SU1089639A1 - Three-phase transformer - Google Patents

Abstract

THREE-PHASE TRANSFORMER, containing three single-phase systems, each of which includes a magnetic core and primary and secondary windings, characterized in that, in order to save active materials, each single-phase system is made in the form of a concentric cHCTet &i;;amp; s are located relative to each other at an angle of 60, each concentric nshutan system of foil strips separated by a thin isolate (i), the foil strips are bimetallic, with one of the bimetal layers being ferromagnetic, and the other layer is made of highly conductive material. 00 from 05 to UD

Description

The invention relates to electrical engineering and can be used in the manufacture of low power transformers. An external three-phase transformer with an associated magnetic system containing a core magnetic core on each core of a three-phase transformer is placed windings of higher and lower voltage of one phase D} Also known is a three-phase transformer formed from three identical single-phase transformers designed so that their primary and secondary The windings are placed on one rod of the magnetic conductor, and the other terminal of each single-phase transformer does not have a winding, and the rods, without winding, are combined: C2J. A disadvantage of the known transformer is the high consumption of copper, which is used for the manufacture of transformer windings. The purpose of the invention is to save the consumption of active materials. The goal is achieved by the fact that in a three-phase transformer containing three single-phase systems, each of which includes the magnetic circuit and the primary and secondary windings, each single-phase system is designed as a concentric system and covers the other two, with all three systems located one relative to the other is at an angle of 60 °, each concentric system is wound out of foil strips separated by thin insulation, the foil strips are bimetallic, one of the bimetal layers being ferromagnetic, and nother ™ layer you full of highly conductive material FIG. 1 is presumed & three phase transformer, axon; in fig. 2 - the same section; in fig. 3 - fastening of the transformer in the frame, section; on 4ig. 4 is an electrical circuit for connecting windings; in fig. 5 - the connection of pieces of strips of foil winding. A three-phase transformer consists of three concentric systems 1--3, the sediment of which includes the primary and secondary windings respectively 9 4 and 5 of the same phase, 6 and 7 of the second phase and 8, 9 of the third phase. The windings 4-9 are made of foil strips separated by thin insulation 10, the foil strips are bimetallic, one of the bimetal layers being ferro-nitrous. All three systems 1-3 are interconnected, each of them covering the other two, while all three systems are located one relative to the other at an angle of 60. The windings 4-9 have, respectively, drives 11–22. The primary windings 4, 6, and 8 of systems 1-3 are connected to the throat, and the secondary windings of 5, 7, and 9 are connected to the star by a neutral wire 23. To mount the transformer of the proposed design, a frame 24 is used. in the frame. The transformer is collected as follows. One of the systems is wound from a strip of foil on a carousel machine, and the other two systems are assembled from separate segments of foil of the appropriate length. Separate foil sections are interconnected with an electrically conductive adhesive. The transformer works in the following way. Three-phase voltage is applied to the primary windings 4, 6 and 8. The current flowing through the primary windings of one concentric system creates a corresponding magnetic field, which mainly closes in two other concentric systems in different proportions and induces an emf in the secondary winding of this system. Thus, the magnetic field from winding 4 closes along systems 2 3 and induces an emf in winding 5. The field from winding 6 closes along systems 1 and 3 and induces an emf in winding 7. Field from winding B closes along systems 2 and 1 and induces EMF in the winding 9. The transformed EMF is removed from the secondary surface 5, 7 and 9. Using the present invention saves copper consumption.

Claims (1)

Three-phase transformer, containing three single-phase systems, each of which includes a magnetic circuit and primary and secondary windings, characterized in that, in order to save active materials, each single-phase system is made in the form of a concentric system and covers the other two, while all three systems are located one relative to another at an angle of 60 °, each concentric system is wound from foil strips separated by thin insulation, the foil strips are bimetallic, and one of the bimetal layers is fer omagnitnym and the other layer is made of a highly conductive material. 20 3 23 22 Figure 1