The present invention generally relates to vehicle and machinery in agriculture, construction, forestry, mining and powersport. It further generally relates to track systems and traction assemblies used with such vehicles. The track assembly includes components having particular features that, alone or in combination, participate in decreasing the vibrations 5 undergone by the vehicle. According to embodiments, split frames are used with suspension, tandem subassemblies, “tridem subassemblies”, adjustable damping components, drive shaft openings, lowering of resulting the track band tension and rosta assemblies.

The present invention generally relates to vehicle and machinery in agriculture, construction, forestry, mining and powersport. It further generally relates to track systems and traction assemblies used with such vehicles. The track assembly includes components having particular features that, alone or in combination, participate in decreasing the vibrations 5 undergone by the vehicle. According to embodiments, split frames are used with suspension, tandem subassemblies, “tridem subassemblies”, adjustable damping components, drive shaft openings, lowering of resulting the track band tension and rosta assemblies.

A track vehicle includes: a frame; a rotatable driving wheel carried by the frame; a track engaged with the driving wheel; an idler wheel engaged with the track; a tensioner coupled to the idler wheel to force the idler wheel into engagement with the track; a recoiler coupled to the tensioner; and a fluid damper attached to the frame and coupled to the tensioner and the recoiler. The fluid damper includes: a fluid chamber having two ports; a piston coupled to at least one of the tensioner and the recoiler within the fluid chamber; and a restriction circuit fluidly connected to the ports and configured to form a closed fluid circuit. The restriction circuit permits a substantially unrestricted fluid flow through the closed fluid circuit when the piston moves in one direction and a restricted fluid flow through the closed fluid circuit when the piston moves in the opposite direction.

A track vehicle includes: a frame; a rotatable driving wheel carried by the frame; a track engaged with the driving wheel; an idler wheel engaged with the track; a tensioner coupled to the idler wheel to force the idler wheel into engagement with the track; a recoiler coupled to the tensioner; and a fluid damper attached to the frame and coupled to the tensioner and the recoiler. The fluid damper includes: a fluid chamber having two ports; a piston coupled to at least one of the tensioner and the recoiler within the fluid chamber; and a restriction circuit fluidly connected to the ports and configured to form a closed fluid circuit. The restriction circuit permits a substantially unrestricted fluid flow through the closed fluid circuit when the piston moves in one direction and a restricted fluid flow through the closed fluid circuit when the piston moves in the opposite direction.

A track roller includes a roller shell, a first retainer, a second retainer, a first holding ring, and a second holding ring. The first retainer is press-fitted to the outer periphery of a shaft and abuts on a first end face of the roller shell. The second retainer is press-fitted to the outer periphery of the shaft and abuts on a second end face of the roller shell. The first holding ring is attached to the outer periphery of the shaft on the outside of the first retainer and fixes the first retainer. The second holding ring is attached to the outer periphery of the shaft and fixes the second retainer.

A track roller includes a roller shell, a first retainer, a second retainer, a first holding ring, and a second holding ring. The first retainer is press-fitted to the outer periphery of a shaft and abuts on a first end face of the roller shell. The second retainer is press-fitted to the outer periphery of the shaft and abuts on a second end face of the roller shell. The first holding ring is attached to the outer periphery of the shaft on the outside of the first retainer and fixes the first retainer. The second holding ring is attached to the outer periphery of the shaft and fixes the second retainer.

A snow thrower includes a frame, a prime mover supported by the frame, and a handle assembly coupled to the frame. The handle assembly includes a grip for an operator to grasp. The snow thrower further includes an auger housing supported by the frame, and an auger blade rotationally coupled to and disposed within the auger housing. A track drive system is coupled to the frame to facilitate movement along a ground surface. The track drive system includes a drive wheel rotatably driven by the prime mover, an idler wheel rotatably supported by the frame, and a flexible track interconnecting the drive wheel and the idler wheel. The idler wheel is translatable relative to the frame to adjust an orientation of the auger housing relative to the ground surface.

A snow thrower includes a frame, a prime mover supported by the frame, and a handle assembly coupled to the frame. The handle assembly includes a grip for an operator to grasp. The snow thrower further includes an auger housing supported by the frame, and an auger blade rotationally coupled to and disposed within the auger housing. A track drive system is coupled to the frame to facilitate movement along a ground surface. The track drive system includes a drive wheel rotatably driven by the prime mover, an idler wheel rotatably supported by the frame, and a flexible track interconnecting the drive wheel and the idler wheel. The idler wheel is translatable relative to the frame to adjust an orientation of the auger housing relative to the ground surface.

A roller of a track-type traveling vehicle which can increase the life of a bearing supporting a roller shell is provided. The roller includes: a shaft having a cylindrical outer circumferential surface; a roller shell arranged to surround a portion of the outer circumferential surface of the shaft in a circumferential direction, and having a cylindrical inner circumferential surface which faces the outer circumferential surface, and an annular end surface; a collar fixed to the shaft and having an annular facing surface which faces the end surface; a radial sliding bearing arranged between the outer circumferential surface and the inner circumferential surface; and a thrust sliding bearing arranged between the end surface and the facing surface and provided separately from the radial sliding bearing. The roller is provided with an anti-rotation structure which prevents relative rotation of the thrust sliding bearing with respect to the roller shell.

A roller of a track-type traveling vehicle which can increase the life of a bearing supporting a roller shell is provided. The roller includes: a shaft having a cylindrical outer circumferential surface; a roller shell arranged to surround a portion of the outer circumferential surface of the shaft in a circumferential direction, and having a cylindrical inner circumferential surface which faces the outer circumferential surface, and an annular end surface; a collar fixed to the shaft and having an annular facing surface which faces the end surface; a radial sliding bearing arranged between the outer circumferential surface and the inner circumferential surface; and a thrust sliding bearing arranged between the end surface and the facing surface and provided separately from the radial sliding bearing. The roller is provided with an anti-rotation structure which prevents relative rotation of the thrust sliding bearing with respect to the roller shell.