Track assembly having a rotation limiting device and vehicle having same

What is claimed is: 1. A track assembly for a vehicle, comprising: a frame; a plurality of track-contacting wheels, including: a drive wheel rotationally connected to the frame, the drive wheel defining a drive wheel axis about which the drive wheel is rotatable; and at least one idler wheel rotationally connected to the frame; an endless track disposed around the plurality of track-contacting wheels, the drive wheel being adapted for driving the endless track; a rotation limiting device for limiting rotation of the track assembly relative to a frame of the vehicle about the drive wheel axis, the rotation limiting device being connectable between the frame of the track assembly and the vehicle, the rotation limiting device comprising: an elongate support extending along a support axis and having a first end and a second end; a first biasing member mounted to the elongate support; and a second biasing member mounted to the elongate support: a connection bracket for connecting the rotation limiting device to the frame of the track assembly, the connection bracket having a frame connecting end connected to the frame of the track assembly and a device connecting end connected to the rotation limiting device, the device connecting end being slidably mounted to the elongate support of the rotation limiting device such that: the first biasing member is disposed between the device connecting end and the first end of the elongate support, the first biasing member being compressed between the device connecting end and the first end of the elongate support when the track assembly rotates in a first rotation direction about the drive wheel axis, and the second biasing member is disposed between the device connecting end and the second end of the elongate support, the second biasing member being compressed between the device connecting end and the second end of the elongate support when the track assembly rotates in a second rotation direction about the drive wheel axis, and a bushing assembly slidably connecting the device connecting end of the connection bracket to the elongate support, the bushing assembly comprising: an inner bushing slidably mounted to the elongate support, the inner bushing defining an inner bushing axis; an outer bushing affixed to the device connecting end of the connection bracket, the outer bushing defining an outer bushing axis; and a resilient element connected between the inner and outer bushings, the resilient element being resiliently deformable such that: the inner bushing is rotatable relative to the outer bushing such that the inner bushing axis can be angled relative to the outer bushing axis with the inner bushing axis remaining one of: generally parallel to the support axis of the elongate support, and generally coaxial to the support axis of the elongate support; and the inner bushing is axially movable relative to the outer bushing along the support axis of the elongate support. 2. The track assembly of claim 1 , wherein at least one of the first and second biasing members is a spring. 3. The track assembly of claim 2 , wherein: the rotation limiting device further comprises at least one spring seat supporting the at least one of the first and second biasing members; the at least one spring seat is disposed between the inner bushing and the at least one of the first and second biasing members; and the at least one spring seat remains oriented generally perpendicular to the support axis of the elongate support. 4. The track assembly of claim 2 , wherein the at least one of the first and second biasing members is a dual rate spring. 5. The track assembly of claim 1 , wherein the first and second biasing members are springs. 6. The track assembly of claim 1 , wherein the resilient element is made of rubber. 7. The track assembly of claim 1 , wherein the resilient element defines at least one opening offset from the outer bushing axis, the at least one opening extending axially from a first end to a second end of the resilient element. 8. The track assembly of claim 7 , wherein the at least one opening has a curved elongated shape. 9. The track assembly of claim 1 , wherein: the inner bushing comprises a first stopper extending radially toward the outer bushing; the outer bushing comprises a second stopper extending radially toward the inner bushing; and the first and second stoppers are at least partly circumferentially and radially aligned with one another such that movement of the inner bushing relative to the outer bushing is limited as the first and second stoppers approach one another. 10. The track assembly of claim 9 , wherein: one of the inner bushing and the outer bushing comprises a third stopper extending radially; the third stopper is at least partly circumferentially and radially aligned with the first and second stoppers; when the outer bushing comprises the third stopper, the first stopper is disposed axially between the third stopper and the second stopper, movement of the inner bushing relative to the outer bushing being limited when the first stopper approaches the second stopper or the third stopper; when the inner bushing comprises the third stopper, the second stopper is disposed axially between the third stopper and the first stopper, movement of the inner bushing relative to the outer bushing being limited when the second stopper approaches the first stopper or the third stopper. 11. The track assembly of claim 1 , wherein: the first biasing member has a first biasing rate; the second biasing member has a second biasing rate; and the resilient element has a third biasing rate that is greater than the first and second biasing rates. 12. The track assembly of claim 1 , wherein: the first biasing member has a first biasing rate; the second biasing member has a second biasing rate; and the resilient element has a third biasing rate that is less than the first and second biasing rates. 13. The track assembly of claim 1 , wherein the inner bushing is longer than the outer bushing. 14. The track assembly of claim 1 , wherein the inner bushing is thicker than the outer bushing. 15. The track assembly of claim 1 , wherein an outer surface of the resilient element is shorter than the outer bushing. 16. The track assembly of claim 1 , wherein an inner surface of the resilient element is shorter than the inner bushing. 17. The track assembly of claim 16 , wherein the inner surface of the resilient element is longer than the outer bushing. 18. The track assembly of claim 1 , wherein the resilient element is annular and has a generally trapezoidal cross-section. 19. A vehicle comprising: a vehicle frame; a motor supported by the vehicle frame; a suspension assembly connected to the vehicle frame; and the track assembly of claim 1 connected to the suspension assembly.