De-icing device comprising means for detection of a leakage in a hot air supply system
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64D-015/04
B64D-033/02
출원번호
US-0047988
(2011-03-15)
등록번호
US-8876054
(2014-11-04)
우선권정보
FR-10 51943 (2010-03-18)
발명자
/ 주소
Porte, Alain
Dewitte, Jerome
Cayrol, Emmanuel
출원인 / 주소
Airbus Operations SAS
대리인 / 주소
Young & Thompson
인용정보
피인용 횟수 :
1인용 특허 :
8
초록▼
A device for defrosting a leading edge of an aircraft, includes at least one opening (52) for ejecting hot air, a pipe (56) for directing the hot air from a power plant to the ejection opening (52), and elements (58) for measuring the pressure inside the pipe (56), characterized in that the pipe (56
A device for defrosting a leading edge of an aircraft, includes at least one opening (52) for ejecting hot air, a pipe (56) for directing the hot air from a power plant to the ejection opening (52), and elements (58) for measuring the pressure inside the pipe (56), characterized in that the pipe (56) includes at least one cross-section reduction called a chokepoint (62) upstream from the elements (58) for measuring pressure.
대표청구항▼
1. A device for defrosting a leading edge of an aircraft, comprising: at least one ejection opening (52) for ejecting hot air;a pipe (56) for directing the hot air from a power plant to said ejection opening (52);a pressure measuring device (58) inside said pipe (56);at least one cross-section reduc
1. A device for defrosting a leading edge of an aircraft, comprising: at least one ejection opening (52) for ejecting hot air;a pipe (56) for directing the hot air from a power plant to said ejection opening (52);a pressure measuring device (58) inside said pipe (56);at least one cross-section reduction of said pipe (56) called a chokepoint (62) upstream from the pressure measuring device (58), a normal pressure being high upstream from said chokepoint (62) and low downstream; anda leak detector comprising said chokepoint (62) and said pressure measuring device (58), which allows leak detection by an enhanced pressure variation relative to the low normal pressure downstream from said chokepoint, the enhanced pressure variation being detected by the pressure measuring device (58), a specific position of the chokepoint relative to the pressure measuring device being configured so that the pressure variation produced by a leak is significant and detectable by the pressure measuring device relative to the normal operating pressure,wherein the chokepoint (62) has a cross-section (S′) that is larger than a total cross-section (S) of the at least one ejection opening (52),the cross-section (S′) of the chokepoint (62) is equal to the ejection cross-section (S) that is increased by a cross-section that corresponds to a margin and to pressure drops that are present in the pipe (56) between said chokepoint (62) and the at least one opening (52), anda sonic impact appears at the chokepoint (62) so that the leak detector detects the enhanced pressure variation relative to the low normal pressure downstream from said chokepoint (62), and the sonic impact is dissipated by the time the sonic impact reaches the at least one ejection opening (52) such that there is no sonic impact at the least one ejection opening (52). 2. The defrosting device according to claim 1, wherein said chokepoint (62) has suitable shapes for limiting disruptions and pressure drops. 3. The defrosting device according to claim 2, wherein said chokepoint (62) has a convergent shape and then a divergent shape. 4. The defrosting device according to claim 1, wherein said chokepoint (62) is arranged between the pressure measuring device (58) and a regulator (60). 5. The defrosting device according to claim 4, wherein said chokepoint (62) is arranged at a distance (L) that is greater than or equal to 5×D relative to the regulator (60), whereby D is the diameter of the pipe (56). 6. The defrosting device according to claim 5, wherein said chokepoint (62) is arranged as close as possible to the pressure measuring device (58). 7. The defrosting device according to claim 4, wherein said chokepoint (62) is arranged as close as possible to pressure measuring device (58). 8. The defrosting device according to claim 4, wherein said chokepoint (62) has suitable shapes for limiting disruptions and pressure drops. 9. An aircraft nacelle that comprises the defrosting device according to claim 1. 10. The defrosting device according to claim 1, wherein said chokepoint (62) is arranged between the pressure measuring device (58) and the regulator (60). 11. The defrosting device according to claim 1, wherein a sonic impact appears at the at least one chokepoint. 12. A device for defrosting a leading edge of an aircraft and detecting leaks, comprising: at least one opening adapted for ejecting hot air;a pipe adapted for directing the hot air from a power plant to said ejection opening;a pressure measuring device inside said pipe;at least one chokepoint upstream from the pressure measuring device, a normal pressure being high upstream from said chokepoint and low downstream, the at least one chokepoint being configured so that a sonic impact appears at the at least one chokepoint; anda leak detector comprising said chokepoint and said pressure measuring device, which allows leak detection by an enhanced pressure variation relative to the low normal pressure downstream from said chokepoint, the enhanced pressure variation being detected by the pressure measuring device, a specific position of the chokepoint relative to the pressure measuring device being configured so that the pressure variation produced by a leak is significant and detectable by the pressure measuring device relative to the normal operating pressure,wherein a sonic impact appears at the chokepoint so that the leak detector detects the enhanced pressure variation relative to the low normal pressure downstream from said chokepoint, and the sonic impact is dissipated by the time the sonic impact reaches the at least one ejection opening such that there is no sonic impact at the least one ejection opening. 13. The defrosting device according to claim 12, wherein the chokepoint has a cross-section S′ that is larger than a total cross-section S of the at least one ejection opening. 14. The defrosting device according to claim 13, wherein the cross-section S′ of the chokepoint is equal to the total ejection cross-section S that is increased by a cross-section that corresponds to a margin and to pressure drops that are present in the pipe between said chokepoint and the at least one ejection opening. 15. The defrosting device according to claim 12, wherein said chokepoint has suitable shapes for limiting disruptions and pressure drops. 16. The defrosting device according to claim 15, wherein said chokepoint has a convergent shape and then a divergent shape. 17. The defrosting device according to claim 12, wherein said chokepoint is arranged between the pressure measuring device and a regulator. 18. The defrosting device according to claim 17, wherein said chokepoint is arranged at a distance L that is greater than or equal to 5×D relative to the regulator, whereby D is a diameter of the pipe. 19. A device for defrosting a leading edge of an aircraft, comprising: at least one ejection opening for ejecting hot air;a pipe for directing the hot air from a power plant to said ejection opening;a pressure measuring device inside said pipe;at least one cross-section reduction of said pipe called a chokepoint upstream from the pressure measuring device, a normal pressure being high upstream from said chokepoint and low downstream, a cross-section of the chokepoint being equal to an ejection cross-section of the at least one ejection opening that is increased by a cross-section that corresponds to a margin and to pressure drops that are present in the pipe between said chokepoint and the at least one election opening; anda leak detector comprising said chokepoint and said pressure measuring device, which allows leak detection by an enhanced pressure variation relative to the low normal pressure downstream from said chokepoint, the enhanced pressure variation being detected by the pressure measuring device, a specific position of the chokepoint relative to the pressure measuring device being configured so that the pressure variation produced by a leak is significant and detectable by the pressure measuring device relative to the normal operating pressure,a sonic impact appears at the chokepoint so that the leak detector detects the enhanced pressure variation relative to the low normal pressure downstream from said chokepoint, and the sonic impact is dissipated by the time the sonic impact reaches the at least one ejection opening such that there is no sonic impact at the least one ejection opening. 20. The defrosting device according to claim 19, wherein there are a plurality of ejection openings, and the plurality of ejection openings have a total cross section S that corresponds to a sum of cross sections of the ejection openings. 21. The defrosting device according to claim 20, wherein the chokepoint has a cross-section S′ that is larger than S, and the cross-section S′ is equal to the ejection cross-section S that is increased by a cross-section that corresponds to a margin and to pressure drops that are present in the pipe between said chokepoint and the plurality of ejection openings.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (8)
Alain Porte FR; Stephane Viala FR; Olivier Barbara FR, Air inlet cowl for a jet engine equipped with de-icing means.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.