A bumper cross member designed as a hollow chamber profile for a motor vehicle having an upper component and a lower component joined to the upper component. Both components are each designed as a half shell having two legs spaced apart from one another and a web connecting the legs. An insert plate is joined to the legs of the half shells. The insert plate is arranged between the joints of the legs of the half shells facing toward one another and bridges the joint spacing between the legs of the two half shells.

A vehicle reinforcement assembly includes a detector and a reinforcement member. The detector is configured to be housed in an interior compartment of a vehicle. The reinforcement member is configured to be housed in the interior compartment at a location adjacent to the detector. The reinforcement member has a vehicle forward facing end that extends closer to a vehicle front end than the detector extends to the vehicle front end.

A motor vehicle bumper that has a transverse carrier which can be secured transversely relative to the longitudinal carriers of the motor vehicle by crash boxes. The transverse carrier has a shell member which is open toward the front side and which has a rear wall and two outer members which are both adjoined at the end side by an outwardly directed longitudinal flange. The shell member has a central longitudinal portion which is adjoined in the direction toward the two ends of the transverse carrier by a transition portion, an intermediate portion, a crash box connection portion and an end portion. The shell member is closed at least over the majority of the length thereof by a closure plate which forms the front side. In the transition portions, the shell member has a minimum depth which is less than the maximum depth in the central longitudinal portion.

A motor vehicle bumper that has a transverse carrier which can be secured transversely relative to the longitudinal carriers of the motor vehicle by crash boxes. The transverse carrier has a shell member which is open toward the front side and which has a rear wall and two outer members which are both adjoined at the end side by an outwardly directed longitudinal flange. The shell member has a central longitudinal portion which is adjoined in the direction toward the two ends of the transverse carrier by a transition portion, an intermediate portion, a crash box connection portion and an end portion. The shell member is closed at least over the majority of the length thereof by a closure plate which forms the front side. In the transition portions, the shell member has a minimum depth which is less than the maximum depth in the central longitudinal portion.

To suppress deformation of a vehicle cabin by efficiently absorbing an impact load obliquely from a vehicle front side, a vehicle-body front structure includes an upper-side cross member, a lower-side cross member, upper-side impact absorption members that support respective ones of both vehicle-width-direction sides of the upper-side cross member, and lower-side impact absorption members that support respective ones of both vehicle-width-direction sides of the lower-side cross member. The upper-side impact absorption members and the lower-side impact absorption members are each positioned farther on a vehicle-width-direction outer side at a position farther on a vehicle front side.

A vehicle front structure that absorbs a shock load applied to immediately under a front grille by using a structure at a position higher than a bumper beam as a support. The vehicle front structure includes a shock absorbing member at an interior of a bumper face below a front grille. The shock absorbing member includes a load receiving portion that receives a load, an abutting portion abutting against a structure above a bumper beam during receding of the shock absorbing member, an upper-side connecting portion connecting the load receiving portion and the abutting portion, a locking portion deformed while being locked to the bumper beam during receding of the shock absorbing member, and a lower-side connecting portion connecting the load receiving and locking portions. A bending facilitating portion extending in the vehicle width direction is formed on the side of a rear portion of the upper-side connecting portion.

An under-protector fastening structure includes a bumper assembly coupled to a chassis frame, wherein the bumper assembly includes a bumper inner member and a bumper cover coupled to an outer side of the bumper inner member, and an under-protector coupled to the bumper inner member of the bumper assembly in a direction vertical to a length direction of a vehicle body, wherein the under-protector includes an under-protector mounting assembly coupled to the bumper inner member and an under-protector panel coupled to the under-protector mounting assembly, and wherein the under-protector mounting assembly includes a pipe member extending in the direction vertical to the length direction of the vehicle body, a mounting bracket coupled to the pipe member and the bumper inner member, and an under-protector fixing bracket having a first side coupled to the mounting bracket and a second side coupled to the under-protector panel.

A vehicle includes a vehicle frame, a vehicle bumper and a load transfer assembly. The vehicle bumper is coupled to a front end of the vehicle frame and includes a center beam and a bumper beam extension that extends laterally from an end of the center beam. The load transfer assembly includes first and second pivot pins and a load beam. The first pivot pin is fixed to the bumper beam extension and the second pivot pin is fixed to the vehicle frame. The load beam has a first end pivotably coupled to the first pivot pin and a second end pivotably coupled to the second pivot pin. The load beam is configured to load the vehicle frame in a lateral direction upon a vehicle impact event.

A vehicle body front structure includes front frames, first and second bumper beams, sub-frames, gussets, and load transmission members. The front frames extend in a front-rear direction. The first bumper beam is disposed in front of the front frames. The first bumper beam extends in a vehicle width direction. The sub-frames are disposed below the front frames. The sub-frames extend in the front-rear direction. The second bumper beam is coupled to front ends of the sub-frames. Ends of the second bumper beam protrude further outward than the first bumper beam. Each gusset is coupled to a corresponding one of ends of the second bumper beam and a corresponding one of intermediate portions of the sub-frames. The gussets transmit an impact load to the intermediate portions. The load transmission members are coupled to the sub-frames. The load transmission members are disposed on outer side surfaces of the front frame.

A vehicle body front structure includes front frames, first and second bumper beams, sub-frames, gussets, and load transmission members. The front frames extend in a front-rear direction. The first bumper beam is disposed in front of the front frames. The first bumper beam extends in a vehicle width direction. The sub-frames are disposed below the front frames. The sub-frames extend in the front-rear direction. The second bumper beam is coupled to front ends of the sub-frames. Ends of the second bumper beam protrude further outward than the first bumper beam. Each gusset is coupled to a corresponding one of ends of the second bumper beam and a corresponding one of intermediate portions of the sub-frames. The gussets transmit an impact load to the intermediate portions. The load transmission members are coupled to the sub-frames. The load transmission members are disposed on outer side surfaces of the front frame.