SUZUKI SWIFT 2000 1.G RG413 Service Workshop Manual

3E-28 REAR SUSPENSION
16) Remove axle housing.
INSTALLATION
Install removed parts in reverse order of removal, noting the fol-
lowing.
1) Place rear axle housing on floor jack. Then install rear trail-
ing arm bolts (1) (right & left) in proper direction as shown. At
this time, mount nuts (2) but don’t tighten them.
2) Install coil springs (3) (right & left) on spring seat (2) of axle
housing (1) and raise axle housing.
3) Install lower part of shock absorber (1) to right and left sides
of axle housing and install bolts in proper direction as shown.
At this time, mount bolts (3) (right & left) but don’t tighten
them.
A : Vehicle out side
B : Vehicle center side
NOTE:
Upper and lower diameters of coil spring are different.
Bring lager diameter end at bottom and set its open end
in place on spring seat.
4. Stopped part
A : Upper side
2. Rear axle housing

REAR SUSPENSION 3E-29
4) Install lateral rod (1) and install bolt (3) in proper direction as
shown. At this time, mount bolt and nut (4) but don’t tighten
them.
5) Clean mating surfaces of axle housing (1) and differential
carrier and apply sealant to housing side.
“A” : Sealant 99000-31110
6) Install differential carrier assembly to axle housing and
tighten carrier nuts to specified torque.
Tightening torque
Rear differential carrier nuts : 23 N·m (2.3 kg-m, 17.0 lb-ft)
7) Install propeller shaft to joint flange aligning match marks (1)
and tighten flange bolts to specified torque.
Tightening torque
Companion flange bolts (a) : 23 N·m (2.3 kg-m, 17.0 lb-ft)
8) Install LSPV spring to rear axle.
Tighten LSPV adjust nut temporarily at this step. (if equipped
with LSPV).
9) Install wheel speed sensor and clamp wire securely (right &
left) (if equipped with ABS).
10) Remove floor jack from axle housing.
11) Connect brake pipes and parking brake cable and clamp
them securely.
For clamping positions, refer to Section 5.
12) Connect brake flexible hose to bracket and secure it with E-
ring.
2. Vehicle body
A : Forward

3E-30 REAR SUSPENSION
13) Connect brake pipe to wheel cylinder (1) and tighten brake
pipe flare nut (2) to specified torque.
Tightening torque
Brake pipe flare nut (b) : 16 N·m (1.6 kg-m, 11.5 lb-ft)
14) Clean mating surface of axle housing (2) (right & left) with
brake back plate and apply sealant as shown.
“B” : Sealant 99000-31090
15) Apply grease to axle shaft oil seals (1) lip (right & left) as
shown.
“A” : Grease 99000-25010
16) Install rear axle shaft (right & left) to rear axle housing and
tighten brake back plate bolts to specified torque.
Tightening torque
Brake back plate bolts (a) : 23 N·m (2.3 kg-m, 17.0 lb-ft)
17) Connect brake pipes (3) to wheel cylinders (1) (right & left)
and tighten brake pipe flare nuts (2) to specified torque.
Tightening torque
Brake pipe flare nuts (b) : 16 N·m (1.6 kg-m, 11.5 lb-ft)
18) Connect parking brake cable (2) to parking brake shoe lever
(right & left) and secure it with clip (3).
Apply water tight sealant where brake back plate (1) and
parking brake cable contact.
“A” : Sealant 99000-31090
19) Fill reservoir with brake fluid and bleed brake system. (For
bleeding operation, see Section 5.)
20) Refill differential gear housing with new specified gear oil.
Refer to Section 7F.
NOTE:
Check to ensure that clip is in good condition before
installing it. If deformed or broken, replace.
A : Forward

REAR SUSPENSION 3E-31
21) Install wheel and tighten wheel nuts to specified torque.
Tightening torque
Wheel nuts (f) : 85 N·m (8.5 kg-m, 61.5 lb-ft)
22) Upon completion of all jobs, pull parking brake lever with
about 20 kg, (44 lbs) load three to five times so as to obtain
proper drum-to-shoe clearance.
Adjust parking brake cable (for adjustment, see Section 5.)
23) Lower hoist.
24) Tighten right and left trailing arm bolts and nuts (1) and
shock absorber lower bolts (2) to specified torque.
Tighten lateral rod bolt and nut (3) to specified torque.
Tightening torque
Rear trailing arm bolts (a) : 80 N·m (8.0 kg-m, 58.0 lb-ft)
Rear shock absorber lower bolts
(b) : 58 N·m (5.8 kg-m, 42.0 lb-ft)
Lateral rod axle housing side nut
(c) : 50 N·m (5.0 kg-m, 36.5 lb-ft)
Lateral rod body side nut (d) : 65 N·m (6.5 kg-m, 47.0 lb-ft)
25) Check to ensure that brake drum is free from dragging and
proper braking is obtained.
26) Perform brake test (foot brake and parking brake).
(For brake test, see Section 5.)
27) If equipped with LSPV, check and adjust LSPV spring refer-
ring to “LSPV INSPECTION AND ADJUSTMENT” and per-
form “FLUID PRESSURE TEST” in Section 5.
28) Check each installed part for oil leakage.
NOTE:
When tightening these bolts and nuts, be sure that vehi-
cle is off hoist and in non loaded condition.

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WHEELS AND TIRES 3F-1
6F1
6F2
6G
3F
8A
8B
8C
8D
8E
9
10
10A
10B
SECTION 3F
WHEELS AND TIRES
CONTENTS
GENERAL DESCRIPTION ............................... 3F-2
TIRES ............................................................ 3F-2
WHEELS ....................................................... 3F-2
REPLACEMENT TIRES ................................ 3F-2
REPLACEMENT WHEELS ........................... 3F-2
HOW TO MEASURE WHEEL RUNOUT... 3F-3
METRIC LUG NUTS AND WHEEL
STUDS ...................................................... 3F-3
DIAGNOSIS ...................................................... 3F-3
DIAGNOSIS TABLE ...................................... 3F-3
BALANCING WHEELS ................................. 3F-3
GENERAL BALANCE PROCEDURES ......... 3F-4
OFF-VEHICLE BALANCING ..................... 3F-4
ON-VEHICLE BALANCING....................... 3F-4MAINTENANCE AND MINOR
ADJUSTMENTS ............................................... 3F-5
WHEEL MAINTENANCE .............................. 3F-5
WHEEL ATTACHING STUDS .................. 3F-5
MATCHED TIRES AND WHEELS ............ 3F-5
TIRE MAINTENANCE................................... 3F-5
TIRE PLACARD ........................................ 3F-5
INFLATION OF TIRES .............................. 3F-6
TIRE ROTATION ...................................... 3F-6
ON-VEHICLE SERVICE ................................... 3F-7
WHEEL ......................................................... 3F-7
TIRE .............................................................. 3F-8
MOUNTING AND DISMOUNTING ........... 3F-8
REPAIR ..................................................... 3F-8

NOTE:
All wheel fasteners are important attaching parts in that they could affect the performance of vital
parts and systems, and/or could result in major repair expense. They must be replaced with one of the
same part number or with an equivalent part if replacement becomes necessary. Do not use a replace-
ment part of lesser quality or substitute design. Torque values must be used as specified during reas-
sembly to assure proper retention of all parts.
There is to be no welding as it may result in extensive damage and weakening of the metal.

3F-2 WHEELS AND TIRES
GENERAL DESCRIPTION
TIRES
This vehicle is equipped with the following tire.
Tire size
: 165/70R14
The tire is of tubeless type. The tire is designed to operate satisfactorily with loads up to the full rated load
capacity when inflated to the recommended inflation pressures.
Correct tire pressures and driving habits have an important influence on tire life. Heavy cornering, excessively
rapid acceleration, and unnecessary sharp braking increase tire wear.
WHEELS
Standard equipment wheels are the following steel wheel.
Wheel size
: 14 x 4 1/2 J
REPLACEMENT TIRES
When replacement is necessary, the original equipment type tire should be used. Refer to the “Tire Placard”.
Replacement tires should be of the same size, load range and construction as those originally on the vehicle.
Use of any other size or type tire may affect ride, handling, speedometer/odometer calibration, vehicle ground
clearance and tire or snow chain clearance to the body and chassis.
It is recommended that new tires be installed in pairs on the same axle. If necessary to replace only one tire, it
should be paired with the tire having the most tread, to equalize braking traction.
The metric term for tire inflation pressure is the kilo pascal (kPa).
Tire pressures is usually printed in both kPa and psi on the “Tire
Placard”.
Metric tire gauges are available from tool suppliers.
The chart, shown the table, converts commonly used inflation
pressures from kPa to psi.
REPLACEMENT WHEELS
Wheels must be replaced if they are bent, dented, have excessive lateral or radial runout, air leak through
welds, have elongated bolt holes, if lug nuts won’t stay tight, or if they are heavily rusted. Wheels with greater
runout than shown in figure below may cause objectional vibrations.
Replacement wheels must be equivalent to the original equipment wheels in load capacity, diameter, rim with
offset and mounting configuration. A wheel of improper size or type may affect wheel and bearing life, brake
cooling, speedometer/odometer calibration, vehicle ground clearance and tire clearance to body and chassis.WARNING:
Do not mix different types of tires on the same vehicle such as radial, bias and bias-belted tires except
in emergencies, because handling may be seriously affected and may result in loss of control.
kPa kgf/cm²pis
160 1.6 23
180 1.8 26
200 2.0 29
220 2.2 32
240 2.4 35
260 2.6 38
280 2.8 41
300 3.0 44

WHEELS AND TIRES 3F-3
HOW TO MEASURE WHEEL RUNOUT
To measure the wheel runout, it is necessary to use an accurate
dial indicator. The tire may be on or off the wheel. The wheel
should be installed to the wheel balancer of the like for proper
measurement.
Take measurements of both lateral runout (1) and radial runout
(2) at both inside and outside of the rim flange. With the dial indi-
cator set in place securely, turn the wheel one full revolution
slowly and record every reading of the indicator.
When the measured runout exceeds the specification and correc-
tion by the balancer adjustment is impossible, replace the wheel.
If the reading is affected by welding, paint or scratch, it should be
ignored.
Lateral runout limit
“a” : 0.90 mm (0.035 in.)
Radial runout limit
“b” : 0.70 mm (0.028 in.)
METRIC LUG NUTS AND WHEEL STUDS
All models use metric lug nuts and wheel studs.
Metric lug nuts and wheel studs size
: M12 x 1.25
DIAGNOSIS
DIAGNOSIS TABLE
Refer to Section 3.
BALANCING WHEELS
There are two types of wheel and tire balance : static and
dynamic. Static balance, as shown in left figure, is the equal distri-
bution of weight around the wheel. Wheels that are statically
unbalanced cause a bouncing action called tramp. This condition
will eventually cause uneven tire wear.
1. Heavy spot wheel tramp [A] : Before correction
2. Balance weights addition point [B] : Corrective weights
3. C/L of spindle

3F-4 WHEELS AND TIRES
Dynamic balance, as shown in left figure, is the equal distribution
of weight on each side of the wheel centerline so that when the
tire spins there is no tendency for the assembly to move from side
to side. Wheels that are dynamically unbalanced may cause
shimmy.
GENERAL BALANCE PROCEDURES
Deposits of mud, etc. must be cleaned from inside of rim.
Each tire should be inspected for any damage, then balanced according to equipment manufacturer’s recom-
mendation.
OFF-VEHICLE BALANCING
Most electronic off-vehicle balancers are more accurate than the on-vehicle spin balancers. They are easy to
use and give a dynamic (two plane) balance. Although they do not correct for drum or disc unbalance as does
on-vehicle spin balancing, this is overcome by their accuracy, usually to within 1/8 ounce.
ON-VEHICLE BALANCING
On-vehicle balancing methods vary with equipment and tool manufacturers. Be sure to follow each manufac-
turer’s instructions during balancing operation.
1. Heavy spot wheel shimmy [C] : Before correction
2. Balance weights addition point [D] : Corrective weights
3. C/L of spindle
WARNING:
Stones should be removed from the tread in order to avoid operator injury during spin balancing and
to obtain good balance.
WARNING:
Wheel spin should be limited to 35 mph (55 km/h) as indicated on speedometer.
This limit is necessary because speedometer only indicates one-half of actual wheel speed when one
drive wheel is spinning and the other drive wheel is stopped.
Unless care is taken in limiting drive wheel spin, spinning wheel can reach excessive speeds. This
can result in possible tire disintegration or differential failure, which could cause serious personal
injury or extensive vehicle damage.
CAUTION:
For vehicle equipped with ABS, using on-vehicle balancing method with ignition switch ON may set
malfunction diagnostic trouble code (DTC) of ABS even when system is in good condition.
Never turn ignition switch ON while spinning wheel.

WHEELS AND TIRES 3F-5
MAINTENANCE AND MINOR ADJUSTMENTS
WHEEL MAINTENANCE
Wheel repairs that use welding, heating, or peening are not approved. All damaged wheels should be replaced.
WHEEL ATTACHING STUDS
If a broken stud is found, see Section 3E (rear) or Section 3D (front) for Note and Replacement procedure.
MATCHED TIRES AND WHEELS
Tires and wheels are match mounted at the assembly plant.
This means that the radially stiffest part of the tire, or “high spot”,
is matched to the smallest radius or “low spot” of the wheel.
This is done to provide the smoothest possible ride.
The “high spot” of the tire is originally marked by paint dot (1) on
the outboard sidewall. This paint dot will eventually wash off the
tire.
The “ow spot” of the wheel is originally marked by paint dot (2) on
the wheel rim-flange. Properly assembled, the wheel rims’ paint
dot should be aligned with the tires’ paint dot as shown in left fig-
ure.
Whenever a tire is dismounted from its wheel, it should be
remounted so that the tire and wheel are matched. If the tire’s
paint dot cannot be located, a line should be scribed on the tire
and wheel before dismounting to assure that it is remounted in
the same position.
TIRE MAINTENANCE
TIRE PLACARD
The “Tire Placard” is located on the left door (right door for right-hand side steering vehicle) lock pillar and
should be referred to tire information.
The placard lists the maximum load, tire size and cold tire pressure where applicable.
NOTE:
Whether rim size and/or maximum load are listed or not depends on regulations of each country.