KR102089162B1 - Cooling device of blast furnace - Google Patents

Abstract

The present invention relates to a blast furnace cooling device, a heat exchange unit disposed in the blast furnace unit, a sealed water tank unit in which cooling water is stored to cool the blast furnace unit, and cooling water stored in the sealed water tank unit to pass through the heat exchange unit to flow into the sealed water tank unit. A blast furnace using mixed water stored in the open water tank when inspecting the closed water tank, including an inducing closed circulation part, an open water tank part in which mixed water is stored, and an open circulation part guiding the mixed water stored in the open water part to a heat exchanger. We can cool the part.

Description

Blast Furnace Cooling System {COOLING DEVICE OF BLAST FURNACE}

The present invention relates to a blast furnace cooling device, and more particularly, to a blast furnace cooling device that can be used as a cooling water for a blast furnace, if necessary, water stored in a mixed reservoir used for multiple purposes in the field.

In general, a blast furnace is a facility for continuously producing molten iron for 24 hours, and a plurality of staves in which cooling water is circulated is installed to protect the steel shell from high heat generated inside the blast furnace. The blast furnace cooling system that cools the iron shell by circulating cooling water in the stave has a closed system structure.

Background art of the present invention is published in Republic of Korea Patent Publication No. 2017-0126133 (Nov. 17, 2017, the name of the invention: cooling water circulation tank device for blast furnace cooling system).

One embodiment of the present invention is to provide a blast furnace cooling device that can be used as a cooling water for blast furnace as needed, the water stored in the mixed reservoir used for multiple purposes in the field.

The blast furnace cooling apparatus according to the present invention includes: a heat exchange unit disposed in a blast furnace unit; A sealed water tank unit in which cooling water is stored to cool the blast furnace unit; A closed circulation unit that induces cooling water stored in the closed water tank unit to pass through the heat exchange unit and flow into the closed water tank unit; An open water tank unit in which mixed water is stored; And an open circulation part guiding the mixed water stored in the open water tank part to the heat exchange part.

The closed circulation part is connected to the closed water tank portion, the other end is connected to the heat exchange unit, the first closed pipe portion for guiding the cooling water stored in the closed water tank to the heat exchange unit; A first hermetic valve portion formed on the first hermetic pipe portion to open and close the first hermetic pipe portion; A second hermetic pipe part having one end connected to the heat exchange part and the other end connected to the closed water tank part to guide cooling water passing through the heat exchange part to the closed water tank part; And a second hermetic valve portion formed on the second hermetic pipe portion to open and close the second hermetic pipe portion.

The closed circulation portion is formed in the first closed pipe portion and the closed filter portion for removing foreign matter; characterized in that it further comprises a.

The open circulation unit is connected to one end of the open water tank, and the first open pipe unit to which the other end is connected to the first hermetic pipe; A first open valve part formed on the first open pipe part to open and close the first open pipe part; A second open pipe part having one end connected to the second hermetic pipe and the other end connected to the open water tank; And a second opening valve portion formed in the second opening pipe portion to open and close the second opening pipe portion.

The blast furnace cooling apparatus according to the present invention includes: a sensing unit detecting an internal state of the heat exchange unit; And a control unit receiving the detection signal of the detection unit and inputting the mixed water stored in the open water tank unit to the heat exchange unit.

The sensing unit detects one or more of the internal temperature and the internal pressure of the heat exchange unit, the blast furnace cooling device.

The blast furnace cooling apparatus according to the present invention may continuously cool the blast furnace unit by supplying the mixed water stored in the open water tank unit to the heat exchange unit when the closed water tank unit inspection occurs.

In the blast furnace cooling apparatus according to the present invention, when the internal temperature or the internal pressure of the heat exchange unit is sensed, the control unit may guide the mixed water stored in the open water tank unit to the heat exchange unit so that the internal temperature or internal pressure of the heat exchange unit reaches a set value.

1 is a view schematically showing a blast furnace cooling apparatus according to an embodiment of the present invention.
2 is a view schematically showing a fluid flow for cooling to a blast furnace by cooling water stored in the closed water tank in FIG. 1.
3 is a view schematically showing a fluid flow for cooling the blast furnace by the mixed water stored in the open water tank in FIG. 1.
4 is a view schematically showing a state in which the blast furnace cooling apparatus according to an embodiment of the present invention automatically adjusts the fluid flow according to the internal state of the heat exchange unit.

Hereinafter, an embodiment of a blast furnace cooling apparatus according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or practice. Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a view schematically showing a blast furnace cooling apparatus according to an embodiment of the present invention, and FIG. 2 is a view schematically showing a fluid flow for cooling to a blast furnace by cooling water stored in a closed water tank in FIG. 1. 3 is a view schematically showing a fluid flow for cooling the blast furnace by the mixed water stored in the open water tank in FIG. 1. 1 to 3, the blast furnace cooling apparatus 1 according to an embodiment of the present invention includes a heat exchange unit 10, a closed water tank unit 20, a closed circulation unit 30, and an open water tank unit (40) and an open circulation part (50).

The heat exchange part 10 is disposed in the blast furnace part 100. For example, the heat exchange unit 10 may be a stave that is disposed outside the blast furnace unit 100 and forms a flow path for cooling water to move to cool the iron shell. In addition, the heat exchange part 10 may be various parts for cooling the blast furnace part 100.

In the closed water tank unit 20, cooling water is stored to cool the blast furnace unit 100. For example, the cooling water stored in the closed water tank unit 20 may be used only for cooling the blast furnace unit 100. The sealed water tank unit 20 may be formed in a sealed type.

The closed circulation part 30 induces cooling water stored in the closed water tank part 20 to pass through the heat exchange part 10 and flow into the closed water tank part 20.

The open water tank 40 stores mixed water for use in multiple applications. For example, the mixed water stored in the open water tank 40 may be used to wash or cool equipment and the like in a steel mill. In addition, the mixed water stored in the open water tank 40 can be used in various ways in a steel mill. The open water tank unit 40 may be formed in an open type.

The open circulation unit 50 guides the mixed water stored in the open water tank unit 40 to the heat exchange unit 10. For example, the mixed water introduced into the heat exchange unit 10 may be recovered into the open water tank unit 40 or supplied to the closed water tank unit 20 as necessary to compensate for insufficient cooling water in the closed water tank unit 20. .

The closed circulation part 30 according to an embodiment of the present invention includes a first hermetic pipe part 31, a first hermetic valve part 32, a second hermetic pipe part 33, and a second hermetic valve part 34 ).

The first hermetic pipe part 31 has one end connected to the closed water tank part 20 and the other end connected to the heat exchange part 10 to guide the cooling water stored in the closed water tank part 20 to the heat exchange part 10. do.

The first hermetic valve portion 32 is formed in the first hermetic pipe portion 31 to open and close the first hermetic pipe portion 31. For example, the first hermetic valve part 32 may be formed in the first hermetic pipe part 31 close to the heat exchange part 10, and may automatically or manually open and close the flow path.

The second hermetic pipe part 33 has one end connected to the heat exchange part 10 and the other end connected to the closed water tank part 20, so that the cooling water passing through the heat exchange part 20 is guided to the closed water tank part 20. do.

The second hermetic valve portion 34 is formed in the second hermetic pipe portion 33 to open and close the second hermetic pipe portion 33. For example, the second hermetic valve part 34 may be formed in the second hermetic pipe part 33 close to the heat exchange part 10, and may automatically or manually open and close the flow path.

The closed circulation part 30 according to an embodiment of the present invention may further include a closed filter part 35 formed on the first hermetic pipe part 31 to remove foreign substances. The hermetic filter unit 35 may prevent foreign substances from accumulating inside the heat exchange unit 10 by filtering foreign substances in the cooling water entering the heat exchange unit 10.

In addition, the closed circulation unit 30 may include a pump for forcibly moving the cooling water, and an external heat exchanger that cools the heated cooling water through the heat exchange unit 10.

The open circulation part 50 according to an embodiment of the present invention includes a first open pipe part 51, a first open valve part 52, a second open pipe part 53, and a second open valve part 54 ).

The first open pipe portion 51 is connected to one end portion to the open water tank portion 40, and the other end portion is connected to the first closed pipe portion 31. For example, the other end portion of the first open pipe portion 51 may be connected to the first closed pipe portion 31 formed between the first closed valve portion 32 and the heat exchange portion 10. The first opening valve portion 52 is formed in the first opening pipe portion 51 to open and close the first opening pipe portion 51.

The second open pipe part 53 has one end connected to the second closed pipe part 33 and the other end connected to the open water tank part 40. For example, one end of the second open pipe portion 53 may be connected to the second closed pipe portion 33 formed between the second closed valve portion 34 and the heat exchange portion 10. The second opening valve portion 54 is formed in the second opening pipe portion 53 to open and close the second opening pipe portion 53.

In addition, the open circulation unit 50 may include a pump for forcibly moving the mixed water, and an external heat exchanger that cools the heated mixed water through the heat exchange unit 10. Meanwhile, a filter for filtering foreign substances in the mixed water may be installed in the open circulation unit 50 or a filter for filtering foreign substances in the open water tank unit 40 itself may be mounted.

4 is a view schematically showing a state in which a blast furnace cooling apparatus according to an embodiment of the present invention automatically adjusts a fluid flow according to an internal state of a heat exchange unit. Referring to FIG. 4, the blast furnace cooling apparatus 1 according to an embodiment of the present invention includes a sensing unit 60 and a control unit 70.

The sensing unit 60 detects the internal state of the heat exchange unit 10. That is, the sensing unit 60 may detect one or more of the internal temperature and the internal pressure of the heat exchange unit 10. For example, the sensing unit 60 is disposed on the flow path of the heat exchange unit 10, the temperature sensor 61 for measuring the temperature of the fluid being moved, and the pressure sensor 62 for measuring the pressure of the fluid being moved Can be.

The control unit 70 receives the detection signal of the detection unit 60 and inputs the mixed water stored in the open water tank unit 40 to the heat exchange unit 10. For example, when the detection signal of the detection unit 60 is higher than or equal to the set temperature, the control unit 70 may control the mixed water stored in the open water tank unit 40 to be supplied to the heat exchange unit 10.

Referring to the operation of the blast furnace cooling apparatus according to an embodiment of the present invention having the above structure is as follows.

When the blast furnace part 100 is operated, the cooling water stored in the sealed water tank part 20 passes through the heat exchange part 10 through the first hermetic pipe part 31 to cool the blast furnace part 100, and the heat exchange part 10 The cooling water passing through is returned to the sealed water tank unit 20 through the second hermetic pipe unit 33.

When maintenance and inspection of the sealed water tank unit 20 are required in the above-described state, the first hermetic valve unit 32 and the second hermetic valve unit 34 are the first hermetic pipe portion 31 and the second hermetic pipe portion 33 ) Respectively.

At this time, the first opening valve portion 52 and the second opening valve portion 54 open the first opening pipe portion 51 and the third opening pipe portion 53, respectively. When the first open pipe part 51 and the third open pipe part 53 are opened, the mixed water stored in the open water tank part 40 passes through the heat exchange part 10 to cool the blast furnace part 100.

Meanwhile, the mixed water stored in the open water tank unit 40 may be automatically supplied according to the internal temperature or internal pressure of the heat exchange unit 10.

That is, the sensing unit 60 measures the internal temperature or the internal pressure of the heat exchanger 10, but the internal temperature of the heat exchanger 10 is higher than the set temperature, or the internal pressure of the heat exchanger 10 is greater than the set pressure If it is low, the control unit 70 receiving the detection signal of the sensing unit 60 controls the first opening valve unit 52 to open the first opening pipe unit 51.

When the first opening pipe part 51 is opened, the mixed water of the open water tank part 40 flows into the heat exchange part 10 in addition to the cooling water of the closed water tank part 20, so that the internal temperature or internal pressure of the heat exchange part 10 is set. It can be temperature or set pressure.

On the other hand, when the cooling water stored in the closed water tank unit 20 is insufficient, the mixed water stored in the open water tank unit 40 passes through the heat exchange unit 10 and then passes through the second sealed pipe unit 33 to the closed water tank unit 20. It can be stored to make up for the lack of coolant.

The blast furnace cooling device 1 according to an embodiment of the present invention cools the blast furnace unit 100 by supplying the mixed water stored in the open water tank unit 40 to the heat exchange unit 10 when the closed water tank unit 20 check occurs. Can be carried out continuously.

In the blast furnace cooling apparatus 1 according to an embodiment of the present invention, when the internal temperature or the internal pressure of the heat exchange unit 10 is detected, the control unit 70 sets the internal temperature or the internal pressure of the heat exchange unit 10 to the set value. The mixed water stored in the open water tank unit 40 may be guided to the heat exchange unit 10 so as to be reached.

The present invention has been described with reference to the embodiment shown in the drawings, but this is merely exemplary, and those skilled in the art to which the art belongs can various modifications and equivalent other embodiments from this. Will understand. Therefore, the true technical protection scope of the present invention should be defined by the claims below.

10: heat exchange unit 20: sealed water tank unit
30: closed circulation section 31: first closed pipe section
32: first hermetic valve part 33: second hermetic pipe part
34: second closed valve part 40: open water tank part
50: open circulation part 51: first open pipe part
52: first opening valve portion 53: second opening pipe portion
54: second open valve unit 60: detection unit
70: control unit

Claims (6)

A heat exchange part disposed in the blast furnace part;
A sealed water tank unit in which cooling water is stored to cool the blast furnace unit;
A closed circulation unit that induces cooling water stored in the closed water tank unit to pass through the heat exchange unit and flow into the closed water tank unit;
An open water tank unit in which mixed water is stored;
An open circulation unit for guiding the mixed water stored in the open water tank unit to the heat exchange unit;
A sensing unit sensing an internal state of the heat exchange unit; And
And a control unit receiving the detection signal of the detection unit and inputting the mixed water stored in the open water tank unit to the heat exchange unit.
According to claim 1, wherein the closed circulation portion
A first hermetic pipe part having one end connected to the sealed water tank part and the other end connected to the heat exchange part to guide cooling water stored in the sealed water tank part to the heat exchange part;
A first hermetic valve portion formed on the first hermetic pipe portion to open and close the first hermetic pipe portion;
A second hermetic pipe part having one end connected to the heat exchange part and the other end connected to the closed water tank part to guide cooling water passing through the heat exchange part to the closed water tank part; And
And a second hermetic valve portion formed on the second hermetic pipe portion to open and close the second hermetic pipe portion.
According to claim 2, The closed circulation portion
A blast furnace cooling device further comprising; a sealing filter part formed on the first hermetic pipe part and removing foreign matter.
The method of claim 2, wherein the open circulation unit
A first open pipe part having one end connected to the open water tank part and the other end connected to the first closed pipe part;
A first open valve part formed on the first open pipe part to open and close the first open pipe part;
A second open pipe part having one end connected to the second sealed pipe part and the other end connected to the open water tank; And
And a second opening valve portion formed on the second opening pipe portion to open and close the second opening pipe portion.
delete According to claim 1,
The detection unit blast furnace cooling device, characterized in that for detecting at least one of the internal temperature and the internal pressure of the heat exchange unit.

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