SU1617474A1 - Spatial magnetic core for three-phase transformer - Google Patents

Abstract

This invention relates to electrical equipment for secondary power sources in electronic equipment. The aim of the invention is to increase the reliability of the transformer, reduce weight and increase efficiency. The three-phase transformer contains rectangular tape magnetic circuits, which are tape rectangular cores with one cut in each rod 2. Next, the standing rods are enclosed in cages 3 on which the winding 4 of the transformer is wound. Every two rods of the magnetic circuit, located in the same cage, closely adjacent to each other, do not form cavities between themselves. This is achieved by the fact that the rods are rotated relative to the axes at an angle of 30 ° when winding the tape of the magnetic circuit on the mandrel. This position is obtained by winding the magnetic circuit. 2 Il.

Description

The invention relates to elements of electrical equipment for secondary power sources in electronic equipment.

The purpose of the invention is to increase reliability, reduce weight and increase the efficiency of a transformer, as well as simplify the manufacture of the magnetic core.

FIG. 1 and FIG. 2 shows a spatial magnetic conductor for a three-phase transformer.

The three-phase transformer (Fig. 1) contains rectangular tape magnetic conductors 1, which are tape cores with one cut in each rod 2. A row of standing rods are enclosed in sleeves 3 on which the winding 4 of the transformer is wound.

Spatial magnetic three-phase transformer works as follows.

Every two cores of magnetic cores. located in the same cage, closely adjacent to each other ends, do not form cavities between themselves. This is achieved by the fact that the ends of the tapes of the rods and the PM are rotated about their own axes into the magnetic core at an angle of 30 ° when winding the magnetic strip on the mandrel. This position

rods are produced by winding the magnetic core.

The advantage of the proposed magnetic circuit (in comparison with the known) is the shortening of the turns of the transformer windings while maintaining the preferred symmetric three-phase magnetic system. The calculation showed that the gain in shortening the coil is 18%. In the manufacture of, for example, 1000 transformers with a capacity of 3 kW, saving copper wire will be 600 kg.

In addition, due to a decrease in copper wire, reliability (due to the lower probability of breakdown) and transformer efficiency is increased.

Claims (1)

Invention Formula A spatial magnetic conductor for a three-phase transformer consisting of 3 ribbon cores joined by the ends of the tapes of the rods, and the ends of the tapes in the arcs are offset from each other, forming an inclined surface, characterized in that, to simplify manufacturing, the ends of the tapes in the rods are shifted relative to each other, forming an inclined surface, with inclined surfaces formed by the ends of the bands in the frames and rods x. edged inside the cores.