A shape memory alloy (SMA) controlled hinge assembly is provided, including assemblies and combinations for adjusting a shape or position of an occupant support component, such as a vehicle seat support component or other seating component. The assembly includes an occupant support component and a hinge assembly configured to adjust a shape or position of at least a portion of the occupant support component. The hinge assembly includes a stationary plate and a movable plate rotatable relative to the base plate about a fixed axis of rotation. The hinge assembly includes a shape memory alloy wire coupling the stationary plate with the movable plate. An actuator is provided and configured to transform the phase of the shape memory alloy wire. In various aspects, the occupant support component is selected from one of a seat bottom; a seatback; a seat bolster; a seat head rest, and the like.

A vehicle seat having an adaptable lateral support and method of adapting lateral support are provided. The seat has a seat frame on which a seat cushion and/or a backrest cushion and at least one actuator is retained, wherein the seat cushion and/or the backrest cushion has at least one laterally arranged, resiliently deformable side wall cushion for the lateral support of a person sitting on the vehicle seat and the actuator is operationally connected to the side wall cushion and configured to apply a deformation force for the resilient deformation of the side wall cushion. The vehicle seat has a cable element which connects the side wall cushion to the actuator in a force-transmitting manner so that the actuator introduces the deformation force by tensioning the cable element directly from the cable element into the side wall cushion to deform the side wall cushion to change the lateral support.

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 seat control apparatus controls a seat of a vehicle in which an occupant of the vehicle sits. The seat control apparatus includes an occupant weight recognition unit; an occupant sitting state recognition unit configured to recognize an occupant sitting state including at least either of a grip force of the occupant and a load applied to the occupant; a lateral acceleration estimation unit configured to estimate a subsequent lateral acceleration of the vehicle; and a seat controller configured to control the seat. The seat has an occupant support adjustment portion including at least one of a first adjustment portion, a second adjustment portion, and a third adjustment portion. The seat controller calculates an adjustment amount of the occupant support adjustment portion and controls the occupant support adjustment portion in response to the calculated adjustment amount.

A seat assembly is provided with a seat frame for a seat back or a seat bottom. At least two side bolster regions are spaced apart laterally on the seat frame. At least two bolster support assemblies are provided, each bolster support assembly comprising an air bladder mounted to the seat frame along each of the side bolster regions. An actuator inflates each air bladder between a deflated position and at least one inflated support position. An accelerometer is mounted to the seat frame. A controller is in electrical communication with the accelerometer and the actuator. The controller is programmed to receive data from the accelerometer indicative of a lateral acceleration. If the lateral acceleration is above a threshold, the controller commands the actuator to inflate one of the air bladders to the inflated support position.

A system having a controller includes one or more thermal generation element assemblies, or a plurality of air bladder assemblies, or a plurality of electromagnetic coil assemblies, or a combination thereof, that are in communication with the controller and are configured for activation by the controller. The one or more thermal generation element assemblies, or the plurality of air bladder assemblies, or the plurality of electromagnetic coil assemblies, or a combination thereof are configured to provide a holistic mitigating effect on a vehicle occupant confined within the interior space of a vehicle for long periods of time.

Provided is to stabilize a fixed state of each bag body provided at a vehicle seat and configured to expand to push a corresponding one of the shoulders of a seated passenger. Of a seat back provided at the vehicle seat, each shoulder support configured to support a corresponding one of the shoulders of the seated passenger includes an air cell configured to expand by injection of air. The air cell includes protrusions extending in a predetermined direction and provided at respective end portions of the air bag in the extending direction thereof. The air cell is attached to the inside of the seat back in such a manner that each of the protrusions provided at respective end portions in the extending direction is fixed to a corresponding one of fixing positions separated from each other in the width direction of the vehicle seat.

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).

A motor vehicle including at least one individual seat is provided. The individual seat includes a seat part and a backrest. The seat part has a seat-part main shell and seat-part side shells arranged thereon on respective sides. The backrest has a backrest main shell and backrest side shells arranged thereon on respective sides. A rail system is provided, which moves the respective seat-part side shell and/or the respective backrest side shell in a desired or specified position by way of actuators.

A mesh type seat for a vehicle includes a mesh mounted for supporting the upper body and the lower body of a passenger on a seat frame. An elastic member and a damping member are installed on the mesh type seat and are capable of adjusting the tension of the mesh to the side of the seat frame, thereby providing a comfortable seating feeling to the passenger by adjusting the tension of the mesh while maximizing ventilation performance.