turn Citroen CX 1985 1.G Owner's Guide

Downloaded from www.Manualslib.com manuals search engine 2: Fitting the alignment gauges :
a) Remove all hubcaps and the two detachable
rear wing panels.
b) Adjust the position of the magnetic feet
A so
that with supports in place, thr central help is
in the centre of the rim.
c ) Fix the projectors on supports ( tighten knurled
screw ) (finger tight only 1.
NOTE Great care should be taken in setting
up this equipment since the accuracy of the
tests depends on its correct adjustment
Connect projectors to on appropriate electricity
SUPPlY.
3. Obtaining S( straight line )I steering position :
IMPORTANT In order that the following checks
should be accurate, the zero setting of the turn-
tables must correspond exactly to the strnifih/
liwv position of the vehicle.
a) Place the magnetic supports C of the graduated
rule forward to its maximum extent against its
stop.
b) With the engine idling, set the manual control
to ,KJWRl n,n,,ir,ji posili, ,,,.
Check measurements Ll and L2.
c)
Removr turntable locking pins E.
Focus beams on grotuoted rules so that illu-
minated index is clearly shown on graduations.
A) Vebirlc,s wilh v~aeunl slvvrin,~
Take the reading shown for each side of the
vehicle.
Line up the zero mark of the graduated
sections
F opposite the fixed mark << a n on
each turntable.
Lock the selectors with screws G.
Remove projectors.
( Leave projector brackets in place ).

Downloaded from www.Manualslib.com manuals search engine Op. MA. 410.0 3
The steering should return to the (( straight ahead n
position of its own accord. In this position, check that the following !wo
conditions me met.
1 ) That it is possible to insert pin A (dia =6.5mm)
into the control pinion (rwrrr poiat oi rack J
2) That the values indicated on the rear graduated
rules B ore identical.
1st case : The pin cannot be inserted :
- Slackenvscrews ( -c) and operate eccentric
i 1 i until pin inserts.
NOTE In the case where the eccentric travel
is insufficient :
- Place eccentric ot the centre of its travel.
- Slacken screws (2 ) and rotate steering shaft(!)
until pin inserts.
In the case where this last operation is unsuccess-
ful, it is necessary to move the steering clamp on
the rock control pinion.
2nd case : The values indicated on rear gradu-
ated rules ore different :
- Slacken collars ( 4) and use one of the
sleeves ( 5 1 to obtain an identical value
on Path rear graduated rules 6.
- Bring the Z~IO of graduated sections C
opposite fixed mark <( a )I of each turntable.
- Lock the graduated sections in place using screws D.

Downloaded from www.Manualslib.com manuals search engine III. CHECKING THE CAMBER ANGLE
NOTE : The camber angle is not adjustable.
1. Prepare vehicle and set in position f src chapfrrs
I and 2 ).
2. Setting up checking apparatus :
Place the apparatus on the magnetic support of the
wheel to be checked.
Use the axis corresponding to the blue mmu A..
Keep the level in a horizontal position. Tighten
locking screw ( 1).
3. Checking the comber angle :
IMPORTANT : Check that the reading Ll has not
changed ( SC<’ rhnprcr I ).
a) Turn the disc (2 ) until the fixed spirit-level
bubble (3 1 is centred.
b) Note in blur scnle (at o a n ) the reading of the
comber rmqle.
c ) Carry out the same operation on the other
wheel.
Comber angle must be between 0’ + 13’ - 29’
IV. CHECKING AND ADJUSTING THE,CASTOR ANGLE
IMPORTANT : For precise results from this check
it is imperative to set the vehicle heights as follows :
165 mm a+ front and 215 mm at rear f Salooss) or
228 mm ( Esfafes ).
1. Setting the vehicle height :
a) Check measurements Ll and L2 f see chapter I ).
b ) Release pressure in suspension system.
2. Setting control opportus :
3. Checking castor angle :
Place the apparatus on the magnetic bracket of
the wheel to be checked using the axis corres-
ponding to grren (ITTOII’ H.
a) Turn wheels 20’ outwards : to the left for the
left-hand wheel and to the right for the right-
hand wheel.
Keeping the apparatus horizontal tighten locking
screw ( 1).
b) Turn the disc ( 4) until the zaro mark is opposite
arrow (at I( b n 1.
c) Turn knurled knob ( 5) until spirit-level
bubble (6) is centred.

Downloaded from www.Manualslib.com manuals search engine 4 Turn the wheels 20’ inwards.
Set apparatus back to horizontal position.
Resentre spirit-level bubble ( 2) by turning disc(l).
Read off castor angle on RWCJ,J scnlr (at a a )) ).
Castor angle must be
between 0’25’ and 1015
O”erall.
If not, adjust castor angle
Adiusting castor angle :
IMPORTANT NOTE :
To carry out this adjustment it is essential to
use tool 6312 T class 2 which is required for fitting
lower wheelorm on front axle.
a) Remove :
wheel,
lower arm and castor angle adjusting shims (3 )
b)
Determining distribution of shims :
NOTES :
A minimum of 1 shim should be set on each
side of the wheelarm.
- Movement of
1 mm will vary castor angle by
15’.
Total thickness of shims fitted must corres-
pond to the total thickness of shims found on
dismantling, in order to maintain the correct
assembly of the wheelarm in axle unit.
c) Fit:
Lower wheelarm and shims (3 ).
Tightening torque on wheelarm spindle nut (4)
130 mc\U ( 13 m.kg ) (94 ft.lb).
wheel
d) Check castor angle.

Downloaded from www.Manualslib.com manuals search engine V. CHECKING THE ALIGNMENT OF THE FRONT WHEELS
( Front wheel toe-in )
1. Prrpnmtion oi whirlr~. Positior,
whirls. set /he s,rering 10 Ihv straight line positim~( see chapters I and II )
IMPORTANT NOTE
When the steering has been set in I( straight line >) position, (the marks in line with zero
on the sectors of the turntables
1 steering wheel and front wheels must not be touched throughout the whole of
the testing operation.
2. Check readings Ll and L2 ( see chapter I ).
3. Adjust the length of the telescopic rods approximately according to the front track of the vehicle, both rods
being of the some length.
IMPORTANT : Place the rods on either side of front axle so that they are parallel to each other and perpendicular
to the longitudinal axis of the vehicle and the overall
distance between them is exactly 2.48 meters.
The rods need not necessarily be at equal distance from the axle but the spacing between them is essential.
4.
To make the test :
Pivot one of the two projectors towards the front rod hnd read off on the graduated rule thr value indicated by the
luminous mark. Then pivot projector towards the rear rod and move this laterally until the snne reading is obtained
as for the front rod.
Repeat this operation with the other projector, pivotting it successively towards the rear rod and then towards
the front
rod and each time note the readings indicated by the luminous mark.
The reading shown on the rem alignment rod should be 1 to 4 graduations greater than the reading shown on the
front alignment rod which corresponds to a
toe-in between 1 to 4 mm.
NOTE Never adjust the lens between the two front and rear readings.
13 165

Downloaded from www.Manualslib.com manuals search engine OPERATION No MA. 410-O : I hvr-6iq n,,d od;n.s/isg /hc /~,a, nrle uei/ Op. MA. 410-O 7
’ 15b20° 5. Adiust the wheel alignment :
\‘chirl‘,s II ilh mw,r,ol s/wrh,i: :
Slacken locknuts (2 ).
Rotate the ball-joint stems ( 1) a froctmn of a turn
at a time to obtain correct setting.
NOTE Rotate each stem the same’ amount.
- One complete rotation of each stem alters the
adjustment by 4 mm approximately. Tighten locknuts (2) from 3.6 to 4 daNm (26 to
29 ft.lb ).
Check the adjustment
IMPORTANT The length at (< a n of the visible
thread on the L.H. and R.H. trackrods ,,,r,s/ lx,
vq,,nl IO rrithin 2 ,,,7,,,
Slacken collars ( 3).
Turn sleeves (4) ~1 fraction of a turn at a time to
obtain correct setting.
NOTE Turn each
sleeve the same amount in order
to retain the oiiqnment with the rear axle unit.
I Son<, wcidisp on varh sidv o,, gmd,,lrrn/r,d rules A I
One complete turn of each sleeve alters the
adjustment by 7 mm.
Position the two collars ( 3) (IS indicated on
photograph. Ti.ghtening torque of screws - 0.9 daNm.
( 6 l/2 ft.lb ).

Downloaded from www.Manualslib.com manuals search engine Op. MA. 420.0 1
CHECKING THE REAR AXLE USING OPTICAL EQUIPMENT
NOTE For detailed instructions on the use of optical equipment see front axle checking operation (Op. MA. 410-O)
1. Checking’axle alignment :
L
(11 With the vehicle on the turntables (engine running and manual height control in normnl runniup position)
& ( turntables marks at zero 1, place a graduated plate ( 1 i on the vertical centreline of each front wheel.
-6
: b) Fit the projector unit on ca<-h rcnl uhccl.
I”
c i Swivel the projectors towards the graduated plate. Focus luminous index on graduations.
2 d ) Push the graduated plates against their stops ( 2 ).
The alignment of the
rear axle is correct when there is no difference in the reading between left-hcnd
52 and right-hand sides.
;
i 2. Checking wheel alignment :
n
2
“7
,Ploce the two aliqnmeht adjusting rods (3 ) on either side of the rear axle and proceed as for front wheels.
Alignment reading : Toe-in of rear wheels must be 1 to4mm

Downloaded from www.Manualslib.com manuals search engine STEERING COLUMN ( ‘11’ l’)‘o -1
L.44-21
Jl = J2 is obtuined by moving flange along steering
pinion
Steering co1
Clearance to be obtained between steering shaft and
mind spacer (4)
1 a
Rack and pinion steering :
- Wheel alignment ( toe-in of the wheels to the front, i/z, /bc~ rtot~/nl rlrir,ir/g posifiort I 1 tk) 4 mm
inside wheel 43’30’
1”
- Steering angle (Ilot djustahlc~ ) 0
outside wheel : 32’50’ i’
- Turning circle :
- CC between walls )) Il.80 m
I Snloo~2 s 12.70 m
.
(! Estntc’s
- CC between kerbs )I
. . . . . ..__.._........................................,.,.. 10.90.m 11.80 m
- Steering ratio, .-.......................-............................................................................................................ 24.5 : 1
REPAIRS :
The spring, on the flange side, can be fitted to a preSeptember 1976 vehicle,‘as long as the following are
also fitted -:
- the new steering shaft with spring centerinq guide
- the increased calibration spring ( 3 ) on the fixed support side
- the Delrin spacer (2) on its steel mounting plate. at the steering wheel end.

Downloaded from www.Manualslib.com manuals search engine II. POWER STEERING WITH POWERED RETURN
I. CHARACTERISTICS
Hydraulically operated rack and pinion steering Steering
ratio . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. 13 5 i
- No of steering wheel turns from lock to lock
. . . . . . . .._._.__................................................ 25
- Turning circle (( between walls ))
11 80m
(.S x00 OIlCi ( s .2x0 solooll.~
(( between kerbs )) 10 90 m t
/( between walls )) 12 70 m
I( between kerbs 1) 11 80 m t I’\/N/l’ N/id I’n~\lix”
- Wheel alignment ( toe-in of wheels to the front i (i/l //I( //r~rjj/rll c/r;/ ii/:: p, cilirJ/i 1 1 to 4 mm
STEERING AND HYDRAULIC RACK CONTROL ASSEMBLY
1. Steering-wheel
2. Anti-theft device
3. Control unit
4. Steering shoft
5. Coupling flonge
6. Eccentric for odjusting stroight line running
7. Clomp for coupling hydraulic pipes
Jl J2 obtoined by moving clomp (5) olo
STEERING COLUMN, AND HYDRAULIC CONTROL UNIT

Downloaded from www.Manualslib.com manuals search engine THIS STEERING SYSTEM HAS THREE DIFFERENT FUNCTIONS
- Power operation i rc,d/ic-/ici// 0 I .~/I c,r-i/lg-o /Io.c,/ c’//or/ /
Stiffeninq of the steerinq as a function of the speed of the vehicle f s////it-ic,r/t /<,(,I o/ 11~1 c/c,c~ri/t.cq r/~llc(,I I//JNI(,I or
lhc, 1 cjhicle spc,c~d )
1. Steering pinion 5. Piston seal
2. Rack housing 6. Rack
3. Sleeve 7. Rack plunger
4. Piston
I SECTION THROUGH RACK AND HYDRAULIC RACK CONTROL UNIT ( OPERATING CYLINDER )
SECTION THROUGH HYDRAULIC RACK CONTROL UNIT ( OPERATING CYLINDER )
a) Hydraulic rack control unit ( operating cylinder )
The rack is connected to the hydraulic control unit ( operating cylinder )
Assume S as the piston in chamber 1, and S/ 2
its surface ( ns dcjsiguvd iu c-hmvhc 1’ 2 J.
The steering is balanced when forces F and Fl exerted on each face of the piston are equal
therefore F = S x F =Fl +x HP
HP 1 operatinq pressure of hydraulic circuit f mist s l‘ront /hc r-r/-iit /I,,( s.5~1’~~ lo fhc cf4I-r)ul /~r~~.~.s~ir~~ J.
Movement of the rack ( therefore, power operation ) is ensured by a change in pressure inside chamber 1, such
as
I Return of fluid to the tank -HP / 2 decreases
- Inlet of fluid -HP/ 2 increases