KR101203651B1 - Apparatus for destroying bird's nest in blast furnace - Google Patents

Abstract

An apparatus for removing a blast blast from the blast blast is introduced. This bird nest removal device is provided with a shooter mounted on a pulverized coal injection lance, a projectile filled with expanded material that expands upon collision with a bird nest, and mounted on the shooter in a confidential manner, and a projectile is applied to the projectile so that the projectile collides with the blast furnace bird nest. It comprises a launch means for providing.

Description

Blast blast removal device of blast furnace {APPARATUS FOR DESTROYING BIRD'S NEST IN BLAST FURNACE}

The present invention relates to an apparatus for removing blast furnace buds nest, and more particularly, to an apparatus for removing blast furnace buds nest which can effectively remove the bird nests by launching a projectile filled with an expansion material into the furnace.

In general, in the pulverized coal injection blast furnace operation, as the coke is replaced by the pulverized coal, the ore layer thickness increases compared to the coke layer thickness, and thus the combustion amount of the coke is reduced at the lower part of the furnace. As the residence time increases, the chance of collision between the coke particles becomes larger in the combustion zone, where the coke of the fine powder generated by the mechanical wear due to the violent collision reaction is deposited in the coke layer at a certain position in the furnace.

For example, as shown in FIGS. 1A to 1B, the iron ore 1 and the fuel incoke 2 are charged into the layer at the top of the furnace, and the hot air is blown into the tuyere through an air duct 7 located below the blast furnace 6. do. The iron ore charged to the top is continuously reduced and reduced while being lowered, semi-melted in the soft fusion zone 3, and then exists in the melt state below the soft fusion zone 3. The coke, a fuel, continues to descend and burn in the cavity of the wind bulb, where the reducing gas is passed between the charges in the blast furnace 6 to reduce the iron ore and then discharge into the furnace.

In particular, in the blast furnace operation in which pulverized coal is blown, the coke is replaced by pulverized coal and the ore layer increases compared with the layer of coke, resulting in a decrease in the amount of coke combustion at the lower part of the furnace. As the residence time increases, the furnace strength is weaker than before pulverized coal is blown, and a large amount of powder is generated by the blowing energy in the combustion zone.

At this time, the generated coke is moved to the inside of the blast furnace 6 along the gas flow to form a bird's nest (11: bird's nest) at a relatively low gas flow rate, the formation of the bird's nest (11) coke To reduce the size of the combustion zone (7), the area where the combustion occurs, or to prevent the gas generated in the combustion zone from flowing into the center of the blast furnace (6), the gas is not evenly distributed to the center of the blast furnace (6) for smooth blast furnace operation Do not let

Therefore, conventionally, a technique for removing the bird nest in the blast furnace, for example, "a fine removal device around the blast furnace combustion chamber (Patent Publication: 10-2002-0028347)" has been proposed.

This conventional "differential removal device around the blast furnace table " includes an insertion rod through which gas is discharged from an end inserted into the blast furnace, a striking means for striking the insertion rod to penetrate a charge charged into the blast furnace, and the insertion rod is blown. Thrust measuring means for measuring the thrust generated while penetrating the charge by the means, and distance measuring means for measuring the distance the insertion rod is inserted into the blast furnace.

However, in the prior art, since the insertion rod is to be designed to withstand the high temperature atmosphere of the blast furnace, there is a problem that the structure is complicated, the manufacturing cost is also expensive, and can easily be broken when colliding with the charge.

An object of the present invention for solving such a problem is to provide a blast furnace bud nest removal apparatus that can effectively remove the bud nest in the furnace.

In order to achieve the above object, the blast furnace bird nest removing device according to the present invention is a blast furnace bird nest removing device mounted on a pulverized coal blowing lance installed in the blast furnace to crush the bird nest in the blast furnace, and includes a shooter, a projectile and a launching means. And the shooter is mounted to the pulverized coal blowing lance, and the projectile is filled with the expanded material which expands upon impact with the bird nest and is mounted in a tight manner with the shooter, and the launch means is configured such that the projectile collides with the bird nest of the blast furnace. Provides momentum to the projectile.

Preferably, the firing means includes a compressor connected to the shooter through a connection hose to provide a high pressure gas to the inner space of the shooter, and a control valve for selectively opening and closing the connection hose.

Preferably, the projectile is an envelope having an inlet and having an accommodating space therein, an inflating material filled in the accommodating space through the inlet, and a sealing member sealing the inlet to close the infill filled with the inflating material. It is composed.

Preferably, the shooter is composed of a shooter body having an O-ring in close contact with the projectile to maintain the airtight, and a shooter cap screwed to the shooter body connected to the launch means.

Preferably, the shooter is screwed to the pulverized coal blowing lance through a connecting pipe.

Preferably, the pulverized coal injection lance is provided with an alignment guide for aligning the shooter and the projectile in series to surround the shooter and the projectile.

Preferably, the pulverized coal injection lance is composed of a first coupler in which pulverized coal is injected and a second coupler which is branched from the first coupler and coupled to the shooter via a connecting pipe.

Preferably, the compressor is composed of an air compressor for supplying high pressure air gas to the shooter or a nitrogen compressor for supplying high pressure nitrogen gas to the shooter.

According to the present invention, by launching the projectile filled with the expansion material into the blast furnace by crushing the bird nest in the blast furnace, there is an advantage that can improve the production efficiency of the blast furnace operation by increasing the ventilation of the blast furnace.

Figure 1a is a schematic diagram showing the interior of a typical blast furnace.
FIG. 1B is a detailed view of the combustion zone formed in the blast furnace of FIG. 1A; FIG.
Figure 2 is an installation of the bird nest removing device of the blast furnace is mounted on the pulverized coal injection lance of the blast furnace.
Figure 3 is an enlarged view of the bird nest removing device and pulverized coal blowing lance of the blast furnace according to the present invention.
Figure 4 is a state diagram showing the operating state of the blast furnace bird nest removal apparatus according to the present invention.

In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

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

2 is a view showing an installation state in which the bird nest removing device of the blast furnace is mounted on the pulverized coal blowing lance of the blast furnace, and FIG. 3 is an enlarged view of the bird nest removing device and the pulverized coal blowing lance of the blast furnace according to the present invention. Drawing.

2 to 3, the blast furnace bird nest removing apparatus according to the present invention, the shooter 100 mounted on the pulverized coal injection lance 400, and the expansion material 220 is filled with the shooter 100 The projectile 200 is mounted on the projectile, and the projecting means 200, the launching means 300 for providing a propulsive force to the projectile, the projectile 200 by impacting the bird nest 530 in the blast furnace 500, thereby expanding The expansion of the material 220 causes the bird nest 530 to be broken.

Specifically, the bird nest removing device is mounted on the pulverized coal injection lance 400 installed in the blast furnace 500 via the connecting pipe 510. The pulverized coal injection lance 400 is a supply pipe for blowing pulverized coal into the blast furnace 500. The pulverized coal injection lance 400 according to the present embodiment is connected to a first coupler 410 into which pulverized coal is injected. The second coupler 420 fastened to the second thread 502 of the pipe 510 is branched.

In this case, the first coupling hole 410 of the pulverized coal injection lance 400 is connected to the pulverized coal injection lance 400 at an inclined angle, and the second coupling hole 420 is positioned in series with respect to the pulverized coal injection lance 400. Is connected.

And the opening and closing means (not shown) may be provided in the second coupler 420 of the pulverized coal injection lance 400. The opening and closing means maintains the second coupler 420 in the closed state when the shooter 100 is separated from the second coupler 420, and the second coupler 420 when the shooter 100 is coupled. Keep open

These connectors 510, shooter 100 and projectile 200 are aligned in series with the second coupler 420. In this case, an alignment guide 520 surrounding the second coupling tool 420, the connection pipe 510, and the shooter 100 may be installed. The alignment guide 520 aligns the shooter 100 and the projectile 200 in series with respect to the second coupler 420, such that the projectile 200 is connected to the shooter 100, the connector 510, and the second coupler. Allow 420 to fly straight.

Shooter 100 is a structure that is connected to the pulverized coal blown lance 400 through a screw coupling with the connector 510, the projectile 200 is provided to receive the driving force from the firing means 300. To this end, the shooter 100 is composed of a shooter body (100a), the shooter cap (100b) is screwed to the shooter body (100a).

The shooter body 100a of the shooter 100 is provided with a pair of O-rings 110 for maintaining airtightness with the projectile 200 on the inner surface thereof, and the first thread 501 of the connecting pipe 510 at one end thereof. ) And a first threaded portion 111 is screwed, and a second threaded portion 112 screwed to the shooter cap 100b is formed at the other end thereof. And one end of the shooter cap (100b) is screwed to the second threaded portion 112 of the shooter body (100a) and the other end is formed with a connection hole 120 through which the high pressure gas flows from the firing means (300).

The projectile 200 is a container filled with the expansion material 220 and is hermetically mounted to the shooter 100, and is expanded by colliding with the bird nest 530 during launch by the launching means 300. The projectile 200 has an outer shell 210 having an accommodation space therein, an expanded material 220 filled in the receiving space through an inlet of the outer shell 210, and an outer shell 210 when the expanded material 220 is filled. It consists of a sealing member 230 for closing the inlet of the.

In particular, the expansion material 220 of the projectile 200 is selected from the material exhibiting a vaporization or sublimation reaction, such as liquid oxygen, liquid carbon, dry ice, etc., the expansion material 220 and the inside of the blast furnace 500 By generating a rapid expansion force under the same high temperature atmosphere, the bird nest 530 in the blast furnace 500 can be broken.

The sealing member 230 of the projectile 200 may be configured in the form of a valve. The valve-shaped sealing member 230 supplies the expanded material 220 into the shell 210 in the open state, and maintains the storage state of the expanded material 220 introduced into the shell 210 in the closed state. Can be.

The projectile 200 of this configuration is provided with the propulsion force necessary for launching through the firing means 300. The launching means 300 provides a projecting force to the projectile 200 such that the projectile 200 collides with the bird nest 530 of the blast furnace 500. The firing means 300 is a compressor 310 connected to the shooter 100 through the connection hose 320 to provide the high pressure gas to the inner space of the shooter 100, and a connection hose to supply or block the high pressure gas ( It consists of a control valve 330 that serves as a switch for selectively opening and closing 320.

At this time, the compressor 310 may be configured as an air compressor for supplying a high pressure air gas to the shooter 100, or may be configured as a nitrogen compressor for supplying a high pressure nitrogen gas to the shooter 100, in this embodiment By providing a high pressure gas pressure in the shooter 100, the projectile 200 is fired toward the bird nest 530 in the blast furnace 500.

In the present embodiment has been described with respect to the firing means 300 for providing a high-pressure gas of the compressor 310 by the driving force of the projectile 200, the launch means 300 using the explosive force of the gunpowder as the driving force of the projectile 200 is applied. It may be. In this case, since the driving force due to the explosive force of the gunpowder is transmitted to the projectile 200, the projectile 200 may fly toward the bird nest 530 in the blast furnace 500.

Hereinafter, the operation of the present invention will be described.

4 is a view showing the operating state of the blast furnace bird nest removing apparatus according to the present invention.

As shown in FIGS. 2 and 4, iron ore and coke are charged into the blast furnace 500, pulverized coal is blown through the pulverized coal blowing lance 400, and the bud nest 530 is formed by the accumulation of pulverized coal in the blast furnace 500. ) Is formed, it operates the bird nest removal apparatus according to the present invention.

To this end, first, while the blowing of the pulverized coal is stopped, the second coupler 420 of the pulverized coal injection lance 400 is opened, and the shooter 100 of the bird nest removing device is opened to the opened second coupler 420. ). At this time, the alignment guide 520 is installed on the outer surface of the bird nest removing device and the pulverized coal injection lance (400).

Thereafter, the compressor 310, which is the firing means 300, and the control valve 330 are operated so that the driving force of the high pressure gas is transmitted to the projectile 200 mounted on the shooter 100. At this time, the projectile 200 received the propulsive force from the launching means 300, after passing through the pulverized coal injection lance 400 is flying toward the bird nest 530 inside the blast furnace 500, bird nest 530 When the outer shell 210 of the projectile 200 is damaged by the collision with the expansion material 220 is expanded rapidly into a gas under a high temperature atmosphere inside the blast furnace 500, the bird nest 530 is broken.

If the projectile 200 is not damaged by the collision with the bird nest 530, the shell 210 of the projectile 200 is embedded in the bird nest 530 in a high temperature atmosphere inside the blast furnace 500. Melted, since the expanded material 220 is rapidly changed into a gas under a high temperature atmosphere, the bird nest 530 may be broken.

As described above, since the present invention launches the projectile 200 filled with the expanded material 220 into the blast furnace 500 to crush the bird nest 530 formed in the blast furnace 500, There is an excellent advantage that can improve the production efficiency of the blast furnace operation by increasing the breathability.

Although the present invention has been described in detail using the preferred embodiments, the scope of the present invention is not limited to the specific embodiments, and should be interpreted by the appended claims. It will also be appreciated that many modifications and variations will be apparent to those skilled in the art without departing from the scope of the present invention.

100: Shooter 100a: Shooter Body
100b: shooter cap 111: first threaded portion
112: second threaded portion 200: projectile
210: jacket 220: expanded material
230: sealing member 300: firing means
310: compressor 320: connection hose
330: control valve 400: pulverized coal injection lance
410: first coupler 420: second coupler

Claims (8)

As a blast furnace bird nest removal device mounted on the pulverized coal injection lance,
Shooter 100 mounted to the pulverized coal injection lance (400);
A projectile (200) filled with an expandable material (220) which is expanded upon collision with the bird nest (530) and hermetically mounted to the shooter (100); And
Apparatus for removing the bird nest of the blast furnace characterized in that it comprises a firing means 300 for providing a propulsion force to the projectile 200 so that the projectile 200 collides with the bird nest (530) of the blast furnace (500). The method according to claim 1,
The firing means 300 is connected to the shooter 100 through a connection hose 320 to provide a high pressure gas to the internal space of the shooter 100 and the compressor 310, and the connection hose 320 selectively Buddest of the blast furnace 500, characterized in that it comprises a control valve for opening and closing the 330. The method according to claim 1,
The projectile 200 has an inlet and an outer shell 210 having an accommodating space therein, an inflating material 220 filled in the accommodating space through the inlet, and an outer shell 210 filled with the inflating material 220. Apparatus for removing the bird nest of the blast furnace, characterized in that consisting of a sealing member 230 for closing the inlet to close. The method according to claim 1,
The shooter 100 is a shooter body (100a) is provided with an O-ring 110 in close contact with the projectile 200 to maintain the airtight, and is screwed to the shooter body (100a) is connected to the firing means 300 Blastner removal device of the blast furnace, characterized in that consisting of a shooter cap (100b). The method according to claim 1,
The shooter 100 is a blast furnace bud nest removal device, characterized in that the screw connection to the pulverized coal injection lance (400) via a connecting pipe (510). The method according to claim 1,
In the pulverized coal injection lance 400, an alignment guide 520 for aligning the shooter 100 and the projectile 200 in series is installed to surround the shooter 100 and the projectile 200. Bird Nest Removal Device. The method according to claim 1,
The pulverized coal injection lance 400 is branched from the first coupler 410 and the first coupler 410 into which the pulverized coal is injected, and the second coupler coupled to the shooter 100 via a connecting pipe 510. Blast furnace removal device, characterized in that consisting of the coupling sphere (420). The method according to claim 2,
The compressor (310) is a blast furnace bud nest removal device, characterized in that consisting of an air compressor for supplying a high pressure air gas to the shooter 100 or a nitrogen compressor for supplying a high pressure nitrogen gas to the shooter (100).

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