The present invention concerns a rotor blade for a wind power plant having an aerodynamic profile comprising a rotor blade leading edge and a rotor blade trailing edge. The invention also concerns a rotor blade tip for a rotor blade having an aerodynamic profile with a pressure and a suction side, w
The present invention concerns a rotor blade for a wind power plant having an aerodynamic profile comprising a rotor blade leading edge and a rotor blade trailing edge. The invention also concerns a rotor blade tip for a rotor blade having an aerodynamic profile with a pressure and a suction side, wherein the rotor blade tip is curved or angled in its end region in the direction of the pressure side of the rotor blade. In order further to reduce the levels of sound emission of wind power plants the rotor blade is curved or angled in its edge region in the direction of the trailing edge of the rotor blade in the plane of the rotor blade. In that respect the invention is based on the realization that, in the case of a rotor blade which does not go to a point at the tip, the effective rotor blade area is maintained unreduced precisely in the outer region in which the effect is greatest. The curve or angling of the end region of the rotor blade however provides that the trailing edge is displaced rearwardly in the end region of the rotor blade so that the flow at the rotor blade trailing edge is detached with a time delay in the outer region. Alternatively to attain the object of the invention a rotor blade can be developed in such a way that the 'outer region' narrows. That configuration of the rotor blade tip is based on the realization that the decreasing blade depth results in a reduced flow around the blade tip as the energy thereof is previously distributed to the trailing edge vortices but at the same time the effective rotor blade area is also reduced. The angling of the rotor blade tip provides that the effective rotor blade depth remains at its optimum as far as the angled rotor blade tip.
대표청구항▼
The invention claimed is: 1. A wind power plant rotor blade tip for a wind power plant rotor blade having an aerodynamic profile having a pressure side and a suction side, wherein the rotor blade tip is curved in a direction of the pressure side of the rotor blade, forming an edge arc that forms an
The invention claimed is: 1. A wind power plant rotor blade tip for a wind power plant rotor blade having an aerodynamic profile having a pressure side and a suction side, wherein the rotor blade tip is curved in a direction of the pressure side of the rotor blade, forming an edge arc that forms an angle with the rotor blade of between 120 and 90 degrees, and wherein the rotor blade tip narrows towards an edge arc upper edge and has an edge arc leading edge and an edge arc trailing edge, the edge arc leading edge and the edge arc trailing edge extending equally in a predetermined, curved gradient to the edge arc upper edge. 2. A wind power plant comprising a rotor having at least one rotor blade tip according to claim 1. 3. A rotor blade with an aerodynamic profile having a pressure side and a suction side, the rotor blade comprising: a hollow end region, in the form of an independent portion that can be fitted into a remaining portion of the rotor blade; and a rotor blade tip adjacent the end region, wherein the rotor blade tip is curved in a direction of the pressure side of the rotor blade, forming an edge arc, and wherein the rotor blade tip narrows towards an edge arc upper edge and has an edge arc leading edge and an edge arc trailing edge, the edge arc leading edge and the edge arc trailing edge extending equally in a predetermined, curved gradient to the edge arc upper edge. 4. The rotor blade of claim 3, wherein the end region extends at an angle of between 1 and 45 degrees relative to the thread axis. 5. The rotor blade of claim 4, wherein the end region extends at an angle of between 1 and 15 degrees. 6. The rotor blade of claim 3, wherein a trailing edge of the rotor blade blends fluidly into a trailing edge of the end region. 7. The rotor blade of claim 6, wherein the trailing edge of the end region has a predetermined radius of curvature. 8. The rotor blade of claim 6, wherein the trailing edge of the end region has increasing curvature towards the rotor blade tip. 9. The rotor blade of claim 3, wherein the end region is equal to or less than ⅓ of a length of the rotor blade. 10. The rotor blade of claim 3, wherein the end region has a region of reduced cross-section for fitting into the remaining portion of the rotor blade. 11. The rotor blade of claim 10, wherein at least one opening is provided in the region of reduced cross-section. 12. The rotor blade of claim 3, wherein an end of the rotor blade remote from an afflux flow includes an opening for water drainage. 13. The rotor blade of claim 12, wherein a tube portion adjoins the opening. 14. The rotor blade of claim 3, wherein a region between a rotor blade root and the end region is angled in a direction of a leading edge of the rotor blade. 15. The rotor blade of claim 3, wherein the rotor blade comprises glass fiber-reinforced plastic material, and wherein conductive elements for lightning conduction are incorporated into the rotor blade. 16. The rotor blade of claim 3, wherein the rotor blade tip is an independent piece which can be coupled to the rotor blade. 17. A wind power plant rotor blade tip of claim 1 wherein the rotor blade tip is hollow and wherein an end of the rotor blade tip remote from an afflux flow includes an opening for water drainage. 18. The wind power plant rotor blade tip of claim 17, wherein a tube portion adjoins the opening.
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