An airbag apparatus may include: an airbag cushion having a vent hole; a cover member covering the vent hole; a vent tether connected to the cover member and configured to adjust an opening degree of the vent hole by pulling the cover member when the airbag cushion is expanded; and a release device connected to the vent tether and configured to release the vent tether from pulling the cover member.

An airbag assembly for a vehicle and a method for assembling an airbag assembly includes an airbag cushion defining an inflatable chamber. The airbag cushion includes a front side facing a passenger compartment of the vehicle and a rear side positioned opposite the front side to face away from the passenger compartment. The airbag cushion further includes lateral end portions flanking a central portion with at least one of the lateral end portions being an enlarged end portion that is enlarged relative to the central portion. The airbag assembly further includes at least one primary tether disposed within the inflatable chamber and at least one secondary tether or tether portion disposed within the inflatable chamber for establishing the enlarged portion. The at least one primary tether extends longitudinally between the lateral end portions of the airbag cushion with longitudinal sides thereof attached, respectively, to the front and rear sides of the airbag cushion in the central portion of the airbag cushion.

An airbag device for a vehicle including at least one airbag housing interface chamber that attaches to an airbag housing; at least one airbag cushion chamber downstream of the at least one interface chamber; an elbow that fluidly connects the housing interface chamber with the cushion chamber and configured so that it controllably regulates gas flow into the at least one airbag cushion chamber; the elbow having an internal configuration, which includes at least one opening that permits back and forth gas flow between the elbow and the at least one airbag cushion chamber, and which controls the directional deployment of the airbag cushion chamber so that upon deployment the downstream end of the cushion chamber exits an airbag housing outwardly in a first direction and then in at least one second direction, so that the direction of deployment of the cushion chamber changes in direction to thereby wrap at least partially around a structure of a vehicle of the vehicle and at least temporarily interpose the cushion chamber between any occupant and the vehicle structure.

An airbag includes a front panel and a rear panel, and the outer peripheries of the front panel and the rear panel are joined together. Each of the front panel and the rear panel has a propeller shape in which a plurality of blade portions extend radially from a center portion such that recessed portions are formed between adjacent blade portions in plan view before the front panel and the rear panel are joined. The plurality of blade portions of the front panel are joined to corresponding recessed portions of the rear panel, and the plurality of blade portions of the rear panel are joined to corresponding recessed portions of the front panel.

[Problem] To provide a vehicle side airbag apparatus which can eliminate the operation of joining baffles sectioning the inside of a side airbag into three chambers, facilitate and simplify the assembly operation thereof, easily and skillfully manufacture the side airbag, and improve productivity. [Resolution Means] In the state in which a side airbag is folded and stored, each of first and second baffles 5, 6 is provided facing each other in the width direction of the vehicle such that two surfaces on both sides of a ridge line Q extending in the longitudinal direction of this baffle are able to at least partially overlap each other, the side airbag includes a baffle intersection which is formed by allowing the first baffle to cross the second baffle, and this baffle intersection is partially formed at a predetermined position of the ridge line of the second baffle, in addition to having a crossover opening 16 at which the first baffle penetrates through the second baffle.

An airbag device for a driver's seat adapted to be mounted on a boss of a steering wheel disposed at a center of a rim is disclosed. The airbag device includes an inflatable airbag folded in the form of an airbag package. The airbag includes a vehicle-side wall that includes a gas inlet port and is configured to be supported by the rim when deployed, and a driver-side wall. The airbag, before folded into the airbag package, has a flat initial folded form in which the driver-side wall lies over the vehicle-side wall. The initial folded form includes a folded-in portion in which a front edge portion of the vehicle-side wall is folded inwardly and rearwardly beneath a front edge portion of the driver-side wall, and a folded-back portion in which the front edge portion of the driver-side wall which adjoins the folded-in portion is folded towards the inlet port on the vehicle-side wall.

A rear vehicle seat airbag module configured to be mounted to a portion of a seat back of a front vehicle seat comprising an inflator and an inflatable cushion comprising a lower portion, an upper portion and an external tether connecting the lower portion and the upper portion. The inflator provides inflation gas to the inflatable cushion and the inflatable cushion is configured to deploy forward of an occupant seated in a rear seat of a vehicle by curving away from the occupant. The external tether is configured to control a trajectory of the deployment of the inflatable cushion by pulling the upper portion toward the lower portion to curve the inflatable cushion such that the upper portion is located above the lower portion.

A vehicle side airbag device includes: an inflator for generating gas by activation; a bag body provided in a side portion of a seatback of a vehicle seat and configured to be inflated and deployed toward a vehicle front side relative to the side portion when the gas is supplied thereinside; and a partition portion partitioning the bag body into a front bag portion and a rear bag portion to be inflated at a higher pressure than the front bag portion and having a thicker inflation width in a vehicle width direction than that of the front bag portion, the partition portion being overlapping with a central part of a shoulder of a sitting occupant in an inflated and deployed state in a side view.

An airbag includes a main bag section and a center bag section deployable to protrude towards a vehicle interior out of an inboard side of the main bag section. An inboard-side member, which forms the inboard side of the main bag section, is composed of a front component and a rear component. The center bag section includes a front wall and a rear wall. The front wall is composed of a rear extended region of the front component which is disposed in such a manner as to protrude rearward out of the rear edge of the front component. The rear wall is composed of a front extended region of the rear component which protrudes forward out of the front edge of the rear component and has a generally identical outer contour to the rear extended region. The center bag section is formed by jointing outer edges of the front and rear extended regions.

An airbag module for protecting an occupant of a vehicle. The airbag includes first and second inflatable chambers. Each of the first and second inflatable chambers is formed by separate front and back panels. Each of the front panels is connected to one of the back panels along a peripheral seam. The airbag is assembled by overlaying the panels on top of each other creating a simple two-dimensional structure for assembly. An inflator is provided for supplying inflation gas to the first chamber of the airbag. The first and second inflatable chambers are connected by a gas flow passage so that gas for inflating the second chamber can flow from the first chamber through the gas flow passage into the second chamber.