KR100992064B1 - Attrition condition measuring equipment of rolling roll chalk - Google Patents

Abstract

PURPOSE: A friction condition measuring equipment of rolling roll chalk is provided to perform a precise compensation repair work by the easy measurement of the wear condition of a large chalk. CONSTITUTION: A friction condition measuring equipment of rolling roll chalk comprises a casing, a mobile unit(30), a first gauge, a distance sensing rod(15), and a distance sensing unit(35). The casing is composed of a first casing(11) and a second casing(12). A conveying path(13) is formed inside the casing. The mobile unit has a slot hole(34) with an opening(34a) at the center thereof. The first gauge is projected to the outside by a connection part formed on one side of the mobile unit.

Description

Attrition condition measuring equipment of rolling roll chalk

The present invention relates to a measuring device which is installed at both ends of a rolling roll used in the rolling operation of a steel sheet and can measure abrasion conditions due to corrosion and vibration of the rolling roll choke connected to the rolling apparatus. Corrosion caused by the infiltration of coolant into the coupling part of the liner assembled on the outer surface, and the wear of the choke caused by the choke and the lifting of the liner are measured to compensate for the damaged part, thereby maintaining excellent inspection power. It relates to a measuring device that can measure the degree of compensation.

In general, the rolling process is divided into hot rolling and cold rolling, and hot rolling is a process of manufacturing a plate shape by first rolling a hot slab discharged through a heating furnace, and cold rolling is a hot plate of hot rolled plate shape. Rolling at room temperature to produce a width and thickness required by the consumer.

In the rolling line for rolling the steel sheet as described above, several rolling rolls are provided in the transverse direction in the advancing direction of the steel sheet, and as shown in FIGS. 1 to 2, both ends of the rolling roll 1 are chokes (2). The liner 3 is assembled to the slope between the choke 2 and the rolling device A for the purpose of reducing wear of the choke 2.

The liner 3 is mainly made of carbon steel for mechanical construction, and a through hole 3a into which the bolt 4 is inserted to connect to the choke 2 is formed on the front surface.

The choke (2) configured as described above is the cooling water used in the rolling process flows between the choke (2) and the liner (3) to generate corrosion (B) on the contact surface of the choke (2) and the liner (3) The wear rate is very fast due to the very strong vibrations generated in.

For the same reason as above, the rolling rolls are essentially subjected to a repair process that compensates for the worn portion of the choke 2 on both sides by separating it every six months or a year.

However, the choke has a problem that it is very difficult to measure the worn part of the choke because the choke is very heavy from about 14 to 26 tons and the size is also large from 1400 mm to 1700 mm.

In particular, it is difficult to check the compensation range because there is no measuring means for measuring the compensation degree in a situation where tolerance is required to be 0.1 to 0.2, and the process of checking the compensation degree is long, so that the entire repair period of the choke is long. Occurs.

In other words, the smaller the tolerance, the less space is generated when assembling the rolling device, which prevents shaking due to vibrations. So sophisticated repair work is required, but there is no device to measure the compensation level. Because it depends only on the accuracy, the problem is that the accuracy of the choke is greatly reduced and the choke of the large choke is moved several times.

The present invention has been made in consideration of the above circumstances, and an object of the present invention is to provide an apparatus for measuring abrasion state of a rolled roll choke, which can easily measure abrasion state of a large choke, thereby making a precise compensation repair work. have.

In addition, another object of the present invention is to precisely bind to the choke to prevent errors due to shaking during measurement, and to enable accurate horizontal movement of the gauge to enable accurate measurement by measuring in the state exactly parallel to the choke It is to provide an apparatus for measuring the wear state of the rolling roll choke.

In addition, it is easy to set the zero point of the measuring device and the measured data value can be easily identified through the monitor.The measurement is easy by measuring each gauge by using the handles on both sides. It is an object to provide a measuring device that can be used.

The present invention is the first casing and the second casing is assembled in order to achieve the above object and the casing is formed in the conveying path, and inserted into the conveying path and sliding by the rotation of the first handle and the fixed handle The movement is controlled by the movement unit has a long hole having an opening in the center portion, the first gauge is assembled to protrude outwards by the connecting portion formed on one side of the movement unit, and fixed to both sides of the first casing and the movement unit The distance sensing rod fitted to the long hole of the, and the distance sensing unit to move in close contact wrapped around the outer surface of the distance sensing rod, the distance sensing unit is assembled integrally and exposed through the opening of the long hole and the distance sensing signal through the cable to the monitor A second connecting plate protruding to the outside by a connecting plate for transmitting and a moving block assembled at a lower portion of the connecting plate It is to provide an apparatus for measuring the wear state of the rolling roll choke comprising a gauge and a magnet assembled to one side of the second casing.

In addition, in the above, the rear surface of the first casing finely controls the movement of the second gauge to precisely measure the movement distance signal generated from the distance sensing unit, and transmits this value to the monitor through a cable, so that the sensor changes according to frequent measurement distances. It further includes a fine control means that can prevent the load.

In addition, between the connecting portion and the first gauge, and between the moving block and the second gauge further includes a linear bearing for enabling the horizontal movement of the gauge to accurately measure the wear state.

In addition, the micro-adjusting means is a pair of fixed parts assembled on the rear of the first casing, the shaft is fitted to the fixed portion and the second handle and the screw thread formed on the surface on one side, the screw portion and the screw coupling of the shaft And the forward / backward by the rotation of the shaft and the extension plate is assembled to the moving block in the lower portion comprising a connecting block formed integrally with the rolling roll choke wear state measuring device.

As described above, the wear state measuring apparatus of the rolled roll chalk according to the present invention has the following effects.

First, it can be firmly attached to the surface of the choke using strong magnetic force, and it is effective to measure the correct compensation value by using the left / right adjustment handle.

Second, the second gauge can be detached from the second handle so that the zero point can be adjusted by simple driving, and the corrected state can be fixed using the fixed handle to maintain accurate data even in a harsh environment such as vibration. There is an effect that can be obtained.

Third, the gauge connected to each unit can be moved to the right angle to the choke by accurately moving forward / backward by the linear bearings, thereby measuring the accurate compensation value.

Fourth, it is easy to attach and detach, and the measured data value is output through the monitor, so that the operator can easily check the measurement state.

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

Figure 3 is an external perspective view of the wear state measuring device (hereinafter referred to as "measurement device") of the rolling roll choke according to the present invention.

As shown, the measuring device 100 of the present invention includes a first casing 11 in which the respective adjustment handles 21 and 22 are assembled, and a second casing 12 in which a conveying path 13 is formed therein. It is assembled with a long groove (14) formed in the lower portion, is assembled to the transfer path 13, the sliding unit 30 and the first gauge 31 is formed on one side and the movement unit 30, the interior of the movement unit 30 It consists of a second gauge (41) that is movably assembled to and fine control means (50) for finely adjusting the second gauge (41).

The casing 10 is composed of the first casing 11 and the second casing 12 are assembled, the distance sensing rod having a fine adjustment means 50 on the outside of the first casing 11 and a surface inside the casing 15 is formed and the magnet 60 is formed in the transfer path 13 and the outer surface inside the second casing (12).

The movement unit 30 is one side is inserted into the transport path 13, the sliding movement and the first handle 21 and the fixed handle 23 exposed to the outside is connected to the long bolt 24 to control the movement distance The first gauge 31 is connected to the linear bearing 33 in a state in which the lower portion of the casing 10 is exposed by the connecting portion 32 at one lower side.

In addition, a long hole 34 having an opening 34a formed at one side in the longitudinal direction is formed at a central portion of the moving unit 30, and a distance sensing unit 35 having an encoder function is formed in the long hole 34. The distance detecting rod 15 is assembled to be movable in a sliding form.

On the other hand, the lower portion of the distance sensing rod 15 is formed with a connecting plate 37 is connected to the output monitor 70 and the cable 36 through the opening 34a formed in the long hole 34 of the mobile unit 30 Exposed to the outside.

On the other hand, one side of the connecting plate 37 is assembled with the moving block 38, the second gauge 41 is formed on the one side of the moving block 38 in a state capable of horizontal movement by the linear bearing 42 and the other side It is assembled with the extension plate 52 formed in the connecting block 51 of the fine control means (50).

The extension plate 52 and the moving block 38 of the connection block 51 is assembled in a detachable form by the bolt (39).

The microadjusting means 50 is assembled to the outer circumferential surface of the first casing 11 by a pair of fixing parts 53, and the shaft 54 having the threaded portions 54a on the fixing parts 53 is assembled to one side. Rotation is easily assembled by the second handle 22 of the.

In addition, the connection part 51 is screwed to the threaded portion 54a to be assembled to move forward / backward by the rotation of the second handle 22, and an extension plate 52 connected to the moving block 38 is formed at the bottom thereof. do.

Hereinafter, an operation process of the measuring apparatus according to the present invention will be described in detail with reference to FIGS. 6 to 7.

-Zeroing-

First, the zero point is set before using the measuring device so that accurate measurement can be made.

This facilitates the movement of the second gauge 41 by separating the bolt 39 connected between the second gauge 41 and the fine adjustment means 50, and then moves to the first gauge 31 located at the other edge. By approaching the measuring pins 31a and 41a of each dial gauge 31 and 41 and setting zero by using a control panel (not shown) of the monitor 70 with the scale of each dial gauge being " 0 ". Adjust zero.

After the zero adjustment is completed as described above, the second gauge 41 is retracted to form a choke to open the respective gauges so that the choke can be fitted. do.)

-Wear distance measurement-

In the state where the respective gauges 31 and 41 are wider than the length of the choke, the magnet 60 of the measuring device 100 is attached to the surface of the choke 2 to fix the measuring device to the choke. Rotate the handle 21 so that the first gauge 31 is close to one side of the choke 2 (the groove where the liner has been removed) and finely adjusted so that the adjusting needle of the first gauge 31 is "0". After that, the fixing handle 23 formed on the opposite side of the measuring device is rotated to fix the moving unit 30 therein.

On the other hand, the second gauge 41 is prepared in a state in which the movable block 38 formed at the rear and the extension plate 52 of the fine control means 50 are assembled with the bolt 39 to be integrally formed.

In the state prepared as described above, the second gauge 22 connected to the connecting block 51 by rotating the second handle 22 moves to approach the liner groove of the choke 2 and finely adjusts the second gauge ( Adjust so that the fine scale in 41) becomes "0".

At this time, the output monitor 70 is output to the monitor 70 in real time by the distance detecting rod 15 and the distance detecting unit 35 surrounding the distance that the second gauge 41 is formed, the magnetic scale is formed. The monitor output value at the point where the needle of the two gauges 41 becomes "0" is the measured value.

Therefore, when each of the gauges 31 and 41 becomes "0", the distance value between the first gauge 31 and the second gauge 41 is output to the monitor, thereby accurately measuring the distance of the compensation thickness.

1 is a perspective view of a conventional rolling roller

2 is a cross-sectional view taken along line A-A of FIG.

Figure 3 is an external perspective view of the wear state measuring apparatus of the rolling roll chalk according to the present invention

Figure 4 is a partially exploded perspective view showing the inside of the second casing of the wear state measurement apparatus of the rolling roll choke according to the present invention is removed

Figure 5 is a partial cross-sectional perspective view for explaining the movement of the second gauge of the wear state measurement apparatus of the rolling roll choke according to the present invention

6 is a cross-sectional view taken along the line B-B of FIG.

7 is a schematic view for explaining the driving relationship of the wear state measuring apparatus of the rolling roll choke according to the present invention

* Explanation of symbols on the main parts of the drawings *

100 ... measuring device 10 ... casing

11 ... first casing 12 ... second casing

13 ... transport 14 ...

15 ... Distance sensing rod 21 ... First adjustment handle

22 ... 2nd Adjustment Handle 23 ... Fixed Handle

24 ... long bolt 30 ... moving unit

31 ... First gauge 31a ... Measuring pin

32 ... connection 33, 42 ... straight bearing

34 ... long hole 34a ... opening

35 ... distance sensor 36 ... cable

37 ... connecting plate 38 ... moving block

39 ... Bolt 41 ... Second gauge

41a ... measuring pin 50 ... fine adjustment means

51 ... connecting block 52 ... extension plate

53 ... adjuster 54 ... shaft

54a ... thread 60 ... magnet

70 ... Monitor

Claims (4)

A casing 10 in which the first casing 11 and the second casing 12 are assembled and a conveying path 13 is formed therein; The movement is inserted into the conveying path 13, the sliding movement by the rotation of the first handle 21, the movement is controlled by the fixed handle 23, the long hole 34 having an opening 34a in the center portion is formed Unit 30; A first gauge 31 assembled to protrude outward by a connection part 32 formed at one side of the moving unit 30; A distance sensing rod (15) fixed to both sides of the first casing (11) and fitted into the long hole (34) of the moving unit (30) and having a magnetic scale formed on its outer circumferential surface; A distance sensing unit 35 moving around the outer surface of the distance sensing rod 15 and being in close contact with the encoder; A connecting plate 37 integrated with the distance detecting unit 35 and exposed through the opening 34a of the long hole 34 and transmitting the distance detecting signal to the monitor 70 through the cable 36; A second gauge (41) assembled to protrude outward by a moving block (38) assembled at a lower portion of the connecting plate (37); A magnet 60 is assembled to one side of the second casing (12); wear state measuring apparatus of the rolling roll choke characterized in that it comprises a. The method of claim 1, By finely controlling the movement of the second gauge 41 on the rear surface of the first casing 11, the movement distance signal generated by the distance sensing unit 35 is precisely measured, and this value is monitored through the cable 36. The fine adjustment means (50) that can prevent the load of the sensor according to the change of the frequent measuring distance by transmitting to; The wear state measuring apparatus of the rolling roll choke further comprising. The method of claim 1, Further comprising a linear bearing 33, 42 between the connecting portion 32 and the first gauge 31 and between the moving block 38 and the second gauge 41 to enable horizontal movement of the respective gauges. Apparatus for measuring abrasion condition of rolling roll chocks. 3. The method of claim 2, The fine control means (50) is a pair of fixing parts (53) assembled on the rear of the first casing (11); A shaft 54 fitted to the fixing part 53 and having a second handle 22 on one side and a threaded portion 54a on a surface thereof; The connection block 51 which is screwed with the threaded portion (54a) of the shaft 54 is forward / backward by the rotation of the shaft 54, the extension plate 52 is assembled integrally with the moving block 38 in the lower portion (51) Wear state measuring device of the rolling roll choke characterized in that it comprises a.

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