Five-wing aircraft to permit smooth transitions between vertical and horizontal flight
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64C-015/12
B64C-039/08
B64C-009/00
출원번호
US-0747101
(2015-06-23)
등록번호
US-9499266
(2016-11-22)
발명자
/ 주소
Garreau, Oliver
출원인 / 주소
Elytron Aircraft LLC
대리인 / 주소
Plager Schack LLP
인용정보
피인용 횟수 :
2인용 특허 :
1
초록▼
A five-wing aircraft transitions smoothly between vertical and horizontal flight modes, and enhances pitch neutrality of the aircraft when in flight at all speeds to improve flight efficiency. The aircraft includes a fuselage, a fixed wing assembly coupled to the fuselage and having a front fixed wi
A five-wing aircraft transitions smoothly between vertical and horizontal flight modes, and enhances pitch neutrality of the aircraft when in flight at all speeds to improve flight efficiency. The aircraft includes a fuselage, a fixed wing assembly coupled to the fuselage and having a front fixed wing and a rear fixed wing, the front fixed wing coupled to the front portion of the fuselage and the rear fixed wing coupled to the rear portion of the fuselage, the front fixed wing and rear fixed wing being connected together by winglets, a tilt-wing pivotably mounted to the central portion of the fuselage, and a pair of rotary wings coupled to the tilt-wing. The tilt-wing pivotably adjusts to permit the aircraft to transition smoothly between vertical and horizontal flight. The rotary wings generate thrust or lift depending on the orientation of the tilt-wing.
대표청구항▼
1. A five-wing aircraft configured to permit smooth transitions between vertical and horizontal flight, the aircraft further configured to enhance pitch neutrality of the aircraft when in flight at all speeds to improve flight efficiency, the five-wing aircraft comprising: a fuselage comprising a fr
1. A five-wing aircraft configured to permit smooth transitions between vertical and horizontal flight, the aircraft further configured to enhance pitch neutrality of the aircraft when in flight at all speeds to improve flight efficiency, the five-wing aircraft comprising: a fuselage comprising a front portion, central portion and rear portion;a fixed wing assembly coupled to the fuselage and comprising a front fixed wing positioned within a first horizontal plane and a rear fixed wing positioned within a second horizontal plane, the front fixed wing coupled to the front portion of the fuselage and the rear fixed wing coupled to the rear portion of the fuselage, the front fixed wing and rear fixed wing being connected together by winglets, the front fixed wing configured to generate a first pitch moment and the rear fixed wing configured to generate a second pitch moment, the first and second pitch moments comprising substantially the same amplitude with opposite signs, thereby causing the front and rear fixed wings to contribute together minimally to a total pitch moment of the aircraft;a tilt-wing pivotably mounted to the central portion of the fuselage proximate a center of gravity of the aircraft, the tilt-wing being positioned substantially equidistant from the first and second horizontal planes, the tilt-wing in the mounted position configured to contribute minimally to the total pitch moment of the aircraft; anda pair of rotary wings coupled to the tilt-wing, wherein the tilt-wing is configured to be pivotably adjusted to permit the aircraft to transition smoothly between vertical and horizontal flight, wherein the pair of rotary wings are configured to generate thrust or lift depending on the orientation of the tilt-wing;wherein locations of the front fixed wing, rear fixed wing and tilt-wing relative to the fuselage enhance pitch neutrality of the aircraft during flight regardless of altitude or speed. 2. The five-wing aircraft of claim 1, wherein the front fixed wing is swept backward towards the rear portion of the fuselage such that tips of the front fixed wing are coupled to bottom portions of the winglets, wherein the rear fixed wing is swept forward towards the front portion of the fuselage such that tips of the rear fixed wing are coupled to top portions of the winglets. 3. The five-wing aircraft of claim 2, wherein the front fixed wing comprises a degree of dihedral and the rear fixed wing comprises a degree of anhedral. 4. A method for flying a five-wing aircraft to enable the aircraft to transition smoothly between vertical flight and horizontal flight, the method comprising: providing the five-wing aircraft, the aircraft comprising: a fuselage comprising a front portion, central portion and rear portion;a fixed wing assembly coupled to the fuselage and comprising a front fixed wing positioned within a first horizontal plane and a rear fixed wing positioned within a second horizontal plane, the front fixed wing coupled to the front portion of the fuselage and the rear fixed wing coupled to the rear portion of the fuselage, the front fixed wing and rear fixed wing being connected together by winglets, the front fixed wing configured to generate a first pitch moment and the rear fixed wing configured to generate a second pitch moment, the first and second pitch moments comprising substantially the same amplitude with opposite signs, thereby causing the front and rear fixed wings to contribute together minimally to a total pitch moment of the aircraft;a tilt-wing pivotably mounted to the central portion of the fuselage proximate a center of gravity of the aircraft, the tilt-wing being positioned substantially equidistant from the first and second horizontal planes, the tilt-wing in the mounted position configured to contribute minimally to the total pitch moment of the aircraft; anda pair of rotary wings coupled to the tilt-wing, wherein the tilt-wing is configured to be pivotably adjusted to permit the aircraft to transition smoothly between vertical and horizontal flight, wherein the pair of rotary wings are configured to generate thrust or lift depending on the orientation of the tilt-wing;wherein locations of the front fixed wing, rear fixed wing and tilt-wing relative to the fuselage enhance pitch neutrality of the aircraft during flight regardless of altitude or speed; andoperating the five-wing aircraft by performing the following steps: adjusting a magnitude of thrust generated by the pair of rotary wings; andadjusting an angle of the tilt-wing relative to a horizontal plane to vector the generated thrust to permit the five-wing aircraft to transition smoothly back and forth between vertical and horizontal flight. 5. The method of claim 4, further comprising operating the five-wing aircraft in conventional take-off and landing mode by performing the following steps: adjusting the angle of the tilt-wing to be positioned generally in the horizontal plane;adjusting the magnitude of the thrust to a desired level to permit the conventional take-off or landing; andcontrolling an attitude of the five-wing aircraft by using control surfaces of the aircraft. 6. The method of claim 4, further comprising operating the five-wing aircraft in vertical take-off and landing mode by performing the following steps: adjusting the angle of the tilt-wing to be positioned generally in a vertical plane;adjusting the magnitude of the thrust to a desired level to permit the vertical take-off or landing; andcontrolling an attitude of the five-wing aircraft by using a thruster positioned on a tail of the fuselage to adjust pitch of the aircraft. 7. The method of claim 4, further comprising landing the five-wing aircraft without power to the rotary wings by performing the following steps: maintaining a sufficient airspeed of the aircraft to prevent a stall by pitching the fuselage down;maneuvering the aircraft towards a clear landing area;increasing the angle of the tilt-wing relative to the horizontal plane to enhance lift and air-braking power of the aircraft; andpitching the fuselage up to permit the aircraft to perform a flare prior to landing in the landing area. 8. A five-wing aircraft configured to permit smooth transitions between vertical and horizontal flight, the aircraft further configured to enhance pitch neutrality of the aircraft when in flight at all speeds to improve flight efficiency, the five-wing aircraft comprising: a fuselage comprising a front portion, central portion and rear portion;a fixed wing assembly coupled to the fuselage and comprising a front fixed wing positioned within a first horizontal plane and a rear fixed wing positioned within a second horizontal plane, the front fixed wing coupled to the front portion of the fuselage and the rear fixed wing coupled to the rear portion of the fuselage, the front fixed wing and rear fixed wing being connected together by winglets, wherein a left portion and a right portion of the front fixed wing are oriented less than or equal to 65 degrees relative to a longitudinal axis of the fuselage, wherein a left portion and a right portion of the rear fixed wing are oriented less than or equal to 80 degrees relative to the longitudinal axis of the fuselage, the front fixed wing configured to generate a first pitch moment and the rear fixed wing configured to generate a second pitch moment, the first and second pitch moments comprising substantially the same amplitude with opposite signs, thereby causing the front and rear fixed wings to contribute together minimally to a total pitch moment of the aircraft;a tilt-wing pivotably mounted to the central portion of the fuselage proximate a center of gravity of the aircraft, the tilt-wing being positioned substantially equidistant from the first and second horizontal planes, the tilt-wing in the mounted position configured to contribute minimally to the total pitch moment of the aircraft; anda pair of rotary wings coupled to the tilt-wing, wherein the tilt-wing is configured to be pivotably adjusted to permit the aircraft to transition smoothly between vertical and horizontal flight, wherein the pair of rotary wings are configured to generate thrust or lift depending on the orientation of the tilt-wing;wherein locations of the front fixed wing, rear fixed wing and tilt-wing relative to the fuselage enhance pitch neutrality of the aircraft during flight regardless of altitude or speed.
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이 특허에 인용된 특허 (1)
Adkins Gordon V. (Wimborne GBX) McDonald John R. (Wimborne GBX) Sivertsen Olav N. (Isswich GBX), Aircraft with paired aerofoils.
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