Aircraft engine anti-icing (EAI) barrier assembly, system and method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-007/047
B64D-015/02
B64D-033/02
출원번호
US-0972902
(2013-08-21)
등록번호
US-9528442
(2016-12-27)
발명자
/ 주소
Trinh, Haisan K.
Vogel, Stuart W.
Breister, Robert T.
Mauldin, Jack W.
출원인 / 주소
The Boeing Company
인용정보
피인용 횟수 :
0인용 특허 :
10
초록▼
An aircraft engine anti-icing barrier assembly having a slip joint subassembly, a barrier subassembly, and a vapor barrier subassembly. The slip joint subassembly has a forward end for fixed attachment at a forward bulkhead of an aircraft engine, and has an aft end having a sliding joint. The barrie
An aircraft engine anti-icing barrier assembly having a slip joint subassembly, a barrier subassembly, and a vapor barrier subassembly. The slip joint subassembly has a forward end for fixed attachment at a forward bulkhead of an aircraft engine, and has an aft end having a sliding joint. The barrier subassembly is attached to an aft side of an aft bulkhead and inserted through the aft bulkhead. The barrier subassembly has two mount pads with an upper mount pad and a lower mount pad configured for joined sealed attachment around the slip joint subassembly to form a barrier between an engine fan case compartment and an aft compartment in an engine inlet. The vapor barrier subassembly is attached to the aft side of the aft bulkhead and adjacent the barrier subassembly, has a boot element and a boot element retainer, and forms a vapor barrier to the slip joint subassembly.
대표청구항▼
1. An aircraft engine anti-icing (EAI) barrier assembly comprising: a slip joint subassembly having a forward end and an aft end, the forward end configured for fixed attachment at a forward bulkhead of an engine of an aircraft, and the aft end having a sliding joint;a barrier subassembly attached t
1. An aircraft engine anti-icing (EAI) barrier assembly comprising: a slip joint subassembly having a forward end and an aft end, the forward end configured for fixed attachment at a forward bulkhead of an engine of an aircraft, and the aft end having a sliding joint;a barrier subassembly attached to an aft side of an aft bulkhead and inserted through an aft bulkhead opening of the aft bulkhead, the barrier subassembly comprising two mount pads comprised of an upper mount pad coupled to a lower mount pad to form an assembled mount pad subassembly and configured for joined sealed attachment around the aft end of the slip joint subassembly to form a barrier between an engine fan case compartment and an aft compartment in an engine inlet of the engine; anda vapor barrier subassembly attached to the aft side of the aft bulkhead and adjacent the barrier subassembly, the vapor barrier subassembly comprising a boot element coupled to a boot element retainer, and being configured to form a vapor barrier to the slip joint subassembly. 2. The assembly of claim 1 wherein the vapor barrier subassembly acts as a burst duct detection indicator, and when the boot element is disengaged from the boot element retainer during a burst duct occurrence, the boot element disengagement indicates the burst duct occurrence. 3. The assembly of claim 1 wherein the assembly is configured to accommodate for thermal expansion of the slip joint subassembly via the sliding joint at elevated temperatures of greater than about 800 degrees Fahrenheit. 4. The assembly of claim 1 wherein the slip joint subassembly comprises an inner supply duct slidably engaged within an outer shroud duct, the inner supply duct and the outer shroud duct each having an aft end forming the sliding joint configured to accommodate for thermal expansion of the inner supply duct aft of the aft end of the outer shroud duct. 5. The assembly of claim 4 wherein the sliding joint comprises one or more support elements attached to an outer surface of the inner supply duct, the one or more support elements configured for sliding engagement with an inner surface of the outer shroud duct, and wherein the one or more support elements transmit load from the inner supply duct to the outer shroud duct. 6. The assembly of claim 4 wherein the inner supply duct and the outer shroud duct each have a forward end attached directly to a nozzle assembly attached through a forward bulkhead opening of the forward bulkhead. 7. The assembly of claim 6 wherein the inner supply duct and the outer shroud duct being attached at the forward bulkhead eliminates use at the forward bulkhead of leak prevention sealing elements made of materials unable to withstand elevated temperatures of greater than about 800 degrees Fahrenheit. 8. The assembly of claim 1 wherein the barrier subassembly further comprises one or more barrier seal elements coupled to the assembled mount pad subassembly,wherein the assembled mount pad subassembly is configured to transmit loads from the slip joint subassembly into the aft bulkhead. 9. An aircraft engine anti-icing (EAI) barrier system comprising: an aircraft engine anti-icing (EAI) barrier assembly comprising: a slip joint subassembly comprising an inner supply duct slidably engaged within an outer shroud duct, the inner supply duct and the outer shroud duct each having a forward end configured for fixed attachment at a forward bulkhead of an engine of an aircraft, and the inner supply duct and the outer shroud duct each having an aft end at an aft bulkhead of the engine, the aft ends forming a sliding joint via one or more support elements disposed between the aft ends;a barrier subassembly attached to an aft side of the aft bulkhead and inserted through the aft bulkhead, the barrier subassembly comprising two mount pads comprised of an upper mount pad coupled to a lower mount pad to form an assembled mount pad subassembly and configured for joined sealed attachment around the aft end of the outer shroud duct to form a barrier between an engine fan case compartment and an aft compartment in an engine inlet of the engine; anda vapor barrier subassembly attached to the aft side of the aft bulkhead and adjacent the barrier subassembly, the vapor barrier subassembly comprising a boot element coupled to a boot element retainer, and being configured to form a vapor barrier to the slip joint subassembly; anda forward insulating component wrapped around the outer shroud duct;an aft insulating component wrapped around the aft end of the inner supply duct; anda clamp element attached to the aft insulating component. 10. The system of claim 9 wherein the vapor barrier subassembly acts as a burst duct detection indicator, and when the boot element is disengaged from the boot element retainer during a burst duct occurrence, the boot element disengagement indicates the burst duct occurrence. 11. The system of claim 9 wherein the aircraft EAI barrier assembly is configured to accommodate for thermal expansion of the slip joint subassembly via the sliding joint at elevated temperatures of greater than about 800 degrees Fahrenheit. 12. The system of claim 9 wherein the forward end of each of the inner supply duct and the outer shroud duct are attached directly to a nozzle assembly attached through a forward bulkhead opening of the forward bulkhead, which results in eliminating use at the forward bulkhead of leak prevention sealing elements made of materials unable to withstand elevated temperatures of greater than about 800 degrees Fahrenheit. 13. The system of claim 9 wherein the barrier subassembly further comprises one or more barrier seal elements coupled to the assembled mount pad subassembly,wherein the assembled mount pad subassembly is configured to transmit loads from the outer shroud duct into the aft bulkhead. 14. A method of installing an aircraft engine anti-icing (EAI) barrier assembly in an engine of an aircraft, the method comprising: installing a slip joint subassembly between a forward bulkhead opening and an aft bulkhead opening in the engine of the aircraft, the slip joint subassembly comprising a forward end and an aft end, the aft end having a sliding joint;fixing the forward end of the slip joint subassembly to a nozzle assembly attached through the forward bulkhead opening;installing and attaching a barrier subassembly to an aft side of an aft bulkhead and through the aft bulkhead opening of the aft bulkhead to form an aft bulkhead interface on the aft side of the aft bulkhead;attaching two mount pads of the barrier subassembly in a joined sealed attachment around the aft end of the slip joint subassembly to form a barrier between an engine fan case compartment and an aft compartment in an engine inlet of the engine, the two mount pads comprised of an upper mount pad coupled to a lower mount pad to form an assembled mount pad subassembly, and the assembled mount pad subassembly configured to transmit loads from the slip joint subassembly into the aft bulkhead; andinstalling and attaching a vapor barrier subassembly to the aft side of the aft bulkhead and adjacent the barrier subassembly, the vapor barrier subassembly comprising a boot element coupled to a boot element retainer, and being configured to form a vapor barrier to the slip joint subassembly. 15. The method of claim 14 wherein the installing and attaching the vapor barrier subassembly to the aft side of the aft bulkhead and adjacent the barrier subassembly comprises using the vapor barrier subassembly as a burst duct detection indicator. 16. The method of claim 15 further comprising detecting a burst duct occurrence with the boot element of the vapor barrier subassembly, wherein when the boot element is disengaged from the boot element retainer during the burst duct occurrence, the boot element disengagement indicates the burst duct occurrence. 17. The method of claim 14 further comprising configuring the aircraft engine anti-icing (EAI) barrier assembly to accommodate for thermal expansion of the slip joint subassembly via the sliding joint at elevated temperatures of greater than about 800 degrees Fahrenheit. 18. The method of claim 14 wherein installing the slip joint subassembly comprises installing one or more support elements attached to an outer surface of an inner supply duct, the one or more support elements configured for sliding engagement with an inner surface of an outer shroud duct, and transmitting load from the inner supply duct to the outer shroud duct via the one or more support elements. 19. The method of claim 14 further comprising using the aircraft engine anti-icing (EAI) barrier assembly in an aircraft engine anti-icing (EAI) barrier system in the engine of the aircraft to provide anti-icing protection to the engine inlet of the engine. 20. The method of claim 14 further comprising wrapping a forward insulating component around an outer surface of the slip joint subassembly, coupling an aft insulating component to the aft end of the slip joint subassembly, and attaching a clamp element to the aft insulating component.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (10)
Schulze Wallace M. (West Chester OH), Aircraft engine inlet cowl anti-icing system.
Hill Francis V. (San Diego CA) Crosswhite Lola E. (San Diego CA), Method of making flame resistant polyimide foam insulation and the resulting insulation.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.