KR200181235Y1 - Automatic iron detector of the pond - Google Patents

Abstract

The present invention relates to a molten iron automatic detection device of a wired pond.

The present invention provides a magnetic field generating means (15) in the refractory on one side of the wired pond (7), and a magnetic field change detecting means (16) for detecting the magnetic field that changes according to the amount of the molten iron (14) in the opposite refractory. After that, the galvanic means 17 is connected to the magnetic field change detecting means 16.

The present invention cannot measure the amount of molten iron in the wired pond and the amount of the molten iron collected in the prior art, and the wired pond molten iron automatic detection device was used to open and close the wired pond unconditionally at the end of every departure. To reduce the work load of workers by reducing the work load, reduce the amount of dust generated during the opening of wired ponds, reduce environmental pollution, and reduce cost and safety accidents due to the reduction of refractory input to frequent opening of wired ponds. It has a dramatic effect on prevention.

Description

Automatic iron detector of wired pond

The present invention relates to a molten iron detection apparatus capable of automatically detecting the amount of molten iron in the slag (slag) and molten iron is collected from the blast furnace.

In general, as shown in FIG. 1, the melt discharged from the blast furnace (furnace) 1 passes through the large hot water bath 2, and the molten iron goes to the bottom due to the difference in specific gravity between slag and molten iron (about 3: 7). Sit is discharged in the direction of 2 blocks (4) through the skimmer (3, skimmer), the slag is discharged to the slag runner (6) through the outlet 5 to dry pit (the final loading yard of the slag) In the dry pit), the slag is loaded and cooled by a coolant, and then carried out. When the slag contains a small amount of molten iron in the cooling process, the slag meets the coolant in the drypit and explodes.

Therefore, in order to prevent this, as shown in FIG. 1, it is common to arrange a molten iron and a slag secondarily, and to install a wired pond to collect the molten iron in the slag once again. In the wired pond, the slag 13 is collected in the upper layer and the molten iron 14 in the lower layer due to the difference in specific gravity.

Conventionally, in order to empty the wired pond 7 every time after the end of the drawing operation or periodically, as shown in FIGS. 2 and 3, the worker uses the wired hole of the lower side of the wired pond 7 using oxygen. 10), the collected molten iron 14 was discharged and then closed again using refractory materials. 4 is a schematic diagram showing the location of the wired ponds and the wired holes and the retaining wires. And the manual work performed at this time, the worker in the molten iron (14) discharged to the residual heat runner (8) during the high heat and dust generated during the opening of the streamline hole (10), scattering melt and the streamline hole (10) closing work (12) is a very high risk of safety hazards such as burns.

By the way, in the conventional molten iron 14 discharge operation of the wired pond 7, the molten iron is collected in the wired pond 7 in accordance with the wear and erosion of the large water supply 2 and the outlet (5). The amount of (14) varies considerably, nevertheless, there is no device capable of identifying the amount of molten iron (14) collected and accumulated in the wired pond (7). Regardless of whether or not the collection was carried out, there was a problem that the opening and closing of the wired hole 10 should be performed regularly once in a row after the end of the unconditional work.

Therefore, the present invention has been devised to solve the above problems, and accurately detects the presence or absence of the molten iron in the wired pond in which the molten iron contained in the slag is collected from the melt discharged from the blast furnace (furnace) 1, It is an object of the present invention to provide a wired-pond molten iron automatic detection device that allows the opening and closing of the wired pond to be carried out only when there is the molten iron in the wired pond.

1 is a perspective view of a large bath and wired pond of the furnace,

Figure 2 and Figure 3 is a schematic diagram illustrating a conventional wired pore opening operation and wired hole closing operation,

Figure 4 is a schematic diagram showing the location of the wired pontoon and wireline and molten iron,

5 is a block diagram of a wired pond molten iron automatic detection device according to the present invention,

Figure 6 is a flow chart of the wired pond molten iron discharge operation according to the present invention.

<Explanation of symbols for the main parts of the drawings>

1: blast furnace (furnace) 2: large bath

3: skimmer 4: two blocks

5: Bae Jae-gu 6: slag runner

7: wired pond (pond) 8: residual runner (runner)

9: remnant hole 10: wired hole

11: oxygen pipe 12: worker

13 slag 14 molten iron

15: magnetic field generating means 16: magnetic field change detection means

17: galvanometer means

In order to achieve the above object, the present invention provides a magnetic field generating means installed for electromagnetic induction by magnetic flux linkage, magnetic field change detecting means for generating induced electromotive force by the amount of molten iron collected and increased inside the wired pond, and the magnetic field. Provided is a wired-pond molten iron automatic detection device, characterized in that it is provided with a galvanic means for converting the induced electromotive force generated in the change detection means into a induced current to indicate the amount of molten iron collected.

Hereinafter, with reference to the accompanying drawings will be described in detail.

Figure 5 is a block diagram showing a wired pond molten iron automatic detection device according to the present invention.

One side of the wired pond 7 has a large magnetic field generating means 15 therein, and the other side has a magnetic field change detecting means 16 therein. According to the embodiment of the present invention, the magnetic field generating means 15 is composed of a permanent magnet or an electromagnet, and the magnetic field change detecting means 16 is formed of a coil. The connecting line of the magnetic field change detecting means 16 is connected to the galvanizing means 17, and the galvanizing means 17 is provided in the central cab. The galvanizing means 17 can be configured by a conventional galvanometer.

At this time, if the amount of the molten iron 14 in the wired pond 7 increases, the magnetic flux generated by the magnetic field generating means 15 and having a constant size is changed, so that the magnetic flux in the magnetic field change detecting means 16 changes. When the induction voltage due to the bridge bridge is generated, and the indicator of the galvanometer 17 is raised by the current generated by the induced voltage, the worker 12 sees the scale of the galvanometer 17 and there is no molten iron. By comparing with the scale of the presence of the molten iron 14 in the wired pond 7 can be detected. If the magnetic field generating means 15 and the magnetic field lightening detecting means 16 are installed at various heights, the water level of the molten iron 14 can also be known. As a result, it is determined whether the wired pond 7 is opened, so that unnecessary wired pond 7 is not opened.

For your reference, a brief explanation is given about the relationship between the electromagnetic induction by the flux linkage and the present invention.

The magnetometer's instructions change as you move the magnet closer or further away from the coil. This is because an induced electromotive force is generated in the coil and an induced current flows as the force of the magnetic field in the coil (that is, the magnetic flux through the coil) changes. However, the increase in the amount of the molten iron 14 in the wired pond 7 in the wired pond molten iron automatic detection device of the present invention has the same effect as bringing the magnet 15 close to the coil 16, so the galvanometer The guideline is to change with increasing amount of molten iron 14 in the wired pond 7.

The present invention cannot measure the amount of molten iron in the wired pond and the amount of the molten iron collected in the prior art, and the wired pond molten iron automatic detection device was used to open and close the wired pond unconditionally at the end of every departure. To reduce the work load of workers by reducing the work load, reduce the amount of dust generated during the opening of wired ponds, reduce environmental pollution, and reduce cost and safety accidents due to the reduction of refractory input to frequent opening of wired ponds. It has a dramatic effect on prevention.

Claims (1)

The magnetic field generating means (15) is installed in one side of the wired pond (7), After the magnetic field change detection means 16 for detecting the magnetic field that changes according to the amount of the molten iron 14 in the opposite refractory, Melting line automatic detection device for a wired pond, characterized in that the magnetic field change detection means 16 is connected to the galvanic means 17.