An airbag for steering wheel is configured to inflate so as to cover an upper surface side of a ring part of a steering wheel. Outer peripheral edges of a vehicle body-side wall part and a driver-side wall part are joined such that the airbag is formed to have a bag shape, and an inlet opening is arranged at a vicinity of a center of the vehicle body-side wall part. The vehicle body-side wall part is formed with a concave part to be concave upward toward the driver-side wall part upon completion of the inflation so that a rear part-side region of the ring part can be entered into the concave part, and the concave part is arranged at the vehicle body-side wall part so that the ring part is entered into the concave part when a driver is received by the airbag upon completion of the inflation.

An airbag for steering wheel is configured to inflate so as to cover an upper surface side of a ring part of a steering wheel. Outer peripheral edges of a vehicle body-side wall part and a driver-side wall part are joined such that the airbag is formed to have a bag shape, and an inlet opening is arranged at a vicinity of a center of the vehicle body-side wall part. The vehicle body-side wall part is formed with a concave part to be concave upward toward the driver-side wall part upon completion of the inflation so that a rear part-side region of the ring part can be entered into the concave part, and the concave part is arranged at the vehicle body-side wall part so that the ring part is entered into the concave part when a driver is received by the airbag upon completion of the inflation.

A seat airbag for a vehicle includes a first cushion and a second cushion located at the upper end portion of a seatback and configured to be inflated upwards on opposite sides of an occupant sitting in a seat and subsequently to be bent downwards from an upper side of the occupant to cause an end portion of each of the first cushion and the second cushion to be located in front of the occupant. A third cushion is disposed between the first cushion and the second cushion to connect the first cushion and the second cushion to each other.

A seat airbag for a vehicle includes a first cushion and a second cushion located at the upper end portion of a seatback and configured to be inflated upwards on opposite sides of an occupant sitting in a seat and subsequently to be bent downwards from an upper side of the occupant to cause an end portion of each of the first cushion and the second cushion to be located in front of the occupant. A third cushion is disposed between the first cushion and the second cushion to connect the first cushion and the second cushion to each other.

A vehicle interior panel and method of manufacturing a vehicle interior panel for use over an airbag. The vehicle interior panel includes a substrate having an airbag door with one or more t-shaped stiffening ribs embedded in the airbag door. The t-shaped stiffening ribs help increase the rigidity of the airbag door, which can help improve deployment performance of the airbag. The t-shaped stiffening ribs may be co-molded or insert molded with the substrate.

A vehicle interior panel and method of manufacturing a vehicle interior panel for use over an airbag. The vehicle interior panel includes a substrate having an airbag door with one or more t-shaped stiffening ribs embedded in the airbag door. The t-shaped stiffening ribs help increase the rigidity of the airbag door, which can help improve deployment performance of the airbag. The t-shaped stiffening ribs may be co-molded or insert molded with the substrate.

A vehicle occupant restraint system includes an airbag cushion. A reaction surface is configured to move between a retracted position and a deployed position upon deployment of the airbag cushion, such that the reaction surfaces will direct the airbag cushion toward an occupant area upon deployment of the airbag cushion. Multiple embodiments of reaction surfaces are disclosed, including deployable instrument panel sections, flexible straps, and hoods.

A vehicle occupant restraint system includes an airbag cushion. A reaction surface is configured to move between a retracted position and a deployed position upon deployment of the airbag cushion, such that the reaction surfaces will direct the airbag cushion toward an occupant area upon deployment of the airbag cushion. Multiple embodiments of reaction surfaces are disclosed, including deployable instrument panel sections, flexible straps, and hoods.

A passenger seat airbag includes: a bag main body; and a left-right tether, arranged in the bag main body to connect a left wall portion and a tight wall portion facing each other on a left-right direction side of the peripheral wall portion, preventing left and right outward protrusions of a connecting portion with the left wall portion or the right wall portion. The connecting portion includes a pair of strip portions and an intermediate portion which is sewn and connected to the left wall portion or the right wall portion between the strip portions. A sewn portion for sewing the intermediate portion to the left wall portion or the right wall portion is configured as a substantially rectangular shape having a pair of strip-side sides on the strip portion side and a pair of non-strip-side sides connecting both ends of the pair of strip-side sides.

An airbag cover structure for a steering wheel. The airbag cover structure with a lighting emblem includes: a mounting plate with an airbag cushion; an inner cover including an inner locking portion, a storage portion, and an inner hinge portion; an outer cover including an outer locking portion, an indicating portion, and an outer hinge portion; and an absorption area provided on the inner hinge portion of the inner cover, and configured to concentrate and absorb stress generated by a force that unfolds a bent portion of the outer hinge portion during deployment of the airbag cushion.