Aircraft with an air intake for an air breathing propulsion engine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64D-033/02
F02C-007/055
F02C-007/052
B64C-027/04
출원번호
US-0849093
(2015-09-09)
등록번호
US-9731831
(2017-08-15)
우선권정보
EP-14400046 (2014-09-12)
발명자
/ 주소
Mores, Sebastian
Loeser, Frank
Probst, Stefan
Matt, Michael
출원인 / 주소
AIRBUS HELICOPTERS DEUTSCHLAND GMBH
대리인 / 주소
Brooks Kushman P.C.
인용정보
피인용 횟수 :
1인용 특허 :
17
초록▼
An aircraft with a fuselage that accommodates at least one air breathing propulsion engine, the fuselage having a maximum fuselage width determined in the region of the at least one air breathing propulsion engine and comprising at least one front fuselage cowling and at least one rear fuselage cowl
An aircraft with a fuselage that accommodates at least one air breathing propulsion engine, the fuselage having a maximum fuselage width determined in the region of the at least one air breathing propulsion engine and comprising at least one front fuselage cowling and at least one rear fuselage cowling that are each covering the at least one air breathing propulsion engine at least partly, the at least one front and rear fuselage cowlings being spaced apart from each other in a direction transverse to a longitudinal axis of the at least one air breathing propulsion engine by a predetermined cowling offset to define a dynamic air intake through which an intake air stream is supplied to the at least one air breathing propulsion engine in operation.
대표청구항▼
1. An aircraft with a fuselage that accommodates at least one air breathing propulsion engine, the fuselage having a maximum fuselage width (AW) determined in the region of the at least one air breathing propulsion engine and comprising at least one front fuselage cowling and at least one rear fusel
1. An aircraft with a fuselage that accommodates at least one air breathing propulsion engine, the fuselage having a maximum fuselage width (AW) determined in the region of the at least one air breathing propulsion engine and comprising at least one front fuselage cowling and at least one rear fuselage cowling that are each covering the at least one air breathing propulsion engine at least partly, the at least one front and rear fuselage cowlings being spaced apart from each other in a direction transverse to a longitudinal axis of the at least one air breathing propulsion engine by a predetermined cowling offset (W) to define a dynamic air intake through which an intake air stream is supplied to the at least one air breathing propulsion engine in operation,the dynamic air intake defining an at least partly funnel-shaped air duct towards an engine integrated air inlet and being provided with at least one air-permeable engine protection member that is adapted to clean the intake air stream upstream of the engine integrated air inlet in an associated protection mode,the at least one air-permeable engine protection member being arranged transverse to the at least one front fuselage cowling with a predetermined protection inclination angle (α),wherein the dynamic air intake comprises an outer intake cover that extends from the at least one rear fuselage cowling in a direction opposed to the engine integrated air inlet, the outer intake cover defining an outer scoop of the at least partly funnel-shaped air duct, andwherein the outer intake cover defines a cover front edge and that the at least one air-permeable engine protection member defines a protection leading edge and a protection trailing edge, the protection leading edge being arranged, in the associated protection mode, upstream of the cover front edge at the at least one front fuselage cowling and the protection trailing edge being arranged, in the associated protection mode, downstream of the cover front edge at the at least one rear fuselage cowling. 2. The aircraft according to claim 1, wherein the predetermined cowling offset (W) is selected from a range between +0.025 times and +0.5 times of the maximum fuselage width (AW). 3. The aircraft according to claim 1, wherein the predetermined protection inclination angle (α) is selected from a range between +1° and +100°. 4. The aircraft according to claim 1, wherein the outer intake cover protrudes from the at least one rear fuselage cowling in a direction transverse to the longitudinal axis of the at least one air breathing propulsion engine by a predetermined transverse cover offset (O2), the predetermined transverse cover offset (O2) being selected from a range between −0.19 times and +1.01 times of the maximum fuselage width (AW). 5. The aircraft according to claim 1, wherein the cover front edge of the outer intake cover is spaced apart from the protection trailing edge of the at least one air-permeable engine protection member in a direction parallel to the longitudinal axis of the at least one air breathing propulsion engine by a predetermined longitudinal cover offset (O1), the predetermined longitudinal cover offset (O1) being selected from a range between 0 times and +1.23 times of the maximum fuselage width (AW). 6. The aircraft according to claim 5, wherein the predetermined longitudinal cover offset (O1) comprises +0.23 times of the maximum fuselage width (AW). 7. The aircraft according to claim 1, wherein the at least partly funnel-shaped air duct comprises at least one inner intake scoop with a linear, curved, kinked and/or discontinuous shape. 8. The aircraft according to claim 7, wherein the at least one inner intake scoop comprises at least one of an inner top scoop that is inclined with respect to a protection top edge of the at least one air-permeable engine protection member with a predetermined top inclination angle (φ), an inner bottom scoop that is inclined with respect to a protection bottom edge of the at least one air-permeable engine protection member with a predetermined bottom inclination angle (Ψ), and an inner aft scoop that is inclined with respect to a protection bottom edge of the at least one air-permeable engine protection member with a predetermined aft inclination angle (δ), wherein the predetermined top inclination angle (φ) is selected from a range between 0° and +180°, the predetermined bottom inclination angle (Ψ) is selected from a range between 0° and +180°, and the predetermined aft inclination angle (δ) is selected from a range between +5° and +150°. 9. The aircraft according to claim 1, wherein the at least one air-permeable engine protection member comprises a top edge and a bottom edge, the top edge being inclined relative to a horizontal plane of the aircraft by a predetermined top edge inclination angel (β) that is selected from a range between +15° and +155°, and the bottom edge being inclined relative to the horizontal plane of the aircraft by a predetermined bottom edge inclination angel (γ) that is selected from a range between −140° and +55°. 10. The aircraft according to claim 1, wherein an inner duct surface of the at least partly funnel-shaped air duct is inclined with respect to the at least one front fuselage cowling with a predetermined inner duct inclination angle (μ), the predetermined inner duct inclination angle (μ) being selected from a range between 0° and +35°. 11. The aircraft according to claim 1, wherein an outer duct surface of the at least partly funnel-shaped air duct is inclined with respect to the at least one rear fuselage cowling with a predetermined outer duct inclination angle (ρ), the predetermined outer duct inclination angle (ρ) being selected from a range between −5° and +35°. 12. The aircraft according to claim 1, wherein at least one protection actuator is provided for moving the at least one air-permeable engine protection member between a closed position associated with the associated protection mode and an opened position associated with a bypass mode in which the intake air stream streams at least partly uncleansed into the engine integrated air inlet. 13. The aircraft according to claim 1, wherein the dynamic air intake comprises a secondary intake provided on the at least one front fuselage cowling, the secondary intake being at least adapted to ingest water and/or a boundary layer streaming on the at least one front fuselage cowling towards the dynamic air intake and/or to ingest uncleansed air. 14. The aircraft according to claim 13, wherein the secondary intake is provided between the at least one front fuselage cowling and a boundary layer separator (20a), the boundary layer separator being spaced apart from the at least one front fuselage cowling by a predetermined separator offset (O3) that is selected from a range between +0.004 times and +0.015 times of the maximum fuselage width (AW). 15. The aircraft according to claim 1, wherein the predetermined cowling offset (W) comprises +0.2 times of the maximum fuselage width (AW). 16. The aircraft according to claim 1, wherein the predetermined transverse cover offset (O2) comprises +0.01 times of the maximum fuselage width (AW). 17. An aircraft with a fuselage that accommodates at least one air breathing propulsion engine, the fuselage having a maximum fuselage width (AW) determined in the region of the at least one air breathing propulsion engine and comprising at least one front fuselage cowling and at least one rear fuselage cowling that are each covering the at least one air breathing propulsion engine at least partly, the at least one front and rear fuselage cowlings being spaced apart from each other in a direction transverse to a longitudinal axis of the at least one air breathing propulsion engine by a predetermined cowling offset (W) to define a dynamic air intake through which an intake air stream is supplied to the at least one air breathing propulsion engine in operation,the dynamic air intake defining an at least partly funnel-shaped air duct towards an engine integrated air inlet and being provided with at least one air-permeable engine protection member that is adapted to clean the intake air stream upstream of the engine integrated air inlet in an associated protection mode,the at least one air-permeable engine protection member being arranged transverse to the at least one front fuselage cowling with a predetermined protection inclination angle (α),wherein the at least partly funnel-shaped air duct comprises at least one inner intake scoop with a linear, curved, kinked and/or discontinuous shape, andwherein the at least one inner intake scoop comprises at least one of an inner top scoop that is inclined with respect to a protection top edge of the at least one air-permeable engine protection member with a predetermined top inclination angle (φ), an inner bottom scoop that is inclined with respect to a protection bottom edge of the at least one air-permeable engine protection member with a predetermined bottom inclination angle (Ψ), and an inner aft scoop that is inclined with respect to a protection bottom edge of the at least one air-permeable engine protection member with a predetermined aft inclination angle (δ), wherein the predetermined top inclination angle (φ) is selected from a range between 0° and +180°, the predetermined bottom inclination angle (Ψ) is selected from a range between 0° and +180°, and the predetermined aft inclination angle (δ) is selected from a range between +5° and +150°. 18. An aircraft with a fuselage that accommodates at least one air breathing propulsion engine, the fuselage having a maximum fuselage width (AW) determined in the region of the at least one air breathing propulsion engine and comprising at least one front fuselage cowling and at least one rear fuselage cowling that are each covering the at least one air breathing propulsion engine at least partly, the at least one front and rear fuselage cowlings being spaced apart from each other in a direction transverse to a longitudinal axis of the at least one air breathing propulsion engine by a predetermined cowling offset (W) to define a dynamic air intake through which an intake air stream is supplied to the at least one air breathing propulsion engine in operation,the dynamic air intake defining an at least partly funnel-shaped air duct towards an engine integrated air inlet and being provided with at least one air-permeable engine protection member that is adapted to clean the intake air stream upstream of the engine integrated air inlet in an associated protection mode,the at least one air-permeable engine protection member being arranged transverse to the at least one front fuselage cowling with a predetermined protection inclination angle (α), andwherein the dynamic air intake comprises an outer intake cover that defines a cover front edge and that the at least one air-permeable engine protection member defines a protection leading edge and a protection trailing edge, the protection leading edge being arranged, in the associated protection mode, upstream of the cover front edge at the at least one front fuselage cowling and the protection trailing edge being arranged, in the associated protection mode, downstream of the cover front edge at the at least one rear fuselage cowling.
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이 특허에 인용된 특허 (17)
Gilbertson Frederick L. (Rexdale CAX), Air intake system for engine.
Wainfan Barnaby Sam ; Liu Yu Ping ; Rihn Daniel R. ; Leggett Douglas William ; Georges Martin James ; Philhower Jeffry Scott ; Shultz Douglas Ellwood ; Boccados Charles, Aircraft engine air intake system.
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