IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0172413
(2002-06-14)
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발명자
/ 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
12 인용 특허 :
6 |
초록
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An ornithopter has the capability of slow speed flight as a result of vertical movement of its wings. Two sets of wings are provided with vertical movement of each set of wings 180 degrees out of phase for counterbalancing vertical forces on the fuselage. The direction of the flight path is changed
An ornithopter has the capability of slow speed flight as a result of vertical movement of its wings. Two sets of wings are provided with vertical movement of each set of wings 180 degrees out of phase for counterbalancing vertical forces on the fuselage. The direction of the flight path is changed by deflecting the fuselage.
대표청구항
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1. An ornithopter for controlled flight by flapping wings comprising a forward fuselage with diametrically opposed movable wings, each of said wings having a spar, a root and a tip, said spar extending from said root to said tip, said spar pivotally attached to said forward fuselage, and an elongate
1. An ornithopter for controlled flight by flapping wings comprising a forward fuselage with diametrically opposed movable wings, each of said wings having a spar, a root and a tip, said spar extending from said root to said tip, said spar pivotally attached to said forward fuselage, and an elongated aft fuselage connected at one end to said forward fuselage between said wings, a power source mounted on said forward fuselage and connected to said movable wings, said power source including a power beam pivotably connected to said forward fuselage intermediate its ends, said ends of said power beam reciprocating as said power beam pivots, at least one end of said beam linked to said spar of each of said wings whereby reciprocation of said ends of said power beam results in flapping of said wings. 2. An ornithopter of claim 1 further comprising an elongated stationary shaft attached at one end to said forward fuselage, a wing mount slidably connected to the other end of said stationary shaft, said wing mount pivotably connected to said spar of each of said wing near each of said roots and said wing mount linked to said at least one end of said power beam. 3. An ornithopter of claim 1 further comprising a fly wheel connected to said forward fuselage, said fly wheel linked to said at least one end of said power beam whereby rotation of said fly wheel reciprocates said ends of said power beam. 4. An ornithopter of claim 1 further comprising a second set of diametrically opposed wings, said second set of wings each having a second spar, a second root and a second tip, said second spar of said second set of wings pivotably linked to the other end of said power beam near each said second root. 5. An ornithopter of claim 4 further comprising a second elongated stationary shaft attached at one end to said forward fuselage, said second elongated stationary shaft located between said elongated shaft and said aft fuselage, a second wing mount slidably connected to said second elongated shaft, said second wing mount pivotally connected to each said second spar near each of said second wing roots and linked to an end of said power beam whereby reciprocation of said power beam results in reciprocation of the sets of wings 180 degrees out of phase. 6. An ornithopter of claim 1 further comprising said elongated aft fuselage having a free end, a control system mounted on said forward fuselage and extending toward said free end of said aft fuselage, said control system connected to said aft fuselage near said free end, said aft fuselage constructed of flexible material whereby operation of said control system will cause flexing of said aft fuselage laterally to effect a change in flight heading. 7. An ornithopter of claim 6 further comprising said aft fuselage having a plurality of tubes extending from said forward fuselage to said free end, said control system having a pivot bar pivotally mounted on said forward fuselage, said pivot bar having a first end and a second end, control cables attached at one end to said first and second ends of said pivot bar, the other end of said control cables attached to said aft fuselage near said free end whereby movement of said control bar causes said aft fuselage to flex. 8. An ornithopter of claim 7 further comprising said plurality of tubes held in spatial relationship to each other throughout their length by a plurality of spaced brackets fixed to said tubes. 9. An ornithopter of claim 8 further comprising a plurality of apertures in said brackets, said tubes extending through said apertures. 10. An ornithopter of claim 9 further comprising said control cables telescoped into said plurality of tubes, the ends of said control cables attached to a bracket near said free end of said aft fuselage. 11. An ornithopter of claim 1 further comprising a batten attached to said spar near said root, and a wing panel, said wing panel having a leading edge attached to said spar, a foot attached to said batten and a tra iling edge extending from said foot to said tip, said wing panel having an angle of attack relative to said location of said batten about the circumference of said spar and a twist relative to the disposition of said wing panel and said spar. 12. An ornithopter of claim 11 further comprising said wing panel constructed of a flexible material, a down haul attached to said foot of said wing panel and said spar near said root, said down haul adapted to add tension to said flexible material thereby adjusting said twist relative to said spar. 13. An ornithopter for controlled flight by flapping wings comprising a forward fuselage with diametrically opposed movable wings, said wings each having a root and a tip, a power source mounted on said forward fuselage and connected to said movable wings, and an elongated aft fuselage connected at one end to said forward fuselage between said wings, said power source including a power beam pivotably connected to said forward fuselage intermediate its ends, said ends of said power beam reciprocating as said power beam pivots, at least one end of said beam linked to said root of each of said wings whereby reciprocation of said ends of said power beam results in flapping of said wings, each of said wings having a spar extending from said root to said tip, a batten attached to said spar near said root, and a wing panel, said wing panel having a leading edge attached to said spar, a foot attached to said batten and a trailing edge extending from said foot to said tip, said wing panel having an angle of attack relative to said location of said batten about the circumference of said spar and a twist relative to the disposition of said wing panel and said spar, said wing panel constructed of a flexible material, a down haul attached to said foot of said wing panel and said spar near said root, said down haul adapted to add tension to said flexible material thereby adjusting said twist relative to said spar, further comprising a vang attached to said spar near said root and to said boom, said boom vang adapted to change the angle between said boom and said spar thereby adjusting the twist of said wing panel. 14. An ornithopter for controlled flight by flapping wings comprising a fuselage having a longitudinal axis with a rigid portion and a flexible portion, diametrically opposed wings pivotally mounted on said rigid portion of said fuselage for reciprocation normal to said longitudinal axis, a flight control system connected to said rigid portion of said fuselage and said flexible portion of said fuselage having control elements extending along the longitudinal axis of said flexible portion of said fuselage whereby operation of said flight control system deflects said flexible fuselage portion laterally to change heading. 15. An ornithopter of claim 14 further comprising said flexible portion of said fuselage having a free end, an empennage attached to said free end, said empennage having control surfaces in the yaw axis and the pitch axis. 16. An ornithopter for controlled flight by flapping wings comprising a fuselage having a longitudinal axis, diametrically opposed wings pivotally mounted on said fuselage for reciprocation normal to said longitudinal axis, said wings having a wing surface with a leading edge movably connected to a spar and a trailing edge, an adjustable down haul connected to said leading edge and said spar whereby adjusting said down haul changes said wing surface angle of attack and twist. 17. An ornithopter of claim 16 further comprising an adjustable vang connected to said trailing edge and said spar whereby adjusting said vang changes said twist and angle of attack of said wing surface. 18. An ornithopter of claim 16 further comprising said fuselage having a rigid portion and a flexible portion, a flight control system connected to said rigid portion of said fuselage and said flexible portion of said fuselage, said flight control system having control elements extending alon g the longitudinal axis of said flexible portion of said fuselage whereby operation of said flight control system deflects said flexible fuselage portion from said longitudinal axis and causes a change of direction of controlled flight.
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