A vehicle includes: a bumper assembly defining opposite lateral ends and an overall width extending therebetween, the bumper assembly defining a recessed area located between the opposite lateral ends thereof; an electronic sensor supported by the bumper assembly in cantilevered relation; and an energy absorber positioned within the recessed area to protect the electronic sensor and reduce dislocation of the electronic sensor by absorbing energy resulting from an impact between the vehicle and an external object. The energy absorber defines opposite lateral ends and an overall width extending therebetween less than that the overall width of the bumper assembly such that the opposite lateral ends of the energy absorber are spaced inwardly from the opposite lateral ends of the bumper assembly.

A pedestrian protection device for a motor vehicle includes a crossbar and a deformation device which is arranged in front of the crossbar. The deformation device has bending limbs with ends which contact a surface or come into contact with the surface in the event of a collision of the motor vehicle and which are designed to be movable along the surface as a result of the collision, and a latching device is formed on the surface, said latching device being latchable with the ends of the bending limbs as a result of the collision. The deformation device has a plurality of such bending limbs, wherein a first bending limb and a second bending limb are arranged adjacently to each other, and the first bending limb and the second bending limb are offset relative to each other in the movement direction of the bending limbs and/or the end of the first bending limb and the end of the second bending limb are designed to be movable in opposite directions.

There is provided a bumper absorber attachment structure including (1) bumper reinforcement, (2) a first engaged portion that is formed at a vehicle upper side of a side face at a vehicle front side of the bumper reinforcement, (3) a second engaged portion that is formed at a vehicle lower side of the side face at the vehicle front side of the bumper reinforcement, (4) a bumper absorber that includes a thinned portion, an upper leg, and a lower leg, (5) a first engagement portion that is formed at a vehicle rear side of the upper leg, and that engages with the first engaged portion, and (6) a second engagement portion that is formed at a vehicle rear side of the lower leg, and that engages with the second engaged portion in a case in which the bumper absorber is displaced toward the vehicle lower side in a collision.

A vehicle front portion structure comprising: a bumper reinforcement disposed at a vehicle front end portion side such that a longitudinal direction of the bumper reinforcement is aligned with a vehicle transverse direction; a pedestrian collision detection sensor comprising a pressure tube and outputting signals based on pressure changes in the pressure tube, the pressure tube comprising: a main tube disposed at a vehicle front side of the bumper reinforcement and extending along the bumper reinforcement from one end portion in the longitudinal direction of the bumper reinforcement to another end portion in the longitudinal direction thereof; and a pair of outer side tubes provided continuously with the main tube and, as viewed from a vehicle front-rear direction, extending respectively towards a vehicle lower side from positions of the one end portion and the other end portion of the main tube; and an absorber.

A bumper structure of the present disclosure includes: a bumper face; a bumper beam; and an impact-absorbing member interposed to be compressively deformed between the exterior member and the movable-body-side rigid member. The movable-body-side rigid member, in an up-and-down direction of the movable-body-side rigid member, includes: a plurality of recesses recessed toward the movable body; and a protrusion protruding forward the movable body to be formed between the plurality of recesses. The plurality of recesses each have a vertical width gradually tapering toward the movable body, and the impact-absorbing member is fitted into at least two of the plurality of recesses.

A structural body of a vehicle comprises: a hollow component comprising walls that define a channel, wherein the component has a component length, and wherein the component is selected from the group consisting of beam, rail (58), pillar (50,52,54,5), chassis, floor rocker (60), and cross-bar, or combinations comprising at least one of the foregoing; and a plastic-metal hybrid reinforcement (1) having cavities therethrough (14), and a support (6) having greater than or equal to 3 walls forming a support channel. The plastic element (4) is located in the support channel (6) wherein the reinforcement (1) is located in the component channel.

In order to absorb collision energy so as to prevent an increase in reaction force against a pedestrian to a level higher than or equal to a certain level during collision, a bumper absorber of the present invention includes: a trunk part that extends in an X direction and that is simply compressed in the X direction in response to an impact; and a branch part that branches off from the trunk part toward a rear of a vehicle body, the branch part having a branching part in which the branch part branches off from the trunk part and which is provided with a breakage inducing part that causes breakage between the trunk part and the branch part in response to the impact.

An energy absorption device for a bumper of a motor vehicle has a first deformation element on the front side of the bumper. The first deformation element is a foam shaped part which extends over the width of the bumper and has a density of from 20 to 50 g/l. At least one second deformation element, with a density which is at least 50 g/l higher than the first deformation element, is inserted into the first deformation element.

A contact detection apparatus includes a bumper beam, an absorber, a contact detection sensor, a tube holder, a cover, and first and second protrusions. A pressure tube is held in a groove of the tube holder. The cover is attached to a front end of the tube holder. A pressing member of the cover is disposed inside an opening groove of the groove and in front of the pressure tube. The pressure tube includes first and second protrusions on its outer periphery. The first protrusion projects in a frontward direction, faces the pressing member in frontward and backward directions, and has a pair of upper and lower surfaces inclining in respective directions to come closer to each other as the upper and lower surfaces extend in the frontward direction as seen in a vehicle width direction. The second protrusion is disposed above the first protrusion in an upward direction.

A contact detection apparatus includes a bumper beam, an absorber, a contact detection sensor, a tube holder, and a cover. The absorber is disposed in front of and adjacent to the bumper beam. The contact detection sensor includes a pressure tube and outputs a signal in accordance with a change in pressure of the pressure tube. The tube holder is a part of a front end of the absorber and has a groove holding the pressure tube therein. The cover is attached to a front end of the tube holder and includes a body covering a front face of the tube holder and a pressing member disposed in front of the pressure tube. An upper end of a rear face of the pressing member is disposed at a more backward position than a lower rear end of the pressing member.