KR101204838B1 - Method for measuring size of slab - Google Patents

Abstract

The present invention relates to a slab size measuring method that can accurately measure the size of the slab by using the edge coordinates of the slab and the moving speed of the slab, and using the laser displacement sensor to the slab on both sides and top of the slab Measuring the distance of the slab, calculating the edge coordinates of the slab using the distance measurement values measured at both sides of the slab and the slab moving speed value, and using the edge coordinates of the slab to measure the length and width of the slab. And calculating the thickness of the slab using the distance measurement value measured at the top of the slab.

Description

How to measure slab size {METHOD FOR MEASURING SIZE OF SLAB}

The present invention relates to a slab size measuring method, and more particularly, to a slab size measuring method for accurately measuring the length, width, and thickness of the slab.

In general, the size information of the slab is used as important information in the furnace and rolling process.

When slab is rolled in hot-rolled steel parts, when the slab is loaded into a heating furnace that is preheated before rolling, the actual width of the slab and the predicted width data are large and the error may be judged as a bad slab after rolling.

Therefore, it is necessary to accurately measure the size of the slab at the entrance side of the heating furnace.

The technical structure described above is a background technique for assisting the understanding of the present invention, and does not mean the prior art widely known in the technical field to which the present invention belongs.

SUMMARY OF THE INVENTION An object of the present invention is to provide a method for measuring slab size, which enables to accurately measure the size of a slab by using the edge coordinate values of the slab and the moving speed value of the slab.

The slab size measuring method according to the present invention comprises the steps of measuring the distance with the slab on both sides and the top of the slab using a laser displacement sensor; Calculating edge coordinate values of the slab by using the distance measurement values measured at both sides of the slab and the moving speed value of the slab; Calculating the length and width of the slab using edge coordinate values of the slab; And calculating a thickness of the slab by using the distance measurement value measured at the top of the slab.

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As described above, the present invention shortens the process time by measuring the length, width, and thickness of the slab by using the slab edge coordinate values and the slab movement speed values calculated by measuring the distance to the slab while the slab moves. While the slab meanders, the reliability of the measurements can be increased.

1 and 2 are views for explaining the configuration of the slab size measuring apparatus according to an embodiment of the present invention.
3 is a flowchart illustrating a slab size measuring method according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to Examples. These embodiments are only for illustrating the present invention, and the scope of rights of the present invention is not limited by these embodiments.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 and 2 are views for explaining the configuration of the slab size measuring apparatus according to an embodiment of the present invention.

1 and 2, a slab size measuring apparatus according to an embodiment of the present invention includes a first laser displacement sensor 1, a second laser displacement sensor 2, a third laser displacement sensor 3, and a controller. It includes (4).

The first laser displacement sensor 1, the second laser displacement sensor 2, and the third laser displacement sensor 3 measure a distance from the slab 5 that moves the roller table 6.

As shown in FIG. 2, the first laser displacement sensor 1 and the second laser displacement sensor 2 respectively measure a distance from the reference plates 11 and 21 when the slab 5 does not enter. When the slab 5 enters, the distance with the slab 5 which changes in real time on both sides of the slab 5 which moves is measured.

In addition, the third laser displacement sensor 3 measures the distance to the roller table 6 when the slab 5 does not enter, but when the slab 5 enters the slab at the top of the slab 5. Measure the distance to (5).

The controller 4 analyzes the distance measurement value between the two slabs 5 measured from the first laser displacement sensor 1 and the second laser displacement sensor 2 and the moving speed value of the moving slab 5. The corner coordinate values (x1, y1 to x4, y4) of (5) are calculated.

Then, the length and width of the slab 5 are calculated using the edge coordinate values x1, y1 to x4, y4 of the slab 5.

In other words, the distance measurement value between the two reference plates 11 and 21 measured when the slab 5 does not enter, and the variable slab 5 measured while the slab 5 enters. Calculate the edge coordinate values (x1, y1 to x4, y4) of the slab 5 using the two distance measurements with and the moving speed value of the slab 5, thereby calculating the length and width of the slab 5 Calculate

That is, since the length and width of the slab 5 are measured using the edge coordinate values of the slab 5, the accuracy of the measured value can be improved even when the slab 5 meanders on the roller table 6.

In addition, the control unit 4 calculates the thickness of the slab 5 using the distance measurement value with the slab 5 measured from the third laser displacement sensor 3. That is, the distance measurement value with the roller table 6 measured in the state that the slab 5 does not enter and the distance measurement with the slab 5 measured from the upper part of the slab 5 in the state in which the slab 5 entered. Compute the thickness of the slab 5 by comparing the values.

Here, the control unit 4 is an application for calculating the corner coordinate values (x1, y1 to x4, y4) of the slab 5 by using the distance measurement value with the slab 5 and the moving speed value of the moving slab 5. And the length and width of the slab 5 are calculated using the edge coordinate values (x1, y1 to x4, y4), and the slab is measured using the distance measurement value with the slab 5 measured at the top of the slab 5. Built-in application to calculate the thickness of (5). In addition, the calculation of the width, length, thickness of the slab (5) through the filtering of the reference and the average calculation method to reduce the actual value and error.

Referring to the slab size measurement method according to an embodiment of the present invention configured as described above are as follows. 3 is a flowchart illustrating a slab size measuring method according to an embodiment of the present invention.

1 to 3, first, each of the first laser displacement sensor 1, the second laser displacement sensor 2, and the third laser displacement sensor 3 is a slab 5 for moving the roller table 6. Measure the distance to the (S10).

Here, the first laser displacement sensor 1 and the second laser displacement sensor 2 respectively measure the distance from the slab 5 at both sides of the slab 5, and the third laser displacement sensor 3 is the slab ( Measure the distance from the slab 5 at the top of 5).

Subsequently, two distance measurement values between the slab 5 measured from the first laser displacement sensor 1 and the second laser displacement sensor 2 and the moving speed values of the slab 5 are analyzed to determine the edge coordinates of the slab 5. The values x1, y1 to x4, y4 are calculated (S20).

Here, the calculation of the corner coordinate values (x1, y1 to x4, y4) is performed by measuring the distance between the two reference plates 11 and 21 measured without the slab 5 entering, and the slab 5 being Calculate the edge coordinate values (x1, y1 to x4, y4) of the slab 5 by inputting two distance measurement values with the variable slab 5 measured in the entering state and the moving speed value of the slab 5. .

Next, the length and width of the slab 5 is calculated through the edge coordinate values x1, y1 to x4, y4 of the slab 5 (S30).

In addition, the thickness of the slab 5 is calculated through the distance measurement value with the slab measured from the third laser displacement sensor 1 (S40).

Here, the thickness calculation of the slab 5 is measured at the top of the slab 5 with the distance measurement value with the roller table 6 measured in the state that the slab 5 does not enter and the slab 5 enters. The thickness of the slab 5 is calculated by comparing the distance measurement value with one slab 5.

As described above, the present invention measures the distance of the slab 5 while the slab 5 moves to measure the size of the slab 5, thereby reducing the process time.

In addition, since the present invention measures the length and width of the slab 5 using the edge coordinate values of the slab 5, the accuracy of the measured value can be improved even when the slab 5 meanders on the roller table 6.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is understandable. Accordingly, the true scope of the present invention should be determined by the following claims.

1: first laser displacement sensor 2: second laser displacement sensor
3: third laser displacement sensor 4: control unit
5: slab 6: roller table
11, 21: reference plate

Claims (4)

Measuring distances to the slabs at both sides and the upper portion of the slab using a laser displacement sensor;
Calculating edge coordinate values of the slab by using the distance measurement values measured at both sides of the slab and the moving speed value of the slab;
Calculating the length and width of the slab using edge coordinate values of the slab; And
And calculating the thickness of the slab by using the distance measurement value measured at the top of the slab.
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