SU1206904A1 - Controlled synchronous generator - Google Patents

Description

The invention relates to electrical engineering, namely, permanent magnet synchronous generators, with adjustable output voltages.

and, the invention of the invention is to improve the weight and dimensions and simplify the manufacture of the adjustable synchronous generator.

The drawing shows a section of a magnet circuit of a synchronous generator.

The device contains a rotor 1 with permanent magnets, a magnetic stator magnetic stator 2, poles 3, a root winding 4 of an alternating current, a control winding 5. Calsdip pole of the stator magnetic circuit contains 33 radial planes 6 and la, which are full of 33 radial planes. also rods perpendicular to them. Patterns are closed cores. The direction of the main magnetic flux of the permanent magnets of the rotor F is shown by a continuous line. The direction of the magnetic flux winding control

Lenn Fz. shown by the dotted line.

Have

The generator works as follows.

The main magical flow of the rotor F creates a variable magnetic flux, closing along the rods 6 and 7, the stator magnetic circuit 2, the subsequent pole 3 and further along the pole 1 of the opposing polarity 1. As a result, an emf is induced in the root winding 4 of the alternating current. When a current flows in the winding 5 IpaA, inside each pole 3 a closed magnetic flux Φ is created (., Which, B. interaction with the flux S, S, as directed according to the flow F, and demagnetizes the rod b, since the meetings are directed. Composition. T. Kalaipshkova

 Editor R.Tzitsika Tehred A.Ach

8730/56 Circulation

VNISH the USSR State Committee

on affairs of inventions and openings, 113035, Moscow., Zh-35, Rauiyuka nab., d.4 / 5

Cor Pod

Branch PPP Patent, Uzhgorod, up.Proektna, 4

but flow Fd. Thus, one of the rods perpendicular to the axis of the generator in each of the poles always remains unassigned, leaving the path

for closing the magnetic rotor F through the stator 2.

By changing the current in the control winding 5, the saturation value of the magnetic circuit of the machine, and hence the value of the emf induced in the core winding 4 of the alternating current, is regulated. The consonant connection placed in the rods x 6 and 7 of the coils of the winding 5 mutually compensates for the emf induced in

these windings flow f.

The use of the proposed device allows, in comparison with the base of 1m object, to significantly reduce:. weight and dimensions of an adjustable synchronous generator. This is achieved by reducing the size and mass of the rotor and stator, which is due to the lower power consumed by the excitation due to the elimination of additional gaps in the magnetic circuit of the machine, due to the mutual perpendicularity of the main and control magnetic fluxes, and the better use of stator magnet steel.

In addition, the proposed design allows to significantly simplify the design of the stator magnetic core and, in general, increase strength due to the fact that the teeth and the stator strut are one piece and cut down from one plate, and also increase the speed due to the fact that The control winding, consisting of parallel-connected pairs of coils of adjacent poles, has a much lower inductance.

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Claims (1)

ADJUSTABLE SYNCHRONOUS GENERATOR comprising a rotor with permanent magnets, an anchor winding and a control winding located on the stator magnetic circuit with a yoke and distinct poles, each of which is made in the form of a closed core consisting of mutually perpendicular rods, part of which are parallel to the generator axis and perpendicular characterized in that, in order to improve the overall dimensions and simplify manufacturing, the rods of each pole perpendicular to the axis of the generator are made in radial th plane and are arranged control winding coil, wherein the control winding coil arranged on the rods of one pole are connected to each other according to pairs of pole pairs of coils connected in parallel and the coils of the armature winding span each pole of the stator magnetic circuit. SU „„ 1206904