KR20090049369A - Apparatus for aligning rolls - Google Patents

Abstract

Disclosed is a roll alignment apparatus having a reference unit capable of correcting horizontality by an adjustment means in alignment of one or more rolls.

The roll aligning device includes a sorting stand on which one or more sorting rolls to be aligned are disposed inwardly, and is vertically seated on the top of the sorting stand for aligning the one or more rolls and across the one or more rolls. It includes a reference unit configured to enable the horizontal correction of the extension bar is disposed.

According to such a roll aligning device, the alignment error of one or more rolls can be reduced by correcting the horizontality of the reference unit through the adjusting means and then performing one or more roll alignment operations.

Roll, alignment device, reference unit, adjusting means

Description

Roll alignment device {apparatus for aligning rolls}

The present invention relates to a roll aligning device, and more particularly, to a roll aligning device used for the alignment of one or more rolls provided in the segment installation of the continuous casting equipment.

In general, in the continuous casting process, in the initial stage of drawing the cast to the lower side of the molten steel supplied mold, all the equipment of the continuous casting process performs casting with a gap that determines the thickness of the cast like mold. . In the post-process of the mold, a plurality of segment facilities having one or more casting rolls are continuously arranged in the cast steel casting direction.

That is, the slab head part of the hot state forcibly drawn from the mold consisting of long and short sides passes through the lower end of the first segment facility. Then, the reduction of the first segment equipment is reduced by the reduction operation of the cylinder for reducing the gap attached to the lower end by a preset control value. Through this, one or more casting rolls mounted on the first segment equipment presses the upper and lower surfaces of the cast steel, thereby gradually reducing the thickness of the cast steel. In this way, the slabs passing through the plurality of segments become slabs having a constant thickness.

However, due to the long use of the segment equipment, the casting rolls of the segment equipment are not positioned in position, thereby requiring the casting roll alignment of the segment equipment.

Hereinafter, the casting roll alignment operation of the segment facility will be described with reference to FIG. 1.

Referring to FIG. 1, the operator first separates the upper portion 30 and the lower portion 20 of the segment installation. The upper part 30 and the lower part 20 of the separated segment fixture are seated in the upper alignment stand 50 and the lower alignment stand 60, respectively. At this time, one or more upper casting rolls 31 and one or more lower casting rolls 21 installed on the upper portion 30 and the lower portion 20 of the segment facility are disposed to face upwards. The linear template 40 is placed on the upper and lower alignment stands 50 and 60 so as to be disposed above the one or more upper and lower casting rolls 31 and 21. Thereafter, the one or more upper and lower casting rolls 31 and 21 based on the linear template 40 are positioned according to separately determined values X1 'to X10'. When the alignment is completed in this way, the upper portion 30 and the lower portion 20 of the segment installation are assembled and assembled. At least one of the upper and lower casting rolls 31 and 21 of the assembled segment equipment is adjusted to an appropriate value by a gap adjusting device (not shown) composed of four parts: front, rear, left, and right, thereby completing the casting roll alignment. do.

By the way, when the template 40 seated for the alignment of the upper and lower casting rolls (31, 21) for a long time, the level is not maintained by its deflection. Thereby, the error of the alignment value of the upper and lower casting rolls 21 and 31 arises. When the continuous casting process is performed by the upper and lower casting rolls 21 and 31 having an error of alignment value, casting of slabs or both ends thicker than twice the deflection of the template plate 40 is not a slab form of normal thickness. Slabs of deformed shape are produced, which become thinner and thinner on rolls.

In addition, local cracking during the continuous casting process causes an internal crack, which is a major defect of the slab.

The present invention has been proposed to solve the above problems, and an object of the present invention is to provide a roll alignment device having a reference unit capable of correcting horizontality by an adjusting means during one or more roll alignment operations.

The roll alignment device according to an embodiment of the present invention is an alignment stand in which one or more alignment target rolls to be aligned is disposed inside, and seated on an upper portion of the alignment stand for alignment of the one or more rolls, And a reference unit configured to enable correction of the horizontality of the extension bar arranged in the longitudinal direction to cross.

The alignment stand may include one or more support beams disposed adjacent to the one or more rolls and a connection beam installed parallel to the one or more rolls and connecting ends of the support beams.

The reference unit is provided at both ends of the extension bar is further provided with a fixed block seated on the connecting beam provided in the alignment stand and adjustment means for finely adjusting the horizontality of the extension bar is installed on the side of the extension bar can do.

The extension bar may further include a flat bar on the bottom surface of which is processed with an elaborate polished surface for measuring horizontal accuracy.

The fixing block may further include a magnetic block to be detachable from the connecting beam.

The extension bar may include a first extension bar fixedly coupled to a lower end of the fixed block, and a second extension bar fixedly coupled to the fixed block to be spaced apart from the first extension bar.

The adjusting means may include a holder installed on the side of the first and second extension bars and an adjuster installed on the holder and configured to adjust the horizontality of the first extension bar.

The holder has a bearing groove to which one end of the adjuster is coupled and has an upper holder installed on the second extension bar, and a lower holder installed on the first extension bar and having a screw hole to which the other end of the adjuster is assembled. Can be.

The adjuster may include a circular lever having a scale, a rotary shaft extending upward from the circular lever and coupled to the bearing groove, and a screw shaft extending downward from the circular lever and assembled to the screw hole. .

The present invention has the effect of reducing the alignment error of one or more rolls by correcting the horizontality of the reference unit through the adjustment means and then performing one or more roll alignment operations.

Hereinafter, a roll aligning apparatus according to an embodiment of the present invention with reference to the drawings.

It is a block diagram which shows the roll sorting apparatus which concerns on this invention.

Referring to FIG. 2, the roll alignment device 100 includes an alignment stand 120 and a reference unit 140.

The alignment stand 120 has a support beam 122 and a connection beam 124.

The support beam 122 is installed adjacent to the one or more rolls 90 so that one or more rolls 90 that need alignment are disposed inward. In addition, the support beam 122 is installed in plurality.

The connection beam 124 is installed at the end of the support beam 122 in parallel with one or more rolls 90 to connect the support beam 122.

The reference unit 140 is seated on the upper portion of the connecting beam 124 for the alignment of one or more rolls (90). The reference unit 140 is disposed to cross one or more rolls 90. In addition, the reference unit 140 is capable of correcting the horizontal degree, it is used as a reference of the alignment when the alignment of one or more rolls 90.

One or more of the rolls 90 shown in the figures may be a casting roll installed in the segment installation.

Hereinafter, the reference unit 140 will be described in more detail.

3 is a perspective view showing a reference unit according to the present invention, Figure 4 is an exploded perspective view showing a reference unit according to the present invention.

3 and 4, the reference unit 140 includes an extension bar 160, a fixed block 180, and an adjusting unit 200.

Extension bar 160 is disposed in the longitudinal direction across the one or more rolls 90, the extension bar 160 is the first extension bar 162, the second extension bar 164, the flat bar 166 and fixed Bar 168.

The first extension bar 162 is fixed to the fixed block 180 and installed. In addition, the first extension bar 162 includes a plurality of first fastening holes 166a for fastening the flat bar 166 and the fixing bar 168.

The second extension bar 164 is fixedly installed on the fixed block 180 to be spaced apart from the first extension bar 162.

The flat bar 166 is coupled to the bottom of the first extension bar 162, and the bottom of the flat bar 166 is processed into a fine polished surface for measuring the horizontality. In addition, the flat bar 166 is provided with a plurality of fastening grooves 166a for fastening with the first extension bar 162.

In addition, the fixing bar 168 is coupled to the upper surface of the first extension bar 162 and has a plurality of second fastening holes 168a for fastening with the first extension bar 162.

That is, the first extension bar 162, the flat bar 166 and the fixing bar 168 are screwed together by a plurality of fixing bolts (169). The fixing bolt 169 passes through the second fastening hole 168a and the first fastening hole 162a and is fastened to the fastening groove 166a, thereby causing the first extension bar 162, the flat bar 166, and the fastening bar. 168 is combined.

In addition, the extension bar 160 may be made of an aluminum material so that the operator can easily transport the reference unit 140.

The fixed block 180 is installed at both ends of the extension bar 160. In addition, the fixed block 180 may be attached to and detached from the bottom surface on which the fixed block 180 is provided with the magnetic block 182 at the lower end thereof. That is, when the reference unit 140 is to be fixed, the magnetic block 182 is magnetically coupled to the bottom surface, and when the reference unit 140 is to be separated from the bottom surface, the magnetic block 182 is lost. The reference unit 140 can be easily separated from the bottom surface. In other words, when the fixing block 180 is seated on the upper surface of the connecting beam 124 (see FIG. 2), the operator operates the magnetic block 182 of the fixing block 180 to attach the fixing block 180 to the connecting beam 124. Can be magnetized. Through this, the reference unit 140 is fixed in close contact with the connecting beam 124.

In addition, the fixing block 180 may be provided with a handle 184 so that the operator can easily move the reference unit 140.

The adjusting means 200 is installed on the side of the extension bar 160 to finely adjust the horizontality of the extension bar 160.

5 is an exploded perspective view showing the adjusting means according to the present invention.

Referring to FIG. 5, the adjusting means 200 includes a holder 220 and an adjuster 240.

Holder 220 has an upper holder 222 and a lower holder 224, the upper holder 222 is screwed to the side of the second extension bar (164). In addition, the upper holder 222 has a bearing groove 222a for bearing engagement with one end of the adjuster 240.

The lower holder 224 is screwed to the side of the first extension bar 162, and has a screw hole 224a through which the other end of the adjuster 240 can be screwed through.

The adjuster 240 is disposed between the upper holder 222 and the lower holder 224. Referring to FIG. 3, the adjuster 240 is disposed between the spaced apart spaces of the first extension bar 162 and the second extension bar 164.

The adjuster 240 includes a circular lever 242, a rotating shaft 244 and a screw shaft 246.

Circular lever 242 has a scale is formed, the operator can rotate the circular lever 242 as desired through the scale.

The rotary shaft 244 extends upward from the circular lever 242, and the end of the rotary shaft 244 is coupled to the bearing groove 222a. When the operator rotates the circular lever 242, the rotating shaft 244 is supported by the bearing groove 222a of the upper holder 222 is rotated.

The screw shaft 246 extends downward from the circular lever 244. The screw shaft 246 is coupled to the screw hole 224a of the lower holder 224, and when the operator rotates the circular lever 242, the screw shaft 246 rotates to elevate the lower holder 224. When the lower holder 224 is lifted, the first extension bar 162 on which the lower holder 224 is screwed is lifted. Through this, the operator can adjust the horizontality of the extension bar 160.

Although the drawings illustrate a case in which the holder 220 and the adjuster 240 are one, the present invention is not limited thereto, and the holder 220 and the adjuster 240 may be two or more according to the length of the extension bar 160.

Hereinafter, the operation of the roll alignment device according to the present invention will be described.

First, in order to measure the horizontal degree of the reference unit 140, the operator rests the reference unit 140 on a precisely processed surface plate. When the reference unit 140 is seated on the surface plate, the operator operates the magnetic block 182 installed on the fixing block 180 to completely adhere the fixing block 180 to the surface plate. Thereafter, the operator installs a dial gauge on the front surface to measure the horizontal degree of the reference unit 140, and measures a value between the bottom surface and the flat surface of the flat bar 166 of the reference unit 140.

The operator corrects the horizontality of the reference unit 140, that is, the extension bar 160, by using the adjusting means 200 of the reference unit 140 according to the measured value. That is, the operator lifts the lower holder 224 by rotating the circular lever 242 of the adjuster 240. When the lower holder 224 is elevated, the first extension bar 162 provided with the lower holder 224 is elevated along the lower holder 224. Through this, the horizontal degree of the reference unit 140 can be corrected.

When the horizontal level is corrected, the operator separates the reference unit 140 from the surface plate, and installs the reference unit 140 on the alignment stand 120 of the roll alignment device 100. At this time, the fixed block 180 is seated on the connecting beam 124 of the alignment stand 120. Thereafter, the operator operates the magnetic block 182 of the fixing block 180 to fix the fixing block 180 in close contact with the connecting beam 124. Through this, the alignment of the rolls may be performed based on the reference unit 140 whose horizontality is corrected.

As described above, the alignment error of the one or more rolls 90 can be reduced by performing the alignment operation of the one or more rolls 90 after correcting the horizontal level of the reference unit 140 through the adjusting means 200. .

In addition, since the extension bar 160 of the reference unit 140 is made of aluminum, an operator can easily carry the reference unit 140, thereby increasing process efficiency.

1 is a configuration diagram showing a roll alignment device according to the prior art.

It is a block diagram which shows the roll sorting apparatus which concerns on this invention.

3 is a perspective view showing a reference unit according to the present invention.

4 is an exploded perspective view showing a reference unit according to the present invention.

5 is an exploded perspective view showing the adjusting means according to the present invention.

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

100: roll sorting device

120: alignment stand

140: reference unit

160: extension bar

180: fixed block

200: adjusting means

220: holder

240: adjuster

Claims (9)

An alignment stand 120 in which one or more rolls 90 that need alignment are disposed inside; And It is possible to correct the horizontality of the extension bar 160 which is seated on the upper portion of the alignment stand 120 for the alignment of the one or more rolls 90 and disposed in the longitudinal direction to cross the one or more rolls 90. A reference unit 140 configured to be configured; Roll sorting device comprising a. The method of claim 1, wherein the alignment stand 120 One or more support beams 122 disposed adjacent the one or more rolls 90; And A connection beam 124 installed parallel to the one or more rolls 90 and connecting the ends of the support beams 122; Roll alignment apparatus comprising a. The method of claim 1, wherein the reference unit 140 is A fixed block 180 installed at both ends of the extension bar 160 and seated on the connecting beam 124 provided in the alignment stand 120; And Adjusting means (200) installed on the side of the extension bar (160) to finely adjust the horizontality of the extension bar (160); Roll alignment apparatus further comprises. The method of claim 1, wherein the extension bar 160 is And a flat bar (166) on the bottom, which is machined with an elaborate polished surface for level measurement. The method of claim 3, wherein the fixed block 180 is Roll alignment device further comprises a magnetic block (182) to be detachable to the connecting beam (124). The method of claim 3, wherein the extension bar 160 is A first extension bar 162 fixedly coupled to a lower end of the fixing block 180; A second extension bar 164 fixedly coupled to the fixed block to be spaced apart from the first extension bar 162; Roll alignment apparatus comprising a. The method of claim 6, wherein the adjusting means 200 Holders 220 installed on side surfaces of the first and second extension bars 162 and 164; And An adjuster 240 installed in the holder 220 and configured to adjust the horizontal degree of the first extension bar 162; Roll alignment apparatus comprising a. The method of claim 7, wherein the holder 220 is An upper holder 222 having a bearing groove 222a to which one end of the adjuster 240 is coupled and installed in the second extension bar 164; Roll alignment device characterized in that it comprises a lower holder (224) which is provided with a screw hole (224a) that the other end of the adjuster 240 is assembled to the first extension bar (162). The method of claim 8, wherein the adjuster 240 is A circular lever 242 having a scale; A rotating shaft 244 extending upward from the circular lever 242 and coupled to the bearing groove 222a; And A screw shaft 246 extending downward from the circular lever 242 and assembled to the screw hole 224a; Roll sorting apparatus comprising a.

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