A leaning vehicle has a frame, a straddle seat, a motor, a shock tower pivotally connected the frame, the frame being pivotable relative to the shock tower, and front left and right suspension assemblies connected the frame. Each of the front left and right suspension assemblies comprises a leg operatively connected to a corresponding front left or right ground engaging member and being rotatable about a steering axis, an upper suspension arm having a first end pivotally connected to the frame and a second end pivotally connected to the leg, a lower suspension arm having a first end pivotally connected to the frame and a second end pivotally connected to the leg and a shock absorber having an upper end connected to the shock tower and a lower end connected to the lower suspension arm and a brake assembly connected to the frame and the shock tower.

An omega flex sway pod vehicular apparatus, comprising a cockpit and a cantilever beam comprising a first and second ends. A cantilever beam stabilizer centrally coupled to the cantilever beam proximate to the first end. A beam stiffener coupled to a beam stiffener mount and the cantilever beam and positioned proximate to the cantilever beam stabilizer. A spring coupled to a spring mount and the cantilever beam and positioned proximate to the second end. The cockpit is a hollowed, ovoid-like shaped structure. The first end is coupled to a cantilever beam mount. The body is demountably coupled to the second end. The beam stiffener mount is coupled to a snowmobile tunnel that includes a left and right side. The cantilever beam mount and spring mount is coupled to the snowmobile tunnel. The cantilever beam mount is positioned proximate to the front side.

A snowmobile frame includes a tunnel, an engine cradle, a front suspension, a forward support and a fuel tank having a lower and an upper wall connected together 5 to enclose a volume. The volume fluidly communicates with the engine and has a portion extending upwardly and forwardly from the tunnel to the forward support. The fuel tank is removably connected to the tunnel and the forward support by the upper wall which has a left and a right lower end portion respectively connected to the tunnel on a left and right side of the longitudinal centerplane, and an upper end 10 portion connected to the forward support. The lower wall is connected to the upper wall above lower end portions and below the upper end portion. A force transmitted between the forward support and the tunnel, via the fuel tank, is transmitted through the upper wall without passing through the lower wall.

A snowmobile has a frame including a tunnel, at least one ski, an engine having an engine air inlet and a drive track operatively connected thereto and disposed at least partly below the tunnel around a rear suspension. A heat exchanger connected to the tunnel has a heat exchanger air inlet and a heat exchanger air outlet fluidly communicating with the heat exchanger air inlet and the engine air inlet. A snowmobile has a frame including an inverted U-shaped tunnel having top, left and right portions at least partly enclosing a space. A drive track, operatively connected to an engine, is disposed around a rear suspension and at least partly in the space. An air intake system has a heat exchanger surface disposed in or adjacent to the space. Air flowing through the intake system contacts the heat exchanger surface to be cooled thereby before entering the engine.

A snowmobile footrest adapted to be disposed on a side of a snowmobile tunnel includes a plurality of interconnected ribs. At least one first rib extending in a first direction includes an upper first rib surface and a lower first rib surface defining a first rib height therebetween. A pair of vertical first rib surfaces, extending generally in a vertical direction between the upper and lower first rib surfaces, define a first rib thickness therebetween. The first rib height is greater than the first rib thickness. At least one second rib is connected to the at least one first rib. Each second rib extends in a second direction, the second direction being at an angle with respect to the first direction. The at least one first rib and the at least one second rib define at least one space therebetween. Snowmobiles having the footrests are also disclosed.

A snowmobile including a hood, a hood cap connected to the hood, and a door, which together define a storage compartment. An antenna is mounted to an upper portion of the hood cap above a headlight. A main body panel is removably coupled to a chassis of the snowmobile by way of a fastener assembly. A first trim panel is removably coupled to the main body panel. The first trim panel has a first thickness and extends a first distance from a side of the snowmobile. A second trim is configured to be coupled to the main body panel in place of the first trim panel. The second trim panel has a second thickness that is different from the first thickness and extends a second distance from the side of the snowmobile that is different than the first distance.

Various embodiments of a snowmobile are disclosed. The lower arm is arranged below the upper arm. The lower arm includes proximal portions and connected to the ski support frame. The lower arm extends outwardly from the proximal portions and in the vehicle width direction and connects the ski support frame and the ski. The proximal portions and of the lower arm are positioned higher than the lower end of the engine. At least a portion of the lower arm is positioned higher than the rotational center of the crank shaft. This structure can prevent the center of gravity of the vehicle body from becoming high and reduce running resistance when the vehicle traveling in deep snow.

A motorized vehicle includes a front part equipped with at least one steering skid intended to be steered by a handlebar, a rear part including a chassis rigidly attached to a tracked propulsion means and driven by a transmission mechanism configured to be powered by a motor. The motorized vehicle is configured such that the motor is housed inside a wheel of the transmission mechanism forming a drive wheel of the propulsion means called a motor wheel. The propulsion means being supported by a bogie comprising an upper bogie rigidly attached to the chassis and a lower bogie, connected together by a suspension mechanism. The lower bogie is articulated with respect to the upper bogie. The motor wheel is rigidly attached to the lower bogie at the rear thereof.

An anchor for use with a base connected to a vehicle includes: an anchor case; a latch rotatably mounted to the anchor case, the latch having a latch body; a cam extending from the latch body and separated from the anchor case by a space, the cam being configured to be inserted through a base aperture defined by the base, the cam being rotatable about an axis between a locked position and an unlocked position to selectively secure the anchor to the base; a lever operatively connected to the cam and rotatable by a user in order to cause the cam to rotate between the locked position and the unlocked position; and a biasing mechanism biasing the cam towards the anchor case. A system for securing an accessory to a vehicle is also disclosed.

A snowmobile tunnel stop protection system to provide protection to a tunnel from a studded endless track used on a snowmobile. The tunnel includes at least one slot formed into an undersurface of the tunnel. At least one protection rail extends from a first end to a second end and includes a plurality of holes passing through the protection rail. A plurality of fasteners are used to attach the protection rail to the tunnel where each fastener has a first fastener portion that passes through the at least one slot. Each fastener includes the first fastener portion that passes through one of the plurality of holes and a second fastener portion that couples to the corresponding first fastener portion to couple the protection rail to the slot formed in the tunnel.