp
6
Fit
the
lower
cover
flange
7
and
tighten
the
column
clamp
bolts
Check
the
steering
wheel
alignment
with
the
wheels
in
the
straight
ahead
position
If
the
steering
wheel
and
steering
lock
are
misaligned
by
more
than
35
mm
I
4
in
from
the
vertical
position
femove
the
steering
wheel
and
re
centre
it
STEERING
LINKAGE
Removal
Jack
up
the
front
of
the
vehicle
and
support
it
on
stands
2
Remove
the
cotterpins
and
castle
nuts
fastening
the
tie
rod
ball
joints
to
the
knuckle
arms
95
Page 98 of 171
3
Free
the
ball
studs
from
the
knuckle
arms
by
placing
a
hammer
behind
the
boss
and
striking
the
opposite
side
with
another
hammer
4
Remove
the
centre
tie
rod
ball
studs
in
a
similar
manner
to
that
described
above
and
remove
the
centre
tie
rod
and
outer
tie
rods
as
an
assembly
5
Remove
the
idler
assembly
from
the
side
member
by
with
drawing
the
retaining
bolts
SfEERING
LINKAGE
Dismantling
Disconnect
the
tie
rods
from
the
centre
rod
Loosen
the
clamp
bolts
unscrew
the
socket
assembly
and
remove
the
socket
from
the
tie
rods
Remove
the
idler
arm
nut
and
dismantle
the
idler
assembly
Check
the
idler
arm
rubber
bushing
for
signs
of
damage
wear
or
play
and
replace
the
bushing
if
necessary
Oteck
the
centre
and
outer
tie
rod
for
damage
or
bending
Inspect
the
ball
joints
and
replace
them
i
the
amount
of
play
is
excessive
or
if
the
dust
cover
is
cracked
Further
infor
mation
can
be
found
in
the
section
FRONT
SUSPENSION
See
also
Figs
K
21
and
K
22
STEERING
LINKAGE
Assembly
and
Installation
Assembly
is
a
reversal
of
the
removal
procedure
noting
the
following
points
To
assembly
the
idler
arm
assembly
coat
the
outer
dia
meter
of
the
bushing
with
soapy
water
and
press
the
bushing
into
the
idler
arm
until
the
bushing
protrudes
equally
at
both
sides
Fit
the
idler
arm
body
in
the
rubber
bushing
Ensure
that
the
centre
line
of
the
idler
arm
is
parallel
with
the
centre
line
of
the
chassis
Installation
is
a
reversal
of
the
removal
procedure
The
outer
tie
rods
must
be
set
so
that
the
lengths
between
the
ball
stud
centres
are
309
5
mm
12
18
in
for
the
1400
and
1600cc
models
and
313
2
mm
12
33
in
for
the
1800cc
models
Tighten
the
ball
stud
nut
to
a
torque
reading
of
5
5
7
6
kgm
39
8
55Ib
ft
the
idler
ann
nut
to
5
5
7
6
kgm
39
8
55Ib
ft
and
the
pitman
arm
nut
to
14
kgm
lOllb
ft
The
front
wheel
alignment
toe
in
and
steering
angle
should
be
checked
and
adjusted
as
described
in
the
section
FRONT
SUSPENSION
TechnIcal
Data
Steering
type
Gear
ratio
Steering
angle
Inner
wheel
l800cc
Outer
wheel
1800
cc
Inner
wheel
1400
and
1600cc
Saloon
1400
and
1600cc
Estate
Outer
wheel
1400
and
1600cc
Saloon
1400
and
1600cc
Estate
Steering
wheel
play
1400
and
1600cc
Steering
wheel
play
1800cc
Standard
total
thickness
of
worm
bearing
shims
End
play
between
sector
shaft
and
adjusting
screw
Initial
turning
torque
of
worm
bearing
l800cc
models
1400
and
1600cc
models
Worm
and
recirculating
ball
15
0
I
370
380
30040
32040
380
380
30
31020
330
25
30mm
0
98
1
18
in
less
than
35mm
1
378
in
at
outer
rim
of
steering
wheel
1
5
mm
0
059
in
0
0
I
0
03mm
0
0004
0
0012
in
4
0
6
0
kg
cm
55
6
83
4
in
oz
4
0
8
0
kg
cm
55
6
112
in
oz
97
Page 154 of 171
Accelerator
pump
Piston
diameter
Pump
discharge
Outer
hole
position
Middle
hole
position
Inner
hole
position
Pump
nozzle
diameter
Main
nozzle
diameter
Primary
Secondary
14
0
mm
0
551
in
0
2
cc
per
stroke
0
4
cc
per
stroke
0
6
cc
per
stroke
0
5
mm
0
020
in
2
3
mm
0
0906
in
2
8
mm
0
110
in
Throttle
valve
fully
closed
angle
Primary
10
degrees
Secondary
20
degrees
Idling
opening
5
degrees
approx
Choke
valve
fully
closed
angle
10
degrees
Throttle
opening
at
full
choke
13
5
degrees
FUEL
PUMP
Type
Delivery
Electric
1400
cc
in
one
minute
Emission
control
system
Air
pump
bracket
to
cylinder
head
nut
Adjusting
bar
to
bracket
bolt
Air
pump
to
bracket
bolt
Air
pump
to
adjusting
bar
nut
Anti
backfrre
bracket
to
rocker
cover
0
4Q
0
65
kgm
2
94
7
lb
ft
Anti
backfire
valve
to
bracket
0
4Q
O
65
kgm
2
94
7
lb
ft
Sensing
hose
clamp
to
rocker
cover
0
4Q
0
65
kgm
2
M
7
Ib
ft
Air
gallery
to
exhaust
manifold
plug
5
Q
6
0
kgm
36
243
4lb
ft
Check
valve
to
air
gallery
9
0
10
5
kgm
65
1
75
9Ib
ft
1
6
2
4
kgm
I
1
6
17
4Ib
ft
1
6
2
4
kgm
I
1
6
17
4Ib
ft
1
6
2
4
kgm
I
1
6
17
4
lb
ft
1
6
2
4
kgm
11
6
17
4Ib
ft
Front
SuspensIon
SteerIng
Description
Steering
Maintenance
Wheel
hub
and
bearing
Stabilizer
Spring
and
strut
assembly
Transverse
link
and
lower
ball
joint
Suspension
member
Front
wheel
alignment
Steering
wheel
and
column
Rack
and
pinion
and
tie
rod
Collapsible
steering
DESCRIPTION
The
front
suspension
is
of
the
strut
type
with
the
coil
spring
and
hydraulic
damper
units
mounted
on
the
crossmember
and
transverse
link
assembly
See
Fig
C
I
Vertical
movement
of
the
suspension
is
controlled
by
the
strut
assembly
Forward
and
rearward
movement
is
absorbed
by
compression
rods
6
and
side
movement
controlled
by
the
transverse
links
Front
suspension
servicing
procedures
are
similar
to
those
given
for
vehicle
fitted
with
L14
Ll6
and
LIB
engines
and
can
be
carried
out
by
reference
to
the
instructions
given
in
the
appropriate
section
Camber
and
castor
angles
are
preset
and
cannot
be
adjusted
and
a
check
must
be
made
for
signs
of
damage
to
the
suspension
system
if
the
angles
do
not
confonn
to
the
figures
given
in
Technical
Data
The
steering
is
of
the
direct
acting
rack
and
pinion
type
See
Fig
C
2
A
rubber
coupling
which
absorbs
vibration
and
two
universal
join
ts
are
incorpora
ted
between
the
steering
wheel
and
gear
assembly
The
collapsible
type
of
steering
column
assembly
Fig
C3
is
an
optional
fitting
A
full
description
of
this
type
of
assembly
i
given
in
the
Steering
section
for
L14
L16
and
L18
engines
STEERING
Maintenance
The
steering
system
should
be
lubricated
every
two
years
or
50
000
km
30
000
miles
whichever
comes
fIrst
A
lithium
base
multipurpose
grease
must
be
used
for
the
rack
and
pinion
and
rack
and
tie
rod
joints
The
plug
on
the
steering
gear
housing
should
be
removed
and
a
grease
nipple
fitted
so
that
the
recommended
quantity
of
10
to
15
gram
0
35
to
0
53
oz
of
grease
can
be
injected
Remove
the
grease
nipple
and
replace
the
plug
when
lubrication
is
completed
The
grease
reservoir
on
the
tube
side
should
be
replenished
when
the
level
of
grease
falls
to
approximately
one
third
ofits
capacity
WHEEL
HUB
AND
BEARING
Removal
and
Installation
Wheel
hub
and
bearing
servicing
procedures
are
similar
to
those
previously
given
for
vehicles
fitted
with
L14
LI6
and
LIB
engines
S23
Page 156 of 171
Remove
the
road
wheel
and
disconnect
the
brake
hose
at
the
connector
as
shown
in
Fig
C
4
of
this
section
Remove
the
brake
calliper
assembly
and
hub
cap
Withdraw
the
cotter
pin
and
remove
the
wheel
bearing
locknut
Remove
the
wheel
bearing
washer
and
take
off
the
hub
and
brake
disc
Fig
C
5
Remove
the
bearing
collar
take
out
the
outer
bearing
cage
and
prise
out
the
hub
grease
seal
Remove
the
inner
bearing
cage
and
drive
out
the
outer
races
of
the
inner
and
outer
bearings
using
the
special
drift
ST49120000
if
avail
able
Separate
the
brake
disc
from
the
hub
by
taking
out
the
retaining
bolts
as
shown
in
Fig
C
6
Installation
is
a
reversal
of
the
removal
procedure
Adjust
the
wheel
bearings
as
previously
described
taking
care
to
tighten
the
wheel
bearing
locknut
to
the
specified
torque
read
ing
of
3
0
to
3
5
kgm
21
7
to
25
3lb
ft
Turn
the
hub
several
times
to
settle
the
bearing
then
retighten
the
nut
to
the
same
figure
Slacken
the
locknut
by
a
quarter
turn
900
and
insert
the
cotter
pin
when
the
hole
in
the
spindle
is
aligned
with
the
hole
in
the
nut
Check
that
the
force
required
to
turn
the
hub
is
less
than
7
0
kg
cm
97
2
in
oz
STABILIZER
Removal
and
Installation
Remove
the
splash
board
and
take
off
the
bolts
I
in
Fig
C
7
which
attach
the
stabilizer
at
the
transverse
link
sides
Remove
the
bolts
attaching
the
stabilizer
bracket
2
to
the
frame
then
withdraw
the
stabilizer
Check
the
bar
and
rubber
components
for
signs
of
deforma
tion
or
damage
and
renew
as
necessary
Installation
is
a
reversal
of
the
removal
procedures
Tighten
the
fixing
bolts
to
a
torque
reading
of
1
2
to
I
7
kgm
8
7
to
12
3
lb
ft
at
the
transverse
link
side
and
1
9
to
2
5
kgm
13
7
to
18
llb
ft
at
the
frame
bracket
SPRING
AND
STRUT
ASSEMBLY
The
spring
and
strut
assembly
can
be
serviced
by
following
the
instructions
previously
given
for
the
assemblies
on
vehicles
fitted
with
the
L14
L16
and
Ll8engines
When
reassembling
make
sure
that
the
parts
shown
in
Fig
C
8
are
thomughly
greased
Installation
of
the
assembly
will
be
accomplished
more
easily
if
the
dust
cover
on
the
bonnet
ledge
is
removed
Tighten
the
nuts
and
bolts
to
a
torque
figures
given
in
TIGHTENING
TORQUES
TRANSVERSE
LINK
AND
LOWER
BALL
JOINT
The
transverse
link
and
lower
ball
joint
can
be
removed
in
a
similar
manner
to
the
parts
on
vehicles
fitted
with
L
14
L
16
and
L
18
engines
Renew
the
link
if
cracked
or
damaged
in
any
way
Check
the
measurement
A
in
Fig
C
9
The
measurement
between
front
and
rear
transverse
link
bushes
should
be
less
than
1
0
mm
0
039
in
Replace
the
bushes
if
necessary
The
lower
ball
joint
should
be
replaced
if
the
axial
play
of
the
joint
exceeds
0
03
to
0
6
mm
0
0012
to
0
0136
in
A
grease
nipple
must
be
installed
in
place
of
the
ball
joint
plug
so
that
the
joint
can
be
lubricated
with
multi
purpose
grease
as
previously
described
SUSPENSION
MEMBER
Removing
and
Installing
Jack
up
the
vehicle
and
support
it
on
stands
2
Remove
the
splash
board
Refer
to
Fig
C
I
0
and
detach
the
compression
rod
I
the
stabilizer
2
from
the
trans
verse
link
3
Detach
the
steering
linkage
from
the
suspen
sion
crossmember
4
3
Take
out
the
nuts
attaching
the
transverse
links
and
remove
the
links
at
both
sides
of
the
vehicle
4
Support
the
engine
with
a
hoist
as
shown
in
Fig
C
II
taking
care
not
to
damage
the
throttle
and
remote
control
linkages
and
then
remove
the
engine
mounting
bolts
at
both
sides
5
Remove
the
bolts
shown
arrowed
in
Fig
C
12
and
lift
the
suspension
member
away
Renew
the
suspension
member
if
it
is
cracked
or
deformed
in
any
way
Installation
is
a
reversal
of
the
removal
procedure
FRONT
WHEEL
ALIGNMENT
As
previously
stated
the
castor
and
camber
angles
are
preset
and
cannot
be
adjusted
A
thorough
check
should
be
made
of
the
steering
and
suspension
system
and
all
defective
parts
renewed
if
the
angles
are
incorrect
See
Technical
Data
The
front
wheels
should
toe
in
12
to
15
mm
0
4
7
to
0
59
in
Adjustment
can
be
carried
out
by
slackening
the
locknuts
1
in
Fig
C
13
and
then
turning
the
tie
rods
by
an
equal
amount
until
the
correct
toe
in
is
achieved
A
toe
in
gauge
will
of
course
be
required
for
this
operation
STEERING
WHEEL
AND
COLUMN
Removal
Disconnect
the
horn
wire
and
remove
the
horn
bar
Remove
the
steering
wheel
nut
and
pull
off
the
steering
wheel
2
Remove
the
turn
signal
and
lighting
switch
assembly
followed
by
the
steering
column
shell
covers
3
Remove
the
bolts
from
the
rubber
coupling
to
disconnect
the
lower
joint
See
Figs
C
14
and
C
I
5
if
the
car
is
fitted
with
right
hand
drive
The
lower
joint
upper
bolt
should
be
removed
to
disconnect
the
joint
if
the
car
is
fitted
with
left
hand
drive
4
Remove
the
cotter
pin
from
the
trunnion
and
disconnect
the
gearchange
rod
and
selector
rod
5
Remove
the
steering
column
upper
clamp
and
take
out
the
bolts
securing
the
lower
plate
STEERING
COLUMN
Dismantling
and
Assembling
Remove
the
C
washer
socket
screw
and
upper
bracket
bolt
Remove
the
lower
bracket
bolts
and
detach
the
remote
control
linkage
from
the
column
assembly
Remove
the
snap
ring
at
the
top
of
the
column
and
extract
the
column
shaft
from
the
jacket
Disconnect
the
rubber
coupling
from
the
lower
joint
then
remove
the
snap
ring
and
dismantle
the
lower
joint
S25
Page 160 of 171
Tighten
the
inner
socket
until
the
ball
seat
is
at
the
rack
end
then
back
off
the
socket
by
30
to
40
degrees
and
tighten
the
stop
nut
to
a
torque
reading
of
8
0
to
10
0
kgm
57
8
to
72
3
Ib
ft
as
shown
in
Fig
C
25
With
the
tie
rod
assembled
measure
the
force
required
to
swing
the
tie
rod
Hook
a
spring
balance
at
the
end
of
the
rod
as
shown
in
Fig
C
26
and
check
that
the
force
is
from
3
0
to
6
0
kgm
6
6
to
13
2
lb
Measure
the
stroke
of
the
rack
which
should
be
73
0
mm
2
874
in
Fit
grease
nipples
at
both
ends
of
the
rack
and
pinion
housing
Apply
multipurpose
ase
to
each
joint
until
a
small
quantity
of
grease
appears
at
the
out
let
hole
in
the
boot
Do
not
use
an
excessive
amount
of
grease
The
pinion
housing
should
be
lubricated
until
a
small
quantity
of
grease
appears
between
rack
and
housing
Remove
the
grease
nipple
and
fit
the
plug
Fit
the
boot
Fill
the
grease
reseIVoir
with
grease
and
attach
it
to
the
rack
housing
Adjust
the
length
of
the
tie
rods
at
both
sides
as
des
ribed
under
FRONT
WHEEL
ALIGNMENT
Assemble
the
steering
lower
joint
to
the
rack
and
pinion
and
tighten
the
lower
joint
bolt
to
a
torque
reading
of
4
0
to
5
0
kgm
29
0
to
36
0
Ib
ft
Installation
of
the
rack
and
pinion
assembly
is
a
reversal
of
the
removal
procedure
COLLAPSIBLE
STEERING
Removi
8
and
Dismantti
8
The
steering
coluJllfl
See
Fig
C
3
can
be
removed
in
a
similar
manner
to
the
standard
type
of
column
Take
care
not
to
drop
the
column
when
it
is
removed
from
the
vehicle
or
the
shaft
may
collapse
Do
not
exert
any
pressure
on
the
column
or
the
bellows
may
be
defonned
To
dismantle
proceed
as
follows
Remove
the
retaining
wire
and
pull
out
the
lower
shaft
Disconnect
the
control
linkage
if
the
vehicle
is
fitted
with
auto
matic
transmission
Slide
the
steering
shaft
bracket
away
With
draw
the
screws
and
separate
the
upper
and
lower
tubes
Assembly
is
a
reversal
of
the
dismantling
procedure
Note
that
the
slot
in
the
universal
joint
must
be
aligned
with
the
punch
mark
at
the
top
of
the
upper
steering
shaft
as
shown
in
Fig
C
28
When
installing
the
column
make
sure
that
the
bellows
do
not
become
bent
of
twisted
as
the
clamp
and
bottom
plate
bolts
are
tightened
TechnICal
Data
TYP
Gear
I1ltio
Rack
and
pinion
17
8
I
Steerin
column
shaft
spring
Wire
diameter
Freelenath
CoiltW
llJ
Load
length
Retainer
sprinJ
dimension
Wire
diameter
F
CoilturnJ
l
oadxlensth
Side
rod
SPrina
dimeruion
Wire
diameter
Fn
elenath
Coil
turns
Load
x
lensth
Side
rod
inner
ball
joint
ax
ia
I
play
Side
rod
outer
ball
joint
uiaJ
play
Pinion
thrultplay
Retainer
float
play
Rack
moke
Side
rod
inner
ball
joint
swinsinl
torque
Side
rod
uter
ball
joint
swingina
torque
Pinion
oration
torque
Rack
pre1
d
Wheel
alipment
1IIl1a
a
ondition
Cut
c
m
Kinl
pin
inclination
Toe
in
S
In
teerinlan
eOut
10
40
8005
12
15
mm
0
47
0
59
in
38024
35036
2
9
mm
0
11
2
in
36
5
mm
1
4370
in
3
25q
551
18mm
0
7087
2
6
mm
1
102in
26
3
mm
1
035
in
5
5
20
kl
lbs
16
3
mm
0
642
in
26
mm
0
102
in
19
0
mm
0
748
in
6
3
40
q
88Ibs
17
0
mm
0
669
in
0
06
mm
0
002
m
0
1
0
5
mm
0
0039
0
0197
in
less
than
0
3
mm
0
0118
in
0
09
mm
0
0035
in
73
mm
t
2
87
in
0
8
1
5
q
m
5
8
10
8Ib
n
0
8
J
S
kg
m
5
8
JO
8Ib
ft
8
20q
7
17
lb
in
8
18
q
l7
6
39
7Ibs
Strut
DlelDbly
Strut
outer
Ilia
50
8
mm
2
0
in
Piston
rod
di
a
20
mm
0
787
in
Cylinder
inner
dia
30mm
I
181
in
Dampinl
force
at
pistonlpeed
0
3
m
I
1
08
ft
I
Expansion
67
IOq
I47
7
221bs
Compression
25
4kl
55
1
8
81bs
Shock
absorber
inner
cylinderlcngth
IOmm
16
1
in
R
IlD
vchicle
LH
D
ehide
CoiIsprina
LIi
IlIi
OOIh
Wire
diameter
mm
in
12
0
472
12
0
472
12
0
472
Coil
diameter
mm
in
130
5
12
130
5
12
130
5
12
Coil
Ium
S
Coil
effective
turnl
6
5
6
5
6
5
Free
lenJth
mm
in
371
5
14
6
386
5
15
2
371
5
14
6
Installed
hei
ht
load
mmq
180
270
200
270
180
270
in
lb
7
1
594
7
9
594
7
1
594
SpriDgCOfl
ltant
ka
mm
1
45
US
1
45
529
1