A vehicle seat includes a lower seating structure and a raised seatback support, wherein one of either the lower seating structure or raised seatback support consists of a multilayer assembly. The multilayer assembly includes a flexible static layer, a flexible dynamic layer having an adjustable firmness, a suspension layer formed from tunable springs which support a flexible panel, and a frame supported carrier including a protective recess within which the suspension layer is cradled.

A vehicle seat includes a seat bottom and a seat back coupled to the seat bottom to move relative to the seat bottom. The seat bottom includes a cushion configured to have a variable shape.

An adjustable vehicle seat includes a seat base having a seat surface and a backrest having a backrest surface. In the seat base and/or in the backrest, sensors are provided that detect forces, pressures and/or movements effected by a person sitting on the vehicle seat and consequently issue a signal. A control device is provided that detects the signals issued by the sensors and actuates actuators provided in the vehicle seat to adjust the seat base and/or backrest, or components thereof, in order to adjust the vehicle seat.

To improve comfort, a motor vehicle seat has at least one cushion body, at least one cover concealing the cushion body at least in part, and at least one tensioner, which is operatively connected to the cover by a first end and is designed to adjust the cover tension. The tensioner is fixed by a second end to a clamping device. The clamping device is designed to modify and fix the distance of the tensioner from the first end thereof to the second end thereof and the clamping device is designed to be operated after completion of the motor vehicle seat.

A seat adjustment system for a vehicle seat is provided. The seat adjustment system includes a seat body; at least one actuating unit, configured to adjust a support of the seat body; a sensing unit, configured to obtain and provide seat information and body shape data of a back of an occupant; and a control unit, configured to control the at least one actuating unit; wherein when one parameter of the seat body changes, the control unit makes a portion of the body shape data of the occupant in a pre-defined range via the at least one actuating unit.

A vehicle seat can be configured to selectively provide support to a vehicle occupant in conditions when lateral acceleration is experienced. An actuator can be located within the vehicle seat. When activated, the actuator cause a portion of the seat to morph into an activated configuration. The actuator can be activated based on vehicle speed, steering angle, and/or lateral acceleration. The actuator can include a bladder containing a dielectric fluid. A first and second conductor can be operatively positioned on opposite portions of the bladder. When electrical energy is supplied to the first and second conductors, they can have opposite charges. As a result, the first and second conductors can be electrostatically attracted toward each other to cause at least a portion of the dielectric fluid to be displaced to an outer peripheral region of the bladder, which bulges as a result and increases an overall height of the actuator.

An adjustable seat system for use with a vehicle, with the system including a cushion associated with a passenger seat of the vehicle. The cushion includes a support structure and a bladder encapsulating the support structure, wherein the support structure is formed from a porous foam material. The system also includes an actuator in communication with the bladder, wherein the actuator is configured to selectively adjust the hardness of the cushion by inflating and deflating the bladder.

A hardness adjustment unit includes an elastic frame, a barrier, and a field generator. An enclosed space is provided inside the elastic frame and filled with a fluid filling. The barrier is arranged in the enclosed space and divides the enclosed space into an upper space and a lower space. The upper space communicates with the lower space. The field generator is arranged outside the elastic frame and used to apply a field to the fluid filling to adjust a viscosity of the fluid filling, thereby adjusting a flow damping of the fluid filling in the upper space and the lower space to control a deformation of the elastic frame.

A vehicle seat can be configured to selectively provide support to a vehicle occupant in conditions when lateral acceleration is experienced. An actuator can be located within the vehicle seat. When activated, the actuator cause a portion of the seat to morph into an activated configuration. The actuator can be activated based on vehicle speed, steering angle, and/or lateral acceleration. The actuator can include end members connected by a shape memory material connecting member. Actuator blocks with sliding surfaces can be located between the end members. The actuator can be configured such that, in response to an activation input, the shape memory material connecting member contracts, which draws the end members toward each other and causes corresponding sliding surfaces of the plurality of actuator blocks to engage and slide relative to each other. In this way, the actuator morphs into an activated configuration in which its overall height increases.

A motor vehicle seat having a seat region, in particular a backrest or a seat part, wherein at least one fluid-filled hollow body connected to a first fluid inlet and outlet conduit is arranged in the seat region, wherein the at least one hollow body is part of a seat displacement device and/or a massage device and wherein the hollow body is supported by a support device also arranged in the seat region on its side facing away from an occupant sitting in the motor vehicle seat, characterized in that the support device in turn comprises at least one fluid-filled hollow support body which is arranged in the seat region and is spatially separated from the at least one hollow body, wherein the firmness of the seat and/or the strength of the massage application can additionally be adjusted by varying the filling of the hollow support body.