A beam assembly includes a first beam that has a first tubular portion and a first projecting portion that extends from the first tubular portion. A second beam has a second tubular portion and a second projecting portion that extends from the second tubular portion. The elongated interior of the first tubular portion defines a first hollow area and the elongated interior of the second tubular portion defines a second hollow area. The first beam is attached to the second beam with the first projecting portion attached to the second tubular portion and the second projecting portion attached to the first tubular portion to define a third hollow area between the first and second projecting portions.

The invention relates to a crash structure for a motor vehicle, comprising a carrier body, from the carrier surface of which at least one deformation unit formed integrally with the carrier body protrudes, which deformation unit is formed by at least two deformation elements arranged one over the other and connected to each other and by an impact surface, wherein: a longitudinal section of each deformation element has two longitudinal section surfaces lying opposite each other and following respective non-straight curves; the impact surface is spaced apart from the carrier surface by the deformation elements.

The invention relates to a crash structure for a motor vehicle, comprising a carrier body, from the carrier surface of which at least one deformation unit formed integrally with the carrier body protrudes, which deformation unit is formed by at least two deformation elements arranged one over the other and connected to each other and by an impact surface, wherein: a longitudinal section of each deformation element has two longitudinal section surfaces lying opposite each other and following respective non-straight curves; the impact surface is spaced apart from the carrier surface by the deformation elements.

There is provided a reinforcement member for a vehicle which includes a cylindrical body section having a continuously closed cross section intersecting with a longitudinal direction. The cylindrical body section has a first surface, a second surface, and a third surface. The third surface has a fourth surface extending away from the second surface, and a fifth surface connecting the fourth surface and the first surface to each other. In a sectional view when viewed in the longitudinal direction, in a case where a virtual line connecting a first intersection portion where the first surface and the third surface intersect with each other and a second intersection portion where the second surface and the third surface intersect with each other is set, a third intersection portion where the fourth surface and the fifth surface intersect with each other protrudes outward with respect to the virtual line.

There is provided a reinforcement member for a vehicle which includes a cylindrical body section having a continuously closed cross section intersecting with a longitudinal direction. The cylindrical body section has a first surface, a second surface, and a third surface. The third surface has a fourth surface extending away from the second surface, and a fifth surface connecting the fourth surface and the first surface to each other. In a sectional view when viewed in the longitudinal direction, in a case where a virtual line connecting a first intersection portion where the first surface and the third surface intersect with each other and a second intersection portion where the second surface and the third surface intersect with each other is set, a third intersection portion where the fourth surface and the fifth surface intersect with each other protrudes outward with respect to the virtual line.

The vehicle body includes: a pair of left and right rear side members extending in a front-rear direction of the vehicle body, and a rear bumper beam which extends in a left-right direction of the vehicle body to be coupled to each rear side member at both ends, and bulges rearward toward a center of the left-right direction. The rear bumper beam has an intermediate body extending in the left-right direction at the center of the left-right direction, and inclined bodies which are displaced forward as expanding to the left and right toward the respectively corresponding rear side member from both ends of the intermediate body. A rearward surface of the intermediate body includes a vertical surface, and an inclined surface which is continuous from at least either an upper end or a lower end of the vertical surface and is displaced forward as separating from the vertical surface.

The vehicle body includes: a pair of left and right rear side members extending in a front-rear direction of the vehicle body, and a rear bumper beam which extends in a left-right direction of the vehicle body to be coupled to each rear side member at both ends, and bulges rearward toward a center of the left-right direction. The rear bumper beam has an intermediate body extending in the left-right direction at the center of the left-right direction, and inclined bodies which are displaced forward as expanding to the left and right toward the respectively corresponding rear side member from both ends of the intermediate body. A rearward surface of the intermediate body includes a vertical surface, and an inclined surface which is continuous from at least either an upper end or a lower end of the vertical surface and is displaced forward as separating from the vertical surface.

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 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 towable crash-attenuating vehicle is shown having a frame; at least two axles coupled to the frame, each of the axles having wheels attached thereto; a T-shaped ballast coupled to the frame, and oriented such that the weight of the ballast is biased toward the front end of the frame; deflection shields coupled to the right and left sides of the frame, wherein the deflection shields cover the frame and a majority of the wheels on each side of the vehicle; a tow connection coupled to the front of the frame, pivotable from a deployed state to an undeployed state; an impact attenuator coupled to the rear of the frame; wherein the vehicle is provided with a brake system, and wherein said brake system may be locked and unlocked and wherein the vehicle is provided with an on-board mechanism for locking and unlocking the brake system.