A recreational off-highway vehicle includes side-by-side passenger and driver seats held within a chassis that is approximately 50 inches wide. The seats sit low in the chassis and are covered by a roll cage. Grab handles are positioned on the sides of the passenger seat. Select large round tubing protects the vehicle, while rectangular tubing frames the portions of the vehicle beneath body panels. The vehicle is powered by an engine rearward of the seats that is connected to a transaxle. The engine and transaxle are isolation mounted together with a portion of the air intake assembly. The vehicle is suited for rough terrain travel.

A high-performance sports car having: a frame that supports a pair of front wheels and a pair of rear wheels; a passenger compartment that is formed on the inside of the frame and is arranged between the front wheels and the rear wheels; at least one door, which is hinged to the frame to allow access to the passenger compartment; at least one seat, which is arranged inside the passenger compartment to the side of the door; and a rigid protection panel which is integral with the door and, when the door is closed, is arranged alongside the seat in line with the head of the occupant of the seat.

A recreational off-highway vehicle includes side-by-side passenger and driver seats held within a chassis that is approximately 50 inches wide. The seats sit low in the chassis and are covered by a roll cage. Grab handles are positioned on the sides of the passenger seat. Select large round tubing protects the vehicle, while rectangular tubing frames the portions of the vehicle beneath body panels. The vehicle is powered by an engine rearward of the seats that is connected to a transaxle. The engine and transaxle are isolation mounted together with a portion of the air intake assembly. The vehicle is suited for rough terrain travel.

The present invention relates to all terrain vehicles having at least a pair of laterally spaced apart seating surfaces. More particularly, the present invention relates to trail compliant side-by-side all terrain vehicles.

The present disclosure relates to a chassis (1) for a motor vehicle, comprising a passenger compartment cell (2), a front frame (3) and a rear frame (4), which are arranged along a longitudinal direction (100) of the chassis (1). The frame front (3) and the rear frame (4) each comprise two longitudinal members (31, 32; 41, 42) and a cross member (35; 45) forming a substantially C-shaped structure. The chassis (1) allows the adjustment of the track width and/or the pitch of the motor vehicle. To adjust the track width, the chassis (1) is adapted for the attachment of each longitudinal member (31, 32; 41, 42) of a frame (3, 4) to the passenger compartment cell (2) at a plurality of positions that are spaced apart in the transverse direction, in such a way as to allow an adjustment of the transverse distance between the two longitudinal members (31, 32; 41, 42). To adjust the pitch, each longitudinal member (31, 32; 41, 42) of a frame (3, 4) is provided with at least one attaching assembly (53) for attaching a suspension (7) of a respective wheel of the motor vehicle. The attaching assembly (53) is adapted for attaching the suspension (7) at a plurality of positions that are spaced apart in the longitudinal direction, in such a way as to allow an adjustment of the longitudinal distance of the suspension (7) from the passenger compartment cell (2).

A chassis for an electric autocycle. The chassis includes a front member, a rear member, a left member, and a right member forming a trapezoidal tubular frame. The front member is shorter in length than the rear member. Three traverse members i.e., a first traverse member, a second traverse member, and a third traverse member those extend between the left member and the right member, the three traverse members are parallel to each other and the front member and the rear member. Two longitudinal members i.e., a first longitudinal member and a second longitudinal member both extend between the front member and the rear member and are perpendicular to the rear member. Two support members, i.e., a first support member and a second support member extend between the first traverse member and the rear member, the two support members are perpendicular to the rear member. The area between the rear member and the first traverse member forms a battery area where batteries are placed. The chassis further has a tail portion that can be square or rectangular and extends away from the rear member.

A vehicle includes a chassis, a front axle coupled to the chassis, a rear axle coupled to the chassis, a powertrain coupled to the chassis, a cab coupled to the chassis, a rear module coupled to the chassis behind the cab. The powertrain is configured to drive at least one of the front axle or the rear axle. The rear module is selectively reconfigurable between a plurality of configurations.

A vehicle shown herein is a side by side utility vehicle having a frame, front and rear ground engaging members supporting the frame, a powertrain drivingly coupled to the front and rear ground engaging members, and a seating area supported by the frame. The frame can include a tunnel extending longitudinally through at least a portion of the seating area, and the tunnel supports one or more HVAC components.

A brake assembly for a wheel on a vehicle includes a brake disc, a caliper assembly operably coupled to the brake disc, a brake line fluidly coupled to the caliper assembly, and a brake shield positioned adjacent a portion of the caliper assembly. The brake shield includes a first arm positioned on a first side of a portion of the brake disc and a second arm positioned on a second side of the portion of the brake disc. The brake disc further includes a recess configured to receive a portion of the brake line.

Some embodiments of the disclosure provide a brake mechanism, a power platform and a karting. The brake mechanism includes a brake assembly. The brake assembly is configured to be mounted on a vehicle frame, the brake assembly includes a brake pad, a position of the brake pad is adjustably configured, such that the brake pad has a first position and a second position. Herein, when the brake pad is located at the first position, the brake pad is configured to be in contact with a tire, and when the brake pad is located at the second position, the brake pad is separated from the tire.