An assembly includes an airbag that has a panel defining an inflation chamber. The assembly includes a foam pad exterior to the inflation chamber with the foam pad fixed to the panel of the airbag. The foam pad is intended to provide an additional layer of reinforcement for the inflation chamber 18 when the foam pad interacts with its surroundings upon inflation.

A restraint system includes a first plate, a second plate rotatably coupled to the first plate and rotatable away from the first plate from an undeployed position to a deployed position, a panel connected to the first plate and to the second plate, and a pyrotechnic activator coupled to the second plate. The panel is flexible relative to the first plate and the second plate. The first plate, the second plate, and the panel form a chamber having an interior volume. The pyrotechnic activator is arranged to, when discharged, rotate the second plate from the undeployed position toward the deployed position. One of the first plate or the second plate includes a vent hole in communication with the interior volume of the chamber.

A vehicle door trim panel has a vehicle interior-facing A-side and a vehicle door structure-facing B-side. The vehicle door trim panel includes a pocket portion that includes a side portion and a wall portion that surrounds and extends outward from the pocket portion. The wall portion has a first portion. The B-side of the first portion of the wall portion is concave and faces generally vehicle-downward. A thickness of the first portion of the wall portion is less than a thickness of the pocket portion adjacent to the first portion of the wall portion.

The present invention provides a side collision energy absorbing structure that gives a good performance while avoiding breakage of a door trim. A side collision energy absorbing structure 2 includes an energy absorber 10 made of molded resin and formed separately from a door trim 1. The energy absorber 10 includes a deformable portion 110 protruded outward in a vehicle width direction and a plurality of mounting flange portions 121, 122, 123 formed in an end portion of the deformable portion 110 on the door trim side. Boss portions 6, 7, 8 of the door trim 1 are respectively inserted and fixed in holes 121a, 122a, 125 of the mounting flange portions 121, 122, 123. The hole 125 of the mounting flange portion 123 is an elongated hole. The elongated hole 125 extends from where the boss portion 8 is inserted toward the deformable portion 110.

A seat airbag for a vehicle is installed in a side part of a seat back and an airbag cushion thereof is deployed forward. A front portion of the cushion is divided into a head chamber disposed at an upper location, a chest chamber disposed at a central location and a pelvis chamber disposed at a lower location. The airbag protects a vehicle occupant while wrapping around the occupant with use of a first tether to a fourth tether that are integrally formed into a single string and connect the respective chambers to each other.

A side airbag (SAB) of a vehicle includes: a main chamber disposed in a seat to be deployed from a side surface portion of the seat and, when deployed, configured to cover at least one of a thoracic region, an abdomen region, or a pelvis region of an occupant; a main inflator configured to supply gas to the main chamber to deploy the main chamber; and an auxiliary chamber communicating with the main chamber to allow the gas inside the main chamber to be supplied to an interior of the auxiliary chamber and connected to the main chamber to be deploy above the main chamber.

A side airbag device includes an inflator; and a bag-shaped airbag inflatable and deployable in response to a gas upon activation of the inflator. The airbag includes a torso protection portion inflatable and deployable in a space beside a torso of the occupant, a support portion provided on a console box side of the torso protection portion and configured to be pushed onto a top surface of the console box in an inflated and deployed state, and a hip protection portion inflatable and deployable between a hip of the occupant and a lateral portion of the console box. The support portion and the hip protection portion are defined by a continuous chamber. The inflator is positioned from above to below the support portion in a side view of the vehicle. The airbag is mounted on a lateral portion of the vehicle seat via the inflator.

Seat centric airbag restraint systems having pelvis restraint features, along with related methods. In some implementations, a first seat-mounted airbag cushion may be deployed along a first side of a vehicle occupant and a second seat-mounted airbag cushion may be deployed along a second side of the vehicle occupant. A first pelvis restraint chamber may be deployed below the first seat-mounted airbag cushion at an angle relative to the first seat-mounted airbag cushion and towards a first upper thigh of the vehicle occupant. The first pelvis restraint chamber may inhibit forward translation of the vehicle occupant within a vehicle seat by tensioning the pelvis region of the occupant.

A restraint system includes a first seat and a second seat spaced from each other along a cross-vehicle axis. An airbag is supported by the first seat and is inflatable towards the second seat. The airbag includes an upper portion having a top surface and a lower portion having a bottom surface facing in an opposite direction than the top surface. An external tether is releasably engaged with the first seat. The external tether is connected to the top surface and the bottom surface.

A door assembly for a motor vehicle includes a door trim panel attached to a door body on the vehicle inside. The door trim panel includes a first impact region and a second impact region formed integrally therewith, wherein at each of the impact regions, an intermediate space is formed between the door trim panel and the door body. In order to allow an optimized protection of an occupant's pelvic region from injury by a vehicle door in a side impact, the door trim panel includes a channel portion, which is recessed back towards the door body, is formed between the impact regions and has two mutually opposite wall portions extending in the vehicle transverse direction, each of which is formed integrally with an impact region.