The invention relates to a headrest having two rods (2), at least one having a locking detents, a housing with two channels and two sets of bearings, each set comprising a top bearing and a bottom bearing. Each bearing set is mounted in a corresponding channel by fitting these bearings into receptacles. The bearings have openings in which the rod can slide and a locking device for locking the housing relative to the rods in a plurality of vertical positions. The device includes at least one locking projection movable relative to the housing between a locking position and an unlocking position. The two rods are part of a frame formed by a metal tube bent to take the general shape of an inverted U with the rods corresponding to the legs of the U.

A head restraint for a seat being adjustable in a vertical direction, and angularly adjustable with regard to lateral portions of the head restraint. A mechanism providing this adjustability is a linear and rotational locking mechanism with a shaft and a slide. The slide is selectively slidably and rotatably mounted on the shaft. The slide has a locked state which linearly and rotationally fixes the slide on, and with respect to, the shaft. The slide has a release state where the slide is linearly and rotatably movable on the shaft. The slide is fixable in a plurality of linear and rotational positions on the shaft in the locked state. The number of linear and rotational positions on the shaft is considered infinite since for all practical purposes, the slide is not restricted to individual discrete positions, but is continuously adjustable to practically any linear and rotational position.

A head restraint for a seat being adjustable in a vertical direction, and angularly adjustable with regard to lateral portions of the head restraint. A mechanism providing this adjustability is a linear and rotational locking mechanism with a shaft and a slide. The slide is selectively slidably and rotatably mounted on the shaft. The slide has a locked state which linearly and rotationally fixes the slide on, and with respect to, the shaft. The slide has a release state where the slide is linearly and rotatably movable on the shaft. The slide is fixable in a plurality of linear and rotational positions on the shaft in the locked state. The number of linear and rotational positions on the shaft is considered infinite since for all practical purposes, the slide is not restricted to individual discrete positions, but is continuously adjustable to practically any linear and rotational position.

A headrest assembly according to an exemplary aspect of the present disclosure includes, among other things, a head restraint including a push-button and a cam rotatable by a pull cable. The head restraint is moveable from an upright position to a folded position by movement of the push-button or the cam.

A head restraint assembly includes a base portion including a first post portion extending in a vertical direction. Also included is a head restraint operatively coupled to the base portion. Further included is a housing comprising a front shell and a rear shell. Yet further included is a lock slide manually moveable between a locked condition and an unlocked condition. Also included is at least one armature biasing member surrounding a portion of the base portion and biasing the base portion to be in constant contact with the front shell. Further included is at least one journal friction spring disposed within at least one of the front shell and the rear shell to control a manual adjustment effort, the at least one armature biasing member and the at least one journal friction spring biasing the housing in the same direction.

A head restraint assembly includes a base portion including a first post portion extending in a vertical direction. Also included is a head restraint operatively coupled to the base portion. Further included is a housing comprising a front shell and a rear shell. Yet further included is a lock slide manually moveable between a locked condition and an unlocked condition. Also included is at least one armature biasing member surrounding a portion of the base portion and biasing the base portion to be in constant contact with the front shell. Further included is at least one journal friction spring disposed within at least one of the front shell and the rear shell to control a manual adjustment effort, the at least one armature biasing member and the at least one journal friction spring biasing the housing in the same direction.

The present invention relates to a headrest moving device. Particularly, an elastic rib is disposed between a lock plate and a case, the elastic rib applies an elastic force to the lock plate in a direction different from a sliding direction of the lock plate, a curved part is formed between both ends of the elastic rib, the curved part is in contact with the case or the lock plate, and both ends of the elastic rib are spaced apart from a surface in contact with the curved part, and thus, there is no gap between the lock plate and the case, and the lock plate can be smoothly slid.

The present invention relates to a headrest moving device. Particularly, an elastic rib is disposed between a lock plate and a case, the elastic rib applies an elastic force to the lock plate in a direction different from a sliding direction of the lock plate, a curved part is formed between both ends of the elastic rib, the curved part is in contact with the case or the lock plate, and both ends of the elastic rib are spaced apart from a surface in contact with the curved part, and thus, there is no gap between the lock plate and the case, and the lock plate can be smoothly slid.

A head restraint for a vehicle seat is provided. In one embodiment, the head restraint includes a body defining an exterior surface, where the exterior surface of the body is divided into one or more touch zones. The head restraint also includes a material configured to generate a variable resistance in response to receiving a user input. The material located underneath the exterior surface of the head restraint where the one or more touch zones are located. The head restraint also includes one or more actuation mechanisms configured to move the head restraint relative to the vehicle seat. Finally, the head restraint includes a control module in electrical communication with the material and the one or more actuation mechanisms, wherein the control module executes instructions to receive the variable resistance from the material and determine at least one command signal.

A vehicle headrest includes a carriage with support rods, an outer headrest connected to the carriage, a vertical locking arrangement with a locking element having a locked state and a released state relative to a support rod locking interface. Release levers, accessible from respective sides, move essentially along a vehicle direction of travel. Release carriers, moveably mounted to the carriage, moves essentially along a vehicle inboard/outboard direction and moves the locking element into the released state. Each release linkage activates the movement of the release carrier. The headrest also includes a forward and rearward locking arrangement for movement of the outer headrest relative to the carriage with support rods with at least some forward and/or rearward movement component. The movement arrangement, for movement of the outer headrest relative to the carriage, does not interrupt the release linkage connection for activating the movement of the release carrier.