A seating posture is stabilized for the shoulders of a passenger seated on a vehicle seat. A vehicle seat is provided with a seat back configured to support the seated person from the rear. A shoulder support portion of the seat back configured to support a corresponding one of the shoulders of the seated passenger includes an air cell configured to expand when air is supplied. When the air cell expands, one end portion of the shoulder support portion on the outside in the width direction of the vehicle seat moves more forward than the other end portion of the shoulder support portion on the inside in the width direction.

A vehicle assembly includes a vehicle body including a frame backing member, and a vehicle seat including a seat back having a seat back frame. An energy attenuating member is positioned in a space between the frame backing member and the seat back frame in a front-rear direction of the vehicle assembly. The energy attenuating member is connected to the frame backing member. A mounting bracket is connected to the energy attenuating member. A connection support portion releasably connects the mounting bracket to an upper portion of the seat back frame in a height direction of the vehicle assembly.

A track assembly includes a track and a support member connected to and configured move along the track. The support member may include an engagement portion. The engagement portion may be configured to engage the track to limit relative movement between the track and the support member in a loaded state of the track assembly. The engagement portion may be configured not to operatively engage the track or limit movement between the track and the support member in an unloaded state of the track assembly.

The object of the invention is to provide a vehicle seat which can improve degree of freedom in the design of the vehicle seat. A vehicle seat with a seat cushion and a seat back includes: right and left side frames 20 constituting right and left frames of the seat back; a pressure-receiving member 40 disposed between the right and left side frames 20 and configured to receive a load from an occupant; and a driving mechanism 50 disposed at each of right and left sides of the pressure-receiving member 40 and configured to cause a right end portion or a left end portion of the pressure-receiving member 40 to move from an initial position to an advanced position that is located frontward of the initial position or to move from the advanced position to the initial position, wherein the driving mechanism 50 includes a linkage (drive link member 100 and contact link member 200) configured to be connected to the pressure-receiving member 40 and a driving source 52 configured to actuate the linkage, and wherein the linkage is configured to operate when a load equal to or greater than a predetermined amount is input from the occupant to the pressure-receiving member 40 to cause the pressure-receiving member 40 to move to a backward position that is located rearward of the initial position.

A vehicle seat includes a seat bottom having a forward-facing surface relative to the vehicle seat and an airbag mounted to the seat bottom. The airbag includes an inflator mounted to the seat bottom and an airbag cushion including a portion positioned adjacent the forward-facing surface of the seat bottom.

Seat assemblies and subassemblies are disclosed. The subassemblies include massage and/or ventilation subassemblies that employ tubeless air distribution by fixing sheets together such as by heat-staking. The subassemblies also include a support structure for preassembling the massage, ventilation, and/or electronic components together prior to suspending them in a seat assembly.

A system (100) and method (900) for assessing for protecting the occupant (70) of a vehicle (50) during a rear crash (62). The system (100) can use a wide variety of assemblies, subassembly, and component configurations to protect the occupant (70) from undesirable kinematics (91). Such a system (100) can among other components include an anti-ramping guide (272) and/or a rear pretensioner (305).

A system (100) and method (900) for assessing for protecting the occupant (70) of a vehicle (50) during a rear crash (62). The system (100) can use a wide variety of assemblies, subassembly, and component configurations to protect the occupant (70) from undesirable kinematics (91). Such a system (100) can among other components include an anti-ramping guide (272) and/or a rear pretensioner (305).

Provided is a conveyance seat that effectively reduces a load to be applied to an occupant at the time of a vehicle collision. A conveyance seat includes a seat back and a headrest. The seat back includes a chest support member inside the seat back, which receives a chest of an occupant to support the chest of the occupant when a backward movement load is applied to the occupant because of a vehicle collision. The headrest includes a head support member inside the headrest, which receives a head of the occupant to support the head of the occupant when the backward movement load is applied to the occupant. When the backward movement load is applied to the occupant, both the chest support member and the head support member receive the backward movement load.

A vehicle assembly includes a vehicle body including an interior panel, a seat having a frame fixed to the panel, and a seat energy absorber operably associated with the seat and including a backing and a bracket. The backing is formed from the vehicle body and positioned separated from the seat to define a space between the seat and the backing along a length of the panel, and the bracket is mounted in the space on at least one of the seat and the backing such that a proximal end portion of the bracket is located closer to the seat than the backing, and a distal end portion of the bracket is located closer to the backing than the seat. During a crash event a section of the panel is configured to collapse against the seat when the seat is driven toward the panel relative to the vehicle body.