SU653628A1 - Pulse high-voltage transformer - Google Patents

Description

The goal is achieved by the fact that in a well-known high-voltage pulse transformer containing a toroidal magnetic core, primary and secondary windings placed on a frame, a high-voltage output, oil-tight tank, transformer tank is made in the form of an insulating toroid consisting of two parts primary winding. Radial annular insulating projections are made on the outer surface of the secondary winding frame, on which the transformer tank rests, the high-voltage output winding is made of cable, and the demagnetization winding is placed on the outer surface of the insulating end.

The design of the high voltage pulse transformer makes it possible to get along without a metal tank and porcelain insulators. This is achieved by the fact that the secondary winding is placed inside an insulating sealed tank of a toroidal shape, and the primary winding is placed on its outer surface, and the secondary winding frame has radial annular projections on which the transformer tank rests. Making the transformer tank insulated in the form of a toroid allows reducing the insulating distance between the secondary winding and the transformer tank, which in turn makes it possible to obtain a reduction in size and weight.

The main component of the weight of a high voltage pulse transformer is a core with windings that represent its working part. The insulating sealed tank of a transformer provides the mechanical rigidity of its construction, being also a reservoir in which there is a liquid dielectric. The combination of liquid and solid insulation makes it possible to obtain high electric strength gradients.

The drawing shows a General view of the high-voltage pulse transformer in the section.

The high-voltage pulse transformer contains a magnetic core 1, consisting of toroidal cores, on which squares 2 are placed, fastened with film insulation 3, between the film insulation and magnetic core a channel is formed through which the dielectric liquid penetrates, which improves the heat line from the magnetic circuit, the above elements are placed in insulating frame 4, which consists of two halves and has on the outer surface protrusions on which winding 5 is located, and several openings for access of oil to the magnetic circuit do

The frame 4 with the secondary winding 5 is placed inside the insulating tank 6, which consists of two halves and is sealed under a liquid dielectric. In the upper part of the tank 6 there is a high-voltage output 7 of the secondary winding 5. On the surface of the tank 6 there is a primary winding 8 with terminals 9 and 10. In addition, a demagnetization winding 11 is placed on the surface of the tank.

The high voltage pulse transformer operates as follows: a high voltage pulse source is connected to terminals 9 and 10 of the primary winding 8, and a high voltage pulse is removed from the terminal 7 of the secondary winding 5.

The high-voltage pulse transformer of the proposed type is effective in the range of output voltages 200-4-ZOOKV with a pulse duration (2-100) 10 s and a pulse repetition rate up to 1000 Hz. The use of solid and liquid insulation as an interwinding aggregate makes it possible to obtain high electric strength gradients, and the presence of a channel between the magnetic core and film insulation allows heat removal from the magnetic core, which is provided by the circulation of a liquid dielectric, as well as increasing the electrical strength between the secondary winding and magnetic circuit.

Claims (3)

1. A high-voltage pulse transformer containing a toroidal magnetic core, primary and secondary windings placed on a frame, a high-voltage output, an oil-tight tank, characterized in that, in order to reduce the size and weight, the transformer tank is made in the form of a sealed insulating toroid consisting of two parts, and on its outer surface there is a primary winding. 2. A transformer according to claim 1, characterized in that, in order to increase the electrical strength, the radial annular insulating protrusions on which the transformer tank rests are made on the outer surface of the frame, and the high-voltage terminal of the winding is made of cable. 3. A transformer according to claim, characterized in that a demagnetization winding is placed on the outer surface of the insulating toroid. Sources of information taken into account in the examination 1. USSR author's certificate 55 № 177523, cl. H 01 F 19/08, 1965. 2.Vdoviy S.V. Design of pulse transformers. “Energie, 1971, p. 100.