System, apparatus and method for long endurance vertical takeoff and landing vehicle
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64C-013/16
B64C-027/52
B64C-029/04
B64C-029/02
B64C-039/02
B64C-029/00
B64C-003/42
B64C-005/02
B64C-009/00
B64C-025/10
B64D-027/02
B64D-043/00
출원번호
US-0507313
(2014-10-06)
등록번호
US-9682774
(2017-06-20)
발명자
/ 주소
Paduano, James Donald
Dahlstrand, Paul Nils
Wissler, John Brooke
Woodworth, Adam
출원인 / 주소
Aurora Flight Sciences Corporation
대리인 / 주소
Tomsa, Michael Stanley
인용정보
피인용 횟수 :
4인용 특허 :
24
초록▼
A vertical take-off and landing (VTOL) aircraft according to an aspect of the present invention comprises a fuselage, an empennage having an all-moving horizontal stabilizer located at a tail end of the fuselage, a wing having the fuselage positioned approximately halfway between the distal ends of
A vertical take-off and landing (VTOL) aircraft according to an aspect of the present invention comprises a fuselage, an empennage having an all-moving horizontal stabilizer located at a tail end of the fuselage, a wing having the fuselage positioned approximately halfway between the distal ends of the wing, wherein the wing is configured to transform between a substantially straight wing configuration and a canted wing configuration using a canted hinge located on each side of the fuselage. The VTOL aircraft may further includes one or more retractable pogo supports, wherein a retractable pogo support is configured to deploy from each of the wing's distal ends.
대표청구항▼
1. A vertical take-off and landing (VTOL) aircraft, comprising: a fuselage having a nose end and a tail end;an empennage located at the tail end of the fuselage;a canted wing having first and second wing tips, wherein the fuselage is positioned approximately halfway between the first and second wing
1. A vertical take-off and landing (VTOL) aircraft, comprising: a fuselage having a nose end and a tail end;an empennage located at the tail end of the fuselage;a canted wing having first and second wing tips, wherein the fuselage is positioned approximately halfway between the first and second wing tips of the canted wing, the canted wing having (1) a first integrated hinge disposed between the fuselage and the first wing tip of the canted wing, and (2) a second integrated hinge disposed between the fuselage and the second wing tip,wherein the first and second integrated hinges are configured to reject wind gust by maintaining a constant moment at the first integrated hinge or the second integrated hinge,wherein the canted wing includes a trailing edge control surface positioned on the canted wing between each of: (1) the fuselage and the first integrated hinge; (2) the fuselage and the second integrated hinge; (3) the first integrated hinge and the first wing tip; and (4) the second integrated hinge and the second wing tip; anda plurality of engines, said plurality of engines comprising (1) a first tiltrotor positioned between the fuselage and the first wing tip of the canted wing, (2) a second tiltrotor positioned between the fuselage and the second wing tip of the canted wing, and (3) a fixed engine positioned on the fuselage aft of the canted wing in a vertical configuration, the first tiltrotor, the second tiltrotor, and the plurality of engines configured such that:during a first phase of takeoff, (i) said fixed engine generates thrust, thereby causing the tail end of the fuselage to become airborne, and (ii) said first tiltrotor and said second tiltrotor transition from a vertical configuration to a horizontal configuration until the fuselage achieves a predetermined angle, andduring a second phase of takeoff, said first tiltrotor and said second tiltrotor are in the horizontal configuration and the aircraft is capable of wing borne flight. 2. The VTOL aircraft of claim 1, wherein the fixed engine is disabled during wing borne flight. 3. The VTOL aircraft of claim 1, wherein the empennage employs a stabilizer configuration. 4. The VTOL aircraft of claim 3, wherein the stabilizer configuration comprises a vertical stabilizer and an all-moving horizontal stabilizer. 5. The VTOL aircraft of claim 1, wherein the canted wing has an aspect ratio of at least 10. 6. The VTOL aircraft of claim 1, further comprising an intelligence, surveillance, and reconnaissance payload. 7. The VTOL aircraft of claim 1, wherein the canted wing is configured to provide substantially constant lift to the VTOL aircraft by reducing an angle of attack of the outboard wing panel starting at the hinge of the canted wing, thereby rejecting wind gusts. 8. The VTOL aircraft of claim 1, wherein said first tiltrotor and said second tiltrotor are counter-rotating. 9. The VTOL aircraft of claim 1, wherein the VTOL aircraft is an unmanned VTOL aircraft. 10. The VTOL aircraft of claim 1, further comprising a vehicle computer coupled with a sensor to measure wind gusts, wherein the vehicle computer is configured to control a bend angle of said first and/or second integrated hinges based at least in part on measurements from said sensor. 11. A vertical take-off and landing (VTOL) aircraft, comprising: a fuselage having a nose end, and a tail end;an empennage located at the tail end of the fuselage;a canted wing having a first wing tip and a second wing tip, the fuselage positioned halfway between the first and second wing tips, the canted wing comprising: first and second wing panels coupled by a first hinge, the first wing panel attached to the fuselage and the second wing panel comprising the first wing tip; andthird and fourth wing panels coupled by a second hinge, the third wing panel attached to the fuselage opposite the first wing panel and the fourth wing panel comprising the second wing tip, the first hinge and the second hinge to enable the canted wing to reject wind gusts by maintaining constant moments at the locations of the integrated hinges, wherein each of the first, second, third, and fourth wing panels includes a control surface at its trailing edge;a first tiltrotor positioned left of the fuselage on the canted wing;a second tiltrotor positioned right of the fuselage on the canted wing; anda fixed engine positioned on the fuselage aft of the canted wing in a vertical configuration, the first tiltrotor, the second tiltrotor, and the fixed engine configured such that: during a first phase of takeoff, (i) the fixed engine generates thrust, thereby causing the tail end of the fuselage to become airborne, and (ii) the first tiltrotor and the second tiltrotor transition from a vertical orientation to a horizontal orientation until the fuselage achieves a transition angle; andduring a second phase of takeoff, the first tiltrotor and the second tiltrotor are in the horizontal configuration to provide thrust to the aircraft for wing borne flight. 12. The VTOL aircraft of claim 11, further comprising a vehicle computer to control bend angles of the first and second hinges to control wind gust rejection by the canted wing. 13. The VTOL aircraft of claim 12, further comprising a sensor to measure a wind gust, the vehicle computer to control the bend angles using the measurement of the wind gust. 14. The VTOL aircraft of claim 12, wherein the vehicle computer controls the canted wing to provide substantially constant lift to the VTOL aircraft by controlling the canted wing to reject wind gusts by reducing an angle of attack of at least one of (1) the second wing panel starting at the first hinge or (2)the fourth wing panel starting at the second hinge. 15. The VTOL aircraft of claim 11, wherein the first tiltrotor and the second tiltrotor are counter-rotating. 16. The VTOL aircraft of claim 11, wherein the fixed engine is disabled during wing borne flight. 17. A vertical take-off and landing (VTOL) aircraft, comprising: a fuselage having a nose end, and a tail end;an empennage located at the tail end of the fuselage;a canted wing having a first wing tip and a second wing tip, the fuselage positioned halfway between the first and second wing tips, the canted wing comprising: first and second wing panels coupled by a first hinge, the first wing panel attached to the fuselage and the second wing panel comprising the first wing tip; andthird and fourth wing panels coupled by a second hinge, the third wing panel attached to the fuselage opposite the first wing panel and the fourth wing panel comprising the second wing tip, wherein each of the first wing panel and the third wing panel includes a control surface at its trailing edge;a vehicle computer coupled with a sensor to measure wind gusts, wherein the vehicle computer is configured to control a bend angle of said first hinge and/or second hinge based at least in part on measurements from said sensor;a first tiltrotor positioned left of the fuselage on the canted wing; anda second tiltrotor positioned right of the fuselage on the canted wing, the first tiltrotor and the second tiltrotor configured such that: during a first phase of takeoff, the first tiltrotor and the second tiltrotor transition from a vertical orientation to a horizontal orientation until the fuselage achieves a transition angle; andduring a second phase of takeoff, the first tiltrotor and the second tiltrotor are in the horizontal configuration to provide thrust to the aircraft for wing borne flight. 18. The VTOL aircraft of claim 17, wherein the vehicle computer controls the canted wing to provide substantially constant lift to the VTOL aircraft by controlling the canted wing to reject wind gusts by reducing an angle of attack of at least one of (1) the second wing panel starting at the first hinge or (2) the fourth wing panel starting at the second hinge. 19. The VTOL aircraft of claim 17, wherein said first tiltrotor and said second tiltrotor are counter-rotating. 20. The VTOL aircraft of claim 17, wherein the VTOL aircraft is an unmanned VTOL aircraft. 21. The VTOL aircraft of claim 17, wherein each of the second wing panel and the fourth wing panel includes a control surface at its trailing edge.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (24)
Rutan Elbert L. ; Chevallier Christophe, Active feedback loop to control body pitch in STOL/VTOL free wing aircraft.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.