KR20190076338A - Apparatus for preventing scattering of molten steel - Google Patents

Abstract

According to one embodiment of the present invention, a device for preventing scattering of a molten steel comprises: a hopper disposed inside a mold and having an open upper part such that a nozzle of a tundish is inserted therein; and an elastic member elastically supporting the hopper. The hopper can be configured to be lowered toward an inner bottom surface of the mold by a load of the molten steel supplied by the nozzle. Therefore, an objective of the present invention is to provide the device for preventing scattering of the molten steel which can prevent the molten steel scattered on a sensor and an inner wall of the mold from being fused by preventing scattering of the molten steel injected into the mold.

Description

[0001] DESCRIPTION [0002] Apparatus for preventing scattering of molten steel [

The present invention relates to a molten steel scattering prevention device.

Generally, in the continuous casting process, molten steel produced in the steelmaking furnace and transferred to the ladle is stored in the tundish and supplied to the mold to continuously produce the slab of a certain size.

For example, the nozzle coupled to the tundish is inserted into the mold at a predetermined position and molten steel is injected into the mold.

The molten steel injected into the mold is subjected to a first cooling process to form a solidified cell in the mold. Thereafter, when the molten steel is filled in the mold at a predetermined height, the sensor senses the molten steel to drive the punch pressing the dummy bar. As a result, the solidifying cell passes through the mold and undergoes a second cooling process, passes through the plurality of segment rolls, Is pulled to the cast of.

1, the nozzle 2 is lowered to a predetermined position inside the mold 1 to inject the molten steel 3 into the empty space inside the mold 1. At this time, the bottom surface of the mold 1 The molten steel 3 is struck against the bottom surface of the mold 1 due to the height difference between the molten steel 3 and the nozzle 2 and the temperature difference, and the molten steel is scattered toward the inner wall of the mold 1.

The scattered molten steel (3) is fused to the inner wall of the mold (1) and rapidly cooled, which adversely affects the quality of the produced cast steel.

Also, since the molten steel 3 flows due to scattering of the molten steel 3, the cooling rate of the molten steel 3 is slowed down, thereby increasing the risk of equipment accidents during the drawing process.

Further, when the molten steel 3 is fused to the sensor in a state where the molten steel 3 is not filled with a certain height in the mold, the sensor malfunctions and the molten steel in the non-solidified state is pulled out. There is a risk that a molten steel leakage accident occurs in which an uncooled molten steel flows out to the lower portion of the mold 1 by rupturing the solidifying cell while passing through the lower surface.

Korean Patent Publication No. 10-2017-0122926

An object of an embodiment of the present invention is to provide a device for preventing scattering of molten steel injected into a mold, which can prevent scattering of molten steel scattered on the inner wall of the mold and the sensor.

The apparatus for preventing splashing of molten steel according to an embodiment of the present invention includes: a hopper disposed inside a mold, the hopper having an upper portion opened to insert a nozzle of a tundish; And an elastic member elastically supporting the hopper, wherein the hopper is configured to be lowered toward an inner bottom surface of the mold by a load of molten steel supplied by the nozzle.

The apparatus according to an embodiment of the present invention may further include a support bar coupled to a lower portion of the hopper to support the hopper and having a length in a vertical direction.

The support bar of the apparatus for preventing splashing of molten steel according to an embodiment of the present invention may be coupled to the hopper such that an upper end of the support bar is inserted into and protruded from the hopper through an insertion hole formed in a lower surface of the hopper.

The hopper of the apparatus for preventing splashing of molten steel according to an embodiment of the present invention can be configured to be movable relative to the support bar.

The elastic member of the apparatus for preventing splashing of molten steel according to an embodiment of the present invention may be inserted and disposed on the outer surface of the support bar.

The apparatus for preventing splashing of molten steel according to an embodiment of the present invention may further include a support plate into which a lower end of the support bar is inserted and fixedly supports the support bar.

The hopper and the elastic member of the apparatus for preventing splashing of molten steel according to an embodiment of the present invention may be made of a metal material.

The apparatus for preventing splashing of molten steel according to an embodiment of the present invention can prevent scattering of molten steel injected into a mold and prevent fusion of molten steel scattered on the inner wall of the mold and the sensor.

1 is a view schematically showing a state in which molten steel is scattered in a process of injecting molten steel of a tundish into a mold,
2 is a perspective view of a device for preventing the scattering of molten steel according to an embodiment of the present invention,
3 is a side cross-sectional view of a device for preventing splashing of molten steel according to an embodiment of the present invention,
FIG. 4 is a perspective view illustrating a device for preventing the scattering of molten steel according to an embodiment of the present invention,
FIG. 5 is a side cross-sectional view showing a state in which the apparatus for preventing scattering of molten steel according to the embodiment of the present invention is disposed in a mold,
6 to 8 are views showing a process of preventing the scattering of molten steel by operating the apparatus for preventing molten steel according to an embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may be easily suggested, but are also included within the scope of the present invention.

FIG. 2 is a perspective view of a device for preventing molten steel according to an embodiment of the present invention, and FIG. 3 is a side cross-sectional view of a device for preventing molten steel according to an embodiment of the present invention.

FIG. 4 is a perspective view showing a device for preventing the scattering of molten steel according to an embodiment of the present invention, and FIG. 5 is a view showing a state where a device for preventing scattering of molten steel according to an embodiment of the present invention is disposed in a mold Fig.

2 to 5, the apparatus for preventing scattering of molten steel according to an embodiment of the present invention includes a hopper 10, a support bar 20, an elastic member 30, and a support plate 40.

The hopper 10 may be arranged in the mold 100 and the nozzle 200 of the tundish may be inserted.

In one example, the hopper 10 may be in the form of a rectangular box, and the upper portion may be opened to allow the nozzle 200 to be inserted. However, the hopper 10 is not limited to a rectangular box, but may have various shapes in which the nozzle 200 can be inserted.

The support bar 20 may be configured to support the hopper 10 in the mold 100.

For example, the support bar 20 may have a bar shape having a length in the vertical direction, and may be coupled to the hopper 10 such that the upper end of the support bar 20 is inserted into and protruded into the hopper 10 through an insertion hole formed in the lower surface of the hopper 10. .

The insertion hole formed in the lower surface of the hopper 10 and the support bar 20 may have a shape corresponding to each other, and may have various shapes such as a circular shape and a polygonal shape.

On the other hand, the hopper 10 can be configured to be movable relative to the support bar 20.

The lower end of the support bar 20 may be fixed to the support plate 40. For example, the lower end of the support bar 20 may be inserted and fixed into a fixing hole formed in the support plate 40.

The support plate 40 may be formed in a flat plate shape so that the support bar 20 can be stably fixed.

The support plate 40 may also be disposed on the bottom surface of the mold 100 (e.g., the upper surface of the dummy bar 110 disposed within the mold 100).

The elastic member 30 may be configured to elastically support the hopper 10.

In one example, the elastic member 30 may be a spring and may be disposed between the hopper 10 and the support plate 40.

The elastic member 30 is inserted into the outer surface of the support bar 20 to elastically support the hopper 10. [

The hopper 10 can be lowered along the supporting bar 20 in a state of being elastically supported by the elastic member 30 when a load is applied in the vertical direction (in the direction toward the bottom surface of the mold 100) .

The hopper 10, the support bar 20, the elastic member 30, and the support plate 40 of the apparatus for preventing scattering of molten steel according to an embodiment of the present invention may be made of a metal material.

6 to 8 are views showing a process of preventing the scattering of molten steel by operating the apparatus for preventing molten steel according to an embodiment of the present invention.

6, a cooling member 130 (not shown) configured to cool the molten steel 300 is disposed on the inner bottom surface of the mold 100, that is, the upper surface of the dummy bar 110 disposed inside the mold 100 May be disposed.

The cooling member 130 may have a coil shape to widen the contact area with the molten steel 300, or may be made of a metal material.

The molten steel 300 injected into the mold 100 is cooled by contacting with the cooling member 130, and a solidified cell can be formed.

The molten steel 300 may be heated by the difference in height between the nozzle 200 of the tundish for injecting the molten steel 300 into the mold 100 and the bottom surface of the mold 100, Or the cooling member 130, and scattering of molten steel, which is scattered toward the inner wall of the mold 100, occurs.

The scattered molten steel 300 is fused to the inner wall of the mold 100 and rapidly cooled, which adversely affects the quality of the produced cast steel.

As shown in FIG. 6, the apparatus for preventing scattering of molten steel according to an embodiment of the present invention may be installed inside the mold 100.

The molten steel scattering prevention device may be disposed inside the mold 100 so that the nozzle 200 of the tundish can be inserted into the hopper 10. [

The nozzle 200 is inserted into a certain position in the hopper 10 and the molten steel 300 is injected into the hopper 10.

At this time, the height difference between the nozzle 200 and the bottom surface of the hopper 10 may be significantly smaller than the height difference between the nozzle 200 and the bottom surface of the mold 100.

Therefore, even if the molten steel 300 injected through the nozzle 200 hits the bottom surface of the hopper 10, the scattering phenomenon of the molten steel 300 can be significantly reduced.

Further, even if the molten steel 300 is scattered, the inner wall of the hopper 10 acts as a barrier, so that it is possible to effectively prevent the molten steel 300 from scattering on the inner wall of the mold 100.

In addition, since the hopper 10 is formed in a relatively small size as compared with the inner space of the mold 100, the nozzle 200 can be quickly immersed in the molten steel injected into the hopper 10.

When the molten steel is directly injected from the nozzle 200 to the bottom surface of the mold 100, since the molten steel 300 is relatively slow to fill the mold 100, the nozzle 200 is immersed in the molten steel 300 The molten steel 300 may be scattered continuously.

However, in the present embodiment, the molten steel 300 supplied through the nozzle 200 firstly fills the inner space of the hopper 10, and the hopper 10 has a relatively small size, The inner space of the hopper 10 can be filled very quickly.

Since the nozzle 200 is inserted in the hopper 10, the nozzle 200 can eventually be immersed in the molten steel 300 very quickly.

Accordingly, scattering of the molten steel 300 can be prevented very effectively.

6 and 7, when the molten steel 300 is injected into the hopper 10 through the nozzle 200, the load of the molten steel 300 injects the hopper 10 into the mold 100, As shown in Fig.

That is, the hopper 10 can be lowered along the support bar 20 while being elastically supported by the elastic member 30.

8, when the molten steel 300 fills the inside of the hopper 10, the molten steel 300 flows down along the outer surface of the hopper 10.

The molten steel 300 is configured to flow along the outer surface of the hopper 10 unlike the method in which the molten steel 300 is directly injected from the nozzle 200 to the bottom surface of the mold 100, 300 can be effectively prevented from scattering.

Further, since the hopper 10 is lowered toward the bottom surface of the mold 100 by the load of the molten steel 300 injected into the hopper 10, the gap between the hopper 10 and the bottom surface of the mold 100 is very small It may be in a close state.

Therefore, even if the molten steel flowing along the outer surface of the hopper 10 hits the bottom surface of the mold 100, the molten steel 300 may not be scattered.

Meanwhile, the hopper 10, the support bar 20, the elastic member 30, and the support plate 40 of the apparatus for preventing scattering of molten steel according to an embodiment of the present invention may be made of a metal material.

Therefore, the hopper 10, the support bar 20, the elastic member 30 and the support plate 40 are melted by the molten steel 300 and absorbed into a part of the cast steel.

According to the above-described embodiments, the apparatus for preventing splashing of molten steel according to an embodiment of the present invention can prevent scattering of molten steel injected into a mold, thereby preventing fusion of molten steel scattered on the inner wall of the mold and the sensor.

Therefore, it is possible to prevent the quality of the cast steel from being deteriorated, prevent a fire caused by scattering of molten steel, and secure the safety of the operator.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be apparent to those skilled in the art that changes or modifications may fall within the scope of the appended claims.

10: hopper 20: support bar
30: elastic member 40: support plate
100: mold 200: nozzle
300: molten steel

Claims (7)

A hopper disposed inside the mold, the hopper being opened at an upper portion thereof so as to insert a nozzle of the tundish; And
And an elastic member elastically supporting the hopper,
Wherein the hopper is configured to be lowered toward an inner bottom surface of the mold by a load of molten steel supplied by the nozzle.
The method according to claim 1,
And a support bar coupled to a lower portion of the hopper to support the hopper and having a length in the vertical direction.
3. The method of claim 2,
Wherein the support bar is coupled to the hopper so that an upper end of the support bar is inserted into and protruded from the hopper through an insertion hole formed in a lower surface of the hopper.
3. The method of claim 2,
Wherein the hopper is configured to be movable relative to the support bar.
3. The method of claim 2,
Wherein the elastic member is inserted and disposed on the outer surface of the support bar.
3. The method of claim 2,
And a support plate to which the lower end of the support bar is inserted and fixes and supports the support bar.
The method according to claim 1,
Wherein the hopper and the elastic member are made of a metal material.

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