IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0009108
(2008-01-16)
|
등록번호 |
US-7828324
(2010-11-25)
|
우선권정보 |
DE-10 2007 002 374(2007-01-16) |
발명자
/ 주소 |
- Herget, Christian
- Last, Detlef
|
출원인 / 주소 |
|
대리인 / 주소 |
Tarolli, Sundheim, Covell & Tummino LLP
|
인용정보 |
피인용 횟수 :
4 인용 특허 :
15 |
초록
▼
A gas generator, in particular for a vehicle occupant restraint system, has a pyrotechnical propellant (16), a combustion chamber (12) filled with the pyrotechnical propellant (16), an igniter (14) associated with the combustion chamber (12), a pressure chamber (18), filled with compressed gas, whic
A gas generator, in particular for a vehicle occupant restraint system, has a pyrotechnical propellant (16), a combustion chamber (12) filled with the pyrotechnical propellant (16), an igniter (14) associated with the combustion chamber (12), a pressure chamber (18), filled with compressed gas, which is adjacent to the combustion chamber (12) and has a first opening (22) remote from the combustion chamber (12) closed by a first diaphragm (26), the diaphragm (26) being destroyed upon activation of the igniter (14), and a second pressure chamber (28) which is filled with compressed gas and has a second opening (34) closed by a second diaphragm (36). The second diaphragm (36) is likewise destroyed upon activation of the igniter (14), and the openings (22, 34) and the gas volumes of the pressure chambers (18, 28) are adapted so that compressed gas flows out from the second pressure chamber (28) for a longer period than compressed gas from the first pressure chamber (18) to increase a gas supply time of the gas generator (10). Further, a method of activating a vehicle occupant restraint system is described.
대표청구항
▼
The invention claimed is: 1. A gas generator, in particular for a vehicle occupant restraint system, comprising a pyrotechnical propellant (16), a combustion chamber (12) filled with said pyrotechnical propellant (16), an igniter (14) associated with said combustion chamber (12), a first pressure c
The invention claimed is: 1. A gas generator, in particular for a vehicle occupant restraint system, comprising a pyrotechnical propellant (16), a combustion chamber (12) filled with said pyrotechnical propellant (16), an igniter (14) associated with said combustion chamber (12), a first pressure chamber (18), filled with compressed gas, which is adjacent to said combustion chamber (12) and has a first opening (22) remote from said combustion chamber (12) closed by a first diaphragm (26), said diaphragm (26) being destroyed upon activation of said igniter (14), a second pressure chamber (28) which is filled with compressed gas and has a second opening (34) closed by a second diaphragm (36), said second diaphragm (36) being likewise destroyed upon activation of said igniter (14), and said openings (22, 34) and the gas volumes of said pressure chambers (18, 28) being adapted so that compressed gas flows out from said second pressure chamber (28) for a longer period than compressed gas from said first pressure chamber (18) to increase a gas supply time of said gas generator (10), and a third diaphragm (46) that separates said first pressure chamber (18) from said combustion chamber (12). 2. The gas generator according to claim 1, wherein a shock wave is generated by activation of said igniter (14) and destruction of said first diaphragm (26), said second diaphragm (36) being destroyed by said shock wave. 3. The gas generator according to claim 1, wherein said combustion chamber (12), said first pressure chamber (18) and said second pressure chamber (28) are arranged one behind the other in an axial direction (A). 4. The gas generator according to claim 1, wherein said pressure chambers (18, 28) comprise discharge ends (21, 31), immediately facing each other, said first and second diaphragms (26, 36) being provided on said discharge ends (21, 31). 5. The gas generator according to claim 4, wherein the following applies to a minimum distance a between said discharge ends (21, 31) of said pressure chambers (18, 28): a = d 1 4 · M 2 M 1 + d 2 4 · M 1 M 2 . 6. The gas generator according to claim 1, wherein a diffuser section (38) having a plurality of discharge ports (40) is provided, which is arranged between said first and second pressure chambers (18, 28). 7. The gas generator according to claim 6, wherein said diffuser section (38) is arranged on a side of said first pressure chamber (18) facing away from said combustion chamber (12). 8. The gas generator according to claim 1, wherein said second pressure chamber (28) has a throttle (50) arranged in an immediate vicinity of said second diaphragm (36). 9. The gas generator according to claim 1, wherein said first pressure chamber (18) has a smaller volume than said second pressure chamber (28). 10. The gas generator according to claim 1, wherein said first and second pressure chambers (18, 28) are filled with different compressed gases. 11. The gas generator according to claim 10, wherein a compressed gas in said first pressure chamber (18) has a lower viscosity than a compressed gas in said second pressure chamber (28). 12. The gas generator according to claim 1, wherein an opening (34) covered by said second diaphragm (36) is smaller in cross-section than an opening covered by said first diaphragm (26). 13. The gas generator according to claim 1, wherein said second diaphragm (36) is larger than said first diaphragm (26). 14. The gas generator according to claim 1, wherein a diffuser section (38) having a plurality of discharge ports (40) is provided, which is arranged between said first and second pressure chambers (18, 28) such that upon activation of said igniter (14) fluid communication between each of the discharge ports (40) and each of said first and second openings (22, 34) is provided. 15. A method of activating a vehicle occupant restraint system, comprising the following steps: providing a gas generator (10) which includes a combustion chamber (12) having an associated igniter (14), providing a first compressed gas container close to said combustion chamber (12), providing a second compressed gas container remote from said combustion chamber (12), generating a shock wave by activating said igniter (14) and by destroying a diaphragm (46) that separates the first pressure chamber (18) from the combustion chamber (12), the diaphragm (46) closing said first compressed gas container and facing said igniter (14), opening a further diaphragm (26) of said first compressed gas container by said shock wave, the further diaphragm (26) closing an opening (22) of said first compressed gas container remote from said combustion chamber (12), opening a diaphragm (36) of said second compressed gas container by said shock wave, and producing an outflow of compressed gas from both said first and said second compressed gas containers, with compressed gas flowing out from said second compressed gas container for a longer period than from said first compressed gas container to increase a gas supply time of said gas generator (10). 16. A gas generator, in particular for a vehicle occupant restraint system, comprising: a pyrotechnical propellant (16), a combustion chamber (12) filled with said pyrotechnical propellant (16), a first pressure chamber (18), filled with compressed gas, which is adjacent to said combustion chamber (12) and has a first opening (22) remote from said combustion chamber (12) closed by a first diaphragm (26), and a second pressure chamber (28) which is filled with compressed gas and has a second opening (34) closed by a second diaphragm (36), a diffuser section (38) having a plurality of discharge ports (40) which is arranged between said first and second pressure chambers (18, 28), and a single igniter (14), the single igniter (14) being associated with said combustion chamber (12), and a third diaphragm (46) that separates said first pressure chamber (18) from said combustion chamber (12). 17. The gas generator according to claim 16, wherein said single igniter (14), said combustion chamber (12), said first pressure chamber (18), said diffuser section and said second pressure chamber (28) are arranged one behind the other in an axial direction (A). 18. A gas generator, in particular for a vehicle occupant restraint system, comprising a pyrotechnical propellant (16), a combustion chamber (12) filled with said pyrotechnical propellant (16), an igniter (14) associated with said combustion chamber (12), a first pressure chamber (18), filled with compressed gas, which is adjacent to said combustion chamber (12) and has a first opening (22) remote from said combustion chamber (12) closed by a first diaphragm (26), said diaphragm (26) being destroyed upon activation of said igniter (14), and a second pressure chamber (28) which is filled with compressed gas and has a second opening (34) closed by a second diaphragm (36), said second diaphragm (36) being likewise destroyed upon activation of said igniter (14), and said openings (22, 34) and the gas volumes of said pressure chambers (18, 28) being adapted so that compressed gas flows out from said second pressure chamber (28) for a longer period than compressed gas from said first pressure chamber (18) to increase a gas supply time of said gas generator (10), wherein said pressure chambers (18, 28) comprise discharge ends (21, 31), immediately facing each other, said first and second diaphragms (26, 36) being provided on said discharge ends (21, 31), wherein the following applies to a minimum distance a between said discharge ends (21, 31) of said pressure chambers (18, 28): a = d 1 4 · M 2 M 1 + d 2 4 · M 1 M 2 .
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