Methods and apparatus for passive non-electrical dual stage fire suppression
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A62C-035/13
A62C-035/02
출원번호
US-0147733
(2014-01-06)
등록번호
US-9662521
(2017-05-30)
발명자
/ 주소
Eckholm, William A.
Cashion, Brian J.
Moran, Dustin C.
출원인 / 주소
Firetrace USA, LLC
대리인 / 주소
The Noblitt Group, PLLC
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
Methods and apparatus for passive non-electrical dual stage fire suppression according to various aspects of the present invention include detecting a fire with a first active fire suppressant unit and changing the status of a second fire suppressant unit from “stand-by” to “active” when the first f
Methods and apparatus for passive non-electrical dual stage fire suppression according to various aspects of the present invention include detecting a fire with a first active fire suppressant unit and changing the status of a second fire suppressant unit from “stand-by” to “active” when the first fire suppressant unit releases a fire suppressant agent. After the first fire suppressant unit has released its fire suppressant agent, the second fire suppressant unit may detect a continued and/or a new fire and release a second fire suppressant agent in response to the detection.
대표청구항▼
1. A dual-stage fire control system for a suppressing a fire, comprising: a first fire suppression unit comprising a first container storing a first fire suppression agent under pressure, wherein the first fire suppression unit is configured to generate a signal in response to a detected change in p
1. A dual-stage fire control system for a suppressing a fire, comprising: a first fire suppression unit comprising a first container storing a first fire suppression agent under pressure, wherein the first fire suppression unit is configured to generate a signal in response to a detected change in pressure;a second fire suppression unit comprising: a second container storing a second fire suppression agent;a first valve connected to the second container, the first valve comprising a sealed vessel positioned within an interior volume of the first valve, wherein: the sealed vessel contains a compressed gas; andthe valve releases the compressed gas from the sealed vessel into the second container in response to the generated signal; anda pneumatic tube coupling the first fire suppression unit on a first end to the second fire suppression unit on a second end, wherein the signal is transmitted from the first end to the second end of the pneumatic tube. 2. A dual-stage fire control system according to claim 1, wherein the first fire suppression unit comprises: a second valve connected to the first container and the first end of the pneumatic tube, wherein the second valve is configured to: maintain the pressure of the first container;release the first fire suppression agent in response to the detected change in pressure;route a portion of the released first fire suppression agent to a location of the fire; androute a portion of the released first fire suppression agent to the pneumatic tube to create the signal; anda first fire detection device connected to the second valve, wherein the first fire detection device is configured to: detect the fire; andchange pressure in response to the detected fire, wherein the change in pressure of the first fire detection device comprises the pressure change detected by the first fire suppression unit. 3. A dual-stage fire control system according to claim 2, wherein the first fire detection device comprises a heat sensitive pressure tube configured to rupture in response to an applied heat load from the fire and cause the change in pressure. 4. A dual-stage fire control system according to claim 2, further comprising a second fire detection device connected to the first valve, wherein: the first valve is further configured to route a portion of the released compressed gas to the second fire detection device to pressurize the second fire detection device; andthe second fire detection device is configured to detect the fire through a loss of pressure to the second fire detection device after the second fire detection device has been pressurized. 5. A dual-stage fire control system according to claim 4, wherein the second fire detection device comprises a heat sensitive pressure tube configured to rupture in response to an applied heat load from the fire. 6. A dual-stage fire control system according to claim 4, wherein the first valve is further configured to route the second fire suppression agent to the second fire detection device. 7. A dual-stage fire control system according to claim 1, wherein the sealed vessel comprises at least one of a gas cartridge and a burst disc. 8. A dual-stage fire control system according to claim 1, wherein the first valve is further configured to compromise the integrity of the sealed vessel to facilitate the release of the compressed gas into the second container. 9. A dual-stage fire control system according to claim 1, wherein the second fire suppression agent comprises a powdered material. 10. A method of suppressing a fire, comprising: providing a first fire suppression unit comprising a first container storing a first fire suppression agent under pressure, wherein the first fire suppression unit: releases the first fire suppression agent in response to a detected change in pressure; andgenerates a signal in response to the detected change in pressure;connecting a first end of a pneumatic tube to the first fire suppression unit, wherein the pneumatic tube transmits the signal from the first fire suppression unit at the first end of the pneumatic tube to a second end of the pneumatic tube;connecting a first valve to the second end of the pneumatic tube, wherein: the first valve comprises a sealed vessel positioned within an interior volume of the first valve;the sealed vessel contains a volume of compressed gas; andconnecting a second container to the valve, wherein the second container is configured to contain a second fire suppression agent, and wherein the first valve: releases the volume of compressed gas from the sealed vessel in response to the transmitted signal from the pneumatic tube; androutes the released compressed gas into the second container to pressurize the second fire suppression agent. 11. A method of suppressing a fire according to claim 10, wherein the first fire suppression system comprises: a second valve connected to the first container and the first end of the pneumatic tube, wherein the second valve: maintains the pressure of the first container;releases the first fire suppression in response to the detected change in pressure;routes a portion of the released first fire suppression agent to a location of the fire; androutes a portion of the released first fire suppression agent to the pneumatic tube to create the signal; anda first fire detection device connected to the second valve, wherein the first fire detection device: detects the fire; andchanges pressure in response to detecting the fire, wherein the change in pressure of the first fire detection device comprises the pressure change detected by the first fire suppression unit. 12. A method of suppressing a fire according to claim 11, wherein the first fire detection device comprises a heat sensitive pressure tube configured to rupture in response to an applied heat load from the fire and cause the change in pressure. 13. A method of suppressing a fire according to claim 12, further comprising a second heat sensitive pressure tube connected to the first valve, wherein: the first valve connected to the second end of the pneumatic tube routes a portion of the released compressed gas to the second heat sensitive pressure tube to pressurize the second heat sensitive pressure tube; andthe second heat sensitive pressure tube detects the fire through a loss of pressure to the second heat sensitive pressure tube after the second fire detection agent has been pressurized. 14. A method of suppressing a fire according to claim 13, wherein the first valve connected to the second end of the pneumatic tube further routes the second fire suppression agent to the second heat sensitive pressure tube. 15. A method of suppressing a fire according to claim 10, wherein the sealed vessel comprises at least one of a gas cartridge and a burst disc. 16. A method of suppressing a fire according to claim 10, wherein releasing the volume of compressed gas comprises compromising an integrity of the sealed vessel with the first valve to facilitate the release of the compressed gas into the second container.
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이 특허에 인용된 특허 (11)
Piatti,Domenico, Automatic, pyrotechic fire extinguisher.
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