A rear track suspension for a snowmobile having a single resilient element for biasing both the front and rear arms. The slide rail is permitted to pitch between first and second pitching constraints in response to terrain obstacles in a gradual manner as the motion constraints are approached. This
A rear track suspension for a snowmobile having a single resilient element for biasing both the front and rear arms. The slide rail is permitted to pitch between first and second pitching constraints in response to terrain obstacles in a gradual manner as the motion constraints are approached. This reduces jarring of the rider when the pitching constraints are met. Suspension compression exhibits an initial falling rate motion ratio, followed by a constant rate motion ratio, followed by a rising rate motion ratio. This U-shaped motion ratio profile advantageously provides cushioning upon landing along with a resistance to bottoming out of the suspension upon full compression. The result is an improved ride without sacrificing suspension performance.
대표청구항▼
The invention claimed is: 1. A track suspension for a snowmobile comprising: a) a rear arm having an upper end pivotally attachable to an underside of the snowmobile at an upper rear arm pivot, a rear arm crank extending from the rear arm at the upper end thereof, the rear arm having a lower end pi
The invention claimed is: 1. A track suspension for a snowmobile comprising: a) a rear arm having an upper end pivotally attachable to an underside of the snowmobile at an upper rear arm pivot, a rear arm crank extending from the rear arm at the upper end thereof, the rear arm having a lower end pivotally connected to a slide rail at a rear slide rail pivot; b) a front arm having an upper end pivotally attachable to the underside of the snowmobile at an upper front arm pivot, a front arm crank extending from the front arm at the upper end thereof; c) a front linkage having an anterior end pivotally connected to the front arm crank and having a posterior end pivotally attached to the rear arm crank at a posterior linkage pivot; and, d) a resilient element having an anterior end pivotally attached to the front linkage, the resilient element operable to resist pivoting movement of the rear arm about the upper rear arm pivot in response to movement of the rear slide rail pivot towards the underside of the snowmobile. 2. A track suspension for a snowmobile comprising: a) a rear arm having an upper end pivotally attachable to an underside of the snowmobile at an upper rear arm pivot, a rear arm crank extending from the rear arm at the upper end thereof, the rear arm having a lower end pivotally connected to a slide rail at a rear slide rail pivot; b) a front arm having an upper end pivotally attachable to the underside of the snowmobile at an upper front arm pivot, a front arm crank extending from the front arm at the upper end thereof; c) a front linkage having an anterior end pivotally connected to the front arm crank and having a posterior end pivotally attached to the rear arm crank at a posterior linkage pivot; d) a resilient element having an anterior end pivotally attached to the front linkage, the resilient element orerable to resist pivoting movement of the rear arm about the upper rear arm pivot in response to movement of the rear slide rail pivot towards the underside of the snowmobile; and, e) wherein the front linkage is pivotally connected to the front arm crank by means of a front rocker pivotally attached to the front arm crank at a front rocker pivot and pivotally attached to the anterior end of the front linkage at an anterior linkage pivot. 3. The suspension according to claim 1, wherein the resilient element is angled downwardly toward the front linkage. 4. The suspension according to claim 1, wherein the front arm crank extends downwardly from the front arm and wherein the rear arm crank extends downwardly from the rear arm. 5. A track suspension for a snowmobile comprising: a) a rear arm having an upper end pivotally attachable to an underside of the snowmobile at an upper rear arm pivot, a rear arm crank extending from the rear arm at the upper end thereof, the rear arm having a lower end pivotally connected to a slide rail at a rear slide rail pivot; b) a front arm having an upper end pivotally attachable to the underside of the snowmobile at an upper front arm pivot, a front arm crank extending from the front arm at the upper end thereof; c) a front linkage having an anterior end pivotally connected to the front arm crank and having a posterior end pivotally attached to the rear arm crank at a posterior linkage pivot; d) a resilient element having an anterior end pivotally attached to the front linkage, the resilient element orerable to resist pivoting movement of the rear arm about the upper rear arm pivot in response to movement of the rear slide rail pivot towards the underside of the snowmobile; and, e) wherein the front linkage has an upwardly extending portion and wherein the resilient element is attached to the front linkage at the upwardly extending portion. 6. The suspension according to claim 2, wherein the anterior linkage pivot is below the front rocker pivot. 7. The suspension according to claim 1, wherein the front linkage has an adjustable length. 8. The suspension according to claim 7, wherein adjustment of the length of the front linkage affects the amount of resistance of the resilient element to pivoting movement of the rear arm about the upper rear arm pivot. 9. The suspension according to claim 2, wherein the resilient element has a posterior end pivotally attached to an upper end of a rear rocker having a lower end that is pivotally attached to a rear linkage at a rear linkage pivot, the rear rocker pivotally attached to the rear arm at a rear rocker pivot located between the upper and lower ends of the rear rocker. 10. The suspension according to claim 9, wherein the location of the rear linkage pivot on the rear rocker is adjustable. 11. The suspension according to claim 9, wherein the rear linkage has an adjustable length. 12. The suspension according to claim 9, wherein the front arm has a lower end that is pivotally attached to the rear linkage. 13. The suspension according to claim 12, wherein the front arm has an outwardly extending dog between its upper and lower ends that is pivotally attached to a lower end of a rail rocker having an upper end pivotally attached to the slide rail at a front slide rail pivot. 14. The suspension according to claim 13, wherein the dog moves arcuately about the slide rail pivot between first and second pitching constraints. 15. The suspension according to claim 14, wherein the dog approaches the first pitching constraint in response to movement of the rear slide rail pivot away from the underside of the snowmobile. 16. The suspension according to claim 15, wherein the rail rocker approaches being parallel with the front arm. 17. The suspension according to claim 14, wherein the dog approaches the second pitching constraint in response to movement of the rear slide rail pivot towards the underside of the snowmobile. 18. The suspension according to claim 17, wherein the front rocker approaches being parallel with the front linkage. 19. The suspension according to claim 1, wherein the lower end of the rear arm is pivotally connected to the rear slide rail pivot by means of an upright rocker having an upper end pivotally attached to the lower end of the rear arm and having a lower end pivotally attached to the slide rail at the rear slide rail pivot. 20. The suspension according to claim 12, wherein the front arm is pivotally attached to the slide rail at a front slide rail pivot located between the upper and lower ends of the front arm.
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