KR102250335B1 - Gas guiding device for tap hole - Google Patents

Abstract

The present invention relates to a gas guide device for a tap hole, which comprises: a furnace unit; an outer cover unit formed on the furnace unit; a mounting unit mounted inside the outer cover unit; a guide unit inserted into the mounting unit to guide gas; and a support unit injected between the mounting unit and the guide unit to be cured and support the guide unit. The present invention can prevent gas poisoning of a worker working near the guide unit.

Description

Gas guiding device for exit port {GAS GUIDING DEVICE FOR TAP HOLE}

The present invention relates to a gas induction device for an outlet port, and more particularly, to a gas induction device for an outlet port that prevents gas poisoning of a worker working in proximity to the outlet port because it induces gas discharged through the outlet port.

In general, the melt inside the blast furnace can be discharged through the outlet of the refractory for blocking provided at the lower side of the blast furnace, and these outlets are again closed with mud material when the discharge of the molten metal or slag is finished, and again at the next discharge. It is forcibly pierced.

The background technology of the present invention is published in Korean Registered Patent Publication No. 10-1065844 (registered on September 9, 2011, title of invention: gas passage repair device at the exit of the blast furnace).

An embodiment of the present invention is to provide a gas induction device for the outlet port that prevents gas poisoning of a worker working in close proximity to the outlet port because the gas discharged through the outlet port is guided.

The gas induction device for the exit port according to the present invention includes: a blast furnace; An outer skin formed in the blast furnace; An internal part built into the outer skin; An induction part inserted into the interior to guide gas; And a support portion that is injected between the interior portion and the induction portion to be hardened, and supports the induction portion.

A first interior portion having a first hole portion communicating with an outlet portion formed in the blast furnace portion; And a second built-in part connected at the first built-in part and formed with a second hole part communicating with the first hole part.

The diameter of the second hole portion is formed larger than the diameter of the first hole portion, and the diameter of the second hole portion decreases as the distance from the blast furnace portion increases.

The induction part comprises a first induction part in contact with the first internal part; And a second induction part extending from the first induction part and having a smaller diameter as the distance increases from the blast furnace part.

The induction part further comprises a third induction part extending from the first induction part and inserted into the first internal part to suppress gas leakage.

The gas guiding device for an outlet port according to the present invention further comprises: a fixing portion for fixing an installation position of the guiding portion before the supporting portion supports the guiding portion.

The gas induction device for the exit port according to the present invention can prevent a gas poisoning accident of a worker performing maintenance work at the periphery of the guidance unit by guiding the gas discharged from the exit opening of the blast furnace to a set destination.

1 is a view schematically showing a gas induction device for an outlet according to an embodiment of the present invention.
2 is a view schematically showing an interior part according to an embodiment of the present invention.
FIG. 3 is a diagram schematically illustrating a state in which an induction part is disposed in FIG. 2.
FIG. 4 is a diagram schematically illustrating a state in which a support part is injected into FIG. 3.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the gas induction device for outlets according to the present invention. In this process, the thickness of the lines or the size of 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 the intention or custom of users or operators. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

1 is a view schematically showing a gas induction device for an outgoing port according to an embodiment of the present invention, FIG. 2 is a view schematically showing an interior part according to an embodiment of the present invention, and FIG. 3 is an induction part in FIG. It is a diagram schematically showing the arrangement state, and FIG. 4 is a diagram schematically illustrating a state in which a support part is injected in FIG. 3. Referring to Figures 1 to 4, the gas induction device 1 for the outlet according to an embodiment of the present invention is a blast furnace part 10, an outer skin part 20, an interior part 30, and an induction part 40 ), and a support part 50.

The operation in the blast furnace part 10 is that iron ore as a raw material and coke as a fuel are injected in an appropriate ratio and then burned inside the blast furnace part 10 with high-temperature hot air supplied from the hot stove, and molten metal through a reduction reaction for a certain period of time. And, the work of discharging slag to the outside at regular intervals is the mainstream. At this time, the molten material inside the blast furnace part 10 is closed with mud material and is forcibly drilled at the next discharge. As an example, the blast furnace part 10 includes an iron skin 11 forming an outer appearance, and an edge part 12 of a refractory material laminated on the inside of the iron skin 11, and the edge part 12 has an outlet (13) can be formed to discharge molten metal and slag. In addition, the outlet 13 may be closed by the mud material 14 and crushed as necessary to open the outlet 13.

The outer skin 20 is formed on the blast furnace 10. For example, the outer skin portion 20 is formed on the lower outer side of the blast furnace portion 10, and may have a duct shape extending outward from the iron skin portion 11. The outer skin 20 is made of the same material as the iron skin 11 and may be formed integrally with the iron skin 11.

The built-in part 30 is built into the outer skin part 20. For example, the interior portion 30 may be a brick made of refractory material, and may support the inner side of the outer skin portion 20. In addition, the interior portion 30 may be in communication with the outlet portion 13 to discharge the molten material of the blast furnace portion 10.

The induction part 40 is inserted into the interior part 30 to guide the gas. As an example, the induction part 40 is disposed inside the interior part 30, and the gas discharged through the gap formed by the rupture of the mud material 14 closing the outlet part 13 can be guided in one direction. have. For this reason, even if a worker who recognizes the location of the induction part 40 works in the periphery of the induction part 40, an accident due to gas poisoning can be prevented.

The support part 50 is injected between the internal part 30 and the induction part 40 to be hardened, and supports the induction part 40. As an example, the support part 50 fixes the position of the induction part 40, and the operator can safely perform maintenance work at the support part 50 corresponding to the periphery of the induction part 40. Such support 50 may be constructed in a state of increasing fire resistance by compacting with irregular refractory material (stamped material).

The interior part 30 according to an embodiment of the present invention includes a first interior part 31 and a second interior part 32.

The first internal part 31 has a first hole part 311 communicating with the outlet part 13 formed in the blast furnace part 10. For example, the first hole 311 may have the same diameter as the outlet 13 or may be formed to have a smaller diameter than the outlet 13.

The second interior portion 32 extends from the first interior portion 31 and a second hole portion 321 communicating with the first hole portion 311 is formed. The diameter of the second hole portion 321 is larger than the diameter of the first hole portion 311. In addition, the diameter of the second hole portion 321 decreases as the distance from the blast furnace portion 10 increases. For example, the second hole portion 321 may be formed such that a left end portion has a maximum diameter and a right end portion has a minimum diameter (see FIG. 2 ).

The induction part 40 according to an embodiment of the present invention includes a first induction part 41 and a second induction part 42. This induction part 40 may be molded using an irregular refractory material.

The first induction part 41 is in contact with the first internal part 31. For example, the first induction part 41 may have a ring shape in cross section and may contact the first internal part 31. In addition, the first induction part 41 may be formed to have an inclined cross section in the inward direction. Accordingly, the contact area with the support part 50 is enlarged, and it is supported by the hardened support part 50 to prevent separation from the support part 50.

The second induction part 42 extends from the first induction part 41, and the further away from the blast furnace part 10, the smaller the diameter. For example, the second induction part 42 may have a duct shape that extends from the inner end of the first induction part 41 and decreases the outer diameter and the inner diameter as the distance from the blast furnace part 10 decreases (see FIG. 3 ).

The inclination angle b of the second induction part 42 may be designed to be smaller than the inclination angle a of the second hole part 321. That is, the distance c between the outer circumferential surface of the second induction part 42 and the second interior part 32 decreases as the distance from the blast furnace part 10 increases. Accordingly, the cross-sectional area of the support portion 50 injected therebetween decreases toward the right, so that separation of the support portion 50 and separation of the second guide portion 42 can be suppressed.

The induction part 40 according to an embodiment of the present invention may further include a third induction part 43. The third induction part 43 extends from the first induction part 41 and is inserted into the first internal part 31 to suppress gas leakage. As an example, the first recessed first groove 312 is formed in the first internal part 31, and the third induction part 43 extending from the outer end of the first induction part 41 is inserted into the first groove 312 Can be. In this case, a filler is additionally injected into the space between the first groove 312 and the third induction part 43 to block gas leakage. When the third induction part 43 is inserted into the first groove 312, the induction part 40 is in a temporary coupling state and the position can be automatically aligned.

On the other hand, the gas induction device 1 for outlet port according to an embodiment of the present invention may further include a fixing unit 60. The fixing part 60 is to maintain the installation state of the induction part 40 by fixing the induction part 40 before the support part 50 is injected between the internal part 30 and the induction part 40 to support the induction part 40. I can.

For example, the fixing part 60 may include a first fixing part 61 in which one or more rods are in contact with an end of the second induction part 42 and bolted to the second interior part 32. In addition, a second fixing part 62 extending through the induction part 40 may be formed at the center of the first fixing part 61 supporting the end of the second induction part 42. The second fixing part 62 passes through the interior part 30, and the third fixing part 63 may be supported inside the blast furnace part 10 while being screwed with the end of the second fixing part 62. .

The installation process of the gas induction device for the outlet port according to an embodiment of the present invention having the above structure will be described as follows.

First, when the operator crushes the support part 50 using an opening machine, a first hole part 311 is formed in the first interior part 31, and a second hole part 321 is formed in the second interior part 32. Is formed. Then, when the operator crushes the mud material 14 using an opening machine, the outlet portion 13 is formed.

When this crushing operation is completed, the melt inside the blast furnace 10 may be discharged to the outside through the outlet 13.

When the discharging of the melt inside the blast furnace part 10 is completed, the operator inserts the induction part 40 into the interior of the interior part 30, and between the interior part 30 and the induction part 40, and in the interior of the induction part 40. Fill the support 50.

In this case, the installation position of the induction part 40 may be fixed by using the fixing part 60. In addition, when the third induction part 43 is inserted into the first groove 312 formed in the first internal part 31, the installation position of the induction part 40 can always be aligned in the correct position, and the induction part 40 It is possible to prevent gas from leaking to the outside of the induction part 40 by suppressing the spaced space between the and the interior part 30.

On the other hand, when the induction part 40 is supported by the support part 50, the gas generated in the blast furnace part 10 is discharged to the outside through only the inner passage of the induction part 40. For this reason, it is possible to prevent gas poisoning accidents while performing maintenance work in the work in the vicinity of the induction part 40.

The gas guiding device 1 for the outgoing port according to an embodiment of the present invention guides the gas discharged from the outgoing port 13 of the blast furnace part 10 to a set destination, so that the peripheral part of the induction part 40 It can prevent gas poisoning accidents of workers who perform maintenance work at the site.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is only illustrative, and those of ordinary skill in the field to which the technology pertains, various modifications and other equivalent embodiments are possible. I will understand. Therefore, the true technical protection scope of the present invention should be determined by the following claims.

10: blast furnace 20: outer skin
30: internal part 31: first internal part
32: second internal part 40: induction part
41: 1st induction part 42: 2nd induction part
43: third induction part 50: support part
60: fixed part

Claims (6)

Blast furnace;
An outer skin formed in the blast furnace;
An internal part built into the outer skin;
An induction part inserted into the interior to guide gas; And
And a support portion that is injected between the interior portion and the induction portion to be hardened and supports the induction portion.
The method of claim 1, wherein the interior portion
A first interior portion having a first hole portion communicating with an outlet portion formed inside the blast furnace portion; And
And a second built-in part connected from the first built-in part and formed with a second hole part communicating with the first hole part.
The method of claim 2,
The diameter of the second hole is formed larger than the diameter of the first hole,
The diameter of the second hole portion decreases as the distance from the blast furnace portion increases.
The method of claim 2, wherein the induction part
A first induction part in contact with the first internal part; And
And a second guiding portion extending from the first guiding portion and having a smaller diameter as the distance from the blast furnace portion increases.
The method of claim 4, wherein the induction part
And a third induction part extending from the first induction part and inserted into the first internal part to suppress gas leakage.
The method of claim 1,
And a fixing part for fixing the installation position of the guide part before the support part supports the guide part.

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