KR200270826Y1 - A Measuring Equipment of Molten Slag Oxygen - Google Patents

Abstract

The present invention is a molten slag oxygen measuring apparatus for the molten slag that is floating on the upper part of the molten steel in the ladle 4 due to the difference in specific gravity with molten steel in the steelmaking ladle-furnace process in which refining is performed using molten slag. It relates to a device for measuring oxygen shade using.

The structure of the present invention for achieving the above object, the main body 17 is built in the oxygen concentration battery to measure the oxygen value in the molten slag, and coupled to the anchor 23 to the outer periphery of the main body 17 It is characterized in that the main body is composed of a castable 18 so that the main body floats on the molten slag 3, and a compensation lead 13 for transmitting the oxygen value measured by the main body 17 to the device.

According to the present invention, by controlling the slag (3) floating on the molten steel (2) over time, the occurrence of overflow due to oxygen supersaturation in the molten slag (15) is suppressed, the slag (3) removal, reprocessing work It is possible to suppress and shorten the refining process, and according to the change of the slag 3, the operator can calculate the desulfurization work time, calculate the amount of ferroalloy and increase the temperature raising efficiency.

Description

A Measuring Equipment of Molten Slag Oxygen

The present invention is a molten slag oxygen measuring apparatus for the molten slag that is floating on the upper part of the molten steel in the ladle 4 due to the difference in specific gravity with molten steel in the steelmaking ladle-furnace process in which refining is performed using molten slag. It relates to a device for measuring oxygen shade using.

In general, the conventional measuring method is to directly deposit the inside of the molten steel to measure the oxygen by using the electrical resistance difference between the molten steel, the method using the oxygen concentration difference, the method using the specific gravity difference. However, the above conventional method has the following problems.

Figure 1 is a schematic diagram of the refinery furnace (Furnace) operation to put the molten steel (2) ladle on the upper ladle trolley (11), while blowing the inert gas into the molten slag, the slag accumulated in the upper (2) 3) foaming occurs and overflows to the bottom, and the slag (3) to increase the temperature of the molten steel (2) to the electrode (9) using the electricity of the three-phase AC power source to smooth the state of loosening In this case, there is a problem that the time is delayed and the heat is maintained in the loop 10, and the molten steel 2 should be uniformly distributed by stirring of the inert gas.

2 is a conventional molten steel (2) oxygen measuring device 15, the temperature of the molten steel (2) should be high in order to check the loosening of the molten state of the molten steel (2), and the molten steel (2) temperature is lowered by the steel stirring In addition, the refining process time is delayed. Also, it is difficult for the operator to check the state of loosening of the hot water and to perform chemical analysis by directly collecting the slag 3 with the slag spoon 12. FIG. 2 is a schematic explanatory view showing such a difficulty. The molten steel 2 is stirred by the sampling lance 5 and the probe 7 of the sampling device 6 by stirring the molten steel 2 inside the ladle 4. It is a figure which shows that the device which measures oxygen shade by immersion, and the worker directly extracts the slag 3 in the upper part of the ladle 4 with the slag spoon 8 directly.

As described above, in order to measure the shade of oxygen by the conventional method, when the molten steel 2 arrives, it is necessary to visually check the site in order to grasp the state of the slag 3 and work on the worker's judgment. There was a risk of an accident, and there were many difficulties in the field because there was no device to measure the oxygen concentration of slag at the beginning of work.

The present invention is to solve the above problems, the purpose is to measure the oxygen shade with a device for measuring the oxygen generated in the molten slag generated inside the molten steel (2) using the initial slag (3).

1: Schematic diagram of ladle furnace

2: Conventional slag measuring device

3 is a side view of the molten slag oxygen measuring device according to the present invention

4 is a cross-sectional view of the molten slag oxygen measuring device according to the present invention

FIG. 5: Principle Diagram of Measurement of Molten Slag Oxygen

6: perspective view of molten slag oxygen measuring device

7 is a diagram of a molten slag oxygen measuring apparatus according to the present invention

8 is a detailed block diagram of the oxygen measuring device of the present invention

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

1 Porus Poug 31 Oxygen Sensor

2 molten steel 32 oxygen electromotive force (E)

3 Slag 33 Standard Electrode (Cr + Cr ₂ O ₃ )

4 Ladle 21 External Socket 34 Solid Electrolyte (ZrO ₂ (MgO)

5 Sample Lance 35 slag pole

6 SAMPLE MACHINE 36 TMS

7 PLOBE 37 Main PLC

8 SLAG SPOON 38 MMI

9 electrode 39 unit PLC

10 ROOF 40 Local Panel

11 LADLE TRANSFER CAR 41 Inverter

12 Slag Sample Instrument 42 Instrument (Machine)

13 Compensation Leads 44 Display

14 Flexible Hose 45 Recorder

15 molten slag oxygen measuring instrument 46 manual temperature measurement

16 Device Retention Pin 47 Indicator

17 Body 48 Molten Slag

18 Castable 49 DMZ

19 Crushing steel 2 50 Manual

20 Shredded steel 21 External socket

22 Push pin 23 Anchor

24 Quartz tube 25 Steel cap

26 Steel Tube 27 Ceramic

28 Paper 29 Gas Paper

30 plastic caps

The structure of the present invention for achieving the above object, the main body 17 is built in the oxygen concentration battery to measure the oxygen value in the molten slag, and coupled to the anchor 23 to the outer periphery of the main body 17 It is characterized in that the main body is composed of a castable 18 so that the main body floats on the molten slag 3, and a compensation lead 13 for transmitting the oxygen value measured by the main body 17 to the device.

In addition, the main body 17 is crushed steel 1 (20) and crushed to crush the slag solidified around the oxygen sensor 31 is installed in the center and the quartz tube 24 and the steel tube 26 is connected to the center Steel 2 (19) is installed, the lower portion is provided with a steel cap 25 surrounding the quartz tube 24 and the steel tube 26, the central portion of the main body 17 to stabilize the oxygen measurement value The plastic cap 30, the ceramic 27, the paper 28, the gas paper 29 is installed, the compensation wire 13 is embedded in the flexible hose 14, the shredding steel 1 20 and the crushed steel 2 (19) is characterized by being fixed by an external fixing pin (22).

With reference to the accompanying drawings will be described in more detail with respect to the molten slag oxygen measuring device 15 of the present invention.

3 is a side view of the molten slag oxygen measuring device 15. As the molten slag 3 is solidified by the atmospheric temperature before the molten slag 3 before the refining operation, the molten slag oxygen measuring device 15 descends to the water surface. The weight of the device is applied and the crushed steel 1 (20) is first crushed, and then the crushed steel 2 (19) is continuously crushed secondly, and oxygen concentration is measured inside the main body (17). The oxygen concentration measurement value is transmitted to the device through the compensating wire 13 inside the probable hose 14, and the molten slag oxygen measuring device 15 is made of a castable 18, into the molten steel 2. The measured value was not shaken to prevent deposition.

4 is a cross-sectional view of the molten slag oxygen measuring device 15 according to the present invention is a device for measuring the slag shade after crushing the slag (3) and the molten slag (3) is a steel cap 25 When melted, the steel tube 26 and the quartz tube 24 contained therein come into contact with each other. At this time, an oxygen value is generated according to the difference of the oxygen partial pressure, and the value is transferred to the plastic cap 30 and the compensating lead 13. do. The ceramic (27), the paper (28) and the gas paper (29) is part of the device to help stabilize the measurement value, the external socket 21 and the main body 17, the fixed pin ( 16) There is an external fixing pin 22, and it is easy to disassemble and assemble.

5 is for explaining the principle of the molten slag oxygen shade according to the present invention, the molten slag oxygen sensor 31 is an oxygen concentration cell (Oxygen Concentration Cell) consisting of a zirconia solid electrolyte 34 and the standard electrode 33 Consists of. The zirconia solid electrolyte 34 is an oxygen ion conductor, and is a material capable of transporting electricity by the flow of oxygen ions by easily moving ions in the electrolyte. ZrO ₂ itself exhibits oxygen ion conductivity, but the ion conductivity is not constant with respect to the oxygen partial pressure. Therefore, by employing MgO in ZrO ₂ , ion conductivity can be made constant with respect to oxygen partial pressure, and MgO partial stabilization zirconia is used to prevent sudden thermal shock when deposited on slag 3 and molten steel 2. The electromotive force (E) 32 of the battery is the oxygen molecules ions from the place where the oxygen partial pressure is high when the oxygen partial pressure of the standard electrode 33 and the slag electrode 35 is different from the solid electrolyte 34. The electromotive force is generated in the electrode corresponding to the amount of oxygen to be moved and to be ionized. That is, the oxygen electromotive force (E) 32 is the electromotive force (mV) generated by the difference between the oxygen partial pressure of the standard electrode 33 and the oxygen partial pressure of the slag electrode 35.

In the explanatory drawing of the molten slag oxygen measuring device 15 of FIG. 6, a measurement position of the molten slag 3 is shown, which is generated while the molten steel 2 is agitated due to the inert gas from the poresprog 1. 2) The component is reacted like slag (3), the oxygen concentration is measured at the position where the oxygen shade is measured at the position where the slag (3) and the molten steel (2) reacts, and the measured value passes through the loop (10). It is transmitted to the compensation lead 13 and the device 42.

FIG. 7 is a diagram of a molten slag oxygen measuring device 15 according to the present invention, and a device for measuring oxygen shade distributed in the molten slag 48 may measure oxygen and disassemble and disassemble it. When the generated oxygen electricity value is sent to the inverter 41, it is converted into electromotive force, and when the value is transferred to the unit PLC 39, it is transferred to the local panel 40 and the main PLC 37, and the value is converted into a signal converter. It is represented by the display 44 via 43 and sent to the recorder 45. The main PLC 37 is sent to the statistical monitor 36 and the worker monitor 38.

FIG. 8 is a detailed configuration diagram of the molten slag oxygen measuring device. When the molten slag 3 is transferred to the inverter 41 by the electrical electromotive force from the sensor 31 of the molten slag 48 oxygen meter, the molten slag oxygen shade measuring device. (15) The panel sends the indicator (47), the unit PLC (39) and the DMJ (49), which is then sent back to each section. The unit PLC (39) is the main PLC (37), the main PLC At 37, it is sent to the worker monitor 38 and the statistical monitor 36. If the electromotive force value is not properly measured on the molten slag 48 shade measuring device panel 15, the manual temperature 50 is displayed. In the unit PLC 39, when the electromotive force value of the molten slag 48 oxygen measuring device 15 is recognized, power is supplied to the DMjet 49, and the PMP 49 receives the measurement step signal and receives the main PLC 37. Is sent). The operator monitor 38 shows the automatic measurement value and the manual measurement 50 value.

The present invention as described above, in order to measure the oxygen concentration distributed in the molten slag 48 of the molten steel ladle 4, by lowering the molten slag 48 oxygen measuring device 15 to crush the slag (3) and slag and molten steel The slag 3 can be controlled early by measuring oxygen concentration with the oxygen sensor 31 mounted on the main body at the position of the contacting molten slag 48. Therefore, the required temperature is increased by adding the ferroalloy necessary according to the measured value. Desulfurization can be carried out.

According to the present invention, by controlling the slag (3) floating on the molten steel (2) over time, the occurrence of overflow due to oxygen supersaturation in the molten slag (15) is suppressed, the slag (3) removal, reprocessing work It is possible to suppress and shorten the refining process, and according to the change of the slag 3, the operator can calculate the desulfurization work time, calculate the amount of ferroalloy and improve the temperature raising efficiency.

Claims (4)

A main body 17 in which an oxygen concentration battery is incorporated to measure the oxygen value in the molten slag, A castable 18 coupled to the outer periphery of the main body 17 by an anchor 23 so that the main body floats above the molten slag 3; Melt slag oxygen measuring device, characterized in that consisting of a compensation lead (13) for transmitting the oxygen value measured in the main body (17) to the device. The method of claim 1, The main body 17 has a crushing steel 1 (20) and crushing steel 2 for crushing the slag solidified around the oxygen sensor 31 is installed in the center and connected to the quartz tube 24 and the steel tube 26 (19) is installed, the molten slag oxygen measuring device, characterized in that the lower portion is provided with a steel cap (25) surrounding the quartz tube 24 and the steel tube (26). The method of claim 2, The molten slag oxygen measuring device, characterized in that the central portion of the main body 17 is provided with a plastic cap (30), ceramic (27), paper (28), gas paper (29) to stabilize the oxygen measurement value. The method according to claim 1 or 2, The compensation lead 13 is embedded in the flexible hose 14, The crushed steel 1 (20) and crushed steel 2 (19) is molten slag oxygen measuring device, characterized in that fixed by an external fixing pin (22).