Air vehicle flight mechanism and control method for non-sinusoidal wing flapping
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64C-033/02
B64C-039/00
B64C-039/02
출원번호
US-0969258
(2013-08-16)
등록번호
US-9669925
(2017-06-06)
발명자
/ 주소
Keennon, Matthew Todd
Andryukov, Alexander
Klingebiel, Karl Robert
Won, Henry Thome
출원인 / 주소
AEROVIRONMENT, INC.
대리인 / 주소
Brooks Acordia IP Law, P.C.
인용정보
피인용 횟수 :
2인용 특허 :
13
초록▼
A flapping wing driving apparatus includes at least one crank gear capstan rotatably coupled to a crank gear, the at least one crank gear capstan disposed radially offset from a center of rotation of the crank gear; a first wing capstan coupled to a first wing, the first wing capstan having a first
A flapping wing driving apparatus includes at least one crank gear capstan rotatably coupled to a crank gear, the at least one crank gear capstan disposed radially offset from a center of rotation of the crank gear; a first wing capstan coupled to a first wing, the first wing capstan having a first variable-radius drive pulley portion; and a first drive linking member configured to drive the first wing capstan, the first drive linking member windably coupled between the first variable-radius drive pulley portion and one of the at least one crank gear capstan; wherein the first wing capstan is configured to non-constantly, angularly rotate responsive to a constant angular rotation of the crank gear.
대표청구항▼
1. A flapping wing driving apparatus, comprising: at least one crank gear capstan rotatably coupled to a crank gear, the at least one crank gear capstan disposed radially offset from a center of rotation of the crank gear;a first wing capstan coupled to a first wing, the first wing capstan having a
1. A flapping wing driving apparatus, comprising: at least one crank gear capstan rotatably coupled to a crank gear, the at least one crank gear capstan disposed radially offset from a center of rotation of the crank gear;a first wing capstan coupled to a first wing, the first wing capstan having a first variable-radius drive pulley portion; anda first drive linking member configured to drive the first wing capstan, the first drive linking member windably coupled between the first variable-radius drive pulley portion and one of the at least one crank gear capstan;wherein the first wing capstan is configured to non-constantly, angularly rotate responsive to a constant angular rotation of the crank gear. 2. The apparatus of claim 1, further comprising: a second wing capstan coupled to a second wing, the second wing capstan having a second variable-radius drive pulley portion;a second drive linking member windably coupled between the second variable-radius drive pulley portion and one of the at least one crank gear capstan;a first synchronization pulley and a second synchronization pulley disposed on the first wing capstan and the second wing capstans, respectively; anda first crossing synchronization linking member and a second crossing synchronization linking member each windably coupled between the first synchronization pulley and the second synchronization pulley;wherein the first wing capstan is configured to non-constantly, angularly rotate responsive to a constant angular rotation of the crank gear. 3. The apparatus of claim 2, wherein the first drive linking member is received by the first variable-radius drive pulley portion at a maximum radius of the first variable-radius drive pulley portion as the first wing capstan changes rotational direction. 4. The apparatus of claim 2, wherein the first synchronization drive pulley and second synchronization drive pulley are configured with a constant radius. 5. The apparatus of claim 2, wherein the first synchronization drive pulley and the second synchronization drive pulley are each configured to windably receive the first synchronization linking member and the second synchronization linking member at non-constant radius drive pulley portions. 6. The apparatus of claim 2, further comprising a first drive linking member winding peg configured to rotatably take up the first drive linking member so that slack in the first drive linking member between the first variable-radius drive pulley portion and one of the at least one crank gear capstan is reduced. 7. The apparatus of claim 2, further comprising means for reducing slack in the first drive linking member between the first variable-radius drive pulley portion and one of the at least one crank gear capstan. 8. The apparatus of claim 2, wherein the first drive linking member and the second drive linking member each comprise a plurality of cables. 9. The apparatus of claim 8, wherein the first drive linking member and the second drive linking member each are elastic. 10. The apparatus of claim 2, wherein the first and second drive linking members are each a plurality of cables. 11. The apparatus of claim 1, further comprising: a motor; anda plurality of reduction gears coupled between the motor and the crank gear wherein at least one of the plurality of reduction gears is configured to drive the at least one crank gear capstan in an orbital path about a center of rotation of the crank shaft. 12. A flapping wing driving apparatus, comprising: a first wing and a second wing;a first wing capstan and a second wing capstan respectively coupled to the first wing and the second wing, each of the first wing capstan and the second wing capstan having respective variable radius drive pulley portions;at least one rotatable crank gear capstan coupled to a crank arm at a location offset from the axis of rotation of the crank arm;a first drive linking cable and second drive linking cable wherein each drive linking cable is respectively coupled to one of the at least one crank gear capstan, the first drive linking cable windably coupled to the variable-radius drive pulley portion of the first wing drive capstan and the second drive linking cable windably coupled to the variable-radius drive pulley portion of the second wing drive capstan;a first synchronization pulley and a second synchronization pulley each respectively coupled to the first wing capstan and the second wing capstan; anda first crossing synchronization linking member and a second crossing synchronization linking member each windably coupled between the first synchronization pulley and the second synchronization pulley, the first crossing synchronization linking member and the second crossing synchronization linking member wherein the second wing capstan is configured to rotate in a direction counter to a rotation of the first wing capstan;wherein constant angular rotation of the crank arm alternately pulls the first and second drive linking cables to drive the first and second wing capstans with a return force for each of the first and second wing capstans provided respectively by the second and first crossing synchronization linking members so that the first and second wings move in a non-sinusoidal back-and-forth flapping motion. 13. The apparatus of claim 12 wherein a coupling of the first drive linking cable and second drive linking cable to the first variable-radius drive pulley portion and the second variable-radius drive pulley portion, respectively, is configured so that the first and second drive linking cables are received at respective maximum radii of the first and second variable-radius drive pulley portions as the first and second wings, respectively, are configured to change direction of travel so that the speed and the acceleration of the first and second wings about the end of the wing travel is reduced. 14. The apparatus of claim 12, wherein the first drive linking cable is received by a maximum radii of the first variable-radius drive pulley portion when the first wing is at a maximum travel path of the non-sinusoidal back-and-forth flapping motion. 15. The apparatus of claim 12, wherein respective variable-radius drive pulley portions of the first wing capstan and the second wing capstan are each oval-shaped. 16. The apparatus of claim 12, wherein respective variable-radius drive pulley portions of the first wing capstan and the second wing capstan are each oval-shaped. 17. The apparatus of claim 12, wherein each of the first second synchronization pulley and second synchronization pulley are variable-radius synchronization pulleys. 18. The apparatus of claim 17, wherein the first variable-radius synchronization pulley and the second variable-radius synchronization pulley are oval-shaped. 19. The apparatus of claim 12, further comprising: a motor configured to rotatably drive the crank arm. 20. The apparatus of claim 12, wherein the at least one rotatable crank gear capstan comprises two co-axial, rotatable, crank gear capstans. 21. The apparatus of 12, wherein each of the first drive linking cable and the second drive linking cable are elastic. 22. A flapping wing method, comprising: orbiting a crank capstan about an axis of rotation;pulling a first drive cable with the crank capstan, the first drive cable windably coupled to a variable-radius drive pulley portion fixed on a rotatable first wing capstan to cause the rotatable first wing capstan to rotate, the rotatable first wing capstan coupled to a first wing;winding up a first synchronization cable about a synchronization pulley on the first wing capstan in response to the rotating of the rotatable first wing capstan; andsynchronizably rotating a rotatable second wing capstan windably coupled to the first synchronization cable in response to the winding up the first synchronization cable about the synchronization pulley, the rotatable second wing capstan coupled to a second wing;wherein the first wing is configured to rotate with a non-sinusoidal angular velocity about a rotation axis of the rotatable first wing capstan as the crank capstan orbits about the axis of rotation at a constant angular velocity and the second wing rotates about a rotation axis of the rotatable second wing capstan. 23. The method according to claim 22, further comprising: pulling a second drive cable with the crank capstan after pulling the first drive cable, the second drive cable windably coupled to a variable-radius drive pulley portion fixed on a rotatable second wing capstan to cause the rotatable second wing capstan to rotate, the rotatable second wing capstan coupled to a second wing;winding up a second synchronization cable about a synchronization pulley on the second wing capstan in response to the rotating of the rotatable second wing capstan; andsynchronizably rotating the rotatable first wing capstan windably coupled to the second synchronization cable in response to the winding up the second synchronization cable about the synchronization pulley on the second wing capstan;wherein the second wing is configured to rotate with a non-sinusoidal angular velocity about a rotation axis of the rotatable second wing capstan as the crank capstan orbits about the axis of rotation at a constant angular velocity and the first wing rotates about a rotation axis of the rotatable first wing capstan. 24. The method of claim 23, wherein the pulling the second drive cable begins when the first drive cable is received at a maximum radius of the variable-radius drive pulley portion on the first wing capstan. 25. The method of claim 23, wherein the pulling of the second drive cable begins as the first wing changes rotational direction. 26. The method of claim 23, wherein the synchronization pulley on the second wing capstan is non-circular. 27. The method of claim 23, wherein the second drive cable is elastic. 28. The method of claim 23, wherein the pulling the first drive cable begins when the second drive cable is received at a maximum radius of the variable-radius drive pulley portion on the second wing capstan. 29. The method of claim 22, wherein the synchronization pulley on the first wing capstan is non-circular. 30. A flapping wing driving apparatus, comprising: means for orbiting at least one crank gear capstan about a center of rotation and at a constant velocity;a first wing capstan coupled to a first wing, the first wing capstan having a first variable-radius drive pulley portion; anda first drive linking member configured to drive the first wing capstan, the first drive linking member windably coupled between the first variable-radius drive pulley portion and one of the at least one crank gear capstan;wherein the first wing capstan is configured to non-constantly, angularly rotate responsive to a constant velocity of the means for orbiting. 31. The apparatus of claim 30, further comprising: a second wing capstan coupled to a second wing, the second wing capstan having a second variable-radius drive pulley portion;a second drive linking member windably coupled between the second variable-radius drive pulley portion and one of the at least one crank gear capstan;a first synchronization pulley and a second synchronization pulley coupled to the first wing capstan and the second wing capstans, respectively; anda first crossing synchronization linking member and a second crossing synchronization linking member each windably coupled between the first synchronization pulley and the second synchronization pulley, the first crossing synchronization linking member and the second crossing synchronization linking member;wherein the first wing capstan is configured to non-constantly, angularly rotate responsive to a constant angular rotation of the crank gear. 32. A flapping wing driving apparatus, comprising: a first wing and a second wing;a first wing capstan and a second wing capstan respectively coupled to the first wing and the second wing;means for rotating the first wing and the second wing in a predetermined non-sinusoidal acceleration from a first sweep angle position to a second sweep angle position of the first wing and the second wing;means for returning the first wing capstan and the second wing capstan to their respective first sweep angle positions after the respective first sweep angle position to second sweep angle position predetermined non-sinusoidal acceleration;wherein the means for rotating and the means for returning are configured so that the first wing and second wing move in a non-sinusoidal back-and-forth flapping motion. 33. The claim according to claim 32, wherein the means for returning further comprises: means for returning the first wing capstan and the second wing capstan to their respective original angular positions in a predetermined non-sinusoidal acceleration from the second sweep angle position to the first sweep angle position.
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이 특허에 인용된 특허 (13)
Livingston,Donald S., Apparatuses and methods for applying forces to a structure utilizing oscillatory wing motions in a fluid.
Keennon, Matthew Todd; Andryukov, Alexander; Klingebiel, Karl Robert; Won, Henry Thome, Air vehicle flight mechanism and control method for non-sinusoidal wing flapping.
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