KR102098505B1 - Test apparatus for measurement point - Google Patents

Abstract

The present invention provides a test apparatus for a measurement point, which comprises: a holding unit mounted in a roll; an extension portion formed to extend so as to intersect with the holding unit; and a measuring plate portion in which an angle intersecting the extending portion is adjusted, and in which a measuring plate is formed, wherein a measuring point of a measuring unit is displayed on the measuring plate.

Description

Measuring point inspection device {TEST APPARATUS FOR MEASUREMENT POINT}

The present invention relates to a measuring point inspection device that can easily check the measuring point of the measuring device.

It should be noted that the contents described in this section merely provide background information about the present invention and do not constitute the prior art.

Radiation Pyromrter is used to measure the temperature of a steel sheet in a cold rolling process, and its energy is measured by a sensor based on the rule that 'all objects emit energy at an absolute temperature of 0K or higher'.

However, the energy emitted from the object is often not 100% of the energy of the object, so the emission energy to the black body is set to 100, and the temperature is corrected by the emissivity comparing the emission energy of the object.

 However, even for objects of the same temperature, it is known that the measured temperature is different because the emissivity varies depending on the material of the object, the state of the surface or the surrounding environment.

Even in the cold rolling process, the general measurement method in which the angle of the steel sheet and the radiation thermometer is vertical is the above-mentioned complex difficulty, so a method of measuring the temperature of the steel sheet under the condition of a black body was devised, and its method is LMR (Low angle Multi-Reflection). Way.

1A and 1B show the limiting range of the temperature measuring point and the temperature measuring angle of the LMR method, and FIG. 2 shows a method of installing the LMR-type radiation thermometer in the annealing furnace.

Referring to Figure 1a, LMR method uses a multi-reflection occurring between the roll and the steel sheet, the part of the range of 0.22 to 0.44 times (0.22 to 0.44R) of the radius of the roll (R) from the contact between the roll and the steel sheet is black body Known as the condition of furnace.

Therefore, it is often installed on the side of the annealing furnace, which is installed vertically at the top or end of the annealing furnace vertically at the top or end of the roll in a conventional radiant thermometer installation method. It is also installed on top of the annealing furnace.

1A and 1B, in the LMR method, the angle (θL) of the surface of the steel sheet and the laser beam of the radiation thermometer is 5 to 7 degrees (°), and the surface of the steel sheet in the traveling direction and the laser beam of the radiation thermometer The angle θH is limited to within 0 to 60 degrees (°).

As described above, there are difficult installation conditions for measuring the temperature of the steel sheet by the LMR method. In some cases, it is out of range.

It is suspected that it is out of the scope of the condition in black body, or after the disassembly and assembly, the measurement points of the condition in black body are checked and corrected.

In the conventional case, confirmation of the measurement point was carried out in different ways depending on whether or not a laser irradiation device is provided in the radiation thermometer.

When a laser irradiation device is not provided in the radiation thermometer in the past, the temperature measurement point was confirmed by the following method.

First, if you shine a light inside the annealing furnace and look into the radiation thermometer outside the annealing furnace, it looks like an object, but it is recommended that the air without the roll and steel plate be visible at a certain rate.

However, this method had a problem in that reliability of the temperature measurement point was deteriorated because the visible ratio of the roll and the air was different depending on the person looking into the radiation thermometer.

As another method, it is a method to check the temperature measurement point when a laser irradiation device is provided in the radiation thermometer, and roll a paper towel, a tape for safety fence, etc. along the path through which the steel sheet passes the roll, and test paper at the contact point between the steel sheet and the roll. Insert and check the position of the laser that is illuminated by the radiation thermometer.

However, this method has a problem that the distance between the rolls installed on the upper and lower portions of the annealing furnace exceeds 20 m, and there is a risk of a safety accident when winding the paper towel and the tape for the safety fence.

Therefore, there is a limit to confirm the accurate temperature measurement point because the test paper is difficult to contact the roll perpendicularly.

In addition, although it may be used when the mail order rope is wound, there is still a problem due to the air vortex generated inside the annealing furnace, and it is difficult to find the contact between the roll and the steel sheet.

In addition, since there is no lighting facility inside the annealing furnace, it is inconvenient because it carries a lantern and works, but it is inconvenient to cut off nitrogen or hydrogen, but it is necessary to work with the burden of the enclosed space itself and anxiety about the introduction of harmful substances. There is a problem that the possibility of occurrence of a safety accident increases.

As described above, if reliability is not secured at the measuring point of the LMR method radiation thermometer, there is no reason to say that the measured temperature is superior to the vertical method depending on the correction of the emissivity.

KR 10-2012-0073504 A

The present invention, as an aspect, is to provide a measuring point inspection device that can accurately measure the measuring point of the radiation thermometer by a simple method.

As an aspect of the present invention, it is possible to secure a reliability of measurement of a measuring point of a radiation thermometer, and to provide a measuring point inspection device that reduces the possibility of a safety accident of an operator.

As one aspect for achieving the above object, the present invention is a seat mounted on a roll; An extension formed to extend so as to cross the seating portion; And, the angle of intersection with the extension portion is adjusted, the measuring plate portion is formed on the measuring plate is displayed on the measuring point of the measuring means; including, the measuring plate portion, the position of the measuring plate on the measuring point of the measuring means is adjusted It provides a measuring point inspection device characterized in that possible.

Preferably, the seating portion may be formed with a plurality of coupling points spaced apart at predetermined intervals to which the extension portion is coupled.

As another aspect for achieving the above object, the present invention is a seat mounted on a roll; An extension formed to extend so as to cross the seating portion; And, the angle of intersection with the extension portion is adjusted, the measuring plate portion is formed a measuring plate is displayed on the measuring point of the measuring means; including, the extension portion, the extension body is installed to cross the seating portion; And a coupling line formed through the extension body in the longitudinal direction and coupled to the measuring plate so as to be positionally adjustable.

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As another aspect for achieving the above object, the present invention is a seat mounted on a roll; An extension formed to extend so as to cross the seating portion; And, the angle of intersection with the extension is adjusted, a measuring plate portion on which a measuring plate on which a measuring point of the measuring means is formed is formed. Including, the measuring plate portion, the angle at which the intersection with the extending portion is adjusted, in the longitudinal direction A measurement body that is extended; A movable body installed movably on the measuring body and having a measuring plate; And, it provides a measuring point inspection apparatus having a; moving control member for moving the moving body on the measuring body.

Preferably, the measuring body is formed through the longitudinal direction of the measuring body, a moving line through which the moving body can move may be formed.

Preferably, the moving body includes a linear gear moving along a moving line formed through the longitudinal direction in the measuring body; And a measuring plate fixed to the linear gear and displaying a measuring point of the radiation thermometer as the measuring means.

Preferably, the movement adjustment member, the adjustment handle member is installed on the measurement body; And a circular gear installed on one side end of the adjustment handle member and engaged with the linear gear, and moving the linear gear on the measurement body through rotation of the adjustment handle member.

As another aspect for achieving the above object, the present invention is a seat mounted on a roll; An extension formed to extend so as to cross the seating portion; And, the angle of intersection with the extension portion is adjusted, the measuring plate portion is formed a measuring plate is displayed on the measuring point of the measuring means; including, the measuring plate portion, the extension body of the extension portion and one side of the measuring body of the measuring plate portion A second fixing member which is installed through and is coupled to the extension part so as to be angle-adjustable; And a third fixing member installed through the extension body and one side of the measurement body to fix the measuring plate portion together with the second fixing member so as to overlap the extension portion. .

As another aspect for achieving the above object, the present invention is a seat mounted on a roll; An extension formed to extend so as to cross the seating portion; A measuring plate portion in which an angle intersecting the extending portion is adjusted and a measuring plate is displayed on which a measuring point of the measuring means is displayed; And a cross-measurement unit installed at a crossing area of the extension and the measurement plate to display a crossing angle between the extension and the measurement plate.

As another aspect for achieving the above object, the present invention is a seat mounted on a roll; An extension formed to extend so as to cross the seating portion; A measuring plate portion in which an angle intersecting the extending portion is adjusted and a measuring plate is displayed on which a measuring point of the measuring means is displayed; And a beam angle measuring unit installed on the extension portion or the measuring plate portion and displaying an angle of the laser beam of the radiation thermometer as the measuring means.

According to an embodiment of the present invention as described above, there is an effect that can accurately measure the measuring point of the radiation thermometer by a simple method.

According to an embodiment of the present invention, it is possible to secure the reliability of measurement of the measuring point of the radiation thermometer and to reduce the possibility of occurrence of a safety accident of the worker.

1A and 1B are diagrams illustrating a limiting range of a temperature measurement point and a temperature measurement angle of the LMR method.
1C is a view for explaining the inclination angle θ of the moving path of the steel sheet to be calculated in advance and the contact position X of the roll and the steel sheet.
2 is a view showing a method of installing the LMR-type radiation thermometer in the annealing furnace.
3A is a view showing a state in which the measuring point inspection apparatus of the present invention is installed at the point 'A' of FIG. 2, respectively.
3B is a view showing a state in which the measuring point inspection apparatus of the present invention is installed at the point 'B' of FIG. 2, respectively.
3C is a view showing a state in which the measuring point inspection apparatus of the present invention is installed at the point 'C' of FIG. 2, respectively.
4 is a view showing a state in which the measuring plate portion of the measuring point inspection apparatus of the present invention is disposed obliquely at a predetermined angle from the extension.
5 is a view showing the seating portion of the measuring point inspection apparatus of the present invention.
6 is a view showing an extension of the measuring point inspection apparatus of the present invention.
7A and 7B are views showing a measuring plate portion of the measuring point inspection apparatus of the present invention.
8A is a view showing a state viewed from AA 'in FIG. 4A.
8B is a view showing a state viewed in the direction BB 'of FIG. 4A.
9 is a view showing a beam angle measuring unit of the measuring point inspection apparatus of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. In addition, embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. The shape and size of elements in the drawings may be exaggerated for a more clear description.

Hereinafter, a measurement point inspection apparatus according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 9.

The measuring point inspection apparatus according to an embodiment of the present invention may include a seating part 100, an extension part 200, and a measuring plate part 300, and additionally include.

The measuring means (T) to which the measuring point inspection apparatus of the present invention is applied is composed of a radiation thermometer and can be installed on the side of the annealing furnace, as shown in FIG. 1B.

Specifically, the radiation thermometer can be installed on the side of the area outside the width of the roll (U).

3A to 3C, the measuring point inspection apparatus includes a seating part 100 mounted on a roll U, an extending part 200 extending to cross the seating part 100, and the extending part ( 200) and the angle at which it intersects is adjusted, and may include a measuring plate portion 300 on which a measuring plate 333 on which a measuring point of the measuring means T is displayed is formed.

3A to 3C, the seating portion 100 may be mounted over at least two rolls U.

In one example, the seating portion 100 may be mounted on two rolls (U) for transporting the steel sheet (S) in an annealing furnace.

The seating portion 100 may be configured as a bar-shaped member extending in the longitudinal direction so as to be mounted on at least two rolls (U).

At this time, the seating portion 100 may be configured in the shape of a long rectangular ring when viewed from the top. That is, a hollow line 130 having a rectangular shape may be formed inside the seating portion 100.

3A to 3C, the extension part 200 is installed to intersect with the seating part 100 so that the seating part 100 intersects the seating part 100 while being mounted on the roll U. It may be formed extending in the direction.

As an example, the extension part 200 may be installed vertically to the seating part 100.

Referring to Figure 3c, the measuring plate 300 is the angle that intersects the extension 200 is adjusted, the measuring point of the measuring means (T) can be displayed.

As an example, the measuring plate 333 may display a measuring point of the radiation thermometer as a measuring means (T).

The angle of intersection of the extension plate 200 with the measurement plate 300 is adjusted, and the position of the measurement plate 333 where the measurement point of the radiation thermometer is displayed can be adjusted.

Referring to FIG. 5, the seating portion 100 may be formed with a plurality of coupling points 110 to which the extension portion 200 is coupled at predetermined intervals.

3A to 3C, the extension part 200 may be detachably coupled to a plurality of coupling points 110 spaced apart from the seating part 100.

The extension part 200 may be fixed to any one of the plurality of coupling points 110 of the seating part 100 via the first fixing member 250.

The extension part 200 may be moved from the seating part 100 depending on whether it is the front or rear of the roll U, or may be assembled by moving from the seating part 100 according to the size of the roll U.

Referring to FIG. 6, the extension part 200 is formed to extend through the extension body 210 and the extension body 210 so as to cross the seating part 100, and the measurement plate part 300. ) May be provided with a coupling line 230 to which position adjustment is possible.

3A to 3C, the extension body 210 may be formed to extend downward while being coupled to cross the seating portion 100.

The extension body 210 is installed to vertically intersect with the seating portion 100, and can be fixed to the one side of the plurality of coupling points 110 of the seating portion 100 via the first fixing member 250. have.

Referring to FIG. 6, the coupling line 230 may be formed in a hole in a rectangular shape cut in the longitudinal direction of the measurement body 310.

Referring to FIG. 4, the measurement plate part 300 may be fixed to the extension part 200 by a second fixing member 370.

Specifically, one end of the measuring plate 300 may be fixed to the second fixing member 370 in the state inserted into the coupling line 230 formed in the longitudinal direction through the extension portion 200.

When the measurement plate portion 300 is fixed to the extension portion 200, the position where the measurement plate portion 300 is coupled on the coupling line 230 of the extension portion 200, and the extension body 210 of the extension portion 200 The angle at which the measuring plate 300 intersects may be adjusted.

Referring to FIG. 4, the position of the measurement plate 333 in which the measurement point of the measurement means T is displayed may be adjustable in the measurement plate unit 300.

7A and 7B, the measurement plate part 300 has an angle at which an intersection with the extension part 200 is adjusted and extends in the longitudinal direction, and the measurement body 310 and the measurement body 310 are formed. A movable body 330 that is installed to be movable and has a measuring plate 333 and a moving control member 350 for moving the moving body 330 on the measuring body 310 may be provided.

Referring to FIG. 7A, the measurement body 310 may be formed to penetrate through the measurement body 310 in the longitudinal direction, and a movement line 311 through which the moving body 330 moves may be formed.

7A and 7B, the moving body 330 includes a linear gear 331 moving along a moving line 311 formed longitudinally in the measuring body 310 and the linear gear ( It is fixed to 331), it may be provided with a measuring plate 333, the measuring point of the radiation measuring instrument (T) is displayed.

Referring to FIG. 7B, a scale is formed in the measuring plate 333, so that the position where the laser beam of the measuring means T reaches the surface is reached.

7A and 7B, the movement adjustment member 350 is installed on one side end of the adjustment handle member 351 and the adjustment handle member 351 installed on the measurement body 310 and the linear It may be provided with a circular gear 353 engaged with the gear 331 and moving the linear gear 331 on the measurement body 310 via the rotation of the adjustment handle member 351.

Referring to Figure 8a, a circular gear 353 is disposed at the rear of the linear gear 331, the linear gear 331 moves while the circular gear 353 rotates when the adjustment handle member 351 rotates, linear The measuring plate 333 integrally formed with the gear 331 may move.

6 and 8B, a scale is formed in the extension body 210 formed at the rear side of the measuring plate 333, so that the distance to which the measuring plate 333 moves is immediately known.

8A and 8B, the measurement plate part 300 is installed through one side of the extension body 210 of the extension part 200 and the measurement body 310 of the measurement plate part 300, A second fixing member 370 for angularly adjusting the measurement plate portion 300 to the extension portion 200, and is installed through one side of the extension body 210 and the measurement body 310, A third fixing member 390 for fixing the measuring plate 300 to the extension portion 200 may be provided together with the second fixing member 370.

3A and 8A, when one side end of the measuring plate 300 is inserted into the hollow line 130 of the seating part 100, the third fixing member 390 is an extension part 200, seating The extension part 200, the seating part 100, and the measurement plate part 300 may be integrally fixed while being sequentially installed through the part 100 and the measurement plate part 300.

When both the second fixing member 370 and the third fixing member 390 are released, the measurement plate 300 may be separated from the extension 200.

Referring to FIG. 4, a cross-measurement unit 400 that is installed at an intersection of the extension part 200 and the measurement plate part 300 and displays a crossing angle between the extension part 200 and the measurement plate part 300. It may further include.

The cross measurement unit 400 may measure the cross angle between the extension 200 and the measurement plate 300.

The measuring plate part 300 should be adjusted so that the measuring plate 333 is parallel to the steel plate S moved by the roll U.

Referring to FIG. 4, when the inclination angle of the movement path of the steel sheet S is θ, the angle at which the extension part 200 and the measurement plate part 300 intersect is (90-θ), which is the scale of the cross measurement part 400. Is represented by (90-θ).

That is, when the inclination angle of the steel sheet (S) is 30 degrees, the angle at which the extension part 200 and the measurement plate part 300 intersect is 60 degrees, and the scale of the cross measurement part 400 is displayed at 60 degrees.

Accordingly, when the inclination angle of the steel plate S is 30 degrees, when the cross angle of the measurement plate unit 300 is set so that the scale of the cross measurement unit 400 becomes 60 degrees, the measurement plate 333 of the measurement plate unit 300 is a steel plate It can be arranged parallel to (S).

 3A to 3C, a measuring point inspection apparatus is installed on the extension part 200 or the measurement plate part 300 and the beam angle measurement part () for displaying the angle of the laser beam of the radiation thermometer as the measuring means (T) ( 500) may be further included.

3A and 3B, the beam angle measurement unit 500 may be installed at a predetermined distance from the crossing region of the seating portion 100 and the extension portion 200 at a predetermined interval, and the beam angle The measurement unit 500 may be installed on the measurement plate unit 300.

Referring to FIG. 3C, the beam angle measurement unit 500 may be installed on the measurement plate unit 300 inclined by the extension unit 200.

Referring to FIG. 9, the beam angle measuring unit 500 is formed in a right triangle shape, and a display line 510 for each angle starting from at least one acute angle portion 550 of the right triangle is formed on the surface.

Specifically, an acute angle portion 550 in which the display line 510 for each angle of the beam angle measuring unit 500 starts is disposed at a measuring point where the laser beam of the radiation thermometer hits the measuring plate 333.

That is, the angle of the laser beam of the radiation thermometer can be sensed by reading the display line 510 for each angle of the penetration point 530 through which the laser beam emitted from the radiation thermometer passes through the beam angle measurement unit 500.

Hereinafter, a method of using the measuring point inspection apparatus of the present invention will be briefly described with reference to FIGS. 2 to 3C.

FIG. 2 is a view showing a method of installing an LMR radiation thermometer in an annealing furnace, and FIG. 3A is a view showing a state in which the measuring point inspection apparatus of the present invention is installed at the point 'A' in FIG. 2, and FIG. 2 is a view showing a state in which the measuring point inspection apparatus of the present invention is installed at point 'b' of FIG. 3c, respectively. .

Referring to FIGS. 2 and 3A, the method of using the measuring point inspection apparatus of the present invention at the point 'A' of FIG. 2 will be described as follows.

3A is an assembly method for using the measuring point inspection apparatus of the present invention at the point 'A' of FIG.

The method for confirming the measuring point using the measuring point inspection device of the present invention is as follows.

Turn the adjusting handle member 351 to see and adjust the scale on the back of the measuring body 310 so that the lower end of the measuring plate 333 matches the dimensions of the center (radius) of the roll U.

 Check the scale of the measuring plate 333 by shining the laser beam on the radiation thermometer to check if it is within the range of 0.22 to 0.44 times (0.22 to 0.44R) of the radius (R) of the roll (U).

For example, if the diameter of the roll (U) is 800mm, the temperature measurement point is 400 * (0.22 ~ 0.44) = 88 ~ 176mm can be judged as good.

 If the position of the laser beam reflected on the measuring plate 333 is good, the scale is recorded by placing the beam angle measuring portion 500 on the edge of the measuring plate 333 of the measuring plate portion 300.

The method of confirming the angle of the laser beam of the radiation thermometer using the measuring point inspection apparatus of the present invention is as follows.

Referring to FIG. 3A, the beam angle measurement unit 500 may be installed on the right side of a position spaced apart at predetermined intervals downward from the crossing region of the seating portion 100 and the extending portion 200.

Referring to FIG. 9, the beam angle measuring unit 500 is formed in a right triangle shape, and a display line 510 for each angle starting from at least one acute angle portion 550 of the right triangle is formed on the surface.

That is, by reading the display line 510 for each angle based on the through point 530 of the laser beam emitted from the radiation temperature meter 500, the angle of the laser beam of the radiation thermometer can be sensed. .

For example, the angle formed by the display line 510 for each angle passing through the penetration point 530 where the laser beam is stamped on the beam angle measurement unit 500 is the angle of the laser beam of the radiation thermometer.

As described above, when the measured angle of the laser beam of the radiation thermometer is within the range of 5 to 7 °, which is the limit of the surface of the steel sheet S and the angle (θL) of the laser beam of the radiation thermometer, it is determined that the measurement point of the radiation thermometer is appropriate. Can be.

Referring to FIGS. 2 and 3B, the method of using the measuring point inspection apparatus of the present invention at the point 'B' of FIG. 2 will be described as follows.

3B is an assembly method for using the measurement point inspection apparatus of the present invention in the 'b' point of FIG. 2.

Referring to FIG. 3B, the beam angle measurement unit 500 may be installed on the left side of a position spaced apart at predetermined intervals downward from the crossing region of the seating portion 100 and the extending portion 200.

Hereinafter, the method of checking the measuring point using the measuring point inspection apparatus of the present invention and the method of checking the angle of the laser beam of the radiation thermometer are the same as the measuring method at the point 'A' of FIG. 2 described above.

Referring to FIGS. 2 and 3C, the method of using the measuring point inspection apparatus of the present invention at the point 'C' of FIG. 2 will be described as follows.

FIG. 3C is an assembly method for using the measuring point inspection apparatus of the present invention in point 'C' of FIG. 2.

As shown in FIG. 3C, the moving path of the steel sheet S is not vertical or horizontal at the point 'C' of FIG. 2, so that the measuring plate 333 is tilted and used.

To this end, the third fixing member 390 is released, and the second fixing member 370 is slightly released.

After the second fixing member 370 is fastened to the measurement body 310 to be perpendicular to the extension 200 so that the lower portion of the measuring plate 333 is in close contact with the lower vertical center of the roll U, the roll U Mark.

In addition, the contact point between the roll U and the steel sheet S calculated in advance is displayed.

While looking at the cross-measurement unit 400, roughly adjust it to the required angle so that the lower portion of the measurement plate 333 comes to the position of the contact point and fasten the second fixing member 370 to the extension portion 200.

1C is a view for explaining the inclination angle θ of the moving path of the steel sheet S to be calculated in advance, and the contact position X of the roll U and the steel sheet S.

Referring to FIG. 1C, the inclination angle θ of the moving path of the steel sheet S to be calculated in advance and the contact position X of the roll U and the steel sheet S will be described.

If the distance between the roll (U) and the roll (U) is 2200 mm, and the diameter of the roll (U) is 1200 mm, the inclination angle (θ) of the moving path of the steel sheet (S) is θ = sin ^-1 (roll (U) radius ÷ (roll ( The distance between U) ÷ 2)) = sin ^-1 (600 ÷ (2200 ÷ 2)) = 33.05 °.

In addition, the distance (ℓ) from the vertical point of the roll (U) to the contact point is ℓ = 2πr (inclination angle of the moving path of the steel sheet S ÷ 360) = 2πr (33.05 ÷ 360) = 346 mm.

 Illuminate the laser beam from the radiation thermometer and check the scale of the measuring plate (333) to check if it is within the range of 0.22 to 0.44 times (0.22 to 0.44R) of the radius (R) of the roll (U).

 If the diameter of the roll (U) is 1200mm, the measurement point is 600 * (0.22 ~ 0.44) = 132 ~ 264mm can be judged as good.

When the position of the laser beam of the radiation thermometer reflected on the measurement plate 333 is good, the angle of the laser beam of the radiation thermometer can be measured while the beam angle measurement unit 500 is placed on the measurement plate 333.

Referring to FIG. 9, the beam angle measurement unit 500 is formed in a right triangle shape, and a display line 510 for each angle is formed on the surface starting at one acute angle portion 550 of the right triangle.

Specifically, an acute angle portion 550 in which the display line 510 for each angle of the beam angle measuring unit 500 starts is disposed at a measuring point where the laser beam of the radiation thermometer hits the measuring plate 333.

That is, the angle of the laser beam of the radiation thermometer can be sensed by reading the display line 510 for each angle of the penetration point 530 through which the laser beam emitted from the radiation thermometer passes through the beam angle measurement unit 500.

For example, the angle formed by the display line 510 for each angle passing through the penetration point 530 where the laser beam is stamped on the beam angle measurement unit 500 is the angle of the laser beam of the radiation thermometer.

As described above, when the measured angle of the laser beam of the radiation thermometer is within the range of 5 to 7 °, which is the limit of the surface of the steel sheet S and the angle (θL) of the laser beam of the radiation thermometer, the measurement point of the radiation thermometer is determined Can be.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and it is possible that various modifications and variations are possible without departing from the technical spirit of the present invention as set forth in the claims. It will be apparent to those of ordinary skill in the field.

100: seating portion 110: coupling point
130: hollow line 200: extension
210: extension body 230: coupling line
250: first fixing member 300: measuring plate portion
310: measuring body 311: moving line
330: mobile body 331: linear gear
333: Measuring plate 350: Movement adjustment member
351: adjustment handle member 353: circular gear
370: second fixing member 390: third fixing member
400: cross measurement unit 500: beam angle measurement unit
510: Display line by angle 530: Through point
550: acute angle S: steel plate
T: Measuring means U: Roll

Claims (11)

A seat mounted on a roll;
An extension formed to extend so as to cross the seating portion; And,
It includes; a measuring plate portion in which the angle intersecting the extension portion is adjusted and a measuring plate is displayed on which a measuring point of the measuring means is displayed.
The measuring plate portion,
The measuring point inspection apparatus characterized in that the position of the measuring plate on which the measuring point of the measuring means is displayed is adjustable.
According to claim 1, The seating portion,
A measuring point inspection apparatus characterized in that the plurality of coupling points to which the extensions are coupled are spaced apart at predetermined intervals.
A seat mounted on a roll;
An extension formed to extend so as to cross the seating portion; And,
It includes; a measuring plate portion in which the angle intersecting the extension portion is adjusted and a measuring plate is displayed on which a measuring point of the measuring means is displayed.
The extension,
An extension body installed to cross the seating portion; And,
A measuring point inspection apparatus having a; a coupling line formed through the extension body in the longitudinal direction and coupled to the measuring plate so as to be positionally adjustable.
delete A seat mounted on a roll;
An extension formed to extend so as to cross the seating portion; And,
It includes; a measuring plate portion in which the angle intersecting the extension portion is adjusted and a measuring plate is displayed on which a measuring point of the measuring means is displayed.
The measuring plate portion,
The measurement body is formed to extend in the longitudinal direction, the angle of intersection with the extension is adjusted;
A movable body installed movably on the measuring body and having a measuring plate; And,
A measuring point inspection device comprising a; moving control member for moving the moving body on the measuring body.
According to claim 5, The measurement body,
The measuring point inspection device is formed through the longitudinal direction of the measuring body, the moving line is formed to move the moving body.
According to claim 5, The mobile body,
A linear gear moving along a movement line formed through the longitudinal direction in the measurement body; And,
A measuring point inspection apparatus having a; fixed to the linear gear, a measuring plate on which a measuring point of the radiation thermometer as the measuring means is displayed.
According to claim 7, The movement control member,
An adjustment handle member installed on the measurement body; And,
A measuring point inspection apparatus comprising: a circular gear installed on one side end of the adjusting handle member, meshing with the linear gear, and moving the linear gear on the measuring body through rotation of the adjusting handle member.
A seat mounted on a roll;
An extension formed to extend so as to cross the seating portion; And,
It includes; a measuring plate portion in which the angle intersecting the extension portion is adjusted and a measuring plate is displayed on which a measuring point of the measuring means is displayed.
The measuring plate portion,
A second fixing member installed through one side of the extension body of the extension portion and the measurement body of the measurement plate portion, and angularly adjusting the measurement plate portion to the extension portion; And,
And a third fixing member installed through the extension body and one side of the measurement body to fix the measuring plate portion together with the second fixing member so as to overlap the extension portion.
A seat mounted on a roll;
An extension formed to extend so as to cross the seating portion;
A measuring plate portion in which an angle intersecting the extending portion is adjusted and a measuring plate is displayed on which a measuring point of the measuring means is displayed; And,
A measurement point inspection apparatus including; a crossing measurement unit installed in a crossing area of the extension portion and the measurement plate portion to display a crossing angle of the extension portion and the measurement plate portion.
A seat mounted on a roll;
An extension formed to extend so as to cross the seating portion;
A measuring plate portion in which an angle intersecting the extending portion is adjusted and a measuring plate is displayed on which a measuring point of the measuring means is displayed; And,
A measurement point inspection device including; a beam angle measurement unit installed on the extension portion or the measurement plate portion to display the angle of the laser beam of the radiation thermometer which is the measurement means.

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