KR101562451B1 - Repair material for cooling pipe of stave and repair method using the same - Google Patents

Abstract

The present invention relates to a repairing method and a maintenance method for a stave cooling pipe capable of repairing a broken cooling pipe without detaching the stave from the blast furnace when the cooling pipe of the stave breakage is broken, A method of repairing a cooling pipe is a method of repairing a stave cooling pipe of a blast furnace, comprising the steps of: filling the cooling pipe with a repair material; Melting the repair material filled in the cooling pipe in a liquid phase; Inserting a diaphragm into the cooling pipe; And supplying cooling water to the cooling pipe into which the diaphragm is inserted to harden the maintenance material.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a repair pipe for a stave cooling pipe,

The present invention relates to a repairing method and a repairing method for repairing a stave provided in a blast furnace, and more particularly, to a repairing method and a repairing method for repairing a broken cooling pipe without detaching the stave from the blast furnace To a repairing method for a stave cooling pipe and a repairing method.

Generally, stove blast furnaces are divided into cooling type and stave type, and stove cooler cooling method is mainly adopted recently.

Fig. 1 is a schematic cross-sectional view showing the structure of a stave blind furnace, and Fig. 2 is a sectional view for explaining a stave having a cooling pipe installed therein.

1 and 2, the stave 10 is installed inside the screed 11 of the blast furnace 1 and divided into 11 stages in the height direction of the blast furnace 1, have.

The structure of the stave 10 is a hexahedron having a predetermined size and a cooling pipe 12 is installed inside and an inlet 12a and an outlet 12b are formed to protrude therefrom. And the surface temperature is configured to maintain a transformation temperature of 770 ° C or less.

In order to manage the temperature of the stove 10, a thermometer 10a is installed inside the stove 10 so that the back surface of the stove 10 is fixed to the scallop 11, When the outlet 12b of the pipe 12 and the inlet 12a of the upper stave cooling pipe 12 are connected to each other by a pipe so as to form a pipe to supply the cooling water to the lower stave cooling pipe 12, The cooling water penetrates into the stator 12 to suppress wear of the stave 10. [

The blast furnace 1 is charged with ore and coke in the upper part and blows hot air in the lower part to burn the coke, and reduces ore as the high temperature monoxide gas passes between the ores as the coke burns.

At this time, the ores and cokes introduced from the upper part of the blast furnace 1 are continuously reduced and melted with the stove 10 during the reduction and melting process at the upper part of the tuyeres 20, .

Such continuous friction between the charge 2 and the stove 10, such as ore and coke, damages the flap 13 on the front surface of the stove 10, When used in a damaged state, the cooling pipe 12 installed therein is damaged.

In the case where the cooling pipe 12 is damaged and the cooling water flows out, the temperature inside the blast furnace 1 is reduced to lower the productivity, and in the worst case, the blast furnace 1 is cured to reduce the production thereof Which is caused by the phenomenon of cold discharge.

Therefore, when breakage occurs in the cooling pipe 12 of the stave 10 during operation, it is practically impossible to perform emergency repair or replacement, thereby cutting off the cooling water supplied to the cooling pipe 12, The thermal deformation of the outer staple 10 is accelerated and the thermal deformation of the staple 11 surrounding the outer staple 10 is accelerated. And there is a problem in that a long time is required for maintenance work.

In order to correct the thickness of a conventional worn stave, it is necessary to remove the existing sealing refractory after the worn stave is isolated, and then to fix the spray refractory by attaching and fixing the stave again. (Japanese Patent Laid-Open No. 10-2005-0003571) ".

However, in the case of the stave repair method which prevents the spray refractory used in the stave repair from falling off, if the streak's cooling pipe is damaged, the problem that the emergency repair or replacement can not be solved can not be solved. It is not possible to solve the problem that the maintenance work of the damaged stave takes a long time and the productivity is lowered.

Further, regarding an apparatus and a method for sealing and repairing a sealing material in a crack occurrence portion when a stave supply pipe and a discharge pipe are cracked in a state where a stave is installed in a conventional blast furnace, a method of repairing a stove supply pipe and a leakage pipe of a blast furnace, Device (patent document 10-2008-0026879) ".

However, the sealing material of the fluorine rubber material is easily broken by the water pressure of the cooling line, and has a problem in that it is restricted by the shape and size of the crack generated during the repair.

In addition, it has not been solved that the productivity is deteriorated because it takes a long time to diagnose the exact crack occurrence position.

[Patent Document 10] 2005-0003571 (Dec. 12, 2005) [Patent Document 1] Japanese Patent Application Laid-Open No. 10-2008-0026879 (Mar. 26, 2008)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a stave cooling pipe repair method capable of repairing a cooling pipe in a state where a stove is mounted on a blast furnace, A repair material for an EVE cooling pipe is provided.

Also provided are a stave cooling pipe repair method and a stave cooling pipe repair article that can easily repair a cooling pipe of a stave.

According to an aspect of the present invention, there is provided a method of repairing a stave cooling pipe in a blast furnace, comprising the steps of: filling a repair pipe in the cooling pipe; Melting the repair material filled in the cooling pipe in a liquid phase; Inserting a diaphragm into the cooling pipe; And supplying cooling water to the cooling pipe into which the diaphragm is inserted to harden the maintenance material.

The diaphragm is characterized in that the semi-cylindrical spring is wrapped by a heat-shrinkable tube.

In the step of filling the repair material, the repair material is characterized in that the mass ratio of the tin and the ceramic powder is in the form of powder or gel mixed at a ratio of 20 to 25: 1.

The step of melting the repairing material is characterized in that the tin contained in the repairing material is melted by its own heat in the furnace during the operation.

Inserting the diaphragm includes the steps of inserting a steel wire into an inlet of the cooling pipe and passing the steel wire through an outlet; Joining the diaphragm to one end of the steel wire; Drawing the other end of the steel wire so that the steel wire is inserted into the cooling pipe; And separating the diaphragm and the steel wire.

The step of inserting the diaphragm is characterized in that the inlet and outlet of the cooling pipe are sealed and the steel wire and the diaphragm are inserted into the inside of the cooling pipe so as to prevent the melting of the maintenance material from leaking out of the cooling pipe .

According to an embodiment of the present invention, a repair material for a stave cooling pipe is a repair material for repairing a stave cooling pipe in a blast furnace, and is characterized in that ceramic powder is mixed with a tin powder as a base.

The ceramic powder is composed of zirconia (ZrO ₂ ) or alumina (Al ₂ O ₃ ), and the tin and ceramic powder are mixed in a mass ratio of 20 to 25:

 And the diameter of the ceramic powder is 100 占 퐉 or less.

Preferably, the repair material for the stave cooling pipe according to an embodiment of the present invention is characterized in that the high temperature adhesive in a liquid state is further mixed.

According to the embodiment of the present invention, it is possible to perform maintenance without detaching the stave from the blast furnace during repair of the cooling pipe of the stove provided in the blast furnace during operation, and the productivity can be improved.

Further, it is possible to easily repair the cooling pipe of the stave having various types and sizes of damages caused by melting the repair material in the liquid phase, and it is possible to shorten the maintenance time.

In addition, the maintenance material in which the tin powder and the ceramic powder are mixed has a high thermal conductivity, so that the cooling performance of the stave can be improved.

1 is a schematic cross-sectional view showing the structure of a stave blind furnace,
2 is a sectional view for explaining a stave having a cooling pipe,
3 is a partial cutaway view for explaining a diaphragm according to an embodiment of the present invention,
4 is a view for explaining a method of repairing a stave cooling pipe according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments. For reference, the same numbers in this description refer to substantially the same elements and can be described with reference to the contents described in the other drawings under these rules, and the contents which are judged to be obvious to the person skilled in the art or repeated can be omitted.

According to an embodiment of the present invention, a repair material for a stave cooling pipe is formed by mixing a ceramic powder while making a metal powder into a matrix.

However, the metal powder may be melted in a liquid state by the internal heat of the blast furnace (1) and may be in various forms that can be adhered to the damaged portion of the cooling pipe (12) inside the stove (10) A kind of metal powder may be applied.

According to an embodiment of the present invention, it is preferable that the repairing material for the stave cooling pipe is formed by mixing at a ratio of 1 part by weight of the ceramic powder to 20 to 25 parts by weight of the tin powder.

This is because the tin mixed with the ceramic powder has a melting point higher than that of pure tin and is melted in the liquid phase by the internal heat of the blast furnace 1 being operated. Therefore, when the cooling water supplied to the stave 10 is blocked and the repair material for the stave cooling pipe according to the embodiment of the present invention is injected into the cooling pipe 12, And then cooling water is supplied to change the solid phase.

Particularly, when the cooling pipe 12 is broken, the ceramic powder is densely packed into a damaged part to quickly block the damaged part, and the hardened tin is cooled by the cooling water to fix the ceramic powder to quickly repair the damaged part There is an effect that can be.

The ceramic powder is preferably zirconia (ZrO ₂ ) or alumina (Al ₂ O ₃ ) having a diameter of 100 μm or less (but excluding 0). This is because, when the diameter of the ceramic powder exceeds 100 탆, the cooling pipe 12 is not smoothly penetrated into a minute damage area such as a crack, and it is difficult to repair a minute damage area firmly.

The zirconia or alumina used as the ceramic powder has a melting point of 2,000 DEG C or more and excellent heat resistance and is excellent in strength and hardness to improve abrasion resistance and strength after repair to improve the life of the stove .

Preferably, the repair material for the stave cooling pipe according to an embodiment of the present invention is further mixed with a high temperature adhesive in a liquid state. Accordingly, the tin powder and the ceramic powder have an improved viscosity and can be easily adhered to the damaged portion of the cooling pipe 12.

The method for repairing a stave cooling pipe according to an embodiment of the present invention includes the steps of filling a repair material into the inside of the cooling pipe 12 inside the stave 10 where damage has occurred, Melting the repair material, inserting the diaphragm 100 into the cooling pipe 12, and curing the repair material.

The filling of the repair material may include stopping supply of the cooling water supplied to the cooling pipe (12) when the cooling pipe (12) inside the stove (10) installed in the blast furnace And the ceramic powder are injected into the cooling pipe 12.

For example, the repair material may be the repair material for the stave cooling pipe according to an embodiment of the present invention described above, but the present invention is not limited thereto, and various kinds of repair materials for repairing the damaged cooling pipe 12 Can be selectively applied.

When the repair material is injected, the repair material is melted in a liquid phase. At this time, the metal powder such as tin powder contained in the repair material filled in the cooling pipe 12 is preferably melted in a liquid state by the heat inside the blast furnace 1. So that it is melted without any additional heating device and permeates and adheres to the damaged portion of the cooling pipe 12. [

The diaphragm 100 is inserted into the cooling pipe 12 when the maintenance material is melted in a liquid state by the heat inside the blast furnace 1.

The step of inserting the diaphragm 100 may be performed by inserting the steel wire 200 into the inlet 12a of the cooling pipe 12 protruding outward from the lower portion of the stave 10, To the discharge port (12b) of the cooling pipe (12) protruding from the discharge port (12b), and a process of joining the diaphragm (100) to the end of the steel wire (200) Pulling out the other end of the steel wire 200 to be inserted into the cooling pipe 12 and separating the septum 100 and the steel wire 200 from each other.

The steel wire 200 may be made of a high carbon steel wire material such as a piano wire or the like and is not limited thereto. For example, A steel wire having various tensile strengths can be selectively applied.

The diaphragm 100 may be formed by wrapping a semi-cylindrical spring 110 having the same diameter as the diameter of the cooling pipe 12 with the heat-shrinkable tube 120. The diaphragm 100 is inserted into the cooling pipe 12 and is brought into close contact with the damaged surface so that the diaphragm 100 is adhered to the damaged portion of the cooling pipe 12 when the cooling water is supplied into the cooling pipe 12 Thereby preventing the permeated repair material from being detached.

The step of inserting the diaphragm 100 may be performed by sealing the inlet 12a and the outlet 12b of the cooling pipe 12 and inserting the steel wire 200 and the diaphragm 100 into the cooling pipe 12, As shown in FIG. Accordingly, it is possible to prevent the maintenance material, which is melted in the cooling pipe 12 and adhered or infiltrated to the damaged portion of the cooling pipe 12, from falling off and leaking to the outside.

When the diaphragm 100 is inserted into the cooling pipe 12, cooling water is supplied into the cooling pipe 12 into which the diaphragm 100 is inserted and melted by the internal heat of the blast furnace 1, The repairing material adhered to the damaged portion of the cooling pipe 12 is cooled and hardened, and the repairing of the cooling pipe 12 is completed.

Although the present invention has been described with reference to the preferred embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the following claims. It can be understood that

1: Blast furnace 2: Charged material
10: Stage 10a: Thermometer
11: iron pipe 12: cooling pipe
12a: Inlet port 12b: Outlet port
13: Yan and 100: diaphragm
110: semi-cylindrical spring 120: heat-shrinkable tube
200: Steel wire

Claims (10)

A method for repairing a stave cooling pipe in a blast furnace,
Filling the cooling pipe with a repair material;
Melting the repair material filled in the cooling pipe in a liquid phase;
Inserting a diaphragm into the cooling pipe; And
And supplying cooling water to the cooling pipe into which the diaphragm is inserted to harden the maintenance material,
Wherein the diaphragm surrounds the semi-cylindrical spring with a heat-shrinkable tube.
delete The method according to claim 1,
In filling the repair material,
Wherein the repair material is in the form of powder or gel mixed in a ratio of tin to ceramic powder in a mass ratio of 20 to 25: 1.
The method of claim 3,
The step of melting the repair material comprises:
Characterized in that the tin contained in the repair material is melted by self heat in a furnace during operation.
The method according to claim 1,
The step of inserting the diaphragm comprises:
Inserting a steel wire into an inlet of the cooling pipe and passing the steel wire through an outlet;
Joining the diaphragm to one end of the steel wire;
Drawing the other end of the steel wire so that the steel wire is inserted into the cooling pipe; And
And separating the diaphragm and the steel wire.
The method of claim 5,
The step of inserting the diaphragm comprises:
Characterized in that the inlet and outlet of the cooling pipe are sealed and the steel wire and diaphragm are inserted into the cooling pipe so as to prevent the molten repair material from leaking out of the cooling pipe.
As a repair material for repairing a stave cooling pipe in a blast furnace,
A repair material for stave cooling pipes, in which tin powder is based on and mixed with ceramic powder.
The method of claim 7,
Wherein the tin and the ceramic powder are mixed in a mass ratio of 20 to 25: 1.
The method of claim 7,
Wherein the ceramic powder is composed of zirconia (ZrO ₂ ) or alumina (Al ₂ O ₃ ), and the ceramic powder has a diameter of 100 μm or less.
The method of claim 7,
Characterized in that a liquid-state high-temperature adhesive is further mixed.

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