IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0858022
(2010-08-17)
|
등록번호 |
US-8191927
(2012-06-05)
|
발명자
/ 주소 |
- Jordan, Michael P.
- Jackson, Scott A.
- Cox, Matthew A.
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
7 인용 특허 :
5 |
초록
▼
An inflator including a housing with a first chamber that contains a quantity of gas generant. An initiator is operatively associated with the first chamber and in reaction initiating communication with at least a portion of the quantity of gas generant. The initiator, upon actuation, acts to ignite
An inflator including a housing with a first chamber that contains a quantity of gas generant. An initiator is operatively associated with the first chamber and in reaction initiating communication with at least a portion of the quantity of gas generant. The initiator, upon actuation, acts to ignite at least a portion of the quantity of gas generant to form gas. The housing further has a second chamber adjacently disposed to the first chamber. The second chamber contains a sealed storage reservoir and a piston assembly. The sealed storage reservoir includes a liner and a lid and contains a quantity of liquid. The piston assembly includes a piston. During deployment, the piston moves to unseal the storage reservoir to release at least a portion of the quantity of liquid such that the released liquid contacts and cools gas formed by the ignition of the gas generant. A discharge opening permits gas to exit the housing.
대표청구항
▼
1. An inflator comprising: a housing at least in part defining a first chamber containing a quantity of gas generant;an initiator operatively associated with the first chamber and in reaction initiating communication with at least a portion of the quantity of gas generant, the initiator, upon actuat
1. An inflator comprising: a housing at least in part defining a first chamber containing a quantity of gas generant;an initiator operatively associated with the first chamber and in reaction initiating communication with at least a portion of the quantity of gas generant, the initiator, upon actuation, to ignite at least a portion of the quantity of gas generant to form gas;the housing further at least in part defining a second chamber adjacently disposed to the first chamber, the second chamber containing a sealed storage reservoir and a piston assembly, the sealed storage reservoir comprising a liner including a cup-shaped base having a closed first end and an oppositely disposed open second end, the cup-shaped base including a side wall covering an interior side wall surface of the second chamber and an end wall covering an end wall surface of the second chamber, the storage reservoir also comprises a lid to seal close the second end of the base, the sealed storage reservoir containing a quantity of liquid,the piston assembly including a piston, wherein during deployment, the piston moves to unseal the storage reservoir to release at least a portion of the quantity of liquid such that the released liquid contacts and cools gas formed by the ignition of the gas generant; andthe housing further having at least one discharge opening to permit gas to exit the housing. 2. The inflator of claim 1 wherein the lid is disposed adjacent to a front face of the piston. 3. The inflator of claim 1 wherein at least one of the base or the lid is formed of plastic. 4. The inflator of claim 3 wherein both the base and the lid are formed of plastic. 5. The inflator of claim 3 wherein the plastic is a low vapor transmission rate plastic. 6. The inflator of claim 5 wherein the low vapor transmission rate plastic is selected from the group consisting of polycarbonate, polycarbonate blends, PPS, PET, PBT, and PP. 7. The inflator of claim 1 wherein the piston is formed of metal. 8. The inflator of claim 7 wherein the piston includes a cylindrical side wall and an end wall, the end wall at least in part defining a front face of the piston, the piston also including a beaded ring extending around at least a portion of the cylindrical side wall adjacent to the end wall. 9. The inflator of claim 1 wherein the lid includes a circumferentially disposed attachment ring joined to the side wall of the liner, wherein during deployment, the piston moves to separate the attachment ring from the lid and to permit the piston to be slidingly received within the storage reservoir to hydraulically expel at least a portion of the quantity of liquid from the second chamber. 10. The inflator of claim 9 wherein the side wall of the liner additionally forms a shoulder having a pocket to restrain the attachment ring upon separation of the attachment ring from the lid during deployment. 11. The inflator of claim 1 wherein the cup-shaped base is adhesively bonded with the lid to seal close the second end of the base. 12. The inflator of claim 1 wherein the cup-shaped base is welded with the lid via laser transmission welding, ultrasonic welding, or solvent welding to seal close the second end of the base. 13. The inflator of claim 1 wherein the liquid comprises water. 14. The inflator of claim 9 wherein the liquid additionally comprises at least one of a fuel soluble in the liquid or an oxidizer soluble in the liquid. 15. An inflator comprising: a housing at least in part defining a first chamber containing a quantity of gas generant solid, the first chamber having a constant volume;an initiator operatively associated with the first chamber in reaction initiating communication with at least a portion of the quantity of gas generant solid, the initiator, upon actuation, to ignite the gas generant solid to form gas;the housing additionally at least in part defining a second chamber adjacently disposed to the first chamber, the second chamber containing a sealed storage reservoir and a piston assembly, the sealed storage reservoir comprising a liner including a cup-shaped base having a closed first end and an oppositely disposed open second end, the cup-shaped base including a side wall covering an interior side wall surface of the second chamber and an end wall covering an end wall surface of the second chamber, the storage reservoir also comprises a lid to seal close the second end of the base, the sealed storage reservoir containing a quantity of liquid, the liquid includes at least one of a fuel soluble in the liquid or an oxidizer soluble in the liquid;the piston assembly including a piston, wherein during deployment, the piston moves to unseal the storage reservoir to release at least a portion of the quantity of liquid such that the released liquid contacts and cools gas formed by the ignition of the gas generant; andthe housing further having at least one discharge opening to permit gas to exit the housing. 16. The inflator of claim 15 wherein at least one of the base or the lid is formed of plastic. 17. The inflator of claim 16 wherein both the base and the lid are formed of plastic. 18. The inflator of claim 17 wherein the plastic is a low vapor transmission rate plastic. 19. The inflator of claim 15 wherein the liquid comprises water. 20. A method of cooling gas formed in an inflator, the inflator comprising a housing at least in part defining a first chamber containing a quantity of gas generant, an initiator, the housing further at least in part defining a second chamber adjacently disposed to the first chamber, the second chamber containing a sealed storage reservoir and a piston assembly, the sealed storage reservoir comprising a liner including a cup-shaped base having a closed first end and an oppositely disposed open second end, the cup-shaped base including a side wall covering an interior side wall surface of the second chamber and an end wall covering an end wall surface of the second chamber, the storage reservoir also comprises a lid to connect to the base to seal close the second end of the base, the sealed storage reservoir containing a quantity of liquid, the piston assembly including a piston, the method comprising: igniting the gas generant to form gas; andmoving the piston to unseal the storage reservoir to expel at least a portion of the quantity of liquid from the second chamber such that the expelled liquid contacts and cools gas formed by the ignition of the gas generant.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.