KR200493044Y1 - Slag spout - Google Patents

Abstract

The present invention relates to a slag spout, the cartridge forming the appearance of one side and both sides; Refractory material fixedly mounted on the cartridge; And a fixing pin for fixing the refractory material to the cartridge. Accordingly, it is possible to reduce the risk of accidents by performing convenient and safe maintenance work in a simple way.

Description

Slag spout {SLAG SPOUT}

The present invention relates to a slag spout, and more particularly, to a slag spout that extends the life and makes repair work easier.

In general, in order to remove the slag remaining inside the ladle in the electric furnace operation, the ladle is tilted to allow the slag to flow. At this time, when the slag comes into contact with the ladle flange, the ladle flange melts and is damaged, so that the slag flows out along the slag spout without directly contacting the ladle flange using the slag spout.

In a commonly used slag spout, the part in contact with the ladle flange is formed of castable, and the opposite part is composed of soft wire. In addition, a method of dismantling the castable using an air caulking hammer was used for repair work when the life of the slag spout is over.

However, in such a conventional slag spout, frequent maintenance was required, and the maintenance cost was excessive. In addition, maintenance work takes a long time, as well as a difficult and dangerous work process, there is a problem that it is difficult to guarantee the safety of the worker.

Accordingly, an object of the present invention is to provide a slag spout capable of convenient and safe repair work.

In addition, another object of the present invention is to provide a slag spout capable of increasing the period required for maintenance work by using a material having strong fire resistance.

The present invention is a slag spout for protecting the ladle flange when removing the slag from the ladle, to achieve the above object, a cartridge forming the appearance of one and both sides; Refractory material fixedly mounted on the cartridge; And a fixing pin for fixing the refractory material to the cartridge.

The refractory material may be composed of a plurality of blocks.

The refractory material may be formed by processing the closed electrode.

The cartridge may have a plurality of perforations into which the fixing pins are inserted.

Among the plurality of refractory blocks, a block positioned on the side of the ladle flange may have a curvature formed on a surface in contact with the ladle flange.

The slag spout according to the present invention can be conveniently and safely repaired by a simple method. This can reduce the risk of accidents.

In addition, it is possible to reduce maintenance cost by greatly increasing the period required for repair work of the slag spout.

1 is a perspective view showing a slag spout according to an embodiment of the present invention,
Figure 2 is a perspective view showing the cartridge of Figure 1,
Figure 3 is a perspective view showing the refractory material of Figure 1,
4 is a perspective view showing a state in which a slag spout is mounted on a ladle according to an embodiment of the present invention.

Hereinafter, a slag spout according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a slag spout according to an embodiment of the present invention, Figure 2 is a perspective view showing the cartridge of Figure 1, Figure 3 is a perspective view showing the refractory material of Figure 1, Figure 4 is the present invention It is a perspective view showing a state in which the slag spout according to an embodiment of is mounted on a ladle.

As shown in these drawings, the slag spout according to an embodiment of the present invention includes a cartridge 100, a refractory material 200, and a fixing pin 300.

As shown in Figure 2, the cartridge 100 according to the present embodiment includes a first bottom surface 110 and a second bottom surface 120, the first bottom surface 110 and the second The bottom surface 120 is formed to be inclined at a predetermined angle.

At this time, the contact portion 130, which is one end of the second bottom surface 120, is rounded, and its value may be determined in accordance with the specification of the ladle L on which the slag spout of the present embodiment is mounted. That is, the contact portion 130 is a portion that contacts the ladle flange and is rounded to have a curvature that matches the curvature of the ladle flange.

Further, both side portions of the first bottom surface 110 and the second bottom surface 120 extend vertically to the first bottom surface 110 and the second bottom surface 120, respectively. In addition, a plurality of perforations 112 are formed in the side portion. The perforation 112 is formed for the purpose of coupling the refractory material 200 to the cartridge 100. In the present embodiment, the perforations 112 are all formed to have the same size, but if different, they may be formed to have different sizes depending on the size, weight, shape, etc. of the cartridge 100 and the refractory material 200.

As shown in FIG. 3, the refractory material 200 according to the present embodiment includes a first block 210 and a second block 220. The first block 210 and the second block 220 are made of the same material and are manufactured by processing a closed electrode. In particular, the first block 210 and the second block 220 are not integral parts, but are separate parts, and the two blocks are coupled to the cartridge 100 so that one surface thereof abuts each other. The refractory material 200 is formed to have a thickness greater than that of the cartridge 100 and is fixedly mounted on the cartridge 100 to fill a space between both sides of the cartridge 100. Thereby, the refractory material 200 forms the upper surface of the slag spout according to the present invention.

The contact surface 230, which is one surface of the second block 220, is rounded, and as in the case of the cartridge 100, the contact surface 230 is a part that contacts the ladle flange, and coincides with the curvature of the ladle flange. It is rounded to have a curvature. That is, when the refractory material 200 including the second block 220 is coupled to the cartridge 100, the contact portion 130 and the contact surface 230 have the same standard. Accordingly, when the slag spout contacts the ladle flange, the contact portion 130 and the contact surface 230 can accurately contact the ladle flange without a step, so that the slag does not contact the ladle flange when the slag flows down.

As shown in FIG. 1, the slag spout according to the present embodiment includes a fixing pin 300. The fixing pin 300 is for coupling the cartridge 100 and the refractory material 200, and is inserted into the perforation 112 formed in the cartridge 100 so that the refractory material 200 is inserted into the cartridge 100. Fixed on

The bonding process of the fixing pin 300 will be described. Since the perforation 112 is formed only in the cartridge 100 and is not formed in the refractory material 200, after placing the refractory material 200 in the cartridge 100, the outside of the cartridge 100 By drilling along the perforation 112, a perforation is formed in the refractory material 200 at a position coincident with the cartridge 100. Then, the fixing pin 300 is inserted into the perforation 112. At this time, the fixing pin 300 has a sufficient clearance length. Therefore, a part of the length of the fixing pin 300 is inserted into the refractory material 200 so that the refractory material 200 is fixed to the cartridge 100, and then the fixing pin 300 is welded to be tightly coupled. . Finally, a portion of the fixing pin 300 that protrudes outside the cartridge 100 is removed by cutting the excess portion of the fixing pin 300.

Through the above process, the assembly of the slag spout is completed. The completed slag spout is installed on the ladle (L) and used after checking whether it is in close contact with the ladle flange without a step.

Next, a repair work, that is, a replacement work when the life of the slag spout, in particular, the refractory material 200 has ended will be described.

When the refractory material 200 is damaged and cannot function, the refractory material 200 must be replaced. At this time, the slag spout according to the present embodiment can conveniently and safely perform repair work.

First, the slag spout is separated from the ladle (L). Next, the refractory material at the end of its service life is removed from the cartridge 100, and the first bottom surface 110 and the second bottom surface 120 of the cartridge 100 are flattened. In addition, the end of the new refractory material to be replaced is chamfered so that it can be easily inserted into the cartridge 100. A new refractory material is inserted into the cartridge 100 and fixed by engaging through the fixing pin 300. Finally, the slag spout, which has been replaced, is brought to the ladle L to check whether the rounding is correct, that is, close contact with the ladle flange.

The above slag spout repair work is a work that can be performed by 4 workers within 1 hour, and compared to the conventional case where 4 workers took 8 hours or more, there is an effect of greatly reducing the number of work. In addition, conventionally, the life of the slag spout was short, requiring 6 to 8 repairs per year. However, in the slag spout of this embodiment, the refractory material 200 is formed of a closed electrode. The main component of the closed electrode is carbon, and it has a characteristic that dissolution or abrasion does not occur easily even when it comes into contact with oxidizing slag, and its life is long, 1 to 2 years. Accordingly, in the case of the present embodiment, since the material of the refractory material 200 is made of a closed electrode, the lifespan is significantly extended, so only 0.5 maintenance work per year is required.

100: cartridge
110: first bottom surface
112: perforation
120: second bottom surface
130: contact
200: refractory
210: first block
220: second block
230: contact surface
300: fixing pin
L: Ladle

Claims (5)

As a slag spout to protect the ladle flange when removing slag from the ladle,
A cartridge forming the appearance of one side and both sides;
A refractory material formed to a thickness greater than the thickness of the cartridge, fixedly mounted on the cartridge to fill a space between both side surfaces of the cartridge, and forming an upper surface of the slag spout; And
A slag spout comprising a; fixing pin for fixing the refractory material to the cartridge. The method of claim 1,
The refractory material is a slag spout, characterized in that consisting of a plurality of blocks. The method of claim 2,
The refractory material is a slag spout, characterized in that formed by processing a closed electrode. The method of claim 3,
The slag spout, characterized in that the cartridge is formed with a plurality of perforations into which the fixing pins are inserted. The method of claim 2,
A slag spout, characterized in that the block located on the side of the ladle flange among the plurality of refractory blocks has a curvature formed on a surface contacting the ladle flange.

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