SU1042877A1 - Apparatus for refining metal in jet - Google Patents

Abstract

1. A DEVICE FOR REFINING METAL IN A JET containing a lined casing with successively located in it a metal pipe of an inert gas inlet manifold and a drain hose, characterized in that, in order to improve the quality of the ingot due to more effective refining of the cast metal, it additionally contains lined chamber to protect the metal jet from the secondary oxidation, located above the metal pipe of the inert gas inlet manifold, porous refractory ring located in the lining of the core whisker holes in the zone of input inert gas manifold, and an annular output collector metalloprovoda inert gas and a suction device disposed between metalloprovoda reservoir injection of inert gas and a drain hose. (L o 00 |

Description

2. A device according to claim I, characterized in that the length of the upper part of the metal conductor of the inert gas inlet manifold from its upper end to the level at which the centers of the inert gas supply holes are located is 2-5 times smaller than the length of the lower part of this metal conductor same level to its lower end.

3. The device according to paragraphs. 1 and 2, characterized in that the length of the metal pipeline of the collector

The inert gas inlet is 1.5–6 times larger than the length of the metal pipe of the inert gas outlet collector, and its cross section is 2–6 times smaller than the cross section of the metal pipeline of the inert gas outlet collector.

4. The device according to PP. 1-3, characterized in that the porous ring is made of composite height, and its upper part has a gas permeability of 2-3 times greater than the lower part.

one

This invention relates to ferrous metallurgy, in particular to the continuous casting of steel.

A device for degassing and refining is known, consisting of a sealed container with a lid connected to a vacuum wire and a gas supply pipeline, the lid being designed as a cylindrical container with holes in the bottom. The gas passing through the holes in the liquid metal contributes to its degassing and the removal of non-metallic inclusions. After stopping the supply of inert gas in the tank, a vacuum of 1–5 mm Hg is created. Under the action of atmospheric pressure, the liquid metal through the holes enters the tank, splashing into numerous jets, which, in combination with low pressure, leads to a high degree of its degassing 1.

The disadvantages of this device are the frequency of operation and complexity in operation associated with the fading of the holes.

A device for steel casting, consisting of a steel-teeming cup with a height-varying porosity, a collector and nozzles for supplying an inert gas 2, is known.

Said device does not protect the jet of metal from secondary oxidation.

A device for refining metal in a jet is known, comprising a lined housing with a metal conduit of an inert gas inlet manifold and a drain hose arranged in series with it, designed to protect the metal jet from secondary oxidation, degassing and removal of non-metallic inclusions. 3

However, it does not provide a high degree of degassing and removal of nonmetallic inclusions, since a large part of the inert gas is spent on blowing the jet, and the emerging nonmetallic

the inclusions remain on the surface of the bath of liquid metal in the mold. In addition, intense bubbling occurs in the hole of the liquid metal. All this negatively affects the quality of the resulting slit.

The aim of the invention is to improve the quality of the ingot due to more efficient refining of the cast metal. The goal is achieved by the fact that

A device for refining metal in a jet, comprising a lined body with successively located metal pipeline for an inert gas inlet manifold and a drain hose, further comprises a lined chamber for protecting metal streams from secondary oxidation, located above the metal pipe for an inert gas inlet manifold, porous refractory ring located in the lining of the housing in the area of the holes of the collector

0 an inert gas inlet, and an inert gas inlet ring with a metal pipe and a suction device located between the metal pipe of the inert gas inlet collector and a drain hose.

The length of the upper part of the metal pipe of the inert gas inlet manifold from its upper end to the level at which the centers of the inert gas supply ports are located is 2-5 times less than the length

0 the lower part of this metal pipe from the specified level to its lower end.

The length of the inert gas inlet gas collector is 1.5-6 times longer than the length of the inert gas intake manifold, and its cross section is 2-6 times smaller than the cross section of the inert gas inlet manifold.

The porous ring is made of composite height, and its upper part has a gas permeability of 2-3 times greater than

bottom part.

Claims (4)

1. DEVICE FOR REFINING METAL IN A JET, containing a lined body with a metal conductor of an inert gas inlet collector and a drain sleeve in series, characterized in that, in order to improve the quality of the ingot due to more efficient refining of the cast metal, it additionally contains a lined a chamber for protecting the metal stream from secondary oxidation, located above the metal wire of the inert gas inlet manifold, a porous refractory ring placed in the lining of the housing in e collector apertures injection of inert gas and an annular output collector metalloprovoda inert gas and a suction device disposed between metalloprovoda reservoir injection of inert gas and a drain hose. 2. The device according to π. 1, characterized in that the length of the upper part of the metal wire of the inert gas inlet collector from its upper end to the level at which the centers of the inert gas supply holes are located is 2-5 times less than the length of the lower part of this metal wire from the same level to its lower end . 3. The device according to paragraphs. 1 and 2, characterized in that the metal wire length of the inert gas inlet collector is 1.5-6 times longer than the metal wire length of the inert gas outlet manifold, and its cross section is 2-6 times less than the metal wire section of the inert gas outlet manifold. 4. The device according to paragraphs. 1-3, characterized in that the porous ring is made integral in height, and its upper part has a gas permeability of 2-3 times greater than the lower part.