KR800000991B1 - Lining of molten metal containers - Google Patents

Abstract

In a container for molten metal having a floor and side walls and having an inner wall lining made op of a plurality of slabs(3, 5, 7) of refractory heat insulating material(2), at least a few of the slabs have two opposite edges castellated in such fashion that two such slabs are interengaged with the slabs interfitting the castellations on the other edge of the other slab. when this lining is formed, all joint faces of the interengaging castellations which are not lying in vertical planes are to be arranged to slope downward away from the interior of the molten metal container.

Description

Built-in containers for molten metal

1 is a perspective view of a slab according to the present invention.

2 is an enlarged perspective view of a part of the slab of FIG.

3 is a perspective view of one end of a built-in tundish.

4 is a partial cutaway perspective view of the connection between two embedded slabs.

The present invention relates to a built-in slab formed of a refractory heat insulating material used in a container of molten metal used in the metallurgical industry.

As far as the considerable value of the present invention is concerned, a prominent melting field lies in the construction of tundishes. Tundish is a container used for continuous casting to supply molten metal into a mold for continuous casting at a constant pressure. In the continuous casting process, for example, metal is supplied to the tundish from one or more ladles and introduced into one or more molds from the base of the tundish through one or more nozzles. The tundish is usually made of an outer metal casing embedded in a relatively durable fire resistant interior material, which may be made of bricks or any interior material with refractory concrete in the field.

In recent years, it has been practiced to protect relatively permanent fire resistant interior materials with consumable interior interior materials.

That is, after each casting cycle, the internal interior material is removed and a new interior interior material is installed before starting the next casting cycle. Such internal linings are usually described in British Patent No. 1364665 and made of a set of slabs of refractory heat insulating material. German Patent Application Publication No. 2435895 has a consumable interior material made of a pair of slabs of a relatively durable interior material and a fire-resistant thermal insulating material material, and a tundish having a layer of non-adherent particulate material such as silica sand between the consumable and permanent interior materials. Known.

The non-adherent particulate material layer has many advantages. Particularly when the molten metal penetrates into the connections between the slabs forming the consumable interior material, the particulate material prevents damage to the relatively permanent interior material.

Also, the particulate material layer, which is generally sandy, becomes the substrate layer for the consumable embedded slab, so that they are evenly supported and the cracks caused by the static pressure effect of the metal when the tundish is filled are substantially reduced or eliminated entirely. The intermediate non-bonded particulate layer also improves thermal insulation around the molten metal.

In these two cases, that is, with or without the non-adherent particulate material layer, sealing between the adjacent slabs composed of the consumable interior material is sealed using refractory mortar or cement. This seal helps to prevent the molten metal from penetrating into the joint and coming into contact with the relatively durable interior material, and if the non-sealing filler of particulate refractory material is used, the material in the cavity of the tundish to be filled with the molten metal during use. Do not let go.

The use of refractory mortars or cements at the joints is time consuming and requires skill in the person embedding tundish. In addition to the actual working time required to secure the slab, it is necessary to dry many refractory mortars or cements before the tundish is used. Tundish is expensive and such restraints are therefore very uneconomical.

In fields such as metallurgical industry and other construction and packaging industries, a similar case arises in which the interior material is supported by non-sealed fillers.

Similar difficulties arising from the penetration of non-sealed fillers through connections require the adoption of means such as seals, cement or gaskets, but these are all complex, expensive and time consuming.

According to the present invention, there is an inner wall interior material made of a plurality of slabs made of a refractory heat insulating material having a bottom and a side wall, and at least some of the slabs have two opposing edges formed with unevenness, and the unevenness is combined with two There is provided a container for molten metal which forms a connection between the slabs and in this case is inclined downward as all the connections of the unevenness not on the vertical plane are away from the inside of the molten metal container.

In a particularly preferred form, the slab is used to make up the internal lining material for tundish and is superimposed on the non-stick refractory layer. Under such circumstances, the wall-bearing slabs are generally arranged inclined outwardly.

At this time, the thickness of the slab, the angle of the unevenness, the period of the unevenness, and the inclination of the slab are the non-attached refractory material between the slab and the relatively permanent impregnated material. Should be chosen.

To ensure that there is no leakage of particulate material through the joints, the line drawn from the bottom of one uneven surface adjacent to the non-sealed filler to the top of the next uneven surface of the same slab adjacent to the interior of the tundish is approximately 15 horizontal to the horizontal plane. It is preferable to rise at an angle of degrees.

The slab used in the present invention may be made of any convenient material. When used for embedding tundish and other metallurgical containers they are convenient and preferred to be made of materials of the type known in the British patent specification and in German publications.

It has been found that the slab according to the invention can be easily and quickly assembled and embedded and does not require much attention when assembling the connection. Accurate and tight fit is not required to form joints where non-adherent particulate material is difficult to penetrate.

In any particular container or cavity, only certain internal slabs need to have an uneven shape, and in fact, for a particular purpose, it is necessary to provide an internal slab that is not recessed for use with a slab having an uneven shape. It will often be advantageous. It will be appreciated, however, that such additional visceral slabs may have one or more edges with any type of irregularities for interlocking with the slab according to the invention. The slab in which the uneven shape is used in the present invention has two substantially planar parallel major faces, and has two edges in which two opposing uneven shapes are laid, and the edge portion has a relatively large length with respect to the thickness of the slab. It is desirable to have.

The margin has a number of tooth-shaped portions, the grooves formed between the tooth portions extending from one major surface to the other, which pair is not located in the bottom and top and in the plane of the major surfaces described above. It is preferable that the upper portion has opposite sides of substantially the same size as the spacing by the groove, and the side portion is inclined in a staggered direction with respect to the plane of the surfaces. And said soft edges align side by side so that two identical slabs are placed in the same plane, with each of the same slabs positioned in the same plane by moving one slab relative to the other in a plane parallel to one of the major planes. It is preferable that the irregularities are arranged so that each edge is extended between the edges on which the irregularities are laid at the time of registration.

A special case of embedding a tundish for use in continuous casting will be described with reference to the accompanying drawings by way of examples.

The interior slab of the present invention described with reference to FIGS. 1 and 2 is a substantially rectangular slab having two opposing edges E and two planar edges F, which are provided with irregularities. The lateral side S of the unevenness does not extend perpendicular to the main plane of the slab but runs at an angle with respect to it, preferably at an angle of about 45 degrees. The bottom B of each unevenness on one side of the slab corresponds to the protrusion of unevenness on the other side of the slab. Accordingly, the plurality of slabs shown in FIG. 1 can be integrally aligned side by side so that the edges F, which are not provided with irregularities, are straight.

Referring to Figures 3 and 4, this represents part of the tundish used in continuous casting of molten metal.

The tundish consists of a metal casing 1 with a relatively durable fire-resistant lining 2 and the lining 2 is made of a firebrick or fire-resistant concrete laid in the field and forms an inner cavity with flat sidewalls and a bottom.

To protect the relatively durable interior materials in use, the interior of the tundish is built with consumable interior slabs. First, a number of internal slabs 3 are fixed to the bottom of the tundish. These slabs are generally rectangular and some of them have holes corresponding to the nozzle outlets 4 at the bottom of the tundish. These slabs are integrally adjacent or interlocked with each other by irregularities.

The bottom is embedded with the slab 3 and the wall is then built using the slab 5 with the unevenness. The slab 5 engages with each other by interlocking with the concave and convexities in the edge thereof to form an engaging portion 6. When embedding the tundish into the slab 5, it is convenient to start from the center and connect to each side wall and perform it intentionally. The slab 5 is inclined outwardly and upwardly. Going to the end, a generally trapezoidal viscera slab 7 is inserted in place. The edge of the slab 7 is serrated corresponding to the unevenness on the edge of the slab 5. The slabs 5 and 7 are held in place and are located away from the relatively durable lining 2 by fire resistant lining slab pieces or fire resistant bricks. The slab 5 is also restrained from moving too far from the relatively durable interior material 2 by a number of metal clips 8 which are simply fixed on the upper edge of the tundish as shown. When the slab 5, 7 and the clip 8 are all in place, the gap between the relatively permanent interior material 2 and the slab 5, 7 is ensured by the sand-tight filler 9. Normally flowing turbulent flow is filled using a suitable sand filling device which is discharged from a hand held nozzle which is placed on the edge of the flexible pipe. As most clearly shown in FIG. 4, since the connection part 6 is formed by the edge of the slab 5 in which the unevenness is laid, the sand-tight filler 9 passes through the connection part 6 and is tundished. Does not go inside. For example, even if the slab 5 is not integrally tightly integrated, the sand 9 does not penetrate into the inside of the tundish because of the inclination, the inclination, the mutual spacing, and the thickness of the slab.

The low cross section of each slab 5 may be flat as in face F of FIG. 1, but for example a groove or depression formed corresponding to the low cross section extending along the side of the built-in slab 3 of the floor. It is preferable to form a round so as to face the.

Claims (1)

In a container for molten metal having an inner wall lining made of a plurality of slabs made of refractory heat insulating material and having a bottom and sidewalls, at least some of the slabs have two opposing edges formed with irregularities, and the irregularities are combined to form two A container for molten metal, which forms a connection between the slabs, in which in this case all connecting surfaces of the unevenness not on the vertical plane are inclined downward as they move away from the inside of the molten metal container.

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