The present invention provides an airbag module (1) in particular for a front passenger (21, 23) of a vehicle, comprising an inflatable bag (3) having at least a first outer panel (33) and a second outer panel (35) arranged substantially symmetrically to each other with regard to a vertical middle plane (M) of the inflated bag. The airbag is characterized in that the inflatable bag (3) comprises a strap structure (5) substantially located between the first and second outer panels (33, 35), wherein the strap structure (5) is designed such that the bag is extendable from a first state having a first size to a second state having a second size depending on the size of the respective passenger and/or the kind of impact.

A vehicle includes a vehicle seat having a seatback and a seat bottom defining an occupant-seating area. The vehicle includes an airbag housing having a first arm fixed to the seatback and a second arm rotatable from the seatback toward the seat bottom adjacent the occupant-seating area. An airbag extends from the first arm to the second arm. The airbag is fixed to the first arm and the second arm. The vehicle includes a computer including a processor and a memory storing instructions executable by the processor to detect a removeable child-restraint system (CRS) on the occupant-seating area, and based on the detection of the removeable CRS on the occupant-seating area, inflate the airbag in response to detection of certain vehicle impacts.

A control method for deploying airbags includes a model-securing step of acquiring learning data reflecting a state of an in-vehicle person and securing a deep learning model by learning a deep learning network on the basis of the acquired learning data by means of a controller, an imaging step of imaging the in-vehicle person by means of a detector, a determining step of determining the state of the in-vehicle person by inputting image data of the imaged in-vehicle person into the deep learning network and by performing operations by means of the controller to determine the state of the in-vehicle person based on an output of the deep learning network which is based on the inputted image data, and a deployment control step of deploying an air bag in different ways, via the controller, depending on the state of the in-vehicle person when a collision accident occurs.

An airbag, in particular a front airbag, includes an outer wall having a front wall and a rear wall (18, 24) and a tether (16) as well as an electrically actuatable activation unit (26) for releasing the tether (16). The tether (16) includes plural tether portions (30, 32) connected to each other via a first tear seam (36). A tension means (40) is coupled to the tether (16) so that it destroys the first tear seam (36) when the activation unit (26) is actuated.

The present invention provides an airbag module (1) in particular for a front passenger (21, 23) of a vehicle, comprising an inflatable bag (3) having at least a first outer panel (33) and a second outer panel (35) arranged substantially symmetrically to each other with regard to a vertical middle plane (M) of the inflated bag. The airbag is characterised in that the inflatable bag (3) comprises a strap structure (5) substantially located between the first and second outer panels (33, 35), wherein the strap structure (5) is designed such that the bag is extendable from a first state having a first size to a second state having a second size depending on the size of the respective passenger and/or the kind of impact.

The present invention provides an airbag module (1) in particular for a front passenger (21, 23) of a vehicle, comprising an inflatable bag (3) having at least a first outer panel (33) and a second outer panel (35) arranged substantially symmetrically to each other with regard to a vertical middle plane (M) of the inflated bag. The airbag is characterised in that the inflatable bag (3) comprises a strap structure (5) substantially located between the first and second outer panels (33, 35), wherein the strap structure (5) is designed such that the bag is extendable from a first state having a first size to a second state having a second size depending on the size of the respective passenger and/or the kind of impact.

An inflatable airbag system provides cushioning restraint of a vehicle occupant during an impact event of a vehicle. The airbag system can be configured to be mounted to a frontal region of a vehicle. The airbag system includes an inflatable airbag and a selectively actuatable vent that can be actuated in response to detection of an oblique impact event and/or a small overlap collision event. The selectively actuatable vent is actuated to open to provide additional venting and thus a lower pressure within the inflatable airbag. A lower pressure can reduce force and momentum on the vehicle occupant's head at an offset angled contact with the airbag. A lower pressure may also prevent the occupant from deflecting or rolling off of an airbag and colliding with other surfaces within the vehicle.

An inflatable airbag system can be configured to be mounted to a frontal region of a vehicle. The inflatable airbag system includes an airbag and an active control mechanism, and is configured to deploy in various configurations in response to frontal and oblique collision events. An active portion of the inflatable airbag deploys to an expanded configuration when a collision event is an oblique collision event and deploys to a less expanded configuration when the collision event is a frontal collision event. The active control mechanism can include one or more tethers or an inflatable member.

An airbag device for a front passenger seat includes a front passenger seat airbag main body, a center airbag portion, an actuator and a control section. The actuator is configured to switch a strap between a first state and a second state. In the first state, the center airbag portion is retained in a folded state. In the second state, the other end portion of the strap is released and the center airbag portion is allowed to inflate and expand. The control section sets the actuator to the first state when there is a full overlap frontal collision, and sets the actuator to the second state when there is a collision that is any of an oblique collision against a driver seat side of a vehicle front portion or a small overlap collision.

The present disclosure generally relates to a three-chambered airbag and associated system. The three-chambered airbag may comprise pressure differentials between the different chambers.