IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0452576
(2006-06-14)
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등록번호 |
US-7464961
(2008-12-16)
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발명자
/ 주소 |
- Parizat,Amnon
- Cannetti,Robert
- Seiler,Volker
- Markwardt,Juergen
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출원인 / 주소 |
- Island Pyrochemical Industries Corp.
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
1 인용 특허 :
4 |
초록
▼
The variable output inflator includes an injection piston assembly containing a sealed container of liquid propellant. The movement of the injection piston of the assembly is controlled by an electromagnetic valve that controls the flow of a fluid from a reservoir and against which an annular skirt
The variable output inflator includes an injection piston assembly containing a sealed container of liquid propellant. The movement of the injection piston of the assembly is controlled by an electromagnetic valve that controls the flow of a fluid from a reservoir and against which an annular skirt of the injection piston moves during actuation.
대표청구항
▼
What is claimed: 1. A variable output inflator comprising a housing defining a combustion chamber therein and at least one port for expelling combustion gas from said combustion chamber; an initiator mounted on said housing for introducing a combustion gas into said combustion chamber; an injection
What is claimed: 1. A variable output inflator comprising a housing defining a combustion chamber therein and at least one port for expelling combustion gas from said combustion chamber; an initiator mounted on said housing for introducing a combustion gas into said combustion chamber; an injection piston assembly mounted in said combustion chamber of said housing, said assembly including an injection piston defining a propellant chamber therein, a sealed container in said propellant chamber having a charge of liquid propellant therein, a cover mounted on said injection piston to sealingly close said propellant chamber with said container therein, and means communicating said propellant chamber with said combustion chamber to deliver liquid propellant thereto, said injection piston being slidably mounted in said housing for movement between an initial position and a second position in response to the introduction of a combustion gas into said combustion chamber from said initiator; an accumulator mounted in said housing to define a peripheral chamber therewith for receiving a fluid therein, said accumulator having an internal chamber for receiving the fluid, at least one port communicating said peripheral chamber with said internal chamber; and a tape disposed over said port to block communication of said peripheral chamber with said internal chamber, said tape being rupturable in response to an increase in pressure in said peripheral chamber in response to movement of said injection piston from said first position towards said second position. 2. An inflator as set forth in claim 1 wherein said injection piston includes a peripheral skirt coaxial of said peripheral chamber for movement into said peripheral chamber in response to movement from said first position into said second position. 3. An inflator as set forth in claim 1 further comprising an electromagnetic valve mounted in said housing for controlling movement of said injection piston from said first position to said second position, said electromagnetic valve including a valve body disposed in sealed relation with said accumulator, at least one passage extending through said valve body to communicate said peripheral chamber with said internal chamber, a plunger for selectively opening and closing said passage to the flow of fluid and an electrical coil in said valve body about said plunger whereby in response to energization of said coil, said plunger is caused to move from a normally open position in a direction towards said passage to close said passage to a flow of fluid from said peripheral chamber into said internal chamber thereby slowing movement of said injection piston. 4. An inflator as set forth in claim 3 wherein said electromagnetic valve includes a spring for biasing said plunger into said normally open position. 5. An inflator as set forth in claim 3 wherein said electromagnetic valve includes a pair of radially disposed passages communicating with said peripheral chamber and an axial passage communicating said pair of radially disposed passages with said internal chamber and wherein said plunger is disposed to seat against said axial passage in a closed position thereof. 6. An inflator as set forth in claim 1 further comprising an electromagnetic valve mounted in said housing for controlling movement of said injection piston from said first position to said second position, said electromagnetic valve including a valve body disposed in sealed relation with said accumulator, at least one passage extending through said valve body to communicate said peripheral chamber with said internal chamber, a plunger for selectively opening and closing said passage to the flow of fluid, and a pair of spaced apart electrical coils in said valve body about said plunger whereby in response to energization of one of said pair of coils, said plunger is caused to move from a normally open position in a direction towards said passage to close said passage to a flow of fluid from said peripheral chamber into said internal chamber thereby slowing movement of said injection piston and in response to energization of the other of said pair of coils, said plunger is caused to move away from said passage into said normally open position. 7. An inflator as set forth in claim 6 further comprising a permanent magnet of annular shape between said pair of electrical coils and about said plunger for maintaining said plunger in said normally open position with said pair of coils in a deenergized state. 8. A variable output inflator comprising a housing defining a combustion chamber therein and at least one port for expelling combustion gas from said combustion chamber; an initiator mounted on said housing for introducing a combustion gas into said combustion chamber; an injection piston assembly mounted in said combustion chamber of said housing, said assembly including an injection piston having a peripheral skirt defining a propellant chamber therein, a cover mounted in said skirt to sealingly close said propellant chamber, and means communicating said propellant chamber with said combustion chamber to deliver liquid propellant thereto, said injection piston being slidably mounted in said housing for movement between an initial position and a second position in response to the introduction of a combustion gas into said combustion chamber from said initiator; and an accumulator mounted in said housing to define a peripheral chamber therewith for receiving a fluid therein, said accumulator having an internal chamber for receiving the fluid, at least one port communicating said peripheral chamber with said internal chamber and a tape disposed over said orifice to block communication of said peripheral chamber with said internal chamber, said tape being rupturable in response to a increase in pressure in said peripheral chamber in response to movement of said injection piston from said first position towards said second position. 9. An inflator as set forth in claim 8 wherein said peripheral skirt is coaxial of said peripheral chamber for movement into said peripheral chamber in response to movement from said first position into Said second position. 10. An inflator as set forth in claim 9 further comprising an electromagnetic valve mounted in said housing for controlling movement of said injection piston from said first position to said second position, said electromagnetic valve including a valve body disposed in sealed relation with said accumulator, at least one passage extending through said valve body to communicate said peripheral chamber with said internal chamber, a plunger for selectively opening and closing said passage to the flow of fluid and an electrical coil in said valve body about said plunger whereby in response to energization of said coil, said plunger is caused to move from a normally open position in a direction towards said passage to close said passage to a flow of fluid from said peripheral chamber into said internal chamber thereby slowing movement of said injection piston. 11. An inflator as set forth in claim 9 further comprising an electromagnetic valve mounted in said housing for controlling movement of said injection piston from said first position to said second position, said electromagnetic valve including a valve body disposed in sealed relation with said accumulator, at least one passage extending through said valve body to communicate said peripheral chamber with said internal chamber, a plunger for selectively opening and closing said passage to the flow of fluid, and a pair of spaced apart electrical coils in said valve body about said plunger whereby in response to energization of one of said pair of coils, said plunger is caused to move from a normally open position in a direction towards said passage to close said passage to a flow of fluid from said peripheral chamber into said internal chamber thereby slowing movement of said injection piston and in response to energization of the other of said pair of coils, said plunger is caused to move away from said passage into said normally open position. 12. An inflator as set forth in claim 11 further comprising a permanent magnet of annular shape between said pair of electrical coils and about said plunger for maintaining said plunger in said normally open position with said pair of coils in a deenergized state. 13. A variable output inflator comprising a housing defining a combustion chamber therein and at least one port for expelling combustion gas from said combustion chamber; an initiator mounted on said housing for introducing a combustion gas into said combustion chamber; an injection piston assembly mounted in said combustion chamber of said housing, said assembly including an injection piston defining a propellant chamber therein, a sealed container in said propellant chamber having a charge of liquid propellant therein, a cover mounted on said injection piston to sealingly close said propellant chamber with said container therein, and means communicating said propellant chamber with said combustion chamber to deliver liquid propellant thereto, said injection piston being slidably mounted in said housing for movement between an initial position and a second position in response to the introduction of a combustion gas into said combustion chamber from said initiator; and an electromagnetic valve mounted in said housing for controlling movement of said injection piston from said first position to said second position, said electromagnetic valve including a valve body disposed in sealed relation with said accumulator, at least one passage extending through said valve body to communicate said peripheral chamber with said internal chamber, a plunger for selectively opening and closing said passage to the flow of fluid, and a pair of spaced apart electrical coils in said valve body about said plunger whereby in response to energization of one of said pair of coils, said plunger is caused to move from a normally open position in a direction towards said passage to close said passage to a flow of fluid from said peripheral chamber into said internal chamber thereby slowing movement of said injection piston and in response to energization of the other of said pair of coils, said plunger is caused lo move away from said passage into said normally open position. 14. A variable output inflator comprising a housing defining a combustion chamber therein and at least one port for expelling combustion gas from said combustion chamber; an initiator mounted on said housing for introducing a combustion gas into said combustion chamber; an injection piston assembly mounted in said combustion chamber of said housing, said assembly including an injection piston defining a propellant chamber therein, a sealed container in said propellant chamber having a charge of liquid propellant therein, a cover mounted on said injection piston to sealingly close said propellant chamber with said container therein, and means communicating said propellant chamber with said combustion chamber to deliver liquid propellant thereto, said injection piston being slidably mounted in said housing for movement between an initial position and a second position in response to the introduction of a combustion gas into said combustion chamber from said initiator; an accumulator mounted in said housing to define a peripheral chamber therewith for receiving a fluid therein, said accumulator having an internal chamber for receiving the fluid, at least one port communicating said peripheral chamber with said internal chamber; and a pressure sensitive rupturable means disposed over said port to block communication of said peripheral chamber with said internal chamber, said means being rupturable in response to an increase in pressure in said peripheral chamber in response to movement of said injection piston from said first position towards said second position.
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