A console box includes a console body including a pair of right and left side-walls, a storage container accommodated in the console body, a lid part openably placed in contact with upper edge parts of the console body, and an inwardly-bent part formed on the upper edge part of each side-wall of the console body, the inwardly-bent part being overlapped with the corresponding side-wall in an inside-and-outside direction so as to form a space part between the inwardly-bent part and the corresponding side-wall. The console box further includes an outwardly-bent part and a space-inserted part that are formed near an upper edge part of the storage container, and a rupture expected part provided at the outwardly-bent part, the rupture expected part being configured to be broken when an emergency load is applied to the lid part from above.

A storage area for an electric vehicle includes a rigid tunnel positioned within a passenger compartment of the electric vehicle. The tunnel covers a portion of a battery assembly that extends above a floor structure of the vehicle such that the passenger compartment is sealed from the battery assembly. A center console is positioned within the passenger compartment. The center console is disposed on top of the tunnel such that a medial portion of the center console is spaced a vertical distance above a top surface of the rigid tunnel. A first end and a second end of the center console are coupled with the top surface of the rigid tunnel. A thickness of the medial portion is less than that of the first end and the second end. A space between the top surface of the tunnel and a bottom surface of the medial portion defines the storage area.

A vehicle includes: a body forming a floor portion in a vehicle compartment; a console box provided on the body and placed in the vehicle compartment; a battery provided below the console box; a battery case configured to accommodate the battery; and a fastening member and a fastening member configured to fasten the console box to the body side and the battery case side, respectively. With such a configuration, there is provided a vehicle capable of supporting a console box in a vehicle compartment without causing an increase in weight and a higher cost.

A console box includes a console body including a pair of right and left side-walls, a storage container accommodated in the console body, a lid part openably placed in contact with upper edge parts of the console body, and an inwardly-bent part formed on the upper edge part of each side-wall of the console body, the inwardly-bent part being overlapped with the corresponding side-wall in an inside-and-outside direction so as to form a space part between the inwardly-bent part and the corresponding side-wall. The console box further includes an outwardly-bent part and a space-inserted part that are formed near an upper edge part of the storage container, and a rupture expected part provided at the outwardly-bent part, the rupture expected part being configured to be broken when an emergency load is applied to the lid part from above.

A vehicle lower portion structure for a hybrid vehicle has a vehicle drive battery 32 that is mounted on top of the center floor panel 18 and on a vehicle lower side of a rear seat 26, a fuel tank 34 that is formed so as to include a tank main body portion 36 that is disposed on the vehicle lower side of the center floor panel 18 and an in-tunnel extension portion 38A that is disposed inside the floor tunnel 20 and communicates with the tank main body portion 36, and a fuel pump 40 that is provided at a position within the in-tunnel extension portion 38A where the fuel pump 40 is able to be extracted via an extraction hole 20C formed in the floor tunnel 20.

A motor vehicle includes several battery elements placed in modules of a first type and modules of a second type. The battery elements in each module of first type are grouped together in an assembly such that the battery elements can shift when exposed to a force, while the assembly is deformable. In each module of second type, the battery elements can shift, when exposed to the force, without being damaged while retaining their shape. The modules of first type are installed in a first region of the motor vehicle of a low stiffness compared to a second region, in which a body of the motor vehicle is designed for force-dissipating deformation in the event of an accident, and the modules of second type are installed in the second region, in which the body of the motor vehicle is designed to retain its shape in the event of an accident.

A center console assembly includes a frame, and upper member and a tray insert. The frame has a first side wall, a second side wall and an upper section attached to the first and second side walls with a cavity defined between the first side wall and the second side wall. The cavity is dimensioned to cover and conceal a battery therein. The upper member is installed to the frame and has an opening that exposes a battery. The upper member is dimensioned and shaped to attach to an upper end of the frame. The tray insert is dimensioned to removably attach to the upper member such that with the tray insert removed from the upper member, a ground connection area of the battery is exposed and with the tray insert installed to the upper member, the battery is concealed by the tray insert.

A battery cooling air discharge structure is configured to suppress noise of the cooling air for a battery. The battery cooling air discharge structure includes a floor panel, a floor, a plurality of rows of seats and an exhaust duct. The floor panel bottom forms a lower part of a vehicle body of a vehicle and enables placement of a battery. The floor panel top portion is arranged above the floor panel to allow placement of the battery between the floor panel top portion and the floor panel. The seats are arranged on the floor. The exhaust duct discharges battery cooling air. The exhaust duct has an exhaust port located between the floor and a seating part of a rear seat that constitutes the seats. An underside of the seating part has a notch. At least an area of the exhaust port is located adjacent to the notch.

The invention generally relates to an electric vehicle having an electric motor and a pack for storing energy, said vehicle configured having: at least two passenger seats, including a first seat, and a second seat, positioned behind the front seat and configured to face rearward; and the pack having: a lateral module configured to extend perpendicularly to the longitudinal axis of the vehicle between the first seat and the second seat.

A battery electric vehicle includes a battery and an electric device operates using the electricity stored in the battery. The battery includes an intermediate section, a front section, and a rear section. The intermediate section houses battery cells and is disposed between a driver's seat and a front passenger seat so as to extend from a front end to a rear end of a passenger compartment. The front section is disposed forward of the intermediate section and is filled with battery cells. The rear section is disposed rearward of the intermediate section, the driver's seat, and the front passenger seat. Battery cells are stacked in the rear section so as to be higher than the intermediate section. The electric device is disposed above the front section. An upper end of the rear section is positioned higher than the electric device.