RU2027238C1 - High-current transformer - Google Patents

Abstract

FIELD: resistance welding. SUBSTANCE: secondary winding is made in form of single or two bundles of flexible wires. Each bundle is put into internal cavity of torus in N sections, and in N-1 sections onto external surface of the torus, where N is number of turns. Bundles are connected together at the start and end points of winding and are supplied to consumer. EFFECT: improved efficiency. 2 cl, 1 dwg

Description

 The invention relates to electrical high-current equipment and can be used, for example, in devices for resistance welding.

 Known transformer (ed. St. USSR N 431561), in which the secondary winding is made in the form of a container consisting of cylinders and disks.

 Its main disadvantage is the difficulty in ensuring reliable electrical connections between the components of the container, as well as tap-off conductors. Connection by welding is difficult, since, for example, copper parts have high thermal conductivity, and during welding the entire structure, in which the primary winding is already enclosed, is very hot.

 Also known is a transformer (French patent N 2323215), which has one turn of the secondary winding.

 However, in many cases, one turn does not provide sufficient voltage on the secondary winding.

 The purpose of the invention is to increase the specific power, reduce losses and simplify the design of the transformer.

 The goal is achieved in that the secondary winding is made of a bundle of flexible conductors. With N turns of the secondary winding, it is laid in N sections in the inner cavity of the torus, and N-1 sections on the outer surface of the torus in one or more layers.

 The secondary winding can be made by two or more bundles of conductors located in the corresponding number of sectors of the torus and connected at the beginning and end of the winding.

 Performing a secondary winding with a bundle of flexible conductors arranged in this way makes it easy to carry out a winding with a large total cross section of two or more turns without any intermediate connections, ensuring complete filling of the inner cavity of the toroidal core and its outer surface.

 This technical solution has significant distinctive features in comparison with the prototype.

 As a result of the search, solutions known in science and technology containing the above features were not found.

 The drawing shows a transformer.

 The transformer circuit consists of a toroidal core 1, a primary winding 2 and a secondary winding, which in this case has three turns and is laid by two bundles in two circular sectors 3 and 4 of the torus. In each circular sector of the torus, bundles of conductors are laid in the inner cavity of the torus in three sections 5, 7 and 9, and on the outer surface of the torus in two sections 6 and 8.

 Each of the two bundles of flexible conductors forms three turns of the secondary winding as follows. The bundles of conductors enter the section 5 from the outside, then go to the outside of the torus in section 6, then go to the inner cavity in section 7, then again go to the outer surface in section 8 and enter the inner cavity in section 9. At the entrance to section 5 and at the exit from sections 9, the beams are connected.

A manual apparatus for resistance spot welding with a specific transformer volume of about 0.3 dm ³ / kA was manufactured and tested.

Claims (2)

 1. A HIGH-CURRENT TRANSFORMER, for example, for resistance welding, comprising a primary winding located on a toroidal core and a secondary winding covering the primary, characterized in that, in order to increase the specific power, reduce losses and simplify the design, the secondary winding is made of a bundle of flexible conductors laid in the inner cavity of the torus by N sections, and on the outside of the torus by N - 1 sections, where N is the number of turns of the secondary winding, and on the outside of the torus the bundle is laid in one or more layers.  2. The transformer according to claim 1, characterized in that the secondary winding is made of two or more beams located in the corresponding number of sectors of the torus and connected at the beginning and end of the winding.

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