A vehicle seat includes an ischial tuberosity support device that is driven to change a position of a part of a seat cushion corresponding to ischial tuberosities of a seated person; a sacrum/ilium support device that is driven to change a position of a part of a seat back corresponding to the sacrum and ilia of the seated person; a ninth thoracic vertebra support device that is driven to change a position of a part of the seat back corresponding to a ninth thoracic vertebra of the seated person; and a control device, wherein the control device sequentially executes: an information acquisition step of acquiring physique information of the seated person; a decision step of deciding parameters regarding a driving amount of each of the ischial tuberosity support device, the sacrum/ilium support device, and the ninth thoracic vertebra support device based on the acquired physique information; and an output step of driving the ischial tuberosity support device, the sacrum/ilium support device, and the ninth thoracic vertebra support device based on the corresponding parameters.

The present disclosure relates to a method for manufacturing a seat cushion comprising: providing a cushion comprising a 3D entanglement of continuous thermoplastic fibers, arranged irregularly or randomly forming loops heat-sealed together and hot-pressing of the 3D entanglement of fibers into one or more local 3D entanglement areas so as to obtain one or more densified, stiffened local areas of the cushion, the local area(s) being configured to serve as a fastening area. The present disclosure also relates to a cushion obtained according to the manufacturing method, and a seat comprising such a cushion and a cap attached to the densified, stiffened local area(s).

A structural component may have a carrier structure and a substructure arranged on the carrier structure and having a variable contour. The substructure may have an adjustment mechanism with a plurality of adjustment elements. The adjustment mechanism may be configured to adjust the adjustment elements between a compressed position and an expanded position in order to vary the contour.

The invention relates to a seat assembly for a means of passenger transport comprising a frame element on which a backrest element and a seat part are arranged, the seat assembly comprising at least one heat/fire shielding device which comprises at least one plate-like element, the at least one heat/fire shielding device being designed and provided in such a way that, when a source of heat and/or fire occurs, the plate-like element is displaced at least in sections towards the source of heat and/or fire or the plate-like element is deformed at least in sections towards the source of heat and/or fire.

A car seat includes an actuator capable of changing an orientation of a rest surface of a seat back laterally by turning and moving at least a side portion frame that is part of the car seat frontward and rearward, and a controller configured to exercise control over the actuator. The controller includes a run-time posture support unit configured to execute a run-time posture support control under which when a car makes a turn, the actuator is regulated to cause the rest surface of the seat back to be oriented in a direction of the turn. The run-time posture support unit is configured to regulate the actuator in accordance with a placement of the seat in the car, when the run-time posture support unit executes the run-time posture support control.

A seat assembly is provided having a seat bottom and a seat back mounted adjacent the seat bottom. A cushion is disposed on at least one of the seat bottom and seat back and defines a seating surface. The seating surface has a plurality of regions. A controller is in communication with the cushion and is programmed to independently vary a stiffness of each of the regions along the seating surface.

A dual firmness vehicle seat and a method of forming the same is provided. In an embodiment, a vehicle seat assembly includes a seat bottom, and a seatback disposed on the seat bottom. At least one of the seat bottom and seatback includes a first cushion region having a first initial load deflection value, and a second cushion region having a second initial load deflection value different from the first initial load deflection value. The seat assembly further includes a non-continuous trench defined by and between the first cushion region and the second cushion region and having a base forming a cavity therebetween, and connecting regions disposed within the cavity above the base extending between the first and second cushion regions to inhibit flexing between the first and second cushion regions.

A seat cushion is formed integrally by a body pad portion, an outer peripheral edge portion, and a connection portion. The outer peripheral edge portion protrudes toward a floor panel from the outer peripheral edge portion in a plan view and contacts a floor panel at its lower face. The connection portion is provided to protrude toward the floor panel at a portion which is separated from a front-side part of the outer peripheral edge portion and a rear-side part of the outer peripheral edge portion, respectively. The connection portion connects the floor panel and the body pad portion. A portion between the front-side part and the rear-side part of the outer peripheral edge portion in a vehicle longitudinal direction is a separation portion where a lower face of the seat cushion faces an upper face of the floor panel with a gap.

Provided is a vehicle seat that reduces deterioration in ride quality when an object is arranged under a seat cushion. The vehicle seat includes: a frame body; and a first panel having a first support portion and a second panel having a second support portion. The frame body includes: a first part extending along a seat width direction; and second and third parts arranged apart from each other and each extending toward a seat rear side relative to the first part. The first panel bridges the first and second parts. The second panel bridges the first and third parts. A distance from an inner end of the first support portion along the seat width direction to the second part is different from a distance from an inner end of the second support portion along the seat width direction to the third part.

An in-vehicle seat includes a seat back, a seat cushion, and an anchor for fixing a child seat. The seat cushion has a seat cushion base, a seat cushion pad that is removable from the seat cushion, and a supporting panel. The supporting panel is provided between the seat cushion base and the seat cushion pad, and serves as a placement face for the child seat. The anchor is provided at a position at which the anchor is covered and hidden by the seat cushion pad, and at which the anchor is externally exposed when the seat cushion pad is removed from the seat cushion. A guide groove that guides a linking portion protruding from the child seat to the anchor is provided in the supporting panel.