The disclosure provides for a system that includes a seat mounted in a vehicle. The seat includes a base, a back support, a hinge, and a seat belt integrated into the seat. The back support is capable of rotating relative to the base and thereby reclining. The hinge is between the base and the back support and is configured to lock the back support in positions in relation to the base. The seat belt has a shoulder portion and a lap portion and is attached to the seat at a shoulder anchor in the back support and a base anchor in the base. When a generated torque, created from a forward force applied by the shoulder portion of the seat belt, exceeds a threshold amount of torque, the hinge is configured to unlock and back support is configured to rotate forward from a reclined position towards an upright position.

The disclosure provides for a system that includes a seat mounted in a vehicle. The seat includes a base, a back support, a hinge, and a seat belt integrated into the seat. The back support is capable of rotating relative to the base and thereby reclining. The hinge is between the base and the back support and is configured to lock the back support in positions in relation to the base. The seat belt has a shoulder portion and a lap portion and is attached to the seat at a shoulder anchor in the back support and a base anchor in the base. When a generated torque, created from a forward force applied by the shoulder portion of the seat belt, exceeds a threshold amount of torque, the hinge is configured to unlock and back support is configured to rotate forward from a reclined position towards an upright position.

A seat backrest inertial locking system configured to lock a seat backrest in place upon rapid acceleration or deceleration of a vehicle. The locking system includes an inertial mass located on an actuation ring, the inertial mass configured to cause rotation of the actuation ring when a rapid acceleration or deceleration is experienced. Rotation of the actuation ring causes longitudinal movement of a locking member into a receiving slot disposed on a truss of the seat backrest, thereby locking the seat backrest in place.

A seat backrest inertial locking system configured to lock a seat backrest in place upon rapid acceleration or deceleration of a vehicle. The locking system includes an inertial mass located on an actuation ring, the inertial mass configured to cause rotation of the actuation ring when a rapid acceleration or deceleration is experienced. Rotation of the actuation ring causes longitudinal movement of a locking member into a receiving slot disposed on a truss of the seat backrest, thereby locking the seat backrest in place.

A suspension component (730), including: an elastomeric component top member (832); an elastomeric component bottom member (830); and a plurality of elastomeric zig-zag columnar elements (800). The elastomeric zig-zag columnar elements connect the elastomeric component top member to the elastomeric component bottom member and are separated from each other by a gap (806).

Disclosed is a locking device for a walk-in seat of a vehicle, the locking device including a drive plate coupled to a connection frame interconnecting a side frame with a seatback frame and configured to move the connection frame to a walk-in position when performing walk-in operation, a pawl mounted on the connection frame and configured to lock or unlock the drive plate depending on whether the walk-in operation is performed, a locking lever mounted on the connection frame and configured to rotate the pawl in a direction of locking or unlocking the drive plate, and a pressing shaft fixed to a lower end of a seat belt buckle and laterally protruding to be coupled to the connection frame, and configured to apply a load to the pawl in a direction of locking the pawl to the drive plate due to the load applied to the seat belt buckle.

The disclosure provides for a system that includes a seat mounted in a vehicle. The seat includes a base, a back support, a hinge, and a seat belt integrated into the seat. The back support is capable of rotating relative to the base and thereby reclining. The hinge is between the base and the back support and is configured to lock the back support in positions in relation to the base. The seat belt has a shoulder portion and a lap portion and is attached to the seat at a shoulder anchor in the back support and a base anchor in the base. When a generated torque, created from a forward force applied by the shoulder portion of the seat belt, exceeds a threshold amount of torque, the hinge is configured to unlock and back support is configured to rotate forward from a reclined position towards an upright position.

The disclosure provides for a system that includes a seat mounted in a vehicle. The seat includes a base, a back support, a hinge, and a seat belt integrated into the seat. The back support is capable of rotating relative to the base and thereby reclining. The hinge is between the base and the back support and is configured to lock the back support in positions in relation to the base. The seat belt has a shoulder portion and a lap portion and is attached to the seat at a shoulder anchor in the back support and a base anchor in the base. When a generated torque, created from a forward force applied by the shoulder portion of the seat belt, exceeds a threshold amount of torque, the hinge is configured to unlock and back support is configured to rotate forward from a reclined position towards an upright position.

An end stop assembly includes a pivot bracket, an end stop bracket, a strap, and a pin assembly. The pivot bracket defines a first adjustment slot and a first pivot hole. The end stop bracket defines a second adjustment slot and a second pivot hole. The end stop bracket has a first stop tab positioned about the second pivot hole. The second pivot hole is held concentrically to the first pivot hole. The strap defines an attachment hole. The pin assembly holds the strap and end stop bracket to the pivot bracket. The pin assembly is positioned through the first adjustment slot, the second adjustment slot and the attachment hole such that the pin assembly is movable by along the first adjustment slot and the second adjustment slot from a first position to a second position by pulling the strap.

An end stop assembly includes a pivot bracket, an end stop bracket, a strap, and a pin assembly. The pivot bracket defines a first adjustment slot and a first pivot hole. The end stop bracket defines a second adjustment slot and a second pivot hole. The end stop bracket has a first stop tab positioned about the second pivot hole. The second pivot hole is held concentrically to the first pivot hole. The strap defines an attachment hole. The pin assembly holds the strap and end stop bracket to the pivot bracket. The pin assembly is positioned through the first adjustment slot, the second adjustment slot and the attachment hole such that the pin assembly is movable by along the first adjustment slot and the second adjustment slot from a first position to a second position by pulling the strap.