SU503637A1 - Device for dosing and dispensing liquid metals - Google Patents

Description

(five).

DEVICE FOR DOSING AND DISCHARGE OF LIQUID METALS

The invention relates to non-ferrous metallurgy and can be used to supply continuous casting plants with liquid metal.

A device for dosing is known.

and dispensing liquid metals consisting of a dispensing container, a dispensing nozzle, and an inductor.

The purpose of the invention is to improve the reliability of the device in operation, to increase the degree of regulation of the rate of flow of a liquid metal and to prevent the effect of a traveling magnetic field on the metal.

This is achieved by the fact that

a part of the nozzle is placed with a radial and face gap in the glass, fixed on the bottom of the container and clipped by an inductor running a magnetic field.

Top of the issued pipe

equipped with a mechanism for adjusting its height, and an adjusting needle is installed at the bottom of the glass.

Lower part (whose dispensing nozzle is made of (JifppOMrtrHirniorn material, and

it is equipped with an internal shield of conductive non-magnetic material.

The drawing shows the proposed device.

It has a lined dispensing container 1 with a lid 2, in which movably using a bellows 3 is installed issued outlet 4. In the lower part of the container 1 there is a removable stack 5, wrapped around the inductor 6 running magnetic field. In the bottom of the glass 5, an adjusting needle 7 is installed, above which, not income to the bottom of the glass and with a radial gap, is located the lower part of the dispensing nozzle 4, which can be made of ferromagnetic; material and is equipped with a screen 8,; installed in the lower part of the dispensing nozzle 4,

; The dispensing container 1 can be: provided with a heater 9. The lid 2 on the container 1 can be installed hermetically with the help of a pressure seal 10 and is equipped with a vacuum pipe 11. On; the cover 2 is equipped with a lever 12, which is interacting with the flange 13, mounted on the outlet nozzle 4. The driver 6 can also be installed with the possibility of height adjustment.

The metal is poured into the container 1 and, if necessary, is heated by the heater 9. For metering and output of the metal, inductor 6 is turned on so that the traveling magnetic field is directed from top to bottom. In this case, in the liquid metal located between the wall of the glass 5 and the dispensing nozzle 4, currents are generated that form a magnetic field that interacts with the traveling magnetic field of the inductor 6. As a result of the interaction of the traveling and induced magnetic fields, the metal between the walls of the glass 5 and the dispensing nozzle 4, is injected downward and pumped out through the dispensing nozzle 4. In this case, the running magnetic backside is closed through the metal in the gap and the lower end of the output nozzle, the conductive non-magnetic shield 8 prevents the impact e running magnetic field on the metal located in the outlet nozzle 4. Regulation of the issue can be carried out with a change in the power supply of the inductor 6, and the extension of the outlet nozzle 4 by the lever 12 for the flange 13 fixed to the outlet nozzle 4. In this part of the lower end nozzle 4 leaves the zone of action of the inductor 6 and the electromagnetic effect on the metal decreases, since the lower part of the output pipe plays the role of the core of an electromagnetic pump. The same effect can be achieved by adjusting inductor b on the viewpoint.

The throttling of the ejected flow can be accomplished by lowering the ejected nozzle .4 in the manner described above onto the needle 7 until it stops.

The device in the process of issuing mogul j can be under vacuum, while the air is pumped out through the pipe 11, the vessel 1 is sealed without metal can be carried out by lowering the dispensing pipe 4 on the needle 7.

The device, in addition to the wide range of regulation of the emitted metal dose, simplicity and reliability in operation, allows easy installation and replacement of metal-eroded parts - the lower part of the dispensing nozzle 4 and the cup S, also provides an easy cleaning of the lower part of the nozzle 4, most overgrown. This cleaning is carried out by lowering it onto the needle 1, as if by calibration.

Claims (3)

1. A device for metering and dispensing liquid metals, consisting of a dispensing container, a dispensing nozzle and an inductor, characterized in that, in order to increase the reliability of work, the lower part of the dispensing nozzle is placed with a radial and face clearance into the glass, the latter is fixed on the bottom of the container and wrapped by an inductor running magnetic field 2. The device according to claim 1, that is, UI e so that, in order to increase the degree of regulation of the flow rate of the liquid metal, the upper part the dispensing nozzle is equipped with a height adjustment mechanism, and an adjusting needle is installed in the bottom of the glass, 3. The device in accordance with clauses 1 and 1, so that in order to prevent the impact of a traveling magnetic field on the metal, the lower part of the outlet pipe is made of ferromagnetic material and is provided with an internal screen made of conductive material