SU438858A1 - Induction Channel Furnace - Google Patents

Description

one

The invention relates to metallurgy and can be used in the foundry industry in the smelting of metals in an induction furnace.

Iron core induction channel furnaces are known that allow degassing of molten metallic materials.

The disadvantage of such furnaces is that the effect, positive from the point of view of gassing, leads to the rupture of the liquid metal coil, through which the induced current flows, to the height of the lining due to the pinch effect in this zone and the malfunction of the installation.

In order to increase the volume of the cavities of the dilution behind the throttling nozzles and ensure the stability of the nozzle of the proposed furnace, they are made with electrically conductive tides recessed into the intake channels and the throttling holes in the upper part of the nozzles, the internal cavities of which are connected by channels with the pumping system. In addition, the channels for venting gas from the vacuum cavity are made in the lining of the bath, and the total cross-section of the holes in the flow is 0.3-0.5 of the flow area of the conductive tide.

FIG. 1 shows an induction channel circuit diagram with nozzles installed on the intake channels; in fig. 2 — device for creating hydraulic resistance.

The induction duct includes the winding of the inductor 1, the winding of the electromagnet 2, the channel-source 3, the bath 4 of the liquid metal; 5 holes in the nozzle; the upper part 6 of the nozzle, the intake channels 7 and 8, the channel 9, stuffed lining 10 crucible furnace and conductive

tide 11 nozzles.

The device for creating a hydraulic resistance (Fig. 2) is a bell-shaped nozzle with openings 5 in its upper part 6 for flowing liquid metal. The total cross section of the holes in the nozzle is 0.3-0.5 of the flow area of the conductive tide 11 at the bottom of the nozzle. Such a cross section provides a throttling effect and creates the necessary discharge in the nozzle cavity 12. The nozzle flange 13 is installed directly on the bottom of the furnace crucible 14, and the conductive tide 11 of the nozzle, having the shape of the furnace channel, is then inserted into the channel on

30-100 mm.

By means of a hole 15 made in the bottom flange 13 of the nozzle, the cavity 12 communicates with the atmosphere or the pumping system through a channel 9 made in the lining

crucible stove.

Subject invention

Claims (3)

1. An induction channel furnace with an iron core, including nozzles for throttling the flow, installed at the mouth of the intake channels, characterized in that, to increase the volume of rarefaction cavities behind the throttling nozzles and ensure stable operation of the installation, the nozzles are made with electrically conductive tides recessed into fence channels. and throttling openings in the upper part of the nozzles, the internal cavities of which are connected by channels with the rocker system. 2. Furnace according to claim 1, characterized in that the channels for venting gas from the vacuum cavity are made in the lining of the bath. 3. The furnace according to claim 1, wherein the total cross-section of the holes in the nozzle is 0.3-0.5 of the flow area of the conductive tide. 15 9 YU Rig 1