JP2003191003A - Method and apparatus for measuring roll profile - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a roll profile measuring method and device capable of easily and accurately measuring a profile in a state where a roll to be measured is set without removing the rolling roll from a rolling mill. . SOLUTION: A liquid standard 3 is provided in the length direction of a roll, and a non-contact type displacement meter 4 running along the liquid standard 3 and a dial gauge 5 contacting the roll surface are provided. The distance from the displacement gauge 4 to the liquid standard 3 and the distance from the dial gauge 5 to the surface of the roll are measured over the entire length of the roll while moving the dial 4 and the dial gauge 5 in the length direction of the roll. Was calculated so as to obtain a profile of the entire roll length.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a roll profile measuring method and apparatus capable of easily and accurately measuring the profile of a rolling roll to be measured without removing it from the rolling mill. Is.

[0002]

2. Description of the Related Art Conventionally, as a method of rolling a steel sheet, a method of rolling the steel sheet by a rolling mill provided with a pair of work rolls and a backup roll for pressing the work rolls from the rear side has been widely known. In this case, the backup roll needs to be precisely controlled in its surface (profile) so as to apply an accurate pressing force to the work roll to ensure the quality and ensure the stable threading. Therefore, in the past, when a predetermined strip passing amount obtained from an empirical rule was exceeded, the roll profile was measured to determine whether or not to continue use, or to collect prediction data for the next roll replacement time.

However, conventionally, the measurement of the roll profile is carried out by taking it out from the roll stand of the rolling mill, and it is necessary to remove all the various pipes and the like.
Since the backup roll itself is very heavy and requires a crane, it took 1-2 days from removal to completion of measurement. Moreover, since the rolling line is stopped during this period, there is a problem that the roll profile can be measured only when the line is stopped for a long period of time, such as during regular repairs. In addition, the method of manually measuring the roll profile with a micrometer has a problem that the pitch becomes coarse and the accuracy is poor when the measurement is performed in a short time. Furthermore, when the steel plate that passes through the rolling line is hard, the backup roll will wear more than expected, and if the replacement timing is observed only with the constant strip passing amount obtained from the empirical rule, rolling will occur. There was also the problem of causing defects.

[0004]

DISCLOSURE OF THE INVENTION The present invention solves the above-mentioned conventional problems, and measures the profile in a state where the rolling roll to be measured is set on the roll stand without being removed from the rolling mill. The present invention has been completed for the purpose of providing a method and an apparatus for measuring a roll profile that can be performed and can be measured with high accuracy and easily in a short time.

[0005]

The present invention made to solve the above problems is a method for measuring a roll profile in a state where a rolling roll to be measured is set without being removed from a rolling mill. , A liquid reference device is provided in the length direction of the roll, and a non-contact type displacement gauge that runs along the liquid reference device and a dial gauge that comes into contact with the roll surface are provided. While moving in the vertical direction, measure the distance from the displacement gauge to the liquid reference device and the distance to the roll surface with a dial gauge over the entire roll length, and calculate the true roll surface height from the difference in distance between the two to calculate the roll total length. A method for measuring a roll profile, which is characterized in that the profile is obtained, and without removing the rolling roll to be measured from the rolling mill. A device for measuring a roll profile in the as-rolled state, in which a frame-shaped base with a traveling rail is set in the length direction of the roll, and a liquid reference device is attached to the lower surface of the base, and the traveling is performed. A non-contact type displacement gauge that is guided by rails and runs along the liquid standard inside the frame of the base, and a dial gauge that runs in the length direction of the roll while contacting the roll surface are provided. It is a roll profile measuring device.

In order to solve the same problem, it is assumed that the liquid reference unit has fine powder particles uniformly suspended on the liquid surface to form a powder layer, and the signal from the displacement meter is reflected by the powder layer. It is preferable to measure the distance by using the distance, which is the invention according to claim 2. Further, two dial gauges are provided in the circumferential direction of the roll centering on the liquid standard, and the roll surface height is calculated by taking the average value of the measured values obtained by these two dial gauges as the distance to the roll surface. It is also preferable to do so, and this is the invention according to claim 3. Further, it is also preferable to add a correction value so that the profile of the liquid reference device and the roll total length become horizontal, and calculate the distance difference between the respective measurement points. This is the invention according to claim 4. Furthermore, the dial gauge
It is also preferable to provide two devices in the circumferential direction of the roll around the liquid reference device, which is the invention according to claim 6.

[0007]

BEST MODE FOR CARRYING OUT THE INVENTION Preferred embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows a case where the profile of the backup roll 20 is measured,
In the figure, 1 is a frame-shaped base set in the length direction of the roll, 2
Is a running rail provided on the base 1, and 3 is the base 1
Is a liquid reference device attached to the lower surface of the. Steel is used for the base 1 and the traveling rail 2. Further, aluminum material can be used for weight reduction. The base 1 is mounted on the backup roll 20 via mounting support members 1a, 1a provided at the four corners. It is preferable that the height of the support member 1a be adjustable.

As the liquid reference device 3, as shown in FIG. 4, a fine powder of aluminum, for example, is uniformly suspended on a liquid surface filled with a liquid 3a such as oil or water to form a powder layer 3b. The powder layer 3 is used as a reference surface by utilizing the fact that the liquid surface becomes a horizontal surface.
It is configured to reflect the signal from the displacement gauge 4 on b. As the liquid 3a, it is preferable to use a highly viscous mineral oil so that the liquid surface does not shake during the measurement.

In addition to the liquid reference device 3, on the lower surface of the base 1, a non-contact type displacement meter which is guided by the traveling rail 2 and travels along the liquid reference device 3 in the frame of the base 1. 4 and a dial gauge 5 that travels in the length direction of the roll while being in contact with the roll surface. As the non-contact type displacement gauge 4, for example, a laser displacement gauge having a small spot diameter of about 60 μm is used to improve the measurement accuracy, and a general dial gauge 5 is used. In the figure, two dial gauges 5 are provided in the circumferential direction of the roll centering on the liquid reference device 3 so as to eliminate a measurement error, as will be described later.

As shown in FIGS. 1 and 2, the displacement gauge 4 and the dial gauge 5 are attached to the base 1 via a bracket 6 which moves the traveling rail 2, and the bracket 6 has a roll length. A motor 7 for traveling in the depth direction is attached to the displacement gauge 4 and the dial gauge 5 so that the displacement gauge 4 and the dial gauge 5 can be moved in the roll length direction in accordance with the set value of the measurement span. Further, the displacement gauge 4 and the dial gauge 5 are arranged so as to be located on the same circumference with respect to the roll, and are configured to measure at the same position in the roll axial direction.

A signal processor (not shown) is connected to the displacement meter 4, and the signal processor analyzes the signal from the displacement meter 4 to calculate the profile of the roll top. It is configured to output to the screen.

Next, a method of measuring the roll profile by the above measuring device will be described. First, after taking out a pair of work rolls (not shown) from the roll stand, the liquid reference device 3, the non-contact type displacement meter 4 traveling along the liquid reference device 3, and the roll surface are in contact with each other. The base 1 provided with the dial gauge 5 that runs in the length direction of the roll is set on the backup roll 20 that is still attached to the roll stand. Next, after setting the displacement gauge 4 and the dial gauge 5 at the initial position, the displacement gauge 4 and the dial gauge 5 are moved in the length direction of the roll, so that the displacement gauge 4 and the liquid reference unit 3 are moved as shown in FIG.
The distance to the roll surface (h ₀ ) and the distance to the roll surface (h ₁ ) are measured over the entire roll length. That is, FIG.
As shown in FIG.
A fine powder of aluminum powder is uniformly suspended on a to form a powder layer 3b, and a reference distance is measured by reflecting a signal from a displacement meter on the powder layer 3b.
On the other hand, the dial gauge 5 is brought into contact with the roll surface to accurately measure the distance (h ₁ ) to the roll surface. When the data thus obtained is input to the signal processing device, two distance differences (h ₀ −h ₁ ) are calculated. This distance difference (h ₀ −h ₁ ) corresponds to the roll surface height relative to the liquid reference device 3 serving as the reference line, and therefore, if this is output to the plotter, an accurate profile of the roll total length can be obtained.

The measuring accuracy of the roll profile, which is the object of the present invention, has an error range of 20 μm or less as compared with the manual measurement using a micrometer, which is extremely severe. Therefore, if the measuring device itself set on the roll is distorted, accurate profile measurement cannot be performed. Therefore, a correction value is added to calculate the distance difference between the measurement points. That is, as shown in FIG. 3, there is no problem if the base 1 is set straight with respect to the backup roll 20, but if the base 1 is tilted slightly to the right or left due to its own weight, Since the distance (h ₁ ) to the roll surface cannot be accurately measured with only one dial gauge 5, it needs to be corrected. In this case, as shown in the figure, two dial gauges 5 are provided in the circumferential direction of the roll around the liquid reference device 3, and the measured values (h ₁₁ and h ₂₂ ) of each dial gauge 5 are provided.
Then, if the average value is calculated from [Equation 1], the left and right error components are canceled out, and an accurate distance (h ₁ ) to the roll surface is obtained. Further, since the difference in the height of the roll end portion that occurs in the roll length direction of the apparatus itself appears as the inclination of the profile, it is corrected in the horizontal direction.
In this case, the liquid reference device 3 and the roll end measurement points are used as references to derive by [Equation 2], and after correcting each measurement point, the distance difference (h ₀ −h ₁ ) is calculated. You can get a horizontal profile.

[0014]

[Equation 1]

[Equation 2]

In the above description, the lower roll profile of the pair of upper and lower backup rolls is measured. However, when the upper roll profile is measured, the dial gauge of the present apparatus is mounted on the lift truck. It is possible to set only the chisel up and perform the same procedure. As described above, in the present invention, the profile can be measured in a short time in a state where the rolling roll to be measured is not removed from the rolling mill and is set on the roll stand, and as a result, as in the conventional case. In consideration of safety, the rolling rolls can be continuously used up to the last line without the need to replace the rolls early so that productivity can be improved and cost can be reduced. Further, even if the type of steel sheet to be rolled is changed, the profile of the rolling roll can always be easily checked, so that it is possible to reliably prevent the occurrence of rolling defects due to a decrease in the crown amount.

[0016]

Example: Lower backup roll of rolling mill (diameter 14
(80 mm, length 1727 mm) was left set without being removed from the rolling mill, and the profile was measured using the apparatus of the present invention. The results shown in the graph of FIG. 5 were obtained. On the other hand, the same roll was removed from the rolling mill and measured using a dial gauge of a conventional roll polishing table, as shown in the graph of FIG. The liquid of the liquid standard is 40 ° C
In this environment, a mineral oil having a viscosity of 39 st (Stokes) was used, and aluminum was crushed on the surface of the liquid by a stamping method into a scale shape having an average particle size of 12 μm (apparent density: about 0.4 to 0). 2.8 g / cm ³ , true specific gravity of about 1.5-
2.0) was used. From the comparison of these two graphs, it was confirmed that the measurement accuracy of the measurement method according to the present invention was within the error range of 20 μm, and it was proved that the measurement method had high reliability. It was also confirmed that the time required for the measurement was 15 minutes, which could significantly reduce the time.

[0017]

As is apparent from the above description, according to the present invention, the profile can be measured while the rolling roll to be measured is set on the roll stand without being removed from the rolling mill, and the measurement can be performed. It is highly accurate and can be easily measured in a short time. Therefore, the present invention, as a method and apparatus for measuring a roll profile that eliminates the conventional problems, is extremely significant in contributing to the development of industry.

[Brief description of drawings]

FIG. 1 is a perspective view showing an embodiment of the present invention.

FIG. 2 is a perspective view showing a main part of the present invention.

FIG. 3 is a diagram illustrating an operation of a displacement meter in a circumferential direction.

FIG. 4 is a perspective view illustrating the operation of the displacement meter in the length direction.

FIG. 5 is a graph showing a result of measuring a roll profile according to the present invention.

FIG. 6 is a graph showing a result of measuring a roll profile according to a conventional example.

[Explanation of symbols]

1 base 2 running rails 3 Liquid standard 3a liquid 3b powder layer 4 displacement meter 5 dial gauge 20 backup roll

   ─────────────────────────────────────────────────── ─── Continued front page    F term (reference) 2F062 AA21 AA61 BB03 BC53 CC22                       CC27 DD17 EE04 EE09 EE42                       EE63 FF03 FG09 GG18 GG71                       LL11 MM02                 4E024 DD01 DD20

Claims (6)

[Claims] 1. A method for measuring a roll profile in a state where a rolling roll to be measured is set without being removed from a rolling mill, wherein a liquid reference device is provided in a length direction of the roll and the liquid reference device is provided. A non-contact type displacement gauge that runs along the roll and a dial gauge that comes into contact with the roll surface are provided. While moving the displacement gauge and dial gauge in the length direction of the roll, the distance from the displacement gauge to the liquid reference device and the dial A method for measuring a roll profile, characterized in that the distance to the roll surface by a gauge is measured over the entire length of the roll, and the true roll surface height is calculated from the difference in distance between the two to obtain a profile of the total roll length. 2. The liquid reference device is one in which fine particle powder is uniformly suspended on a liquid surface to form a powder layer, and a signal from a displacement meter is reflected by the powder layer to measure a distance. The method for measuring a roll profile according to claim 1. 3. A roll surface height is provided by providing two dial gauges in the circumferential direction of the roll centering on the liquid standard, and taking the average value of the measured values obtained by these two dial gauges as the distance to the roll surface. Claim 1 adapted to calculate
Alternatively, the roll profile measuring method described in 2). 4. The roll profile measurement according to claim 1, 2 or 3, wherein a correction value is added so that the profile of the liquid standard and the roll length profile becomes horizontal to calculate the distance difference between the measurement points. Method. 5. An apparatus for measuring a roll profile in a state where a rolling roll to be measured is set without being removed from a rolling mill, in which a frame-shaped base with a traveling rail is set in a length direction of the roll. , A liquid reference device is attached to the lower surface of the base, and a non-contact type displacement gauge that is guided by the traveling rail and travels along the liquid reference device in the frame of the base, and a roll surface while contacting the roll surface. A roll profile measuring device having a dial gauge that travels in the length direction. 6. The roll profile measuring device according to claim 5, wherein two dial gauges are provided in the circumferential direction of the roll centering on the liquid reference device.