System, apparatus, and method for a virtual blocker
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02K-001/32
F02K-001/72
F02K-001/64
F02K-001/28
출원번호
US-0888193
(2013-05-06)
등록번호
US-9657686
(2017-05-23)
발명자
/ 주소
Aten, Michael
출원인 / 주소
Rohr, Inc.
대리인 / 주소
Snell & Wilmer L.L.P.
인용정보
피인용 횟수 :
0인용 특허 :
4
초록▼
A virtual blocker door for use in an aircraft thrust reverser is provided. The virtual blocker door may be capable of creating a wall of air to inhibit fan air flow through a fan air duct. The wall of air may direct the fan air flow through a cascade to provide a reverse thrust. Moreover, the virtua
A virtual blocker door for use in an aircraft thrust reverser is provided. The virtual blocker door may be capable of creating a wall of air to inhibit fan air flow through a fan air duct. The wall of air may direct the fan air flow through a cascade to provide a reverse thrust. Moreover, the virtual blocker door provides for improved aerodynamic efficiency in the fan air duct by replacing traditional brackets, drag links, and doors with a wall of air.
대표청구항▼
1. A method of creating reverse thrust in an aircraft having a gas turbine, the gas turbine comprising a nacelle with a thrust reverser system, the thrust reverser system comprising a plurality of ducts, each duct defining a channel having an inlet and an outlet, each duct comprising a flow directin
1. A method of creating reverse thrust in an aircraft having a gas turbine, the gas turbine comprising a nacelle with a thrust reverser system, the thrust reverser system comprising a plurality of ducts, each duct defining a channel having an inlet and an outlet, each duct comprising a flow directing device, located at the outlet and having an opening positioned at an inner wall of a fan air duct, and a valve operatively coupling the inlet to a high pressure output of a gas turbine, the valve being configured to conduct a high pressure air flow from the high pressure output to the inlet in response to a predetermined condition, the nacelle further comprising a cascade array located radially outward from the fan air duct, wherein the plurality of ducts are circumferentially disposed along the fan air duct within a common axial plane, wherein each outlet of the plurality of ducts are coupled to the fan air duct, wherein each flow directing device is circumferentially discrete, and wherein each flow directing device is configured to distribute the high pressure air flow across a respective portion of a width of the cascade array, the method comprising: directing the high pressure airflows through the flow directing devices in response to a predetermined condition, wherein the flow directing devices are configured to conduct the high pressure airflows into the fan air duct to form a wall of air; andinhibiting the flow of bypass air in the fan air duct using the wall of air to direct the flow of bypass air radially outward, with respect to a centerline of the gas turbine, through the cascade array to create reverse thrust. 2. The method of claim 1, wherein the predetermined condition is an aircraft landing event. 3. A thrust reverser system, comprising: a plurality of ducts, wherein each duct defines a flow channel and comprises a first end and a second end and a valve operatively coupled to the first end; anda fan air duct configured to conduct a flow of bypass air in fluid communication with the second end;wherein each duct comprises a flow directing device located at the second end and having an opening positioned at an inner wall of the fan air duct, each duct configured to conduct a flow of pressurized air from a high pressure stage of a gas turbine and introduce the flow of pressurized air into the fan air duct, wherein a pressure of the flow of pressurized air is greater than a pressure of the flow of bypass air, the flow of pressurized air being configured to inhibit the flow of bypass air in the fan air duct;wherein the plurality of ducts are circumferentially disposed along the fan air duct within a common axial plane, each flow directing device being circumferentially discrete; andwherein each flow directing device is configured to distribute the flow of pressurized air across a respective portion of a width of a cascade array located radially outward from the fan air duct. 4. The thrust reverser system of claim 3, wherein the valves are configured to initiate the flows of pressurized air through the flow channels. 5. The thrust reverser system of claim 3, wherein each flow directing device has a tapered profile. 6. The thrust reverser of claim 3, wherein each flow of pressurized air is directed radially outward from a centerline of the gas turbine and a portion of the flow of bypass air is directed radially outward from the centerline of the gas turbine. 7. An aircraft nacelle having a thrust reverser system, comprising: a plurality of ducts, each duct defining a channel having an inlet and an outlet, each duct comprising a flow directing device, located at the outlet and having an opening positioned at an inner wall of a fan air duct, and a valve operatively coupling the inlet to a high pressure output of a gas turbine, the valve being configured to conduct a high pressure air flow from the high pressure output to the inlet in response to a predetermined condition;a cascade array located radially outward from the fan air duct;wherein the plurality of ducts are circumferentially disposed along the fan air duct within a common axial plane, each outlet of the plurality of ducts are coupled to the fan air duct, and each flow directing device is circumferentially discrete;wherein each flow directing device is configured to distribute the high pressure air flow across a respective portion of a width of the cascade array; andwherein each flow directing device is configured to direct the high pressure air flow into the fan air duct to fluidically divert a flow of bypass air through the cascade array to create a reversal of thrust. 8. The thrust reverser system of claim 5, wherein each flow directing device comprises a baffle having a plurality of tubes through which the flow of pressurized air is distributed, the plurality of tubes being connected to a single tube through which the flow of pressurized air is supplied. 9. The thrust reverser system of claim 5, wherein each flow directing device is substantially coaxial to an aft portion of the cascade array. 10. The aircraft nacelle of claim 7, wherein each flow directing device further comprises a body portion, the body portion having a generally tapered profile. 11. The aircraft nacelle of claim 7, wherein the high pressure air flows create a wall of air in the fan air duct, the wall of air having a first pressure. 12. The aircraft nacelle of claim 11, wherein the flow of bypass air has a second pressure, the first pressure being greater than the second pressure. 13. The aircraft nacelle of claim 12, wherein the wall of air is directed towards an aft portion of the cascade array. 14. The aircraft nacelle of claim 13, wherein the wall of air is at least partially bounded by a forward portion of a translating sleeve when the translating sleeve is deployed, the forward portion of the translating sleeve being located aft of the cascade array.
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이 특허에 인용된 특허 (4)
Lee, Douglas; Anderson, J. Thomas; Hershberger, Brian K., Apparatus and method for controlling primary fluid flow using secondary fluid flow injection.
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