KR20000018318U - Apparatus for cooling dry pit slag of blast furnace - Google Patents

Abstract

The present invention installs a water-cooled cooling structure between the refractory brick and the concrete structure of the inner wall of the aggregate processing plant after slag is flowed and cooled in the melt discharged from the outlet of the furnace, and the refractory brick is sprayed by spraying the cooling water. The present invention relates to an apparatus for cooling an inner wall of an aggregate treatment plant in a blast furnace so as to come into contact with a high temperature slag and prevent wear due to its redness.

The present invention flows into the slag upper surface of the slag through the cooling water transfer pipe and the spraying nozzle by pumping the cooling water through the water spray pump from the cooling water reservoir through the slag-induced falling slag. An apparatus for cooling an inner wall portion of an aggregate treatment plant of a blast furnace, comprising: a cooling half set provided between the refractory brick and an inner wall portion of the ash processing center, cooling water supply and discharge means for supplying and discharging cooling water to the cooling half set; A temperature detecting means for detecting the temperature of the refractory brick, a temperature adjusting means for adjusting the cooling water temperature, a multi-stage water spraying portion installed in the inner wall to spray cooling water to the slag, the temperature detecting means and the respective electric valve It is configured to include a control unit for controlling.

Description

APPARATUS FOR COOLING DRY PIT SLAG OF BLAST FURNACE}

The present invention is to install the water-cooled cooling structure between the refractory brick and the concrete structure of the inner wall of the aggregate treatment plant after the slag flow of the melt discharged from the outlet of the furnace, and the refractory brick by spraying the cooling water The present invention relates to an apparatus for cooling an inner wall of an aggregate treatment plant in a blast furnace so as to come into contact with a high temperature slag and prevent wear due to its redness.

In general, the melt reduced in the furnace discharges the molten iron and slag together through the outlet by the pressure in the furnace.

And the discharged melt is moved along the large bath, the slag with a small specific gravity is separated through the skimmer to the top of the skimmer, the molten iron is separated to the bottom of the skimmer.

The molten iron separated as described above is moved after being repaired to the molten iron car through the hot water, and the slag is guided to a water treatment facility or an aggregate treatment plant to refine the granules, and then cooled and aggregated by cooling water to be sprayed.

The slag of high temperature (about 1,520 ℃) is sent to the total amount of the lump treatment plant according to the working conditions, such as poor fluidity or failure of the water treatment equipment and before and after regular repair work of the furnace.

1 is a schematic view showing an example of a conventional furnace lump treatment plant, the conventional lump treatment plant 8 is a three-dimensional concrete structure for storing the slag flowing through the slag guided fall ball (1) as a firebrick (3) And the one side for carrying out the aggregates is open so that the block dam 4 is formed by the aggregates during the induction of slag, and after the slag is guided through the slag-induced falling ball 1, the sprinkling pump from the cooling water reservoir 6 Cooling water is pumped through the (7) to spray and cool the coolant to the slag upper surface through the cooling water transfer pipe (5) and the watering nozzle (2).

In this way, when the lump material processing plant 8 is filled with lump material, it is repeated to take out the lump material using heavy equipment and induce slag again to cool the water spray.

At this time, in the conventional aggregate processing plant 8, first, the induced high temperature slag is in contact with the refractory brick 3 constructed in the inner wall portion of the aggregate processing plant 8, and the temperature of the refractory brick 3 itself is raised to cut heat. As a result, wear progresses rapidly, and at this time, it is difficult to check the wear state of the refractory brick 3 while the slag is sprayed and cooled.

Second, since the cooling water spray nozzles 2 are installed to face each other in the horizontal direction in both side wall portions, there is a problem in that the slag cooling time is long due to insufficient water spraying ability of the entire area and local spraying.

The present invention was devised to solve the above-described problems of the prior art, and prevents the firebrick of the inner wall of the aggregate processing plant from contacting with the high temperature slag and abrasion according to its redness, thereby extending the life and shortening the slag cooling time. It is an object of the present invention to provide a cooling device for the inner wall of the aggregate treatment plant of the furnace.

1 is a schematic view showing an example of a conventional furnace aggregate treatment plant,

2 is a front and rear view showing a cooling plate set according to the present invention;

3 is an installation view of the cooling half set shown in FIG.

4 is a multi-stage watering unit configuration diagram in the present invention,

5 is an overall configuration diagram of the cooling device of the inner wall of the processing unit of the furnace according to the present invention,

6 is a flowchart showing an operation relationship of the present invention.

<Description of the code | symbol about the principal part of drawing>

1: slag induced fall ball 3: firebrick

6: cooling water storage tank 8: aggregate treatment plant

10: cooling panel set 10f: cooling water transfer piping

10g, 30c, 40c: Coolant supply electric valve 20a: Temperature detection part

30: main spray pipe 40: auxiliary spray pipe

50: heat exchanger 50b: temperature control electric valve

100: control unit

In order to achieve the above object, the slag is introduced into the slag processing plant constructed with the refractory brick through slag induction falling down, and the cooling water is pumped from the cooling water reservoir through the water spray pump to transfer the cooling water through the cooling water transfer pipe and the spraying nozzle. An apparatus for cooling the inner wall portion of an aggregate treatment plant in a furnace for sprinkling and cooling a surface, comprising: a cooling set provided between the refractory brick and an inner wall portion of the processing apparatus, and a cooling water supply for supplying and discharging cooling water to the cooling set; A discharge means, a temperature detecting means for detecting a temperature of the refractory brick, a temperature adjusting means for adjusting the cooling water temperature, a multi-stage water spraying part installed in the inner wall to spray cooling water to the slag, and the temperature detecting means And an inner wall cooling apparatus of the furnace processing plant including a control unit for controlling each electric valve. It is provided.

Hereinafter, the present invention will be described in more detail with reference to the drawings showing preferred embodiments.

2 to 6 show an embodiment of the apparatus for cooling the inner wall of the incinerator processing plant of the blast furnace according to the present invention, and the cooling apparatus according to the present invention is largely divided between the refractory brick and the inner wall of the ingot processing plant. And cooling water supply and discharge means for supplying and discharging cooling water to the cooling half set, temperature detecting means for detecting the temperature of the refractory brick, temperature adjusting means for adjusting the cooling water temperature, and installed in the inner wall portion. And a multi-stage watering unit for spraying cooling water to the slag, and a control unit for controlling the temperature detecting means and each electric valve.

As shown in FIGS. 2 and 5, the cooling half set 10 has a streamlined cooling pipe 10c installed in a rectangular casting mold having a predetermined thickness, and the cooling piping 10c is a casting mold. The water supply pipe 10a and the drain pipe 10b are cast (hereinafter referred to as the rear surface) by protruding the opposite ends of the two ends.

On the other hand, on the opposite side (hereinafter referred to as the front surface) where the water supply pipe 10a and the drain pipe 10b are located, a plurality of “Y” magnetic cores 10d having a predetermined size are attached to the front surface by casting. After constructing a blast furnace refractory 10e having a thickness and drying the refractory 10e at a constant temperature, the refractory brick 3 is constructed.

As shown in FIG. 3, the cooling plate set 10 is formed by passing the hole 8a along the inner wall portion of the aggregate processing plant 8 so that the water supply pipe 10a and the drain pipe 10b are inserted. The rear surface of the cooling plate set 10 is completely in close contact with the inner side wall portion is installed in a "c" shape in the interior of the aggregate processing plant (8).

Each of the plurality of cooling half sets 10 includes a water drainage pipe 10a of each of the drainage pipes 10b and the side cooling half sets 10, in which the cooling water supply means, that is, the cooling water storage tank 6, is used. Cooling water pumped through is connected to the cooling water supply electric valve (10g) and the cooling water conveying pipe (10f) is the entire cooling plate set is passed through.

In addition, the cooling water discharge pipe 10h is connected to the drain pipe 10b of the last cooling half set 10.

3 and 5, a plurality of thermometers 20 are inserted between the cooling van sets 10 and connected to the temperature detection unit 20a.

As shown in FIG. 5, the temperature control electric valve 50b is installed at a predetermined portion of the water supply pipe 10a and the cooling water transfer pipe 10f and the front end of the temperature control electric valve 50b. Is connected to the heat exchanger (50) inlet via the cooling water transfer pipe (10f), and the suction inlet transmission valve (50a) is installed at a predetermined portion of the suction pipe.

In addition, the exhaust pipe of the heat exchanger 50 is connected to the rear end of the temperature control electric valve (50b).

In addition, a cooling water direction control valve 50c is installed at a predetermined portion of the discharge pipe of the heat exchanger 50, and a cooling water supply electric valve 10g is connected to the water supply pipe 10a of the first cooling half set 10. It is connected with the cooling water conveying piping 10f.

As shown in Figure 4 and 5, the multi-stage watering unit is composed of the main watering pipe 30 and the auxiliary watering pipe 40, one end is closed, while the other side is open, the cooling water for watering is transferred The main spray pipe 30 is discharged so that the three surfaces are surrounded by the upper circumference of the outer peripheral surface of the aggregate treatment plant 8, the pipe nozzle (30a) to each of the nipples (30b) provided for each predetermined length in the main spray pipe (30) ) Are respectively fastened.

In addition, the auxiliary sprinkling pipe 40 having the same shape as the inner diameter smaller than the main sprinkling pipe 30 is fixed to be installed in the horizontal direction with the main sprinkling pipe 30, the pipe nozzle (each of the nipple (40b) 40a) is installed as connected.

The pipe nozzles 30a and 40a have a constant inner diameter at the tip and have an inner diameter that gradually increases toward the rear end.

The open pipe portions of the main water spray pipe 30 and the auxiliary water spray pipe 40 are attached to respective cooling water supply electric valves 30c and 40c and are respectively connected to the cooling water transfer pipe 10f.

The control unit controls the temperature detecting means for detecting the temperature between the cooling set panel 10 and the respective electric valves 10g, 30c, 40c, 50a, 50b.

Hereinafter, the operation of the present invention having the configuration as described above.

As shown in Figure 5 and 6, when starting the starting line at the exit of the furnace not shown, and the slag separated from the large tap water flows into the slag treatment plant (8) through the slag guided fall ball (1), the slag is The temperature of the firebrick 3 rises in contact with the firebrick 3.

Accordingly, when the thermometer 20 installed between the cooling half sets 10 detects a temperature and is above a predetermined temperature, the thermometer 20 is transmitted to the control unit 100 through the temperature detection unit 20a, and the control unit 100 transmits the cooling water supply. Cooling water flows in by opening the valve 10g.

At this time, since the temperature of the refractory brick 3 continuously increases due to the continuously introduced slag, when the temperature of the refractory brick 3 rises by a predetermined level or more in the control unit 100, the inlet electric valve of the heat exchanger 50 50a is opened, the temperature regulating electric valve 50b provided in the cooling water conveying pipe 10f is closed, and the cooling water flows in through the heat exchanger 50, so that the cooling water is continuously passed in a state where the temperature of the cooling water is lowered.

On the other hand, when the control unit 100 opens the cooling water supply electric valve (40c) of the auxiliary sprinkling pipe 40, the cooling water pumped from the cooling water reservoir (6) through the sprinkling pump (7) through the cooling water transfer pipe (10f) When the coolant is injected and sprayed with the cooling water through the pipe nozzle 40a, the pipe nozzle 40a has a short length, and thus the cooling water is injected into the part of the refractory brick 3 of the inner wall portion of the three surfaces of the aggregate processing plant 8, The slag of high temperature is in contact with the refractory brick 3 while maintaining a constant temperature until the inflow is stopped to prevent the refractory brick 3 from rapidly glowing and rapidly becoming worn.

On the other hand, when the slag inflow termination signal is received from the blast furnace computer, the cooling water supply electric valve 30c of the main water distribution pipe 30 is opened to spray the cooling water to the front surface of the slag through the pipe nozzle 30a, and the temperature detection unit 20a. When the temperature detection value of the control panel 100 is transmitted to the control unit 100 at a predetermined temperature or less, the control unit 100 closes the cooling water supply electric valve 10g of the cooling plate set 10, thereby preventing the refractory brick 3 of the aggregate processing plant 8. This prevents a sudden drop in temperature.

As described above, according to the present invention by cooling the high-temperature slag introduced into the aggregate treatment plant through the sprinkling device to prevent wear of the refractory brick due to the contact of the slag and refractory brick to extend the life, by the temperature detection means The wear level of the refractory bricks can be predicted in advance.

In addition, through the multi-stage watering method, the inside of the aggregate processing plant, as well as the inner wall portion can be easily sprayed, thereby reducing the slag cooling time.

Although the technical concept of the apparatus for cooling the inner wall of the blast furnace treatment plant according to the present invention has been described together with the accompanying drawings, this is illustrative of the preferred embodiments of the present invention and is not intended to limit the present invention.

In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (1)

The slag is introduced into the slag processing plant constructed with refractory bricks through the slag-induced falling ball, and the cooling water is pumped from the cooling water reservoir through the water spray pump to spray and cool the cooling water to the upper surface of the slag through the cooling water transfer pipe and the spraying nozzle. In the aggregate processing plant inner wall portion cooling apparatus, A cooling panel set installed between the refractory bricks and the inner wall of the aggregate processing plant; Cooling water supply and discharge means for supplying and discharging cooling water to the cooling half set, temperature detecting means for detecting a temperature of the refractory brick, Temperature control means for controlling the coolant temperature; A multi-stage watering unit installed in the inner wall part to spray cooling water to the slag; And a control unit for controlling the temperature detecting means and the respective electric valves.