KR20110091357A - Tuyere apparatus of blast furnace and diagnosis system for blast furnace tuyere using that - Google Patents

Abstract

PURPOSE: A winnowing machine and a system for diagnosing a winnower using the same are provided to minimize neglect accidents due to damage to a winnowing machine by detecting initial damage before cooling water is leaked. CONSTITUTION: A winnowing machine comprises a first tuyere(22), a large tuyere(21) and a diagnosing unit. One end of the first tuyere is connected to a furnace to supply hot air and comprises a path for moving the hot air supplied from a blow pipe and a cooling space(23). The second tuyere is connected to the first tuyere, is put into the furnace and supplies the hot air supplied through the first tuyere into the furnace. The diagnosing unit is installed on one or both of the first and second tuyeres, senses the state change of the tuyeres and diagnoses damage or deformation.

Description

Tuyere Apparatus of blast furnace and diagnosis system for blast furnace tuyere using that}

The present invention relates to a tuyere device and a blast furnace tuyere diagnostic system using the same, and more particularly to a tuyere device that can easily diagnose whether the tuyere for supplying hot air to the blast furnace and a blast furnace tuyere using the same. It is about.

In general, the blast furnace blows air into the main body of the blast furnace through an external hot air pipe and a blowhole in which high temperature hot air flowing through a plurality of blower pipes and blow pipes connected to the hot air pipe is fixed to protrude its tip into the blast furnace. It is formed to be.

Therefore, the iron ore and coke (hereinafter referred to as "charging") and the hot air previously charged in the blast furnace are reduced to react to produce a melt. At this time, the hot melt is collected in the lower bottom of the tuyere, the melt collected in the furnace is discharged to the outside through the outlet provided in the bottom of the blast furnace.

Melting process of the blast furnace is made repeatedly, and because the air of high temperature and high pressure passes, and the tip portion is charged into the blast furnace, cracks are generated or partly melted under continuous heat and pressure. There was a problem, and in order to solve such a problem, in the prior art, the worker directly performed daily inspections to check whether there was a breakdown or a dragon damage deformation.

However, according to the method of directly diagnosing the tuyere with the naked eye as described above, there is a problem in that the workload is increased because the carbon monoxide concentration is measured in a pair of three people in order to confirm the breakage or dissolution of the tuyere.

In addition, the Republic of Korea Patent Publication No. 10-2006-0073271 discloses a device for measuring the water supply and drainage amount of the cooling water cooling water to calculate the difference as a loss amount and to determine whether or not the blast furnace richness loss, but in this case In the initial stage of the breakage or dissolution, the initial diagnosis was not possible because there is no difference between the amount of water supplied and the amount of discharged water.

The present invention has been made to solve the above problems, it is possible to quickly and accurately diagnose whether the blowholes for the supply of air into the blast furnace or the deformation of the dragon damage to prevent accidents due to breakage of the blowholes in advance. In addition, the object of the present invention is to provide a tuyere apparatus and a blast furnace tuyere diagnostic system using the same to improve the ease and accuracy of the diagnosis of the state of the tuyere.

Ventilator according to the present invention for achieving the above object is connected to the blow pipe so that the hot air is supplied to the blast furnace and provides a moving path to move the hot air from the blow pipe in the center, the cooling inside A tuyere having a cooling space for forming, the tuyere is connected to the tuyere and charged into the interior of the blast furnace for supplying the hot air supplied through the daegureul into the interior of the blast furnace, any one selected from the tuyere and tuyere or It is provided on both sides is provided with a diagnostic means that can diagnose the breakage or distorted deformation by detecting the state deformation of the air vents or air vents.

The diagnosing means is inserted into a mounting groove formed along the helical direction on the outer periphery of the vent or tuyere, the optical fiber cable for detecting the temperature state of the tuyere or tuyere or the spiral direction on the outer periphery of the tuyere or tuyere It is preferable to have an optical fiber cable inserted into the mounting groove formed to detect the stress change of the air vent or the air vent.

The blast furnace diaphragm diagnosing system according to the present invention comprises a control unit for determining whether the tuyere device is damaged or deformed through the state information of the tuyere device and the tuyere device detected by the diagnostic means installed in the tuyere device. Equipped.

The apparatus for diaphragm according to the present invention and the blast furnace diaphragm using the same can check the breakage or melt damage occurring in the blower at any time, and the safety due to breakage of the blower by detecting the initial damage or melt damage before the coolant leaks This has the advantage of minimizing the incidence of accidents.

1 is a cross-sectional view showing a blast furnace equipped with a tuyere device according to the present invention,
2 is a cross-sectional view showing the tuyere device according to the present invention,
3 is a conceptual diagram illustrating a diagnosis system of blast furnace tuyere using the tuyere apparatus.

Hereinafter, with reference to the accompanying drawings will be described in more detail the apparatus for tuyere according to the present invention and the blast furnace tuyere using the same.

Referring to Figure 1, the tuyere apparatus 20 according to the present invention is installed on the lower side of the blast furnace 100 to supply hot air to the interior of the blast furnace 100, the blast furnace 100 through the supplied hot air Coke burns and iron ore melts.

Referring to FIG. 2, the tuyere device 20 includes a tuyere 22 which communicates with a blowpipe (not shown), a tuyere 21 that communicates with the tuyere 22 and is charged into the blast furnace 100. , The diaphragm 22 and the diagnostic means mounted to the tuyere 21.

The large tuyere 22 is formed in a truncated cone shape that becomes narrower in diameter as it proceeds toward the end connected to the tuyere 21, the movement path of the air 24 through which the hot air flowing through the blow pipe can move to the center Is formed.

In addition, a cooling space 23 for cooling is formed therein. Although not shown, a water supply port is formed at one side of the blister opening 22 so as to supply the cooling water to the cooling space 23. A discharge port through which the coolant passing through the cooling space 23 may be discharged is formed.

Accordingly, after the coolant is introduced through the water inlet, the coolant 22 is heat-exchanged with the blister 22 during the movement through the cooling space 23, and the coolant is discharged through the outlet to cool the blister 22.

The tuyere 21 is connected to the distal end of the large tuyere 22, because the hollow 25 is formed in communication with the moving path 24, the hot air is the interior of the blast furnace 100 through the hollow 25 Can be supplied.

The diagnosing means is for detecting breakage or distorted deformation of the tuyere 22 and tuyere 21.

The diagnostic means of this embodiment includes an optical fiber cable 30 for temperature measurement that can measure the temperature at a plurality of points.

On the outer circumferential surfaces of the air vents 22 and the air vents 21 are provided with mounting grooves 26 extending along the helical direction, and the optical fiber cable 30 is installed to be embedded in the mounting grooves 26, and the mounting grooves Filled with a filler 31 for protecting the optical fiber cable 30 (26).

Although not shown, at the end of the optical fiber cable 30, a laser diode for irradiating a laser toward the optical fiber cable 30 and a photo diode for receiving a revolving laser are connected. After the irradiation, the photodiode receives the light and analyzes it to determine the temperature state at a specific point.

Therefore, it is possible to detect the temperature state at the specific position of the air vents 22 and the air vents 21 through the optical fiber cable 30 wound along the spiral direction. Or when the melt damage occurs, the temperature state at the point of occurrence is different from the surrounding it can determine whether the damage or melt damage through this.

Unlike the present embodiment, the diagnostic means may be an optical fiber cable 30 for detecting a stress change.

The tuyere 21 and the large tuyere 22 are made of metal, and shrinkage and extension are caused by temperature change.

When embedding the optical fiber cable 30 for detecting the stress change and detecting the state of the stress at each point, the state of the stress at the point where the breakage or meltdown occurs is different, so it is possible to determine whether the breakage and meltdown strain are present. Can be.

Like this, the apparatus 20 of the present invention quickly detects the occurrence of breakage or melt damage through the diagnostic means mounted on the air vent 22 and the air vent 21, that is, the optical fiber cable 30 for detecting a temperature or stress change. Can be determined accurately.

3 shows a blast furnace diaphragm diagnosis system 40.

The blast furnace diaphragm diagnosis system 40 includes the plurality of tuyere devices 20 installed along the circumferential direction at the lower part of the blast furnace 100, that is, the diagnosis means provided in each tuyere device 20, that is, the optical fiber cable 30. And a controller 50 connected with the control unit.

The controller 50 periodically irradiates a laser beam to each of the optical fiber cables 30 and receives a returning light to detect a temperature state or a stress change state at each point of the tuyere device 20, thereby damaging it. Or identify and mark the point where the melt deformation occurred.

The operator prevents a safety accident caused by breakage or meltdown by replacing the tuyere device 20 in which breakage or meltdown occurs.

20; Apparatus
21; Tuft 22; Daegonggu
30; Fiber optic cable
40; Diagnosis system of blast furnace
50; Control
100; blast furnace

Claims (4)

A large air outlet having one end connected to the blow pipe so that hot air can be supplied to the blast furnace, and a moving path through which the hot air supplied from the blow pipe can move, and a cooling space for cooling formed therein;
A tuyere that is connected to the tuyere and charged into the interior of the blast furnace and supplies hot air supplied through the tuyere to the interior of the blast furnace;
And a diagnosing means installed at one or both sides selected from the air vents and the air vents so as to detect breakage or distorted deformation by detecting a state deformation of the air vents or the air vents. The method of claim 1,
The diagnosing means is provided with an optical fiber cable installed in the mounting groove formed along the spiral direction on the outer periphery of the air vents or air vents to detect a temperature state of the air vents or air vents. The method of claim 1,
The diagnosing means is provided with an optical fiber cable installed in the mounting groove formed along the spiral direction on the outer periphery of the air vents or air vents to detect a stress change of the air vents or air vents. A blast hole having one end connected to a blow pipe so that hot air can be supplied to the blast furnace, and a moving path through which hot air supplied from the blow pipe can move, and a cooling space for cooling is formed therein;
A tuyere that is connected to the tuyere and is charged into the interior of the blast furnace and supplies hot air supplied through the tare to the interior of the blast furnace;
A tuyere device including diagnosing means installed on any one or both sides of the tuyere and the tuyere, so as to detect a state deformation of the tuyere or tuyere, so as to diagnose damage or deterioration.
And a control unit for determining whether the blowhole device is damaged or deformed by the state information of the blowhole device detected by the diagnosis means.

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