2012 SSANGYONG RODIUS torque

01-173650-01
▶5th Gear (0.830)
Torque converter lockup clutch
Engine speed
Transmission, input shaft
1st gear ratio 16.
A.
B.
C.
D.2nd gear ratio
3rd gear ratio
Mounting elements
Rear planetary gear set
Stator E.
F.
H.
L.Center planetary gear set
Impeller
Turbine wheel
Front planetary gear set M.
P.
T.
V
Input shaft: Clockwise rotation
Front sun gear: Locked, Planetary gear carrier: Rotation with reduced speed
Rear planetary gear carrier: Clockwise rotation with reduced speed
Center ring gear and rear planetary gear carrier: Clockwise rotation by clutch C2 activation
Rear sun gear: Clockwise rotation because rear planetary gear carrier rotates faster than
rear ring gear (increasedspeed)
Center sun gear: Clockwise rotation with increased speed by C3 activation
Center planetary gear carrier: Clockwise rotation (increased speed)
Output shaft: Clockwise rotation (increased speed) -
-
-
-
-
-
-
-
Gear C1 C2 C3 B1 B2 B3 F1 F2
5 ● ● ● ●
3)
3) Overrun

01-18
▶Reverse 1st Gear (3.167)
Torque converter lockup clutch
Engine speed
Transmission, input shaft
1st gear ratio
2nd gear ratio 16.
A.
B.
C.
D.Mounting elements
Mounting elements
Rear planetary gear set
Stator E.
F.
H.
L.Center planetary gear set
Impeller
Turbine wheel
Front planetary gear set M.
P.
T.
V.
Input shaft: Clockwise rotation
Front ring gear: Clockwise rotation
Front sun gear: Locked by one-way clutch F1
Front planetary gear carrier: Clockwise rotation (reduced speed)
Rear planetary gear ring gear: Clockwise rotation
Rear planetary gear carrier: Locked by B3
Rear sun gear and center sun gear: Counterclockwise rotation (increased speed)
Center ring gear: Locked by B3
Center planetary gear carrier: Counterclockwise rotation (reduced speed)
Output shaft: Counterclockwise rotation -
-
-
-
-
-
-
-
-
-
Gear C1 C2 C3 B1 B2 B3 F1 F2
R (S) ● ● ● ●
3)
3) Overrun

01-193650-01
▶Reverse 2nd Gear (1.926)
Torque converter lockup clutch
Engine speed
Transmission, input shaft
1st gear ratio 16.
A.
B.
C.2nd gear ratio
Mounting elements
Rear planetary gear set
Stator D.
E.
H.
L.Center planetary gear set
Impeller
Turbine wheel
Front planetary gear set M.
P.
T.
V.
Input shaft: Clockwise rotation
Front ring gear: Clockwise rotation
Front planetary gear carrier: Clockwise rotation by clutch C1 activation (direct connection)
Rear ring gear: Clockwise rotation
Rear planetary gear carrier and center ring gear: Locked by brake B3
Rear sun gear and center sun gear: Counterclockwise rotation (increased speed)
Center planetary gear carrier: Counterclockwise rotation (reduced speed)
Output shaft: Counterclockwise rotation -
-
-
-
-
-
-
-
Gear C1 C2 C3 B1 B2 B3 F1 F2
R (W) ● ● ●

02-73170-01
4. TIGHTENING TORQUE
Part nameTightening torque
(Nm)Numbers
Adhesive
1. Seal bolt (rolling plunger and guide spring) 53.9~67.6 1EA Loctite
2. Guide bolt 14.7~21.5 1EA Loctite
3. Pocket ball bearing bolt 29.4~41.1 1EA Loctite
4. Reverse shift fork retainer bolt 53.9~67.6 2EA Loctite
5. Backup lamp switch 29.4~34.3 1EA Loctite
6. Oil drain plug 58.8~78.4 1EA Loctite
7. Interlock bolt 14.7~21.5 1EA -
8. Neutral switch 29.4~34.3 1EA Loctite
9. Oil filler plug 58.8~78.4 1EA Loctite
10. Extension housing 42.1~53.9 12EA -
11. Concentric slave cylinder bolt 9.8~15.6 3EA -
12. Front bearing retainer bolt 19.6~24.5 8EA Loctite

03-53010-00
3. INSPECTION
Pedal stroke and height ▶
Pedal stroke (A) A.
Stop the engine.
Measure the current pedal position.
Depress the clutch pedal all the way and
measure the pedal stroke (A). 1)
2)
3)
Stroke (A)150 ± 3mm
Pedal height (B) B.
Stop the engine.
Remove the floor mat from the driver’s
footwall.
Measure the pedal height (B). 1)
2)
3)
Height (B)95.2 ± 3mm
Adjustment -
Release the lock nut (D) on stopper bolt (C).
Turn the stopper bolt to adjust the pedal
height.
Tighten the lock nut to the specified
tightening torque. 1)
2)
3)

03-6
Pedal free play ▶
Pedal free play (A) A.
Stop the engine.
Measure the current pedal position.
Lightly depress the clutch pedal until you
feel the resistancefrom the pedal and
measure the distance. 1)
2)
3)
Free play (A)5~15 mm
Adjustment -
Release the lock nut (B) from the master
cylinder.
Turn the push rod (C) to adjust the pedal
free play.
Tighten the lock nut to the specified
tightening torque. 1)
2)
3)

03-113010-00
3. DUAL MASS FLYWHEEL (DMF)
The dual mass flywheel (DMF) is of having a mass divided into two halves.
While one mass is connected to the engine crankshaft, which is affected by the mass moment of
inertia of the engine, the other mass is affected by one of the transmission.
The divided dual masses are connected to the coil spring and damping system internally.
The DMF has the following benefits: ▶
Reducing fuel consumption by lowering engine speed
Reducing rattling noise and vehicle vibration in all driving ranges
Reducing synchronization wear
Facilitating gear change
Protecting power train parts by preventing excessive load from being delivered -
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-
-
-
Primary flywheel
Secondary flywheel
Arc damper spring
Torque limiter
Ring gear 1.
2.
3.
4.
5.

06-53310-01
1. OVERVIEW
The propeller shaft transfers the power through the transmission and transfer case to the
front/rear axle differential carrier (final reduction gear). It is manufactured by a thin rounded steel
pipe to have the strong resisting force against the torsion and bending. Both ends of propeller
shaft are connected to the spider and the center of propeller shaft is connected to the spline to
accommodate the changes of the height and length. The rubber bushing that covers the
intermediate bearing keeps the balance of rear propeller shaft and absorbs its vibration.
Function of propeller shaft ▶
Transmits driving torque.
Compensates the angle change (universal joint / CV joint).
Compensates the axial length change (splines for the slip joint). -
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-
4WD AT 2WD MT