Systems and methods are presented herein for providing a reinforcement structure to reduce a Head Impact Criteria value associated with an object impacting a hood assembly that comprises the reinforcement structure. The reinforcement structure is arranged between an outer hood structure and an inner hood structure. The reinforcements structure comprises a main reinforcement and a reinforcement extension configured to extend laterally away from the main reinforcement. The reinforcement extension comprises a rib structure configured to accommodate an upper profile of a rigid front fascia feature and a rear flange configured to extend rearward over the rigid front fascia feature. The reinforcement extension is structured to be stiff enough to deform in a manner that reduces the amount of time an impacting structure reaches a peak acceleration value while also reducing the achievable peak acceleration value.

A vehicle body structure with a reinforced trunk hinge mounting part includes a side outer rear extension 11 extending from a side outer 16 to the rear of a vehicle; a quarter inner 12 located under the side outer rear extension 11 and forming a space where wheels of the vehicle are mounted; a trunk hinge 31 installed on a front end of a trunk lid 30 and fastened to an outer surface of the side outer rear extension 11; and a connection member 35 connecting the side outer rear extension 11 to the quarter inner 12.

A vehicle-hood assembly includes a vehicle hood and an energy absorber fixed to the vehicle hood. The energy absorber is releasable from a compressed position to an uncompressed position. The energy absorber includes a chamber that is sealed and vacuum pressurized in the compressed position. An actuator is configured to unseal the chamber to release the energy absorber from the compressed position to the uncompressed position.

A latching mechanism for facilitating opening and closing of a closure panel of a vehicle, comprising: a first latch mounted in a first location, the first location positioned on a first side of the vehicle, the first latch coupling the closure panel to the body of the vehicle when engaged with a corresponding first mating latch component; a second latch mounted in a second location, the second location positioned on a second side of the vehicle, the second latch coupling the closure panel to the body of the vehicle when engaged with a corresponding second mating latch component; wherein one of the first latch and the second latch is maintained in a latched state and the other of the first latch and the second latch is in an unlatched state when the closure panel is moved between an open position and a closed position.

A vehicle includes: a hood; a cowl top placed rearward of the hood; a body structure disposed below the hood and the cowl top; and a shock absorber that is disposed between the hood and the body structure and is fixed to the body structure. At least one of the hood and the cowl top has a support portion facing a side surface of the shock absorber.

The present disclosure relates to a body and doors protection assembly for a vehicle, a hood assembly comprising such a body and doors protection assembly, a vehicle comprising such a hood assembly and a manufacturing method for such a body and doors protection assembly. The body and doors protection assembly comprises a first protecting member, a second protecting member and a sliding member. The first protecting member is attachable on an inner surface of a vehicle hood at a rear edge of the vehicle hood. The second protecting member is attachable in a front side portion of a vehicle body facing the rear edge of the vehicle hood in a closed position of the vehicle hood. The sliding member is at least partially enclosed in the second protecting member and configured to contact the first protecting member in the closed position of the vehicle hood. The sliding member is movable in a lateral direction relative to the vehicle hood in the closed position of the vehicle hood.

A vehicle front structure includes, below a bonnet (6), a cover member (1) that covers an engine from an upper portion thereof to the side and is formed by an upper wall (30), a shroud (8) as a front wall, a rear wall (13), and side walls (11, 12) on the respective left and right sides. The cover member is formed by the upper wall, the front wall, the rear wall, and the side walls on the respective left and right sides. The front side of one of the left and right side walls is configured to have, relative to the rear side, a higher ratio of a low-rigidity member having lower rigidity than a high-rigidity member forming a main portion on the rear side.

Provided is a vehicle body front structure including a front hood (7) provided in a front part of a vehicle body (3), and a port device (30) mounted to the vehicle body and positioned under the front hood. The front hood includes an outer panel (7A) and an inner panel (7B) attached to a back side of the outer panel, the outer panel and the inner panel defining a port opening (21) facing the port device and passed through the outer panel and the inner panel in a thicknesswise direction thereof, and being welded to each other along a peripheral edge (22) of the port opening, and a garnish (23) is provided on an outer surface of a peripheral part of the outer panel surrounding the port opening, and a lid (58) for selectively closing the port opening is provided on the vehicle body.

A method for manufacturing a press-formed product suppresses occurrence of a forming defect such as a crack in a starting material during press forming, and also suppresses occurrence of problems when transferring a starting material during press forming. A manufacturing intermediate is formed by forming, in a flat-sheet shaped blank sheet, a planned outline portion including an undulating shape which is used for forming an outline of an outer circumferential portion of a press-formed product. The flat shape of the blank sheet is maintained in a region from the planned outline portion toward the center of the manufacturing intermediate, or an intermediate stretch-formed portion having a predetermined intermediate forming height is formed in the manufacturing intermediate in the region. A through-hole is formed by piercing a flat portion at which the flat shape is maintained or a stretch-formed-side top portion of the intermediate stretch-formed portion.

A recreational off-highway vehicle includes a vehicle frame, a plurality of wheels, a drive source, a vehicle body and a pair of headlights. The vehicle frame includes a front frame, a rear frame and an intermediate frame defining an open passenger compartment between the front and rear frames. The wheels support the vehicle frame. At least one of the wheels is a drive wheel. The drive source supported by the vehicle frame. The vehicle body is provided to the vehicle frame. The vehicle body includes a front grille panel that has an air intake area defined by a plurality of intake air openings. The headlights are located primarily at a middle point of the front grille panel with respect to a vertical direction of the recreational off-highway vehicle.