A vehicle may include a CVT unit or a power source which requires ambient air. An air inlet for an air intake system coupled to the CVT unit or the power source which requires ambient air may be provided in a side of a cargo carrying portion of the vehicle. The vehicle may include a rear radius arm suspension.

A vehicle structure includes a vehicle frame and a push arm. The vehicle frame includes surfaces that define an intersection of a first side member and a first cross-member. The surfaces extend from the first side member to the first cross-member with an upper surface of a mid-section of the first cross-member being vertically spaced apart from an upper surface of the first side member. The push arm is coupled to the vehicle frame proximate the intersection. A rear surface of the push arm faces and is adjacent to a front area of the intersection. A main body of the push arm extends forward and laterally outboard from the rear surface such that the front surface is located laterally outboard of the first side member.

A door frame includes: an outer joint part of an outer member and an inner joint part of an inner member are welded at a plurality of welding portion;

wherein, in a cross-section orthogonal to an longitudinal direction, the inner joint part includes an inner inside surface an inner outside surface and an inner side surface, and the outer joint part includes an outer inside surface and an outer side surface; wherein, in at least one of the welding portions, an inner notch is provided at an outer edge of the inner joint part and a weld path is formed between the inner side surface and the outer side surface; and wherein a weld bead, which is formed to fill the weld path, is attached to the inner outside surface, the inner side surface, the inner inside surface, the outer side surface, and the outer inside surface.

A framework structure of a body-on-frame vehicle, the framework structure comprises a first framework, a second framework, and a battery. The first framework includes: a pair of left and right side rails extending in a vehicle body front-and-rear direction, a first cross-member and a second cross-member, both extending in a vehicle body left-and-right direction and linking the side rails. The second framework is structured in a rectangular shape in plan view and includes: a front cross portion and a rear cross portion that are formed in chamber shapes and extend in the vehicle body left-and-right direction, and a left side cross portion and a right side cross portion that are formed in chamber shapes and extend in the vehicle body front-and-rear direction. The battery is disposed in a cavity surrounded by the first framework and the second framework.

A rollover protective device (1) for a passenger vehicle has a supporting device (3) extending in the vertical elevation (2) when installed correctly. A crossbar (5) is fastened to the supporting device (3) and extends in a lateral direction (4) when installed correctly. The crossbar (5) is of beam-shaped design and is formed by a sheet metal construction (6) with a deformed front side and/or upper side (7, 8) and an inner supporting structure (9).

A flexible assembly line includes a common welding station having a first set of tooling adapted to engage and support a first type of vehicle frame and a second set of tooling adapted to engage and support a second type of vehicle frame. The first set of tooling is provided on a first side of a rotatable unit and the second set of tooling is provided on a second side of the rotatable unit such that the rotatable unit is rotatable to present either the first set of tooling or the second set of tooling for a welding operation. The flexible assembly includes a first dedicated welding station having dedicated tooling particularly adapted to engage and support only the first type of vehicle frame. The flexible assembly includes a second dedicated welding station having dedicated tooling particularly adapted to engage and support only the second type of vehicle frame.

An All-Terrain Vehicle with a frame comprising an arcuate shape. In one embodiment, the arcuate shape with an apex is located between a rear axis and a front axis such that there is additional clearance over a typical non arcuate frame or a flat frame for a given ride height. The frame may also provide for additional structural strength. The frame may also include the ability to attach periphery accessories such as an engine cage, a passenger cage, trailing arms, power train and transmission. In other embodiments the arcuate shape may be on a passenger compartment and the arcuate shape may be integrated with a window.

A vehicle body side reinforcement assembly includes a first side reinforcement panel; an inner center pillar coupled to the first side reinforcement panel and to a floor support forming a lower portion of a vehicle body; and a second side reinforcement panel coupled to the first side reinforcement panel, the inner center pillar, and the floor support to form a closed structure at a lower portion of the side of the vehicle. This structure improves vehicle body performance during a side collision by transferring the collision load to the floor support, resulting in improved safety performance. In addition, the assembly minimizes the number of necessary parts and allows for low-cost assembly methods, such as spot welding, thereby reducing production costs and increasing marketability.

A mounting device for a sub-frame may include a mounting bracket positioned to correspond with a one side penetration opening formed at a front side inside member of the front side member, a reinforce panel provided to an upper surface of the front side inside member, a mounting bolt separated with a bolt part and a head by a flange which is positioned at a center thereof, joined to a circumference of a bolt opening of the mounting bracket through the flange on a state that the bolt part is inserted into the bolt opening of the mounting bracket, and joined on a state that the head is wedged through the penetration opening of the front side inside member to the welding opening of the reinforce panel, and a foam filler foamed by a heat treatment and filled in a space formed by the front side inside member, the mounting bracket, the reinforce panel, and a front side outside member.

A utility vehicle includes a plurality of ground-engaging members, a frame supported by the ground-engaging members, and a plurality of body panels supported by the frame. The utility vehicle also includes a radiator supported on a rear portion of the frame. Additionally, the utility vehicle includes an air intake assembly partially supported by an upper portion of the frame.