Cabin pressure control system dual valve control and monitoring architecture
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0851273
(2007-09-06)
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등록번호 |
US-8808072
(2014-08-19)
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발명자
/ 주소 |
- Horner, Darrell W.
- Rabon, Joaquin P.
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출원인 / 주소 |
- Honeywell International Inc.
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대리인 / 주소 |
Shimokaji & Associates, P.C.
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인용정보 |
피인용 횟수 :
0 인용 특허 :
9 |
초록
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The present invention provides a cabin pressure control system that comprises a first outflow valve having a first motor controlled by a first outflow valve controller, the first outflow valve having a first backup motor controlled by a first backup controller. A second outflow valve has a second mo
The present invention provides a cabin pressure control system that comprises a first outflow valve having a first motor controlled by a first outflow valve controller, the first outflow valve having a first backup motor controlled by a first backup controller. A second outflow valve has a second motor controlled by a second outflow valve controller, the second outflow valve also having a second backup motor controlled by a second backup controller. Upon failure of the first outflow valve controller, the second outflow valve controller controls the first outflow valve via the first backup controller and the first backup motor; and upon failure of the second outflow valve controller, the first outflow valve controller controls the second outflow valve via the second backup controller and the second backup motor.
대표청구항
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1. A cabin pressure control system comprising: a first outflow valve having a first primary motor controlled by a first outflow valve primary motor driver, said first outflow valve having a first backup motor controlled by a first backup motor driver;a second outflow valve having a second primary mo
1. A cabin pressure control system comprising: a first outflow valve having a first primary motor controlled by a first outflow valve primary motor driver, said first outflow valve having a first backup motor controlled by a first backup motor driver;a second outflow valve having a second primary motor controlled by a second outflow valve primary motor driver that is not the first outflow valve primary motor driver, said second outflow valve having a second backup motor controlled by a second backup motor driver;wherein upon failure of said first outflow valve primary motor driver, but not the second outflow valve primary motor driver, said system is configured to control said first outflow valve via a sequential control path comprising said second outflow valve primary motor driver, said first backup motor driver, and said first backup motor; andwherein upon failure of said second outflow valve primary motor driver, but not the first outflow valve primary motor driver, said system is configured to control said second outflow valve via a sequential control path comprising said first outflow valve primary motor driver, said second backup motor driver, and said second backup motor, whereby, upon failure of either of the outflow valve primary motor drivers, the first and second outflow valves are controlled through operation of at least one of the outflow valve primary motor drivers. 2. The cabin pressure control system of claim 1 further comprising a semiautomatic controller for driving at least one of said first outflow valve and said second outflow valve upon a fault in both said first outflow valve primary motor driver and said second outflow valve primary motor driver or upon an override command from the pilot. 3. The cabin pressure control system of claim 1 further comprising a first outflow valve controller wherein said first outflow valve controller includes a first controller functional segment and a first monitoring function, said first controller functional segment being monitored by said first monitoring function. 4. The cabin pressure control system of claim 3 wherein said first monitoring function shuts off said first controller functional segment if there is a fault in said first outflow valve controller. 5. The cabin pressure control system of claim 3 further comprising a second outflow valve controller wherein said second outflow valve controller includes a second controller functional segment and a second monitoring function, said second controller functional segment being monitored by said second monitoring function, wherein said first and second monitoring functions are independent and dis-similar. 6. The cabin pressure control system of claim 5 wherein said second monitoring function shuts off said second controller functional segment if there is a fault in said second outflow valve controller. 7. The cabin pressure control system of claim 1 wherein said first and second outflow valves are configured to permit air to pass between an aircraft cabin and ambient air. 8. The cabin pressure control system of claim 1 further comprising a negative pressure relief valve coupled between said aircraft cabin and ambient air. 9. The cabin pressure control system of claim 1 further comprising a positive pressure relief valve coupled between said aircraft cabin and ambient air. 10. A cabin pressure control system comprising: a first outflow valve having a first motor controlled by a first outflow valve controller;a second outflow valve having a second motor controlled by a second outflow valve controller;a first backup motor configured to control, responsively to commands from a functional primary motor driver of the second outflow valve, said first outflow valve upon a fault in said first outflow valve controller;a second backup motor configured to control, responsively to commands from a functional primary motor driver of the first outflow valve, said second outflow valve upon a fault in said second outflow valve controller; anda semiautomatic controller configured to drive at least one of said first outflow valve through the first backup motor and said second outflow valve through the second backup motor upon a fault in both said first outflow valve controller and said second outflow valve controller. 11. The cabin pressure control system of claim 10 wherein said first outflow valve controller includes a first controller functional segment and a first monitoring function, said first controller functional segment being monitored by said first monitoring function, wherein said first monitoring function shuts off said first controller functional segment if there is a fault in said first outflow valve controller. 12. The cabin pressure control system of claim 11 wherein said second outflow valve controller includes a second controller functional segment and a second monitoring function, said second controller functional segment being monitored by said second monitoring function, wherein said second monitoring function shuts off said second controller functional segment if there is a fault in said second outflow valve controller. 13. The cabin pressure control system of claim 11 wherein said first monitoring function includes a dissimilar microprocessor and a watchdog monitor circuit and a dissimilar sensor. 14. The cabin pressure control system of claim 12 wherein said second monitoring function includes a microprocessor and a watchdog monitor circuit and a dissimilar sensor. 15. A system for controlling a first and a second outflow valve, said system comprising: a first outflow valve controller controlling said first outflow valve, said first outflow valve controller having a first controller functional segment that is monitored by a first monitoring function;a first primary motor and a first backup motor connected to the first outflow valve controller;a second outflow valve controller controlling said second outflow valvea second primary motor and a second backup motor connected to the second outflow valve controller, said second outflow valve controller having a second controller functional segment that is monitored by a second monitoring function, wherein said second outflow valve controller is configured to control said first outflow valve via a driver for the second primary motor and the first backup motor upon shutdown of said first controller functional segment caused by failure of the first primary motor while said driver for the second primary motor continues to control the second primary motor, and wherein said first outflow valve controller is configured to control said second outflow valve via a driver for the first primary motor and the second backup motor upon shutdown of said second controller functional segment caused by failure of the second primary motor while said driver for the first primary motor continues to control the first primary motor; andwherein said first monitoring function shuts off said first controller functional segment if there is a fault in said first outflow valve controller and said second monitoring function shuts off said second controller functional segment if there is a fault in said second outflow valve controller. 16. The system of claim 15 further comprising a controller having semiautomatic control capabilities for controlling at least one of said first and second backup motors upon fault in both said first and said second outflow valve controllers or upon an override command from the pilot. 17. The system of claim 15 further comprising first data bus connected between said first outflow valve controller and said second backup motor. 18. The system of claim 17 further comprising a second data bus connected between said second outflow valve controller and said first backup motor. 19. The system of claim 17 further comprising a data bus connecting said first and second outflow valve controllers to an aircraft avionics system, said data bus carrying command signals from a pilot. 20. The system of claim 16 further comprising a data bus connecting said semiautomatic controller to an aircraft avionics system, said data bus carrying command signals from a pilot.
이 특허에 인용된 특허 (9)
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Bloch Alexander (Mnzenberg DEX) Ettl Hanns-Ulrich (Maintal DEX) Kuhn Peter (Hanau DEX), Aircraft cabin pressure control system.
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Scheerer, Friedrich-Joachim; Willenbrink, Thomas, Cabin pressure control system, method of controlling the actual pressure inside a cabin and outflow valve.
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Aldrich Howard P. (Rancho Palos Verdes CA), Control alternating system.
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Horner, Darrell W.; Rabon, Joaquin P.; Bunn, Andrew D., Instrumentation and control circuit having multiple, dissimilar sources for supplying warnings, indications, and controls and an integrated cabin pressure control system valve incorporating the same.
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Rix John F. (Tucson AZ), Integrated cabin pressure controller.
-
Brudnicki ; Myron J., Pneumatic autoschedule cabin pressure controller.
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Burgess Glenn A. (Downey CA), Pressure differential system.
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Schebler Bernard J. (Davenport IA), Selector valve for an aircraft on board oxygen generation system with high pressure oxygen backup.
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White, Jeffrey J.; Toy, David K.; Groat, J. Everett, Systems and methods for controlling aircraft electrical power.
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