A self-leveling armrest assembly for a vehicle is provided. The self-leveling armrest assembly includes a back portion of a vehicle seat having a first bracket and a second bracket. The second bracket is rotatably connected to at least one floor bracket. An armrest assembly is rotatably connected to the first bracket of the back portion. At least one motion link is rotatably connected to the second bracket of the back portion. The at least one motion link is configured to receive a portion of the armrest assembly as the armrest assembly rotates. The motion link is configured to maintain the armrest assembly in a substantially horizontal orientation.

A vehicle seating assembly includes a seat, a seatback, and a lower leg support. The seat includes a forward end and a rearward end. The seatback is pivotably coupled to the seat. The lower leg support includes an interior surface and an exterior surface. The lower leg support is rotatably coupled to the forward end of the seat and is movable between a stowed position and a deployed position. The stowed position of the lower leg support places the lower leg support in an area below the seat. The stowed position of the lower leg support forms an acute angle with the seat. A linkage assembly is coupled to an underside of the seat and the interior of the lower leg support. The linkage assembly is responsible for transitioning the lower leg support between the stowed position and the deployed position.

The invention relates to a headrest comprising two legs, a transverse strut connecting the upper portions of the legs, a housing rotatably mounted on a transverse axis with a locking device. The locking device locks the housing in the raised position, with a first spring for actuating the housing to the lowered position when the device is deactivated. The locking device has two locking catches each formed in an upper portion of each of the legs, a locking crosspiece provided with two locking projections fitting into one of the catches each when the crosspiece is in the locking position. The invention includes a an actuator for actuating the crosspiece to the unlocked position, and a second spring for actuating the crosspiece to the locking position when the housing is in the raised position and when the actuator is not activated.

An airplane seat device includes at least one functional unit that is configured at least for a locking, a controlling and/or a movement of at least one airplane seat element, wherein the functional unit includes at least one actuatable shape-memory element.

A head restraint of a vehicle seat includes a base element, at least one connection element positioned on the base element for connecting the base element to a backrest of a vehicle seat, a bearing element having a contact surface for contacting a head of a user of the vehicle seat, and a holding element which can be adjusted along a depth axis relative to the base element. The depth axis is oriented perpendicular to the contact surface. The bearing element is connected to the holding element by a damping device, wherein the damping device damps a movement of the bearing element relative to the holding element.

A seating assembly includes a frame that has an upper portion that defines an attachment aperture and a lower portion. A bracket is coupled to the lower portion. A cable has a first end and a second end that is coupled to the bracket. The cable is operable between a support position and a compressed position. A guide-sleeve is operably coupled with the cable and is disposed within the attachment aperture of the upper portion of the frame. The guide-sleeve includes retention tabs that are operably coupled to the upper portion.

A vehicle seating assembly is provided that includes a seat base, a seat back pivotally coupled to the seat base and having a front portion and a rear portion, and an actuator operable to change a position of the seating assembly. The assembly also includes a capacitive proximity sensor located on the seat back and configured to detect a user touch command and a user pressure command, and a controller for receiving the user touch command and pressure command and controlling the actuator to change a position of the seating assembly based on a user input.

A vehicle seat assembly and a method of controlling a vehicle seat assembly are provided. The vehicle seat assembly has a seat back frame rotatably connected to a support frame, and a seat back frame positioning assembly connected to the support frame and the seat back frame. The seat back frame positioning assembly has an electric motor, and a worm connected to the motor shaft for rotation. The seat back frame positioning assembly has a reduction gearset with a first gear in meshed engagement with the worm and driving a second gear. The second gear is connected to the support frame. A controller controls the motor such that the motor shaft rotates at a first speed and at a second speed greater than the first speed, with the seat back frame is rotated relative to the support frame in response to rotation of the motor shaft.

A valve (100) includes a housing (111) and the fluid port (121). A plunger (125) is configured to seal the fluid port (121) in a first position (91) and to unseal the fluid port (121) in a second position and to displace along a displacement direction (259) from its first position (91) towards its second position. The valve (100) also includes at least one shape memory alloy, SMA, actuator (151, 152) extending along the displacement direction (259) for at least 50% of its length and configured to exert an actuation force (155) on the plunger (125) to displace the plunger (125) from the first position (91) towards the second position.

A side member (10) for a vehicle seat (1), in particular motor vehicle seat, includes a metallic frame section (12). The frame section (12) has an exposed supporting section (14) for supporting a padding of the side member (10), wherein the supporting section (14) is flexurally elastic and, in a normal position, protrudes from the frame section (12) in order to support the padding, wherein at least one electrically controllable actuator (20) is provided, which, by generating a force, transfers the supporting section (14) from the normal position into a retracted position. The invention furthermore relates to a vehicle seat (1) having at least one side member (10).