The disclosure relates to an assembly for a motor vehicle with an auxiliary frame to connect to a wheel suspension, whereby the auxiliary frame may be constructed in a shell construction having an upper shell and a lower shell. The shells may enclose an internal shell space and be rigidly connected to each other. The assembly may also comprise a shock-absorbing structure. The shock-absorbing structure can be fully or partially integrated in the internal shell space of the auxiliary frame in the form of an insert and immovably positioned within it.

A vehicle door for a motor vehicle, including a support structure, an inner shell fixed to the support structure, and an outer panelling fixed to the inner shell. The inner shell is formed and connected to the support structure in such a way that it is a load-bearing component, thereby increasing the overall rigidity of the vehicle door.

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.

A crash beam receiver for coupling to a crash beam for reducing the effects of a vehicle collision. The crash beam receiver includes a plurality of surfaces that are coupled together to form a hollow opening for receiving the crash beam. The crash beam receiver also includes a gate structure for providing a stopping point for the crash beam when the crash beam is inserted into the crash beam receiver. The gate structure includes a left gate, a right gate, and a protrusion structure that help to linearize the self-collapsing process of the crash beam in the longitudinal direction. The protrusion structure has a certain thickness such that the crash beam is caused to collapse inward toward its center in the event of a vehicle collision.

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.

A structural beam component for a vehicle comprises: a beam body that has an I-section for at least part of its length, the beam body having first and second sides opposite each other, wherein the I-section extends at least partially along the first and second sides; a crash rail attachment at one end of the beam body, the crash rail attachment providing a fore-aft backup structure for a crash rail in the vehicle; another attachment at an opposite end of the beam body, the other attachment connecting the structural beam component to a side sill of the vehicle; and first and second ribbing on the first and second sides, respectively.

A reinforcing structure of a vehicle frame member includes: ribs that integrally connect standing wall portions, that are formed at a planar portion of a vehicle frame member, to one another, and that reinforce the planar portion; portions of gradually changing thickness that are formed at connected portions of the ribs with the standing wall portions; portions of gradually changing height that are formed at the connected portions of the ribs with the standing wall portions; first curved portions that are formed at the portions of gradually changing thickness; second curved portions that are formed at the portions of gradually changing thickness; third curved portions that are formed at the portions of gradually changing height; and fourth curved portions that are formed at the portions of gradually changing height.

The disclosure relates to an assembly for a motor vehicle with an auxiliary frame to connect to a wheel suspension, whereby the auxiliary frame may be constructed in a shell construction having an upper shell and a lower shell. The shells may enclose an internal shell space and be rigidly connected to each other. The assembly may also comprise a shock-absorbing structure. The shock-absorbing structure can be fully or partially integrated in the internal shell space of the auxiliary frame in the form of an insert and immovably positioned within it.

A main body (2) has door attaching portions respectively formed on both end sides of a long longitudinal direction thereof and a bending deformation generation portion (3) disposed between the door attaching portions, and the bending deformation generation portion (3) has a groove bottom portion (4), two edge line portions (5a, 5b), two vertical wall portions (6a, 6b), two curved portions (7a, 7b), and two flanges (8a, 8b). There is provided a bead (13) which is formed toward the longitudinal direction of the main body (2) in a part of the groove bottom portion (4) in a manner to project in a shape having a curved surface toward the outside of a cross-sectional shape of the bending deformation generation portion (3) so as to oppose an impact load acting on a door impact beam (1).

A steering wheel includes: a cylindrical slider which is disposed on an outer side of a support member so as to slide in a front-to-rear direction and which is biased to the rear; a cap member which covers at least respective rear end portions of the support member and the slider from the rear; a movable-side contact portion which is provided inside the cap member; an annular damper holder which is mounted inside the cap member; an annular elastic member which is interposed between the slider and the damper holder; a transmitting portion which is provided in an inner circumferential portion of the damper holder; and a movement catch portion which is provided on an outer circumferential portion of the slider so as to be positioned immediately before the transmitting portion and to which a forward movement of the damper holder is transmitted through the transmitting portion.