KR20110000134A - Blast furnace with cooling plate - Google Patents

Abstract

PURPOSE: A furnace with a cooling plate is provided to prevent the cooling plate from falling into the furnace since the stepped part of a fire-resistant unit hangs on the falling preventing unit of a stave. CONSTITUTION: A furnace with a cooling plate comprises a steel skin(10), a stave(20), a manhole unit(110) and a cooling plate(120). The steel skin forms a frame. The stave is arranged on the inner side of the steel skin and prevents the inner heat from becoming transferred to the steel skin. The manhole unit penetrates the steel skin and the stave. The cooling plate is detachably installed on the manhole unit. The manhole unit is arranged with a rotating angle of 90°. A second steel skin(126) is installed on the outer side of the cooling plate.

Description

Blast furnace with cooling plate {BLAST FURNACE WITH COOLING PLATE}

The present invention relates to a blast furnace having a cooling panel, and more particularly to a blast furnace having a cooling panel that can replace a broken stave without stopping the operation of the blast furnace.

Generally, the blast furnace is a facility that continuously produces molten iron (hereinafter referred to as molten iron) for 24 hours. Blow in and discharge the molten iron into the molten iron outlet located below the air vent.

The hot air that enters the tuyere reacts with coke, which is a fuel, to produce a high heat of 2,200 ° C to 2,400 ° C, and the molten iron is melted using the high heat to produce molten iron.

In general, a stave having a coolant passage for circulating and supplying coolant therein is installed on the inner surface of the main body shell of the blast furnace to protect the iron shell from the high heat generated inside the blast furnace.

In addition, a cooling water line, ie, a cooling water supply pipe and a cooling water discharge pipe, which penetrates the blast furnace shell is connected to upper and lower sides of the cooling water passage of the stave, and a refractory castable is filled between the stave and the steel shell.

The technical structure described above is a background technique for assisting the understanding of the present invention, and does not mean the prior art widely known in the technical field to which the present invention belongs.

The stave is damaged due to collision with raw materials charged into the blast furnace and contact with high temperature melt. In the past, even if a break occurs, the entire blast furnace operation must be stopped to replace the production efficiency. There is a problem.

Therefore, there is a need for improvement.

The present invention has been made to solve the above problems, and an object thereof is to provide a blast furnace having a cooling plate that can replace a broken stave without stopping the operation of the blast furnace.

A blast furnace having a cooling plate according to the present invention comprises: an outer shell; A stave disposed on an inner surface of the shell to prevent heat generated therein from being transferred to the shell; A manhole portion formed through the iron shell and the stave; And a cooling panel detachably mounted to the manhole portion.

Preferably, the manholes are arranged at 90 ° rotation intervals.

Preferably, the cooling plate is installed on the outer surface of the cooling plate.

Preferably, the stave is provided with a drop preventing portion protruding to one side so that the cooling plate does not fall into the inside, and the cooling plate is provided with a stepped portion to correspond to the drop prevention portion.

Preferably, the cooling panel is a cooling water flow path for circulating the cooling water; A cooling water supply pipe having one end communicating with the cooling water source and the other end communicating with the cooling water flow path; And a cooling water drain pipe having one end communicating with the cooling water flow path, wherein the cooling water flow path is surrounded by a fireproof portion.

According to the blast furnace having the cooling plate of the present invention, it is possible to replace the broken stave without stopping the operation of the blast furnace to improve the production efficiency.

In addition, according to the blast furnace having the cooling plate of the present invention, it is possible to immediately replace the broken stave, so that the blast furnace life can be extended and stable operation.

Hereinafter, an embodiment of a blast furnace having a cooling plate according to the present invention with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or custom.

Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a cross-sectional view schematically showing a blast furnace having a cooling panel according to an embodiment of the present invention, Figure 2 is an enlarged view of portion A of Figure 1, Figure 3 is an enlarged view of portion B of Figure 1 . 4 is a view of a state in which the cooling plate according to an embodiment of the present invention is mounted on the manhole portion, Figure 5 is a front view of the cooling plate according to an embodiment of the present invention.

1 to 5, the blast furnace 1 includes a steel bar 10, a stave 20, a castable 30, a flow passage 40, a manhole part 110, and a cooling plate 120. It is done by

The shell 10 is installed at the outermost part of the blast furnace 1 to form the outer shape of the blast furnace 1, the stave 20 is disposed on the inner surface of the shell 10 is a high heat generated inside the blast furnace 1 It is suppressed to be delivered to the shell 10. It is possible to suppress the deterioration of the shell 10 by such a stave 20.

The stave 20 is stacked in a total of 13 stages from the bottom to the top. Many of the breakage of the stave 20 is generated in the uppermost portion of the stave 20, due to the collision with the raw material charged into the blast furnace (1).

Therefore, in order to easily replace the broken stave 20, it is preferable to arrange the manhole portion 110 directly below the uppermost portion. Generally, since the breakage of the stave 20 occurs frequently between the uppermost 1st stage and the uppermost 4th stage, in this embodiment, the manhole part 110 is disposed at the uppermost 5th stage.

The stave 20 includes a drop preventing part 21 protruding toward the center of the manhole part 110 so that the cooling plate 120 mounted on the manhole part 110 does not fall into the blast furnace 1. All.

Castable 30 is a kind of refractory is filled between the shell 10 and the stave 20. Thereby, it is possible to further suppress that heat inside the blast furnace 1 is transferred to the shell 10.

The flow passage 40 is for circulating and supplying cooling water to the inside of the stave 20, one end of which is in communication with the supply pipe 41 and the other end of which is in communication with the discharge pipe 42.

The supply pipe 41 communicates with an external cooling water source and supplies the cooling water provided therefrom to the flow passage 40 to cool the inside of the stave 20. One end of the discharge pipe 42 communicates with the flow passage 40 to discharge the cooling water that has undergone heat exchange in the stave 20 to the outside.

The discharge pipe 42 may be in communication with the supply pipe 41 of the stave 20 disposed immediately below, thereby cooling the plurality of staves 20 simultaneously with one supply of cooling water.

The manhole part 110 is formed through the metal shell 10 and the stave 20. As described above, the manhole part 110 is formed to replace the damaged stave 20, and is disposed at a 90 ° rotation interval with respect to the center of the blast furnace 1. Thus, even if the stave 20 is broken at any position inside the blast furnace 1, the operator can easily repair or replace the stave 20.

The 90 ° rotational intervals above suggest an angle for easy replacement of the stave 20, which can of course be replaced by another angle.

The cooling panel 120 is detachably mounted to the manhole part 110. Since the cooling plate 120 is mounted on the manhole part 110 lacking the iron 10 and the stave 20, the fireproof part 123 is provided so that heat inside the blast furnace 1 is not transmitted to the outside. Cooling half shield 126 is provided on the outer surface.

The refractory unit 123 is made of a refractory, and a cooling water passage 131 is disposed therein. Therefore, by supplying the cooling water to the cooling water channel 131, the fireproof unit 123 exchanges heat with the cooling water to suppress the heat inside the blast furnace 1 from being transferred to the cooling bar shell 126.

The stepped part 121 is formed on the upper and lower surfaces of the fireproof part 123. The stepped part 121 corresponds to the fall prevention part 21 of the stave 20 described above, and is formed in the same shape. When the cooling plate 120 is mounted on the manhole part 110, the stepped part 121 is caught by the drop preventing part 21, and thus the cooling plate 120 is prevented from falling into the blast furnace 1.

The cooling water flow path is for circulating and supplying the cooling water to the inside of the cooling panel 120, and the connection flow path 134 communicating the internal flow path 131 disposed inside the fireproof part 123 and the respective internal flow paths 131. ) One end of the cooling water flow passage communicates with the cooling water supply pipe 132 and the other end communicates with the cooling water drain pipe 133.

The cooling water supply pipe 132 communicates with an external cooling water source and supplies cooling water provided from the cooling water flow path to the cooling water flow path, specifically, the internal flow path 131 to cool the fireproof part 123. One end of the cooling water drain pipe 133 communicates with the internal flow path 131 to discharge the cooling water that has undergone heat exchange in the fireproof part 123 to the outside.

Hereinafter, the principle of mounting the cooling plate to the blast furnace having the cooling plate according to an embodiment of the present invention will be described with reference to FIGS. 1 to 5.

When the stave 20 on the upper side of the blast furnace 1 is damaged due to the collision with the raw material charged into the interior and the contact with the hot melt, for a long time, the stave 20 is replaced. Will be started. At this time, the operator separates the cooling plate 126 and the cooling plate 120 from the manhole part 110 to enter the blast furnace 1, and after completing the replacement of the stave 20, the cooling plate ( 120 is mounted to the manhole part 110.

At this time, the stepped part 121 of the fireproof part 123 is caught by the fall prevention part 21 of the stave 20, and the cooling panel 120 is prevented from falling into the blast furnace 1 inside. In the state in which the cooling panel 120 is supported by the drop prevention unit 21, the cooling panel 126 is disposed to be in contact with the frame 122 forming the outer edge of the cooling panel 120, and then the bolt B The operation of mounting the cooling plate 120 to the manhole part 110 is completed by fastening the cooling bar shelter 126 and the steel bar 10 using the nut N.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and those skilled in the art to which the art belongs can make various modifications and other equivalent embodiments therefrom. I will understand.

Therefore, the true technical protection scope of the present invention will be defined by the claims below.

1 is a cross-sectional view schematically showing a blast furnace having a cooling plate according to an embodiment of the present invention.

FIG. 2 is an enlarged view of a portion A of FIG. 1.

3 is an enlarged view of a portion B of FIG. 1.

4 is a view of a state in which the cooling plate according to an embodiment of the present invention is mounted to the manhole portion.

5 is a front view of the cooling panel according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: bar 20: stave

110: manhole portion 120: cooling panel

121: stepped part 123: fireproof part

126: cooling half shell 131: cooling water flow path

Claims (5)

Appearance shell; A stave disposed on an inner surface of the shell to prevent heat generated therein from being transferred to the shell; A manhole portion formed through the iron shell and the stave; And Blast furnace having a cooling panel characterized in that it comprises a cooling panel detachably mounted to the manhole. The method of claim 1, The manhole is a blast furnace having a cooling plate, characterized in that arranged at intervals of 90 ° rotation. The method of claim 1, Blast furnace having a cooling plate, characterized in that the cooling plate is installed on the outer surface of the cooling plate. The method of claim 1, The stave is provided with a drop preventing portion protruding to one side so that the cooling panel does not fall into the inside, The blast furnace having a cooling plate, characterized in that the cooling step is provided with a stepped portion so as to correspond to the fall prevention portion. The method of claim 1, The cooling plate is a cooling water flow path for circulating the cooling water; A cooling water supply pipe having one end communicating with the cooling water source and the other end communicating with the cooling water flow path; And One end is provided with a cooling water drain pipe in communication with the cooling water flow path, The cooling water flow path blast furnace having a cooling panel, characterized in that surrounded by the fire.

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