IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0485788
(1983-04-18)
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발명자
/ 주소 |
- Flemming
- Jr. Robert J. (Trumbull CT)
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출원인 / 주소 |
- United Technologies Corporation (Hartford CT 02)
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인용정보 |
피인용 횟수 :
10 인용 특허 :
1 |
초록
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An airfoil shaped cross section 36 for the rotor blade 14 is disclosed. Various construction details which improve the aerodynamic and drag performance of the airfoil section are developed. The upper surface 38 and the lower surface 42 are contoured by a thickness distribution and a camber distribut
An airfoil shaped cross section 36 for the rotor blade 14 is disclosed. Various construction details which improve the aerodynamic and drag performance of the airfoil section are developed. The upper surface 38 and the lower surface 42 are contoured by a thickness distribution and a camber distribution such that the bend of the surfaces is constant or changes at a constant rate over certain regions of the airfoil to avoid the formation of strong, normal shock waves at local Mach numbers less than 1.2 during normal, level flight conditions at standard temperature and pressure.
대표청구항
▼
In a rotor blade of the type adapted for use in a rotor craft having an axis of rotation, the rotor blade extending spanwisely from the axis of rotation and having a root portion, a central portion and a tip portion which comprises the outermost thirty percent (30%) of the span, the rotor blade havi
In a rotor blade of the type adapted for use in a rotor craft having an axis of rotation, the rotor blade extending spanwisely from the axis of rotation and having a root portion, a central portion and a tip portion which comprises the outermost thirty percent (30%) of the span, the rotor blade having a quarter chord axis and an airfoil shaped cross section, the airfoil section extending in a plane which is parallel to the axis of rotation and perpendicular to the quarter chord axis, the airfoil section including a leading edge, a trailing edge, and a chord line of chord length C extending from the leading edge to the trailing edge, the chord line providing a reference axis for a coordinate measured parallel to the chord line from the leading edge, the coordinate being expressed as a function of the chord length C, the airfoil section including an upper surface and a lower surface which intersect at the leading edge, the airfoil section having a thickness t between the upper surface and the lower surface along a line perpendicular to the chord line, the thickness t having a maximum value tmax which lies in a range of six percent to eleven percent of the length C (0.06C ≤tmax≤0.11C), the airfoil section further including both a thickness distribution and a camber distribution disposed about the chord line such that the upper surface is spaced a distance Yu from the chord line and the lower surface is spaced a distance Y1 from the chord line, the values Yu and Y1 varying between positions on the chord line, the improvement which comprises: an airfoil shaped cross section for the tip portion of the rotor blade which has a maximum camber Cam at a point Cmx on the chord line, which has a leading edge region extending from the leading edge to the point Cmx, which has a central chord region extending from the leading edge region to a point in the region of the airfoil section at which the slope of the camber distribution becomes at least twice as negative as the average slope over the central chord region, and which has a trailing edge region which extends from the central chord region to the trailing edge, A. the leading edge region of the airfoil section extending from the leading edge to the point Cmx of maximum camber Cam; A1. the camber of the airfoil section reaching ninety percent of the maximum camber (90% Cam) at the midpoint of the leading edge region and remaining above ninety percent of the maximum camber in the last half of leading edge region, A2. the thickness t of the airfoil section in the last half of the leading edge region increasing from over sixty percent of the maximum thickness (60% tmax) to over eighty-five percent of the maximum thickness t (85% tmax), A3. the ratio of the thickness Y1 of the lower surface to the thickness Yu of the upper surface in the leading edge region beyond two percent chord (2% C) being approximately equal to fifty percent (Y1/Yu�50%), and A4. the upper surface and the lower surface curving toward the chord line with a rapid decrease in bending, the bend decreasing continuously in the leading edge region and decreasing on the upper surface over the middle portion of the leading edge region at a nearly constant rate to minimize the maximum local Mach number on the upper surface at positive angles of attack and at a rapidly decreasing rate on the lower surface between the leading edge and one percent chord to minimize the local Mach number on the lower surface at zero and negative angles of attack, B. the central chord region of the airfoil section extending from the leading edge region to the trailing edge region; B1. the camber of the airfoil section decreasing in the central chord region from one hundred percent of the maximum camber (100% Cam) at the beginning of the central chord region at a nearly uniform slope across the central chord region to the end of the central chord region, B2. the thickest portion of the airfoil section lying within the middle third of the central chord region, the maximum thickness tmax of the airfoil section being located at a point Tm, the upper surface having a maximum thickness Yumax at a point Tmu, and the lower surface having a maximum thickness Ylmax at a point Tml, the points Tm, Tmu and Tml all lying within a span L equal to ten percent of the chord length (L=10% C), the point Tmu lying forwardly of Tm and the point Tml lying rearwardly of point Tm, B3. the ratio of the thickness Y1 of the lower surface to the thickness Yu of the upper surface in the central chord region being approximately equal to sixty percent (Y1/Yu�60%), B4. the upper surface and the lower surface being defined in the central chord region by curves having a bend toward the chord line, B4a. the bend being slight having on the upper surface an absolute value less than five-tenths (0.5) over eighty percent (80%) of the central chord region and having on the lower surface an absolute value less than five-tenths (0.5) over the entire central chord region, the bend on the lower surface being positive and the bend on the upper surface being negative, B4b. each bend being relatively constant having an absolute mean value and a deviation from the absolute mean value that lies within a range of plus or minus fifteen hundredths, the deviation from the mean value on the upper surface being measured over eighty percent (80%) of the central chord region and on the lower surface being measured over the entire central chord region, C. the trailing edge region extending from the end of the central chord region to the trailing edge at one hundred percent chord (100% C); C1. the camber of the airfoil section decreasing rapidly at an average slope which is three to three and a half times the average slope over the central chord region, the camber decreasing from the beginning of the trailing edge region to less than ten percent (10%) of the maximum camber at a first reflex point at approximately ninety-five percent chord (95% C), the camber distribution terminating in a trailing edge reflex beginning at the first reflex point, the camber decreasing to a minimum value at a second reflex point and increasing to a value at the trailing edge that at least equals the camber at the first reflex point, C2. the thickness distribution decreasing rapidly from seventy percent of the maximum thickness (70% tmax) to less than five percent of the maximum thickness (5% tmax) at both the second reflex point and at the trailing edge, C3. the ratio of the thickness Y1 of the lower surface to the thickness Yu of the upper surface in the trailing edge region forward of the second reflex point being approximately equal to sixty-five percent (Y1/Yu�65%), C4. the lower surface of the trailing edge region curving toward the chord line, the lower surface having a small, constant bend approximately equal to the bend of the lower surface in the central chord region to continue the slope of the central chord region to a point one-fourth of the way into the trailing edge region, the surface continuing from the one-fourth point with almost no bending toward the chord line to a point three-fourths of the way into the trailing edge region, the lower surface at the three-fourths point curving away from the chord line to a slope at approximately ninety-nine percent chord (99% C) having a small positive value which continues to the trailing edge providing a thin trailing edge region which terminates in a flattened tab, C5. the upper surface, to complete the trailing edge reflex, decreases the bend slightly toward the chord line from the beginning of the trailing edge region to the three-fourths point, and from the three-fourths point to the trailing edge the surface bends away from the chord line, the ratio of thicknesses of the lower surface and upper surface being approximately equal to sixty-five percent (65%) to increase the drag divergence Mach number; wherein the thickness distribution and camber distribution about the chord line provide an upper surface and a lower surface which together form a highly cambered, relatively thick leading edge region, and a constantly cambered, relatively thick central chord region, the upper surface and lower surface curving toward the chord line with a bend that continuously decreases over the entire length of the leading edge region at rates which avoid the formation of strong, normal shock waves at local Mach numbers on the surfaces below one and two-tenths (M1.2) under normal, level flight operating conditions at positive, zero, and negative angles of attack, the upper and lower surfaces in the central chord region each curving toward the chord line with a constant, slight bend to avoid the formation of strong, normal shock waves at local Mach numbers on said surfaces below one and two-tenths (M1.2) at low or negative angles of attack and to reduce drag creep under said operating conditions, the upper and lower surfaces in the trailing edge region having relative thicknesses and being contoured to provide a tapered region having a trailing edge reflex and a thin trailing edge terminating in a flattened tab to provide a satisfactory pitching moment and a higher drag divergence Mach number than sections not having such a trailing edge reflex and ratio of thicknesses between the upper and lower surfaces.
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