SU1664459A1 - Apparatus for electromagnetic casting of metal - Google Patents

Abstract

The invention relates to foundry, in particular to the dosed casting of non-ferrous metals. The purpose of the invention is to improve the quality of the metal by refining it. The device contains a container 1 with metal, in which the MHD pump is located, made in the form of a disk chamber 2 with an intake pipe 3 and an outlet pipe 4. In the intake pipe is placed with a gap hollow electrode 5 with channel 6, blocked by a gas-permeable nozzle. When the pump is turned on, a pressure drop occurs in the metal in the area of the intake 3 and the outlet. As a result, the liquid metal is drawn through the gaps between the electrode 5 and the nozzle 3 into the disk chamber. Through channel 6 and nozzle 7, gas is supplied, which creates a curtain from the penetration of non-metallic inclusions into the disk chamber. As a result, the metal entering the disk chamber is cleaned. 1 il.

Description

The invention relates to foundry, in particular to the dosed casting of non-ferrous metals.

The purpose of the invention is to improve the quality of the metal by refining it.

The drawing shows the proposed device for casting.

The device contains a container 1 with molten metal, in which a magnetodynamic pump is located, which is a disk chamber 2 with intake 3 and outlet 4 nozzles. In the intake pipe is located with gaps electrode 5 with filament 65 blocked refractory gas-permeable nozzle 7. The other electrode 8 is installed in the exhaust pipe. The drawing shows the location of the nozzle at the end of the hollow electrode, when it is located coaxially with the electrode.

The device works as follows.

The pump is immersed in the molten metal so that the disk chamber 2 with the intake pipe 3 is filled with liquid metal. An electrode 5 with a gas-permeable nozzle 7 is introduced into the intake pipe with a gap. When voltage is applied to the electrodes, the working current passes through electrode 5, then through the liquid metal into the disk chamber 2 and closes to electrode 8 located in the outlet 4. In the disk The chamber as a result of the interaction of current and magnetic flux from a separate source of a magnetic field (not shown in the drawing) produces a field of ponderomotive forces. driving the liquid metal into rotation, which leads to a pressure drop of the metal in the intake and exhaust zone

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nozzle. By virtue of this, the liquid metal is sucked through the gaps between the hollow electrode and the intake manifold into the disk chamber and then enters the discharge port. In synchronization with the start-up of the pump, gas is supplied through the channel 6 of the electrode 5 and the refractory gas-permeable nozzle 7 into the molten metal. The gas, coming out through the gaps between the hollow electrode and the nozzle, forms, as it were, a curtain from the penetration of non-metallic inclusions into the disk chamber, and also interacts with the gas in the molten metal, carrying out the sro with bubbles of injected gas to the surface. the disk chamber receives a metal that is cleaner compared with the metal in the bath, which provides an improvement in the quality of the metal of the castings, h also increases the service life of the pump due to a decrease3

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nor the overgrowth of the inner walls of the pump with non-metallic inclusions. Kooma t- The device provides a possible .- control of the rate of distribution of the metal by counteracting the metal in the flow rate of the injected gas.

Claims (1)

The invention The device for electromagnetic razpivka metal containing a container for the metal, in which the magnetodynamic pump is located with intake and outlet nozzles and electrodes, from which, in order to increase the quality of the metal due to its refining, one of the electrodes is made with a central channel for gas supply, blocked by a refractory gas-permeable material and installed in the intake manifold.