An idler wheel includes a hub, an outer rim, and a pair of side plates that form an interior cavity extending radially between the outer rim (110) and the hub, and axially between the pair of side plates. The first side plate defines a maximum side plate axial thickness disposed radially next to the hub in a cross-sectional plane containing a radial direction, and an axis of rotation, as well as a minimum side plate thickness disposed radially next to the outer rim. A ratio of the maximum thickness to the minimum thickness ranges from 1.325 to 1.900.

An idler wheel includes a hub, an outer rim, and a pair of side plates that form an interior cavity extending radially between the outer rim (110) and the hub, and axially between the pair of side plates. The first side plate defines a maximum side plate axial thickness disposed radially next to the hub in a cross-sectional plane containing a radial direction, and an axis of rotation, as well as a minimum side plate thickness disposed radially next to the outer rim. A ratio of the maximum thickness to the minimum thickness ranges from 1.325 to 1.900.

A vehicle with a track system including a track for traction of the vehicle on a ground can be monitored (e.g., during operation of the vehicle) to obtain information regarding the vehicle, including information regarding the track system, such as a temperature and/or another characteristic of a wheel of the track system sensed by a sensor associated with that wheel, which can be used to inform a user (e.g., an operator of the vehicle) and/or control the vehicle (e.g., a speed of the vehicle), for properly aligning the track and/or other purposes. This may be useful, for example, to help prevent rapid wear or other deterioration of the track and/or for various other reasons.

A vehicle with a track system including a track for traction of the vehicle on a ground can be monitored (e.g., during operation of the vehicle) to obtain information regarding the vehicle, including information regarding the track system, such as a temperature and/or another characteristic of a wheel of the track system sensed by a sensor associated with that wheel, which can be used to inform a user (e.g., an operator of the vehicle) and/or control the vehicle (e.g., a speed of the vehicle), for properly aligning the track and/or other purposes. This may be useful, for example, to help prevent rapid wear or other deterioration of the track and/or for various other reasons.

A crawler-type traveling body includes: a crawler; a drive wheel including a drive shaft, the drive wheel configured to apply a driving force to the crawler; at least two track rollers disposed below the drive wheel, the crawler being stretched around the drive wheel and said at least two track rollers; and an auxiliary mechanism between said at least two track rollers, the auxiliary mechanism includes two auxiliary wheels swingably provided, wherein a push-up amount of one of the two auxiliary wheels pushed up in a vertical direction is larger than a push-down amount of another of the two auxiliary wheels pushed down in the vertical direction.

A crawler-type traveling body includes: a crawler; a drive wheel including a drive shaft, the drive wheel configured to apply a driving force to the crawler; at least two track rollers disposed below the drive wheel, the crawler being stretched around the drive wheel and said at least two track rollers; and an auxiliary mechanism between said at least two track rollers, the auxiliary mechanism includes two auxiliary wheels swingably provided, wherein a push-up amount of one of the two auxiliary wheels pushed up in a vertical direction is larger than a push-down amount of another of the two auxiliary wheels pushed down in the vertical direction.

Embodiments of the present disclosure describe a snowmobile including an engine mounted on the chassis, a drive track in contact with the chassis, and a drive train, operatively interconnecting the engine with the drive track for delivering propulsive power to the drive track. The drive train includes a driveshaft, comprising a tubular driveshaft including two or more interior channels, the channels positioned in a substantially longitudinal orientation, two or more sprocket driving features on an exterior surface of the tubular driveshaft, and one or more fitting components, positioned at one or more distal ends of the driveshaft.

Embodiments of the present disclosure describe a snowmobile including an engine mounted on the chassis, a drive track in contact with the chassis, and a drive train, operatively interconnecting the engine with the drive track for delivering propulsive power to the drive track. The drive train includes a driveshaft, comprising a tubular driveshaft including two or more interior channels, the channels positioned in a substantially longitudinal orientation, two or more sprocket driving features on an exterior surface of the tubular driveshaft, and one or more fitting components, positioned at one or more distal ends of the driveshaft.

A snowmobile including a chassis including a tunnel; a motor; at least one ski; an endless drive track; a rear suspension assembly including: a front suspension arm; a rear suspension arm; a pair of slide rails; a first rear shock absorber connected between the front suspension arm and the slide rails; and a second rear shock absorber connected between the rear suspension arm and the front suspension arm or the slide rails; at least one sensor for sensing an angular position of the front suspension arm or the rear suspension arm relative to one of the tunnel and a component of the rear suspension assembly near at least one of the front suspension arm and the rear suspension arm; and a controller communicatively connected to the sensor to receive electronic signals therefrom representative of the angular position.

A track kit for a vehicle (2), having two track assemblies (1,1′), each track assembly having an endless track (5), a front idler wheel (8), an intermediate support member (6) with at least one track engaging element (7), a rear idler wheel (9), a drive wheel (10), at least one swing arm (11,12) and a shock absorber connecting assembly (13,14), wherein the endless track (5) has an external side featuring ground lugs (15) for ground engagement and an internal side featuring drive lugs (16) for engagement with the drive wheel (10), and the internal side is circumferentially trained around and in contact with the front idler wheel (8).