An assembly for a vehicle includes an airbag inflatable to an inflated position. The airbag includes a first panel, a second panel, and an inflation chamber between the first panel and the second panel. The assembly includes an inflation restraint exterior to the inflation chamber. The inflation restraint includes a first end fixed to the first panel and a second end fixed to the second panel. The inflation restraint includes a releasable extension between the first end and the second end. The releasable extension is movable from an unreleased position to a released position as the airbag inflates to the inflated position.

The invention relates to an airbag (10) for restraining a vehicle occupant (12) in an automotive vehicle, comprising an inflatable cushion portion (20) for damping an occupant impact and two inflatable tube portions (22) laterally opposed in the mounted state of the airbag (10) which are arranged on the occupant side on the cushion portion (20), wherein the tube portions (22) are connected to each other by a slide layer (24) arranged on the occupant side on the cushion portion (20) and are laterally movable at least in portions relative to the cushion portion (20). Furthermore, the invention also relates to a method for manufacturing an airbag (10) as well as an airbag module (18) comprising said airbag (10).

An airbag apparatus for a vehicle may include: a surrounding airbag installed in a seat on which a passenger is seated, and deployed toward the passenger so as to cover an upper part and side parts of the passenger; a front airbag connected to the surrounding airbag, and laterally deployed to cover a front part of the passenger; and a behavior constraint tether extended from the front airbag to an upper portion of the surrounding airbag so as to constrain the surrounding airbag and the front airbag, and configured to constrain a forward behavior of the passenger through a tensile force.

Lateral airbag cushions for preventing or inhibiting inboard occupant excursion. Some embodiments may comprise an inflatable cushion configured to deploy adjacent to a vehicle seat laterally of a vehicle occupant and a tether coupled with the inflatable cushion. The tether may be configured to be coupled to the vehicle seat at opposite ends and may be configured to, upon deployment, form the inflatable cushion into a pocket or other lateral engagement structure adjacent to the vehicle occupant to engage a shoulder and/or arm region of the vehicle occupant to prevent or at least inhibit inboard/lateral excursion during an impact event.

An assembly includes a seat bottom and a seat back extending upwardly from the seat bottom. An airbag is supported by the seat back and is inflatable to an inflated position above the seat. A pyrotechnic actuator is mounted to the seat bottom and is connected to the airbag. When the airbag is inflated to the inflated position, the pyrotechnic actuator pulls the airbag toward the seat bottom.

A vehicle steering system including a yoke type steering wheel. An airbag module located in the steering wheel and including an inflator and an airbag. The airbag is configured to inflate into two configurations. In the first configuration the airbag is fully inflated into a circular configuration and in the second configuration the airbag inflates into a u-shaped configuration. The u-shaped configuration is formed by a tether connected at a first end to the airbag and at a second end to a tether release device. The tether release device is configured to stay connected to the tether when the driver is determined to be in an out of position (OOP) condition.

Problem:

To more effectively restrict movement of the airbag in an expanded and deployed state in the event of a vehicle collision, and improve the performance of restraining a passenger using an airbag.

Resolution Means:

A passenger restraining device of the present invention is provided with an airbag and tensile cloth. The tensile cloth is deployed to the outside of a seat by expansion and deployment of the airbag, and pulled from an upper surface of a seat back portion to a seat cushion portion. When the airbag is viewed in plan view from above during the expansion and deployment, of four regions demarcated by a first imaginary line extending in a front-rear direction of a vehicle through a center of a widest portion of the airbag on a straight line parallel to a left-right direction and a second imaginary line orthogonal to the first imaginary line and extending in the left-right direction through a center of the first imaginary line in a front-rear length of the airbag, the tension cloth passes through at least a region on an opposite side of the first imaginary line from the passenger and a vehicle front side of the second imaginary line.

An airbag for a vehicle is provided. The airbag includes an airbag cushion that has a plurality of chambers and the plurality of chambers are connected to be interlocked with each other by an operation tether. Accordingly, when an occupant presses against a specific chamber due to a vehicle collision, the other chamber is deformed to wrap the occupant, thereby restraining the occupant in a seat and minimizing the occurrence of injury.

A restraint system for helping to protect an occupant of a vehicle having a roof and a cabin with a seat for the occupant includes an airbag. The airbag has a stored condition within the vehicle seat and is inflatable to deploy laterally in the cabin to a deployed condition in front of the occupant. The airbag is configured to utilize the vehicle seat as a reaction surface for restraining the movement of the airbag in response to occupant penetration into the airbag.

A positional-dependent airbag deployment system is provided. A plurality of tether cutters are configured to cut at least one of a plurality of tethers affixed to an airbag. An image sensor is configured to monitor the position of an occupant's head within a vehicle. In response to detecting a collision event, an airbag controller determines a trajectory of the occupant's head based on the image sensor data and other data and determines a cutting sequence of the tethers such the airbag will be deployed in a trajectory to intercept the occupant's head.