RU2463474C1 - Wind-driven power plant - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: wind-driven power plant comprises a rotary device, where channels are installed with rotors having rotor elements and stator elements. Channels are installed in a central block, which is equipped with a lifting device. The rotary device is equipped with lower deflectors in the form of slopes. The top of the central block is equipped with upper deflectors.

EFFECT: invention makes it possible to increase quantity of generated power due to concentration of a wind flow with the help of lower and upper deflectors.

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Description

The invention relates to the field of wind energy and can be used to generate electricity.

A known design of a wind power installation (RF patent No. 2187019 / A.M. Litvinenko - Wind power installation / Publ. B.I. No. 22, 2002, F03D 5/04, application No. 200111581/06 of 01.16.2001), which contains towers, two angular connecting frames connected to the support at the junctions with the central rotary device. Horizontal axis wind wheels mounted on frame towers. The frames have supporting trolleys, and the wind wheels are connected to multipliers and generators, including rotors and stator elements. The disadvantage of this device is the presence of wind-powered towers that carry a generator set, which, in turn, has an increased mass, and, therefore, the tower must be designed taking into account the increased load and therefore has a large mass.

Closest to the claimed in the aggregate of essential features is the Wind Power Plant RF patent No. 2361111 -Litvinenko A.M., July 10, 2009, bull. No. 19, application No. 2007139350/06 of 10.23.2007, which contains a rotary device on which a channel is installed in the form of a hollow prism, in which, in turn, rotors are installed, and stator elements are placed in the corners of the prism base.

The disadvantage of this device is the low productivity due to the limited front surface.

The invention is aimed at increasing productivity by increasing the front surface area.

This is achieved by the fact that in a wind power installation containing a rotary device on which channels with rotors with rotor elements and stator elements are installed, according to the invention, the channels are installed in a central unit that is equipped with a lifting device, the rotary device is equipped with lower deflectors made in the form of slopes, and the top of the central unit is equipped with upper deflectors.

The achievement of the technical result is due to the presence of additional deflectors.

The invention is illustrated by drawings, which shows a view of the installation, FIG. 1 is a side view of the installation with the central unit retracted, FIG. 2 is a side view of the installation with the central unit retracted, FIG. 3 is a front view of the installation in the downstream direction.

The wind power installation includes a tower (base) 1, on which a rotary device 2 is installed, channels, in turn, are installed on it, in the form of a centralized unit 3, in which rotors are installed - wind wheels with blades 4, while tips are installed in the corners of the base of the channels stator elements 5. The installation is equipped with an upper deflector 6, which is installed on top of the central unit, and lower deflectors 7, made in the form of slopes. The central unit is equipped with a lifting mechanism 8, made, for example, in the form of a hydraulic cylinder, or an electric drive with a rack or chain transmission. Wind wheels are equipped with rotor elements 9, interacting with stator elements. Each stator element includes a tip, a working coil and an excitation source, instead of which excitation coils can also be used, so that during a period of no-sleep, the central unit is lowered and takes the position shown in Fig. 1. When a favorable situation sets in, the central unit rises by means of the lifting mechanism 8, as shown in FIG. 2, the wind wheels absorb the energy of the wind flow, while the lower and upper deflectors increase its intensity.

The wind power installation works as follows: under the influence of the wind flow, the blades of the wind wheel 4 come into rotation, the rotor elements 9 move, and the EMF is induced in the stator elements, more precisely in the working windings. When the wind direction changes, the channels in the form of a central block rotate in a horizontal plane.

The advantage of this wind power installation is the ability to obtain the largest possible amount of energy, due to the concentration of the wind flow, using the lower and upper deflectors.

Claims (1)

A wind power installation comprising a rotary device on which channels with rotors with rotor elements and stator elements are installed, characterized in that the channels are installed in a central unit that is equipped with a lifting device, the rotary device is equipped with lower deflectors made in the form of slopes, and the top of the central unit equipped with upper deflectors.

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