A curtain airbag for a vehicle comprising: an airbag main body, an air chamber defined by the airbag main body; and a strip-shaped component, abutting the airbag main body. The strip-shaped component is electrically conductive, and is configured to deform or break when the airbag main body is twisted so that resistance of the strip-shaped component changes.

A curtain airbag for a vehicle comprising: an airbag main body, an air chamber defined by the airbag main body; and a strip-shaped component, abutting the airbag main body. The strip-shaped component is electrically conductive, and is configured to deform or break when the airbag main body is twisted so that resistance of the strip-shaped component changes.

A deployment ramp for helping to direct a curtain airbag to deploy inboard of a trim piece on a side structure of a vehicle includes a deployment flap for directing the curtain airbag to deploy inboard of the trim piece and a mounting portion configured to receive a fastener for connecting the deployment ramp and the curtain airbag to the vehicle. The mounting portion includes a pair of mounting tabs. Each mounting tab is configured to be installed in a corresponding sleeve in the curtain airbag to connect the deployment ramp to the curtain airbag. The mounting portion is configured so that installing both mounting tabs in their corresponding sleeves requires the application of external manipulating forces to the mounting portion in order to bend and/or deflect in order to overcome an interference between the mounting portion and the curtain airbag.

A deployment ramp for helping to direct a curtain airbag to deploy inboard of a trim piece on a side structure of a vehicle includes a deployment flap for directing the curtain airbag to deploy inboard of the trim piece and a mounting portion configured to receive a fastener for connecting the deployment ramp and the curtain airbag to the vehicle. The mounting portion includes a pair of mounting tabs. Each mounting tab is configured to be installed in a corresponding sleeve in the curtain airbag to connect the deployment ramp to the curtain airbag. The mounting portion is configured so that installing both mounting tabs in their corresponding sleeves requires the application of external manipulating forces to the mounting portion in order to bend and/or deflect in order to overcome an interference between the mounting portion and the curtain airbag.

An airbag module for helping to protect an occupant of a vehicle includes a curtain airbag and a mounting bracket. The curtain airbag includes a mounting tab configured to receive a fastener for connecting the curtain airbag to the vehicle. The mounting bracket is configured to cooperate with the mounting tab to facilitate the connection of the curtain airbag to the vehicle via the fastener. The mounting bracket includes a generally planar body portion and a fastening structure that extends transversely from the body portion. The mounting tab includes overlying layers of material that help define a pocket configured to receive the mounting bracket. The mounting tab includes a first fastener opening configured to receive the fastening structure so that the fastening structure extends through the first fastener opening with the body portion positioned in the pocket. The fastening structure is configured for installation in the vehicle structure to initially support the airbag module in the vehicle. The airbag module further includes a fastener configured to extend through the mounting tab and the mounting bracket to connect the airbag module to the vehicle.

An airbag module for helping to protect an occupant of a vehicle includes a curtain airbag and a mounting bracket. The curtain airbag includes a mounting tab configured to receive a fastener for connecting the curtain airbag to the vehicle. The mounting bracket is configured to cooperate with the mounting tab to facilitate the connection of the curtain airbag to the vehicle via the fastener. The mounting bracket includes a generally planar body portion and a fastening structure that extends transversely from the body portion. The mounting tab includes overlying layers of material that help define a pocket configured to receive the mounting bracket. The mounting tab includes a first fastener opening configured to receive the fastening structure so that the fastening structure extends through the first fastener opening with the body portion positioned in the pocket. The fastening structure is configured for installation in the vehicle structure to initially support the airbag module in the vehicle. The airbag module further includes a fastener configured to extend through the mounting tab and the mounting bracket to connect the airbag module to the vehicle.

A roof airbag system includes a roof airbag, a lifting mechanism, a collision sensor, memory, and a processor coupled to the memory. The roof airbag is provided at a roof portion of a vehicle, receives a supply of gas from an inflator and deploys toward an upper body side of a vehicle occupant sitting on a vehicle seat. The lifting mechanism is provided at a seat cushion side of the vehicle seat and lifts a thigh area of the vehicle occupant. A collision sensor detects a collision of the vehicle. The processor is configured to, when a seat back of the vehicle seat is tilted more than a predetermined angle to the seat rear side and the collision sensor detects a collision of the vehicle, control the lifting mechanism to lift the thigh area of the vehicle occupant and control operation of the inflator to deploy the roof airbag.

A roof airbag system includes a roof airbag, a lifting mechanism, a collision sensor, memory, and a processor coupled to the memory. The roof airbag is provided at a roof portion of a vehicle, receives a supply of gas from an inflator and deploys toward an upper body side of a vehicle occupant sitting on a vehicle seat. The lifting mechanism is provided at a seat cushion side of the vehicle seat and lifts a thigh area of the vehicle occupant. A collision sensor detects a collision of the vehicle. The processor is configured to, when a seat back of the vehicle seat is tilted more than a predetermined angle to the seat rear side and the collision sensor detects a collision of the vehicle, control the lifting mechanism to lift the thigh area of the vehicle occupant and control operation of the inflator to deploy the roof airbag.

An airbag unit comprising an airbag (22) folded or rolled into an elongate package as well as a wrapping (28) holding the package in the folded state includes a fold-back longitudinal end (36) of the package. Apart from a first tearing line (32) through which the airbag (22) leaves the wrapping (28), in the area of the bending point (38) the wrapping (28) has a second tearing line (50) which provides for better gas flow to the fold-back package portion (40).

An airbag unit comprising an airbag (22) folded or rolled into an elongate package as well as a wrapping (28) holding the package in the folded state includes a fold-back longitudinal end (36) of the package. Apart from a first tearing line (32) through which the airbag (22) leaves the wrapping (28), in the area of the bending point (38) the wrapping (28) has a second tearing line (50) which provides for better gas flow to the fold-back package portion (40).