Systems and methods described herein relate to improving an actuator for a support system of a seat. In one embodiment, an actuator includes a body that is bi-stable with a coiled state and an uncoiled state. The actuator also includes a strip, coupled to the body, that coils the body according to heat caused by a power source. The actuator also includes a wire coupled to a side of the body opposite from the strip and the wire uncoils the body in response to heating caused by the power source.

A support device configured to overlay a seating assembly and configured to support the torso, neck, and head of a user is provided. The support device has a first elongated bolster cushion configured to support a first thoracic side of the user, a second elongated bolster cushion configured to support a second thoracic side of the user, a first adjustable strap coupled to a upper portion of the first elongated bolster cushion and an upper portion of the second elongated bolster cushion such that the strap connects each of the first and second elongated bolster cushions on their respective lower portions, a second adjustable strap coupled to a lower portion of the first elongated bolster cushion and a lower portion of the second elongated bolster cushion such that the strap connects each of the first and second elongated bolster cushions on their respective lower portions, wherein when the first adjustable strap is tightened the upper portions of the first and second elongated bolsters move towards each other such that the first and second elongated bolsters for a tapered shape with respect to the other to support the user's thoracic sides, neck, head of the user or any combination thereof.

A structural component may have a carrier structure and a substructure arranged on the carrier structure and having a variable contour. The substructure may have an adjustment mechanism with a plurality of adjustment elements. The adjustment mechanism may be configured to adjust the adjustment elements between a compressed position and an expanded position in order to vary the contour.

An assist handle assembly for use in an interior of a vehicle is provided. The assist handle assembly includes an assist handle configured to be gripped by a user, a connector configured to secure the assist handle assembly to a structural component in the interior of the vehicle, a proximity sensor assembly coupled to the assist handle for generating a sensed signal indicative of a user gripping the assist handle, and a controller controlling one or more vehicle devices based on the sensed signal.

To provide a technique that enables the reduction of fatigue of a vehicle occupant at low cost and without an increase in the number of parts. Without preparing a sensor in addition to a posture changing mechanism, the position of a lumbar vertebra or thoracic vertebra of each vehicle occupant is estimated by controlling the operation of the posture changing mechanism. The posture changing mechanism includes: a back side support mechanism; a first motor capable of shifting a position of the back side support mechanism with respect to a vertical direction; and a second motor capable of shifting the position of the back side support member with respect to a front-back direction. A position of a lumbar vertebra of the vehicle occupant is estimated by: while changing the vertical position of the back side support mechanism by means of the first motor, changing a forward position of the back side support mechanism at each of the different vertical positions thereof by means of the second motor so as to obtain a turnover number value of the second motor achieving a desired resistance; and comparing the turnover number values of the second motor achieving the desired resistance. A position of the thoracic vertebra is determined by calculation based on the position of the lumbar vertebra. The position of the posture changing mechanism is set based on the results of estimation of the individual positions. Thus, a fatigue reduction effect is provided on the vehicle occupant by utilizing the posture changing mechanism.

Systems and methods described herein relate to improving an actuator for a support system of a seat. In one embodiment, an actuator includes a body that is bi-stable with a coiled state and an uncoiled state. The actuator also includes a strip, coupled to the body, that coils the body according to heat caused by a power source. The actuator also includes a wire coupled to a side of the body opposite from the strip and the wire uncoils the body in response to heating caused by the power source.

Proposed is an actuator for a recliner which can be manufactured with components having simple structures to reduce weight, and functions of a seat operated through different cables are independently performed stably. The actuator for a recliner includes: a casing part, and a drive part provided with a worm wheel gear located inside the casing part and rotated by an operation of a motor, and a rack gear configured to move elastically toward a first or second side of the drive part in engagement with the worm wheel gear, with cables being coupled respectively to the first and second sides of the rack gear.

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 main body member, a first end member pivotably connected to a first end region of the main body member, and a second end member pivotably connected to a second end region of the main body member. The actuator can include shape memory material connecting members. The actuator can be configured such that, in response to an activation input, the shape memory material connecting members contract, causing the first and second end members pivot, which causes the actuator to morph into an activated configuration.

A side bolster adjustment apparatus of a vehicle seat may include a guide frame which is mounted to a seat back frame, and is formed with a guide groove; a slider which slides along a direction in which a bolster protrudes from a seat back, which is the longitudinal direction of the guide groove, by a guide means formed in the guide groove; a lead screw which is provided to penetrate the slider, and is mounted in the longitudinal direction of the guide groove; a motor which is coupled to the lead screw and selectively rotate the lead screw; and a bolster plate which is coupled to the slider, and rotates around a vertical longitudinal direction of the seat back by operation of the slider.

A utility vehicle includes a chassis, a prime mover supported by the chassis, an operator cab supported by the chassis, a control system including a controller, an operator support positioned within the operator cab and having a seat portion and a backrest portion and an actuator positioned within at least one of the seat portion and the backrest portion. The actuator is in communication with the controller and configured to move in a first pattern in response to a first notification signal from the controller in order to relay information to the operator.