A crossmember for a bumper includes an extruded profile base frame with at least two connecting areas, for attaching the crossmember to a vehicle structure, and which are set at a distance from each other along a longitudinal direction. An extruded reinforcing element is fixedly secured to a rear side of the extruded profile base frame between the at least two connecting areas. The crossmember is weight-optimized and which can be produced in a cost-effective manner.

A sensor mounting structure for a vehicle includes: a fender panel; a cowl side panel provided at a lateral side of a cowl and disposed at an inner side, in a vehicle transverse direction, of the fender panel; a peripheral information detection sensor disposed at an inner side of the rear portion of the fender panel and at an outer side of the cowl side panel, the peripheral information detection sensor having a detection portion facing toward an outer side; and a mounting bracket having a vertical wall to which the peripheral information detection sensor is fixed, the mounting bracket being fixed to a vehicle body side member and being disposed between the peripheral information detection sensor and the cowl side panel.

A vehicle body structure includes a bumper beam extending in a vehicle width direction, and a pair of right and left bumper beam mounting members each disposed at an outer side in the vehicle width direction of a back face of the bumper beam and mounting the bumper beam on a front side frame. The bumper beam includes a first displacement promoting part that is provided at a mounting part for the bumper beam and the bumper beam mounting members and capable of promoting displacement of the bumper beam by a collision load. The bumper beam mounting member includes a second displacement promoting part that is provided at the mounting part and capable of promoting displacement of the bumper beam by a collision load.

A bumper beam of a vehicle body structure (1) is provided with a laterally extending laterally middle part (55) and a pair of end parts (56) each extending from a corresponding lateral end of the middle part in an outboard direction with a certain inward slant with respect to a fore and aft direction, and each end part curves at a laterally middle point thereof so as to have a concave side facing outward with respect to the fore and aft direction.

Provided is a vehicle body structure capable of preventing separation between a bumper beam and a bumper beam mounting member on the non-collision side at the time of an offset collision. The vehicle body structure includes a bumper beam, a pair of bumper beam mounting members, and a pair of holding members. The holding member includes an outer mounting portion for mounting an outer side in the vehicle width direction of the holding member on the bumper beam mounting member, and a front mounting portion for mounting an inner side in the vehicle width direction of the holding member on the front surface portion of the bumper beam. The front mounting portion extends to a position corresponding to a vehicle width direction inner end portion of the bumper beam mounting member in a front-rear direction at least on the front surface portion of the bumper beam.

A vehicle body front structure includes a front sub-frame configured such that a gear box is fitted to a front part of the front sub-frame, an arm portion extending from a front part of the front sub-frame forward and outward in a vehicle width direction, an impact absorbing portion supported by the arm portion, and a horn portion arranged on a front side of the impact absorbing portion.

According to the invention, both the cross-member and the shock absorber include an upper surface and a lower surface, and the bumper beam has an element for attaching the cross-member to the shock absorber, the attachment element including a strap connecting the lower and/or upper surfaces of the cross-member and the shock absorber.

A rack of unitary one-piece construction for mounting to a vehicle is disclosed. The rack may be made of plastic, and may be manufactured by injection moulding. The rack may be mounted and fastened to and fastened to a truck bed. The rack protects the rear window and the roof of the truck cab when the rack is mounted to the truck bed. A connector that is received in a stake pocket and fastened to a rail of the truck bed may be used to fasten the rack to the rail of the truck bed. The injection-moulded one piece plastic rack may allow for flexibility of ease of installation and uninstallation at leisure. Line of sight from the cab through the rear window may be provided with the rack mounted to the vehicle. The load supported by the rack may be distributed to its base.

A system for managing wheel kinematics during a small overlap collision event includes a deflector apparatus. The deflector is configured to direct a wheel away from an occupant compartment of a vehicle. The deflector includes a first section arranged at an inside wall of a wheel well facing a wheel, near the base of a hinge-pillar. The first section includes a hollow structure configured to absorb energy from the collision event by plastically deforming. The deflector also includes a second section arranged at an angle to the wheel and configured to deflect the wheel laterally outwards from the vehicle away from an occupant compartment during the small overlap collision event. The deflector may be formed of extruded aluminum. The system may include an absorber arranged behind the first section and configured to further absorb energy from the collision event by plastically deforming.

A mount for securing an element such as a radar transceiver on a vehicle includes a bracket securable to a vehicle bumper or other component. A cover plate is securable to the vehicle component opposite the bracket, and fasteners are extended through the cover plate and the bracket to clamp the bracket and the cover plate against opposite sides of the vehicle component, with the radar transceiver or other element located between the cover plate and a base of the bracket. An alignment arrangement may be included to permit changes to the positioning of the radar transceiver or other element between the cover plate and the base of the bracket for proper transceiver alignment. A process of securing a radar transceiver or other element on a vehicle is also described.