KR20140082513A - Segment for continuous casting - Google Patents

Abstract

Provided is a segment for continuous casting. The segment for continuous casting comprises a segment upper frame and a segment lower frame having upper/lower rolls for rolling a slab; and a clamping cylinder provided for the lower frame. According to the present invention, an optimal cylinder can be constructed as equipment interference is not occurred without being bound by an installation distance between cylinders even when the size of the clamping cylinder for increasing a slab roll force is expanded by improving an arrangement structure of the clamping cylinder and as the installation location of the clamping cylinder is easily adjusted. The quality can be improved through the slab rolling as the rolling force of a segment input side and a segment output side is stably maintained.

Description

{Segment for continuous casting}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a continuous casting segment, and more particularly to a clamping cylinder for improving the arrangement structure of a clamping cylinder in a bow segment disposed in a curved line of a continuous casting strand, The installation position of the clamping cylinder can be easily adjusted, the cylinder can be structured optimally, and the roll pressing force at the entrance and exit of the segment can be stably And which can ultimately improve the quality through the reduction of the billet.

In general, the continuous casting process is a process of continuously solidifying liquid molten steel into a solid phase of a certain shape.

FIG. 1 shows such a continuous casting facility 100.

For example, as shown in the drawing, molten steel is injected into the tundish 120 from the ladle 110 containing refined molten steel, and molten steel temporarily stored in the tundish 120 is injected into the mold 130 Bloom, slab, etc., as it coagulates through the primary cooling in the mold 130, the secondary cooling in the lower strand line and the solidification of the billets S, such as billets, blooms, Are produced continuously. Process.

2 and 3, the molten steel discharged through the mold 130 is subjected to primary cooling in the mold 130, and the surface of the molten steel is cooled to a certain degree, And the upper and lower rolls 210 and 220 provided in the segment 200 of the rollers 210 and 220.

Cooling water is injected for rapid solidification of the molten steel and continuously changed in the shape of the slab S to be produced as shown in Fig.

On the other hand, the rolls 210 and 220 provided in the segment 200 are generally composed of 5 to 10 pieces, and molten steel is cast and rolled therebetween to produce a slab.

The segment 200 is basically provided with four clamping cylinders 230 on the upper and lower frames 212 and 222 on which the upper and lower rolls 210 and 220 are mounted, And is connected to the tie rod 240 while being provided in the side boxes 214,

Further, a center cylinder 250 used for raising and lowering a driving roll for feeding the cast steel is disposed at the center of the segment 200. [

At this time, the rolls are provided on the individual girders between the frames, although they are not separately shown in the drawings.

3, the tie rod 240, to which the piston 232 of the clamping cylinder 230 and the upper end are connected, passes through the upper side box 214 and the lower side box 224, The fixing nut 242 is fastened.

3 is an enlarged view of the side box.

At this time, the lower frame 222 is fixed to a facility frame provided in accordance with a strand line (not shown).

Since the lower end of the tie rod 240 is fixed to the lower side box 224 and the upper end of the tie rod 240 is fixed to the piston 232 of the clamping cylinder 230, when hydraulic oil flows into the space below the piston of the clamping cylinder The entire upper frame 212 moves in the downward direction, that is, in the direction in which the roll gap, which is the distance between the rolls, is reduced, and conversely, when the hydraulic oil flows into the space in the upper part of the piston, the roll gap is expanded.

Therefore, the force for pressing down the slab S is expressed by the product of the cross-sectional area and the hydraulic pressure, and the greater the cross-sectional area in the clamping cylinder 230 or the higher the pressure of the hydraulic oil is, according to the Pascal principle.

The segment of FIG. 2 may be a segment of a horizontal line provided in the 'A' portion of FIG.

3, in order to avoid the interference between the segments 200 and adjacent segments in the stranding curve line of Fig. 1, the shape of the segment 200, particularly the shape of the upper side box 214 Is provided in a trapezoidal shape in which the length of the upper surface is smaller than that of the lower surface with respect to the side surface.

3, the upper side box 214 of the segment 200, which is installed in the conventional segment, in particular the strand curvature line, has an upper surface and a lower surface of the upper side box 214, (224).

Therefore, in order to avoid inter-segment interference in the strand curvature line, the clamping cylinders 230 must be installed at least inside the extended line (the dotted line portion Y 'in FIG. 3) of the inclined surfaces on both sides of the upper side box 214.

At this time, in the segment 200 disposed in the strand curved line of Fig. 1, the clamping cylinder 230 supports the simple tilting force, or until the tilting is performed with the pressing amount of the casting piece being about 4 to 5 mm, It is known that there is no problem in design depending on the installation. However, when the cast steel is pressed under a medium pressure to produce a cast steel which improves the internal quality of the cast steel such as the removal of the cast steel center segregation and the pore compression, As a result, the size of the clamping cylinder must be increased.

However, as shown in FIG. 3, when the size of the clamping cylinder 230 is enlarged, an interference problem occurs when the clamping cylinder 230 moves out of the slope extension line Y of the upper side box 214 in order to avoid interference, The installation position of the clamping cylinder 230 should be moved to the inside of the side box.

When the clamping cylinder 230 is increased in size due to an increase in the tumbler down-load range and the mounting position of the clamping cylinder 230 is moved to the inside of the upper side box 214, the distance between the entrance side and the exit side of the segment 230 The stiffness is a problem, so that it is practically impossible to perform a normal uniform rolling of the cast steel.

6 and 7, when both sides of the conventional side box of FIG. 3 are inclined, when the size of the clamping cylinder 230 is enlarged, it is required to move inwardly, and therefore, The rolls located in the vicinity of the exit side have a limitation in strongly reducing the casting.

Therefore, in the art, the arrangement structure of the clamping cylinder in a bow segment disposed in the curved line of the continuous casting strand is improved, so that even if the size of the clamping cylinder for increasing the slab descending force is enlarged, So that the installation position of the clamping cylinder can be easily adjusted, the optimum cylinder construction can be achieved, and the roll pressing force at the entrance and exit of the segment can be stably maintained. As a result, A continuous casting segment has been required.

Technical Solution In order to achieve the above-mentioned needs, the present invention provides a rolling mill for a rolling mill, comprising: a lower frame; And

A clamping cylinder provided on the lower frame side;

To provide a continuous casting segment.

Preferably, the clamping cylinder is mounted inside or outside the lower side box in cooperation with a tie rod connected between upper and lower side boxes mounted on the upper and lower frames, Box.

More preferably, the lower end of the tie rod is connected to the inner piston of the clamping cylinder, and the upper end of the tie rod passes through the upper side box and is fastened as a nut.

At this time, the interval L1 of the tie rods satisfies the range of 0.45 to 0.55 of the length L of the segment.

Preferably, it is disposed in the strand curvature line of the continuous address facility.

According to the present invention, the arrangement structure of the clamping cylinder in the segment disposed in the curved line of the continuous casting strand is improved, so that even if the size of the clamping cylinder for increasing the slab descending force is enlarged, Is not generated.

Accordingly, the present invention facilitates adjustment of the installation position of the clamping cylinder, thereby eliminating the dropping force of the ingress and egress of the segment while constructing the optimum cylinder arrangement, and ultimately improving the quality of the casting slab .

1 is a schematic drawing showing a known continuous casting plant
FIG. 2 is a perspective view showing a segment of the 'A' portion of the continuous casting equipment of FIG.
Fig. 3 is a schematic view showing a conventional segment, in particular, a segment arranged in a curved line of a strand
4 is a perspective view showing a segment for continuous casting according to the present invention;
FIG. 5 is a block diagram showing the inventive segment of FIG. 4
Fig. 6 is a schematic view showing a deformation state of the side box due to an unsteady interval between tie rods when the clamping cylinder is enlarged in the conventional segment of Fig. 3 and moves inside the side box; Fig.
Fig. 7 is a schematic view showing a deformation state of the side box in the case where the distance between the tie rods is normal even when the size of the cylinder is enlarged according to the improvement of the installation structure of the clamping cylinder,

DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will now be described (with reference to the accompanying drawings). However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Further, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art. (The shape and size of elements in the drawings may be exaggerated for clarity.)

4 and 5 illustrate a segment for continuous casting according to the present invention. FIGS. 6 and 7 show the segments for continuous casting according to the present invention. In FIGS. 6 and 7, Fig.

For example, FIG. 6 schematically shows the deformation state of the side box according to the unsteady interval between the tie rods when the clamping cylinder is enlarged in the conventional segment and moves inside the side box. FIG. 7 shows, , There is a schematic diagram showing a deformation state of the side box when the distance between the tie rods is normal even when the size of the cylinder is enlarged according to the improvement of the installation structure of the clamping cylinder

In the following embodiment, the same components as those of the conventional segment 200 shown in Figs. 2 and 3 are denoted by the same reference numerals.

4 and 5, the continuous casting segment 1 according to the present invention includes a lower frame 212 on a segment provided with upper and lower rolls 210 and 220, A clamping cylinder 224 provided on the lower frame side, and a clamping cylinder 10 provided on the lower frame side.

That is, in the case of the segment of the present invention, the clamping cylinder 230 may be mounted on the lower side box 224 on the lower frame 222 side instead of the clamping cylinder 230 on the side of the upper side box 214 on the upper frame side in FIGS. (Or not shown in the drawings, but can also be internally) of the main body.

As a result, in the case of the continuous casting segment of the present invention, since the clamping cylinder 10 is installed in the lower side box 224 even when the size of the clamping cylinder 10 is enlarged to increase the pressing force of the casting, 3, the problem that the larger the size of the cylinder is located inside the side box is eliminated, so that the clamping cylinder 10 can be freely installed at the optimum position irrespective of the size (diameter) of the clamping cylinder 10.

Therefore, in the case of the continuous casting segment of the present invention, the upper rolls provided on the upper frame 212 on the side of the upper side box 224, in particular, It is possible to generate a supporting force, and as a result, it is possible to produce the cast steel S having an excellent inner quality.

More specifically, as shown in Figs. 4 and 5, the clamping cylinder 10 in the continuous casting segment of the present invention includes upper and lower frames 212 and 224 mounted on the upper and lower frames 212 and 224, The tie rods 20 are fastened to the upper side box 214 in association with the tie rods 20 connected between the boxes 214 and 224.

5, in the present invention, the lower end 20a of the tie rod is connected to the inner piston 12 of the clamping cylinder 10, and the upper end 20b of the tie rod is connected to the upper side box And is firmly fastened as the nut 14.

Accordingly, when the hydraulic fluid is supplied to the lower space of the piston 12 of the clamping cylinder 10 installed in the lower side box 222, the tie rod of the upper side box rises and consequently a gap between the rolls is opened, 10, the tie rod descends to narrow the gap between the rolls, thereby increasing the pressing force of the casting.

However, since the clamping cylinder of the present invention has its position adjusted to the lower side box side, stable downward operation of the segment is achieved even if the size (diameter) of the clamping cylinder 10 is extended.

On the other hand, as shown in Fig. 7, preferably, the interval L1 between the tie rods 20 on both sides in the segment of the present invention preferably satisfies the range of 0.45 to 0.55 of the length L of the segment.

At this time, as shown in Fig. 7, the tie rods 20 (that is, the center-to-center distance of the input and output clamping cylinders) L1 in the segment are about 0.5 times as long as the length L of the segment.

For example, as shown in Fig. 6, when the interval L2 between the tie rods 20 is smaller than 0.45 times the length L of the segment, that is, when the interval between the tie rods is proper as shown in Fig. 7 corresponding to the present invention It can be seen that the deformation portion 214 'of the inlet side and the side side box is larger than the central deformation portion of the upper side box 214 when the billet is lowered.

Therefore, the billet lowering force of the entrance side of the side box and the exit roll is weaker than the center. This is due to the difference in deformation in the longitudinal direction. So that the billet reduction force through the inlet and outlet rolls becomes weaker than the center roll.

On the other hand, as can be seen from Fig. 7, since the tie-rod interval of the present invention segment is larger than that of the prior art shown in Fig. 6, ) Are almost the same.

That is, in the case of the segment of the present invention, the clamping cylinder 10 is installed in the lower side box 224 on the side of the lower frame 222, and in the case of the lower side box, It is not necessary to provide a trapezoidal shape as shown in Fig. 3, so that even if the size (diameter) of the clamping cylinder 10 is increased, the distance between the tie rods It is not necessary to reduce the interval L1 as shown in Fig. 3 and Fig.

On the contrary, when the interval L1 between the tie rods is 0.55 times or more the length L of the segment, the clamping cylinder 10 is excessively deviated from the center of the segment to the outline, so that the central deformation portion of the side box is more It becomes big.

Preferably, the segment of the present invention, that is, the clamping cylinder 10 is provided on the side of the lower side box 224 and the tie rod 20 connected thereto is fastened to the upper side box 214 as a nut 14 It is preferable that the segment according to the present invention is arranged in the curved line of the strand line in Fig.

Of course, it is not impossible for the segment of the present invention to be installed in the horizontal line of the strand (for example, 'A' in FIG. 1).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be obvious to those of ordinary skill in the art.

10 .... clamping cylinder 20 .... tie rod
100 .... Continuous casting equipment 200 .... Segment
214,224 .... Side Box

Claims (5)

A lower frame (212) (224) on a segment provided with lower rolls (210) and (220); And
A clamping cylinder (10) provided on the lower frame side;
Wherein the continuous casting segment comprises a continuous casting segment.
The method according to claim 1,
The clamping cylinder 10 is connected to a tie rod 20 connected between upper and lower side boxes 214 and 224 mounted on the upper and lower frames 212 and 224, 224, respectively,
Wherein the tie rod is fastened to the upper side box (214).
3. The method of claim 2,
The lower end 20a of the tie rod is connected to the inner piston 12 of the clamping cylinder 10 and the upper end 20b of the tie rod is fastened as the nut 12 through the upper side box By weight. 3. The method of claim 2,
Wherein the spacing L1 of the tie rods is 0.45 to 0.55 times the length L of the segment.
5. The method according to any one of claims 1 to 4,
Characterized in that it is arranged in the strand curvature line of the continuous addressing arrangement.

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