Metallurgical apparatus – Process – Plugging or tapping
Reexamination Certificate
2001-03-22
2002-12-31
Kastler, Scott (Department: 1742)
Metallurgical apparatus
Process
Plugging or tapping
C266S230000
Reexamination Certificate
active
06500382
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a method of and an apparatus for slag-free teeming of metal melt from a metallurgical vessel, e.g., a converter, according to which at the start of the teeming or pouring process, the slag melt, which covers the metal melt in the discharge region of the vessel, is forced back or is blown away.
When a metal is subjected to a thermal metallurgical process or to alloying in a metallurgical melt vessel, after conclusion of the process, the molten metal or the metal melt is covered with a molten slag or the slag melt.
During the teeming or pouring of the metal melt from a metallurgical vessel, there exists a danger that the originally available separation between the metal and slag melts, which is caused by swirling, is not available any more, and the slag melt is poured from the melt vessel together with the metal melt.
The oxidic slag, which is poured together with the metal melt, contains oxygen, which results in an additional consumption by aluminum, for a necessary deoxidation, of synthetic slags for absorbing oxides and calcium in order to modify the oxidic inclusions. The oxidation product, alumina (Al
2
O
3
), adversely affects the pouring characteristics, and the oxygen of FeO, which is contained in the slag, makes the desulphurization and degasification more difficult. Contrary to this, with a reduced slag content in the metal melt, e.g., “Clean Steel” handling of steel melt in secondary metallurgy is substantially facilitated, which plays a significant role, in particular, in production of steels with an ultra-low carbon content for producing flat products.
In order to reduce the flow of slag, together with the metal melt, different methods and apparatuses were proposed. Thus, German utility model DE298 08 318 U1 proposes to arrange around a discharge opening, which is formed in the vessel bottom, a plurality of gas-permeable, truncated cone-shaped rinsing blocks through which from beneath, in a direction opposite to the flow direction of the metal melt, a gas is injected into the metal melt. This measure should provide a swirl above the discharge opening.
WO 94/19498 suggests, for preventing flow of slag together with the metal melt through a discharge opening in the vessel bottom, providing of a jetting lance, which is inserted from above through the cover of the melt vessel, for blowing the slag melt away from the bath surface in the region of the discharge opening.
In accordance with another embodiment of the invention disclosed in WO 94/19498, the lance is introduced through a side opening in the vessel and is brought to a vicinity of the discharge opening. In this embodiment, the front end of the lance is bent downward, with the jet acting on the bath surface from above.
The drawback of both known methods and apparatuses consists in high investment and operational costs (wear of the lance and the rinsing blocks, high gas consumption) associated with prevention of flow of the slag together with the metal melt during discharge of the metal melt from a metallurgical vessel through an opening in the bottom of the vessel.
Another drawback of the proposed solutions consists in that with the slag melt being blown away from above, there exists a danger of swirling which can break the original separation of the slag and metal melts and which causes introduction of gases into the metal melt which is highly undesirable. In addition to the introduction of gases into the metal melt during introduction of gases with the lance, as a result of an “open-jet effect,” the surrounding air is introduced, together with the gases. Thus, in addition to the introduction of the undesirable nitrogen, introduction of the undesirable oxygen takes place.
Accordingly, an object of the present invention is to provide a method of and an apparatus for teeming of metal which would insure a slag-free teeming of the metal melt to a most possible extent by preventing swirling.
Another object of the present invention is to provide a method of and an apparatus for a slag-free teeming of the metal melt which would not require high investment and operational costs.
SUMMARY OF THE INVENTION
These and other objects of the present invention, which will become apparent hereinafter, are achieved by arranging, outside of the melt vessel and closely adjacent to the discharge edge of the vessel discharge opening, of a jetting lance an inclination of which relative to a bath surface in the vessel and spacing from the discharge edge is changeable, and by injecting, through the discharge opening of the melt vessel, immediately before start of teeming process and during the teeming process, a fluid jet having a high kinetic pulse energy substantially parallel to the bath surface for forcing the slag melt, which is located in the discharge region of the vessel, back from a surface of the metal melt, whereby pouring of the slag melt together with the metal melt is prevented.
The apparatus for effecting the above-described method includes a jetting lance located outside of the vessel opposite the discharge edge for forcing slag melt covering metal melt in a discharge region of the vessel back, and a manipulator for supporting the jetting lance and for changing an inclination of the jetting lance relative to a bath surface in the vessel and for changing spacing of the jetting lance from the discharge edge.
By directing, according to the present invention, a fluid jet with a high kinetic pulse energy somewhat parallel to the bath surface from the outside of the vessel sidewise against the slag melt layer, the slag melt is forced back from the discharge opening and is prevented from being poured out together with the metal melt. The forcing of the slag melt layer back from the surface of the metal melt, by directing a fluid jet substantially parallel to the bath surface, is effected without creation of any swirling. As a result, the drawbacks of the known solutions, according to which the jets are directed onto the bath surface from above which causes penetration of the slag melt into the metal melt, are eliminated by the present invention.
In order to insure that during the teeming process, the slag melt is constantly and in the desired manner is forced back from the metal melt in the discharge region, according to the present invention, the inclination of the jetting lance relative to the bath surface and the spacing of the jetting lance from the discharge edge of the metal melt are continuously changed and follow the pouring or discharge movement of the melt vessel.
In accordance with inclination positions of the melt vessel during the teeming process, the spacing of the discharge nozzle of the jetting lance from the exit edge varies from 0.1 m to 3 m, preferably from 0.2 m to 2 m, and the inclination of the jetting lance to the horizontal or to the bath surface varies from −15° to +60°, preferably, from −10° to +45°.
According to the present invention, for changing the position of the jetting lance, there is provided a manipulator on which the jetting lance is supported by a support mounted on a slide connected with the manipulator. For controlling the operation of the manipulator, there is provided a measuring and control system.
According to the present invention, the data, which characterize the melt vessel movement during the teeming process, are continuously collected and are communicated to a measuring and control system, which processes the data and generates control signals for controlling the operation of the manipulator.
According to the present invention, as an injected fluid, an inert gas, e.g. nitrogen or argon, is used. Also, a suitable liquid can be used for forming the injectable fluid jet.
According to the present invention, an opening of the discharge nozzle, which is provided at the lance front end, has a rectangular, substantially slot-shaped cross-section aligned with a horizontal or with the bath surface. The shape of the discharge opening of the discharge nozzle is adapted to the size of t
Fuchs Reinhard
Reichel Jan
Kastler Scott
Sidley Austin Brown & Wood LLP
SMS Demag AG
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