A network of rails for a vehicle includes lateral rails that extend primarily along a lateral axis of the vehicle, longitudinal rails that extend primarily along a longitudinal axis of the vehicle, and a circular rail that is positioned at a junction between the lateral rails and the longitudinal rails.

A vehicle includes an outer rail coupled to a floor. An inner rail is positioned within the outer rail. A seat base is coupled to the inner rail. Cover members are positioned over the outer rail. An inclined member is coupled to the outer rail and the cover members are configured to pivot about two rotational axes in response to movement of the inclined member.

A vehicle seat assembly with a long track that significantly extends beyond the seat. The track defines a slot. A carriage is movable along the track through the slot. A cover is mounted on the track, and includes a plurality of fingers being individually pivotally connected to the track between a cover position and an open position. Each finger in the cover position blocking a portion of the slot from the area outside of the track. Each finger in the open position opening a respective portion of the slot to the area outside of the track. The plurality of fingers and the longitudinal edges of the extension being shaped configured to move the plurality of fingers from the cover position to the open position as the carriage moves along the track and against the plurality of fingers.

A support assembly includes a support member, a side member, and a resilient member. The support member may be configured to engage a track. The resilient member may be connected to the support member, and/or the support member may be connected to the side member. The resilient member may be configured to compensate for different orientations of the side member. The resilient member may be configured to maintain a position of the side member relative to the track. The resilient member may be configured to compensate for different lateral positions of the side member relative to the track. The resilient member may be connected to a lateral side of the support member. The resilient member may be disposed proximate a first end of the support member, and/or a second resilient member may be disposed proximate a second end of the support member.

A vehicle seating assembly includes an actuation carriage coupled to an underside thereof, a plurality of anchors extending from the actuation carriage, each of the anchors being rotatable about a fixed vertical axis, and a plurality of rollers rotatably coupled to each of the anchors by an axle.

Disclosed is one example of a vehicle seat in which a dimension thereof in its width direction can be smaller. The vehicle seat includes: a side frame extending in seat front-rear directions; a belt anchor bracket at least part of which is positioned below the side frame; a belt stay at least part of which is positioned below the side frame; and a coupling bolt that couples the belt anchor bracket and the belt stay to each other at a position below the side frame, the coupling bolt passing through a first member, which is one of the belt anchor bracket and the belt stay, and reaching a second member, which is the other of the belt anchor bracket and the belt stay.

The invention discloses a type of seat, including the seat baseplate, the soft cushion and the underframe assembly; wherein, the said soft cushion is arranged on the said seat baseplate; the said seat baseplate is connected to the framework through the said underframe assembly; the said seat baseplate adopts integrated injection molding. The seat baseplate in the present invention adopts integrated injection molding. The soft cushion is arranged on the seat baseplate to form the complete seat. Compared with the machining method in the prior art that the backrest and the base are separately machined and then the backrest and the base are assembled with each other; the machining procedure of the seat baseplate in the present invention is simple, thus the production efficiency is improved and the production cost is reduced. The invention also discloses a type of all-terrain vehicle provided with the above seat.

Disclosed is one example of a sliding device in which a movable rail can be inhibited from being largely deformed even when a load such as a compressed load acts on the movable rail. The sliding device includes a fixed rail, a movable rail, and a load receiving portion. The fixed rail is configured to be fixed to a vehicle. To the movable rail, the seat body is attachable. The movable rail is slidable with respect to the fixed rail. The load receiving portion extends from a fixed rail side toward a movable rail side. The load receiving portion is configured to receive a load directed from the movable rail toward the fixed rail in conjunction with the movable rail when the load acts on the movable rail.

A rail for vehicle seat includes a fixed profile, a movable profile, and a control mechanism having an adjustment screw. The fixed profile has a bottom and two lateral wings, the bottom having an internal face facing towards the adjustment screw and an external face facing away from the adjustment screw. The adjustment screw is integral to a support which comprises two side walls engaged on the adjustment screw. Each side wall of the support has an attachment lug engaged in a hole in the bottom and extending through the bottom of the fixed profile to an end which is fixed to the external face of the bottom.

A vehicle seat belt device includes: an anchor part configured to be provided at a vehicle seat or a vehicle body on a first side in a width direction of the vehicle seat, and to displace a lower end portion of a buckle device to a vehicle front side by being deformed by a load applied from a lap belt to the buckle device at a time of vehicle collision; and a buckle rotation mechanism configured to include a guide part that is provided at the vehicle seat or body on a vehicle downward side of the buckle device and inclined downward toward the vehicle front side, and a pull-in part that connects the guide part and an upper portion of the buckle device and is slidable along the guide part, and to rotate the buckle device to the vehicle front side and downward side due to the displacement.