SU1029345A1 - Controlled synchronous generator - Google Patents

Abstract

ADJUSTABLE SYNCHRONB GENERATOR containing a stator with a magnetic circuit in which a T-phase winding is installed, a rotor and a series-connected direct current source with an adjustment element, characterized in that, in order to simplify the design, the phase winding contains rollers covering the RMO connected two parts connected in parallel with an equal number of coils in each of them connected in a star, each phase of which is formed from successively according to the included coils located under the fields of the same name The rotor has a yoke, and in one of the parts the beginning of the phases are combined, the ends are connected, and the direct current source and the control element are connected between the common points of the phases of the said parts. u (; O CO 4; ate

Description

The invention relates to electrical engineering, in particular to the arrangement of electrical generators, which are regulated by varying the magnetic resistance of parts of the magnetic circuit.

Electric generators are known that contain a stator by a phase-phase winding connected in a star and a pole-type rotor, in which the output voltage is stabilized by selecting the parameters of the generator 1.

The disadvantages of these generators are a small range of voltage stabilization and low accuracy.

Closest to the present invention, there is an adjustable synchronous generator comprising a stator with a magnetic core, in which a m-phase winding, a rotor and a series-connected direct current source with an adjustment element are installed. For regulation, it is provided with a control winding connected to an adjustable DC source 2

The disadvantage of this generator is the complexity of the design due to the presence of two windings placed in the slots of the stator magnetic circuit.

The purpose of the invention is to simplify the design.

The goal is achieved by the fact that in an adjustable synchronous generator containing a stator with a magnet circuit, in which a phase winding, a rotor and a direct current source with an adjustment element are installed, the t phase winding contains coils covering the rods connected in two parallel connected parts with equal the number of coils in each of them connected into a star, each phase of which is formed from successively according to the included coils located under the rotor poles of the same name, and in one of the winding parts edineny start phase, and in the other - the ends, a source of DC and control element connected between the common points phases obmptki parts.

FIG. 1 shows the basic electrical circuit of the generator; in fig. 2 shows its sweep for a four-pole version and the wiring diagram of the pole-phase stator winding groups.

The generator (Fig. 1) contains an opposite rotor I, a three-phase stator winding consisting of parts 2 and 3 with lead ends AJ B, C, and y, respectively.

DC source 4 with adjustable resistor 5. Winding phase A (Fig. 2) consists of two parallel-connected phases of parts 2 and 3. Phase A contains four pole-phase groups (PFG) 6-9. One parallel phase connected includes

5 into each other consistently according to connected PFG 6 and 8, the ends of which are marked A „X и and A, 2X, 2, and the other - consistently according to connected PFG 7 and 9, the ends of which are designated A, i X2i and AjaXgj.

Part 2 is a three-phase star.

0 with a common point formed by the rings X, Y, Z, and part 3 is a star with a common point formed by the beginnings. Phases B and C are made according to a similar scheme.

Output Voltage Stabilization

performed as follows.

As the output voltage increases, the resistance of the resistor 5 decreases and the amount of direct current from source 4 increases. This current passes through the phases of the winding part 2 from the common point to the ends,

0 and the phases of part 3 - from the ends to a common point. Since the phase winding is circular, covering the back of the stator 10, the magnetomotive winding force created by direct current causes a unidirectional solenoidal magnetic flux in the back of the stator 10, which displaces the magnetic excitation flux from the back of the stator 10, and the output voltage decreases.

Simplification of the design of the proposed generator is achieved by combining

About one winding functions of the working winding and control winding.

6

7

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eight

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Claims (1)

ADJUSTABLE SYNCHRONOUS GENERATOR, comprising a stator with a magnetic circuit, in which a phase winding, a rotor and a DC source with a control element are connected in series, characterized in that, in order to simplify the design, the m-phase winding contains coils spanning a yoke connected in two in parallel included parts with an equal number of coils in each of them connected in a star, each phase of which is formed from sequentially-according to included coils located under the poles of the same name torus, moreover, in one of the parts the beginnings of the phases are combined, in the other - the ends, and a DC source and a control element are included between the common phase points of the mentioned parts. th with CO JV>