A vehicle seat includes a seat back having a front surface and a rear surface, a panel movable along the rear surface from a stowed position adjacent the rear surface to a deployed position facing the front surface, and an airbag supported on the panel and inflatable toward the front surface to an inflated position in which the airbag contacts the panel.

An apparatus and method for protecting a passenger of a vehicle that may minimize impact energy transmitted to a passenger by realizing rotation, position change, and space securing of an interior seat according to sensor detection of an external impact to a vehicle. The apparatus for protecting a passenger includes at least one seat movable in a length direction of the vehicle and rotatable disposed inside a vehicle, a plurality of sensing units installed in the vehicle and outputting a collision signal in case of a vehicle collision, and a controller determining a direction and location of a collision in the vehicle in case of the vehicle collision and controlling the at least one seat to be selectively moved and/or rotated according to the direction and location of the collision.

A seatback for a seating assembly in a vehicle comprises: a vertical midline; and a guide for seatbelt webbing having a first position and a second position; wherein, the second position is closer to the vertical midline than the first position. The seatback further includes a frame and trim at least partially covering the frame. The guide can be operably coupled to the frame. The guide can be disposed at least partially above the trim. The seatback can further include an actuator with a piston to move the guide. The piston can be operably connected to the guide below the trim having a first position and a second position. When the piston is in the first position, the guide is in the first position. When the piston is in the second position, the guide is in the second position. The actuator can be a controller controlled pyrotechnic actuator.

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 vehicle seat whose state is changeable when a rear load is input to a conveyance includes a rotary member configured to move from an initial position in association with the state change, and a lock pin configured to restrict movement of the rotary member. Where a load on the vehicle seat from an occupant based on the rear load changes according to the occupant's physique, weight, etc., when the load is less than a predetermined value and the rotary member moves from the initial position to reach a first position, the lock pin holds the rotary member at the first position. When the load is equal to or greater than the predetermined value, the rotary member, after having reached the first position, moves toward a second position beyond movement restriction by the lock pin, the second position being apart further from the initial position than the first position.

The disclosure provides for a system. The system may include a rotational control system configured to rotate a seat of a vehicle, and one or more computing devices. The one or more computing devices may have one or more processors that are configured to determine that an impact is imminent at a location on the vehicle along a collision axis. A most favorable orientation may be determined by the one or more processors based on the determined location and collision axis. Using the rotational control system, the one or more processors may rotate the seat of the vehicle to the most favorable orientation in order to reduce risks of serious injury to a passenger in the seat caused by the imminent impact. A translational control system may be used by the one or more processors to translate the seat of the vehicle to a position relative to the determined location.

In severe traffic accidents, crumpling the front of the car causes the passenger's leg get stuck between the seat and the car's dashboard. In this article, the condition of the seat and occupant safety sack is checked, which keeps the passenger in place, in heavy crashes, then raises the occupant's knee, and pulls the front seats back as far as possible.

A control device controls a vehicle including a seat suspension which is provided between a chassis and a seat of the vehicle and restricts vibration and of which each of a spring constant and a damping coefficient is changeable and controllable. The control device detects, as vehicle information, a vehicle speed, an acceleration, a state of acceleration operation by a driver, a state of deceleration operation by the driver, and a state of steering by the driver. The control device determines, based on the vehicle information, whether the driver has driving preference of emphasizing the steering stability performance of the vehicle or driving preference of emphasizing the ride comfort performance of the vehicle, and, according to the determined driving preference, changes an acceleration of the seat by controlling the seat suspension.

A vehicle seat includes a seat back having a front surface and a rear surface, a panel movable along the rear surface from a stowed position adjacent the rear surface to a deployed position facing the front surface, and an airbag supported on the panel and inflatable toward the front surface to an inflated position in which the airbag contacts the panel.

A seatback for a seating assembly in a vehicle comprises: a vertical midline; and a guide for seatbelt webbing having a first position and a second position; wherein, the second position is closer to the vertical midline than the first position. The seatback further includes a frame and trim at least partially covering the frame. The guide can be operably coupled to the frame. The guide can be disposed at least partially above the trim. The seatback can further include an actuator with a piston to move the guide. The piston can be operably connected to the guide below the trim having a first position and a second position. When the piston is in the first position, the guide is in the first position. When the piston is in the second position, the guide is in the second position. The actuator can be a controller controlled pyrotechnic actuator.