A vehicle body front structure includes: a side frame extending in a front-rear direction in a front part of a vehicle body; a branch frame provided on a vehicle width direction outer side of the side frame; and a coupling member attached to and between the side frame and the branch frame. The branch frame has a rear end portion housed in the side frame and fixed to a vehicle width direction inner wall portion of the side frame. A ridgeline formed on the branch frame is aligned with a ridgeline formed on the inner wall portion of the side frame in the front-rear direction. A ridgeline formed on the coupling member is aligned with a ridgeline formed on an outer wall portion of the side frame in the front-rear direction.

A load distribution structure for a vehicle includes: a pair of front side members which are spaced apart from each other in a width direction of the vehicle on a front side of the vehicle; a pair of side sills respectively connected to the front side members; a pair of front pillars respectively connected to front ends of the side sills; a pair of connection members each connecting the front side members and the corresponding side sill along a longitudinal direction of the vehicle; and a dash crossmember transversely connected to the pair of connection members. In particular, each front side member is overlapped and joined to the corresponding connection member, and end portions of the dash crossmember are overlapped and joined to the connection members, respectively.

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 composite tie bar assembly for distributing loads to a support frame of an automotive vehicle. The tie bar assembly includes a pair of spaced apart. reinforcement bars extending longitudinally between opposing ends. A tie bar shell is supported by the reinforcement bars and extends between opposite first and second distal cods. The tie bar shell has a first support plate extending between the reinforcement bars adjacent the first distal end and a second support plate extending between the reinforcement bars adjacent the second distal end. Bach of the support plates includes a plurality of structural ribs formed Integral therewith for distributing loads from the reinforcement bars to the support frame of the vehicle.

The crush can 4 is provided therein with the ribs 46 and 47 extending in the vehicle front and rear direction. The bumper beam 6 is provided therein with the ribs 66 and 67 extending in the vehicle front and rear direction. The rib 46 of the crush can 4 and the rib 66 of the bumper beam 6 are disposed at approximately the same height, and the rib 47 of the crush can 4 and the rib 67 of the bumper beam 6 are disposed at approximately the same height.

A vehicle dent protection assembly includes a vehicle that has a plurality of body panels. A plurality of extension units is each removably coupled to the vehicle. Each of the extension units is actuatable between a deploying position and a retracting position. The plurality of extension units includes a set of first extension units and a set of second extension unit. A pair of barrier units is each movably coupled to a respective one of the first and second sets of extension units. Each of the barrier units is urged upwardly along the body panels when the respective first and second sets of extension units are actuated into the deployed position to protect the body panels. Each of the barrier units is drawn beneath the vehicle when the respective first and second sets of extension units are actuated into the retracted position such that the body panels are exposed.

In a bumper system, one end portion of a first tube is inserted into first beam holes, and the other end portion of the first tube is inserted into a first plate hole, one end portion of a second tube is inserted into second beam holes, and the other end portion of the second tube is inserted into a second plate hole. The bumper stay is joined to a bumper beam and a vehicle body plate by press-fitting in a state in which the first tube is expanded at the holes and the second tube is expanded at the holes. A first connection rib is in contact with the bumper beam, and a second connection rib is in contact with the vehicle body plate in the same direction as a direction in which the first connection rib is in contact with the bumper beam.

An apparatus, system and method capable of providing a bumper capable of providing decreasing reversionary impact forces upon an impacting collider as the bumper is compressed. The apparatus, system and method may include at least a bumper cover; and a scissor mechanism housed within the bumper cover. The scissor mechanism may comprise a forward extension member proximal and having a parallel axis that is at least substantially parallel to a parallel tangential axis of the bumper cover; a rear extension member substantially parallel to the forward extension member, and distal from the flexible bumper; at least left and right long scissor members that are rotatably and slidably associated with respective slots in the forward extension member, and that, are rotatably associated with the rear extension member; and at least left and right short scissor members that are rotatably associated with the front extension member, and that are rotatably associated with a respective one of the left and right long scissor members.

A structural member for a vehicle includes bumper stays having a tubular configuration and fixed to each of front ends of a pair of front side members included in a vehicle, and a tubular bumper beam provided with holes and into which the bumper stay is inserted. Each of the bumper stays includes a first shock absorbing portion and a second shock absorbing portion provided adjacent to the first shock absorbing portion on an outer side.

A bumper cross member system for a motor vehicle having a base structure including a bumper cross member that, in the post-assembly position, extends transversely relative to the vehicle, and two crash boxes that, in the post-assembly position, extend from the bumper cross member longitudinally relative to the vehicle, at least one of the following add-on elements being configured on the base structure: a cross member expansion element, which, starting from an outer side of the bumper cross member, extends transversely relative to the vehicle outwardly in such a way that an extended base structure having an enlarged width is obtained, and/or a crash box extender element that extends from the bumper cross member in the post-assembly position forwardly longitudinally relative to the vehicle in such a way that an extended base structure having an elongated crash box is obtained. Also, a modular system and a motor vehicle having a bumper cross member system.