An airfoil section of a propeller for a propulsion device includes a pressure surface and a suction surface, the pressure surface and suction surface intersecting at a leading edge and a trailing edge. The airfoil section has a meanline defined midway between the pressure surface and the suction sur
An airfoil section of a propeller for a propulsion device includes a pressure surface and a suction surface, the pressure surface and suction surface intersecting at a leading edge and a trailing edge. The airfoil section has a meanline defined midway between the pressure surface and the suction surface and a meanline angle is defined as an angle between a tangent to the meanline and a centerline of the propeller. The blade has a meanline curvature defined as the slope of a meanline angle with respect to chord fraction along the meanline, and at least a portion of the meanline has a meanline curvature that increases from between approximately 0.1 chord fraction progressing toward the leading edge and at least a portion of the meanline has a meanline curvature that decreases from between approximately 0.1 chord fraction progressing toward the leading edge.
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1. An airfoil section of a propeller for a propulsion device, comprising: a pressure surface and a suction surface, the pressure surface and suction surface intersecting at a leading edge and a trailing edge;wherein the airfoil section has a meanline defined midway between the pressure surface and t
1. An airfoil section of a propeller for a propulsion device, comprising: a pressure surface and a suction surface, the pressure surface and suction surface intersecting at a leading edge and a trailing edge;wherein the airfoil section has a meanline defined midway between the pressure surface and the suction surface; a meanline angle is defined as an angle between a tangent to the meanline and a centerline of the propeller; the blade has a meanline curvature defined as the slope of a meanline angle with respect to chord fraction along the meanline, and at least a portion of the meanline has meanline curvature that increases from between approximately 0.1 chord fraction progressing toward the leading edge followed by at least another portion of the meanline in which meanline curvature decreases from between approximately 0.1 chord fraction progressing toward the leading edge and the magnitude of the decrease in meanline curvature is 40 degrees per unit chord or greater. 2. The airfoil section according to claim 1, wherein the increase in meanline curvature occurs over an extent of less than about 0.05 chord fraction and the decrease in meanline curvature occurs over an extent of less than about 0.05 chord fraction. 3. The airfoil section according to claim 1, wherein the magnitude of the increase in meanline curvature is 10 degrees per unit chord or greater. 4. The airfoil section according to claim 1, wherein a thickness of the airfoil section is defined as a distance measured normal to the meanline between the pressure surface and the suction surface, and wherein the thickness is a maximum between about 0.15 and about 0.25 chord fraction. 5. The airfoil section according to claim 1, wherein a thickness of the airfoil section is defined as a distance measured normal to the meanline between the pressure surface and the suction surface, a thickness ratio is defined as the thickness divided by a maximum thickness of the airfoil section, and the thickness ratio is 0.8 or greater at 0.1 chord fraction. 6. The airfoil section according to claim 1, wherein the airfoil section is configured to operate at a flight speed between about Mach 0.7 to about 0.9. 7. An open rotor propulsion device, comprising: a plurality of propeller blades, each of the propeller blades having at least one airfoil section comprising a pressure surface and a suction surface, the pressure surface and suction surface intersecting at a leading edge and a trailing edge; wherein the at least one airfoil section has a meanline defined midway between the pressure surface and the suction surface; a meanline angle is defined as an angle between a tangent to the meanline and a centerline of the propeller blade; the meanline has a meanline curvature defined as the slope of a meanline angle with respect to chord fraction along the meanline,wherein at least one airfoil section meets condition (A) or both condition (A) and condition (B), wherein:(A) at least a portion of the meanline has meanline curvature that increases from between approximately 0.1 chord fraction progressing toward the leading edge followed by at least another portion of the meanline in which meanline curvature decreases from between approximately 0.1 chord fraction progressing toward the leading edge and the magnitude of the decrease in meanline curvature is 40 degrees per unit chord or greater; and(B) a thickness of the airfoil is defined as a distance measured normal to the meanline between the pressure surface and the suction surface, a thickness ratio is defined as the thickness divided by a maximum thickness of the airfoil section, and wherein the airfoil has a maximum thickness ratio located between about 0.15 to about 0.25 chord fraction, and the thickness ratio is 0.8 or greater at approximately 0.1 chord fraction. 8. The propulsion device according to claim 7, wherein all of the propeller blades comprise an airfoil section that meets condition (A). 9. The propulsion device according to claim 7, wherein all of the propeller blades comprise an airfoil section that meets both condition (A) and condition (B). 10. The propulsion device according to claim 7, wherein the device comprises a first set of the propeller blades configured to rotate in a first direction, and a second set of the propeller blades configured to rotate in a second direction opposite the first direction or to be stationary. 11. The propulsion device according to claim 10, wherein each of the blades comprises an airfoil section that has a maximum thickness location at approximately 0.2 chord fraction. 12. The propulsion device according to claim 7, wherein each of the blades comprises an airfoil section having a thickness ratio greater than or equal to 0.8 at a chord fraction of 0.1. 13. The propulsion device according to claim 7, wherein the magnitude of the increase in meanline curvature is 10 degrees per unit chord or greater. 14. The airfoil section according to claim 1, wherein the meanline curvature decrease reaches a negative value. 15. The airfoil section according to claim 3, wherein the meanline curvature decrease reaches a negative value. 16. An airfoil section for a propeller for a propulsion device, comprising: a pressure surface and a suction surface, the pressure surface and suction surface intersecting at a leading edge and a trailing edge;wherein the airfoil section has a meanline defined midway between the pressure surface and the suction surface; a meanline angle is defined as an angle between a tangent to the meanline and a centerline of the propeller, and at least a portion of the meanline has meanline angle that increases from between approximately 0.1 chord fraction progressing toward the leading edge followed by at least another portion of the meanline in which meanline angle decreases from between approximately 0.1 chord fraction progressing toward the leading edge. 17. The airfoil section according to claim 16, wherein the increase in meanline angle occurs over an extent of less than about 0.05 chord fraction and the decrease in meanline angle occurs over an extent of less than about 0.05 chord fraction. 18. The airfoil section according to claim 16, wherein a thickness of the airfoil section is defined as a distance measured normal to the meanline between the pressure surface and the suction surface, and wherein the thickness is a maximum between about 0.15 and about 0.25 chord fraction. 19. The airfoil section according to claim 16, wherein a thickness of the airfoil section is defined as a distance measured normal to the meanline between the pressure surface and the suction surface, a thickness ratio is defined as the thickness divided by a maximum thickness of the airfoil section, and the thickness ratio is 0.8 or greater at 0.1 chord fraction. 20. The airfoil section according to claim 16, wherein the airfoil section is configured to operate at a flight speed between about Mach 0.7 to about 0.9. 21. The propulsion device according to claim 7, wherein the meanline curvature decrease reaches a negative value. 22. The propulsion device according to claim 13, wherein the meanline curvature decrease reaches a negative value. 23. The propulsion device according to claim 7, wherein the airfoil section is configured to operate at a flight speed between about Mach 0.7 to about 0.9.
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이 특허에 인용된 특허 (13)
Rodde Anne M. (Verrieres le Buisson FRX) Thibert Jean J. (Verrieres le Buisson FRX), Air propellers in so far as the profile of their blades is concerned.
Gallot Jacques (Sausset les Pins FRX) Vingut Georges (Marseilles FRX) de Paul Michel V. (Senlis FRX) Thibert Jean-Jacques (Verriere-le Buisson FRX), Blade profile for rotary wing of an aircraft.
Nelson Joey L. (Cincinnati OH) Elston ; III Sidney B. (Marbelhead MA) Tseng Wu-Yang (West Chester OH) Hemsworth Martin C. (Cincinnati OH), Counterrotating aircraft propulsor blades.
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