A bumper cross beam connects to a body of a motor vehicle, in particular connects directly or indirectly to a left longitudinal beam and a right longitudinal beam. The bumper cross beam has a hollow profile base carrier which is reinforced on the front exterior in the travel direction by a front U-profile carrier element. A non-free limb of the front U-profile carrier element is spaced apart from a front side of the hollow profile base carrier.

A front bumper arrangement support structure for a motor vehicle includes a crossmember having a front end region that extends substantially transversely to the vehicle longitudinal direction, a fastening plate located to the rear of the crossmember and at least one deformation element that extends between the front end region of the crossmember and the fastening plate. Here, an integrated bumper element is provided. The bumper element extends in an arcuate manner between the front end region of the crossmember and the fastening plate and protrudes to the front or forward relative to the crossmember. The integrated bumper element, the deformation element and the fastening plate form an approximately triangular structure.

A deformation structure, which is an energy absorption structure, has a series of deformation elements arranged one behind the other in a deformation direction, i.e. the direction in which a load acts. Each two adjacent deformation elements are coupled together by a coupling mechanism, such that in a first load case, in particular a first collision load case, two adjacent deformation elements enter into a latching engagement with one another or are positioned in a latching engagement, such that a relative displacement of the adjacent deformation elements with respect to one another in the deformation direction is prevented, or at least made more difficult, and a deforming of the deformation structure occurs at a high level of force, and in a second load case, in particular a second collision load case, two adjacent deformation elements do not enter into the latching engagement or leave a latching engagement, such that a relative displacement of the adjacent deformation elements in the deformation direction is enabled, or at least made easier, and a deforming of the deformation structure occurs at a low level of force.

Pedestrian protection device including a composite body (146) having a plastic material (150) and one or more laminates (154), each including fibers (158) dispersed within a matrix material, wherein the body (146) defines an elongated beam (74) extending between first and second ends, the elongated beam (74) having first and second flanges (86), each extending between the first and second ends, and a web (94) extending between and connecting the first and second flanges (86), and wherein at least one of the one or more laminates (154) is disposed along the first flange (86, 90) and/or at least one of the one or more laminates (154) is disposed along the second flange (86, 90). In some devices, an outer surface (126, 130) of the first flange (86, 90) that faces away from the along the second flange (86, 90) is convex. In some devices, the matrix material of at least one of the one or more laminates (154) includes the plastic material (150).

A vehicle front structure includes a pair of side rails extending in a vehicle forward-rearward direction on right and left sides in a front portion of the vehicle and a hollow bumper reinforcement extending in a vehicle right-left direction and coupled to front ends of the pair of side rails. The bumper reinforcement includes side extension parts extending outward beyond the side rails, respectively. The vehicle front structure further includes load transmission members each extending from a front face of each of the side extension part of the bumper reinforcement through the side extension part and further extending rearward and toward the inward of the vehicle. In a small overlap crash, the load transmission member transmits a collision load directly to the side rail.

An energy absorber for a vehicle, comprising: a continuous beam to extend across a width of vehicle, the beam defining a plurality of inward facing cavities in a center section, with adjacent inward facing cavities separated from one another by an inward facing rib, and at each end portion a plurality of outward facing cavities, with adjacent outward facing cavities separated from one another by an outward facing rib, wherein the center section includes a panel that is continuous on its outward side, and that forms a relative bottom of each of the plurality of inward facing cavities with its inward face.

An energy absorbing structure includes a vehicle body frame member, a bumper member, an energy absorbing member and a connecting member. The vehicle body frame member is disposed along a longitudinal direction of a vehicle body. The bumper member is provided on an end portion of the vehicle body. The energy absorbing member is formed from fiber-reinforced resin and is provided between the vehicle body frame member and the bumper member. The vehicle body frame member and the bumper member are connected by the connecting member. The energy absorbing member is formed from fiber-reinforced resin, and the connecting member is formed from a non-brittle material. The connecting member has at least a portion that covers the outer surface of the energy absorbing member and that is closely arranged to the outer surface of the energy absorbing member.

A vehicle component includes a main panel extending in a first direction; a plurality of lobes extending in a second direction transverse to the first direction; and a plurality of ridges extending in the second direction. Each ridge extends around a subset of the lobes. Each lobe may be encircled by one of the ridges. The cover may include a plurality of depressions connecting the ridges to the corresponding lobes.

A bumper assembly for a motor vehicle includes an energy absorber providing a variable stiffness for different displacements. The energy absorber includes a skin portion attached to a bumper beam, a rib pivotally attached to an end of the skin portion and a reinforced element attached to an end of the rib. The rib is movable from a first position that provides a first stiffness for a first displacement to a second position providing a second stiffness greater than the first stiffness over a second displacement.

A bumper-reinforcing system (1) intended for a motor vehicle includes: a bumper beam (2) with a single-piece elongated profile with a closed cross section and including a center zone (21) extending at least over part of the entire width of the bumper beam and an end zone (22) at each extremity of the bumper beam, two bumper fasteners (3) connected to the rear side of the bumper beam (2) at the intersection between the center zone (21) and the end zone (22) of the bumper beam (2), two reinforcing tubes (4) connected by their first end to the rear side of the end zone (22) of the bumper beam (2), extending from the bumper beam (2) so as to form an angle ? below 45? with the vertical plane of symmetry of the bumper beam and suited to be connected by their other end on the front rail of the vehicle for which the bumper-reinforcing system (1) is provided, and two covers (5) with a single-piece elongated profile with an open cross section, in contact with the rear side of the end zone (22) of the bumper beam (2) and extending at least from the first end of one of the reinforcing tubes (4) to one of the bumper fasteners (3).