KR850001534B1 - Method repairs of blast furnace lining - Google Patents

Abstract

A new method involves (i)providing an opening(4) in the steel shell(1) at the position of lining damage; (ii) providing a guide bar(5) and an axially slit tube(9) that fits on the outside of the guide bar; (iii) forcing the guide bar and the tube into the furnace; and (iv) spreading the slit portions at the forward end of the tube radially outward to form a support structure for monolithic refractory. The slit tube portions act as reinforcements for injected or sprayed refractory material to give highly reliable repairs, which are easily formed.

Description

How to repair the blast furnace wall

1 is a cross-sectional structural view of the repair method of the present invention.

2 is a perspective view showing a selected embodiment of the tube.

3 is a cross-sectional structural view of the repair method of the present invention.

4 is a rear view showing a state in which the tube tip is deployed in the island.

5 is a cross-sectional view of the repair method of the present invention.

6 is a cross-sectional view of another repair method of the present invention.

7 is a cross-sectional view of another embodiment of the present invention.

8 is a front view of a furnace wall showing an embodiment of another repair method of the present invention.

9 is a cross-sectional structural view of another embodiment according to the present invention.

10 is another explanatory diagram of FIG.

11 is a cross-sectional structural view of yet another embodiment of the present invention.

12 is a cross-sectional view of another embodiment of the present invention.

13 is a cross-sectional view taken along line A-A of FIG.

14 is an explanatory diagram of another embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: Iron wall shell (steel shell) 2: Refractories

3: charge 4: opening

5: guide rod 6: curved member

6a: curved portion 6b: holder

6b ₁ : information board 6c: head

7: support 8: tube

8a: Pipe end portion 9: Slit

10: cylinder 10a: piston rod

10b: piston 10c: nut

11: crevice 12: irregular refractory

13: detention 13a: flange surface

14: press-fit hose 14a: press-fit hose fittings

15: road opening 16: nozzle

20: refractory wall 40: opening

50: guide bar 61,62: curved member

62a: insertion hole 80: tube

80a: Pipe end 81,82: Pipe

101: attachment structure

The present invention relates to a method for repairing a blast furnace wall. As is known, the furnace walls of the blast furnace are constructed by building a refractory inside the shell, but the refractory wears out due to contact with the contents or the molten iron in the furnace. Therefore, there has been a conventional method for repairing a damaged refractory wall surface and various new devices have been proposed.

Repair of the blast furnace wall is press-fitted into the part to be repaired when the blast furnace operation is interrupted (hereinafter abbreviated as "cold") during hot air blowing (hereinafter abbreviated as "hot") or when there is no air. In addition, a water-retaining agent is classified into thermosetting, hydraulic, and air-curable, but in the case of hot press-fitting, the thermo-setting water-retaining material is mainly used. In particular, clay or alumina is commonly used because of its good fluidity and the ability to prevent clogging in indenters or hoses.

On the other hand, cold spray is used for the purpose of protecting the shell, but in this case, high alumina, clay, and lightweight refractory insulating material are used, and it is generally a granular mixed refractory of 3 mm or less, and it is desired to spray well.

However, since the blast furnace is filled with charges and the damaged wall is often flat and free of ups and downs, for example, the conventional repair method is to fill the furnace wall damage with the amorphous refractory material. The attached ones were dropped without being attached, and a reliable repair could not be expected.

It is a main object of the present invention to provide a method for easily forming an amorphous refractory attachment structure having a reinforcing stud function in repairing a blast furnace wall.

It is another object of the present invention to provide a method of easily forming an attachment structure of irregular refractory structure composed of a plurality of stages having a reinforcing stud function by arbitrarily selecting a blast furnace wall repair material.

Another object of the present invention will be described in detail with reference to the accompanying drawings.

The present invention inserts a pipe body having a plurality of axial slits at the tip after inserting a guide rod body having a curved member that opens the iron bar of the furnace wall damage portion and bends outwardly to the tip through the opening. The method of repairing a blast furnace furnace wall is formed by inserting the tubular tip into a flower shape in the furnace while forming an attachment structure of a repair material (hereinafter, referred to as an amorphous refractory material) inside the furnace wall, and then compressing the irregular refractory material to form a refractory layer. to be.

The present invention will be described in detail with reference to the following Examples.

1 is a cross-sectional structural view showing an embodiment of a basic configuration and apparatus for repairing a furnace wall according to the present invention.

In the drawing, reference numeral 1 denotes a furnace wall shell (hereinafter referred to as iron shell), reference numeral 2 denotes a refractory built up inside the shell shell 1, and reference numeral 3 denotes a charge in the furnace. In the present invention, first, an opening 4 is formed in a portion in which the refractory wall 2 is damaged or the shell 1 is glowing so that damage to the furnace wall is confirmed, that is, in the shield 1 of the damaged wall of the present invention.

For example, when the refractory 2 remains and the refractory wall 20 is formed in the inside of the shell, the opening 4 penetrates the remaining refractory wall 20 to reach the furnace.

Subsequently, the guide rod body 5 is inserted into the furnace through the opening 4. The guide rod 5 has a curved member 6 that is bent outward at its tip and is inserted and held until the curved member 6 reaches a predetermined depth in the furnace. In the present embodiment, the support 7 is attached to the shell 1, and the support 7 is configured to support the guide rod 5.

Next, after fitting the tube body 8 to the outside of the induction rod body 5, the tube body 8 is pushed into the blast furnace while the guide rod body 5 is held at a predetermined position. The tube 8 is formed with any number of slits 9 in the axial direction at its distal end as in the perspective view of FIG. This slit 9 may be formed in the shape of a groove having an appropriate interval or simply cut and divided.

In this way, if the tubular body 8 in which this slit 9 is formed is applied to the furnace direction by the cylinder apparatus 10 installed in the said support 7, for example, as shown in FIG. 3 and FIG. 8) is bent outward from its tip by the curved member 6 of the guide rod 5 to develop in a flower shape. That is, the curved member 6 has a function of unfolding the distal end portion 8 of the tubular body 8 divided into several branches by the slit 9 to the outside.

The curved member 6 of the present embodiment forms a head 6c larger in diameter than the guide rod 5 at the tip of the guide rod 5, and the curvature of the head 6c and the guide rod 5 with a predetermined curvature. Or by connecting by the curved part 6a which has an appropriate inclination. In front of the curved portion 6a, a retainer 6b having a guide plate 6b ₁ inserted into the slit 9 of the tube 8 and fitted into the opening 4 of the shell 1 was fixed. In addition, the pipe 8 can be pressurized into the furnace more smoothly, and the pipe front end is surely curved outward.

In the present invention, the curved member 6 includes the holder 6b provided as necessary.

In this way, by injecting the tubular body 8 into the furnace guide rod 5 as described above, the tip portion 8a is inserted into the furnace while developing in a flower shape in the furnace and forms an attachment structure of refractory material.

Subsequently, when the furnace insert of the tubular body 8 is completed, the tubular body 8 injects the amorphous refractory 12 through the gap 11 between the openings 4.

5 shows one embodiment of the injection state of the amorphous refractory 12. In this embodiment, the detention 13 is fixed to the opening 4 in order to perform the injection operation efficiently. ), The press-fitting hose 14 of the amorphous refractory 12 was connected, and the amorphous refractory 12 was injected. In addition, the guide rod 5 cuts inwardly the flange face 13a of the cage 13 or slightly inwards thereof, and the insulated refractory 12 supplied from the press-in hose 14 is piped to the tube 8 and the guide rod 5. It also charged.

The irregular refractory 12 supplied from the gap 11 is indented into the furnace in turn, and the irregular refractory 12, which is press-fitted, is efficiently diffused in the furnace wall direction by the tubular distal end portion 8a that has been developed in a flower shape, thereby It is attached to a worn wall surface such as the inside or the inside of the refractory 2.

The amorphous refractory 12 injected between the worn wall surface and the charge 3 in the furnace is maintained by the stud function exerted by the tube tip 8a, and constitutes the refractory layer, thereby forming the refractory refractory 12 ) Is effectively prevented from peeling off the wall surface.

In the present invention, the position, the number of openings 4, the size of the tube 8, the length of the slit 9, and the like are appropriately set according to the size (width) of the furnace wall abrasion portion, the degree of wear thereof, and the like. Just do it.

0.05%, S

0.05%, 인장강도

30kg/mm²) 등으로 구성된 것이, 적은 압압으로 효율적으로 꽃송이모양으로 전개시킬수가 있고, 또 부정형내화물의 유지기능에도 뛰어나고, 효과적이었다.In the experience of the present inventors, as the tubular body 8, a stainless steel pipe of 2-3 mm thickness or a steel pipe for plumbing {SGP (P of JIS standard (P

0.05%, S

0.05%, tensile strength

30 kg / mm ² ), etc., can be efficiently developed into a flower shape with a small pressure, and also excellent in the retention function of the amorphous refractory material and effective.

The insertion position of the guide rod 5, i.e., the position of the curved member 6 in the furnace, is appropriately set according to the degree of wear of the furnace wall, the gap between the furnace wall and the charged material, or the charging density near the furnace wall of the charged object 3, and the like. Just do it.

According to the experience of the present inventors, as shown in FIG. 3, the tube tip 8a is fully developed at a position close to the wall surface, and then the guide rod 5 is almost similar to the rear end surface of the tube 8 as shown in FIG. When the tubular body 8 and the guide rod 5 are press-fitted in the furnace direction at the same time with the cylinder device 10 by cutting at the same length, the injection space of the irregular refractory 12 is filled even if the charge 3 is filled close to the wall surface. Is formed.

Therefore, the loadability and adhesion to the wall surface of the amorphous refractory 12 were improved and effective.

As in the embodiment of FIG. 5, the tube body 8 is cut off from the flange face 13a of the mold 13 or slightly inward thereof, and the amorphous body 12 is also filled between the tube body 8 and the guide rod 5. ) Even if it is left unattended, and when the size is large, as shown in the example of FIG. 8 described later, for example, after the injection of the amorphous refractory 12 is finished, the guide rod is dropped into the furnace and the space thereafter. A cooling cabinet can be inserted. At this time, it is possible to perform furnace wall cooling after repairing, and to further enhance the effect of the present invention.

7 is an explanatory diagram of another embodiment of the present invention. The cylinder device 10 is of a single type and consists of a subtracted state. The piston 10b fixes the piston rod 10a and the piston rod 10a is connected to the cross section of the tubular body 8. The guide rod 5 is fixed with a nut 10c at the end of the cylinder. Thus, the piston 10b slides with respect to the guide rod body 5 to apply a pressing force to the tube body 8 to develop the tip of the tube body 8 in a flower shape. 14a is a press-fitting hose fitting hole for amorphous refractory materials.

In addition, this invention is not limited to the said Example, What is necessary is just to design and employ | adopt suitably in the range which does not impair the function and effect of this invention.

For example, a well-known cooling panel is installed on a furnace wall, which frequently breaks or falls off when the wear of the furnace becomes severe. Therefore, the damaged or missing cooling plate is removed, and the iron cover for mounting the cooling panel is removed. The present invention can also be carried out using.

FIG. 8 shows an example of a maintenance criminal using the opening 40 after removing the cooling plate, and the guide rod body 50 and the tube body 80 have an elliptical shape that is close to the cross-sectional shape of the cooling plate, for example. Moreover, by forming a slit in the tip portion 80a of the tubular body 80, the tubular tip portion 80a develops in a flower shape in a furnace to form a refractory attachment structure, thereby achieving the effect of the present invention.

When the loading of the amorphous refractory 12 is finished, the guide rod 50 is cut in the vicinity of the flange face 13a shown in FIG. 5, or after the holding state of the support 7 is released. The guide rod body 50 falls into the furnace by pushing it to the furnace side.

After the guide rod body 50 falls, a space corresponding to the inner axis of the tube body 80 is formed.

And a cooling board can be mounted by inserting a well-known cooling board into this space and fixing it to the said flange surface 13a by suitable means.

9 shows another embodiment according to the present invention.

In this embodiment, two tubular bodies 81 and 82 having different diameters are polymerized and inserted into the guide rod 5 fixed and inserted into the furnace as in the above embodiment.

The two tubular bodies 81, 82 polymerized in this way are inserted into the furnace while the distal ends thereof are developed in a flower shape as shown in FIG.

When the press-in of the tube bodies 81 and 82 is completed, for example, as shown in FIG. 11, the outer tube body 82 is retracted by a predetermined distance L, or the inner tube body 81 and the guide rod body ( Advancing 5) forms a two-stage attachment structure 101 inside the furnace wall.

This embodiment is particularly effective in the repair of furnace wall abrasion parts in the case where there is no charge (3) inside, for example, by carrying out a weight loss operation and the like. ), (82) is pushed in and the outer tube 82 is retracted or the inner tube 81 and the guide rod 5 are advanced in the furnace direction to form a two-stage attachment structure 101. You can do it.

In addition, it is also possible to polymerize two or more plural tubes 8 and press-fit in the same manner as in the above embodiment, and easily form the attachment structure 101 of any single stage.

12 illustrates another embodiment of forming the multi-stage attachment structure 101. Two curved members 61 and 62 are provided at the end of the guide rod 5 at random intervals. The rearward curved member 62 of the curved members 61 and 62 is provided with an insertion hole 62a for inserting only the tubular body 81 therein as shown in the holder 6b as shown in FIG. It is.

As described above, in the present embodiment, when the polymerized two tubular bodies 81 and 82 are press-fitted, the inner tubular body 81 passes through the insertion hole 62a of the rear curved member 62, and then the curved member 61 at the uppermost stage. The tip is bent outward by On the other hand, the end of the shell tube 82 is bent to the outside by the rear curved member 62, the curved member 61, 62 by the outer tube 82 and the inner tube (81). The two-stage attachment structure 101 corresponding to the space | interval of () is formed in a furnace wall inside.

However, when the furnace insert of the tubular body 8 is finished, the amorphous refractory 12 is loaded from the gap 11 between the tubular body 8 and the opening 4 as in the embodiment of FIGS. 1 and 3.

On the other hand, in the part where there is no charge 3 inside the furnace wall, for example, as shown in FIG. 14, the particle mixed refractory material is spray-repaired under pressure from the opening 15 of the top. This trick is to insert the nozzle 16 into the furnace from the opening of the top and spray the irregular refractory 12 to the furnace wall abrasion through the nozzle 16. The attachment structure 101 exhibits a stud function and sprays the irregular shape. The refractory 12 is held firmly, and a refractory layer is comprised.

In particular, in the present embodiment, in the repair of a severely worn part, the spray structure of the amorphous refractory 12 can be thickened by forming the attachment structure 101 in two stages or two or more stages. It is extremely effective because it can repair the wall.

As described above, the present invention forms the opening 4 by opening the bark 1 of the furnace wall abrasion part, and maintains the guide rod 5 from the opening 4, and then forms the slit 9 at the distal end. Is inserted into the outside of the guide rod (5) to insert the tubular front end (8a) in the shape of a flower in the furnace while inserting to form an attachment structure 101 inside the furnace wall. Subsequently, after the attachment structure 101 is formed, the amorphous refractory 12 is loaded between the opening 4 and the tubular body 8 or the amorphous refractory 12 is sprayed into the furnace by using the nozzle of the top opening. By constructing the refractory layer, reliable furnace wall repair can be achieved.

Claims (4)

(Correct) After the guide rod body having a curved member which opens the corrugated wear part of the furnace wall and is bent outwardly through the opening is inserted and held through the opening, the pipe body having any number of axial slits formed at the tip is guided. A method of repairing a blast furnace furnace wall characterized in that it is inserted into the outside of a rod and inserted into the furnace while developing the tip of the tube in a flower shape to form an amorphous refractory attachment structure inside the furnace wall. (Correction) The method for repairing a blast furnace furnace according to claim 1, wherein the refractory layer is formed inside the furnace wall by injecting an amorphous refractory material through a gap between the opening of the shell and the guide rod body having the tube inserted therein. (Correction) The method for repairing a blast furnace furnace according to claim 1, wherein an amorphous refractory is sprayed under pressure from an opening formed in the furnace through a nozzle to form a refractory layer inside the furnace wall. (Correction) The method for repairing a blast furnace wall according to claim 1, wherein a plurality of flower-shaped irregular refractory attachment structures are formed in a furnace by polymerizing a plurality of pipes having different diameters of guide rods and inserting them outside.

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