A vehicle seating assembly includes a seat. A seat bladder is disposed between a support and trim material face. The bladder is positively pressurized when the seat is unoccupied. An elastomeric reservoir is operably coupled with the seat bladder via a fluid line, wherein fluid moves to and pressurizes the reservoir when a passenger is seated on the seat. A rigid containment unit is configured to house the reservoir and limit expansion of the reservoir.

A seat support system including a seat mount having multiple segments movable relative to each other between a raised configuration and a lowered configuration. The multiple segments include a first segment attached to a floor of a vehicle and a second segment connected to the first segment. A linear actuator is connected to the second segment and movable from a retracted position to an extended position to move the multiple segments from the raised configuration to the lowered configuration.

A safety restraint system for a vehicle seat having a seat back, a seat cushion and a frame includes an inflatable pelvis restraint device having a flexible member extending laterally across the seat cushion and having a first end and a second end. The flexible member includes at least a portion that is inflatable for increasing a height of the seat proximate a forward edge of the seat. In one embodiment, both the first and second ends are attached to the frame. In another embodiment, the safety restraint system includes a continuous webbing that defines a pelvis restraint portion, a lap belt portion and a shoulder belt portion. The lap belt portion, the shoulder belt portion, or both may be additionally inflatable.

A safety restraint system for a vehicle seat having a seat back, a seat cushion and a frame includes an inflatable pelvis restraint device having a flexible member extending laterally across the seat cushion and having a first end and a second end. The flexible member includes at least a portion that is inflatable for increasing a height of the seat proximate a forward edge of the seat. In one embodiment, both the first and second ends are attached to the frame. In another embodiment, the safety restraint system includes a continuous webbing that defines a pelvis restraint portion, a lap belt portion and a shoulder belt portion. The lap belt portion, the shoulder belt portion, or both may be additionally inflatable.

A kinetic seat assembly includes a primary seat cushion frame, a secondary seat cushion frame movable relative to the primary seat cushion frame, a primary seat back frame, a secondary seat back frame movable relative to the primary seat back frame, a pair of lateral dampers extending between the primary seat back frame and the secondary seat back frame, a pair of vertical dampers extending between the secondary seat back frame and the primary seat cushion frame, a pair of fluid reservoirs for providing a fluid into the pair of lateral dampers and the pair of vertical dampers, and an electronic control unit configured to control the rate at which the fluid is provided to and drawn out of each of the dampers to control a damping effect. In embodiments, an end of the lateral dampers is permitted to move freely relative to the secondary seat back frame.

The present invention is an airbag device installed in a vehicle seat having a seat cushion forming the seat surface and a seatback forming the backrest, a pair of inflators stowed in the left and right side portions of said seatback and generating expansion gas, and an airbag stowed in said seatback in a rolled or folded state and deployed by the expansion gas released from said inflators. The airbag is configured to include a pair of left and right side chambers that deploy from the side of the seatback toward the front and restrain movement of at least the waist to the shoulders of an occupant, and a connection part that connects the pair of side chambers and is positioned above the head of the occupant when the airbag is deployed.

A system for reducing spine load during a collision. The system includes a seat assembly for a vehicle. The seat assembly includes a seat having a seat bottom, and further includes a linkage structure for coupling the seat bottom to a floor structure. The linkage structure enables movement of the seat bottom during a collision of the vehicle.

A kinetic seat assembly includes a primary seat cushion frame, a secondary seat cushion frame movable relative to the primary seat cushion frame, a primary seat back frame, a secondary seat back frame movable relative to the primary seat back frame, a pair of lateral dampers extending between the primary seat back frame and the secondary seat back frame, a pair of vertical dampers extending between the secondary seat back frame and the primary seat cushion frame, a pair of fluid reservoirs for providing a fluid into the pair of lateral dampers and the pair of vertical dampers, and an electronic control unit configured to control the rate at which the fluid is provided to and drawn out of each of the dampers to control a damping effect. In embodiments, an end of the lateral dampers is permitted to move freely relative to the secondary seat back frame.

An occupant protection method and system, and a computer-readable medium, where the method includes: S1: collecting external environment information of a vehicle; S2: determining, based on the environment information, whether there is an obstacle within a monitoring area, and if yes, proceeding to step S3; or if no, returning to step S1; S3: predicting a movement trajectory of the obstacle; S4: calculating a probability of collision between the vehicle and the obstacle based on vehicle body data and motion information of the vehicle, and the movement trajectory of the obstacle; S5: determining whether the probability of collision is greater than a collision threshold, and if yes, proceeding to step S6; or if no, returning to step S1; S6: partially inflating a seat cushion airbag of the vehicle to adjust a sitting posture of an occupant; S7: determining whether a collision is detected, and if yes, proceeding to step S8; or if no, returning to step S1; and S8: fully inflating the seat cushion airbag.

A vehicle seat includes an anti-submarining feature which enhances the effectiveness of the lap belt. The seat includes a seat frame with two side rails joined by front and rear tubes. A trigger mechanism includes two arms pivotably supported by the front tube. The two arms support a cross tube. A flexible mat is supported by the cross tube and the rear tube. In normal operation, the arms are prevented from rotating about the front tube by cam lobes which contact a trigger rod. In a front collision, the occupant's inertia, acting through the flexible mat, deforms the trigger rod releasing the trigger mechanism. The cross tube pivots upward and rearward. A missile portion of the flexible mat moves downward.