RU2625080C1 - Wind power plant - Google Patents

Abstract

FIELD: power industry.

SUBSTANCE: wind power plant comprises a modular wind turbine with a power shaft and an energy converter, wherein in the modular wind turbine the rotors are made in the manner of Savonius rotors with at least three curved blades between the end disks within each module, and adjacent modules are made with an angular displacement of blades, power shaft is made in the form of a hollow cone, the cross section of which in the lower part does not exceed the lower end disk. The cone can be round or truncated.

EFFECT: increasing the sailage of blades and increasing the efficiency of wind energy usage.

2 cl, 1 dwg

Description

The invention relates to wind power plants for small farms, towns, summer cottages in remote areas, as well as winter sports centers, for example in the mountains, and is designed to increase the heat and power sovereignty of users.

Known wind power installation / cm. US Pat. No. 2280784 (class F03D 3/06) dated 04/12/2004 /, containing a modular wind turbine with a power shaft and an energy converter, and in a modular wind turbine, the rotors are made according to the type of Savonius rotors with at least three curved blades between the end discs within each module, and neighboring modules are made with angular displacement of the blades.

With all the advantages of the design scheme of the known wind power installation, it can be improved in order to increase the efficiency of use of wind energy.

The stated goal is achieved by the fact that in a known wind power installation containing a modular wind turbine with a power shaft and an energy converter, and in a modular wind turbine, the rotors are made in the form of Savonius rotors with at least three curved blades between the end discs within each module, and the adjacent ones the modules are made with angular displacement of the blades, the power shaft is made in the form of a hollow cone, the cross section of which in the lower part does not exceed the lower end disk. In this case, the cone may be round or truncated.

The technical solution proposed by the invention is illustrated in the drawing (cross section of a modular wind turbine with a view of the lower end disk).

The wind power installation proposed by the invention comprises a modular wind turbine with a power shaft 1 and an energy converter, and in a modular wind turbine, the rotors are made in the manner of Savonius rotors with at least three (in Fig. Four) curved blades 2 between the end disks 3 within each module and adjacent modules are made with angular displacement of the blades. In this case, the power shaft 1 is made in the form of a hollow cone, the cross section of which in the lower part does not exceed the lower end disk 3. Moreover, the cone can be round or truncated.

The implementation of the proposed technical solution of the power shaft 1 in the form of a hollow cone increases the windage of the curved blades 2 in modular wind turbines with Savonius rotors from the lower tier to the upper tier with the same radial dimensions of the end disks 3 and the same distances between the end disks 3 of the adjacent modules, and taking into account the increasing air flow pressure by increasing the height according to the relationship V ₂ = V ₁ × (h ₂ / h ₁₎ is obtained ^0,2 efficient use of wind energy in vetroenergetiche Coy installation of the proposed design.

The technical solution proposed by the invention provides the thermal power sovereignty of the user of the wind power installation with increased efficiency of using wind energy.

Thus, the proposed technical solution, according to the applicant, is new, has an inventive step and is industrially applicable.

Claims (2)

1. A wind power installation comprising a modular wind turbine with a power shaft and an energy converter, wherein in the modular wind turbine the rotors are made in the manner of Savonius rotors with at least three curved blades between the end disks within each module, and adjacent modules are made with angular displacement of the blades characterized in that the power shaft is made in the form of a hollow cone, the cross section of which in the lower part does not exceed the lower end disk. 2. Wind power installation according to claim 1, characterized in that the cone can be round or truncated.

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