KR100793600B1 - Apparatus for alignment of thkckness guage deviation - Google Patents

Abstract

An object of the present invention is to provide a thickness measuring device deviation correction device capable of correcting the deviation of the thickness measuring device without interrupting operation, and capable of working by one worker through remote operation and without the risk of radiation exposure.

Accordingly, the present invention is a frame consisting of a top box installed to receive the radiation generating unit, a bottom box installed in parallel with the top box to accommodate the radiation detection unit, a support beam connecting the top end of the top box and the bottom box vertically; The shutter is formed on the upper side of the lower box to open and close the opening to which radiation is incident, the shutter driving motor to rotate the shutter, a plurality of reference specimens located at different heights centering on the opening, a connecting bar to which the reference specimen is fixed, and a connection bar. A reference specimen access section comprising a specimen driving motor to rotate; A deviation calculator comprising a comparator for comparing a signal received from a position detection sensor, a position detection sensor, and a radiation detector installed at a rear end of the connecting bar to detect a position of a reference specimen and calculating a deviation; Provided is a thickness detector deviation correction device including a control unit for correcting the deviation of the thickness meter by the deviation calculated by the deviation calculation unit.

To provide.

Thickness Detector, Shutter, Reference Specimen, Comparator

Description

Thickness Gauge Deviation Correction Device {APPARATUS FOR ALIGNMENT OF THKCKNESS GUAGE DEVIATION}

1 is an external perspective view showing the appearance of the thickness gauge deviation correction apparatus according to the present invention.

Figure 2 is a partial cutaway perspective view showing a lower box of the thickness gauge deviation correction apparatus according to the present invention.

Figure 3 is a perspective view showing the inside of the lower box of the thickness gauge deviation correction apparatus according to the present invention.

Figure 4 is a working state showing the thickness gauge deviation correction operation according to the prior art.

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

10: thickness measuring instrument 12: radiation generating unit

14: radiation detection unit 16: frame

18: Reference Specimen 24: Shutter

32: position detection sensor 34: comparator

The present invention relates to a deviation measuring device of the thickness meter for measuring the thickness of the strip in the rolling line, and more particularly to a deviation measuring device of the thickness meter for correcting the deviation of the thickness meter installed on the rolling line.

In general, the thickness gauge used to measure the thickness of the strip in the rolling line mainly measures the thickness of the strip using radiation.

Such a thickness gauge places a reference specimen on a radiation generator during regular maintenance or stops operation of the equipment and compares the thickness detected by the radiation detector with the thickness of the reference specimen to detect the deviation and correct it in the controller.

In other words, the deviation measuring device of the thickness measuring device, as shown in Figure 4, the reference specimen 102 knowing the thickness is placed on the radiation generating unit 104 in the rolling line, the radiation detector 106 of the reference specimen 102 The thickness is detected, the detected result is input to the calculator 108, and the result input to the calculator 108 is calculated to correct the deviation of the thickness gauge 100 in the controller 110.

However, such a deviation measuring device of the thickness measuring device should be evacuated to prevent radiation exposure after the operator placing the specimen on the radiation generator (2) after placing the reference specimen on the radiation generator.

Therefore, the operator has to repeatedly perform the work and evacuation during the correction of the deviation of the thickness gauge, there is a problem in that the productivity is reduced because the deviation correction time is excessively taken.

In addition, at least two operators are required to compensate for the deviation of the thickness gauge, thereby increasing maintenance costs.

In addition, since the operation must be stopped in order to correct the deviation, there is a problem in that the quality of the product is degraded when the strip is rolled because the deviation cannot be corrected quickly.

In addition, there is a problem that a safety accident occurs because the worker must work in a hazardous radiation exposure environment.

Therefore, the present invention has been made to solve the problems of the prior art, the object of the present invention is to provide a thickness gauge deviation correction device that can correct the deviation of the thickness gauge without interrupting operation.

Another object is to provide a thickness measuring device deviation correction device that can be operated by one worker through remote operation and there is no risk of radiation exposure.

In order to achieve the object as described above, the present invention comprises a radiation generating unit installed on the strip of the rolling line to generate radiation and a radiation detection unit installed on the lower portion of the strip to detect the exposure of the radiation to measure the thickness of the strip. In the thickness measuring device of the thickness measuring device for correcting the deviation of the thickness measuring device, the upper box installed to accommodate the radiation generating unit, the lower box installed in parallel with the upper box to accommodate the radiation detection unit, the upper end of the upper box and the lower box vertically connected A frame made of a supporting beam; The shutter is formed on the upper side of the lower box to open and close the opening to which radiation is incident, the shutter driving motor to rotate the shutter, a plurality of reference specimens located at different heights centering on the opening, a connecting bar to which the reference specimen is fixed, and a connection bar. A reference specimen access section comprising a specimen driving motor to rotate; A deviation calculator comprising a comparator for comparing a signal received from a position detection sensor, a position detection sensor, and a radiation detector installed at a rear end of the connecting bar to detect a position of a reference specimen and calculating a deviation; Provided is a thickness detector deviation correction device including a control unit for correcting the deviation of the thickness meter by the deviation calculated by the deviation calculation unit.

In this case, the frame is preferably installed to enable the entry and exit into the rolling line.

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

1 is an external perspective view showing the appearance of the thickness gauge deviation correction apparatus according to the present invention, Figure 2 is a partial cutaway perspective view showing a lower box of the thickness meter deviation correction apparatus according to the present invention, Figure 3 is a thickness according to the present invention It is a perspective view which shows the inside of the lower box of a measuring device deviation correction apparatus.

According to the above drawings, the thickness meter 10 is installed on the strip S of the rolling line to generate radiation and the lower portion of the radiation generating unit 12 and the strip S to detect the radiation dose of the strip ( It consists of the radiation detection part 14 which measures the thickness of S).

According to the present invention, a frame 16 for accommodating the thickness gauge 10, a reference specimen access part installed inside the frame 16, and allowing the reference specimen 18 to come in and out, the reference specimen 18 and the actual measured values And a deviation calculating unit for calculating the difference and a control unit for correcting the deviation.

First, the frame 16 includes an upper box 16a installed to accommodate the radiation generator 12, a lower box 16b installed in parallel with the upper box 16a to accommodate the radiation detector 14, and an upper box ( It consists of a support beam (16c) for vertically connecting the tip of the 16a) and the lower box (16b).

Wherein the frame 16 is a "c" shape is preferably installed so that the roller 20 is installed in the lower portion of the lower box (16a) to advance into the rolling line.

Next, the reference specimen entrance part is formed on the upper portion of the lower box 16a, and the shutter 24 opens and closes the opening 22 through which radiation is incident, the shutter driving motor 26 rotating the shutter 24, and the opening 22. It consists of a plurality of reference specimens 18, the reference bar 18, the connection bar 28 is fixedly installed at different heights, the specimen driving motor 30 to rotate the connection bar 28.

First, the shutter 24 is a disk 24a installed to open and close the opening 22 installed in the upper portion of the lower box 16a, and a connecting plate 24b connecting the disk 24a to the shutter driving motor 26. Is done.

Therefore, the connecting plate 24b is rotated by the shutter driving motor 26, and the disc 24a installed at the tip of the connecting plate 24b is opened in the upper portion of the lower box 16a by the rotation of the connecting plate 24b. 22) Seal.

Here, the disk 24a is preferably provided with a shielding material such as lead which can shield the radiation.                     

In addition, a plurality of reference specimens 18 are installed so that each reference specimen 18 is installed so that the height is different from each other so as not to collide during rotation.

Meanwhile, as the specimen driving motor 30 is driven, the connection bar 28 rotatably installed in the specimen driving motor 30 rotates, and the connection bar 28 is fixed to the tip of the connection bar 28 as the connection bar 28 rotates. The reference specimen 18 is positioned below the opening 22 above the lower box 16a.

Next, the deviation calculation unit compares the signals received from the position detection sensor 32, the position detection sensor 32 and the radiation detection unit 14 installed at the rear end of the connecting bar 28 to detect the position of the reference specimen 18. Comparator 34 for calculating the deviation.

Here, the position detection sensor 32 is installed at the rear end of each connection bar 28 to transmit the position of the connection bar 28 to the comparator 34, so that the comparator 34 is located at the lower part of the opening 22 (a reference specimen) 18) to get information.

The comparator 34 also determines the reference specimen 18 located at the lower part of the opening 22 by the position detection sensor 32, and the thickness and the actual thickness of the reference specimen 18 set according to the reference specimen 18. The deviation is calculated by comparing the thicknesses obtained by the detector 10.

Next, the controller corrects the deviation of the thickness gauge 10 by the deviation calculated by the deviation calculator.

On the other hand, a switch for controlling each of the driving motors 26 and 30 and inputting a mode of the thickness detector deviation correcting apparatus is installed in the panel 36.

In addition, the panel 36 is provided with a plurality of lamps for the operator to see the state of the thickness detector deviation correction device.

Hereinafter will be described the operation of the thickness detector deviation correction apparatus according to the present invention.

First, while measuring the thickness of the strip (S) through the thickness gauge 10, the thickness of the measured strip (S) and the thickness of the actual strip (S) is suspected that the deviation occurred, or repair work to stop the rolling line When the frame 16 is discharged to the outside of the rolling line.

At this time, the shutter driving motor 26 is operated to close the opening 22 through which the radiation passes so that the radiation remaining inside the thickness gauge 10 does not contaminate the movement path of the thickness gauge 10 when discharged to the rolling line. The thickness gauge 10 is moved with one sieve.

Next, the rolling line is continuously performed, and a calibration operation of the reference specimen 18 is performed inside the frame 16 discharged to one side of the rolling line.

First, the shutter driving motor 26 is operated to rotate the shutter 24, thereby opening the opening 22 through which radiation passes.

Next, the reference specimen 18 is rotated sequentially so that the reference specimen 18 is positioned below the opening 22, the radiation generator 12 generates radiation, and the radiation dose exposed by the radiation detector 14 detects the reference specimen ( 18) thickness is detected.

At this time, the reference specimen 18 located below the opening 22 is detected by the position detection sensor 32 at the rear end of the connecting bar 28 and input to the comparator 34.

The thickness of the reference specimen 18 detected by detecting the radiation exposure amount by the radiation detector 14 and the preset thickness of the reference specimen 18 detected by the position detection sensor 32 are input to the comparator 34. The comparator 34 compares these and calculates a deviation of the thickness.

Next, the controller corrects the deviation of the thickness gauge 10 according to the deviation calculated by the deviation calculator.

After the correction operation is repeatedly performed to correct the deviation of the thickness detector 10, the shutter 24 is moved to the rolling line with the opening closed, and the shutter 24 is opened and the thickness measurement operation is performed.

The thickness detector deviation correction device according to the present invention as described above is improved in productivity since the thickness detector deviation correction operation is performed quickly in the mechanical.

In addition, the thickness detector deviation can be corrected by only one worker, thereby reducing maintenance costs.

In addition, when the deviation of the thickness detector can be corrected quickly, the product quality is improved.

In addition, since the worker is isolated from the radiation exposure environment, the thickness detector deviation correction work is performed remotely to prevent safety accidents caused by the worker's radiation exposure.

Claims (2)

Deviation of the thickness measuring device for correcting the deviation of the thickness measuring device is composed of a radiation generating unit installed on the strip of the rolling line to generate radiation and a radiation detector installed on the lower portion of the strip to detect the exposure of the radiation to measure the thickness of the strip In the correction device, A frame including an upper box installed to receive the radiation generating unit, a lower box installed in parallel with the upper box to receive the radiation detection unit, and a support beam connecting the upper ends of the upper box and the lower box vertically; The shutter is formed on the top of the lower box to open and close the opening through which radiation is incident, the shutter driving motor to rotate the shutter, a plurality of reference specimens located at different heights centering on the opening, the reference specimen is fixedly installed A reference specimen access portion comprising a specimen driving motor for rotating the connection bar; A deviation calculation unit including a position detection sensor installed at a rear end of the connection bar to detect the position of the reference specimen, a position comparator for comparing a signal received from the position detection sensor, the position detection sensor and the radiation detection unit, and calculating a deviation; And a controller for correcting the deviation of the thickness gauge by the deviation calculated by the deviation calculator. The method of claim 1, The frame is a thickness detector deviation correction device, characterized in that the installation is installed to enable the entry and exit into the rolling line.

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