KR101435292B1 - Examination method for electrode - Google Patents

Abstract

In the present invention, electric power is applied to an electrode rod to measure a voltage at two points spaced apart from the outer circumferential surface of the electrode rod to calculate and output the specific resistance of the electrode rod. The density and elastic modulus of the electrode rod are measured and output, The quality of the electrode rod used in the steelmaking process can be easily managed and the quality of the electrode rod according to each supply source can be accurately grasped and managed.

Description

EXAMINATION METHOD FOR ELECTRODE

The present invention relates to an electrode probe inspection method, and more particularly, to an electrode probe inspection method which can accurately confirm the quality of an electrode used in a steelmaking process.

Generally, an electric furnace is a furnace for heating and dissolving a metal or an alloy by using electric energy. After charging scrap into the furnace, an arc current is generated between the electrode and the scrap, .

Further, the molten steel produced in the electric furnace is subjected to a reduction refining operation in the ladle furnace to control the components.

Electrodes, ladles and the like are used for the production and heating of molten steel in the steelmaking process.

As a related art, there is a domestic patent registration No. 10-0913155 (registered on Aug. 13, 2009, Electrode replacement device).

An object of the present invention is to provide a method of inspecting an electrode which can easily confirm the quality of an electrode rod and facilitate quality control of the electrode rod according to each supply source.

According to an aspect of the present invention, there is provided a method of manufacturing a plasma display panel,

Measuring a voltage at two points spaced apart from an outer circumferential surface of an electrode rod through which a current flows;

And calculating and outputting the specific resistance of the electrode with the measured voltage.

INDUSTRIAL APPLICABILITY The present invention can easily confirm the quality of the electrode rod, thereby easily managing the quality of the electrode rod used in the steelmaking process, and has an effect of accurately grasping and managing the quality of the electrode rod according to each supply source.

The present invention has the effect of enabling stable steelmaking operation through quality control of the electrode rod and improving production efficiency in steelmaking operation.

The present invention has the effect of accurately calculating the replacement period of the electrode by calculating the lifetime according to the quality of the electrode.

1 is a block diagram showing a resistivity measuring step in an electrode rod quality inspection method according to the present invention;
2 is a block diagram showing a method of measuring the elastic modulus among the electrode rod quality inspection methods according to the present invention
3 is a schematic view illustrating an electrode probe quality inspection apparatus for performing an electrode probe quality inspection method according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, the method for inspecting an electrode according to the present invention includes a step 110 of applying an electric power to an electrode to cause a current to flow.

In the step 110, the positive electrode terminal portion and the negative electrode terminal portion are brought into contact with both ends of the electrode so that current flows in the longitudinal direction of the electrode rod.

In addition, a step 120 of measuring the voltage at two points spaced apart from the outer circumferential surface of the electrode rod while a current flows in the electrode rod is performed. The step of measuring the voltage includes measuring the voltage between two points by contacting the voltage measuring terminal with each of the two separated points.

Then, the specific resistance of the electrode is calculated using the measured voltage and output 130.

The step 130 of calculating and outputting the resistivity may include calculating a resistance value R through a value of a current I flowing through the electrode and a voltage V between two points measured at the step of measuring the voltage, (V) is calculated (V = I * R) and the value of the resistivity (R) is measured through the distance (L) between the two measured points in the step of measuring the voltage And displays it as a monitor. The resistivity (rho) value is calculated by the following equation (1).

[Equation 1]

ρ = R * (S / L)

ρ: Specific resistance

R: Resistance

S: sectional area of the electrode

L: Distance between voltage measurement points

The method of inspecting an electrode according to the present invention includes the steps of rotating (140) the electrode; And

Measuring (150) a different voltage value between two other points of the outer circumferential surface of the electrode;

And calculating and outputting another resistivity through the measured other voltage value (step 160).

The step 140 of rotating the electrode may include rotating the electrode by an angle of less than 360 degrees to measure a different voltage value between the other two points of the outer circumferential surface of the electrode, So that the resistivity can be calculated and output.

The step of rotating the electrode (140), measuring the different voltage value (150), and calculating and outputting the different resistivity (160) are repeated a number of times, The resistivity distribution over the entire outer circumferential surface of the electrode can also be confirmed.

The method for inspecting an electrode according to the present invention may further include the step (300) of measuring the modulus of elasticity of the electrode.

In addition, it is preferable that the method for inspecting an electrode according to the present invention further comprises a step 200 of measuring the density of the electrode.

Referring to FIG. 2, the step of measuring the density of the electrode rod 200 may include: measuring a weight of the electrode rod 210;

And calculating and outputting the density of the electrode rod by weight and volume of the electrode rod 220.

The density calculation step 220 calculates the density by dividing the weight by the volume and outputs the density.

The volume of the electrode may be calculated by directly inputting or sensing the length and the diameter of the electrode, or the volume value corresponding to each standard according to the size of the electrode, that is, the length and diameter of the electrode may be calculated and stored in advance.

The elastic modulus measuring step 300 may include the steps of generating ultrasonic waves at one side of the electrode rod, measuring ultrasonic velocity at the other side of the electrode rod by receiving ultrasonic waves, And

And calculating and outputting the elastic modulus at the density of the electrode, which is calculated at the density measuring step (320).

The process of calculating and outputting the elastic modulus 320 calculates an ultrasonic velocity using Equation (2) and outputs it to a monitor. It is not necessary to separately calculate the density of the electrode 1 when calculating the elastic modulus, and it is possible to simultaneously measure and confirm density and elastic modulus.

&Quot; (2) "

V: Ultrasonic velocity

E: modulus of elasticity of electrode

D: density of electrode

Electrode is consumed by side oxidation caused by surface oxidation due to contact with air, tip wear caused by sublimation by arc during arc discharge and chemical erosion due to slag, electrode break due to mechanical impact during use, etc. There is a consumption type of.

Among the consumption types of the electrode, the principal factor of the material in the consumption by the side oxidation is the resistivity and the density (porosity), and the main factor of the material in the end consumption is the elastic modulus and density (porosity) Is the modulus of elasticity.

The present invention can evaluate the overall durability, rigidity, and electrode efficiency of the electrode by measuring the resistivity, elastic modulus and density of the electrode, and evaluate the quality according to the consumption type of the electrode.

Referring to FIG. 3, an electrode probe quality inspection method according to the present invention is performed by an electrode probe quality inspection apparatus, which includes a base support 10 on which an electrode rod 1 is mounted;

A resistivity measuring unit 20 for measuring a specific resistance of the electrode rod 1 seated on the base support unit 10;

A density measuring unit 40 for measuring the density of the electrode rod 1 seated on the base supporter 10; And

And an elastic modulus measuring unit 30 for measuring an elastic modulus of the electrode rod 1 mounted on the base supporter 10.

The base support (10) includes a seating member (12) on which an electrode rod (1) is seated; And a base support member (11) for supporting the seating member (12).

The seating member 12 has a seating member 12 on which the electrode rod 1 is seated, and a seating member 12 on which the electrode rod 1 is seated on the base supporting portion 10. And a base support member (11) for supporting the seating member (12).

The seating member 12 is formed with a seating groove 12a for seating the electrode rod 1 and the seating groove 12a is formed by a V-shaped groove so that the cylindrical electrode rod 1 can be stably installed. And the seating groove 12a is formed as a V-shaped groove so that the cylindrical electrode bar 1 is stably seated.

The density measuring unit 40 includes a gravimetric measuring device 41 mounted on a lower portion of the base supporter 10 to measure the weight of the electrode rod 1;

A density calculating device (42) connected to the weighing device (41) for calculating the density with the weight measured by the weighing device (41); And

And a support member 43 disposed at a lower portion of the base supporter 10 and on which the weighing instrument 41 is mounted.

The electrode probe inspection apparatus further includes a measurement support member 50 on which the resistivity measurement unit 20 and the elasticity coefficient measurement unit 30 are mounted.

The resistivity measuring unit 20 includes a first current applying terminal unit 21 and a second current applying terminal unit 22 connected to both sides of the electrode 1 to apply a current thereto.

A first voltage measurement terminal part 23 and a second voltage measurement terminal part 24 which are spaced apart from the outer circumferential surface of the electrode rod 1 and measure a voltage between them; And

A resistivity calculation device 25 connected to the first voltage application terminal part 21 and the second current application terminal part 22 and connected to the first voltage measurement terminal part 23 and the second voltage measurement terminal part 24 to calculate a specific resistance, . The resistivity calculator 25 applies current to the first current application terminal unit 21 and the second current application terminal unit 22 and the first voltage measurement terminal unit 23 and the second voltage measurement terminal unit 24, The voltage between the first voltage measurement terminal part 23 and the second voltage measurement terminal part 24 is measured. The resistivity calculator 25 calculates the resistivity of the electrode 1 by comparing the current I applied to the electrode 1 with the first current application terminal part 21 and the second current application terminal part 22, (V = I * R) through the value of the voltage (V) between the first voltage measurement terminal part 24 and the second voltage measurement terminal part 24 and the value of the resistance R and the cross- And a distance L between the first voltage measurement terminal portion 23 and the second voltage measurement terminal portion 24 and outputs the calculated value to a monitor and displays the calculated value.

The elastic modulus measuring unit 30 includes an ultrasonic wave generator 31 for generating ultrasonic waves from one side of the electrode rod 1;

An ultrasonic wave receiving unit 32 for receiving ultrasonic waves generated from the ultrasonic wave generating unit 31 at the other side of the electrode rod 1 and passing through the electrode rod 1;

And an elastic modulus output unit 33 connected to the ultrasonic wave generating unit 31 and the ultrasonic wave receiving unit 32 to measure the ultrasonic wave velocity and output an elastic modulus through the ultrasonic wave velocity. The elastic modulus output unit 33 calculates and outputs the ultrasonic velocity through the following equation (2) through the ultrasonic velocity and the density of the electrode rod 1, outputs the elastic modulus to the monitor, So that the elastic modulus can be easily confirmed. The elastic modulus output unit 33 is connected to the density calculating device 42 and receives the density calculated by the density calculating device 42 to calculate the elastic modulus together with the ultrasonic velocity.

The first current application terminal part 21 and the second current application terminal part 22 are movably coupled to the measurement support 50 and the first voltage measurement terminal part 23 and the second voltage measurement terminal part 24 are connected to each other. Is movably coupled to the measurement support (50) between the first current application terminal portion (21) and the second current application terminal portion (22).

The ultrasonic wave generator 31 and the ultrasonic wave receiver 32 are movably coupled to the measurement support 50.

The measurement support base 50 is disposed in the longitudinal direction of the electrode rod 1 that is seated on the base support unit 10 and has a rail groove in the longitudinal direction of the electrode bar 1. The first current application terminal unit 21, The first voltage measuring terminal portion 23 and the second voltage measuring terminal portion 24 and the ultrasonic wave generating portion 31 and the ultrasonic wave receiving portion 32 are formed along the rail groove, The distance and position can be adjusted according to the length of the electrode rod 1 and the measurement position.

The electrode testing apparatus further includes an up-down device (not shown) for moving the measurement support platform 50 up and down, and a mobile device (not shown) for moving the measurement support platform 50 back and forth. The up-down device and the mobile device move the measuring support 50 on which the resistivity measuring part 20 and the elastic modulus measuring part 30 are mounted as described above to the base supporting part 10 The position of the resistivity measuring unit 20 and the elastic modulus measuring unit 30 can be precisely adjusted according to the size, diameter and length of the electrode rod 1.

An example of a method of inspecting the electrode 1 with the electrode testing apparatus will be described below.

When the electrode 1 to be inspected is placed in the seating groove 12a of the seating member 12, the weight is measured by the weight measuring device 41 and the density is measured through the volume of the electrode rod 1, The density is calculated in the calculating device 42. The volume of the electrode rod 1 may be calculated according to the diameter and length of the electrode rod 1 and may be calculated by inputting the length and diameter of the electrode rod 1 into the density calculating device 42. The density calculating device 42 The volume data according to the standard of the electrode rod 1 may be stored and used.

In addition, in a state in which the base supporting portion 10 is seated, the measurement support base 50 is moved forward, backward and up and down so that the first current application terminal portion 21 and the second current application terminal portion 22, (31) and the ultrasonic wave receiver (32) are positioned on both ends of the electrode rod (1).

The first current application terminal part 21 and the second current application terminal part 22 are brought into contact with the both end sides of the electrode rod 1 and the ultrasonic wave generation part 31 and the ultrasonic wave reception part 32 are connected to each other, (1). The first voltage measurement terminal part 23 and the second voltage measurement terminal part 24 are brought into contact with the outer circumferential surface of the electrode rod 1.

A current is allowed to flow through the electrode rod 1 by the first current application terminal part 21 and the second current application terminal part 22 and the current is supplied to the first voltage measurement terminal part 23 and the second voltage measurement terminal part 24, The specific resistance of the electrode (1) is measured by measuring the voltage between the first voltage measurement terminal part (23) and the second voltage measurement terminal part (24).

The speed of the ultrasonic wave is measured by receiving the ultrasonic wave by the ultrasonic wave generating unit 31 and receiving the ultrasonic wave by the ultrasonic wave receiving unit 32. The measured ultrasonic velocity and the weight of the electrode 1, And the elastic modulus of the electrode rod 1 is measured through the density.

The electrode testing apparatus may further include an electrode rod rotating unit (not shown) for rotating the electrode rod 1 mounted on the base supporting unit 10.

That is, the electrode rod 1 is rotated by the electrode rod rotation unit (not shown), and the positions of the first voltage measurement terminal unit 23 and the second voltage measurement terminal unit 24 are adjusted, And the resistivity distribution over the entire outer circumferential surface of the electrode 1 can be confirmed according to the number of repetitions.

The present invention can evaluate the overall durability, rigidity and performance of the electrode rod 1 by measuring the specific resistance, modulus of elasticity and density of the electrode rod 1, and evaluate the quality of the electrode rod 1 according to the consumption type .

INDUSTRIAL APPLICABILITY The present invention can easily confirm the quality of the electrode rod (1) by a customer and can easily manage the quality of the electrode rod (1) used in the steelmaking process, accurately grasp the quality of the electrode rod .

The present invention enables stable steelmaking operation through quality control of the electrode rod (1), and improves the production efficiency in the steelmaking operation.

The present invention calculates the lifetime according to the quality of the electrode (1) so as to accurately grasp the replacement period of the electrode (1).

It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

110: making current flow 120: measuring voltage
130: calculating and outputting the resistivity
200: Measuring the density of the electrode rod
300: Step of measuring elastic modulus
10: base supporting part 20: resistivity measuring part
30: elastic modulus measuring unit 40: density measuring unit

Claims (8)

Applying an electric power to the electrode rod to cause a current to flow;
Measuring a voltage at two points spaced apart from an outer circumferential surface of an electrode rod through which a current flows;
Calculating and outputting a specific resistance of the electrode using the measured voltage; And
And measuring the density of the electrode,
The step of measuring the density of the electrode includes:
Measuring a weight of the electrode;
And calculating and outputting the density of the electrode with the weight and the volume of the electrode. The method according to claim 1,
Rotating the electrode rod; And
Measuring a different voltage value between two other points on an outer circumferential surface of the electrode;
Further comprising calculating and outputting another resistivity through the measured other voltage value. The method according to claim 1 or 2,
The step of calculating and outputting the resistivity may include:
(V = I * R) through a value of a current (I) flowing through the electrode and a voltage (V) between two points measured at the step of measuring the voltage, R * (S / L) value through the distance L between the two points measured in the step of measuring the voltage, and the cross-sectional area S of the electrode, And outputting the calculated result to a monitor.
ρ = R * (S / L)
ρ: Specific resistance
R: Resistance
S: sectional area of the electrode
L: Distance between voltage measurement points The method according to claim 1,
Further comprising measuring a modulus of elasticity of the electrode. delete delete The method according to claim 1,
Further comprising measuring a modulus of elasticity of the electrode,
The step of measuring the modulus of elasticity may comprise:
Generating ultrasonic waves from one side of the electrode rod, receiving ultrasound waves from the other side of the electrode rod and measuring the speed of the ultrasonic waves; And
And calculating an elastic modulus at a density of the electrode calculated in the step of measuring the density. The method of claim 7,
The process of calculating and outputting the elastic modulus may include:
Equation

(V: ultrasonic velocity, E: elastic modulus of the electrode, D: density of the electrode), and outputs the ultrasonic velocity to the monitor.

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