A vehicle bumper assembly includes a bumper beam and a crush can attached to an end portion of the bumper beam. An impact dispersion plate is attached to a front face of the bumper beam at the end portion of the bumper beam. A front surface of the impact dispersion plate extends downward from the front face of the bumper beam. A lower reinforcement member attached to a rear surface of the impact dispersion plate and extends along a lower section of the impact dispersion plate. An upright reinforcement member has an upper portion attached to the bumper beam and a lower portion attached to the lower reinforcement member. The upright and lower reinforcement members are configured, upon impact with a barrier, to disperse deformation of the barrier over the impact dispersion plate below the bumper beam.

An automotive vehicle includes a body having fore and aft portions. The vehicle includes a bumper beam coupled to the vehicle body proximate the fore portion and a heat exchanger disposed aft of the bumper beam. A fascia assembly is coupled to the vehicle body and extends about the bumper beam. The fascia assembly includes a fascia inlet configured to direct an airflow from the exterior of the fascia assembly to the interior of the fascia assembly. An energy absorption member is disposed between the fascia and the bumper beam. An air passage extends through at least one of the bumper beam and the energy absorption member. The air passage extends from an air passage inlet to an air passage outlet. The air passage inlet is positioned downstream of the fascia inlet with respect to the airflow, and the air passage outlet being positioned upstream of the heat exchanger.

A vehicle includes a pair of frame rails and a bumper assembly. The bumper assembly includes a bumper beam supported by the frame rails and an airbag. The airbag includes a first airbag chamber supported by the bumper beam and inflatable to an inflated position, and a second airbag chamber supported by the bumper and inflatable to an inflated position. The first airbag chamber is disposed in a cross-vehicle direction relative to the second airbag chamber. The first airbag chamber has a first volume in the inflated position. The second airbag chamber has a second volume in the inflated position. The first volume is different than the second volume.

An automobile structural member has a first wall part, a second wall part that faces the first wall part, and a third wall part that connects the first wall part and the second wall part. At least one of the first wall part and the second wall part has a main wall part in which two through-holes are formed, and at least two auxiliary wall parts that are provided so as to rise from the main wall part. Each auxiliary wall part is provided so as to rise in the thickness direction of the main wall part from an edge of a through-hole. The distance between two auxiliary wall parts in the longitudinal direction of the main wall part is 1.4 times or less the width of the main wall part at a portion between the two auxiliary wall parts.

The present disclosure relates to a Vehicle front structure as defined above is provided, in which the front structure comprises: a side member for supporting a vehicle bumper beam, the side member extending along a longitudinal axis between a first end for connecting to the vehicle bumper beam and a second end for connecting to a bulkhead, and a lateral extension member extending substantially perpendicular with respect to the longitudinal axis of the side member and outward with respect to the vehicle front structure, the lateral extension member is connected to the side member such that the lateral extension member can exert a bending moment to the side member, and a bending strength of the lateral extension member in backward direction towards the side member is higher compared to a bending strength in the forward direction away from the side member.

A bumper arrangement includes a cross member and two deformation elements for arrangement between end regions of the cross member and longitudinal members of a motor vehicle. The cross member is hollow with a front and rear walls and upper and lower walls. The front wall has a depression extending in longitudinal direction of the cross member. The depression has a deepest region extending at a distance from the rear wall. The upper and lower walls of the cross member each have in the end regions a further depression which extends in longitudinal direction of the cross member, so that the upper wall and the lower wall are more corrugated in the end regions than in a central region of the cross member, so that the distance between the front wall and the rear wall in the end regions is smaller than in a central region of the cross member.

A bodywork structure for a passenger vehicle includes a bodywork shell construction with two longitudinal girders and a flexible crossmember device attached to the two longitudinal girders. The flexible crossmember device has a first flexible crossmember and two energy absorption elements where the two energy absorption elements are respectively fixed to the two longitudinal girders and the first flexible crossmember is connected to the two longitudinal girders via the two energy absorption elements. A support framework is disposed between the two longitudinal girders and has a second flexible crossmember that is at least indirectly connected to the two longitudinal girders and is convexly curved in a direction of the first flexible crossmember. The support framework has a load divider disposed between the first flexible crossmember and the second flexible crossmember in the longitudinal direction of the passenger vehicle and extending in the transverse direction of the passenger vehicle.

An impact structure for attenuating longitudinally-directed vehicle impacts, comprising first and second attenuation plates, where the plates are spaced apart from each other at a mounting region of the impact structure and fixed to each other at an impact region of the impact structure, and the impact region is longitudinally distal from the mounting region. There is an aperture pattern on each attenuation plate, wherein each aperture of the aperture pattern on each attenuation plate has an aspect ratio defined by the maximum size of the aperture in the longitudinal direction divided by the maximum size of the aperture in the direction perpendicular to the longitudinal direction; and the aspect ratio of the apertures of the aperture pattern on each attenuation plate generally increases or decreases in the longitudinal direction between the mounting region and the impact region.

A vehicle body rear structure includes a floor pan 13, a subframe, an impact absorbing member 4 provided behind the subframe, a bracket 5 for detachably attaching the impact absorbing member 4, and an extension member 6 provided to face a rear end portion 39 of the impact absorbing member 4. The impact absorbing member 4 has a first extending portion 47 along a lower surface 13a of the floor pan 13 and a second extending portion 48 that extends forward with respect to the floor pan 13. The extension member 6 extends above the impact absorbing member 4 in the vertical direction.

A press-formed vehicle structural member includes: a top wall; a pair of lateral walls extending from opposite edges of the top wall in a broadening manner; and a pair of flanges bending outwardly from edges of the lateral walls, wherein the vehicle structural member has a hat-shaped cross section perpendicular to a longitudinal direction of the vehicle structural member. In some embodiments, a bending angle between the lateral walls and the flanges is 87° to 94°. In some embodiments, a length of the flanges from the lateral wall is greater than 11 mm.