To increase an effect of absorbing an impact load from a vehicle front side. A vehicle-body structure includes a left-side suspension support member supporting a front suspension, a center frame disposed higher than and away from a floor panel at a vehicle-width-direction central portion of an occupant space and extending in a vehicle front-rear direction, a left-side front frame connected to a front portion of the center frame and extending to the left-side suspension support member, a right-side front frame connected to the front portion of the center frame and extending to a right-side suspension support member, and a connection member that connects the floor panel and at least one of a rear portion of the left-side front frame, a rear portion of the right-side front frame, and the front portion of the center frame.

A vehicle-body structure comprises a dash panel, a pair of right-and-left front side frames, a pair of right-and-left side sills, a pair of right-and-left first longitudinal load-transmitting members respectively extending from respective vehicle-rear portions of the right-and-left front side frames to the right-and-left side sills along an upper face of the floor panel, and a pair of right-and-left second longitudinal load-transmitting members respectively extending from the respective vehicle-rear portions of the right-and-left front side frames toward a vehicle-front portion of the battery case along a lower face of the floor panel.

A front wall for a motor vehicle, which has a partition wall to an engine compartment located at the front in the longitudinal direction (x) of the motor vehicle, wherein the partition wall is oriented in the installed state in the vertical direction (z) of the motor vehicle and, connected to it in one piece, has a front region of a footwell metal sheet, wherein the footwell metal sheet runs at least in portions in the longitudinal direction (x) of the motor vehicle, the front wall being produced as a one-piece sheet-metal forming component, in particular in a single press stroke, characterized in that the footwell metal sheet has a greater wall thickness and/or tensile strength than the partition wall.

A vehicle-body structure may include a floor panel, a dash panel extending upward from a vehicle front portion of the floor panel and partitioning a vehicle front portion of an occupant space, a cooler disposed on a vehicle front side of the dash panel, a control device disposed in the occupant space, and a supply pipe through which a heat exchange medium subjected to heat exchange at a heat exchanger is supplied to the control device. The heat exchanger may be closer to the control device than a powertrain PT mounted on an automobile.

A vehicle includes a frame, a left and right front wheel, and a left and right rear wheel. A left front suspension operatively and a right front suspension operatively respectively operatively connect the left and right front wheels to the frame. A left and right rear suspension, respectively operatively connect the left and right rear wheels to the frame. At least one seat, connected to the frame and having a seat base, is disposed longitudinally rearward of the left and right front suspensions. An engine is operatively connected to at least one of the wheels. An air induction system fluidly, which includes an airbox, and a fuel tank fluidly communicate with the engine. The engine, the airbox and the fuel tank are disposed longitudinally forward of the rear suspensions and longitudinally rearward of the seat base of the at least one seat.

A vehicle includes a frame, at least two front wheels and at least two rear wheels operatively connected thereto, and a motor operatively connected to the wheels. A cockpit area includes a cockpit floor extending between a left end and a right end. A roll cage connected to the frame is disposed at least in part over the cockpit area. A driver seat connected to the frame and disposed in the cockpit area includes a driver seat base. A passenger seat connected to the frame and disposed in the cockpit area includes a passenger seat base. The passenger seat is disposed side-by-side with the passenger seat. A storage space is defined at least in part by the cockpit floor and the driver seat base. The storage space is disposed under the driver seat base, and extends continuously laterally between the left end and the right end of the cockpit floor.

To increase the stiffness of a floor panel while maintaining a large foot space for a rear-seat passenger. A vehicle-body structure includes a floor panel constituting a floor provided with front-row and rear-row seats, and a center frame disposed to be higher than and away from the floor panel at a vehicle-width-direction central portion and extending in a vehicle front-rear direction. A recessed portion having a bottom surface on which the feet of a passenger sitting on the rear-row seat can be placed is formed at the floor panel. The floor panel includes a cross member extending in a vehicle width direction at a rear portion of the recessed portion. A rear portion of the center frame is connected to the cross member.

To suppress vibration and noise due to load input from a rear suspension device, a left-side load input portion that is fixed to a left-side rear-side frame and to which a load from a rear suspension device is input, and a right-side load input portion that is fixed to a right-side rear-side frame and to which a load from a rear suspension device is input are provided. A cross member is provided at a position lower than the left-side load input portion and the right-side load input portion to which loads from the rear suspension devices are input. The cross member and the left-side load input portion are connected through a left-side rear connection frame. The cross member and the right-side load input portion are connected through a right-side rear connection frame.

An assembling structure of a vehicle body may include side sill members provided in a length direction of a vehicle at both side portions of a lower portion of the vehicle body, respectively, a dash cross member provided in a width direction of the vehicle, both side end portions thereof being assembled to front end portions of the side sill members, center members provided in the length direction of the vehicle between the side sill members and a central portion of the vehicle body, front end portions thereof being assembled to a lower end portion of the dash cross member, and reinforcing members provided in the width direction of the vehicle between the center members and the side sill members, a first end portion of each reinforcing members being assembled to the center members and a second end portion of each reinforcing members being assembled to the side sill members.

A vehicle body front section structure has a floor tunnel that projects into a vehicle interior on an underfloor of a vehicle, that is formed in a vehicle longitudinal direction, and that has a floor tunnel front end part disposed at a vehicle front of the floor tunnel, and floor tunnel members, a front end ridge line part, a first vehicle body front section reinforcing member that covers, from an outside of the vehicle, a whole of the floor tunnel front end part, from a vehicle upper end to a root of each of the floor tunnel members, and that is provided in the vehicle longitudinal direction along the front end ridge line part, and front side members, each of which has a lower end root that is connected to a dash panel, and each of which extends forward from the lower end root.