DE2829453A1 - BOILER OF AN ARC FURNACE - Google Patents

Description

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The invention relates to a boiler of an electric arc furnace, with a brick-lined stove, a brick-lined slag zone and a water-cooled boiler top.

Continuous water cooling has been used for many years used by highly stressed parts of the electric arc furnace. This is the upper edge of the boiler, around the slag door, around the slag door frame, which is usually composed of several cooling boxes, and, in the case of a split one Boiler, around the two flange parts of the boiler part joint. The cooling of the upper edge of the boiler and the Splashing the divided boiler primarily has the purpose of increasing the dimensional stability, i.e. changes in shape to avoid these parts as a result of thermally caused warping and distortion.

The task of cooling the slag door and its frame is to increase the dimensional stability and to reduce the damage caused by heat radiation from the melt and the arc, and damage caused by slag and melt splatter. This not only reduces the wear and tear of the steel surface, but also the wear and tear of the possibly existing refractory material covering the steel surface *

The performance of today's high-performance electric arc furnaces is increased by the increasing wear and tear of the ceramic lining of the furnace boiler and the furnace lid.

In the brochure "Korf-Fuchs system technology, steel production;

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Water cooling systems for electric arc furnaces "from the Gerhard company Fuchs KG, Grossapparatebau, Willstätt-Legelshurst, undated , two examples of cooling arrangements are described and illustrated. The boiler shell is through internal or external cooling box cooled on the a frame construction are attached. The cooling box consists of several parts, so that the cooling water distribution is expensive. The connection of the cooling box with the Frame construction is relatively complicated and there is a risk of cooling water leaks at the many connection points.

The invention specified in claim 1 is based on the object of providing a boiler of the type mentioned at the beginning create, which does not have the disadvantages of the known and allows a very simple construction in which the risk of leaks is kept as low as possible and still has a good effectiveness of the cooling is secured.

With the boiler according to the invention one achieves that the load-bearing function of the boiler upper part and the cooling Function of the cooling box is combined in one component. In this way, the overall structure is simplified Manufacturing costs are reduced and the risk of leaks is reduced by reducing the number of connection points.

Advantageous further developments of the invention are described in the subclaims. With the solution according to claim 2 a simple construction is achieved in which only one inlet and one outlet of the cooling water is necessary. A a large part of the furnace boiler is directly

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Siven water cooling, so that the stability of the Boiler top is guaranteed much better than in the previous embodiments. The constructive embodiment according to claim 3 ensures an advantageous circulation of the cooling water · in the cooling box. According to claim 4 the cooling water is guided helically with the help of the water guide plates. With the constructive embodiment according to claim 5 one achieves that by pulling up of the tapping spout, the parting line is not flooded by the melt even when tilting, so that the tightness the parting line does not have to be so high. As much as possible of the wear area remains lighter repairable boiler shell. The further development according to claim 6 offers the advantage that all brickwork can only be carried out at one point, namely at the lower part of the boiler. Replacing the boiler shell In this case, it is no longer necessary at all at the intervals previously required, which results in considerable operating costs can be saved.

The invention is explained in more detail below with reference to schematic drawings.

Pig. I shows a partial vertical section through a Boiler wall of an undivided boiler with a cooling box according to the invention.

Fig. 2 is a development of the cooling box, wherein im

The lower part also shows a development of the brick lining.

Fig. 3 shows a vertical partial section through the same 'Embodiment as shown in Figs

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if j is the partial cut, however, is through the tapping nose carried out.

Pig. 4 shows a partial section through another exemplary embodiment in which the parting line a split boiler between the boiler

The upper part and the lower part of the boiler are clearly visible.

Fig. 5 shows a vertical partial section through a

another exemplary embodiment of the invention with a higher brick lining.

According to FIG. 1, a lower boiler part 1 is connected to an upper boiler part 2. ^{A cooling box 2 f} , which is formed by an inner wall 3 and a cylindrical outer wall 4, forms an essential part of the upper part 2 of the boiler. The cooling box 2 'is closed with an upper edge plate 5 and is supported on a support plate 6 at the bottom. In the interior of the cooling box 2 ^f , water guide plates 7 are arranged, the course of which is better visible in FIG. An inlet 8 and an outlet 9 ensure the supply and discharge of the cooling water. Iron pieces 10 are attached, for example welded, to the inside wall 3 of the boiler. They solidify the cylindrical inside wall 3 of the boiler and also serve as a support means for a thin ceramic layer H ₃ which is sprayed onto the inside wall of the boiler. In the boiler lower part 1 is the solidly dimensioned brick lining 12, which is arranged in a container wall 13. A melt 14 is shown in the lining 12. In Figs. 2 to 5, the same parts are denoted by the same reference numerals. A tapping spout 15 in the brick lining 12 is also clearly visible in FIG. 2. Similar to FIG. 1, the flow directions of the

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Cooling water marked with arrows. In Fig. 3 is good the tapping spout 15 is visible. You can also see clearly that in this example the lining 12 is also above the tapping nozzle 15 is executed. According to Fig. 4 are executed two flange-like support plates 16, which are held together with a fastening arrangement 17, for example with bolts and wedges will. A parting line 18 is shown between these support plates 16, but this is for the sake of clarity is drawn because of thick. The further example embodiment according to FIG. 5 has a higher brick lining 12, and the cooling box 2 'is supported on the brick lining 12 via the support plate 6.

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Claims (6)

84/78 BBC Aktiengesellschaft. PL / ie Brown, Boveri & Cie. Baden (Switzerland) 2829453 Pat entansp. smells 1. Boiler of an electric arc furnace, with a brick-lined one Hearth, a lined slag zone and a water-cooled boiler top, characterized in that, that the upper part of the boiler (2) is supported by at least one cooling box (2 ') designed as a supporting structure is formed. 2. Boiler according to claim 1, characterized in that the cooling box (2 · -) as an annular, by a cylindrical inner wall of the boiler (3) and a cylindrical outer wall (4) formed vessel is executed and with at least one inlet (8) and at least one outlet (9) is provided for the cooling water. 3 · Boiler according to claim 1, characterized in that the inside of the cooling box (2 ') is provided with water guide plates (7). 4, boiler according to claim J>, characterized in that the water guide plates (7) are arranged helically. 5. Boiler according to claim 1, characterized in that : the boiler upper part (2) is divided from the boiler lower part (1) by a parting line (18) which is located in the Area of a tapping spout (15) or at least one slag door in relation to the in the rest position of the Kessel's horizontal plane lifts up in an oblique direction from this plane onwards. 909882/0563 ORIGINAL INSPECTED BBC Baden 84/78 6. Boiler according to Claim 5 _{3 3} characterized in that the boiler shell (2) is provided up to the parting line (18) with a water cooling device. 909882/0563