Low speed airfoil design for aerodynamic improved performance of UAVs
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64C-003/14
B64C-039/02
B64C-003/34
출원번호
US-0865851
(2015-09-25)
등록번호
US-9868525
(2018-01-16)
발명자
/ 주소
Hopping, Bradley M.
Garrett, Timothy M.
출원인 / 주소
The Boeing Company
대리인 / 주소
Miller, Matthias & Hull LLP
인용정보
피인용 횟수 :
0인용 특허 :
25
초록▼
An airfoil configured for low speed performance in an unmanned aerial vehicle includes an upper surface having an upper surface portion with a top local surface angle magnitude of less than 5 degrees at a subsection of a chord and a lower surface having a lower surface portion with a bottom local su
An airfoil configured for low speed performance in an unmanned aerial vehicle includes an upper surface having an upper surface portion with a top local surface angle magnitude of less than 5 degrees at a subsection of a chord and a lower surface having a lower surface portion with a bottom local surface angle magnitude of less than 5 degrees at the subsection of the chord. The chord is defined by a line starting at a leading edge of the airfoil and extending to a trailing edge of the airfoil.
대표청구항▼
1. An airfoil for an unmanned aerial vehicle, the airfoil comprising: an upper surface having an upper surface portion with a top local surface angle magnitude of less than 5 degrees at a subsection of a chord, wherein the chord is defined by a line starting at a leading edge of the airfoil and exte
1. An airfoil for an unmanned aerial vehicle, the airfoil comprising: an upper surface having an upper surface portion with a top local surface angle magnitude of less than 5 degrees at a subsection of a chord, wherein the chord is defined by a line starting at a leading edge of the airfoil and extending to a trailing edge of the airfoil;a lower surface having a lower surface portion with a bottom local surface angle magnitude of less than 5 degrees at the subsection of the chord; anda maximum thickness defined between the upper surface and the lower surface, wherein the maximum thickness extends a length from substantially 20% to substantially 40% of the chord. 2. The airfoil of claim 1, wherein the subsection of the chord covers a range from 27% of the chord to 38% of the chord. 3. The airfoil of claim 1, wherein the subsection of the chord covers a range from 30% of the chord to 35% of the chord. 4. The airfoil of claim 1, wherein a camber of the airfoil is located at a trailing 1/3 of the chord, wherein the camber is a maximum distance between the chord and a mean camber line. 5. The airfoil of claim 1, wherein at least 75% of the lower surface is at or below the chord. 6. The airfoil of claim 1, further comprising a tank between the upper surface and the lower surface. 7. The airfoil of claim 1, wherein the airfoil has a non-reflex camber. 8. The airfoil of claim 1, wherein the bottom local surface angle produces a lower surface drag attributable to the lower surface of the airfoil and the top local surface angle produces an upper surface drag attributable to the upper surface of the airfoil, and wherein the lower surface drag is less than 10% of the upper surface drag. 9. An unmanned aerial vehicle (UAV) comprising: a fuselage;a propulsion unit mechanically coupled to the fuselage; andan airfoil coupled to the fuselage, the airfoil including:an upper surface having an upper surface portion having a top local surface angle magnitude less than 5 degrees at a subsection of a chard, wherein the chord is defined by a line starting at a leading edge of the airfoil and extending to a trailing edge of the airfoil, a lower surface having a lower surface portion having a bottom local surface angle magnitude less than 5 degrees at the subsection of the chord, and a maximum thickness defined between the upper surface and the lower surface, wherein the maximum thickness extends a length from substantially 20% to substantially 40% of the chord. 10. The UAV of claim 9, wherein the subsection of the chord encompasses a point on the chord 30% from a front of the airfoil. 11. The UAV of claim 10, wherein a camber of the airfoil is located at a trailing 1/3 of the chord, wherein the camber is a maximum distance between the chord and a mean camber line. 12. The UAV of claim 9, wherein the airfoil is configured to store fuel tank. 13. The UAV of claim 9, wherein the airfoil includes an attached flap. 14. A method of assembling an unmanned aerial vehicle, the method comprising: providing a fuselage;attaching a propulsion unit to the fuselage; andattaching an airfoil to the fuselage, the airfoil having an upper surface that includes an upper surface portion having a top local surface angle magnitude less than 5 degrees at a subsection of a chord, wherein the chord is defined by a line starting at a leading edge of the airfoil and extending to a trailing edge of the airfoil, a lower surface that includes a lower surface portion having a bottom local surface angle magnitude less than 5 degrees at the subsection of the chord, and a maximum thickness defined between the upper surface and the lower surface, wherein the maximum thickness extends a length from substantially 20% to substantially 40% of the chord. 15. The method of claim 14, further comprising: attaching a flap assembly to an aft end of a main section of the airfoil. 16. The method of claim 14, further comprising: providing for fuel storage in the airfoil. 17. The method of claim 14, wherein attaching the airfoil to the fuselage comprises attaching the airfoil to the fuselage wherein the subsection of the chord includes a point 30% of a chord length from the leading edge of the airfoil.
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이 특허에 인용된 특허 (25)
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