KR20130066723A - Scrap detection apparatus in an electric furnace using induction coil impedance change - Google Patents

Abstract

PURPOSE: An in-electric furnace scrap iron real time measurement apparatus using an induction coil is provided to precisely measure a remaining amount of scrap iron by winding an induction coil consisting of heat-resistant conductive wire to the periphery of a body of an electric furnace with a constant distance up and down and applying AC power with a specific frequency to the induction coil. CONSTITUTION: An in-electric furnace scrap iron real time measurement apparatus includes an induction coil(210), an AC power generator(220), a measurement unit(230) and an analysis system(240). The induction coil consists of a heat-resistant conductive wire(211) wound to a periphery of an electric furnace(100). The AC power generator is electrically connected to the induction coil and applies AC power with a specific frequency. The measurement unit measures current and voltage in an input and output end of the induction coil wound to the electric furnace. The analysis system calculates impedance variation of the induction coil using electric power data of the induction coil including the current data and voltage data measured in the measurement unit and detects a remaining amount of scrap iron in the electric furnace by the calculated impedance variation.

Description

SCRAP DETECTION APPARATUS IN AN ELECTRIC FURNACE USING INDUCTION COIL IMPEDANCE CHANGE}

The present invention relates to a device for measuring the amount of scrap metal remaining during the operation of the furnace, more specifically, by winding an induction coil outside the furnace to observe the change in impedance according to the remaining amount of scrap metal in the electric furnace The present invention relates to a real-time measuring device of scrap metal in an electric furnace using an induction coil, which can accurately measure the amount of remaining scrap in an internal scrap metal during arcing operation and can use it as an important data for the operation.

In general, the furnace operation first loads scrap metal into the furnace, and then dissolves the scrap metal by arcing through the application of current.

However, during the arcing operation in such an electric furnace operation, the inside of the electric furnace cannot be accurately observed, so it is not possible to accurately determine how much the charged scrap metal is dissolved.

It is very important to know exactly the degree of melting of scrap metal charged in the electric furnace operation, and this degree of melting of scrap metal can be used as important data in judging the timing of additional charging, starting point judgment and additional operation judgment. .

Conventionally, there is no way to accurately measure the degree of melting of scrap metal in an electric furnace.

Conventionally, a technique of observing an internal state using a camera equipped with a purging function in a wall hole of an electric furnace has been attempted, but such a conventional technique cannot be continuously used due to contamination of the camera surface when used for a long time. Has

An object of the present invention is to solve the conventional problems as described above, it is possible to accurately measure the residual amount of the internal scrap in real time during arcing work in the electric furnace, using an induction coil that can be used as important data of the operation It is to provide a real-time measuring device of high iron in an electric furnace.

The apparatus for measuring the amount of scrap iron in an electric furnace using an induction coil according to an embodiment of the present invention is a device for measuring the amount of scrapping iron scrap remaining in an electric furnace during operation, wherein the heat-resistant wound around the main body of the furnace at regular intervals An induction coil consisting of a conducting wire; An AC power generator electrically connected to the induction coil to apply AC power of a specific frequency; A measuring unit measuring current and voltage at an input / output terminal of the induction coil wound on the electric furnace; Analyzes the impedance change of the induction coil using the power data of the induction coil including the current data and the voltage data measured by the measuring unit, and detects the amount of residual scrap in the furnace by the calculated impedance change amount. It includes a system.

At this time, the measuring unit includes a current measuring device for measuring the current in the coil wound in the electric furnace; A voltage meter for measuring a voltage in the induction coil wound around the electric furnace; And an A / D converter for converting power data including current data and voltage data measured from the current meter and the voltage meter into a digital signal.

In addition, the analysis system has a table built through an experiment to set the amount of scrap metal remaining in the electric furnace in accordance with the current data and the voltage data measured in the measuring unit, the AC power to the induction coil through the AC power generator After applying, the change in the impedance of the inside of the induction coil due to the change in the amount of scrap metal remaining in the electric furnace is characterized in that the amount of scrap metal in the furnace is detected.

On the other hand, the induction coil is preferably formed by winding the heat-resistant wire at regular intervals starting from the highest position of the scrap metal charged into the electric furnace to the bottom of the electric furnace.

The apparatus for measuring high iron mass in an electric furnace using an induction coil according to the present invention winds an induction coil made of a heat resistant conductor at regular intervals up and down around the main body of the electric furnace, and applies an AC power source having a specific frequency to the induction coil, and induction. The fact that the impedance of the induction coil changes according to the change in the amount of scrap metal remaining as a core material inside the coil is used.

Therefore, the change in the amount of scrap metal in the electric furnace can be recognized as the change in the core inside the induction coil made of heat-resistant wire, and in the end, the change in impedance or inductance appears in the induction coil position.

As a result, according to the present invention, it is possible to accurately measure the remaining amount of the internal scrap during arc operation in the electric furnace equipment through the change of the impedance or inductance of the induction coil.

1 is a block diagram showing an overall high-altitude measurement device in an electric furnace using an induction coil according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

1 is a block diagram of an apparatus for measuring high iron mass in real time using an induction coil according to the present invention.

In the electric furnace 100 to which the present invention is applied, a lower electrode 120 is installed at a lower side of the main body 110 constructed of refractory bricks, and scrap metal is to be dissolved into the main body 110. (S) is charged, electricity is generated through the electrode rod 130 to generate an arc, and the scrap iron S is melted into the molten metal Sa by using the arc heat.

Induction coil high-temperature real-time measuring device 200 using an induction coil according to the present invention is an induction coil consisting of a heat-resistant wire (211) wound around the main body 110 of the electric furnace 100 at regular intervals ( 210).

The induction coil 210 is formed by winding the heat resistant wires 211 around the main body 110 of the electric furnace 100 at regular intervals, and the winding range of the induction coil 210 is in the electric furnace 100. The heat resistant wire 211 starts from the highest position of the charged scrap S to the position of the bottom portion 111 of the electric furnace 100. As a result, the heat resistant wire 211 wound on the electric furnace 100 is implemented with one induction coil 210.

The present invention includes an AC power generator 220 that is electrically connected to the induction coil 210 of the heat resistant wire 211 to apply AC power of a specific frequency.

The AC power generator 220 generates AC power at a specific frequency and applies AC power to the induction coil 210.

In addition, the present invention includes a measuring unit 230 for measuring the current and voltage of the induction coil 210 wound on the electric furnace (100).

The measuring unit 230 is a current measuring device 231 for measuring the current in the induction coil 210 wound on the electric furnace 100, and measuring the voltage in the induction coil 210 wound on the electric furnace 100 A voltage meter 232 is provided. In addition, the A / D converter 233 converts power data including current data and voltage data measured by the current meter 231 and the voltage meter 232 into a digital signal.

The current transducer 231 and the voltage transducer 232 preferably measure the current and voltage generated in the input / output terminal of the induction coil 210 in real time.

The current meter 231 and the voltage meter 232 are electrically connected to the A / D convertor 233, and thus the current meter 231 and the voltage meter 232 are measured from the current meter 231 and the voltage meter 232. The power data, such as the current and voltage of the analog, is converted into a digital signal by the A / D converter 233.

In addition, the present invention is electrically connected to the A / D converter 233 receives the power data, such as current and voltage measured at the input and output terminals of the induction coil 210, by using the impedance of the induction coil 210 And an analysis system 240 for measuring the change of the and estimating the remaining amount of scrap metal in the electric furnace 100.

The analysis system 240 is composed of an extension control computer, and the like, and the analysis system 240 remains of the scrap metal S in the electric furnace 100 according to the frequency and voltage magnitude of the AC power generator 220. The table 241 for setting the amount was established through experiments and built in.

Accordingly, the analysis system 240 may obtain a real-time output signal proportional to the amount of scrap metal in the furnace 100 using the table 241 as a current value.

In the electric furnace high iron amount real-time measuring device 200 using the induction coil according to the present invention configured as described above, the power source of a specific frequency in the AC power generator 220 in order to measure the high iron amount inside the electric furnace 100 first Generate power to apply power to the induction coil (210).

Therefore, the induction coil 210 causes a change in the induced voltage according to the change in the amount of scrap metal, and the equivalent impedance component recognized by the induction coil 210 changes in proportion thereto.

That is, the present invention uses the fact that the impedance of the induction coil 210 changes according to the change in the amount of scrap metal remaining corresponding to the core material inside the induction coil 210.

Such a change in the amount of scrap metal in the electric furnace 100 can be recognized as a change in the core inside the induction coil 210 wound around the electric furnace 100, after all, in terms of the induction coil 210 electric furnace ( 100) A change in the impedance or inductance is generated according to the change in the amount of scrap in the interior.

The impedance of the induction coil 210 is changed in proportion to the induction voltage as shown in the following equation.

Z = V / I

Where Z: impedance, V: voltage, I: current

In addition, the change in impedance is also proportional to the change in inductance of the induction coil 210. In other words, the impedance of the induction coil 210 is represented by the following equation.

Z = 2 × circumference × frequency × inductance

Where Z is the impedance

As a result, when the AC power is applied to the induction coil 210 in the AC power generator 220, the induction coil 210 may be influenced by an equivalent impedance or inductance that changes according to the amount of iron in the furnace 100. The current applied to the inside of) is affected, and by measuring the change, the amount of scrap metal remaining in the furnace 100 can be measured.

In addition, the present invention repeatedly performs the experiment for a specific electric furnace 100, and build a table 241 by plotting the change of the input current according to the change in the amount of scrap iron and stores it in the analysis system 240 Doing.

Therefore, in the future, by recognizing the current according to the change in the amount of scrap metal in the same furnace 100 and reflecting it in the table 241, it is possible to accurately find and predict the amount of remaining scrap metal.

As described above, according to the high iron mass real-time measuring apparatus 200 using the induction coil according to the present invention, the operation of the electric furnace 100 through the change of the impedance or inductance of the induction coil 210 as described above. The remaining amount of internal scrap can be accurately measured in real time.

Although the present invention has been described with reference to the accompanying drawings and the preferred embodiments described above, the present invention is not limited thereto but is limited by the following claims. Accordingly, those skilled in the art will appreciate that various modifications and changes may be made thereto without departing from the spirit of the following claims.

S: scrap metal Sa: molten metal
100: electric furnace 110: main body
111: bottom part 120: lower electrode
130: electrode
200: real-time measurement of high iron amount in the electric furnace using an induction coil
210: induction coil 211: heat resistant wire
220: AC power generator 230: measuring unit
231: Current Transducer
232: Voltage Transducer
233: A / D Convertor
240: analysis system 241: table

Claims (4)

In the apparatus for measuring the amount of scrap metal remaining in the furnace operation,
Induction coil made of a heat-resistant wire wound around the main body of the electric furnace at regular intervals up and down;
An AC power generator electrically connected to the induction coil to apply AC power of a specific frequency;
A measuring unit measuring current and voltage at an input / output terminal of the induction coil wound on the electric furnace;
Analyzes the impedance change of the induction coil using the power data of the induction coil including the current data and the voltage data measured by the measuring unit, and detects the amount of residual scrap in the furnace by the calculated impedance change amount. High iron real-time measuring device in an electric furnace using an induction coil including a system.
The method of claim 1, wherein the measuring unit
A current meter for measuring a current from the induction coil wound around the electric furnace;
A voltage meter for measuring a voltage in the induction coil wound around the electric furnace;
The apparatus for measuring high iron mass in an electric furnace using an induction coil including an A / D converter converting power data including current data and voltage data measured by the current meter and the voltage meter into a digital signal.
The method according to claim 1,
The analysis system has a table built through experiments to set the amount of scrap metal remaining in the furnace in accordance with the current data and the voltage data measured in the measuring unit,
After the AC power is applied to the induction coil through the AC power generator, the impedance change in the induction coil caused by the change in the amount of scrap metal remaining in the electric furnace is represented as a change in input current to detect the amount of scrap metal in the electric furnace. High iron amount real-time measuring device in the electric furnace using an induction coil, characterized in that.
The method according to claim 1,
The induction coil is a real-time measuring amount of scrap iron in an electric furnace using an induction coil, characterized in that formed by winding a heat-resistant wire at a predetermined interval starting from the highest position of the scrap metal charged into the electric furnace to the bottom of the electric furnace.

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