A front side frame provided on each of right and left sides of the vehicle and extending in a vehicle longitudinal direction; and a bumper beam provided on a vehicle front side of each of the front side frames and having an inclined section in each end portion in a vehicle width direction, the bumper beam extending outward in the vehicle width direction and being inclined rearward in. A crash can is provided in a front end portion of each of the front side frames, extends forward, and is inclined outward in the vehicle width direction. A front end portion of each of the crash cans is coupled to the respective inclined section of the bumper beam. On an inner side in the vehicle width direction of each of the crash cans, a vulnerable portion is provided, and has low strength against a collision load input to the bumper beam.

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 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.

An embodiment vehicle body coupling structure of a vehicle that includes an underbody and an upper body coupled to the underbody includes a front back beam assembly provided on a front side of the underbody, a first mounting part provided on a front side member of the upper body and coupled with the front back beam assembly, and a first body coupling part provided on the front back beam assembly and engaged with the first mounting part.

An embodiment vehicle body coupling structure of a vehicle that includes an underbody and an upper body coupled to the underbody includes a front back beam assembly provided on a front side of the underbody, a first mounting part provided on a front side member of the upper body and coupled with the front back beam assembly, and a first body coupling part provided on the front back beam assembly and engaged with the first mounting part.

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.

A bracket for a cooling module in a front end structure of a vehicle includes forward crash-box connection means, cooling module connection means, a rigid arm extending between the forward crash-box connection means at a forward side and the cooling module connection means at a rearward side; rear crash-box connection means; and a break-away arm extending from the rearward side of the rigid arm and the rear crash-box connection means.

A bracket for a cooling module in a front end structure of a vehicle includes forward crash-box connection means, cooling module connection means, a rigid arm extending between the forward crash-box connection means at a forward side and the cooling module connection means at a rearward side; rear crash-box connection means; and a break-away arm extending from the rearward side of the rigid arm and the rear crash-box connection means.

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.