Tap hole construction of a metallurgical vessel, method of renewing it and brick for use with it

Description

[0001] The invention relates to a tap hole construction of a metallurgical vessel having a wall with a refractory lining and a tap hole in the vessel wall for discharging liquid metal out of the vessel. The invention also relates to a method of renewing such a tap hole construction and to a brick for use in such a construction and such a method.

[0002] In a known tap hole construction, the flow passage is provided by an assembly of annular bricks, which are arranged in the metallurgical vessel wall. A refractory casting or spraying mass or material is introduced between the annular bricks and the refractory lining, to fix the bricks in place. Such a metallurgical vessel is known from the practice of steel making, for example the oxygen steel process. See for example NL-A-6707057. In such a vessel a process is performed on the crude liquid metal in the vessel until a desired quality is reached, whereupon the finished steel is discharged out of the vessel through the tap hole by tilting the vessel.

[0003] In the case of a new tap hole, this tapping typically takes about ten minutes but the tap hole becomes enlarged through wear. Consequently after a number of charges have been processed in the metallurgical vessel, tapping time reduces to, for example, about four minutes. Then it is necessary to repair or renew the tap hole in order to avoid further reduction in tapping time and to prevent the refractory lining of the vessel wall from being affected.

[0004] Prior to the tap hole being repaired, the refractory casting or spraying compound still remaining is removed by being drilled out. Then an assembly of annular bricks is placed in the vessel wall where the tap hole is located. To this end the metallurgical vessel is brought into a tilted position and the assembly of annular bricks is held in the correct place using a fork lift truck for example. The annular bricks are prevented from moving laterally relative to each other by interlocking recesses and projections. Because this assembly is very heavy it is very difficult to position and maintain the annular bricks at the location of the tap hole.

[0005] After the assembly of annular bricks has been introduced and located at the tap hole position, the repair is completed by introducing a refractory casting or spraying compound between the annular bricks and the refractory lining of the vessel wall. Then the fork lift truck is driven away.

[0006] Moreover, even after the casting or spraying compound has been introduced but has not fully hardened, the assembly of annular bricks can sink under the weight of the bricks as soon as the fork lift truck is driven away. Repairing the tap hole in accordance with the current procedure is not only very hard, but also often suffers from the defect of poor positioning of the new tap hole in the vessel wall.

[0007] The result of this is that the maximum number of charges to be processed in the repaired metallurgical vessel is not as high as is possible in an optimally repaired vessel. Indeed this leads to higher operating costs because the next repair becomes necessary earlier.

[0008] It is mentioned that other tap hole constructions are known. US-A-3463475 shows tap hole bricks with square shapes having external projections which cooperate with recesses in the adjacent bricks of the lining.
Replacement of such bricks requires extensive rebuilding of the lining.

[0009] Didier Information 2/84 "Das DIDIER-Abstich-Wechselsystem für Konverter" discloses the use of an annular brick near the outer end of a tap hole construction.

[0010] The object of the invention is to achieve the better and easier positioning and maintenance of the position of the assembly of annular bricks at the location of the tap hole.

[0011] The tap hole construction in accordance with the invention is set out in claim 1. The projection or projections on the bricks ensure that the annular bricks in question, and because the bricks are interlocked the whole assembly of the annular bricks, maintain at least a minimum distance from the refractory lining of the vessel wall, even after the casting or spraying compound has been introduced. Hereby good centering over the full length (for example 2 metres) of the new tap hole is achieved. The remaining bricks then may have no such projections.

[0012] The tap hole construction in accordance with the invention further presents the advantage that a slag stopper as described in NL-A-8801231 (EP-A-0 341 798) of the present applicants is more effective. It is believed that, with the better location of the tap hole, the slag stopper is able to seal off the tap hole better as soon as slag is about to be tapped. Consequently, at the same time the quantity of steel tapped from a charge may be higher.

[0013] Another significant advantage of the invention is that it can improve safety. Repairing the tap hole in accordance with the current procedure necessitates the permanent presence of the fork lift truck in order to hold the assembly of annular bricks properly in position. This means that there is no room for a roof structure under which the casting or spraying compound can be introduced, giving protection to an operator from any waste which might fall from the stack above the metallurgical vessel. With the invention the fork lift truck may be driven away directly after the assembly of annular bricks has been put in position and a mobile roofing structure may then be placed in the spot where the fork lift truck was standing so that protection is given against falling waste.

[0014] Preferably each annular brick provided with a projection has three such projections spaced circumferentially. Preferably each projection has the shape of a ridge extending in the axial direction of the brick. This helps achieve optimum centering of the new tap hole.

[0015] The invention further provides a method of renewing a tap hole construction of a metallurgical vessel as set out in claim 4.

[0016] The invention will now be illustrated by way of example with reference to the accompanying drawings in which:-

Fig. 1 shows in section the tap hole portion of the wall of a known metallurgical vessel;

Fig. 2 shows in section the corresponding tap hole portion of a metallurgical vessel in accordance with the present invention; and

Fig. 3 shows an annular brick used in the tap hole construction of Fig. 2.

[0017] Metallurgical vessels of the kind to which the invention relates are known and do not require further description here. The tap hole constructions of two metallurgical vessels are shown in Fig. 1 and Fig. 2 in accordance with the known state of the art, and in accordance with the invention respectively.

[0018] In each case, the tap hole passage 1 is provided by the central hole of an assembly of annular moulded bricks 4 located within a permanent refractory lining 2 of the vessel wall 3 of the metallurgical vessel. These moulded bricks are prevented from moving laterally relative to one another (i.e. radially with respect to the tap hole axis) by cooperating recesses and projections at their axial end faces so that the tap hole 1 is formed with an essentially smooth inner wall 5. When viewed along the length of the tap hole 1, it can been seen that the inside diameter of the tap hole 1 increased in size at selected places, in steps towards the interior of the metallurgical vessel. A refractory casting or spraying compound 6 is introduced between the annular bricks 4 and the refractory lining 2, to fix the bricks 4 in place.

[0019] The method of renewing the tap hole construction of both Figs. 1 and 2 has been described above. Briefly, the worn bricks 4 and compound 6 are removed e.g. by drilling, the new assembly of bricks 4 is put in position and new compound 6 is introduced.

[0020] Fig. 1 shows that the tap hole 1 of known construction is not centered well in the vessel wall 3. This has the result that the metallurgical vessel requires repair of the tap hole 1 earlier in order to avoid the risk of the permanent refractory lining 2 being affected.

[0021] In the case of the metallurgical vessel of Fig. 2 in accordance with the invention, among the moulded bricks 4 these is one centering brick near the inner end of the tap hole and another centering brick near the outer end of the tap hole. Each centering brick is provided with three circumferentially spaced projections 7 projecting from its outer face radially. These projections 7 are in this example shaped as axially extending ridges (see Figs. 2 and 3). The remaining bricks 4 have no such radial projection. The metallurgical vessel of this embodiment is able to process more charges than the vessel in accordance with Fig. 1 before repair of the tap hole 1 becomes necessary. The projections 7 extend approximately to the inner faces of the refractory bricks 2 and provide centering of the tap hole 1 in the vessel wall 3, so that excellent resistance is achieved against displacement of the assembly of moulded bricks 4, both during and after the introduction of the refractory casting or spraying compound 6. The projections 7 thus become embedded in the compound 6. Moreover, a tap hole 1 made in this manner is, taken by itself, much easier to center than the tap hole of the metallurgical vessel of Fig. 1. An optimally centered tap hole improves the action of a slag stopper used with the metallurgical vessel. This slag stopper is able to close the tap hole properly and on time, so that steel may be tapped slag-free for a maximum tapping time. This means that there is a high steel yield from a charge.

[0022] Fig. 3 shows a single annular moulded brick 4 which is provided with the three ridges 7 for centering. It can be seen that the three ridges 7 are uniformly spaced apart occupying in total less than 180° of the circumference of the brick 4, thus permitting the introduction of the compound 6 while achieving good centering of the assembly of bricks 4. Such a moulded brick is, as mentioned above, also provided with a recessed region 8 and a projection 9 for cooperation with a projection and recess respectively of an abutting moulded brick 4 to prevent bricks from moving against one another laterally. While the annular bricks 4 are here illustrated with cylindrical outer peripheries, other shaper may be used within the invention.

[0023] With metallurgical vessels provided with a tap hole 1 as in accordance with Fig. 2, the number of charges processed in this vessel per tap hole is high even after repeated repair of the tap hole 1.

Claims

1. Tap hole construction of a metallurgical vessel having a wall with a refractory lining, said construction having a plurality of annular bricks (4) arranged in the longitudinal direction of the tap hole and having central openings which provide the tap hole flow passage (1) and refractory casting or spraying material (6) around said bricks (4) to fix them in place, characterized in that two of said annular bricks each have at least one projection (7), projecting radially from the bricks' peripheral outer face and embedded in said refractory casting or spraying material (6), said two bricks being near to respectively the inner end and the outer end of the tap hole, whereby the projections (7) extend approximately to the faces of the permanent refractory lining (2) and provide centering of the tap hole (1) in the vessel (3).

2. Tap hole construction according to claim 1 wherein each said annular brick (4) having at least one said projection (7) has three such projections (7) spaced circumferentially around the brick.

3. Tap hole construction according to claim 1 or claim 2 wherein each said projection (7) has a ridge shape extending axially of the brick.

4. Method of renewing a tap hole construction of a metallurgical vessel having a refractory lining, which tap hole construction comprises a plurality of annular bricks (4) arranged in the longitudinal direction of the tap hole and having central openings which provide the tap hole flow passage (1) and refractory casting or spraying material (6) introduced around said bricks, said method including the steps of

(i) removing the annular bricks (4) and the refractory casting or spraying material (6) of the used tap hole construction, so as to provide a bore to receive the new tap hole construction,

(ii) locating a new plurality of said annular bricks (4) in said bore, and

(iii) introducing new casting or spraying material (6) around said new annular bricks to fix them in said bore,

characterized in that two of said bricks among said new bricks (4) each have at least one said projection (7) projecting radially from the bricks' peripheral outer face, for assisting location of said new bricks (4) in said bore while permitting the introduction of said casting or spraying material (6), said two bricks being near to respectively the inner end and the outer end of the tap hole.

5. Method according to claim 4 wherein each said annular brick (4) having at least one said projection (7) has three such projections (7) spaced circumferentially around the brick.

6. Method according to claim 4 or claim 5 wherein each said projection (7) has a ridge shape extending axially of the brick.

Ansprüche

1. Abstichlochkonstruktion eines metallurgischen Behälters, welcher eine Wand mit einer feuerfesten Auskleidung hat, wobei besagte Konstruktion eine Vielzahl von ringförmigen Ziegeln (4), welche in Längsrichtung des Abstichlochs angeordnet sind und mittige Öffnungen haben, welche den Abstichlochdurchlaß (1) vorsehen, sowie um besagte Ziegel (4) herum feuerfestes Guß oder Spritzmaterial (6) hat, um diese am Platz festzulegen, dadurch gekennzeichnet, daß zwei der besagten ringförmigen Ziegel (4) jeweils zumindest einen Vorsprung (7) haben, welcher radial von der äußeren Umfangsfläche des Ziegels absteht und welcher in besagtem Guß- oder Spritzmaterial (6) eingebettet ist, wobei besagte zwei Ziegel nahe jeweils dem inneren Ende und dem äußeren Ende des Abstichloches sind, wodurch sich die Vorsprünge (7) nahezu bis zu den Flächen der feuerfesten dauerhaften Feuerfestauskleidung erstrecken und eine Zentrierung des Abstichloches (1) in dem Behälter (3) bilden.

2. Abstichlochkonstruktion gemäß Anspruch 1, bei welcher der oder jeder besagte ringförmige Ziegel (4), der zumindest einen besagten Vorsprung (7) hat, drei solche Vorsprünge (7) hat, welche entlang des Umfangs mit Abstand voneinander um den Ziegel herum angeordnet sind.

3. Abstichlochkonstruktion gemäß Anspruch 1 oder 2, bei welcher der oder jeder besagte Vorsprung (7) eine Kammform hat, welche sich axial des Ziegels erstreckt.

4. Verfahren zum Erneuern einer Abstichlochkonstruktion eines metallurgischen Behälters, welcher eine feuerfeste Auskleidung hat, wobei die Abstichlochkonstruktion eine Vielzahl von ringförmigen Ziegeln (4) aufweist, welche in der Längsrichtung des Abstichloches angeordnet sind und mittige Öffnungen haben, welche den Abstichlochdurchlaß (1) bilden, sowie feuerfestes Guß- oder Spritzmaterial (6) um besagte Ziegel herum eingeführt ist, wobei besagtes Verfahren folgende Schritte beinhaltet:

(i) Entfernen der ringförmigen Ziegel (4) und des feuerfesten Guß- oder Spritzmaterials (6) der verwendeten Abstichlochkonstruktion, so daß eine Bohrung gebildet wird, um die neue Abstichlochkonstruktion aufzunehmen,

(ii) Einbringen einer neuen Vielzahl besagter ringförmiger Ziegel (4) in besagte Bohrung, und

(iii) Einführen neuen Guß- oder Spritzmaterials (6) um besagte neue ringförmige Ziegel herum, um diese in besagter Bohrung zu fixieren,

dadurch gekennzeichnet, daß zwei der besagten neuen ringförmigen Ziegel jeweils wenigstens einen Vorsprung (7) haben, welcher radial von der äußeren Umfangsfläche des Ziegels absteht, um das Einbringen der besagten neuen Ziegel (4) in die besagte Bohrung zu unterstützen, während das Einführen besagten Guß- oder Spritzmaterials (6) zugelassen wird, wobei zwei Ziegel nahe jeweils dem inneren Ende und dem äußeren Ende des Abstichloches sind.

5. Verfahren gemäß Anspruch 4, bei welchem der oder jeder besagte ringförmige Ziegel (4), der mindestens einen besagten Vorsprung (7) hat, drei solcher Vorsprünge (7) hat, welche entlang des Umfangs mit Abstand voneinander um den Ziegel angeordnet sind.

6. Verfahren gemäß Anspruch 5 oder 6, bei welchem der oder jeder besagte Vorsprung (7) eine Kammform hat, welche sich axial des Ziegels erstreckt.

Revendications

1. Construction de trou de coulée d'une cuve métallurgique ayant une paroi avec un revêtement réfractaire, ladite construction comprenant une pluralité de briques annulaires (4) disposées dans la direction longitudinale du trou de coulée et comportant des ouvertures centrales qui fournissent le passage d'écoulement (1) du trou de coulée, et un matériau réfractaire (6) de moulage ou de projection placé autour desdites briques (4) pour les fixer en place, caractérisée en ce que deux desdites briques annulaires (4) comportent chacune au moins une saillie (7) dépassant radialement de la face périphérique externe de la brique et noyée dans ledit matériau réfractaire (6) de moulage, lesdites deux briques étant situées respectivement près de l'extrémité interne et de l'extrémité externe du trou de coulée, les saillies (7) s'étendent approximativement jusqu'à la surface du revêtement, réfractaire permanent (2) et assure(nt) le centrage du trou de coulée (1) dans la cuve (3).

2. Construction de trou de coulée selon la revendication 1, dans laquelle la brique annulaire (4), ou chacune d'elles, ayant au moins une saillie (7) comporte trois de ces saillies (7) réparties à la circonférence autour de la brique.

3. Construction de trou de coulée selon la revendication 1 ou la revendication 2, dans laquelle la saillie (7), ou chacune d'elles, a une forme de nervure s'étendant dans le sens axial de la brique.

4. Procédé de rénovation d'une construction de trou de coulée d'une cuve métallurgique comportant un revêtement réfractaire, construction de trou de coulée qui comprend une pluralité de briques annulaires (4) disposées dans le sens longitudinal du trou de coulée et présentant des ouvertures centrales qui fournissent le passage d'écoulement (1) du trou de coulée, et un matériau réfractaire (6) de moulage ou de projection introduit autour des briques, ledit procédé incluant les étapes suivantes:

1) retrait des briques annulaires (4) et du matériau réfractaire (6) de projection ou de moulage de la construction de trou de coulée usée de façon à fournir un orifice destiné à recevoir la nouvelle construction de trou de coulée,

2) mise en place d'une nouvelle pluralité desdites briques annulaires (4) dans ledit orifice, et

3) introduction d'un nouveau matériau (6) de moulage ou de projection autour desdites nouvelles briques annulaires pour les fixer dans ledit orifice,

caractérisé en ce que deux desdites nouvelles briques annulaires présentent chacune au moins une saillie (7) qui dépasse radialement de la face périphérique externe de la brique afin d'aider à la mise en place desdites nouvelles briques (4) dans ledit orifice tout en permettant l'introduction dudit matériau (6) de moulage ou de projection, lesdites deux briques étant respectivement situées près de l'extrémité interne et de l'extrémité externe du trou de coulée.

5. Procédé selon la revendication 4, dans lequel la brique annulaire (4), ou chacune d'elles, comportant au moins une saillie (7) présente trois de ces saillies (7) réparties à la circonférence autour de la brique.

6. Procédé selon la revendication 5 ou la revendication 6, dans lequel la saillie (7), ou chacune d'elles, a une forme de nervure qui s'étend dans le sens axial de la brique.

Drawing