Pyrotechnic tether release assembly for inflatable airbags
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60R-021/2338
B60R-021/20
출원번호
US-0427605
(2012-03-22)
등록번호
US-8408585
(2013-04-02)
발명자
/ 주소
Paxton, Don
Mills, Geoffrey
Parks, Brent
Jordan, Michael P.
Hubbard, R. Mark
Weber, Marcus
출원인 / 주소
Autoliv ASP, Inc.
대리인 / 주소
Stoel Rives LLP
인용정보
피인용 횟수 :
5인용 특허 :
54
초록
A depth to which an inflatable airbag can deploy may varied by internal tethers. If the tethers are coupled to a release assembly, then in an unreleased state, the tethers can limit the depth of airbag deployment; however, if the tethers are released, the airbag can deploy of a full depth.
대표청구항▼
1. An inflatable airbag assembly comprising: an inflatable airbag;a housing coupled to the inflatable airbag;a mounting member attached to the housing;a tether release assembly that is reversibly coupled to the mounting member, wherein the tether release assembly comprises a body portion, a pyrotech
1. An inflatable airbag assembly comprising: an inflatable airbag;a housing coupled to the inflatable airbag;a mounting member attached to the housing;a tether release assembly that is reversibly coupled to the mounting member, wherein the tether release assembly comprises a body portion, a pyrotechnic squib, and a piston, wherein the body portion comprises an interior chamber, wherein the pyrotechnic squib and the piston are within the interior chamber, and wherein the pyrotechnic squib, upon activation, causes the piston to act on the mounting member to uncouple the tether release assembly from the mounting member; anda tether reversibly attached to the body portion of the tether release assembly,wherein, when the tether release assembly becomes uncoupled from the mounting member, the tether becomes unattached from the tether release assembly such that the tether is released. 2. The inflatable airbag assembly of claim 1, wherein the mounting member is coupled on an external side of the housing. 3. The inflatable airbag assembly of claim 2, wherein the mounting member is coupled to a longitudinal sidewall of the housing. 4. The inflatable airbag assembly of claim 1, wherein the tether release assembly slides out of the mounting member and becomes completely uncoupled from the mounting member. 5. The inflatable airbag assembly of claim 1, wherein the tether release assembly comprises an electric wire, and wherein the electric wire acts as a stop for the tether release assembly. 6. The inflatable airbag assembly of claim 1, wherein, upon activation, the squib acts on the piston and the piston acts on the mounting member to uncouple the tether release assembly from the mounting member. 7. The inflatable airbag assembly of claim 1, wherein the piston comprises an injection moldable plastic, and wherein, upon activation, the squib causes the piston to fracture such that a portion of the piston remains in the interior chamber of the release assembly and another portion of the piston travels away from the pyrotechnic squib and acts on the mounting member to uncouple the tether release assembly from the mounting member. 8. The inflatable airbag assembly of claim 7, wherein the injection moldable plastic comprises at least one of nylon and polyetherimide. 9. The inflatable airbag assembly of claim 7, wherein the injection moldable plastic is glass-filled. 10. An inflatable airbag assembly comprising: an inflatable airbag;a housing coupled to the inflatable airbag;a mounting member attached to the airbag housing, wherein the mounting member comprises an open end and a closed end, and wherein a post is located within the mounting member at the closed end;a tether release assembly that is reversibly coupled to the mounting member, wherein the tether release assembly comprises a body portion, a pyrotechnic squib, and a piston, wherein the body portion comprises an interior chamber, and wherein a pyrotechnic squib and a piston are located within the interior chamber, andwherein, upon activation, the pyrotechnic squib generates heat and gas, which act on the piston and cause the piston to push against the post within the mounting member, such that the tether release assembly slides away from the closed end of the mounting member, thereby allowing the tether release assembly to become uncoupled from the mounting member; anda tether reversibly attached to the body portion of the tether release assembly,wherein, when the tether release assembly becomes uncoupled from the mounting member, the tether becomes unattached from the tether release assembly such that the tether is released. 11. The inflatable airbag assembly of claim 10, wherein the tether release assembly comprises a distal aperture located at a distal end, which is opposite the pyrotechnic squib. 12. The inflatable airbag assembly of claim 11, wherein in the coupled configuration, the post of the mounting member projects through the distal aperture in the release assembly into the internal chamber of the tether release assembly. 13. The inflatable airbag assembly of claim 12, wherein the piston is located between the pyrotechnic squib and the post of the mounting member. 14. The inflatable airbag assembly of claim 10, wherein the mounting member is configured to retain the release assembly from sliding out of the mounting member before the pyrotechnic squib is activated. 15. The inflatable airbag assembly of claim 10, wherein the tether release assembly comprises an expandable membrane that is located within the interior chamber and receives the heat and gas from the pyrotechnic squib. 16. The inflatable airbag assembly of claim 15, wherein the membrane is located between the pyrotechnic squib and the piston. 17. The inflatable airbag assembly of claim 10, wherein the mounting member is configured to retain the release assembly from sliding out of the mounting member before the pyrotechnic squib is activated. 18. The inflatable airbag assembly of claim 10, wherein the piston comprises a shoulder and a projection. 19. The inflatable airbag assembly of claim 18, wherein the distal end of the tether release assembly comprises an inward facing rim, which defines the aperture in the distal end and which is configured to engage the shoulder of the piston, when the piston travels to the distal end of the release assembly, such that the rim acts as a stop for the piston. 20. The inflatable airbag assembly of claim 19, wherein after the piston has traveled to the distal end of the release assembly, the projection of the piston extends through the aperture in the distal end of the release assembly. 21. An inflatable airbag assembly comprising: an inflatable airbag;a housing coupled to the inflatable airbag;a mounting member attached to the housing, wherein the mounting member comprises an open end and a closed end, and wherein a post is located within the mounting member at the closed end;a tether release assembly that is reversibly coupled to the mounting member, wherein the tether release assembly comprises a body portion with an interior chamber, a pyrotechnic squib, and a piston,wherein the pyrotechnic squib and the piston are located within the interior chamber,wherein the piston comprises a base region and a distal region, and wherein the pyrotechnic squib is located within the base region of the piston, andwherein, upon activation due to receipt of a signal, the pyrotechnic squib generates heat and gas, which cause the piston to act against the post within the mounting member, such that the tether release assembly slides away from the closed end of the mounting member, thereby allowing the tether release assembly to become uncoupled from the mounting member; anda tether reversibly attached to the body portion of the tether release assembly,wherein, when the tether release assembly becomes uncoupled from the mounting member, the tether becomes unattached from the tether release assembly such that the tether is released. 22. The inflatable airbag assembly of claim 21, wherein the piston comprises a shoulder and a projection. 23. The inflatable airbag assembly of claim 22, wherein the distal end of the tether release assembly comprises an inward facing rim, which defines the aperture in the distal end and which is configured to engage the shoulder of the piston, when the distal end of the piston travels to the distal end of the release assembly, such that the rim acts as a stop for the distal end of the piston. 24. The inflatable airbag assembly of claim 23, wherein after the distal end of the piston has traveled to the distal end of the body of the release assembly, the projection of the distal end of the piston extends through the aperture in the distal end of the body of the release assembly. 25. The inflatable airbag assembly of claim 24, wherein the piston comprises a base region, a distal region, and a rupture point between the base region and the distal region, and wherein, upon activation, the pyrotechnic squib causes the piston to fracture at the rupture point between the base portion and the distal portion, such that the base portion of the piston remains in the interior chamber of the release assembly and the distal portion of the piston travels away from the pyrotechnic squib and pushes against the post within the mounting member, such that the tether release assembly slides away from the closed end of the mounting member, thereby allowing the tether release assembly to become uncoupled from the mounting member.
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