10.8
FRONT SUSPENSION/STEERING
SPRINGS
Two types of springs are employed in Polaris suspensions, coil
springs and torsion springs. Following is some of the
terminology used when referring to coil springs.
• Free length - the length of a coil spring with no load
applied to the spring
• Installed length - the length of the spring between the
spring retainers. If the installed length of the spring is
less than the free length, it will be pre-loaded.
• Spring rate - the amount of force required to compress
a coil spring one inch. For example, if 150 pounds of
force are required to compress a spring 1 inch, the
spring rate would be 150 #/in.
• Straight rate spring - the spring requires the same
amount of force to compress the last one inch of travel
as the first one inch of travel. For example, if a 150 #/
in. spring requires 150 pounds of force to compress it
one inch, 300 pounds of force would compress it two
inches, 450 pounds of force would compress it three
inches, etc.
• Progressively wound spring - the rate of the spring
increases as it is compressed. For example, a 100/200
#/in. rate spring requires 100 pounds of force to
compress the first one inch, but requires 200 additional
pounds to compress the last one inch.
When a bump is encountered by the suspension, the force of
the bump compresses the spring. If the force were 450 pounds,
a 100 #/in. spring would compress 4.5 inches. A 150 #/in.
spring would only compress 3 inches. If the suspension had 4
inches of spring travel the 100 #/in. spring would bottom out,
while the 150 #/in. spring would have one inch of travel
remaining.
COMPRESSION DAMPING ADJUSTABLE
SHOCKS
Snowmobiles equipped with the Indy Select or Ryde FX
shocks allow the driver to make adjustments to the
compression valving by turning the screw located near the
base of the shock.
Locate the adjustment screw near the base of the shock.
By turning the screw clockwise (a small screwdriver or dime
work well), the compression valving is increased, stiffening
the ride. To soften the ride, reduce the compression by turning
the screw counter-clockwise. A great deal of ride performance
is accomplished with a mere 1/2 to 1 turns. There are
approximately 3 full turns of adjustment available.
If the suspension is "bottoming," tighten the compression
screw clockwise in 1/2 turn increments until the bottoming
7041701
10.57
120
9”
.295”
1.89”
2.49
No
7041820
5.98
140
4”
.250”
1.89”
2.43
No
7041821
5.91
160
4”
.262”
1.89”
2.49
No
7041826
9.19
160
7”
.306”
1.89”
2.54
No
7041826
8.85
180
7”
.312”
1.89”
2.54
No
7041828
9.61
200
7”
.331”
1.89”
2.59
No
7041829
8.92
220
7”
.331”
1.89”
2.59
No
7041927
16.15
68/160
13”
.295”
1.89”
2.54
Yes
7041950
13.80
68/160
11.57”
.331”
1.89”
3.125
Yes
7042052
11.7
110
12
0.343
1.87
3
NO
7042074
11.625
90/180 Var
10.65
0.343
1.89
3.2
YES
7042187
13.76
68/160
12.55
0.343
1.89
3.18
YES
7042195
14
90/180 Var
13
0.362
1.89
3.2
YES
7042263
80/110 Var
10.78
0.331
1.89
3.25
YES
7042314
10.64
75
10.01
0.281
1.89
2.71
YES
7042315
10.89
55
9.85
0.262
1.89
2.66
YES
Table 10-1: IFS Shock Springs
Part
Number
Total # of
Coils
Rate #/in)
Free
Length
Wire Via.
I.D."
O.D.”
Tabbed?
Summary of Contents for SUPERSPORT 2006
Page 48: ...NOTES SPECIFICATIONS 1 48...
Page 55: ...2 7 GENERAL SAE TAP DRILL SIZES METRIC TAP DRILL SIZES DECMIAL EQUIVALENTS...
Page 60: ...2 12 GENERAL SPECIAL TOOLS...
Page 61: ...2 13 GENERAL...
Page 62: ...2 14 GENERAL...
Page 106: ...4 18 CARBURETION...
Page 139: ...6 27 ENGINE 340 550 ENGINE REBUILDING 10 11 3 4 12 13 5 2 14 1 16 15 16 9 17 6 7 8...
Page 156: ...7 12 CLUTCHING 1 1 2 3 4 5 6 7 18 17 10 8 9 13 12 11 15 16 14...
Page 192: ...8 20 FINAL DRIVE...
Page 200: ...10 2 FRONT SUSPENSION STEERING FUSION IQ RMK 600 RMK Fusion 14 78...
Page 201: ...10 3 FRONT SUSPENSION STEERING EDGE RMK Apply Polaris All Season Grease to all zerks...
Page 202: ...10 4 FRONT SUSPENSION STEERING 42 5 EDGE Apply Polaris All Season Grease to all zerks...
Page 203: ...10 5 FRONT SUSPENSION STEERING WIDETRAK Apply Polaris All Season Grease to all zerks...
Page 244: ...11 28 REAR SUSPENSION...
Page 256: ...12 12 CHASSIS HOOD...
Page 282: ...13 26 ELECTRICAL...
Page 288: ...13 32 ELECTRICAL...
Page 289: ...14 1 WIRE DIAGRAM 2006 600 FUSION HO HOOD...
Page 290: ...14 2 WIRE DIAGRAM 2006 HO RMK HOOD...
Page 291: ...14 3 WIRE DIAGRAM 600 HO FUSION RMK CHASSIS...
Page 292: ...14 4 WIRE DIAGRAM 600 HO FUSION RMK CHASSIS CALL OUTS...
Page 293: ...14 5 WIRE DIAGRAM 700 900 ENGINE...
Page 294: ...14 6 WIRE DIAGRAM 700 900 ENGINE AND ENGINE CALL OUTS...
Page 295: ...14 7 WIRE DIAGRAM 700 900 CHASSIS...
Page 297: ...14 9 WIRE DIAGRAM 340 550 FUJI FAN ENGINE CHASSIS...
Page 298: ...14 10 WIRE DIAGRAM 500 FUJI ENGINE CHASSIS...
Page 299: ...14 11 WIRE DIAGRAM 500 600 IBERTY ENGINE CHASSIS...