KR20190056784A - Continuous casting apparatus - Google Patents

Abstract

The present invention relates to a continuous casting apparatus comprising a plurality of guide rollers for supporting a cast slab withdrawn from a mold, wherein: a cooling water spray nozzle for spraying the cast slab with cooling water is disposed between the guide rollers; and in a cooling zone where the water spray density of the cooling water is below a predetermined value, the guide rollers each comprise a first guide roller having a circulation flow channel for circulating the cooling water. Therefore, there is no worry about damage to the guide rollers, and the meniscus level fluctuation in the mold due to the swelling of a solidified layer is reduced, so that a high casting rate can be stably maintained for a long period of time.

Description

{Continuous Casting Apparatus}

The present invention relates to a continuous casting apparatus in which a guide roller having a small diameter for minimizing the swelling of the solidification layer without causing any damage due to high temperature.

FIG. 1 shows an example of a continuous casting apparatus according to the prior art, and FIG. 2 shows a cooling water spraying nozzle provided in the continuous casting apparatus shown in FIG. As shown in these drawings, the continuous casting apparatus comprises a mold 10 in which molten metal enters, and a row of guide rollers 20 arranged continuously on the discharge side of the mold and guiding the movement of the cast strip 1 do. Further, a plurality of cooling water injection nozzles 30 for cooling the cast steel are disposed between the guide rollers.

In such a continuous casting apparatus, various problems may occur when casting at a high speed. Typically, the higher the casting speed is, the more the phenomenon of fluctuation of the melt surface of the molten metal at the mold 10 is increased. Such a fluctuation of the hot water surface may cause an initial solidification failure in the mold or an accident that the solidified outer shell or solidification layer of the reaction product 1 is ruptured and the non-solidified molten metal pours out .

This phenomenon of the hot water surface fluctuation is a phenomenon in which the weight of the non-solidified molten metal inside the cast slab, that is, the phenomenon that the outer angle solidified by the pressure swells finely in the space between the guide rollers 20 (hereinafter referred to as the swelling phenomenon of the solidification layer) . ≪ / RTI > Therefore, if the distance between the guide rollers (hereinafter referred to as roller pitch) is minimized, the phenomenon of swelling of the solidification layer can be reduced. However, in order to reduce the roller pitch, the diameter of the guide roller must be reduced. This has a problem of reducing the mechanical rigidity of the guide roller. Accordingly, the small-diameter guide roller can be realized as a roller (hereinafter, referred to as a divided roller) formed by dividing a certain region along the longitudinal direction thereof in order to secure mechanical rigidity.

On the other hand, the cooling water spraying nozzle 30 cools the cast steel by jetting cooling water at a high speed onto the outer surface of the cast steel 1 which is going into the reactor state in the continuous casting apparatus. In order to maximize the cooling efficiency of the casting, the injected cooling water is arranged so as to collide with the outer surface of the casting. Part of the injected cooling water collides with the surface of the guide roller 20 in the vicinity of the cooling water spraying nozzle, The residual cooling water that comes into contact with the surface of the guide roller cools the guide roller. However, the flow rate of the cooling water is not sufficiently sufficient to cool down the guide roller since the surface temperature of the cast steel is precisely designed and controlled so as to become the target temperature. Therefore, the continuous casting apparatus according to the prior art usually has a guide roller provided with a circulating flow path for circulating the cooling water.

The diameter of the guide roller must be sufficiently large since the guide roller having the circulating flow path for circulating the cooling water must have a circulation flow path structure in which the cooling water can smoothly flow. Particularly, the divided rollers must be provided with axle journals to support the load essentially in the middle of the longitudinal direction, and the bearing neck must be significantly smaller in diameter than the other parts of the divided rollers. As a result, in the case of the divided rollers, there is a further restriction in designing a structure for circulating the cooling water in the divided rollers.

As a result, the diameter of the guide rollers can not be made sufficiently small to be suitable for high-speed casting, and the phenomenon of fluctuation of the melt surface in the mold restricts an increase in the casting speed.

(Patent Document 1) US 6308769 B1

Accordingly, it is a main object of the present invention to provide a continuous casting apparatus in which a guide roller having a small diameter is disposed to minimize the swelling of the solidification layer without causing any damage due to high temperature.

A continuous casting apparatus according to the present invention is a continuous casting apparatus having a plurality of guide rollers for supporting a cast steel going from a mold, wherein a cooling water spray nozzle for spraying cooling water toward the cast steel is installed between the plurality of guide rollers And the guide roller is a first guide roller having a circulating flow path for circulating the cooling water in a section where the non-density of the cooling water is less than a predetermined value.

As described above, according to the present invention, there is no fear of damage to the guide rollers, and the phenomenon of fluctuation of the hot water surface in the mold due to the swelling of the solidification layer is reduced, and the high casting speed can be stably maintained for a long time.

1 is a view showing an example of a continuous casting apparatus according to the prior art.
FIG. 2 is a view showing a cooling water injection nozzle provided in the continuous casting apparatus shown in FIG. 1. FIG.
3 is a schematic view of a continuous casting apparatus according to the present invention.
4 is a non-water density distribution chart of the cooling water of the continuous casting apparatus according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 3 is a schematic view of a continuous casting apparatus according to the present invention. As shown in FIG. 3, the continuous casting apparatus according to the present invention includes a plurality of guide rollers 20 for supporting a casting 1 proceeding from a mold 10, A cooling water injection nozzle (30) for injecting cooling water toward the cast steel is provided between the plurality of guide rollers, and in the section where the non-water density of the cooling water is less than a predetermined value, the guide rollers The first guide roller 21 is provided with a circulating flow passage 25 for circulating the air.

The continuous casting apparatus of the present invention includes a mold 10 into which a molten metal enters and a plurality of guide rollers 20 arranged continuously on the discharge side of the mold and guiding the movement of the cast 1. Further, a plurality of cooling water injection nozzles 30 for cooling the cast steel are disposed between the guide rollers.

The continuous casting apparatus according to the present invention intends to increase the casting speed, and to reduce the diameter of the guide roller 20, the roller pitch between the guide rollers is minimized to reduce the swelling of the solidification layer.

For example, in order to stably maintain the casting speed of 5 m / min or more for a long time, the diameter of the guide roller needs to be reduced from several tens of millimeters (mm) to a small diameter of 200 millimeters or less.

However, if the diameter of the guide roller is reduced, the mechanical rigidity is reduced. Accordingly, the small-diameter guide roller can be realized as a roller formed by dividing the guide roller in a predetermined region along the longitudinal direction thereof in order to secure mechanical rigidity. Preferably, the roller is divided into three or more divisions.

The roller thus divided must have a bearing neck for supporting the load essentially in the middle of its longitudinal direction. The bearing neck must be significantly smaller in diameter than the other parts of the divided roller. As a result, there is a restriction in designing a structure for circulating the cooling water in the divided rollers.

Specifically, if the diameter of the roller is small, the diameter of the bearing neck becomes smaller, and the cross-sectional area of the circulating flow path of the cooling water to be formed therein becomes .

Therefore, in the case of a guide roller of a certain diameter or less, it is impossible to form a circulating flow path in which cooling water circulates.

On the other hand, the higher the casting speed is, the faster the specific point in the slab progresses through the section where it collides with the cooling water sprayed from the cooling water spray nozzle. Accordingly, it is preferable to maximize the density (hereinafter referred to as " non-water density ") of the cooling water jetted so that the cast steel can be cooled quickly in a short time.

For example, in the section having a non-water density of about 1000 L / min. M ² or more, since there are a lot of cooling water contacting the surface of the guide roller, that is, the cooling water to be sprayed or the remaining cooling water, A small-diameter guide roller without internal circulation can be applied.

Therefore, the continuous casting apparatus according to the present invention, the steel grade, interval, taking into account the density of the non-aqueous coolant is adjusted by a variety of process conditions including, such as casting speed, non-aqueous density is always kept above 1000 L / min.m ² A second guide roller 22 having a small diameter of about 50 mm to 150 mm is disposed in order to reduce the swelling phenomenon of the solidification layer to a required level. The second guide roller 22 of small diameter does not necessarily have a circulating flow path for circulating the cooling water inside.

On the other hand, in the section where the non-water density is not maintained at more than 1000 L / min.m ² , that is, in the section where the water non-density of the cooling water is less than 1000 L / min.m ² , The first guide roller 21 having the circulating flow path is disposed. The first guide roller also has a small diameter, and it may have a diameter of about 130 mm to 200 mm which can constitute a circulation flow path in which the cooling water circulates.

However, since the pressure due to the difference in height from the bath surface increases as the cast steel (1) progresses, the diameter of the rollers located downstream is larger.

4 is a non-water density distribution chart of the cooling water of the continuous casting apparatus according to the present invention.

Here, X is the distance from the bath surface along the direction of travel of the cast steel. W is the non-water density of the cooling water. V1 is the non-density distribution of cooling water according to the distance from the bath surface at a specific casting speed.

The non-water density of the cooling water has a maximum value near the mold 10 and has a distribution gradually decreasing in the progressing direction of the cast steel 1. According to one embodiment of the continuous casting apparatus according to the present invention for improving the casting speed, it has a non-density of W1 at the X1 position. For example, W1 may have a value of about 1000 L / min.m ² .

Since the non-density is equal to or greater than W1 in the section A from immediately below the mold 10 to the position X1, it is not necessary to provide the circulating flow passage for circulating the cooling water through the guide roller 20 in the corresponding section. In this way, since there is no need to provide a circulating flow path for circulating the cooling water, the diameter of the guide roller can be made sufficiently small, and the guide roller can be freely configured to be divided into a predetermined region along the longitudinal direction.

Therefore, in the section A shown in Figs. 3 and 4, it is possible to dispose the second guide roller 22 of a small diameter capable of remarkably reducing the swelling phenomenon of the solidification layer. Preferably, the second guide roller can be divided into three or more divisions.

The second guide roller 22 is simple in structure and relatively inexpensive in terms of maintenance, so that even if damage due to high temperature occurs, the burden on maintenance is small.

Further, by X1 from the position in the downstream direction because the portion B, leading to the end of the continuous casting apparatus of the present invention is less than the density of the non-aqueous W1, for example of less than 1000 L / min.m ² example, the circulation passage for the circulation of the cooling water It is preferable to arrange the first guide roller 21 having its own cooling function.

Accordingly, in the section B shown in FIGS. 3 and 4 among the continuous casting apparatuses according to the present invention, a first guide roller 21 having a small diameter formed with a circulation flow path for circulating the cooling water can be disposed.

As described above, according to the present invention, the phenomenon of fluctuation of the hot water surface in the mold due to the swelling of the solidification layer is reduced without concern for damage of the guide roller, and high casting speed can be stably maintained for a long time.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10: mold 20: guide roller
21: first guide roller 22: second guide roller
30: Cooling water injection nozzle

Claims (7)

A continuous casting apparatus comprising a plurality of guide rollers for supporting a casting slip from a mold,
A cooling water spray nozzle for spraying cooling water toward the cast steel is provided between the plurality of guide rollers,
Wherein the guide roller is a first guide roller having a circulating flow path for circulating the cooling water in a section where the non-density of the cooling water is less than a predetermined value.
The method according to claim 1,
Wherein the predetermined value is 1000 L / min.m < ^{2 &} gt ;.
The method according to claim 1,
Wherein a second guide roller having a diameter of 50 mm to 150 mm is arranged in a section where the non-density of the cooling water is maintained above the predetermined value.
The method of claim 3,
Wherein the second guide roller has no circulating flow passage for circulating cooling water therein.
5. The method of claim 4,
Wherein the second guide roller is divided into three or more parts along the longitudinal direction of the second guide roller.
The method according to claim 1,
Wherein the first guide roller has a diameter of 130 mm to 200 mm.
7. The method according to any one of claims 1 to 6,
Wherein the continuous casting apparatus has a casting speed of 5 m / min or more.

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