KR20010027510A - Instrument for measuring gap of roll in continuous casting - Google Patents

Abstract

PURPOSE: A measuring apparatus for the roll gap of a continuous casting equipment is provided to easily measure the arrangement of rolls. CONSTITUTION: A jig as a roll gap measuring apparatus consists of a guide rail member (10) inserted into a mold with a measurer; a copper plate contacting unit contacting with a side copper plate (100) of a mold while attached to both sides of the guide rail member; a jig adjusting unit vertically adjusting the guide rail member in the upper portion of the guide rail member; and a sticking unit sticking the jig to the side copper plate in the rear face of the guide rail member. Then, the jig inserts the guide rail member between the side copper plates to settle a pivot (16) of a fixing plate (14) on the upper portion of a mold. In this state, an adjusting handle (18) tightens or releases the pivot to adjust the guide rail member in parallel with the side copper plate. After that, a sticking plate (12) is stuck to the side copper plate and a rotating shaft (22) is rotated to stick a cam (24) to the side copper plate. Thus, the guide rail member is fixed by the sticking plate and the cam to accurately measure the arrangement of rolls (120,122).

Description

Instrument for measuring gap of roll casting in continuous casting facilities

The present invention relates to a measuring mechanism, and more particularly, to a roll gap measuring mechanism of a continuous casting facility, which enables to easily perform accurate alignment measurement between the rolls of the continuous casting facility.

In general, continuous casting equipment is a facility that continuously produces slabs of a certain size by receiving molten steel that is produced in a steel mill and transferred to ladles and then supplied to a mold.

The equipment is composed of a ladle containing refined molten steel in the steelmaking process, a ladle turret supporting the ladle, and a tundish and a tundish which temporarily store molten steel from the ladle and distribute the molten steel to each strand. Water-cooled mold that initially solidifies injected molten steel into a certain shape, secondary cooling table consisting of rolls and spray nozzles that can bend or straighten the steel while removing heat from the non-solidified cast, and slab cutting device and cast Consists of a feed roller table, a cooling yard and a slab surface grinding device.

In the mold, the vertical movement is applied in conjunction with the rotation of the pinch roll, and the slab from the mold is solidified and coupled to the head of the dummy bar, and is drawn by the driving of the pinch roll and continuously cast.

Here, the secondary cooling stand is arranged in a cast supporting roll densely. The roll performs the function of allowing the cast piece to move straight in the casting direction and to prevent the cast part from bulging due to the increase in the positive static pressure as the height is lowered from the mold.

In other words, the cast cast by the continuous casting machine passes through the foot roll and the upper band roll of the mold, the surface solidification layer becomes thinner and the internal stress is increased due to the iron static pressure. As the tissue breaks down and causes surface cracks inside the cast, managing the roll arrangement directly under the mold of the instrument is very important.

Therefore, the arrangement of the rolls was frequently checked to measure the arrangement between the rolls. 4 is a state diagram illustrating a roll gap measurement state according to the prior art. As shown in the related art, the gap between the inner side copper plate 100 of the mold is increased, and then the roll gap measurement jig 102 is inserted into the mold. ) To fix the copper plate contacts 104 of the roll gap measuring jig 102 and then slide the measurer 110 along the guide rails of the jig 102 so that the bottom of the copper plate 100 and the foot roll 120 and the foot roll 120 ) And the banding upper roll 122 was measured.

However, the mold of the player for producing bromine and billet in addition to the general player as described above has a problem that the copper plate contact of the roll gap measuring jig cannot be fixed because the copper plate is integrated in structure, and thus the roll gap measuring jig cannot be used. have.

Therefore, as shown in Figure 5, one worker is in contact with the step gauge 130 to the copper plate and another worker in the state that the other step is in close contact with the step gauge 130 with the lever 132 (gauge not shown) The gap between the rolls 120 and 122 and the step gauge 130 was measured.

However, the above-described conventional structure requires a large number of people to measure, thereby increasing the amount of work and reducing work productivity. As a result, measurement accuracy is reduced due to measurement error in a narrow space.

Accordingly, an object of the present invention is to provide a roll gap measuring mechanism of a continuous casting facility, which is designed to solve the problems as described above, so that the arrangement between rolls can be quickly and easily measured.

1 is a schematic perspective view showing the configuration of a jig for roll gap measurement according to the present invention;

2 is a state diagram showing a state of use of the jig according to the invention,

3 is a view showing a measurer inserted into a jig to measure a roll gap;

4 is a measurement state diagram showing a roll gap measurement state according to the prior art,

5 is a measurement state diagram showing a roll gap measurement state according to the prior art.

Explanation of symbols on the main parts of the drawings

10: guide rail member 12: contact plate

14: fixed plate 16: pivot

18: adjusting handle 20: support member

22: rotating shaft 24: cam

26: rotating handle

The jig of the present invention for achieving the above object, by installing the cam rotatably on one side of the guide rail member that is the jig main body, so that the overall width of the jig can be changed according to the rotation of the cam, It is characterized in that both sides of the jig can be fixed in close contact with the inside of the side copper plate.

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

1 is a schematic perspective view showing a configuration of a roll gap jig according to the present invention, Figure 3 is a view showing a measurer, Figure 3 is a view showing a measurer for measuring the roll gap inserted into the jig. .

According to the above drawings, the jig according to the present invention is inserted into the mold and the guide rail member 10 which is in close contact with the measurer sliding on the front, and attached to both sides of the guide rail member 10 and protrudes to the front A copper plate contact portion in contact with the inside of the side copper plate 100 of the mold, the tooth structure section for adjusting the vertical state of the guide rail member 10 is installed on the guide rail member 10, and on the back of the guide rail member 10 Is installed is made of a close contact portion for contacting the jig to the side copper plate (100).

According to the present invention, the guide rail member 10 is in the form of an I-beam so that one side of the inner rib is precisely surfaced so that the measurer 110 is guided accurately, and the other side is provided with the close contact portion.

The copper plate contact part is attached to both side surfaces of the guide rail member 10 and is formed of a contact plate 12 protruding a predetermined length toward the front of the guide rail member 10.

The contact plate 12 is installed in two upper and lower portions of the guide rail member 10.

And the tooth structure section is for adjusting the vertical state of the guide rail member 10, is installed at a right angle to the top of the guide rail member 10 and a fixed plate 14 extending to the upper side of the side copper plate 100 of the mold, and Pivot 16 screwed to the end of the fixed plate 14 is seated on the upper portion of the copper plate 100 of the mold, and is installed on the pivot 16 protruding above the fixed plate 14 to adjust the pivot 16 to rotate Handle 18.

Therefore, it is possible to adjust the vertical state of the guide rail member 10 by adjusting the height of the pivot 16 seated on both sides of the mold.

On the other hand, the close contact portion support member 20 is installed on the upper and lower rear end of the guide rail member 10, the rotary shaft 22 is supported on both ends of the support member 20, and the eccentric to the rotary shaft 22 The cam 24 is installed to be rotated together with the rotary shaft 22 and the rotary handle 26 is installed at the tip of the rotary shaft 22 protruding above the fixing plate 14 to rotate the rotary shaft 22.

Wherein the coupling structure of the rotary shaft 22 and the support member 20 has a structure that is screwed to each of the coupling holes of the rotary shaft 22 and the support member 20 as shown in FIG.

Therefore, the rotating shaft 22 can be smoothly rotated without slipping with respect to the support member 20.

Hereinafter will be described the operation and use process of the jig according to the present invention.

As shown in FIG. 2, when the guide rail member 10 is inserted between the side copper plate 100 of the mold, the pivot 16 of the fixing plate 14 installed on the upper part of the guide rail member 10 is in the upper part of the mold. It will settle on.

In this state, the operator adjusts the height of the pivot 16 installed on both sides of the fixed plate 14 to adjust the vertical state of the guide rail member 10 with respect to the side copper plate 100.

When the adjusting handle 18 installed on the pivot 16 is turned left and right, the pivot 16, which is screwed with respect to the fixing plate 14, is locked and released to the fixing plate 14, thereby adjusting the height thereof, and thus the guide rail member. 10 will be able to fit side by side with the copper plate (100).

After adjusting the vertical state of the guide rail member 10, the contact plate 12 attached to the side of the guide rail member 10 is in close contact with the inner surface of the side copper plate (100).

As described above, in the state in which the close contact plate 12 is in close contact with the side copper plate 100, the operator rotates the rotating shaft 22 provided with the cam 24 so that the cam 24 is in close contact with the opposite side copper plate 100.

That is, when the rotating handle 26 provided in the rotating shaft 22 is rotated, the rotating shaft 22 rotates, and the cam 24 provided in this rotating shaft 22 rotates, and the side surface of the cam 24 turns to the side. The copper plate 100 is in close contact with the inner surface.

Therefore, the guide rail member 10 is attached to the side and the contact plate 12 protruding toward the front and the cam 24 installed on the rotating shaft 22 is in close contact with both sides of the side copper plate 100 of the mold, respectively, the guide rail member 10 ) Will be fixed.

As described above, when the guide rail member 10 is fixed, the measurement of the guide 110 of the guide rail member 10 on the front surface of the slide 110 to measure the arrangement of the roll (120, 122). The measured value can be checked through the gauge 112 on the upper part of the measurer 110.

As described above, according to the roll gap measuring mechanism of the continuous casting machine according to the present invention, it is applicable to the roll arrangement measurement operation of all the instruments, the arrangement measurement operation can be performed easily and accurately, and the productivity improvement according to the reduction of the workload It works.

In addition, the roll arrangement by accurate measurement is possible to achieve the internal quality of the cast.

Claims (3)

A guide rail member which is introduced into the mold and is in close contact with the operator by sliding on the front surface, a contact plate which is attached to both side surfaces of the guide rail member and protrudes to the front, and is in contact with the inside of the side copper plate of the mold, and installed on the guide rail member Roll gap measuring mechanism of a continuous casting facility comprising a tooth structure section for adjusting the vertical state of the guide rail member, and a close portion installed on the back of the guide rail member to close the jig to the side copper plate. According to claim 1, wherein the tooth structure section is installed at right angles to the upper portion of the guide rail member, and a fixed plate extending to the upper side of the side copper plate of the mold, a pivot screwed to the upper end of the fixed plate and seated on the upper copper plate of the mold, the upper fixing plate Roll gap measuring mechanism of the continuous casting equipment, characterized in that the handle is installed on the upper portion of the pivot protruding into an adjustment handle for rotating the pivot. According to claim 1 or 2, wherein the close contact portion is a support member which is installed on the upper end and the lower end of the guide rail member, the rotary shaft which is supported at both ends by the support member, and is installed eccentrically to the rotary shaft is rotated together with the rotary shaft Roll gap measuring mechanism of the continuous casting facility, characterized in that the cam and a rotation handle for rotating the rotating shaft is installed on the front end of the rotating shaft protruding from the fixing plate.