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 impact-absorbing structure 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 bumper assembly for a material handling vehicle is provided. The material handling vehicle includes a vehicle frame. The bumper assembly includes a first bumper coupled to a first side of the vehicle frame and having a first slot extending along a portion of the first bumper and a first protruding portion. The first protruding portion extends outwardly at an angle past a plane defined by the first side of the vehicle frame. The bumper assembly further includes a second bumper coupled to a second side of the vehicle frame opposite to the first side and having a second slot extending along a portion of the second bumper and a second protruding portion. The second protruding portion extends outwardly at an angle past a plane defined by the second side of the vehicle frame.

A vehicle front end structure includes a front bumper assembly, an overrider bracket, and a vehicle sensor. The front bumper assembly has a reinforcement bracket and a first energy absorbing member attached to forward portions of a vehicle body structure. The reinforcement bracket is located rearward of and spaced apart from a forward section of the first energy absorbing member defining a space therebetween. The first energy absorbing member further has a first lateral portion and a second lateral portion with a central gap defined therebetween. The overrider bracket is installed to the reinforcement bracket and is located within the central gap between the first lateral portion and the second lateral portion. The overrider bracket defines a pocket area with a second energy absorbing member installed within the pocket area. The vehicle sensor is supported to vehicle body structure and positioned above the second energy absorbing member.

A bumper for a motor vehicle has at least one longitudinal beam and a transverse beam that is secured to the longitudinal beam. The transverse beam is designed as a hollow profile body and is produced by connecting, in a material fit, a plurality of straps and webs.

A bumper assembly for a material handling vehicle is provided. The material handling vehicle includes a vehicle frame. The bumper assembly includes a first bumper coupled to a first side of the vehicle frame and having a first slot extending along a portion of the first bumper and a first protruding portion. The first protruding portion extends outwardly at an angle past a plane defined by the first side of the vehicle frame. The bumper assembly further includes a second bumper coupled to a second side of the vehicle frame opposite to the first side and having a second slot extending along a portion of the second bumper and a second protruding portion. The second protruding portion extends outwardly at an angle past a plane defined by the second side of the vehicle frame.

A bumper for a mobile platform of a guided test platform includes a first end, a second end residing opposite the first end, a first surface extending between the first and second ends, and a second surface extending between the first and second ends and residing opposite the first surface. The bumper defines a ramp structure extending between the bumper first end and the bumper second end. The ramp structure is structured to guide a wheel of a vehicle in a direction away from the first surface as the wheel moves along the second surface in a direction from the bumper first end toward the bumper second end.

An increased amount of absorption of a load from the diagonally upper front side is achieved even in, for example, a vehicle having a high vehicle height. A first shock absorbing member is provided inside a bumper face upper to absorb a load from the diagonally upper front side, a second shock absorbing member is mounted on a front face portion of a bumper beam, and a third shock absorbing member is disposed below the first shock absorbing member and between a bumper face and the bumper beam to absorb a load from the diagonally upper front side. The rigidity of the first and third shock absorbing members in the up-down direction is higher than rigidity of the second shock absorbing member in the front-rear direction.

A variable back beam and a method of allowing an inflator to vary the variable back beam in case of collision. The variable back beam includes a main beam connected to a front end module carrier, an inner beam inserted into each of both sides of the main beam, and an operation member operable to move the inner beam in a vehicle-width direction at the time of left front or right front collision of the vehicle. Since the back beam is extended in length at the time of collision, the impact area or shock absorption area of the back beam can be increased, the impact on the back beam, a crush box, and a collision object can be reduced, and particularly, it is possible to reduce the crush length of the left or right end of the back beam.

A vehicle front end structure includes a front bumper assembly, an overrider bracket, and a vehicle sensor. The front bumper assembly has a reinforcement bracket and a first energy absorbing member attached to forward portions of a vehicle body structure. The reinforcement bracket is located rearward of and spaced apart from a forward section of the first energy absorbing member defining a space therebetween. The first energy absorbing member further has a first lateral portion and a second lateral portion with a central gap defined therebetween. The overrider bracket is installed to the reinforcement bracket and is located within the central gap between the first lateral portion and the second lateral portion. The overrider bracket defines a pocket area with a second energy absorbing member installed within the pocket area. The vehicle sensor is supported to vehicle body structure and positioned above the second energy absorbing member.