An automobile bumper is provided in which the bumper beam includes a middle curved part that curves concavely rearwards and a pair of left and right curved parts that curve convexly rearwards, and the left and right curved parts includes a rear side frame connecting part and a load input part projecting rearwards the most among the bumper beam parts. Since the bumper beam includes a compression-resistant reinforcing part provided along the inner face in the fore-and-aft direction of the load input part, and an extension line of the compression-resistant reinforcing part is directed toward the vicinity of the load input point of the load input part, supporting the compressive load by the compression-resistant reinforcing part to thus prevent the bumper beam from being destroyed enables the strength toward bending deformation to be enhanced without reinforcement by increasing the plate thickness of the bumper beam.

An energy-absorbing member includes a fiber structure. The fiber structure includes a first end face configured to first receive a load and a second end face opposite to the first end face in the direction that the load is applied. The fiber structure includes a shape retention section including the first end face, a main section that includes the second end face and hinders propagation of breakage of the fiber structure, and a trigger section that is located between the shape retention section and the main section and serves as a starting point of breakage when receiving an impact load. The shape retention section and the main section each have a woven structure that allows the shape retention section and the main section to have a higher interlayer bonding strength than the trigger section.

A front carriage for a motor vehicle includes a bumper covering and a support structure, which supports the bumper covering. At least one support device supports the bumper covering against the support structure in the direction of the vehicle height (z) and enables a deformation movement of the bumper covering relative to the support structure in longitudinal vehicle direction (x) in the event of a crash.

A front carriage for a motor vehicle includes a bumper covering and a support structure, which supports the bumper covering. At least one support device supports the bumper covering against the support structure in the direction of the vehicle height (z) and enables a deformation movement of the bumper covering relative to the support structure in longitudinal vehicle direction (x) in the event of a crash.

A mobile platform including a vehicle body, an elastic anti-collision strip and two trigger mechanisms is provided. The vehicle body has two side surfaces and a front side surface connected between the two side surfaces. A safety network is provided in the vehicle body. The elastic anti-collision strip includes an impact receiving section and two fixing sections respectively connected to the impact receiving section. The impact receiving section is arc-shaped and located on the front side surface. The two fixing sections are respectively fixed to the two side surfaces. The two trigger mechanisms are respectively fixed to the two side surfaces and connected to the two fixing sections. The trigger mechanisms are used to trigger the safety network according to a deformation condition of the impact receiving section. The two fixing sections are used to control the deformation condition. A driving method of the mobile platform is also provided.

A mobile platform including a vehicle body, an elastic anti-collision strip and two trigger mechanisms is provided. The vehicle body has two side surfaces and a front side surface connected between the two side surfaces. A safety network is provided in the vehicle body. The elastic anti-collision strip includes an impact receiving section and two fixing sections respectively connected to the impact receiving section. The impact receiving section is arc-shaped and located on the front side surface. The two fixing sections are respectively fixed to the two side surfaces. The two trigger mechanisms are respectively fixed to the two side surfaces and connected to the two fixing sections. The trigger mechanisms are used to trigger the safety network according to a deformation condition of the impact receiving section. The two fixing sections are used to control the deformation condition. A driving method of the mobile platform is also provided.

A galvanized reinforcement beam is continuously formed by uncoiling a roll of galvanized sheet stock in a generally horizontal plane. Protrusions are formed at an upper surface of the sheet stock, which is then roll formed to form a tubular shape with the protrusions abutting a surface of the sheet stock to form venting gaps. The sheet stock is laser welded at the protrusions to continuously form a weld joint, where zinc oxide gas generated from the welding is permitted to escape an interior of the tubular shape through the venting gaps.

A galvanized reinforcement beam is continuously formed by uncoiling a roll of galvanized sheet stock in a generally horizontal plane. Protrusions are formed at an upper surface of the sheet stock, which is then roll formed to form a tubular shape with the protrusions abutting a surface of the sheet stock to form venting gaps. The sheet stock is laser welded at the protrusions to continuously form a weld joint, where zinc oxide gas generated from the welding is permitted to escape an interior of the tubular shape through the venting gaps.

An energy absorber includes a main body of a closed cross-sectional structure formed by injection-molding a fiber-reinforced thermoplastic and having a weld line formed thereon. The main body has openings defined in opposite ends thereof, each of the openings being of a polygonal shape. The weld line is formed on a side surface of the main body. A tilt angle of the weld line is set to a value in a range from −35° to 35° with respect to a reference line interconnecting midpoints on opposite sides of the side surface that are located at the opposite ends of the main body.

An energy absorber includes a main body of a closed cross-sectional structure formed by injection-molding a fiber-reinforced thermoplastic and having a weld line formed thereon. The main body has openings defined in opposite ends thereof, each of the openings being of a polygonal shape. The weld line is formed on a side surface of the main body. A tilt angle of the weld line is set to a value in a range from −35° to 35° with respect to a reference line interconnecting midpoints on opposite sides of the side surface that are located at the opposite ends of the main body.