CS222767B1 - Multi-row inductor for induction heating of metallic materials - Google Patents

Abstract

The multi-row inductor according to the invention uses energy from the scattering part of the inductor turns using a new design, the essence of which is that the lengths of the inner working parts of the turns to the lengths of the outer scattering parts of the turns are always in such a ratio that the total magnetic flux of all rows of the inductor is the same.

Description

SUMMARY OF THE INVENTION The present invention provides for the construction of a multi-row inductor for the production of metal rituals administered to the inductor in multiple rows.

The known multi-row inductors are made up of one or more turns in series or parallel connection. The working part of the thread, in which the material is inductively heated, is formed by the inner part of the thread. There is a full cumulative magnetic flux. The outer parts of adjacent coils, where only the ‘'scattering magnetic flux is closed, are not yet used in the known inductors for the actual heating of the material. This radiated energy is converted into heat in the mass of the inductor and is dissipated from it by cooling water without use.

The multi-row inductor for inductively heating the metallic materials of the invention utilizes energy from the scattering portion of the inductor's threads. Its essence lies in the new design, which is dependent on the lengths of the internal working parts of the threads to the lengths of the external scattering parts of the threads in such a ratio that the summative magnetic flux of all inductor rows is always the same.

By using the scattering section of the inductor of the present invention to heat the material, the specific power consumption is reduced by 25-30% compared to known inductors. In addition to increasing the inductor's energy efficiency, the inductor's weight and machine working surface are reduced. for heating served on a circular path.

The construction of the known multi-row inductor is shown in Figs. 1 and 2. In Fig. 1, there is a three-row inductor that forms parallel threads; Fig. 2 also has a three-row inductor, but with three series threads.

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3 and 4. FIG. 3 shows a three-row series inductor in which the material fed to the inductor in rows A and C enters threads JL and 2 at full magnetic flux. The heating of the material in the B-series involves an inter-threaded scattering unit (vertical hatching) with 50% power compared to the A and C series and the missing 50% power is supplied by thread 3, with full magnetic flux whose length is proportional to the A-length. C 1: 0.5.

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Giant. 4 shows a four-row series inductor in which the material fed to the inductor in rows A, B, C, D enters the full magnetic flux windings 1, 2. In rows B and C, the inter-threaded diffuser part with 50% power (vertical hatching) participates in the heating of the material and the missing 3 and 4 threads are supplied with the length of the threads 1 and 2 1: 0.66 to 1: 0.85.

Application of the invention is possible on machines for induction heating of extracts of Ms and Fe materials, for example for machines for induction heating of ball ammunition. The shape of the inductors according to the invention can be used in all induction heating machines both for annealing and for quenching small metal parts produced and heat-treated in large series. This may be the heat treatment of either all or some of the parts fed by the machine to the inductor in multiple rows.

Prerequisites for the application of the invention are in the sectors of general engineering, heavy engineering and electrical engineering.

Claims (1)

Multi-row inductor for inductive heating of metallic materials, characterized in that the lengths of the internal working portions of the threads are always in relation to the lengths of the external scattering portions of the threads in a ratio of 1: 0.5 to 1: 0.85.