The present invention relates to the structure of an arc furnace used in metallurgy. More precisely, the invention relates to the electric insulation of the lid of an electric furnace, particularly a closed arc furnace.
An electric furnace used in metallurgic processes, for instance in the manufacturing of ferrochromium, is composed of a vessel and a lid, as well as electrodes lead through the lid. The lid is provided with lead-throughs for three generally Söderberg-type electrodes, and apertures for gas outlet and raw material feed. It is important that the electrodes are electrically insulated from the lid for preventing breakdowns and for securing safety at work. Electric insulation is particularly important in cases where the structure of the lid, i.e. the vault, is mainly made of steel and thus represents electroconductive material. The lid is arranged to extend as far as the vessel edges, and generally the lid also is insulated both from the vessel and the ground. Moreover, both the electrode lead-throughs and the junction between the vessel and the lid must be gas-tight for conducting process gases out of the furnace in a controlled way. Usually the lid sealing and the electric insulation from the vessel are realized by means of a so-called sand seal, where the gap between the lid and the top edge of the vessel wall is filled with sand.
The Finnish patent publication 81,197 suggests a solution for sealing the electrodes of an electric furnace and for insulating them from the lid. Said publication introduces a solution for fitting the electrode and for insulating it from the vault, so that around the electrode, there are arranged contact shoes and a pressure ring, and from the vault upwards, around the electrode structure, there is placed a closed lead-through basin with several segments, which basin is cooled by means of water circulation. The lead-through basin is insulated from the vault by means of a protective mass layer that is formed on the vault side, between the vault and the lead-through vessel. Above the lead-through basin, there are arranged two superimposed sealing segments that ensure a reliable and flexible sealing structure and make it possible to move the electrodes back and forth in the vertical direction.
For ensuring a non-disturbed operation for the process, and for improving safety at work, there is a need to find extremely secure electric insulation solutions for steel-structured lids. The object of the present invention is to create a reliable electric insulation system for electrodes in the lid of a steel-structured arc furnace. The now developed electric arc furnace lid and the advanced electrode lead-through eliminate some of the drawbacks connected to the prior art and result in an extremely reliable, safe and easily maintained lid solution.
In regular steel-structured lids of arc furnaces, the lining arranged underneath the lid generally extends as uniform lining over the whole area of the lid. When the lid needs partial maintenance, for example when replacing the lead-throughs, the interior lining of the lid must be repaired, and easily the whole lining must be replaced. This naturally extends the interruption of the productive process and thus causes extra expenses.
Thus it is advantageous to construct the lid for an arc furnace of at least three panels that are bolted together. This kind of solution enables a rapid and flexible maintenance for damaged parts of the lid, so that the whole lid with linings need not be replaced.
The electric arc furnace lid according to the invention is a water-cooled structure made of steel, where an essential element is a water-cooled and electrically insulated lead-through casing for electrodes. The lid can be a self-bearing structure realized so that the steel structure forms a double casing, and in between said casing there is formed a box-like channel system for the cooling water circulation. The cooling-water channel is outlined by the casings of the top and bottom part of the lid, as well as essentially vertical partition walls arranged between said casings. The underneath surface of the steel lid is provided with refractory lining that is in contact with the steel structure. The lid can also be provided with steel anchors for supporting the lining against the lid.
The arc furnace lid according to the invention comprises at least six electrically insulated segments that are bolted together, three of which segments form the lid center part, so that each segment of the center part outlines one electrode lead-through, as well as at least three segments constituting the outer perimeter, said segments being electrically insulated from each other and from the center part segments. Moreover, there can be provided at least one center segment that mutually separates the three center part segments. There is thus created a lid insulation system for ensuring that electrodes electrically connected to the different process steps cannot be interconnected through the lid, and that the electrodes are insulated from the vessel in a triple form. Said insulations constitute insulations arranged in the electrode lead-throughs, lid segment insulations conforming to the perimeter, radial insulations between the segments and a sand seal arranged between the lid and the vessel. The radial segment insulations outline a uniform segment, inside which one electrode is left.
The segments of the lid can be constructed of one or several mutually attached panels. The essential thing is that the lid is divided by panels to the above described, mutually insulated at least six segments.
The invention is described in more detail below, with reference to the appended drawings.
In
The steel double casing structure of the lead-through casing 406 is insulated from the sealing segment 408 by an insulation layer 434, which is arranged between the flange of the top surface of the double casing structure and the sealing segment 408. The lead-through casing 406 is insulated from the furnace lid, i.e. from the vault 437 by an insulation 435 provided between the flanges.
Number | Date | Country | Kind |
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20050460 | Apr 2005 | FI | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FI2006/000134 | 4/25/2006 | WO | 00 | 10/2/2007 |