An adequate mechanical stiffness and strength are afforded to a tumble seat or a vehicle seat having a latch mechanism provided in a rear end of the seat cushion. A cushion frame (F1) of the seat includes a side frame (5) extending in a fore and aft direction, and the side frame includes a first member (10) comprising a channel member having an open side facing sideways and a second member (11) attached to the first member so as to form a closed cross section jointly with the first member, and extending downward further than the first member. A latch mechanism is positioned under the first member and attached to the second member.

An all-terrain vehicle and a method for supply power to an all-terrain vehicle is disclosed. The all-terrain vehicle includes a power supply system including a power source and an energy storage unit. The power source is configured to supply power for a first device and a second device of the all-terrain vehicle. When a voltage of the power source is higher than a voltage of the energy storage unit, the energy storage unit is triggered to store electric energy, and when the power source supplies power to the first device and the second device and a voltage of the power source drops, the energy storage unit is triggered to release stored electric energy to the power source, and the electric energy released by the energy storage unit is supplied to the power source to increase an output voltage of the power source.

An all-terrain vehicle and a method for supply power to an all-terrain vehicle is disclosed. The all-terrain vehicle includes a power supply system including a power source and an energy storage unit. The power source is configured to supply power for a first device and a second device of the all-terrain vehicle. When a voltage of the power source is higher than a voltage of the energy storage unit, the energy storage unit is triggered to store electric energy, and when the power source supplies power to the first device and the second device and a voltage of the power source drops, the energy storage unit is triggered to release stored electric energy to the power source, and the electric energy released by the energy storage unit is supplied to the power source to increase an output voltage of the power source.

An embodiment vehicle driver's seat structure includes a dashboard floor panel combined with a front of a center floor panel and having a shape extending in an upward inclined direction, a lower seat support installed on a top surface of the center floor panel and extending along a vehicle front-rear direction, an upper seat support installed on top of the lower seat support and underneath a driver's seat to support the driver's seat, and an upper floor horizontally connecting the upper seat support and the dashboard floor panel to each other.

An embodiment vehicle driver's seat structure includes a dashboard floor panel combined with a front of a center floor panel and having a shape extending in an upward inclined direction, a lower seat support installed on a top surface of the center floor panel and extending along a vehicle front-rear direction, an upper seat support installed on top of the lower seat support and underneath a driver's seat to support the driver's seat, and an upper floor horizontally connecting the upper seat support and the dashboard floor panel to each other.

A vehicle-body front structure includes a partition wall portion which demarcates a space inside a vehicle cabin, a motor arrangement portion which is formed by causing a part of the partition wall portion to bulge to an inside of the vehicle cabin and in which at least a part of a traveling motor is capable of being arranged, a reinforcement member which is inclined to be positioned lower toward vehicle rear, and a floor reinforcement which extends in a vehicle front-rear direction. A closed cross-section is configured with the motor arrangement portion, the reinforcement member, and the floor reinforcement.

A vehicle-body front structure includes a partition wall portion which demarcates a space inside a vehicle cabin, a motor arrangement portion which is formed by causing a part of the partition wall portion to bulge to an inside of the vehicle cabin and in which at least a part of a traveling motor is capable of being arranged, a reinforcement member which is inclined to be positioned lower toward vehicle rear, and a floor reinforcement which extends in a vehicle front-rear direction. A closed cross-section is configured with the motor arrangement portion, the reinforcement member, and the floor reinforcement.

A vehicle seating assembly comprises a lift mechanism disposed at a forward portion of a seat and a latch assembly disposed at a rearward portion of the seat and rotatably coupled to the seat. A mechanical link has a first end rotatably coupled to the forward portion of the seat and a second end rotatably coupled to the latch assembly. The vehicle seating assembly is movable between a first position and a second position, wherein the latch assembly is positionable in a latched position or an unlatched position relative to a mount assembly. The mechanical link is disposed in an initial position when the seating assembly is in the first position, and the mechanical link is disposed in a final position when the seating assembly is in the second position.

A track assembly for a vehicle seating assembly includes a track that defines a lateral channel and a central channel. The lateral channel is in communication with the central channel. A plurality of contact strips are coupled with the track and are positioned within the lateral channel. A rail cartridge is positioned within the central channel and is slidable along the track. The lateral channel is at least partially enclosed by the track and the rail cartridge. A support is operably coupled with the rail cartridge and extends from the central channel into the lateral channel. A plurality of contacts are operably coupled with the support and are configured to engage the plurality of contact strips.

A vehicle module system is disclosed. The system includes a track assembly operably coupled with a body of a vehicle. One or more modules may be removably and slidably coupled with the track assembly. The modules include base structure defining an attachment point. A rail feature is disposed along a bottom portion of the base structure. An attachment feature having a retainer for removably coupling to the attachment point to the base structure.