A child restraint includes a juvenile vehicle seat and an energy-absorption apparatus coupled to the juvenile vehicle seat. The energy-absorption apparatus is configured to absorb external energy associated with an external impact force applied to the energy-absorption apparatus.

A vehicle seat mounted with an occupant restraint device, the vehicle seat includes: a seat cushion frame; a seatback frame including a seatback side frame extending in a seat vertical direction at a seat width direction end portion of the seatback frame, the seatback frame being swingable at a seat rear end side of the seat cushion frame, and the seatback frame extending from the seat rear end side toward a seat upper side; a metal inflating body disposed along the seatback side frame, and configured so as to be stretched out toward a seat lower side such that a lower end of the metal inflating body abuts a vehicle floor surface; and a drive member configured to stretch out the metal inflating body in a case in which a vehicle collision at a seat front side occurs or the vehicle collision at the seat front side has been predicted.

A vehicle safety system is mounted on a far-side vehicle seat for protecting a far-side occupant in a near-side impact crash event. The vehicle safety system includes an occupant restraint mounted on an inboard side of a seat back of the far-side vehicle seat. The restraint includes a support frame rotatable from a stowed condition where the support frame is aligned with the seat back and a deployed condition where the support frame is forward of the seat back. The support frame includes a rear arm and a forward arm each rotatably connected to the seat back at separate mounting points with the mounting point of the rear arm located above the mounting point of the forward arm. In a near-side impact crash event the restraint is rotated into the deployed condition inboard of the far-side vehicle seat to restrain the far-side occupant against lateral movement within the vehicle.

An armrest includes a protruded section extending in a vehicular front-rear direction and protruded toward a vehicular interior side, and the protruded section includes an upper section, a lower section, and an intermediate section that is between the upper section and the lower section and connects the upper section and the lower section on a vehicular interior side. The armrest further includes ribs that are on a vehicular exterior side with respect to the intermediate section and arranged in the vehicular front-rear direction and each of the ribs extends from the upper section to the lower section. The ribs include a low rigidity rib and a high rigidity rib that are arranged next to each other in the vehicular front-rear direction, and the high rigidity rib having rigidity higher than that of the low rigidity rib.

An apparatus including a sensor and a control unit. The sensor may be configured to determine seat orientation information. The control unit may comprise an interface configured to receive the seat orientation information. The control unit may be configured to analyze the seat orientation information, determine when to deploy a corrective measure and modify the corrective measure in response to the seat orientation information. The control unit may deploy the corrective measure using a default arrangement in a first mode. The control unit may deploy the modified corrective measure in a second mode.

A lateral protecting mechanism includes a protecting block, a locking component, a driving component and an operating component. The protecting block is pivotally disposed on a lateral portion of a child carrier. The locking component is slidably disposed on the lateral portion of the child carrier. The protecting block is allowed to pivotally switch between an unfolded position and a folded position when the locking component is located at a releasing position. The protecting block at the folded position is restrained from leaving from the folded position when the locking component is located at a locking position. The driving component is for driving the locking component to slidably switch between the locking position and the releasing position. The operating component is coupled to the driving component for driving the driving component to drive the locking component to slide to the locking position when the operating component is operated.

It is intended to expand a space at a back portion of a lower portion of a seat. A seat frame includes a lower frame configured to couple lower portions of side frames arranged on right and left sides. The lower frame includes a back wall portion provided on a back side, a front wall portion provided in front of the back wall portion, and a coupling portion that couples lower ends of the back wall portion and the front wall portion. The back wall portion includes a pair of side portions forming ends in a seat width direction and each formed along the outer shapes of the side frames, and an inclined portion provided between the side portions and inclined such that a lower end is positioned in front of an upper end. The inclined portion is provided in front of the side portions.

An airbag for a vehicle, such as a side airbag, may be mounted to or proximate to a seat assembly on which a passenger may sit. The side airbag may include a chamber and an inflator configured to cause the chamber to expand toward the passenger to slow an acceleration of the passenger upon impact of the vehicle with another object or surface. Upon deployment of the chamber, the side airbag may cause a portion of the seat assembly (a seat tub, seat pan, and/or cushion coupled thereto) to deform toward the passenger seated thereon while remaining occluded from the passenger by the assembly. In some examples, the chamber may be stored in an unfolded position to allow for a more rapid deployment.

A vehicle safety system is mounted on a far-side vehicle seat for protecting a far-side occupant in a near-side impact crash event. The vehicle safety system includes an occupant restraint mounted on an inboard side of a seat back of the far-side vehicle seat. The restraint includes a support frame rotatable from a stowed condition where the support frame is aligned with the seat back and a deployed condition where the support frame is forward of the seat back. The support frame includes a rear arm and a forward arm each rotatably connected to the seat back at separate mounting points with the mounting point of the rear arm located above the mounting point of the forward arm. In a near-side impact crash event the restraint is rotated into the deployed condition inboard of the far-side vehicle seat to restrain the far-side occupant against lateral movement within the vehicle.

A child safety seat includes a seat shell and a side protection part. The seat shell has a seat portion, a backrest portion and a sidewall, the sidewall protruding forward from the backrest portion and having a front edge. The side protection part is disposed adjacent to the sidewall at an inner side thereof and extends along the inner side of the sidewall from a location adjacent to the seat portion toward a top of the backrest portion, wherein the side protection part has a first and a second major surface opposite to each other, and an edge portion connected with the first and second major surface, the edge portion having a rib that protrudes from the second major surface and lies adjacent to the front edge of the sidewall of the seat shell.