DE1508191C - Tap hole block for oxygen inflation converters - Google Patents

Description

The invention relates to a taphole block for oxygen inflation converters for steel production, the consists of prefabricated refractory individual parts and the tap hole opposite the converter axis inwardly inclined axis penetrated from face to face.

The tapping holes were used in the steel industry made of dead-burned refractory magnesite materials with a high MgO content, since magnesite is one of them of the best basic refractory materials is that of the molten metal, the high temperatures and able to withstand chemical attack.

When making the tapping holes, for example, the procedure was that successive Layers of the magnesite material were pulped around a steel pipe-15. Due to the structure and the location of the taphole, however, it has often proven difficult to remove all the gaps or to fill gaps with the refractory material to achieve high densities. Same trouble also occur with vibration casting of this surface. In this procedure, the Mixtures for vibratory pouring have about 7 to 8 per cent of the water removed during the kiln got to. This requires higher temperatures and a relatively long burn-in time, which increases the length of time is extended, within which the vessel can not be used for the actual operation.

Thus efforts have been made for a long time to find the ones required for the installation of a tapping hole in such furnaces Reduce time, avoid the non-uniformity inherent in a build-up of the tapholes is given by crushing or vibration, as well as the maintenance and repair costs and to reduce the time delays.

To reduce the time required, it is already known to assemble prefabricated stones in such a way that that the recesses present in them form a continuous opening. Such stones are used, for example, as wind nozzles in copper converters. It is also known to the To manufacture a taphole block from a monolithic block or from individual concentric refractory rings, wherein the attachment to the converter is carried out by clamping devices.

It is the object of the invention to create a tap hole block that is prefabricated in the converter can be used, which consists of interchangeable parts and an absolutely tight connection with the lining of the converter allows.

This object is achieved according to the invention in that the individual parts are two mirror images of one another Form pairs of stones, whereby the reflective contact surface of the pairs of stones as well as each Pair of stones in each two individual stones subdividing level from face to face of the taphole block extend and the openings of the needle hole on opposite sides of the subdividing level lie.

The area around the needle hole is exposed to heavy wear, so that here before the end of the with the remaining brickwork achievable batches can be renewed or repaired got to. The wear in this area is also caused by an insufficiently tight connection of the tap hole block used to support the rest of the training.

When using a prefabricated tap hole block made of concentric refractory rings the stones surrounding this block are adapted to the lining by cutting or hammering will. Penetration of the melt through the remaining gaps and thus the destruction of the Masonry cannot be prevented. On the other hand, you can also use prefabricated blocks monolithic material can only be adapted tightly to the rest of the brickwork to a limited extent. In particular however, it is not possible to exchange parts here. Furthermore, for example, the recess of the The aforementioned nozzle block has an opening on the long side. To lengthen the opening, each must Pair of shaped bodies are aligned in the same horizontal plane. In contrast, form the individual stones according to the invention a part of an inclined needle hole, whereby the shaped bodies in pairs are arranged one above the other along the vertical axis of the metallurgical vessel. The inventive The solution thus makes it possible to close the pairs of shaped bodies in the vertical dimension combine to create a cavity that was created, for example, by erosion around the tap hole is to be closed with a continuous new tap hole arrangement.

The invention will be explained in more detail below with reference to the drawings. It shows

F i g. 1 is a perspective view, partially broken away, of a top-speed oxygen converter;

F i g. 2 shows a perspective view of the tap hole block according to the invention and

F i g. 3 is an elevation of the taphole block.

In FIG. 1, a basic oxygen top-up converter 10 is shown which consists of an outer metal casing 12, an outer stone lining 14 and an inner work lining 16. The The vessel is divided into three sections, namely the bottom part 18, a substantially cylindrical one Part 20 and a conical section 22. The bottom has an upwardly opening, concave Configuration on. The stones or shaped bodies 23 of the bottom part end at the section 20, wherein the inner end faces of which are inclined upward from the floor in the direction of the conical zone section are. The stones 14 of the work lining in sections 20 and 22 are arranged so that whose inner end faces are horizontal. At the end of the conical section 22 is located the blow opening 28.

The tap hole block 30 according to the invention is arranged in the tap hole region 26. The individual parts of the taphole block 30 are formed by two mirror-image pairs of stones 32 a , 34 a and 32 b, 34 b . In FIG. 3 are the right-hand molded bodies 32 b and 34 b of the in FIG. 2 tap hole block shown. The stone 32 b has a recess 36 in the surface 38. The recess intersects the plane 40 and the end face 42. The stone 346 has a corresponding recess 44 which intersects the end face 46 and the plane 48. The angle of the recess formed by the two stones depends on the inclination of the tap hole opening, so that it can also happen that the recess intersects three surfaces. The end faces 42, 43, 45 and 46 are in a direction opposite the side surfaces of the corresponding stones 32 ft and 34 b in accordance with

mung in the outline form compared to the frustoconical Section zone inclined. Each of the stones can be tapered depending on the slope of the cone Section a real parallelogram cross-sectional conflguratioh exhibit.

The other stones 32a and 34a have a similar configuration. When the stones in the FIG. 2 are assembled, the pairs of stones represent "mirror images" of one another, so that each pair of stones delimits a part of the inclined tapping hole. Even if, as shown in FIG. 2, only two pairs of stones are stacked on top of one another, other pairs could also be stacked on top of the pairs shown if the inclination of the tapping hole is somewhat greater than that shown in FIG. During installation, the tap hole block according to the invention can be arranged in the basic oxygen inflation converter shown in FIG. 1 easily and with little effort. Each of the coordinated surfaces of the refractory bricks 32 a, 32 b, 34 a and 34 b can be immersed in a mortar slurry, optionally before assembly.

The remaining part of the tap hole opening can easily be made by inserting a pipe into the prefabricated, inclined tap hole introduced and then around. the pipe around a monolithic refractory material is filled. Furthermore, the tap hole opening in the Sivin pairs 32 matched to one another can also be used a hole socket extending from the cold surface thereof. The version is attached to one end of the tube for continuous alignment and connection hereby ensure. The individual stones of the tap hole arrangement can, for example, consist of one refractory, dead-burned magnesite, which is processed to high densities, similar to the rest Lining the vessel.

Claims (1)

Claim: . Tap hole block for oxygen inflation converters for steel production, which consists of prefabricated, refractory individual parts and through which the tap hole penetrates from end face to end face with an axis inclined inwardly with respect to the converter axis, characterized in that the individual parts are two mirror-image pairs of stones (32 a, 34 a and 32 b, 34 b) , the reflective contact surface (32, 34) of the stone pairs and the plane (40, 48) of the end face (42, 45) dividing each stone pair into two individual stones (32a and 34a as well as 32Ö and 34 b) ) extend to the end face (43, 46) of the taphole block (30) and the openings of the taphole block are on opposite sides (42, 46) of the dividing plane (40, 48). 1 sheet of drawings