SU723800A1 - Channel-type induction furnace - Google Patents

Description

The invention relates to the field of electrical engineering, in particular to induction channel furnaces with dual induction units. To increase the power and productivity of dual induction units, it is necessary to create the movement of metal through the channel, which allows to minimize overheating of the metal in the channel.

The construction of a double induction unit with a special funnel-shaped extension of the upper part of the central channel is known, which makes it possible to create a through motion of metal through the channel [1].

However, in this design, the metal movement in the channel is not intense enough,

Closest to the proposed furnace, the known one is an induction channel furnace containing a bath for molten metal, three vertical channels connected to the 25th bath connected by a horizontal channel, one tubular element adjoins the mouth of one of them, and at least one closed magnetic circuit with , on it 30 windings powered by alternating current [2].

A disadvantage of the known technical solution when creating a through motion of the metal is that the tubular element adjacent to the mouth of the Central channel increases the hydraulic resistance for metal flows flowing into the Central channel, and the electrically conductive material from which this tubular element is made. does not interfere with the passage of current through its walls, i.e. the introduction of the tubular element does not change the current spreading in the bath. All this reduces the intensity of the through metal flow.

The aim of the invention is the intensification of the through motion of the metal.

This is achieved by the fact that in the known construction of the induction channel furnace, a second tubular element is additionally installed, both elements are made of non-conductive material and are adjacent to the mouths of the side channels; the tubular elements are at least twice as high as the width of the side channel in the direction perpendicular to the coil of the inductor.

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The drawing shows the proposed inductive duct furnace.

The furnace contains a bath 1 with tubular elements 2 and a double induction unit. 3, consisting of side channels 4, a central channel 5 and a horizontal channel 6 connecting them, a closed magnetic circuit 7 is encircled by a winding 8, powered by alternating current.

The height of the tubular elements is not less than two times the width b of the side channel 4. The tubular elements 2, which are adjacent to the mouths of the side channels, cause the current induced in the channel to pass through the metal inside them, and then round the tubular elements, spread in the zone between them, since they are made of non-conductive material. Such a curvature of the streamlines at the outlet of the tubular elements contributes to the intensification of vortices that “pull” ¹ metal from the side channels.

The use of an induction channel furnace of the proposed design in comparison with existing structures makes it possible to increase the intensity of the through metal movement through the channel with various schemes for switching on inductors - consonant or counter; create a symmetrical and stable movement of the metal through both side channels, which ensures the same working conditions for the symmetrical parts of the lining of induction units and increases the service life of the lining.

The experiments conducted on the model of a double induction unit showed that in the presence of tubular elements adjacent to the mouths of the side channels, the flow rate of metal and metal along the unit channel is 2-5 times ³ higher than in the absence of these elements.

Claims (2)

Claim 1. Induction channel furnace containing a bath for molten metal, three vertical communicating with the bath channel connected 15 horizontal channel, to the mouth of one of which is adjacent a tubular element, and at least one closed magnetic circuit with a winding placed on it, fed by a variable 20 current, characterized in that, in order to intensify the through motion of the metal, an additional tubular element is additionally installed, both elements are made of non-conductive material and are adjacent to the mouths of the side channels. 2. The furnace according to π.1, characterized in that each tubular element is not less than twice as high as the width of the side channel in the direction perpendicular to the axis of the inductor.