KR100827291B1 - Device for rolling a flat plate and method for measuring a thermal crown thereof - Google Patents

Abstract

The present invention discloses a flat plate rolling apparatus for measuring a thermal crown in the rolling roll width direction by a specific resistance measurement and a method for measuring the thermal crown thereof. According to the present invention, a first resistivity measuring unit measures a specific resistance value of the outer circumferential surface of the upper rolling roll to output a first specific resistance value, and a second resistivity measuring unit measures a specific resistance value of the outer circumferential surface of the rotating lower rolling roll. 2, the resistivity value is output, and the resistance / voltage measuring unit receives the first resistivity value and the second resistivity value, respectively, and changes them to predetermined voltage values. In addition, the main control unit receives voltage values corresponding to the first and second resistivity values, respectively, and calculates an average temperature distribution in the radial direction of the upper and lower rolling rolls, respectively, and the amount of thermal expansion based on the calculated average temperature distribution. And calculating the thermal crown amount of the upper rolling roll and the thermal crown amount of the lower rolling roll based on the calculated thermal expansion amount. As a result, the thermal crown amount in the rolling roll width direction can be obtained by calculating the average temperature distribution and thermal expansion amount using the specific resistance measured in the width direction of the roll during rolling, so that the thermal crown amount can be known during operation. It is possible to improve the plate shape and plate flowability by adjusting the rolling roll cooling ability and changing the operating conditions when the crown is excessive.

 Roll temperature, resistivity, thermal crown,

Description

Plate rolling apparatus and measuring method of thermal crown thereof {DEVICE FOR ROLLING A FLAT PLATE AND METHOD FOR MEASURING A THERMAL CROWN THEREOF}

1 is a view for explaining a general flat plate rolling apparatus.

2 is a view for explaining a flat plate casting apparatus according to an embodiment of the present invention.

3 is a view for explaining the average temperature in the rolling roll radial direction according to an embodiment of the present invention.

4 is a view for explaining a thermal crown of the rolling roll corresponding to the rolling roll width direction position according to an embodiment of the present invention.

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

10, 20, 100, 200: rolled roll 30: thin plate

110, 120, 210, 220: crossbar 115, 125, 215, 225: carbon brush

300: resistance / voltage measurement unit 400: inversion control unit

500: main control unit

The present invention relates to a flat plate rolling apparatus and a method for measuring the thermal crown thereof, and more particularly, to a flat plate rolling apparatus for measuring the thermal crown in the rolling roll width direction by a specific resistance measurement and a method for measuring the thermal crown thereof.

In general, a process of continuously producing a plate of iron or an alloy thereof in a plate rolling apparatus, as shown in Fig. 1, a thick hot slab (slab) is rolled by a pair of rolling rolls (10, 20) 30 will be produced. However, the pair of rolling rolls 10 and 20 may be continuously deformed during rolling by the hot slab, which deformation affects the thickness and shape of the thin plate 30.

By the way, the thin plate produced in the process of thin plate rolling should be kept constant in thickness and shape, if the change of the thickness and shape occurs badly, it causes the quality of the produced thin plate.

More specifically, the thermal crown formed on the rolling rolls 10 and 20 affects the shape of the plate as it is, but the measurement of the thermal crown is impossible during operation, so that a plate having a poor cross-sectional shape is produced or the plate is severely broken. There is a problem that the operation is interrupted.

Thus, in order to keep the thickness and shape of the thin plate constant, the rolling roll width direction thermal crown is measured and adjusted. Conventionally, the measurement of the thermal crown is mainly measured by a mechanical method.

That is, the conventional thermal crown measurement has a problem that the thermal crown can not be measured during the operation of the rolling mill because the measurement after the rolling process is finished or after highlighting the rolling roll is taken out of the rolling mill.

Therefore, the technical and problem of the present invention are to solve such a conventional problem, and an object of the present invention is to roll the plate in the width direction thermal crown of the rolling roll in the rolling process, which is one of the production process of the hot rolled steel sheet of steel mill It is to provide a flat plate rolling apparatus for measuring the specific resistance to calculate the thermal crown.

In addition, another object of the present invention is to provide a method for measuring a thermal crown of the flat plate rolling apparatus described above.

According to one aspect of the present invention, there is provided a flat plate rolling apparatus comprising a cross section of a predetermined concentric circle, an upper rolling roll having a predetermined height, and a lower rolling roll, wherein an upper rolling roll and a lower rolling roll are provided. In the flat plate rolling apparatus which rolls and outputs iron or its alloy supplied to a predetermined space | gap,

A first specific resistance measurement unit measuring a specific resistance value of the outer circumferential surface of the upper rolling roll to output a first specific resistance value;

A second resistivity measuring unit outputting a second resistivity value for measuring a resistivity value of the outer rolling surface of the lower rolling roll;

A resistance / voltage measurement unit which receives the first specific resistance value and the second specific resistance value, and changes each of the resistance values to a predetermined voltage value; And

Receive voltage values corresponding to the first and second specific resistance values from the resistance / voltage measuring unit, respectively, and calculate the average temperature distribution in the radial direction of the upper and lower rolling rolls, respectively, and thermal expansion based on the calculated average temperature distribution. And a main control unit for calculating an amount, and calculating the thermal crown amount of the upper rolling roll and the thermal crown amount of the lower rolling roll based on the calculated thermal expansion amount. Here, the flat plate rolling apparatus preferably further includes an inversion control unit that controls the reciprocating motion of the cross in response to the control of the main control unit.

The first specific resistance measuring unit may include: a crossbar positioned in opposite directions in the radial direction of the rotating upper rolling roll to reciprocate with the height of the upper rolling roll as one cycle; And it is preferable to include a carbon brush which is mounted on the crosspiece and protrudes toward the outer circumferential surface direction of the upper rolling roll, and measures the resistance value of the rotating upper rolling roll.

In addition, the second resistivity measuring unit, a crosspiece which is positioned in the opposite direction to each other in the radial direction of the lower rolling roll to rotate the reciprocating motion with the height of the lower rolling roll 1 cycle; And a carbon brush mounted on the crosspiece and protruding in the direction of the outer circumferential surface of the lower rolling roll to measure a resistance value of the rotating lower rolling roll.

(여기서, ρ는 비저항값이고, ρ₀은 압연롤이 기동하기 이전의 초기 비저항값이며, α는 비저항온도계수이고, T는 온도, T₀은 압연롤이 기동하기 이전의 초기 온도)를 근거로 연산하는 것이 바람직하다. In addition, the average temperature of the said rolling roll in the radial direction is

Where ρ is the resistivity value, ρ ₀ is the initial resistivity value before the rolling roll is started, α is the resistivity temperature coefficient, T is the temperature, and T ₀ is the initial temperature before the rolling roll is started. It is preferable to calculate with.

(여기서, d는 압연롤의 반경, d₀은 기동하기 이전의 압연롤의 초기 반경, β는 열평창온도계수, T는 온도, T₀은 압연롤이 기동하기 이전의 초기 온도)를 근거로 연산하는 것이 바람직하다.In addition, the thermal expansion amount in the radial direction of the rolling roll,

Where d is the radius of the rolling roll, d ₀ is the initial radius of the rolling roll before starting, β is the thermal flat temperature coefficient, T is the temperature, and T ₀ is the initial temperature before starting the rolling roll. It is preferable to calculate.

In addition, the method for measuring a thermal crown of a plate rolling apparatus according to one feature for realizing another object of the present invention described above comprises a cross section of a predetermined concentric circle, an upper rolling roll having a predetermined height, and a lower rolling roll. In the method of measuring the thermal crown of a flat plate rolling apparatus, which rolls and outputs iron or an alloy thereof supplied to a predetermined gap between the rolling roll and the lower rolling roll,

(a) measuring a specific resistance value in the width direction from at least one of the upper and lower rolling rolls being rolled;

(b) calculating an average temperature distribution of radial reflections of the rolling rolls from the measured specific resistance values;

(c) calculating a rolling roll radial thermal expansion amount based on the average temperature distribution; And

(d) calculating a thermal crown amount based on the thermal expansion amount.

According to such a flat plate rolling apparatus and its thermal crown measuring method, the thermal crown amount is calculated by calculating the average temperature distribution and thermal expansion amount using the specific resistance measured in the width direction of the roll during rolling to obtain the thermal crown amount in the rolling roll width direction. Since it can be seen during the operation, through the thermal crown over-rolling of the rolling roll, the cooling ability of the rolling roll can be adjusted, and the operating conditions can be improved to improve the plate shape and the sheet flowability.

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

2 is a view for explaining a flat plate rolling apparatus according to an embodiment of the present invention.

Referring to Figure 2, the flat plate rolling apparatus according to an embodiment of the present invention is a pair of upper rolling rolls 100 rotated in a first direction, a pair of agents provided in the opposite position in the radial direction of the upper rolling rolls 100 1 cross bars (110, 120), the first carbon brushes (115, 125) provided on the first cross (110, 120) in close contact with the upper rolling roll 100, the direction opposite to the first direction The lower rolling roll 200 rotates in a direction, the pair of second cross bars 210 and 220 provided at opposite positions in the radial direction of the lower rolling roll 200 and the second cross bars 210 and 220 are provided. The second carbon brushes 215 and 225 in close contact with the lower rolling roll 200, the resistance / voltage measuring unit 300, the inversion control unit 400, and the main control unit 500 are included.

The first and second carbon brushes 115, 125, 215, and 225 are disposed at opposite positions in the radial direction of the upper and lower rolling rolls 100 and 200 to measure specific resistance in the width direction of the upper and lower rolling rolls. The resistance / voltage measuring unit 300 is provided.

The resistance / voltage measuring unit 300 receives the first specific resistance value and the second specific resistance value from the first and second carbon brushes 115, 125, 215, and 225, respectively, and changes them to predetermined voltage values, thereby changing the main control unit ( 500).                     

The main control unit 500 receives voltage values corresponding to the first and second resistivity values from the resistance / voltage measuring unit, respectively, and calculates average temperature distributions in the radial direction of the upper and lower rolling rolls, respectively, and calculates the average. The thermal expansion amount is calculated based on the temperature distribution, and the thermal crown amount of the upper rolling roll and the thermal crown amount of the lower rolling roll are calculated based on the calculated thermal expansion amount.

Next, the method of measuring the thermal crown using FIG. 2 will be described in more detail.

First, the upper and lower rolling rolls using carbon electrodes, ie, first and second carbon brushes 115, 125, 215, and 225 attached to opposite positions in the radial direction of the upper and lower rolling rolls 100 and 200, respectively. The specific resistance value is measured in the width direction of, wherein the plurality of resistance values measured are average resistivity values in the rolling roll radial direction.

Using the measured specific resistance value, the average temperature T in the rolling roll radial direction is obtained as in Equations 1 and 2 described below.

Here, ρ is a specific resistance value, ρ ₀ is an initial specific resistance value before the rolling roll is started, α is a specific resistance temperature coefficient, T is a temperature, and T ₀ is a starting initial temperature before the rolling roll is started.

The average temperature in the radial direction of the rolling rolls obtained through Equations 1 and 2 is as shown in FIG.

3 is a view for explaining the average temperature in the rolling roll radial direction according to an embodiment of the present invention.

Referring to Figure 3, the average temperature at each end of the rolling roll is approximately 42 ° C. It can be seen that the average temperature rises toward the middle of the rolling roll and increases to approximately 78 ° C.

On the other hand, the rolling roll radial thermal expansion amount at a specific point from the calculated average temperature can be obtained using the following equations (3) and (4).

Here, d is the radius of the rolling roll, d ₀ is the initial radius of the rolling roll before starting, β is the thermal flat temperature coefficient, T is the temperature, T ₀ is the initial temperature before starting the rolling roll.

That is, the rolling roll diameter at a specific point is as shown in Equation 4 below.

By measuring at various points in the width direction by the above method, the width direction thermal crown of the upper rolling roll or the lower rolling roll can be obtained as shown in FIG. 4.

4 is a view for explaining a thermal crown of the rolling roll corresponding to the rolling roll width direction position according to the embodiment of the present invention.

Referring to FIG. 4, while the thermal crown has a value close to zero at the end of the rolling roll, the thermal crown increases toward the middle of the rolling roll and increases up to 200 μm.

Although described above with reference to the embodiments, those skilled in the art can be variously modified and changed within the scope of the invention without departing from the spirit and scope of the invention described in the claims below. I can understand.

As described above, according to the present invention, by measuring the specific resistance in the width direction of the roll during rolling, to obtain the average temperature distribution in the width direction of the rolling roll, and to calculate the thermal expansion amount through the calculated temperature, the thermal crown in the rolling roll width direction Since the amount of the thermal crown can be known during the operation by obtaining the amount, the plate shape and the sheet flowability of the plate can be improved by adjusting the cooling capability of the rolling roll overtime and changing the operating conditions.

Claims (9)

In the flat-rolling apparatus having a concentric cross section, an upper rolling roll having a predetermined height, and a lower rolling roll, rolling and outputting iron or an alloy thereof supplied to a predetermined gap between the upper rolling roll and the lower rolling roll, A first specific resistance measurement unit measuring a specific resistance value of the outer circumferential surface of the upper rolling roll to output a first specific resistance value; A second resistivity measuring unit outputting a second resistivity value for measuring a resistivity value of the outer rolling surface of the lower rolling roll; A resistance / voltage measurement unit which receives the first specific resistance value and the second specific resistance value, and changes each of the resistance values to a predetermined voltage value; And Receive voltage values corresponding to the first and second specific resistance values from the resistance / voltage measuring unit, respectively, and calculate the average temperature distribution in the radial direction of the upper and lower rolling rolls, respectively, and thermal expansion based on the calculated average temperature distribution. A main control unit for calculating an amount and calculating a thermal crown amount of the upper rolling roll and a thermal crown amount of the lower rolling roll based on the calculated thermal expansion amount Flat rolling device comprising a. delete The method of claim 1, wherein the first resistivity measuring unit, Crossbars each positioned in opposite directions in a radial direction of the rotating upper rolling roll to reciprocate with the height of the upper rolling roll as one cycle; And And a carbon brush mounted on the cross bars and protruding toward the outer circumferential surface of the upper rolling roll to measure a resistance value of the rotating upper rolling roll. The method of claim 1, wherein the second resistivity measuring unit, Crossbars each positioned in opposite directions in a radial direction of the rotating lower rolling roll to reciprocate with the height of the lower rolling roll as one cycle; And And a carbon brush mounted on each of the crosspieces to protrude toward the outer circumferential surface of the lower rolling roll and measuring a resistance value of the rotating lower rolling roll. According to claim 1, The average temperature in the radial direction of the rolling roll,

Where ρ is the resistivity value, ρ ₀ is the initial resistivity value before the rolling roll is started, α is the resistivity temperature coefficient, T is the temperature, and T ₀ is the initial temperature before the rolling roll is started. Flat rolling device characterized in that the operation. The radial thermal expansion amount of the rolling roll according to claim 1,

Where d is the radius of the rolling roll, d ₀ is the initial radius of the rolling roll before starting, β is the thermal flat temperature coefficient, T is the temperature, and T ₀ is the initial temperature before starting the rolling roll. Computing flat plate rolling apparatus characterized by the above-mentioned. The thermal crown of a flat plate rolling apparatus which has a concentric cross section, an upper rolling roll having a predetermined height, and a lower rolling roll, which rolls and outputs iron or an alloy thereof supplied to a predetermined gap between the upper and lower rolling rolls. In the measuring method, (a) measuring a specific resistance value in the width direction from at least one of the upper and lower rolling rolls being rolled; (b) calculating an average temperature distribution of radial reflections of the rolling rolls from the measured specific resistance values; (c) calculating a rolling roll radial thermal expansion amount based on the average temperature distribution; And (d) calculating a thermal crown amount based on the thermal expansion amount Thermal crown measuring method of a flat plate rolling apparatus comprising a. The radial mean temperature of the rolling rolls according to claim 7,

Where (ρ is the resistivity value, ρ ₀ is the initial resistivity value, α is the resistivity temperature coefficient, T is the temperature, and T ₀ is the initial temperature). Way. The method of claim 7, wherein the rolling roll radial thermal expansion amount,

Wherein d is the radius of the rolling roll, d ₀ is the initial radius of the rolling roll before starting, β is the thermal flat temperature coefficient, T is the temperature, and T ₀ is the initial temperature. Method for measuring the thermal crown of the rolling device.

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