Embodiments relate to dynamic stroking seats for vertical take-off and landing (VTOL) aircraft. Seat ballast tanks are attached to aircraft seats. The seats are sprung by a fixed or variable load energy absorption system. The weight of a user is determined and assigned to a corresponding seat of the user. Based on the weight of the user, the fluid level in the ballast tank is monitored and adjusted to achieve a target weight range.

Embodiments relate to dynamic stroking seats for vertical take-off and landing (VTOL) aircraft. Seat ballast tanks are attached to aircraft seats. The seats are sprung by a fixed or variable load energy absorption system. The weight of a user is determined and assigned to a corresponding seat of the user. Based on the weight of the user, the fluid level in the ballast tank is monitored and adjusted to achieve a target weight range.

A passenger seat for a passenger vehicle including but not limited to an aircraft may include a seat base, a seat back, and an energy absorption system. The energy absorption system is spherically coupled to the seat base and spherically coupled to the seat back, and includes a dampening member and a support assembly. The dampening member is movable relative to the support assembly responsive to a load applied on the seat back such that engagement between the support assembly and the dampening member dampens the load.

A passenger seat for a passenger vehicle including but not limited to an aircraft may include a seat base, a seat back, and an energy absorption system. The energy absorption system is spherically coupled to the seat base and spherically coupled to the seat back, and includes a dampening member and a support assembly. The dampening member is movable relative to the support assembly responsive to a load applied on the seat back such that engagement between the support assembly and the dampening member dampens the load.

A vehicle seating assembly includes a conformal seating assembly coupled with a rigid shell and includes a seat base, a seatback base, seat side bolsters, and seatback side bolsters. An air-filled sender panel is disposed in the seat base. An air-filled receiver cell is disposed in one of the seat side bolster and the seatback side bolster. A liquid-filled sender panel is disposed between the air-filled receiver cell and the rigid shell. A liquid-filled receiver cell is adjacent the air-filled receiver cell and disposed in one of the seat side bolster and the seatback side bolster. A first distribution rail system is disposed on a first side of the seat base. A second distribution rail system is disposed on a second side of the seat base. A plurality of capillaries provide fluid communication between the sender panels and the receiver cells. A topper pad extends over the conformal seating assembly.

A vehicle seating assembly includes a conformal seating assembly coupled with a rigid shell and includes a seat base, a seatback base, seat side bolsters, and seatback side bolsters. An air-filled sender panel is disposed in the seat base. An air-filled receiver cell is disposed in one of the seat side bolster and the seatback side bolster. A liquid-filled sender panel is disposed between the air-filled receiver cell and the rigid shell. A liquid-filled receiver cell is adjacent the air-filled receiver cell and disposed in one of the seat side bolster and the seatback side bolster. A first distribution rail system is disposed on a first side of the seat base. A second distribution rail system is disposed on a second side of the seat base. A plurality of capillaries provide fluid communication between the sender panels and the receiver cells. A topper pad extends over the conformal seating assembly.

A seat system having a seat bottom and a cross beam. The seat bottom may include a support block, a cushion, and a trim cover. The cushion may be disposed on the support block. The trim cover may be disposed on the cushion. The cross beam that is disposed on the support block such that the cross beam does not extend through the seat bottom.

A passenger restraint system for roller coasters designed to maintain a passenger in an essentially seated or lying posture, with suspended feet. The passenger restraint system includes a fixed column and a seat column designed to support and hold the passenger, which seat column is coupled to the fixed column so as to be displaceable with respect to the fixed column during a roller coaster ride. The seat column is coupled to the fixed column by an articulated linkage, and the passenger restraint system further includes a balancing device ensuring a balancing of the seat column, which balancing device is fixed, at a first end, to the fixed column and, at a second end, to the seat column. The balancing device can advantageously be configured to ensure a vertical travel of the seat column during the roller coaster ride in dependence of a vertical acceleration exerted on the passenger.

A child restraint system includes a shell including an aperture formed therein. The child restraint system further includes a head support member disposed with at least a portion of the shell. The child restraint system further includes a bumper configured to extend through the aperture and contact a part of the head support member when a force is applied to the bumper.

A vehicle seat includes a load sensor for measuring a load applied from an occupant and a seat cushion frame, wherein the seat cushion frame comprises right and left side frames extending in a front-and-rear direction, the load sensor is attached to the seat cushion frame, and a concave portion is formed in at least one of the right and left side frames at a position opposite to the load sensor.