An emblem assembly arranged in an airbag cover coupled with a vehicle structure such as a steering wheel in a motor vehicle includes an electronic unit, a decorative unit, and a control device. The electronic unit is held by the airbag cover and has at least one light source. The decorative unit is arranged in the airbag cover and attached to the electronic unit such that the decorative unit covers at least a part of the electronic unit. The control device is electrically connected to the electronic unit and is adapted to control illumination of the decorative unit. Further, at least one light source of the electronic unit is adjusted by the control device arranged in the vehicle structure.

Various implementations include a steering assembly including a hub assembly and airbag module. The hub assembly includes one or more hub assembly attachment tabs each defining a fastener opening. The airbag module includes one or more airbag module attachment tabs each defining a fastener opening. One of the hub assembly or the airbag module includes one or more temporary fasteners, and each of the temporary fasteners is couplable to a portion of the other of the hub assembly or the airbag module. One of the hub assembly or the airbag module includes one or more alignment portions structured to align each fastener opening in the hub assembly attachment tabs with a respective fastener opening in one of the airbag module attachment tabs when the temporary fasteners of the hub assembly or the airbag module are coupled to the portion of the other of the hub assembly or the airbag module.

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.

A retaining cover that encapsulates a cushion which is stowed in a bulk stowed form in front of the regular seating position of the vehicle having a side surface retaining part wound around a side surface of the cushion in stowed form, a cloth-like part provided in a manner traversing vertically across the upper surface of the cushion in stowed form, and a weak part provided at a prescribed location on the cloth-like part that divides the cloth-like part to an upper piece and lower piece due to the expansion pressure of the cushion. If the cushion expands and deploys with the occupant in close proximity, the upper piece of the cloth-like part is sandwiched in between the cushion and the occupant, such that the upper piece restrains the upward deployment of the cushion.

The disclosure is directed to a steering device assembly for positioning and fastening an airbag module on a steering device of a motor vehicle. The steering device assembly comprises a first positioning body having a detent lever, a carrier, a spring element, and a second positioning body. The detent lever comprises a first leg and a second leg connected to the first leg at one leg end the detent lever is mounted for pivoting between an initial position and a final assembly position on the carrier. The spring element loads the detent lever into the final assembly position. Each leg extends to an opposite free leg end at a specified angle. The second positioning body has a stop for the free leg end of the first leg for pivoting the detent lever from the initial position into the final assembly position and a detent contour for locking with the free leg end of the second leg in the final assembly position of the detent lever. A method for installing an airbag module on a steering device of a motor vehicle by the steering device assembly.

A safety airbag assembly, including: an airbag, having an inflated state and a stowed state; an airbag housing; an airbag cover, arranged between the airbag and the airbag housing and at least partially covering the airbag, wherein a hook-shaped member of the airbag cover passes through a bottom wall of the airbag housing from a first side of the airbag housing to a second side of the airbag housing opposite to the first side; and a plurality of locking plates, separated from each other and arranged on a surface of the bottom wall of the airbag housing located on the second side, wherein the locking plates are configured to abut a side surface of the hook-shaped member of the airbag cover so as to prevent the hook-shaped member from moving from the second side to the first side of the airbag housing and from being separated from the airbag housing.

A driver airbag apparatus for a vehicle is proposed. The driver airbag apparatus includes: the driver airbag apparatus being located at a rear of a steering wheel having an obstacle and configured to be deployed forward of the steering wheel while avoiding the obstacle, an airbag cushion configured to be deployed forward of the steering wheel via a gap between the obstacle and the steering wheel when gas is supplied thereinto; a gas injector located below the airbag cushion and configured to inject the gas into the airbag cushion via a gas outlet; and a diffuser configured to be deployed in the airbag cushion, and covering a part or all of the gas outlet from above the gas outlet and being open at a front portion thereof so as to guide the gas injected via the gas outlet to flow in front of an occupant.

Proposed is an apparatus for coupling an airbag module to a steering wheel. A coupling open area extends completely through a steering wheel in a forward-backward direction. A hook extends from a rear portion of an airbag module to behind the steering wheel, and includes a bent portion provided on a distal end to be bent in a direction intersecting a longitudinal direction of the hook. A fixing clip is disposed on a rear portion of the steering wheel and fixed to the steering wheel, with an end of the fixing clip being caught by and coupled to the bent portion of the hook to stop movement of the hook forward of the steering wheel. A catching protrusion protrudes from the rear portion of the steering wheel to catch the end of the fixing clip and stop movement of the fixing clip when the hook is decoupled.

A roof airbag for vehicles is proposed. The roof airbag includes: a main chamber configured to be deployed as gas is introduced therein through a diffuser; an overlap chamber into which the gas is introduced and configured to be deployed into a shape that overlaps the main chamber around the diffuser; and a support chamber into which the gas is introduced and configured to be deployed while overlapping a roof frame.

A steering wheel airbag device includes an airbag and an inflator. The airbag includes: a bag body; and a rectifying member rectifies expansion gas discharged from the inflator. The rectifying member is provided with three gas outlet ports so that the expansion gas can flow out substantially along a ring surface of the ring portion and to left, right, and rear three sides. The rectifying member is configured by partially joining outer peripheral edges of a vehicle body side panel and a driver side panel. The vehicle body side panel is configured to have three joining portions which are joined to corresponding outer peripheral edges of the driver side panel and three non-joining regions between the joining portions arranged on an outer peripheral edge side of the flat surface portion. The gas outlet port is configured by a portion of the non-joining region between the joining portions.