RU2030004C1 - High-voltage transformer - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: high-voltage transformer has magnetic core 1, primary winding 2, principal insulation 3, secondary winding composed of assemblage of sections 4 having internal 5 and external 6 leads-out dropped in sections of form 7. Form has holes for internal leads-out of section of secondary winding and slots to register leads-out. EFFECT: facilitated manufacture. 3 cl, 2 dwg

Description

 The invention relates to techniques for high voltage and can be used to create small-sized sources of high voltage.

 A device is known in which the secondary winding of a high-voltage transformer is made in the form of a plurality of insulated sections arranged in series relative to each other along the core of the magnetic circuit on separate coils and connected to respective rectifier devices, which, in turn, form a series electrical circuit. Each section of the secondary winding is divided into two parts, for which a baffle with a hole is made in the coil, while the beginning and end of the section are located on the outside of the coil [1]. The disadvantages of this device are the large dimensions caused by the presence of partitions in the coils, the complexity of the design, due to the holes in the said partitions and the presence of separate coils for each section.

 Closest to the proposed invention is a high-voltage flyback transformer, on the magnetic circuit of which (its core) there is a primary winding and a secondary winding made in the form of many sections laid in the winding grooves of a section coil having many intersection partitions, and connected to the corresponding rectifier devices, these sections and rectifier devices are connected in series, while the secondary winding and rectifier devices are covered by the main ktricheskoy insulation [2].

 The disadvantages of this transformer are large dimensions and low manufacturability. Large dimensions are caused by the placement of the internal terminals of all sections on the outside of the winding, since the insulation of these terminals must be designed for the full voltage of the section and, therefore, these conclusions occupy a significant part of the winding groove, which leads to an increase in the dimensions of the transformer. The need to fix and stack these conclusions during the winding process characterizes the low adaptability of the prototype.

 The purpose of the invention is to reduce the size and improve the manufacturability of a high voltage transformer.

 The goal is achieved by the fact that in a high-voltage transformer containing a magnetic circuit, a primary winding, a main electrical insulation, a secondary winding of N sections placed on a cylindrical frame having N + 1 baffles, the leads of the secondary winding sections are passed through holes made in the cylindrical wall of the frame , the distance between the holes for the conclusions of the beginnings of any adjacent sections of the secondary winding is greater than the distance between these sections. Alternatively, the secondary winding can be divided into an even number of sections, and the holes for the conclusions of the beginnings of these sections are symmetrical about a plane perpendicular to the axis of the frame and dividing it in half. Alternatively, grooves are made on the inner cylindrical surface of the carcass, the beginnings of which are holes for the leads of the ends of the secondary winding sections, and the ends are the ends of the carcass, with these grooves parallel to its axis.

Comparative analysis with the prototype shows that the salient features of the proposed high-voltage transformer are:
a) the presence of holes on the inner surface of the frame for the internal conclusions of all sections, which simplifies the winding of sections (improves manufacturability) and reduces the dimensions of the transformer;
b) the location of the holes, in which the distance between them is greater than the distance between any adjacent sections corresponding to them;
c) the presence of grooves on the inner cylindrical surface of the frame for fixing the internal conclusions of the sections.

 Thus, the claimed technical solution meets the criterion of "Novelty."

 An analysis of the known technical solutions (analogues) in the studied area and in related areas allows us to conclude that there are no signs in them that are similar to the essential distinguishing features in the claimed high-voltage transformer and to recognize the claimed solution in accordance with the "Significant differences" criterion.

 In FIG. 1 shows a high voltage transformer, cross section; in FIG. 2 - frame, longitudinal section.

 The high-voltage transformer contains a magnetic circuit 1, a primary winding 2, a main electrical insulation 3, a secondary winding consisting of a plurality of sections 4 having internal 5 and external 6 leads and laid in sections of the frame 7.

 In FIG. 2, the location of the holes 8 for the inner terminals of the secondary winding sections and the grooves 9 for fixing said terminals is explained.

 The use of the invention in an experimental sample, which is a high-voltage transformer-rectifier module, led to a decrease in its dimensions and ensured ease of assembly and winding.

 The proposed device operates as a conventional step-up transformer, the primary winding of which is supplied with low alternating voltage, increasing the secondary winding.

 Compared with the prototype, the proposed high-voltage transformer has new properties, namely, smaller dimensions and increased manufacturability.

Claims (3)

 1. HIGH-VOLTAGE TRANSFORMER, containing a magnetic circuit, primary winding, main electrical insulation, secondary winding of N sections placed on a cylindrical frame having N + 1 baffles, characterized in that, in order to reduce the size and improve the manufacturability of the transformer, the conclusions of the sections of the secondary the windings are passed through holes made in the cylindrical wall of the frame, while the distance between the holes for the conclusions of any adjacent sections of the secondary winding is greater than the distance between these sec iyami.  2. The transformer according to claim 1, characterized in that the secondary winding is divided into an even number of sections, and the holes for the conclusions of the beginnings of these sections are symmetrical about a plane perpendicular to the axis of the frame and dividing it in half.  3. The transformer according to claim 1, characterized in that the grooves are made on the inner cylindrical surface of the carcass, the beginnings of which are the holes for the conclusions of the beginnings of the secondary winding sections, and the ends are the ends of the carcass, while these grooves are parallel to its axis.

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