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The invention relates to a wind power plant, comprising a rotor that can be rotated about a vertical axis, said rotor between two horizontal bearing planes disposed at a distance on top of each other comprising a plurality of rotor blades, which are disposed distributed on a circumferential circle,

The invention relates to a wind power plant, comprising a rotor that can be rotated about a vertical axis, said rotor between two horizontal bearing planes disposed at a distance on top of each other comprising a plurality of rotor blades, which are disposed distributed on a circumferential circle, can each be pivoted about a vertical pivot axis, and the pivot range of which is delimited on both sides by a stop. In such a wind power plant, an improvement in the energy yield, while simultaneously ensuring another operation, is enabled in that the width of the rotor blades is smaller than approximately ⅓ the radius of the circumferential circle.

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1. A wind power installation comprising: at least one rotor which can rotate about a vertical axis and, between two horizontal mounting planes, which are located one above the other and separated, a plurality of rotor blades, which are arranged distributed on a circumferential circle and can each pi

1. A wind power installation comprising: at least one rotor which can rotate about a vertical axis and, between two horizontal mounting planes, which are located one above the other and separated, a plurality of rotor blades, which are arranged distributed on a circumferential circle and can each pivot about a vertical pivoting axis extending between said two horizontal mounting planes, and whose pivoting range is bounded at both ends by a single stop, wherein the width of the rotor blades is less than ⅓ of the radius of the circumferential circle, whereby said mounting planes are formed by wheels which rotate about said vertical axis, and the at least one rotor is connected via a shaft to a generator unit. 2. The wind power installation as claimed in claim 1, wherein twelve or more rotor blades are arranged such that they can pivot on the circumferential circle of the rotor. 3. The wind power installation as claimed in claim 1, wherein the rotor blades are in the form of straijht blades. 4. The wind power installation as claimed in claim 3, wherein the rotor blades each have a leading edge and a trailing edge, and have a reduced thickness between the leading edge and the trailing edge. 5. The wind power installation as claimed in claim 4, wherein the pivoting axes of the rotor blades are arranged within the rotor blades and spaced at a distance near the leading edge. 6. The wind power installation as claimed in claim 4, wherein the pivoting axes of the rotor blades are arranged in the leading edges of the rotor blades. 7. The wind power installation as claimed in claim 1, wherein the pivoting range of the rotor blades begins from the radius vector of the circumferential circle which passes through the pivoting axis and is in each case limited to an angle in the range of 100°-115°. 8. The wind power installation as claimed in claim 7, wherein, in one limit position of the pivoting range, the rotor blades each include an angle of about 50° with the radius vector of the circumferential circle which passes through the pivoting axis, and, in the other limit position of the pivoting range, include an angle in the range of 150°-165°. 9. The wind power installation as claimed in claim 1, wherein the mounting planes are formed by spoked wheels which rotate about the axis. 10. The wind power installation as claimed in claim 1, wherein the wind power installation has a plurality of rotors which are arranged at different heights. 11. The wind power installation as claimed in claim 10, wherein the rotors are arranged one above the other and rotate about the same axis. 12. The wind power installation as claimed in claim 11, wherein the rotors can rotate independently of one another. 13. The wind power installation as claimed in claim 1, wherein the rotor blades have an aerodynamic cross-sectional profile with a pointed end and a round end. 14. The wind power installation as claimed in claim 13, wherein the aerodynamic cross-sectional profile is in the form of a stretched droplet. 15. The wind power installation as claimed in claim 1, wherein the rotor drives within said generator unit at least one compressor via a power transmission, the compressor sucks in air on the input side and is connected on the output side to a compressed-air reservoir, and wherein a turbine can be connected to the compressed-air reservoir and drives a generator in order to produce electricity. 16. The wind power installation as claimed in claim 15, wherein the rotor can be selectively connected to a plurality of compressors via power transmission. 17. The wind power installation as claimed in claim 15, wherein the compressed-air reservoir is incorporated in the ground, and forms the foundation of the wind power installation arranged above it. 18. A wind power installation comprising: at least one rotor which can rotate about a vertical axis and, between two horizontal mounting planes, which are located one above the other and separated,a plurality of rotor blades, which are arranged distributed on a circumferential circle and can each pivot about a vertical pivoting axis extending between said two horizontal mounting planes, and whose pivoting range is bounded at both ends by a stop,wherein the rotor blades are in the form of straight blades;the rotor blades each have a leading edge and a trailing edge, and have a reduced thickness between the leading edge and the trailing edge;the width of the rotor blades is less than ⅓ of the radius of the circumferential circle;said mounting planes are formed by wheels which rotate about said vertical axis,the at least one rotor is connected via a shaft to a generator unit;the pivoting axes of the rotor blades are arranged within the rotor blades and spaced at a distance near the leading edge; andthe pivoting range of the rotor blades is in each case defined by a single stop which is arranged within the circumferential circle. 19. A wind power installation comprising: at least one rotor which can rotate about a vertical axis and, between two horizontal mounting planes, which are located one above the other and separated,a plurality of rotor blades, which are arranged distributed on a circumferential circle and can each pivot about a vertical pivoting axis extending between said two horizontal mounting planes, and whose pivoting range is bounded at both ends by a stop,wherein the rotor blades are in the form of straight blades;the rotor blades each have a leading edge and a trailing edge, and have a reduced thickness between the leading edge and the trailing edge;the width of the rotor blades is less than ⅓ of the radius of the circumferential circle;said mounting planes are formed by wheels which rotate about said vertical axis,the at least one rotor is connected via a shaft to a generator unit;the pivoting axes of the rotor blades are arranged in the leading edges of the rotor blades; andthe pivoting range of the rotor blades is in each case defined by a limiting element which is in the form of a circular arc, concentrically surrounds the pivoting axis, and whose ends each form a stop. 20. A wind power installation comprising: at least one rotor which can rotate about a vertical axis and, between two horizontal mounting planes, which are located one above the other and separated,a plurality of rotor blades, which are arranged distributed on a circumferential circle and can each pivot about a vertical pivoting axis extending between said two horizontal mounting planes, and whose pivoting range is bounded at both ends by a stop,wherein the width of the rotor blades is less than ⅓ of the radius of the circumferential circle;said mounting planes are formed by wheels which rotate about said vertical axis,the at least one rotor is connected via a shaft to a generator unit;the rotor blades have an aerodynamic cross-sectional profile with a pointed end and a round end;the pivoting axes of the rotor blades are arranged within the rotor blades and spaced at a distance near the round end; andthe pivoting range of the rotor blades is in each case defined by a single stop which is arranged within the rotor blade, rotationally fixed with respect to the pivoting axis.