RU2080677C1 - Transformer - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: transformer secondary winding is three-dimensional turn that has coaxially arranged current-conducting cylinder 6 and central conductor 3. Transformer secondary (output) winding has two pairs of leads 1, 3 connected to two inductors 7, 8 (load) and two switches capable of shorting out these two pairs of leads thereby shorting out inductors connected to them. This makes it possible to operate into two inductors when switches are open, that is, to treat two parts at a time, or to operate into one inductor, with one switch closed, and to provide for on-line change-over to other inductor in case of changing process or size of treated part. EFFECT: enlarged functional capabilities. 2 cl, 2 dwg

Description

The proposed transformer can be used to coordinate the low-impedance load with the output of the generator, for example, in industry for induction processing of materials (soldering, hardening, melting, etc.)
Known designs of transformers on toroidal cores, in which one of the windings, made in the form of a cylindrical coaxial container, has one pair of terminals [1] Only one inductor (load) can be connected to these terminals to perform one specific technological operation (soldering, hardening, melting etc.).

 The closest technical solution (prototype) is a transformer [2] containing a toroidal core, with a multi-turn primary winding, and a secondary (output) winding made in the form of a cylindrical coaxial container.

 The disadvantage of this prototype and analogues is their limited functionality, namely; a transformer with one inductor can perform only one technological operation with one standard part size.

 When switching from one technological operation to another or when changing the size of a part, it is necessary either to change the inductor, which is a rather time-consuming operation, or use another transformer with another inductor.

 The aim of the invention is to expand the functionality of the transformer due to the fact that two inductors (the same or different) can be connected to its secondary (output) winding at the same time and work either simultaneously on these two inductors, or on any one of them without removing the other.

 This is achieved due to the fact that the secondary (output) winding of the transformer has two pairs of terminals to which the inductors are connected and two switches, which these two pairs of terminals can short-circuit, thereby shunting the connection of the inductor to them.

 In FIG. 1 shows an electrical diagram of a transformer; in FIG. 2 shows a special case of the design of the transformer.

 The proposed transformer has two pairs of terminals 1 and 2, as well as 3 and 4 of the secondary coaxial winding (volume coil), consisting of a central conductor 5 with threads at the ends and an external conductive cylinder 6. The role of the keys of the switches S1 and S2 is performed by the conductive nuts 7 and 8, which, moving along the threads at the ends of the central conductor 5, can close or open the terminals 1 and 2, as well as 3 and 4, respectively.

 Inside the coaxial secondary winding there is a toroidal core 9 with a multi-turn primary winding 10 wound on it.

 If one (first) switch S1 is open, and the second S2 is closed, then the transformer operates on the first inductor connected to pins 1 and 2 of the open (first) switch S1.

 If the second switch S2 is open and the first S1 is closed, then the transformer operates on the second inductor connected to the terminals 3 and 4 of the second switch.

 If both switches are open, then the transformer operates on both inductors simultaneously.

Claims (2)

 1. A transformer comprising a toroidal core with a multi-turn winding wound on it and a volume coil of another winding containing a coaxially arranged conductive cylinder and a central conductor, characterized in that the ends of the conductive cylinder and the central conductor are provided with switches configured to electrically connect the end of the conductive cylinder with the corresponding end of the Central conductor for this side of the transformer and opening them from each other, while The indicated ends of the cylinder and the central conductor are the terminals of the volumetric coil of the transformer and are designed to connect inductors or other loads to them.  2. The transformer according to claim 1, characterized in that the keys of each of these switches installed on the ends of the cylinder and the central conductor are made in the form of a thread on the ends of the central conductor and nuts screwed onto it from conductive material.

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