A shock mitigation seat 10 includes a plurality of individual shock absorbing members 16 resilient to compression from a shock impact. The shock absorbing members 16 are positioned one adjacent another and such that at a certain stage of compression an individual shock absorbing member 16 resiliently deforms and comes into contact with one or more adjacent individual shock absorbing members 16 which thereby increases resistance to further compression. The seat may be incorporated in a shock mitigation system 50 which has at least one sensor operable to detect a force and to provide a feedback signal indicative of the nature of the force and a memory record the incidence and severity of these forces and provides an indication of cumulative forces absorbed.

An attachment member allowing a connected state between the attachment member and a guide member to be more easily checked is provided. The attachment member for attaching a stay cloth, which guides a deployment direction of an airbag module, to a seat back frame has a holding portion which includes a holding space for housing an attachment portion of the stay cloth. The holding portion is inserted into an attachment hole to be fitted into the attachment hole that is formed in the seat back frame. A through-hole which allows the attachment portion of the stay cloth in the holding space to be exposed in a penetrating direction of the attachment hole is formed in the holding portion.

An attachment member allowing a connected state between the attachment member and a guide member to be more easily checked is provided. The attachment member for attaching a stay cloth, which guides a deployment direction of an airbag module, to a seat back frame has a holding portion which includes a holding space for housing an attachment portion of the stay cloth. The holding portion is inserted into an attachment hole to be fitted into the attachment hole that is formed in the seat back frame. A through-hole which allows the attachment portion of the stay cloth in the holding space to be exposed in a penetrating direction of the attachment hole is formed in the holding portion.

A lateral shock absorber includes a protective fender pivoted to a base of a child car safety seat and a locking mechanism disposed on the base. The protective fender is pivotally switchable between a folded state or an unfolded state. The locking mechanism is for selectively engaging with the protective fender to restrain the protective fender from switching to the unfolded state or disengaging from the protective fender to allow the protective fender to switch to the unfolded state when the protective fender is located in the folded state. The locking mechanism includes a locking assembly, an abutting component and an abutting block connected to the abutting component. The locking assembly engages with the protective fender to restrain the protective fender from moving, and the abutting component is driven by the abutting block to disengage the locking assembly from the protective fender when the abutting block is pressed downwardly.

A seat back pad 70 has a groove 73 for tucking a skin material therein, formed at borders between a central portion 71 and side portions 72. A hole (slot hole 74) is formed in a bottom of the groove 73 along the groove 73. A tuck-in wire 76 for tucking the skin material in includes a plurality of tuck-in portions 76A provided along the groove 73, and a connecting portion (detour portion 76B) detouring around the hole and connecting the tuck-in portions 76A. With this configuration, when an upper body of an occupant P subsides into a seat back S2 in a rear-end collision of a vehicle, the central portion 71, defined by the groove 73 as a border, is easily and sufficiently moved rearward relative to the left and right side portions 72. Furthermore, the tuck-in wire 76 is not exposed through the hole, and thus adhesion between the seat back pad 70 and the tuck-in wire 76 can be improved.

A child safety seat or a baby carrier for mounting on a motor vehicle seat, particularly a motor vehicle side seat, has a seat tray and a side impact bar mounted thereon which can be moved from a rest position located in particular within a standard width to a functional position located in particular outside thereof, and vice versa, wherein the side impact bar is positioned in particular on both sides of the seat tray so as to transmit any lateral forces behind the back of a child sitting in the child safety seat and to direct said lateral forces into the seat tray. A side impact bar is used with and mounted on the child safety seat or baby carrier.

A mechanism disposed between a frame structure and a base structure, the mechanism comprising a damper including a piston rod. The damper is mechanically connected between the frame structure and the base structure in a normal mode of operation. The damper enables a longitudinal and suspended upward and downward movement of the frame perpendicular to a plane. An energy-absorbing arrangement that includes a plastically deformable absorbing element. The plastically deformable absorbing element is adapted to plastically deform in response to stresses greater than a predetermined threshold stress along an axis perpendicular to the plane. A bar mechanically attached to the plastically deformable absorbing element and having an engagement portion.

A hinge arrangement may be used for a vehicle seat bottom to facilitate pivoting of the seat bottom to open a storage area below the seat bottom. The hinge arrangement may include at least one hinge having two plates connected by a pivot pin and a support structure separate from the at least one hinge. The support structure may be positioned adjacent to the at least one hinge to stop the hinge pin or pins from being ejected in the presence of an impact force.

A method of assembling a vehicle seat is provided, comprising: providing a seat back frame; forwardly movably connecting a headrest for supporting a head of a seat occupant to the seat back frame; mounting a rear-end collision detector to the seat back frame at a position behind the seat occupant, operatively connecting the rear-end collision detector to the headrest; disposing a link member at a position lateral to the rear-end collision detector; forming a front extending portion that inwardly extends in a right-to-left direction at a front end of a lateral face of the side frame; and forming a rear extending portion that inwardly extends in the right-to-left direction; wherein a protruding portion is formed from a portion of the lateral face of the side frame that faces at least the part of the bracket, the link support shaft being disposed at a same height as the protruding portion.

An attachment member allowing a connected state between the attachment member and a guide member to be more easily checked is provided. The attachment member for attaching a stay cloth, which guides a deployment direction of an airbag module, to a seat back frame has a holding portion which includes a holding space for housing an attachment portion of the stay cloth. The holding portion is inserted into an attachment hole to be fitted into the attachment hole that is formed in the seat back frame. A through-hole which allows the attachment portion of the stay cloth in the holding space to be exposed in a penetrating direction of the attachment hole is formed in the holding portion.