INTRODUCTION
TABLE OF CONTENTS
page page
VEHICLE IDENTIFICATION NUMBER
DESCRIPTION..........................1
INTERNATIONAL SYMBOLS
DESCRIPTION..........................2
FASTENER IDENTIFICATION
DESCRIPTION..........................2
FASTENER USAGE
DESCRIPTION - FASTENER USAGE.........5THREADED HOLE REPAIR
DESCRIPTION - THREADED HOLE REPAIR....5
METRIC SYSTEM
DESCRIPTION..........................5
TORQUE REFERENCES
DESCRIPTION..........................7
VEHICLE IDENTIFICATION
NUMBER
DESCRIPTION
The Vehicle Identification Number (VIN) plate is
located on the lower windshield fence next to the left
a-pillar. The VIN contains 17 characters that provide
data concerning the vehicle. Refer to the VIN
DECODING INFORMATION table to determine the
identification of a vehicle.To protect the consumer from theft and possible
fraud the manufacturer is required to include a
Check Digit at the ninth position of the Vehicle Iden-
tification Number. The check digit is used by the
manufacturer and government agencies to verify the
authenticity of the vehicle and official documenta-
tion. The formula to use the check digit is not
released to the general public.
VIN DECODING INFORMATION
POSITION INTERPRETATION CODE = DESCRIPTION
1,2&3 World Manufacturer CodeWD2 = Truck
WD5 = Multi-purpose vehicle
4 ModelY = Truck
W = Multi-purpose vehicle
5 & 6 Model, Cab, WeightD1 = Sprinter, 3000 mm (118 in.) wheelbase, 8,001 up to 9,000 lbs. class G
D2 = Sprinter, 3550 mm (140 in.) wheelbase, 8,001 up to 9,000 lbs. class G
D3 = Sprinter, 4025 mm (158 in.) wheelbase, 8,001 up to 9,000 lbs. class G
D4 = Sprinter, 3550 mm (140 in.) wheelbase, Van 10,001 up to 14,000 lbs.
Class 3
D5 = Sprinter, 4025 mm (158 in.) wheelbase, Van 10,001 up to 14,000 lbs.
Class 3
D6 = Sprinter, 3567 mm (140 in.) in connection with 169wheels, Van 8,001 to
9,000 lbs. class G
D7 = Sprinter, 4042 mm (159 in.) in connection with 169wheels, Van 8,001 to
9,000 lbs. class G
7 & 8 Engine 41 = 2.7L 5 cyl. Diesel
9 Check Digit
10 Model Year 3 = 2003
11 Assembly Plant 5 = Dîsseldorf Plant, Germany
12 Thru 17 Vehicle Build Sequence
VAINTRODUCTION 1
PROPELLER SHAFT
REMOVAL
(1) Secure vehicle to prevent it from rolling.
(2) Make installing reference marks on propeller
shaft (Fig. 6) and (Fig. 7).
(3) Remove retaining bracket bolts (Fig. 8) and
(Fig. 9).
(4) Remove propeller shaft bolts from rear axle
and transmission at the flange.
(5) Remove propeller shaft intermediate bearing
nuts from retaining bracket and bracket for brake
cable.
NOTE: The brake cable bracket is only installed in
vehicles with wheelbase 3550 mm
(6) Remove shaft from the vehicle.
INSTALLATION
(1) Install propeller shaft intermediate bearing/
bearings to support and tighten nuts to 105 N´m (77
ft. lbs.).(2) Install propeller shaft intermediate bearing
support/supports to frame floor and tighten bolts to
95 N´m (70 ft. lbs.).
(3) Install propeller shaft intermediate bearing
with retaining bracket and bracket for brake cable.
NOTE: The bracket is only installed on vehicles
with wheelbase 3550 mm.
(4) Install propeller shaft to rear axle and trans-
mission flange with installation marks are aligned.
Tighten bolts to 70 N´m (66 ft. lbs.).
(5) Install retaining bracket and tighten bolts to
100 N´m (74 ft. lbs.).
SPLITTER 1130
INSTALLER 9275
INCLINOMETER 7663
Fig. 6 ALIGNMENT MARKS
1 - ALIGNMENT MARK
2 - BOOT
3 - ALIGNMENT MARK
4 - CENTER BEARING
Fig. 7 ALIGNMENT MARKS 3 PIECE SHAFT
1 - REFERNCE MARK
2 - CENTER SHAFT
3 - REFERENCE MARK
4 - REAR SHAFT
3 - 6 PROPELLER SHAFTVA
PROPELLER SHAFT (Continued)
