EP0407845A1 - Installation for preventing respectively decreasing flush slag entering into the spout of a converter - Google Patents

Abstract

A device for preventing or reducing the penetration of flush slag into the tapping hole of a tiltable converter consists of a metal sheet (10, 12) having a ceramic coating (20) in the opening region of the tapping hole of the converter. <IMAGE>

Description

The invention relates to a device for preventing or reducing the penetration of flow slag into the tap hole of a tiltable converter. Tiltable converters have an outlet opening for the molten metal in the converter wall. To transfer the molten metal from the converter into a downstream pan, the converter is tilted so far that the molten metal is above the pouring spout. Since there is always a certain amount of slag on the molten metal, when the converter is tilted, the slag first gets over the outlet opening / rack of the converter. Since the slag must not get into the ladle because it would otherwise contaminate the melt, there is a requirement to hold the slag back or to lead it past the rack by further tilting the converter. This is preferably achieved by temporarily closing the outlet opening of the converter.

For this purpose, various closure devices are known which are only opened when the slag has passed the rack. A known closure device for the tap hole of a tiltable converter consists of a slide system. Such a system is relatively complex and cannot prevent at least part of the slag from getting into the tap hole when tipped. In practice, attempts are made to circumvent this disadvantage by inserting textile balls soaked in tar from below into the converter tap. However, this measure is only a provisional measure.

From DE-GM 88 05 975 a type of sealing plug made of refractory material is known for the same purpose, which sprinkles after a certain time (after the slag has passed the tap hole) and opens the tap hole. The known sealing plug has the disadvantage that larger amounts of refractory material have to be assembled and then also run off into the pan. In addition, the destruction of the known plug is hardly reproducible and there is a risk that the converter tapping is not fully released.

In this respect, the invention is based on the object of demonstrating a possibility with which the forward slag can be safely passed over the area of the tap hole when the converter is tilted, so that only molten metal flows out when the tap is subsequently opened.

Based on the consideration that between the time the slag reaches the taphole and the time Point to which the slag is passed the tap hole, usually a maximum of two minutes, the invention is based on the knowledge that it is not necessary to provide larger, voluminous refractory closure devices in the tap hole, but rather that it is sufficient, one over the aforementioned To arrange the period of time permanent equipment in the tap hole.

The invention has recognized that a sheet provided with a ceramic coating is sufficient for this purpose, which can be automatically positioned in the opening area of the tap opening of the converter towards the interior of the converter and consists of such a material or is dimensioned such that it is guided past the Melt slag or metal melt at the tap hole within two minutes at the longest.

The service life of the device is chosen so that, depending on the prevailing temperatures of slag or metal melt and the tilting speed of the converter, it is ensured that the device only melts when the slag has passed the tap hole, so that after the device has melted only the molten metal runs out into the downstream pan.

The service life can be adjusted by selecting an appropriate plate, the plate thickness, the thickness and the material selection of the refractory coating. As a rule, this selection is made in such a way that the device 30 to 60 seconds after tilting the converter and passing the slag or metal melt melts completely at the tap opening and releases the tap opening. As stated above, it is true for known converters that this short period of time is sufficient to lead the slag completely past the rack. Afterwards, the racking must be exposed completely and for a short time, which is now possible with the device.

In order to achieve an automatic positioning of the device in the rack, adjacent to the converter interior, the invention proposes various embodiments. One possibility is to design the sheet with a cross-sectional area such that when it is pushed into the tap hole (from the outside) it is clamped on the edge of the tap hole, that is to say the cross-sectional area of the sheet is then larger than the cross-sectional area of the tap hole of the converter or at least the largest diameter of the sheet is larger than the diameter of the tap hole.

For this purpose, it is advantageous to weaken the sheet metal at the edge so that the sheet metal can bend. Due to the elastic effect of the sheet, it can then be particularly easily fixed against the wall of the tap hole. The weakening of the edge area can in turn take place in various ways. Either the edge region is only thinner so that it can be deformed more easily, or there are recesses in the edge region, the intermediate sections deforming analogously when the device is inserted into the tap hole and the inner surfaces of the recesses thereafter only at a short distance to the wall of the tap hole or directly this lie. In this case, the edge area of the sheet is designed with a large number of projections and recesses. It is also possible to provide the peripheral area of the sheet with, for example, various involute-like teeth (tabs) which serve the same purpose as the embodiment with recesses. Ultimately, recesses are then likewise formed between the involute-like flaps.

Since the service life of the device is very short, both the sheet metal and the ceramic coating can be chosen to be very thin. In practice, a sheet thickness as well as a thickness of the ceramic coating of 1 to 3 mm each will suffice.

The ceramic coating has the advantage that it gives the sheet a kind of "heat protection". If only a pure sheet were used, it would melt immediately after the hot slag touches the sheet. The desired temporary closure would then not be possible.

The ceramic coating is preferably glued to the sheet, for example with the aid of a ceramic adhesive. Basically all possible ceramic materials are suitable as coating material. It is particularly advantageous to use refractory waste materials. However, chamotte can also serve as the coating material. The ceramic (possibly refractory) material should be in a grain fraction of less than 5 mm, preferably less than 3 mm. The use of highly refractory materials does not hinder the safety or the melting of the device, provided that it is applied accordingly thinly, especially since the sheet metal below melts briefly due to the effect of temperature and the ceramic layer then collapses.

The coated sheet metal can be pushed from below (outside) into the tap hole into the opening area towards the inside of the converter by means of a corresponding device, for example a rod. The closure is thus reached directly in the transition area to the interior of the converter, so that a partial penetration of slag into the tap hole is prevented.

In an advantageous embodiment it is provided that the device is formed from at least two sheet metal sections which are arranged at a distance from one another and are connected to one another via a web. In this way, a kind of self-adjustment of the device in the tap opening is achieved. Both sheets preferably have the same shape, but it is not necessary to also provide the lower sheet with a refractory coating, although this is not excluded.

In contrast to the device according to DE-GM 88 05 975, only very small amounts of material are required for the sheet or the coating (and even in an embodiment with two sheets spaced apart from one another, the space remains free.

In this respect, the device also differs fundamentally from devices with which secondary slag is to be retained, as is shown, for example, in DE-OS 36 10 449 are described.

Further features of the invention result from the features of the other subclaims and the other application documents.

• Figur 1: eine perspektivische Seitenansicht einer ersten Ausführungsform der Vorrichtung
• Figur 2: eine perspektivische Ansicht einer zweiten Aus­führungsform der Vorrichtung.

The invention is explained in more detail below using two exemplary embodiments. Show in a schematic representation

• Figure 1 is a perspective side view of a first embodiment of the device
• Figure 2 is a perspective view of a second embodiment of the device.

The device according to FIG. 1 consists of two round sheets 10, 12 which are connected via a central cylindrical metal web 14. Different tabs 16 protrude from the edges of both sheets 10, 12, in the exemplary embodiment shown at an angle of approximately 45 ° with respect to the axial direction of the web 14. Corresponding recesses 18 can be seen between tabs 16.

The dimensioning of the structurally identical sheets 10, 12, including the tabs 16, is such that the (imaginary) cross-sectional area of each sheet (including the tabs) is larger than the cross-sectional area of the tap hole of the converter, so that the tabs continue to be inserted into the tap hole deform by bending them down (against the direction of insertion of the device). In this way they position themselves Sheets 10, 12 practically independently within the tap hole.

The diameter of the sheets 10, 12 (without the tabs) is the same or slightly smaller than the diameter of the tap hole, so that the edge of the sheets 10, 12 in the closed position lies directly in front of or on the wall of the tap hole.

The upper plate 10, which, like the lower plate 12, is approximately 1 mm thick, is coated with a refractory coating 20 made of fireclay with a grain size of less than 5 mm and was glued to the pane by means of a ceramic adhesive. Another, preferably insulating ceramic material, for example based on magnesite, could also be used.

The embodiment according to FIG. 2 differs from that according to FIG. 1 in that the disk-shaped sheets 10, 12 are formed on the edge side with involute-shaped tabs 16, again the largest diameter of the identical sheets 10, 12 being larger than the inside diameter of the tap hole , so that when the device is pushed into the tap hole of the converter in the same way as described above, the device is braced in the tap hole and thus the device is positioned directly in the transition area to the inside of the converter. Here, too, the disk-shaped sheets 10, 12 are connected by a cylindrical metal web 14 which is welded to the sheets 10, 12.

The devices shown are inserted from the outside into the tap hole of the converter until the upper disk 10 lies directly in the opening area to the inside of the converter and there conforms to the wall of the tap hole there. The ceramic coating of the upper sheets 10 is then practically aligned with the refractory lining of the converter.

An adapter can be provided on the lower side of the lower disks 12, via which the device is inserted into the tap hole, for example by means of a guide rod.

Both devices have a durability of 30 to 60 seconds when tapping the converter. Then the maximum durability of the ceramic coating 20 and the sheets 10, 12 is reached and the sheets melt or the coating breaks, so that the tap hole is released. At this point, the forward slag has been moved past the tap hole by further tilting the converter so that only molten metal gets into the tap.

Because of the very small amounts of material used, only a few foreign particles of the ceramic coating 20 or of the sheets 10, 12 get into the pan through the tapping. At the same time, however, an extremely secure closure is achieved for the short period in which the slag is passed over the tap opening.

Claims (15)

1. Device for preventing or reducing the penetration of flow slag into the tap hole of a tiltable converter made of at least one sheet (10, 12) provided with a ceramic coating (20), which can be positioned in the opening area of the tap opening of the converter towards the interior of the converter and consists of such a material or is dimensioned such that it melts within a maximum of two minutes when the slag or molten metal is guided past the tap hole. 2. Device according to claim 1, wherein the cross-sectional area of the sheets (10, 12) is larger than the cross-sectional area of the tap hole of the converter. 3. Apparatus according to claim 1 or 2, wherein the sheets (10, 12) have a weakened edge-side section. 4. The device according to claim 3, wherein the edge region of the sheets is formed thinner than the remaining surface of the corresponding sheet (10, 12) 5. Apparatus according to claim 3 or 4, wherein the edge region of the sheets has punched-outs (18) open to the outside. 6. Device according to one of claims 3 to 5, wherein the edge region of the sheets has outwardly projecting tabs (16). 7. The device according to claim 6, wherein the tabs (16) have an involute shape. 8. Device according to one of claims 1 to 7, wherein the sheets (10, 12) have a thickness of 1 to 3 mm. 9. Device according to one of claims 1 to 8, wherein the ceramic coating (20) is 1 to 3 mm thick. 10. The device according to one of claims 1 to 9, wherein the ceramic coating (20) is glued to the associated sheet (10, 12). 11. The device according to any one of claims 1 to 10, wherein the ceramic coating (20) consists of refractory waste materials of a grain fraction less than 5 mm. 12. The device according to one of claims 1 to 11, wherein the ceramic coating (20) consists of chamotte. 13. Device according to one of claims 1 to 12 with two, sheets (10, 12) arranged at a distance from one another, the sheets (10, 12) being connected to one another by a web (14). 14. The apparatus of claim 13, wherein only the sheet (10) facing the converter interior has a ceramic coating (20). 15. The apparatus of claim 13 or 14, wherein the web (14) consists of metal.

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