A trim element having a trim panel that includes an inner face and an outer face and at least one support element extending over the inner face and protruding toward the outer face such that the trim panel marries at least part of the contour of the support element in order to form a support surface on the outer face. The support element can be positioned in a plurality of positions relative to the trim panel, which is deformable to marry at least part of the contour of the support element so that the support surface can be positioned in a plurality of areas of the outer face.

A trim element having a trim panel that includes an inner face and an outer face and at least one support element extending over the inner face and protruding toward the outer face such that the trim panel marries at least part of the contour of the support element in order to form a support surface on the outer face. The support element can be positioned in a plurality of positions relative to the trim panel, which is deformable to marry at least part of the contour of the support element so that the support surface can be positioned in a plurality of areas of the outer face.

The invention describes a vehicle occupant restraint device for the protection of a vehicle occupant (2) in a vehicle seat (6) comprising plural restraining elements and a controller, wherein at least one first restraining element comprises an airbag module (28) including an airbag (22) and at least one second restraining element comprises a seat belt (4) including a belt retractor, with the seat belt (4) being operatively connected with a tensioning unit. The controller includes at least one sensor element for determining the position of the vehicle seat (6) so that, in a situation of restraint, the controller differentiates between a first situation in which the vehicle seat (6) with the vehicle occupant (2) is in a position within the range of a standard position relative to the airbag (22) of the first restraining element, and a second situation in which the vehicle seat (6) with the vehicle occupant (2) is in a position beyond the standard position, and, when the first situation is given, the controller activates the first and second restraining elements only, especially the tensioning unit for tensioning the seat belt (4) of the second restraining element and the airbag (22) of the first restraining element, whereas, when the second situation is given, a third restraining element integrated in the vehicle seat (6) and/or operatively connected with the vehicle seat (6) can be activated and/or connected by the controller so that the vehicle seat (6) is moved initially via the third restraining element to a position within the range of the standard position.

The invention describes a vehicle occupant restraint device for the protection of a vehicle occupant (2) in a vehicle seat (6) comprising plural restraining elements and a controller, wherein at least one first restraining element comprises an airbag module (28) including an airbag (22) and at least one second restraining element comprises a seat belt (4) including a belt retractor, with the seat belt (4) being operatively connected with a tensioning unit. The controller includes at least one sensor element for determining the position of the vehicle seat (6) so that, in a situation of restraint, the controller differentiates between a first situation in which the vehicle seat (6) with the vehicle occupant (2) is in a position within the range of a standard position relative to the airbag (22) of the first restraining element, and a second situation in which the vehicle seat (6) with the vehicle occupant (2) is in a position beyond the standard position, and, when the first situation is given, the controller activates the first and second restraining elements only, especially the tensioning unit for tensioning the seat belt (4) of the second restraining element and the airbag (22) of the first restraining element, whereas, when the second situation is given, a third restraining element integrated in the vehicle seat (6) and/or operatively connected with the vehicle seat (6) can be activated and/or connected by the controller so that the vehicle seat (6) is moved initially via the third restraining element to a position within the range of the standard position.

In a seat for a vehicle which comprises a seat body, a slide mechanism, and a lift mechanism, the lift mechanism is configured such that a hip point of a specified physique occupant seated on the seat body draws a track which is approximated to a virtual rotational track of the hip point around a heel point when viewed from a vehicle side, whereby a change quantity of an ankle's angle is restricted below a first threshold and a change quantity of a knee's angle is restricted below a second threshold.

A leg assembly for a passenger seat includes a base member (102), a leg (104B), and an adjuster (106). The leg includes an upper end (110) and a lower end (112). The upper end of the leg includes an aperture (126) configured to receive a base frame tube, and the lower end is pivotally connected to the base member such that the leg is pivotable forward and aft from a base position. The adjuster is configured to pivotally position the leg relative to the base member.

An ISS is a seating system that actively adjusts to improve an occupant's comfort, performance, and safety in a specific driving environment. The ISS determines the occupant's posture, position on the seat surface, and/or physiological state, for example, by applying a machine vision process. The ISS can further determine a driving environment. The ISS adjusts its settings and settings of the vehicle according to one or more factors such as an occupant's posture, the occupant's physiological state, the occupant's preferences, and/or the driving environment. The ISS can include a state machine that determines a current state and determines if a change has occurred such that the system should shift to another state that best suits this change. The ISS makes adjustment according to system settings associated with the best suitable state.

An ISS is a seating system that actively adjusts to improve an occupant's comfort, performance, and safety in a specific driving environment. The ISS determines the occupant's posture, position on the seat surface, and/or physiological state, for example, by applying a machine vision process. The ISS can further determine a driving environment. The ISS adjusts its settings and settings of the vehicle according to one or more factors such as an occupant's posture, the occupant's physiological state, the occupant's preferences, and/or the driving environment. The ISS can include a state machine that determines a current state and determines if a change has occurred such that the system should shift to another state that best suits this change. The ISS makes adjustment according to system settings associated with the best suitable state.

Occupant safety systems suitable for use in both traditional and opposed seating systems include various combinations of passive safety components: sensors that provides an output signal indicative of an imminent collision, seats selectively moveable relative to seat support structures in response to the output signal, inflatable restraints deployable from lap portions of a tensioned restraint based on the output signal, airbags deployable from a roof of a vehicle based on the output signal, cabin dividers deployable from a side of a cabin of the vehicle or the roof of the vehicle based on the output signal, and curtain airbags deployable between an occupant and the side of the cabin of the vehicle based on the output signal.

Occupant safety systems suitable for use in both traditional and opposed seating systems include various combinations of passive safety components: sensors that provides an output signal indicative of an imminent collision, seats selectively moveable relative to seat support structures in response to the output signal, inflatable restraints deployable from lap portions of a tensioned restraint based on the output signal, airbags deployable from a roof of a vehicle based on the output signal, cabin dividers deployable from a side of a cabin of the vehicle or the roof of the vehicle based on the output signal, and curtain airbags deployable between an occupant and the side of the cabin of the vehicle based on the output signal.