1990 MITSUBISHI ECLIPSE Service Manual

1
1746REAR SUSPENSION - Double Wishbone Suspension
STABILIZER
The stabilizer bar is a 20 mm
I.79 in.) solid bar. This
bar and link are joined by a pillow ball type ball joint*
to improve stabilizer effect.
* Pillow ball joint: Ball joint that is not preloaded
12A0009
!!IStabilizer rubberStabiliz&
barCrossmemberz
\Lower arm
12A0087

19-I
POWER
_
GENERAL INFORMATION
.._ . . . . .
OIL PUMP ........................................................10POWER STEERING GEAR BOX

19-2 POWER STEERING
Rlh
integral rack and pinion type. This power steering
oear and the oil reservoir for effective cooling of
Fhe power steering fluid.The steering gear box is of a compact, light-weight

Steering
SYJo& assembly
oil pump
\Pressure hose
A

POWER STEERING- General Information19-3
SPEClFlCATlONSItems
Steering wheel O.D.
mm (in.)Steering wheel maximum turns
Shaft and joint type
Steering angleInner wheel
Outer wheel
Tilt strokemm
(in.1Steering gear type
Rack strokemm (in.)Oil pump type
Oil pump displacement
cm3/rev. (cu.in./rev.)Specifications
372
(14.6)
2.7
Collapsible, cross joints (two joints used)
35”OO’ + 2”
29”20’
30
(1.2)
Rack and pinion
138
(5.41
Vane type9.6
l.59)

19-4POWER STEERING - Tilt Steering Construction
TILT STEERING CONSTRUCTIONRlW
The tilt-steering mechanism is composed of the tilt
lever, tilt bracket, a plate, tilt bolts, etc. A tilt screw
is welded to the end of the tilt lever; at the two
ends, the left side of the tilt screw is right-threadedand the other is left-threaded. with the result that
the tilt bracket is sandwiched by the tilt bolts and
the plate part of the column when the tilt lever is
raised, thus securing the steering column.
13A0254Tilt bracket
Section A-A.
’Tilt screwfi Tilt lever13AO256
OPERATION OF THE TILT STEERING1. When the tilt lever is lowered to the free
position, the tilt screw turns in the direction of
ioosing, the tilt bolts that sandwiched the tilt
bracket move toward the outer side, and the
steering column sliding is then possible.
2.When the tilt lever is raised to the lock position,
the tilt screw turns in the direction of tightening
the tilt bolts move to the inner side, the
*“?bracket is pressed against the column’s
pi&and the steering column is secured.

.-. --POWER STEERING
- Power Steering Gear Box Construction19-5
-POWER STEERING GEAR BOX CONSTRUCTIONRlsJLIIUB,
ne steering gear box is of the rack and pinion type
with a built-in hydraulic control unit which uses a
compact and highly reliable rotary valve.The steering gear box, in the same way as the
manual steering gear box, is installed to the body by
way of the mounting rubber in order to reduce the
transmission of vibrations.
Section A-A
Beari
1-$ysy input shaft
To oilreservoir
LFrom oil
I’Rotary valve
Yoke spring
13A0257
Section B-B
From oil pumpTo oil reservoir
To cylinder tubeleft chamber
To cylinder tube
13A0077right chamber

19-6POWER STEERING- Pinion and Valve Assembly Construction
PINION AND VALVE ASSEMBLY
CONSTRUCTION
RISKAMThe pinion and valve assembly is composed of the
input shaft, torsion bar, pinion gear and rotary valve.torsion bar, the pinion gear is provided with a
stopper. Note that this stopper also functions to
The input shaft is hollow and incorporates the
fa&tate the transmission 6i the turning effort of
torsion bar within it; the upper end is secured bythe steering wheel directly to the pinion gear by
a pin to the torsion bar, and the lower end is heldthe input shaft in the event of a malfunction of
by the bushing within the pinion gear.the hydraulic system (such as breakage of the oil
The torsion bar is coupled to the pinion gear bypump’s V-belt, fluid leakage, etc.).
the serrated part at the lower end.
lThe rotary valve is attached to the pinion gear by
In order to prevent excessive torsion of thea dowel pin.
Torsion barPm13AOO76Dowel
Section A-A
Input shaft\Torsion barpin’Stopper
/Rotary valvePinion gear1310202

:POWER STEERING
- Pinion and Valve Assembly Construction19-7 ’fOPERATION OF THE PINION AND VALVE
fi %EMBLYdulation of the hydraulic pressure applied to the
power cylinder is performed by the input shaft and
the rotary valve.
The concave and convex parts at the input shaft
surface and the rotary valve inner surface, due to
the rotational difference, function to either constrict
or expand the fluid passageway (by varying the
aperture surface area of the fluid passageway), and,
as a result, thereby regulating the hydraulic pressure
of the hydraulic circuit from the oil pump to the
cylinder tube left chamber or right chamber and
from the cylinder tube right chamber or left chamber
to the oil reservoir.
WHEN THE STEERING WHEEL IS TURNED TOTHE
RIGHTWhen the steering wheel is turned to the right, the
Port b\
Port a\Pond’
Ltorsion bar is. as shown in the illustration, caused to
torque in the direction of turning to the right, with
the result that the input shaft rotates by the
corresponding amount to the right, and a rotational
difference between the input shaft and rotary valve
develops. The concave and convex parts of the
input shaft and rotary valve cause oil passageways
R’ and L to become constricted, with the result that,
for the fluid sent from the oil pump, the flow of fluid
is stopped from port “a” to port “d” and port “c”.
When this happens, the fluid flows from the oil
pump to sleeve “a”,port “a”, port “b” and sleeve
‘lb”, and is sent to the cylinder tube right chamber,
thus causing the generation of a force to move the
rack in the leftward direction, thereby assisting the
steering effort of the steering wheel. At the same
time, the cylinder tube left chamber fluid flows
through sleeve “c”, port “c”, port “d” and chamber
“A”, and is returned to the oil reservoir.
Port c
Oil pumpOil ryetvoir
From the leftcylinder tubeChamber “A”
Torsion bar Port
b
//II YPO< aPond
4Cylinder tube
left chamberCylinder tube
right chamber