RU2379548C1 - Stator of wind-driven electric generator - Google Patents

Abstract

FIELD: power engineering. ^ SUBSTANCE: stator includes two ""-shaped magnetic conductors with intermediate sections and upper and lower end sections, magnetic field source located between intermediate sections of magnetic conductors, and coil enveloping intermediate sections of magnetic conductors. Rotor elements of one windwheel close upper end sections of magnetic conductors, and rotor elements of the other windwheel close their lower end sections. ^ EFFECT: decreasing weight and overall dimensions of stator and electric generator at minimising its cost as a consequence of high manufacturability. ^ 3 dwg

Description

The invention relates to the field of wind energy.

Known wind generators [1, 2] with stators of the traditional type, which are made in the form of segments with windings, and rotor elements are mounted on the blades of the wind wheels.

Closest to the claimed combination of essential features is the stator of a segment-type wind generator [3], which is based on the magnetic system of a direct current or universal machine and includes coils, a magnetic field source, and multi-wire cables, including U-shaped ones. In this case, two rotor-windwheels are installed with the possibility of magnetic contact with the mother wires.

The disadvantage of this stator is that it is adapted to work only with an inductor previously cut in diameter, which complicates the manufacturing technology and increases the mass.

The invention is aimed at reducing the mass and dimensions of the generator while minimizing its cost.

This is achieved by the fact that the stator has a wind generator with two wind wheels with rotor elements on the blades, containing two U-shaped magnetic circuits with middle sections and end upper and lower sections, a magnetic field source located between the middle sections of the magnetic circuits and a coil covering the middle sections of the magnetic circuits, according to the invention , the rotor elements of one wind wheel close the upper end sections of the magnetic circuits, and the rotor elements of the second wind wheel close their lower end chastki.

The invention is illustrated by drawings, where figure 1 shows the claimed stator in section, figure 2 is a front view, figure 3 is a stator in the composition of the wind generator.

The stator of the wind generator contains a first U-shaped magnetic circuit with a lower end section 1, a middle section 2 and an upper end section 3. Between the middle section of the second magnetic circuit and section 2 there is a magnetic field source, for example a permanent magnet 5. In addition to the middle section 4, the second magnetic circuit has an upper end section 6 and the lower end section 7. Both magnetic circuits in the area of the middle sections 2 and 4 are covered by a coil 8. The magnetic circuit is closed during operation of the wind generator by a rotary element 9 (shown in phantom in Figure 1).

The stator works as follows: when the wind wheels rotate (their circuits are shown in dotted lines in Fig. 3), the rotor elements 9 periodically come into magnetic contact with each of its and end sections of the magnetic circuits, namely, the rotor elements of the left wheel 9 close the sections of sections 3 and 6, and the elements the right wheel closes sections 1 and 7 (see figure 3).

As a result, an EMF is induced in coil 8, which is then transmitted to the consumer.

The technical and economic advantage of this stator is its high adaptability, based on the use of coil type windings and technological U-shaped magnetic cores.

Information sources

1. A.S. USSR No. 732572 / V.K. Aleksandrov et al. Windmill, BI, No. 17, 1980 F03D 3/30.

2. A.S. USSR No. 861716 / I.P. Kopylov et al. Gearless wind turbine, BI, No. 11, 1981, F03D 1/00.

3. RF patent No. 2204734 / A. M. Litvinenko. The stator of the wind generator, publ. BI, No. 14 dated 05/20/2003, part No. 2001129417/06 dated 10/31/2001, MKI F03D 9/00.

Claims (1)

The stator of a wind generator with two wind wheels with rotor elements on the blades, containing two U-shaped magnetic circuits with middle sections and end upper and lower sections, a magnetic field source located between the middle sections of the magnetic circuits, and a coil covering the middle sections of the magnetic circuits, the rotor elements of one wind wheel closing the upper end sections of the magnetic circuits, and the rotor elements of the second wind wheel close their lower end sections.

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