A vehicle device system for a motor vehicle, having at least one vehicle device, in particular a vehicle seat or vehicle table, and comprising a mount fastened or fastenable to a vehicle body for detachably locking the vehicle device to the vehicle body, and comprising a key-operated switch, which establishes or interrupts at least one electrical contact between the vehicle device and the vehicle depending on its switching position. It is provided that the key-operated switch is fastened on the vehicle device, which is longitudinally displaceably mounted/mountable on the mount, and interacts with a contact carriage, which is longitudinally displaceably mounted on the mount.

A movable rail is slidable relative to a fixed rail and supports a seat. A projection protrudes towards the seat from an upper surface of the movable rail that faces the seat and fixes the seat to the movable rail. A rail cover is elastic, and configured to cover the upper surface of the movable rail. The rail cover extends in a direction parallel to a longitudinal axis of the fixed rail and comprises a slit that allows the projection to pass through. A spacer plate having a strip shape is attached to the upper surface of the movable rail and extends in a direction parallel to a longitudinal axis of the movable rail, and is configured to comprise a through-hole for the projection to pass through.

An aircraft passenger seat (100) is fixed to a floor via a seat track fitting (110), and a reclining assembly of the seat is supported by pipes (130, 132) passed through left and right legs (120) and spreaders (170). A linear actuator (300) operates a reclining motion. A curved arm for deformation is provided to a mount (320) on which the actuator (300) is mounted, and a slit (145) is provided in a link plate (140) to which a rod is connected, and in a state where a forward force F is applied, the curved arm deforms and absorbs the impact. An impact absorbing structure is also provided to the legs (120).

A vehicle seat sliding device for sliding a seat includes a fixed rail, a movable rail, a rolling element, and at least one rolling element holder. The fixed rail is for a floor of a vehicle. The movable rail is slidably engaged with the fixed rail and is mounted to the seat. The rolling element includes an outer circumferential surface for abutting an abutment surface of the fixed rail. The at least one rolling element holder is mounted to the movable rail and holds the rolling element so as to be rotatable and slidable along a longitudinal direction of the movable rail. The at least one rolling element holder is configured such that a distance between a rotation axis of the rolling element and the abutment surface becomes smaller as the rolling element slides toward one side in the longitudinal direction of the movable rail.

A motor vehicle seating system is provided. The seating system comprises two or more seats and a guide track extending between three or more spaced apart seating positions within an interior of the motor vehicle, wherein each of the seats is movably coupled to the guide track, such that the seats are movable between the seating positions. A seat, suitable for use in the motor vehicle seating system is also provided.

A rolling element holder holds a rolling element rotatably and slidably. A biasing unit biases the rolling element holder toward a first surface of a fixed rail. A projection is provided on the rolling element holder, and faces a second surface opposite to the first surface. The rolling element holder is configured so that a distance in an up-down direction from a contact point between the rolling element and the first surface to an end portion of the projection on the second surface side becomes larger as the rolling element approaches an end on one side in a slidable range of the rolling element, and so that the projection is brought into contact with the second surface at least when the rolling element is at the end on the one side.

A movable rail is slidable relative to a fixed rail and supports a seat. A projection protrudes towards the seat from an upper surface of the movable rail that faces the seat and fixes the seat to the movable rail. A rail cover is elastic, and configured to cover the upper surface of the movable rail. The rail cover extends in a direction parallel to a longitudinal axis of the fixed rail and comprises a slit that allows the projection to pass through. A spacer plate having a strip shape is attached to the upper surface of the movable rail and extends in a direction parallel to a longitudinal axis of the movable rail, and is configured to comprise a through-hole for the projection to pass through.

A rolling element holder holds a rolling element rotatably and slidably. A biasing unit biases the rolling element holder toward a first surface of a fixed rail. A projection is provided on the rolling element holder, and faces a second surface opposite to the first surface. The rolling element holder is configured so that a distance in an up-down direction from a contact point between the rolling element and the first surface to an end portion of the projection on the second surface side becomes larger as the rolling element approaches an end on one side in a slidable range of the rolling element, and so that the projection is brought into contact with the second surface at least when the rolling element is at the end on the one side.

A vehicle seat sliding device for sliding a seat includes a fixed rail, a movable rail, a rolling element, and at least one rolling element holder. The fixed rail is for a floor of a vehicle. The movable rail is slidably engaged with the fixed rail and is mounted to the seat. The rolling element includes an outer circumferential surface for abutting an abutment surface of the fixed rail. The at least one rolling element holder is mounted to the movable rail and holds the rolling element so as to be rotatable and slidable along a longitudinal direction of the movable rail. The at least one rolling element holder is configured such that a distance between a rotation axis of the rolling element and the abutment surface becomes smaller as the rolling element slides toward one side in the longitudinal direction of the movable rail.

An aircraft passenger seat (100) is fixed to a floor via a seat track fitting (110), and a reclining assembly of the seat is supported by pipes (130, 132) passed through left and right legs (120) and spreaders (170). A linear actuator (300) operates a reclining motion. A curved arm for deformation is provided to a mount (320) on which the actuator (300) is mounted, and a slit (145) is provided in a link plate (140) to which a rod is connected, and in a state where a forward force F is applied, the curved arm deforms and absorbs the impact. An impact absorbing structure is also provided to the legs (120).