A long rail assembly for use in an automotive vehicle includes a fixed long rail, a rail drive assembly having a drive wheel for transposing the rail drive assembly along the fixed long rail, an upper gearbox attached to a vehicle seat, and an auto-centering quick connection mechanism for operatively coupling a guide pin extending from the upper gearbox to the drive wheel when the vehicle seat is attached to the rail drive assembly. The auto-centering quick connection mechanism further automatically rotates the guide pin to a home position when the vehicle seat is decoupled from the rail drive assembly.

The disclosure provides for a system. The system may include a rotational control system configured to rotate a seat of a vehicle, and one or more computing devices. The one or more computing devices may have one or more processors that are configured to determine that an impact is imminent at a location on the vehicle along a collision axis. A most favorable orientation may be determined by the one or more processors based on the determined location and collision axis. Using the rotational control system, the one or more processors may rotate the seat of the vehicle to the most favorable orientation in order to reduce risks of serious injury to a passenger in the seat caused by the imminent impact. A translational control system may be used by the one or more processors to translate the seat of the vehicle to a position relative to the determined location.

The disclosure provides for a system. The system may include a rotational control system configured to rotate a seat of a vehicle, and one or more computing devices. The one or more computing devices may have one or more processors that are configured to determine that an impact is imminent at a location on the vehicle along a collision axis. A most favorable orientation may be determined by the one or more processors based on the determined location and collision axis. Using the rotational control system, the one or more processors may rotate the seat of the vehicle to the most favorable orientation in order to reduce risks of serious injury to a passenger in the seat caused by the imminent impact. A translational control system may be used by the one or more processors to translate the seat of the vehicle to a position relative to the determined location.

A vehicle includes a floor and a seat supported by the floor. The seat is translatable relative to the floor along a longitudinal axis of the vehicle. An airbag housing is supported by the floor and is disposed alongside the seat. The airbag housing is translatable relative to the floor along the longitudinal axis. An airbag is supported by the airbag housing. The airbag is inflatable to an inflated position that extends from the airbag housing away from the floor.

A vehicle seating assembly having a seat cushion and a suspension system disposed proximate an underside of the seat cushion. The suspension system includes a carrier assembly, a displaceable platform, and an attachment member extending between the carrier assembly and the displaceable platform, wherein the attachment member is positionable between the rest position and an extended positon. The displaceable platform is positionable between a design position and a fully deployed position.

A vehicle seating assembly having a seat cushion and a suspension system disposed proximate an underside of the seat cushion. The suspension system includes a carrier assembly, a displaceable platform, and an attachment member extending between the carrier assembly and the displaceable platform, wherein the attachment member is positionable between the rest position and an extended positon. The displaceable platform is positionable between a design position and a fully deployed position.

A vehicle includes a cabin interior, a floor, and a tailgate at the rear end of the cabin interior, wherein at least a portion of the tailgate pivots between a vertical closed position and a horizontal open position. The vehicle has a first seat track assembly is supported on the floor in the cabin interior, a second seat track assembly supported on the tailgate, and a seat assembly. The seat assembly including a first seat panel, a second seat panel, a bracket that allows the first seat panel and the second seat panel to pivot between a forward facing position and a rearward facing position, and a guide supporting the bracket on one of the first and second seat track assemblies, wherein the seat assembly may slide rearward along the first seat track assembly onto the second seat track assembly when the tailgate is in the open position.

A vehicle transfer assistance system includes an adjustment position acquisition unit configured to acquire an adjustment position of a seat element set in a boarded vehicle boarded by a user, a specific distance calculation unit configured to calculate, based on the acquired adjustment position, a predetermined specific distance around a seat of the boarded vehicle formed by the seat element, the specific distance being associated with a physical feature of the user sitting on the seat,

a specific distance storing unit configured to store the user and the specific distance in association with each other, and a converted adjustment position calculation unit configured to calculate a converted adjustment position that is the adjustment position of the seat element for reproducing the specific distance in a transfer vehicle different from the boarded vehicle when the user boards on the transfer vehicle.

A wire harness routing device includes a rail in which an insertion hole is formed, a slider that is inserted into the insertion hole and that slides with respect to the rail, and a wire harness that is routed in the insertion hole and moves in accordance with sliding of the slider, and an excess length portion of the wire harness that is generated in accordance with movement of the wire harness deforms in the insertion hole and is held in a state in which it is accommodated in the insertion hole.

A wire harness routing device includes a rail in which an insertion hole is formed, a slider that is inserted into the insertion hole and that slides with respect to the rail, and a wire harness that is routed in the insertion hole and moves in accordance with sliding of the slider, and an excess length portion of the wire harness that is generated in accordance with movement of the wire harness deforms in the insertion hole and is held in a state in which it is accommodated in the insertion hole.