When the passenger-side airbag 1 is inflated fully, vertically-extending recesses 8, 9 are formed in left and right sides of an occupant-facing surface 2. A protrusion 10 between the recesses 8 and 9 restrains a head portion of an occupant, and the left and right protrusions 11, 12 restrains shoulders. In the case where a small occupant is restrained, the recesses 8, 9 remain.

A passenger protection system for a vehicle includes: a seat which slides forwards and backwards and rotates laterally, where the seat has a seat belt equipped with a belt airbag, and a side airbag provided on a side of a seatback of the seat; a front airbag provided in a front structure located in front of the seat of the vehicle to be deployed towards the seat; a curtain airbag provided in a pillar trim on an upper end of a vehicle door to be deployed downwards; and a controller to selectively deploy the belt airbag, the side airbag, the front airbag and the curtain airbag, depending on a sliding position and a rotating direction of the seat and a detection or a predicted direction of a vehicle collision.

In one example, an apparatus for helping to protect an occupant of a vehicle includes an inflatable vehicle occupant protection device having a deflated condition and an inflated condition. The protection device includes a first panel having a centerline and first and second openings. A second panel is secured to the first panel to define an inflatable volume. First and second self-adaptive vents are secured to the first panel over the first and second openings on opposite sides of the centerline for selectively releasing inflation fluid from the inflatable volume in response to penetration of the occupant into the protection device. A first reinforcing stitching extends through the first panel and around a portion of the first self-adaptive vent. A second reinforcing stitching extends through the first panel and around a portion of the second self-adaptive vent. Each of the first and second reinforcing stitchings is spaced entirely from the respective first and second self-adaptive vents.

An occupant protection device for a vehicle includes a collision predictor, a main airbag, and a deployment controller. The collision predictor is configured to predict a collision of the vehicle. The main airbag is configured to deploy toward an occupant from a front of the vehicle when a collision of the vehicle is predicted by the collision predictor. The main airbag includes a first deployment part, an arm-push-away deployment part, and a second deployment part. The controller is configured to cause the main airbag to deploy toward the occupant when a collision of the vehicle is predicted by the collision predictor. The controller is configured to, when a collision of the vehicle is predicted by the collision predictor, cause the first deployment part to deploy, subsequently cause the arm-push-away deployment part to deploy to push an arm of the occupant away, and thereafter, cause the second deployment part to deploy.

An occupant restraint system (30) comprises a seat (14), at least one airbag integrated in the seat (14) and an airbag control device. The seat (14) is adjustable at least between a first seating position and a second seating position, the seat (14) in the second seating position having an orientation (A) that is rotated vis--vis the first seating position about an angle of rotation () from 170 to 190. The airbag has a first inflated state and a second inflated state in which the airbag has an external geometry different from the one in the first inflated state. Accordingly, the airbag control device is arranged so that, in the case of need, the airbag adopts the first inflated state when the seat (14) is in the first seating position, and the airbag adopts the second inflated state when the seat (14) is in the second seating position. Further, a vehicle (10) comprising such an occupant restraint system (30) is provided.

A roof airbag apparatus according to the present disclosure includes: an airbag main body which is deployed from a roof of a vehicle by gas generated by an inflator part when the vehicle collides; a tether operation part which is mounted to the airbag main body, and has a tether; and an auxiliary airbag which is connected to the airbag main body, and deployed from the airbag main body when the connection with the tether is released.

An instrument panel assembly includes an instrument panel. The instrument panel assembly includes an airbag having an inboard chamber and an outboard chamber. A panel separates the inboard chamber and the outboard chamber. A diffuser is in fluid communication with both the inboard chamber and the outboard chamber. A releasable vent is between the diffuser and one of the inboard chamber and the outboard chamber. An inflator is in fluid communication with the diffuser.

A side airbag device includes: an inflator; a cushion that is expandable from the side of a seat toward a front of a vehicle; a vent hole that is provided at a predetermined position of the cushion and that discharges the gas; a patch that openably covers the vent hole from an inside of the cushion; a tether that is connected to the patch and a predetermined position (a tether cutter) of the side of the seat, the tether pulling the patch toward a rear of the vehicle so as to open the vent hole when the cushion is expanded and deployed; and a tether cutter that is configured to cut the tether in response to information relating to a state of the vehicle.

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.

An actuator of an airbag device includes a main body portion, which is attached to an attachment base, and a cap including a fitting protruding portion that is inserted into a fitting recessed portion of the main body portion. The fitting protruding portion has a holding portion, which is inserted into a holding hole of a coupling member when fitted to the main body portion and holds a leading end portion of the coupling member, and a movement permitting unit that, when a ceiling portion of the cap is subjected to pressure of a combustion gas of a squib, causes the ceiling portion to move, and causes the holding portion to move from a holding position, wherein the holding portion is inserted into the holding hole of the coupling member, to a holding released position, wherein the holding portion is removed from the holding hole.