SU1327241A1 - High=voltage multiphase synchronous electrical machine - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to increase efficiency and reduce material consumption. The electric machine comprises a stator 1 with a single-layer coil winding 2 and a rotor 3 with a damping winding 4. The stator slots 5 and 6, in which the sides of the coil 7 are laid, are parallel to each other. Also all the other grooves in which the sides of the remaining coils of the winding are laid are parallel to each other. The coils of the winding 2 can be different in thickness of the insulation and the number of turns. Each coil covers three stator teeth. The coils of each phase are divided into groups, within which the thickness of the cabinet insulation and the number of turns in the coils are the same. When the winding is made in increments and the number of teeth per pole and phase e, the order of the most prominent tooth harmonics increases in the core reaction field and their amplitude decreases accordingly, which leads to a decrease in the stator inductive resistance. 1 il. (L //

Description

The invention relates to electrical engineering and can be used in synchronous generators.

The aim of the invention is to increase the efficiency and reduce the consumption of materials,

The drawing shows the active area of the machine, a cross-section.

A high-voltage multi-phase synchronous electric machine contains a stator 1 with a single-layer coil winding 2 and a rotor 3 with a damping winding 4. The slots of the stator 5 and 6, in which the sides of the coil 7 are laid, are parallel to each other. All other grooves are also parallel, in which the sides of the remaining coils of the winding are laid, respectively. The coils of the winding 2 may be as thick as the insulation and the number of turns, but the external dimensions of the sides of all the coils are the same, and each coil spans three stator teeth. The stator teeth, placed on the axes of the coils (for example, the prong 8 on the axis of the coil 7), are made wider as the distance from the gap increases, and the adjacent teeth (9 and 10) are narrowed. At pole 11, a rod 12 of a damper winding 4 is placed, and in the interpolar space on the field winding 13 a washer 14 of a damper winding 4 is placed, held by the hooks 15.

The coils of each phase of the winding 2 are divided into groups within which the thickness of the cabinet insulation and the number of turns in the coils are the same. In the first group, adjacent to the linear output of the machine, the insulation is set to full voltage and has the greatest thickness with the least number of turns. In the group adjacent to the grounded neutral, the insulation is set to a voltage equal to the total voltage divided by the number of groups and has the smallest thickness with the greatest number of turns. In the other groups, the voltage on which insulation is installed, the thickness of the insulation, and the number of turns have intermediate values.

In order to obtain the same level of stator teeth, all the teeth in the one narrowest point have an equal width.

VNIIPI Order 3405/52. Circulation 659

Random polygons pr-tie, Uzhgorod, st. Project, 4

When the winding is executed with a step and number of teeth per pole and phase G1, the order of the most pronounced cogging harmonics increases in the core reaction field and their amplitude decreases accordingly, which leads to a decrease in the inductance of the differential

Q no scatter stator. The proposed machine is equipped with a damper winding 4, while its step for reducing losses is chosen equal to the tooth division of the stator 1. The mutual magnet5 on the conductivity of the circuits of the damper winding 4 with the circuits of the winding 1 remains almost unchanged at steady state. Therefore, there are no ripples of magnetic flux.

Q excitation and the currents caused by them in the circuits of the damping winding. 4. Since the period of the first serrated harmonics, the stator winding floor is close to the dentate stator division and the damper pitch.

At the 5th winding 4, the currents and losses due to these harmonics are insignificant.

With a pole tip width of 30 equal to the product of the toothed division of the stator 1 by the number of rods of the damper winding 4, the currents associated with the pulsations of the synchronous field are not induced in the damper winding and the differential dispersion is increased, the efficiency and the use of active materials are increased.

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Claims (1)

Invention Formula A high-voltage multi-phase synchronous electrical machine containing a toothed stator with a coil single-layer winding and a pole-pole rotor with an excitation winding and a single-phase winding, which is designed so that, in order to improve efficiency and reduce the material intensity, the stator winding is made of two blades. grooves on the pole and phase, and the grooves of the stator, in which the sides of each coil are laid, are mutually parallel, with all the teeth of the stator have the same minimum width. Subscription