A front body structure of a vehicle may be configured such that a cowl cross member connecting shock absorber mounting portions to each other includes a cowl cross member lower portion, a cowl cross member upper extension portion, and a cowl cross member upper portion, wherein the cowl cross member is provided with two first closed space and second closed space that are defined by the cowl cross member upper extension portion to be isolated from each other, and the cowl cross member is connected to a fender apron upper member and a cowl panel through a hood hinge mounting bracket.

Systems are provided for a structural element. In one example, a system comprises a structural element arranged between a steering column and a front bumper, wherein the structural element at least partially surrounds the steering column.

Each of a monocoque body and a subframe is integrally formed of reinforced resin. The subframe has a bottom portion and an upstanding portion. The bottom portion is fixed to the lower portion of the rear wall of the monocoque body and extends rearward of the vehicle. The upstanding portion extends upward from the bottom portion. An engine is directly mounted on the rear surface of the upstanding portion.

A vehicle bulkhead structure may include a dash panel; a pair of front side members spaced apart from each other and coupled to the dash panel; and a plurality of reinforcement members coupled to a front surface of the dash panel, wherein some of the plurality of reinforcement members support each front side member.

A reinforcement arrangement for protecting a vehicle occupant in the event of a frontal collision. The reinforcement arrangement which is configured to be centrally located is attachable to lateral support beams of a frame provides a more weight efficient solution compared to previously used reinforcement arrangement attached to longitudinal beams located in a tunnel structure of the vehicle. The described reinforcement arrangement is further configured to minimize intrusion into the vehicle interior in the event of a frontal collision, and to instead direct forces into the frame via the lateral support beams. Thereby, the force can be directed into the frame and not to sensitive components of the energy source.

A control arm includes a wheel side end, a body side end, a first connecting member extending between the wheel side end and the body side end, a second connecting member extending between the wheel side end and the body side end, and having a reduced section portion, and a fracture zone extending through the first and second connecting members in a substantially fore-aft direction of the vehicle, the reduced section portion being within the fracture zone. A thickness of the reduced section portion is tunable to establish a controlled fracturing during a small overlap rigid barrier impact event where: (i) an initial fracture of the first connecting member occurs within the fracture zone, and (ii) a secondary fracture of the second connecting member occurs within the fracture zone at the reduced section portion, to thereby provide a desired rearward trajectory of the wheel assembly during the impact event.

A structural small overlap rigid barrier (SORB) joining bracket for a vehicle having an underbody hold-down assembly, a cowl side assembly, and a body mount assembly configured to connect a vehicle body to a vehicle frame includes a cowl side coupling first portion configured to couple to the cowl side assembly, and an underbody coupling second portion configured to couple to the underbody hold-down assembly and the body mount assembly. The SORB joining bracket couples and maintains structural integrity between the underbody hold-down assembly and the cowl side assembly, and couples with the body mount assembly to increase vehicle load capacity by providing a direct load path into the frame of the vehicle. A frame extension tube assembly creates additional strength and stiffness via stack-up with the SORB joining bracket.

A structural panel joining part for a vehicle having an underbody hold-down panel, a floor panel, a dash panel, and a cowl side panel includes an underbody coupling first portion configured to couple to at least one of the underbody hold-down panel and the floor panel, a dash panel coupling second portion configured to couple to the dash panel, and a cowl side coupling third portion configured to couple to the cowl side panel. The structural panel joining part maintains structural integrity between the underbody hold-down panel, the floor panel, the dash panel, and the cowl side panel to provide structural reinforcement during small overlap rigid barrier impacts to facilitate reducing structural intrusion into an occupant compartment of the vehicle.

A front vehicle body reinforcing structure includes: a pair of front side members extending along a length direction of a vehicle and disposed on left and right sides of the vehicle in a width direction of the vehicle; a dash panel extending in the width direction and a height direction of the vehicle; a front pillar extending in the length direction and the height direction of the vehicle; a fender apron upper member disposed outside each of the pair of front side members in the width direction of the vehicle, extending along the length direction of the vehicle and connected to each of the pair of front side members, the dash panel, and the front pillar; and a first reinforcing member extending along the height direction of the vehicle, of which a first end portion is connected to the fender apron upper member and a second end portion is connected to a lower portion of the vehicle.

A vehicle body front structure includes paired left and right front side frames extending in a vehicle front-rear direction and a crossmember that extends in a vehicle width direction and is suspended between the paired left and right front side frames. The front side frames respectively have side frame bend portions at rear portions thereof, the side frame bend portions bending inward in the vehicle width direction, and at least one of end portions of the crossmember in the vehicle width direction is connected to a corresponding one of the side frame bend portions.