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.

A steering wheel includes a metal core earthed to a body of a vehicle, an airbag device, an insulator, and a connector. The airbag device includes a bag holder supported by the metal core, wherein the bag holder forms part of a positive electric path connected to a horn device, an airbag coupled to the bag holder by a fastener, and an inflator including a circumferential portion that forms a flange, wherein the flange of the inflator is coupled by the fastener to the bag holder. The insulator insulates the bag holder from at least the flange and the fastener among elements of the airbag device. The connector electrically connects at least the flange, among the flange and the fastener, to the metal core.

A system for triggering a functionality of a vehicle. The system includes an inductive sensor, a vehicle interface, and a conductive target. The conductive target can be coupled to the vehicle interface and configured to move with the vehicle interface between a first position and a second position relative to the inductive sensor. The first position has a first inductance and the second position has a second inductance different than the first inductance. The system can further include a controller.

Embodiments disclose systems and methods associated with safety devices for vehicles. Specifically, embodiments are directed towards a user operated, manually controlled, inflatable safety device for off-road vehicles, which may reduce, eliminate, or lessen upper body and head injuries.

A number of variations may include a product that may include a mounting bracket portion that may include a spring housing that may define at least one through hole. The product may further include a lock spring that may include a first end may be disposed within the at least one through hole such that the first end extends through the through hole and protrudes from the spring housing.

A vehicle steering wheel includes a base part such as a frame, at least one added part such as a safety module, at least one centring part, and a regulating device for regulating a position of the added part on the base part. The regulating device includes at least one stud, and at least one impression. The at least one impression is arranged to receive the at least one stud in accordance with a first mounting position or at least one second mounting position, in such a manner as to impose a first position of the added part relative to the base part or to impose a second position of the added part relative to the base part.

An airbag includes: an airbag body formed in a bag shape with an occupant-side panel facing an occupant and an opposite-side panel facing a steering wheel in a deployed state; and a flow regulator arranged inside the airbag body and configured to regulate a direction of flow of gas supplied from an inflator. The flow regulator includes: a flow-regulator body arranged such that at least part of the flow-regulator body faces the inflator; fixed portions provided at mutually separated positions on the flow-regulator body and fixed to the opposite-side panel; and a notch provided between the fixed portions in a recessed shape toward a center of the flow-regulator body and forming a gas passage port between the notch and the opposite-side panel, the gas passage port being a port through which the gas supplied from the inflator flows.

A mounting plate and a cover assembly for a steering wheel, which cover assembly includes the mounting plate, are provided. The mounting plate is configured so that a hook of the mounting plate does not directly press an inner cover of the cover assembly. The mounting plate includes a plate body provided to form an exterior of the mounting plate, the hook being configured to protrude from an outer surface of the plate body to penetrate an outer cover and the inner cover of the cover assembly. A rib is also provided which is configured to form an entry space for the hook to enter between the plate body and the inner cover by pressing the inner cover during assembly.

An airbag apparatus includes a connection clip disposed between a steering wheel and a mounting plate of an airbag; an airbag fastening part formed on the mounting plate, and having the connection clip mounted thereon; and a steering wheel fastening part formed on the steering wheel, and snap-fit fastened to the connection clip mounted on the airbag fastening part.

An assembly of a driver airbag module (102) and a steering wheel (104) having an airbag module including a housing (106) and a plurality of loop members (108) extending from the housing (106) and a steering wheel (104) having an armature (120) with a center or hub portion (122) onto which the airbag module (102) is attached. The armature (120) has hook members (110a, 110b, 110c), each hook member having a hook void (190). The hook void (190) is defined by a space above one or two base members (160a, 160b) and below a retaining member (180). The base member (160a, 160b) has a shallow ramped surface extending upwardly to an end wall and the retaining member (180) has a hook surface above the ramped surface and extending to the end wall. The loop member (108) is retained in the hook void (190) between the hook surface (186) and the ramped surface (168).