Lift adjusting device for aircraft
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0283524
(2002-10-30)
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발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
3 인용 특허 :
4 |
초록
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The invention utilizes a computer-controlled moving band, typically on an airplane, to increase the apparent speed and therefore the lift of any body moving through a fluid. The invention will allow greater precision of control. One benefit is that take-offs and landings can be carried at reduced sp
The invention utilizes a computer-controlled moving band, typically on an airplane, to increase the apparent speed and therefore the lift of any body moving through a fluid. The invention will allow greater precision of control. One benefit is that take-offs and landings can be carried at reduced speeds and with greater loads. This control will also adjust boundary layer to adjust drag thereby allowing more flexibility in wing design.
대표청구항
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1. An airfoil having at least one movable band is arranged on an upper surface and a lower surface moving from a front portion to a rear portion of said airfoil, said at least one available band being part of means for controlling changes in lift of said airfoil in accordance with the relationship:
1. An airfoil having at least one movable band is arranged on an upper surface and a lower surface moving from a front portion to a rear portion of said airfoil, said at least one available band being part of means for controlling changes in lift of said airfoil in accordance with the relationship: L ∝( RS 1 ) 2 −( RS u ) 2 ;where ΔL is a change in lift; RS 1 is a relative speed of a lower portion of said band on a lower surface or said airfoil, and is equal to S b +S a , where S a is airspeed and S b is band speed; and, RS u is a relative speed of an upper portion of said band on an upper surface of said airfoil, and is equal to S b −S a , whereby lift increases by front to rear movement of said upper surface of said movable band. 2. The airfoil of claim 1, wherein said movable band operates responsive to environmental conditions to reduce ice formation of said airfoil. 3. The airfoil of claim 2, wherein at least a portion of said at least one movable band is arranged within an interior of said airfoil. 4. The airfoil of claim 1, wherein said means for controlling changes in lift comprise a plurality of movable bands. 5. The airfoil of claim 4, wherein said plurality of said movable bands are driven by compressed air exiting a plurality of apertures in at least one surface of said airfoil. 6. A method of controlling lift of an airfoil with means for controlling lift, comprising the steps of:a) developing airspeed on said airfoil; and,b) developing rotational speed from a front portion to a rear top portion of said airfoil so that said means for controlling lift operates in accordance with the relationship: L ∝( RS 1 ) 2 −( RS u ) 2 ; where ΔL is a change in lift; RS 1 is a relative speed of a lower portion of said band, and is equal to S b +S a , where S a is airspeed and S b is band speed; and, RS u is a relative speed of an upper portion of said band, and is equal to S b −S a ; and,c) generating control signals based upon airspeed. 7. The method of claim 6, wherein said means for controlling lift comprise a plurality of movable bands arranged along said airfoil. 8. The method of claim 7, wherein said plurality of movable bands are independently driven. 9. The method of claim 7, wherein said plurality of movable bands are driven by pressurized air being injected from a plurality of apertures on at least one surface of said airfoil. 10. The method of claim 9, further comprising the steps of:d) altering said speed of said moving lift control device responsive to detected airspeed of said airfoil; and,e) recalculating a value of lift achieved by said moving lift control device to be used in further calculations. 11. The method of claim 10, wherein said speed of said means for controlling lift functions responsive to other environmental conditions and instructions from an operator of said airfoil. 12. A miniature aircraft suitable for use as a model and a drone, having at least one airfoil configured to provide lift from airspeed on said airfoil, said miniature aircraft comprising:(a) moving means for controlling lift, said moving means having a rotation speed from a top front portion of said airfoil to a top rear portion of said airfoil so that a change in lift is, whereby movement of said moving means from top front to top rear controls lift in accordance with the relationship: L ∝( RS 1 ) 2 −( RS u ) 2 ; where ΔL is a change in lift; RS 1 is a relative speed of a lower portion of said band, and is equal to S b +S a , where S a is airspeed and S b is band speed; and, RS u is a relative speed of an upper portion of said band, and is equal to S b −S a . 13. The miniature aircraft of claim 12 wherein a ratio of distance from front edge to a rear edge of said airfoil to a length of a rear edge of said airfoil is substantially 29½:24. 14. The miniature aircraft of claim 12, wherein said miniature aircraft is configured to operate at speeds as low as twenty miles per hour. 15. The miniature aircraft of claim 12 wherein lift on said airfoil increases proportionately with an increase in an area of said moving means. 16. The miniature aircraft of claim 12 wherein increased operation of said moving means compensates for decreased convex curvature of said airfoil. 17. The miniature aircraft of claim 16, wherein said moving means and curvature of said airfoil operate in conjunction to reduced turbulence. 18. The miniature aircraft of claim 12, wherein said moving means is retrofit to said airfoil.
이 특허에 인용된 특허 (4)
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Thompson Roger A. (7606 Joplin ; Apt. 2 Houston TX 77087), Counter-rotating vortices generator for an aircraft wing.
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Feleus ; Christiaan C., Hydrofoil fixed strut steering control.
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Keefe Laurence R., Method and apparatus for reducing the drag of flows over surfaces.
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Patterson ; Jr. James C. (Newport News VA), Underwing compression vortex attenuation device.
이 특허를 인용한 특허 (3)
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Garver, Theodore M., Fluid interface device and method.
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Garver, Theodore M., Fluid interface device as well as apparati and methods including same.
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Delaplace,Franck; Buisson,Dominique, System for automatically controlling lift-enhancing devices of an aircraft, in particular wing leading edge slats.
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