KR20110034371A - Cooling apparatus for sintered ore - Google Patents

Abstract

PURPOSE: A sintered ore cooling apparatus is provided to increase productivity by reduction in cooling time of sintered ore since the supply directions of air and cooling water are equal. CONSTITUTION: A sintered ore cooling apparatus comprises an air supplying unit(20), a first cooling water supply unit, and a second cooling water supply unit(40). The air supplying unit supplies air to one side of a cooling cart(10). The first cooling water supply unit supplies the cooling water moving to the cooling cart with the air of the air supply unit. The second cooling water supply unit faces the first cooling water supply unit and supplies the cooling water to the other side of the cooling cart.

Description

COOLING APPARATUS FOR SINTERED ORE}

The present invention relates to a cooler device for sintered ore cooling, and more particularly, to a sintered ore cooler for preventing an operation accident.

In general, the sintered ore, which is a main raw material of the blast furnace, is charged with a sintered bogie that is moved along the caterpillar with a blended raw material adjusted to have moisture by blending powdered coke with spectroscopy.

After igniting the surface of the blended raw material charged into the sintered trolley, if air is sucked in the downward direction of the sintered trolley, the firearm moves toward the bottom of the sintered trolley, and the blended raw material is sintered inside the sintered trolley to form a sintered ore.

The sintered ore discharged from the sintered trolley is hot crushed and then moved to a cooler device for cooling the hot sintered ore.

The sintered ore of 800 degrees C or more introduced into the cooler is air cooled and cooled to 100 degrees or less.

Of the sintered ore introduced into the cooler device, the red light, which is unbaked sintered light, is sintered in the cooler device and generates high temperature heat.

If the sintered ore including the reddish light is not sufficiently cooled by the cooler device and is supplied to the belt conveyor, it may cause a fire, and thus cooling water is sprayed on the upper side of the sintered ore to cool the sintered ore to a predetermined temperature or less.

The technical structure described above is a background technique for assisting the understanding of the present invention, and does not mean the prior art widely known in the technical field to which the present invention belongs.

The cooling water supplied from the upper side to the lower side of the sintered ore is inverse to the moving direction of air moved from the lower side to the upper side of the sintered ore. As a result, the time for reaching the sintered ore in the lower part of the cooling water is delayed, and the time required for cooling the sintered ore is increased, so that the yield of the sintered ore is reduced. Therefore, there is a need for improvement.

The present invention has been made by the necessity as described above, an object of the present invention is to provide a cooler device for sintered ore cooling that can reduce the cooling time of the sintered ore to increase the production of sintered ore.

The cooler device for cooling sintered ore according to the present invention includes: an air supply unit for supplying air in one direction of the cooling cart, a first coolant supply unit and a first coolant supply unit for supplying coolant that is moved to the cooling cart, such as air in the air supply unit; It is installed to face the second cooling water supply unit for supplying the cooling water in the other direction of the cooling bogie.

In addition, the second cooling water supply unit is installed in the upper portion of the cooling bogie, the air supply unit and the first cooling water supply unit is preferably installed in the lower portion of the cooling bogie.

In addition, the first coolant supply unit preferably includes a first pipe member for forming a conduit through which the coolant flows along the moving direction of the cooling cart, and a first spray nozzle for injecting the coolant from the first pipe member toward the cooling cart. Do.

In addition, the plurality of first pipe members are preferably provided spaced apart.

In addition, the second coolant supply unit includes a second pipeline member which is installed to cross the traveling direction of the cooling bogie and forms a pipeline through which the coolant flows, and a second spray nozzle which injects the coolant from the second pipeline member toward the cooling bogie. It is preferable.

In the cooler device for cooling the sintered ore according to the present invention, since the supply direction of the air supplied to the cooling cart through the air supply unit and the supply direction of the coolant supplied to the cooling cart through the first cooling water supply unit are the same, the cooling time of the sintered ore is reduced. The amount of production can be increased, and the amount of cooling water used for cooling the sintered ore can be reduced, thereby improving the quality of the sintered ore.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the sintered ore cooling cooler device according to the present invention. For convenience of explanation, the sintered ore cooling cooler used in the steelmaking process will be described as an example. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

1 is a perspective view schematically showing a sintered ore cooling cooler device according to an embodiment of the present invention, Figure 2 is a schematic view showing the installation state of the first cooling water supply unit and the second cooling water supply unit according to an embodiment of the present invention. 3 is a cross-sectional view schematically illustrating an installation state of a first coolant supply unit and a second coolant supply unit according to an exemplary embodiment of the present invention.

1 and 2, a charging chute 7 for supplying a high temperature sintered ore 6 is connected to one side of the sintered ore cooling cooler device 1.

As the cooler device 1 for cooling the sintered ore, various cooling devices may be used within the technical concept of cooling the high temperature sintered ore 6 to a low temperature of 100 degrees or less.

1 to 3, the sintered ore cooling cooler device 1 according to an embodiment of the present invention, the air supply unit 20 for supplying air 9 in one direction of the cooling bogie 10 And the first cooling water supply unit 30 and the first cooling water supply unit 30, which supply the cooling water 8 that is moved to the cooling cart 10, such as the air 9 of the air supply unit 20, are installed to be cooled. The second cooling water supply unit 40 for supplying the cooling water 8 in the other direction of the trolley 10 is included.

The cooling bogie 10 moves along the guide partition 3 formed in an arc shape, and a cover member 5 is installed at one side of the guide partition 3 to recover and recycle heat generated from the sintered ore 6 or to the outside. To emit.

The cooling bogie 10 includes a base portion 12 through which the air 9 passes, and wheels 14 provided on both sides of the base portion 12, and the wheels 14 of the cooling bogie 10 are circular arcs. It moves along the rail 16 installed in the shape.

The second cooling water supply unit 40 is installed on the upper portion of the cooling cart 10 loaded with the sintered ore 6 (hereinafter referred to as FIG. 2), and the air supply unit 20 and the first cooling water supply unit are disposed below the cooling cart 10. 30 is provided to quench the sintered ore 6 higher than the set temperature.

The air supply unit 20 may use various types of air supply devices within the technical concept of supplying and cooling the air 9 to the sintered ore 6 carried by the cooling cart 10.

The air supply unit 20 according to an embodiment may include a blower 22 that sucks air 9 and supplies it to the cooler device 1 for cooling the sintered ore, and a cooling bogie for the air 9 sucked through the blower 22. And an air guide part 24 for guiding the lower part of the part 10.

The air guide part 24 is installed in an arc shape along the moving direction of the cooling cart 10, and the air 9 moved along the air guide part 24 is moved upward from the lower part of the cooling cart 10. The sintered ore 6 is cooled.

The first cooling water supply unit 30 installed at the lower portion of the cooling cart 10 may include a first pipe member 32 and a first pipe line forming a pipeline through which the coolant 8 flows along the traveling direction of the cooling cart 10. And a first spray nozzle 34 for spraying the coolant 8 in the direction from the member 32 toward the cooling cart 10.

The first conduit member 32 may be moved together with the air 9 supplied from the lower portion of the cooling bogie 10 to the upper portion, and may be installed in the singular or plural within the technical concept of supplying the cooling water 8.

When the first pipe member 32 is provided in plural, the first pipe member 32 is installed in the lower portion of the cooling cart 10 in a spaced apart state.

The second cooling water supply unit 40 installed at the upper portion of the cooling bogie 10 is installed to cross the traveling direction of the cooling bogie 10, and the second conduit member 42 and the first pipe forming a pipeline through which the cooling water 8 flows. A second spray nozzle 44 for injecting the cooling water 8 in the direction from the two pipe members 42 toward the cooling bogie 10.

The first conduit member 32 is installed in parallel with the traveling direction of the cooling bogie 10, and the second conduit member 42 is installed perpendicular to the traveling direction of the cooling bogie 10, so that the first conduit member ( 32 and the cooling water 8 injected from the second pipe member 42 are uniformly sprayed on the sintered ore 6 loaded on the cooling bogie 10.

On the support member 50 fixedly installed at the upper portion of the cooling cart 10, a second coolant supply unit 40 for spraying the coolant 8 and a temperature sensor 52 for measuring the temperature of the sintered ore 6 are fixed. .

Hereinafter, with reference to the accompanying drawings will be described in detail the operating state of the sintered ore cooling cooler device 1 according to an embodiment of the present invention.

The high temperature sintered ore 6 is loaded on the cooling bogie 10 which is rotated through the charging chute 7. The air 9 introduced into the blower 22 moves from the lower portion of the cooling bogie 10 to the top through the air guide portion 24 to cool the sintered ore 6 loaded on the cooling bogie 10.

Some of the air 9 having cooled the sintered ore 6 is gathered to one side along the cover member 5 to be used for boiler operation or discharged to the outside.

When red light is contained in the sintered ore 6, the temperature of the sintered ore 6 passing through the sintered ore cooling cooler device 1 rises above the set temperature.

The temperature of the sintered ore 6 is measured by the temperature sensor 52, and when the temperature is higher than or equal to the set temperature, the first coolant supply unit 30 and the second coolant supply unit 40 are operated.

The cooling water 8 moved along the second pipe member 42 of the second cooling water supply unit 40 is sprayed from the upper side of the sintered ore 6 through the second spray nozzle 44.

The coolant 8 moved along the first conduit member 32 of the first coolant supply unit 30 is injected from the lower side of the sintered ore 6 through the first spray nozzle 34.

The coolant 8 injected through the first coolant supply unit 30 is moved together with the air 9 that is moved to the lower portion of the cooling cart 10 through the air guide unit 24, and then the lower side of the sintered ore 6 is upward. Is moved to.

Cooling water 8 is injected from the lower side and the upper side of the sintered ore 6 loaded on the cooling bogie 10 to cool the sintered ore 6, and the sintered ore cooled to 100 degrees or less is moved to another process.

The first coolant supply unit 30, the second coolant supply unit 40, and the temperature sensor 52 may be installed singularly or plurally, depending on the use environment.

According to the configuration as described above, the sintered ore cooling cooler device 1 according to the embodiment is the supply direction of the air (9) supplied to the cooling bogie 10 through the air supply unit 20 and the first cooling water supply unit ( Since the supply direction of the cooling water 8 supplied to the cooling bogie 10 through the same 30 is the same, the cooling time of the sintered ore 6 can be reduced, thereby increasing the yield, and the cooling water used for cooling the sintered ore 6. Also, the amount of the sintered ore 6 can be improved by reducing the use amount of the (8).

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and those skilled in the art to which the art belongs can make various modifications and other equivalent embodiments therefrom. I will understand.

In addition, the sintered ore cooling cooler device used in the steelmaking process has been described as an example, but this is merely illustrative, and the sintered ore cooler device of the present invention may also be used for cooling the sintered ore used in other manufacturing processes.

Therefore, the true technical protection scope of the present invention will be defined by the claims.

1 is a perspective view schematically showing a cooler device for sintered ore cooling according to an embodiment of the present invention.

2 is a perspective view schematically showing the installation state of the first cooling water supply unit and the second cooling water supply unit according to an embodiment of the present invention.

3 is a cross-sectional view schematically showing the installation state of the first cooling water supply unit and the second cooling water supply unit according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

1: Cooler device for sintered ore cooling

6: sintered ore 8: coolant

9: air 10: cooling bogie

20: air supply 22: blower

24: air guide portion 30: the first cooling water supply unit

32: first pipe member 34: first spray nozzle

40: second cooling water supply unit 42: the second pipeline member

44: second spray nozzle 50: support member

52: temperature sensor

Claims (5)

An air supply unit supplying air in one direction of the cooling cart; A first cooling water supply unit supplying cooling water moved to the cooling cart, such as air of the air supply unit; And And a second cooling water supply unit installed to face the first cooling water supply unit and supplying the cooling water in the other direction of the cooling cart. The method of claim 1, The second cooling water supply unit is installed on the cooling bogie, The air supply unit and the first cooling water supply unit is installed in the lower portion of the cooling bogie cooler device for cooling sintered ore. The method of claim 1, wherein the first cooling water supply unit, A first conduit member for forming a conduit through which cooling water flows along a traveling direction of the cooling cart; And And a first spray nozzle for injecting cooling water in the direction toward the cooling cart from the first pipe member. The method of claim 3, wherein The first pipe member is provided with a plurality of sintered ore cooling cooler device characterized in that spaced apart. According to any one of claims 1 to 4, The second cooling water supply unit, A second conduit member intersecting with a traveling direction of the cooling cart and forming a conduit through which cooling water flows; And And a second spray nozzle for injecting cooling water in the direction toward the cooling bogie from the second pipe member.

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