RU2298687C1 - Stator for wind power plant - Google Patents

Abstract

FIELD: wind power engineering.

SUBSTANCE: stator comprises coil, exciting source, and magnetic circuits. The magnetic circuits are mounted on the opposite sides of the coil. The air spaces in magnetic circuits are oriented oppositely.

EFFECT: reduced sizes and mass.

2 dwg

Description

The invention relates to the field of wind energy.

Known wind generators [1, 2] with stators of the traditional type.

Of all the known analogues, the stator of the wind generator [3] of the segment type, which is made on the basis of the magnetic system of a direct current machine or universal and includes coils, an excitation source and magnetic cores, is closest to the claimed one by the combination of essential features.

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 magnetic cores are installed on opposite sides of the coil, and the air gaps of the magnetic cores are oriented in opposite directions.

The invention is illustrated by drawings, where figure 1 shows the claimed stator, front view, and figure 2 is a view from the side of the air gap, conditionally without the presence of a rotor element.

The stator of the wind generator contains the first excitation source (permanent magnet) and the first magnetic circuit, which includes the first pole 2 and the second pole 3, which the rotor element 4 contacts, the second magnetic circuit includes pole 5, the excitation source (permanent magnet 6) and the pole 7. Magnetic circuits cover opposite sides of the coil 8. With the second magnetic circuit rotor element 9 enters into magnetic contact.

The stator works as follows: during rotation of the wind wheel, the rotor elements 4 and 9, attached to the blades, periodically enter into magnetic contact each with its own magnetic circuit, namely element 4 with the first magnetic circuit, and element 9 with the second. As a result, an EMF is induced in the lower and upper parts of the coil 8, which is then transmitted to the consumer.

The technical and economic advantage of this stator is its high manufacturability, based on the use of a coil type on the winding, as well as the fact that with the possible shunting of one of the magnetic circuits (when the wind wheel is stopped), the magnetic flux in the other magnetic circuit does not decrease, but when two wind wheels rotate and respectively, the rotor elements 4 and 9 EMF in the branches of the coil is summed.

Information sources

1. A.S. USSR No. 732572 / V.K.Alexandrov 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. - Stator of the wind generator, publ. BI No. 14, dated May 20, 2003, building No. 2001129417/06 dated October 31, 2001, IPC F03D 9/00.

Claims (1)

The stator of the wind turbine, containing a coil, a source of excitation and magnetic circuits, characterized in that the magnetic circuits are installed on opposite sides of the coil, and the air gaps of the magnetic circuits are oriented in opposite directions.

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