In this vehicle, a rear opening is formed across the entire rear surface of the vehicle body in the vehicle width direction, a tailgate capable of opening and closing the rear opening is attached to the vehicle body so as to be capable of swinging up and down, a passenger opening is formed that allows passengers to enter and exit through the tailgate, and a seat is provided adjacently to the rear surface. The passenger opening is formed in a portion of the rear surface in the vehicle width direction. One end of the seat in the vehicle width direction is positioned on one end of the vehicle body in the vehicle width direction, and the other end of the seat in the vehicle width direction is positioned in a portion overlapping with the passenger opening in the vehicle width direction.

A vehicle body with a shell-type design includes at least one lateral frame, a tailgate frame which is connected to a node of the vehicle body by the lateral frame, and a reinforcing component which extends from the tailgate frame into the lateral frame. The tailgate frame and the lateral frame are each composed of an upper shell and a lower shell, and the reinforcing component is arranged between the upper and lower shells of the tailgate frame and the lateral frame. A hinge reinforcement for a hinge of a tailgate is formed in the reinforcing component in the region of the tailgate frame.

A liftgate (28) formed with a thermoplastic which is overmolded around preselected reinforcements at stress points, such as a corner area, which includes a pair of separate reinforcement plates (14,18) and wherein a 3-dimensional reinforcement plate (12) is connected between the pair of separate reinforcements (14,18). Preferably the 3-dimensional reinforcement plate is connected to three reinforcements.

A polyolefin resin composition, containing: a polyolefin resin; and cellulose microfibrils, in which a content of the cellulose microfibrils is 0.5 to 20 parts by mass, with respect to 100 parts by mass of an entire resin component in the polyolefin resin composition, a molded article and a back door for a vehicle.

A bidirectional door opening structure includes a first door configured to be opened by rotating about a first end of a vehicle that is adjacent to a roof of the vehicle, a second door configured to be opened by rotating about a second end of the vehicle that is adjacent to the roof of the vehicle, the second end being opposite the first end, a drive unit disposed at a portion of the roof between the first door and the second door, and a controller configured to receive a door drive request with respect to the first door or the second door and to apply a driving force to at least one of the first door or the second door, wherein the drive unit comprises a spindle unit, a latching lever, and a rotation lever.

A wheeled vehicle includes a rear opening that is formed in a rear surface of a vehicle body, a tailgate that is provided to open and close the rear opening, a sub door opening that is formed in a transverse portion of the tailgate, and a sub door that is provided to open and close the sub door opening. In the tailgate, a tailgate side window panel is provided on the tailgate, and a sub door side window panel is provided on the sub door. These tailgate side window panel and the sub door side window panel are made substantially level with each other while being disposed continuously in a transverse direction. The control unit prohibits the operation of a wiper device that moves over the individual window panels so as to clean and remove water therefrom, with the sub door left open.

A back door structure for an automobile is provided with a back door frame including a window frame, a window located at a vehicle outer side of the window frame, and a blind including a cover that covers a gap between the window and the window frame. The blind joins the window with the back door frame.

This vehicle has a travel drive system including a travel power source and an energy source for this travel power source, wherein an outlet for discharging waste generated by the travel drive system faces the rear surface of the vehicle body. The outlet is offset in the vehicle width direction relative to a passenger opening. Further, relative to the center line between the center line of the vehicle body in the vehicle width direction and the end portion of the vehicle body in the vehicle width direction, the outlet is positioned to the end portion side of the vehicle body in the vehicle width direction. Relative to the center line between the center line and the end portion in the vehicle width direction, the right and left edges of the passenger opening are positioned to the side of the center line of the vehicle body in the vehicle width direction.

A vehicle component construct and process of making the same including a frame formed of a composite sandwich panel material and a window formed of a transparent resin within the frame. The composite sandwich panel material of the frame including an open area core defining a plurality of pores, a high gloss surface sheet adhered to a first face of the open area core by a first adhesive layer, and a structural skin adhered to a second face of the open area core by a second adhesive layer. The frame defining a through opening that extends from an exterior surface of the frame to an oppositely opposed interior surface of the frame. The window being formed within the through opening of the frame.

A process for welding of at least two separate vehicle panels (12, 14) to form an integral part (16) for a vehicle. There is provided at least one first panel (12) including a first weld line area (18) and at least one second panel (14) including a corresponding second weld line area (19), the second weld line area (19) abutting in a weldable relationship to the first weld line area (18). The first and second weld line areas (18, 19) have at least one first weldable portion (22) and at least one second portion (24) at which welding is substantially hindered during welding attachment of the first and second panels (12, 14). The process includes applying a curable adhesive at each second portion (24), placing in a welding fixture and welding the panels (12, 14) at each first weldable portion (22) such that the panels (12, 14) are held together during curing of the adhesive.