A vehicle underbody structure includes a pair of rockers that are provided on both vehicle width direction sides of a vehicle underbody and extend in a vehicle front-rear direction, a battery that is disposed centrally in a vehicle width direction center between the pair of rockers and is disposed above a vehicle floor and on the lower side of a seat, a fuel tank that is disposed in the vehicle width direction center between the pair of rockers and is disposed under the vehicle floor and further toward a rear side of the vehicle than the battery, and a waste pipe that is coupled to a drive unit provided at a vehicle front side of the battery and extends in the vehicle front-rear direction between the battery and one of the rockers.

A seamless unibody structure of C-pillar for vehicles is envisaged. The seamless unibody structure has an operative top end and an operative bottom end, and is defined by a C-pillar inner, a C-pillar extension portion and a wheel house inner. The C-pillar inner extends from the operative top end. The C-pillar extension portion extends integrally from the C-pillar inner, and the wheel house inner extends integrally from the C-pillar extension portion.

A latch structure includes: a door that is changeable between a closed state in which the door covers a door opening provided on a peripheral wall of a vehicle and an opened state in which the door opens the door opening; a floor panel that constitutes a floor surface of an interior space; a door-side engaging portion mounted on the door; and a floor-side engaging portion mounted on the floor panel and engageable with the door-side engaging portion when the door is in the closed state.

A vehicle front portion structure includes: a battery case that is installed beneath a floor of a vehicle; front side members that extend in a vehicle longitudinal direction further toward a vehicle front side than the battery case; side rails that structure portions of a suspension member that is disposed further toward the vehicle front side, and that extend in the vehicle longitudinal direction; first connecting members that connect the battery case and the front side members; and second connecting members that connect a vehicle longitudinal direction front end portion of the battery case and vehicle longitudinal direction rear ends of the side rails, that face the battery case in the vehicle longitudinal direction as seen in a plan view and in a side view, and that face the side rails in the vehicle longitudinal direction as seen in a plan view and in a side view.

A lateral surface member structure (100) of a vehicle body (1) includes a tubular body (110) extending in a front-rear direction of the vehicle body (1) and an impact absorbing member (120) disposed inside the tubular body (110). The impact absorbing member (120) includes a web (121) extending along the front-rear direction and flat in a vehicle width direction, a vehicle outer flange (122) joined to a vehicle outer end portion of the web (121) and extending along the front-rear direction, and a vehicle inner flange (123) joined to a vehicle inner end portion of the web (121) and extending along the front-rear direction. The vehicle outer flange (122) and the vehicle inner flange (123) each include a rib (122R, 123R) disposed so as to sandwich the web (121) from above and below and extending along the front-rear direction.

A motor vehicle has a body with a front section, a floor structure which adjoins the front section, and a floor panel, on the two longitudinal sides of which a sill is in each case arranged. The sills run from an A pillar, adjoining the front section, of the body as far as a C pillar of the body. An inner longitudinal member is on each longitudinal side of the floor panel. A bulkhead is arranged between the front section and the floor structure. Each sill is constructed from an inner C profile and an outer C profile. The first and second profile flanges of the C profiles, arranged in an overlapping manner, are connected, in particular welded, to the inner longitudinal member.

A battery rear undercover assembly for an eco-friendly vehicle enables the bottom of a vehicle to be flattened while covering a lower portion of the rear of a high-voltage battery in an eco-friendly vehicle. The battery rear undercover assembly includes a body having a front end that can be fastened to a lower portion of a rear end of a high-voltage battery and a battery rear undercover formed to extend from each of both side ends of the body upward and formed with a side cover that can be fastened to a vehicle body of a vehicle. The battery rear undercover assembly includes a reinforcement member formed in a longitudinal direction of the vehicle and fastened to an upper surface of the battery rear undercover.

A bodywork support structure for a vehicle includes two side sills that are spaced apart in a transverse direction where the two side sills have a reinforcing element that is disposed in a hollow space. A floor is disposed between the two side sills and connected to the two side sills and an energy store for storing electrical energy and/or a fuel for powering the vehicle is disposed under the floor. The reinforcing element is formed as a corner reinforcement disposed in a corner area where the corner reinforcement has a first connection area that is attached to an external wall, a second connection area that is attached to a lower flange, and a wall area that connects the first and second connection areas with each other across the corner. An open space is formed between the corner reinforcement and an internal wall in the transverse direction of the vehicle.

On both sides under a floor of an electric vehicle, side members are provided, each in a closed cross sectional shape. Collars and the like are provided in the side members. On a lower side of a lower wall of each of the side members, cross members which are fixed by using the collars or the like are provided. Between the side members on both sides, a main battery is provided and supported by the cross members. In the vicinity of a lower side of a doorway of the electric vehicle, a cutout part is formed such that a height of a portion of an upper wall of the side member is relatively lowered. On an upper surface of the cutout part, a reinforcing member is provided. A ramp passes through a space on an upper side of the cutout part.

A floor assembly for a trailer includes a pair of longitudinally extending main beams, each having a first height dimension along a first longitudinal portion of the main beam and a second height dimension along a second portion of the main beam. The first height dimension being greater than the second height dimension. Cross members extend in a transverse direction between and connect the main beams. A plurality of floor members extend transversely between the main beams. The floor members including at least some reinforced floor members. The reinforced floor members have upper and lower walls and opposing side walls that define a rectangular cross-section and include a series of truss walls extending angularly between the upper and lower walls. The reinforced floor members are positioned on the upper surfaces of the main beams at least in part at the second height dimension.