SU913610A1 - Inductor for flash smelting of metal - Google Patents

Description

The invention relates to induction heating, and specifically to melting in suspension, and can be used for casting parts from refractory chemically active electrically conductive materials. ®

Known inductors for melting in suspension, consisting of two coaxially sequentially installed sections [1]. ' ten

The disadvantages of the known inductors is. relatively slow melt pouring out of the inductor, made manually by the operator, and melt sticking to the lower coil of the inductor when the melt mass ¹⁵ is large for a given inductor.

The closest in technical essence to the invention is an inductor for melting in suspension, containing two sections coaxially mounted along the vertical axis of water-cooled turns, the current in which is directed in antiphase [2].

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The disadvantage of this inductor is the slow manual drinking of the melt and the impossibility of automating the process.

The purpose of the invention is to increase the speed of pouring the melt and its automation.

The goal is achieved by the fact that in the specified inductor lower! the section is made of no less than two parallel turns, the lower of which is provided with make contacts ..

The drawing shows an inductor for melting an electrically conductive material in a suspended state, an objective view.

The inductor contains two sections. The lower section consists of coils 1 and 2. Coil 1 is equipped with make contacts 3. The device contains an electromagnet 4. A load 5 of electrically conductive material, 6 - a mold.

The inductor works as follows.

In the process of melting load 5

Both turns 1 and 2 of the lower section are independently connected to the source

3 913610 4

Ku power with a frequency of not less than 200 kHz, in such a way that the currents flowing through them create magnetic fields under a suspended melt that coincide in phase.

The current flowing through the coil of the upper section, at the same time, creates a magnetic field opposite the weighted melt and an antiphase field of the lower section. Load 5 is melted in suspension. YU

For pouring out the melt and automating it without contact with the sections, turn on the electromagnet 4, which closes contacts 3. In the resulting short-circuited coil 1, an in-diped current from coil 2 arises. The field under the weighted melt 5 is locally weakened and the melt quickly pours out in the mold 6.

Due to the fact that the ratio P / D ^and 20 ° 10, where K? - active resistance

loop 1 (ohm) and ί, - its inductance (H), the field to the melt is locally weakened in a time less than 10 ^'4 SV result pouring speed races 25 smelt is increased in comparison with the known device is not less than on order. In addition, the process of pouring melt becomes easily accessible automation compared with the known, 30

in which the operator is required high qualification.

The application of the proposed inductor provides fast and reliable pouring when casting small products from refractory conductive materials in mass production.

Claims (1)

Claim I Inductor for melting metal in suspension, containing two coaxially mounted on the vertical axis section of water-cooled coils, the current in which is directed in antiphase, characterized in that, in order to accelerate the discharge of metal and automation of the process, the lower section is made of at least two parallel turns, the lower of which is equipped with make contacts