KR101261421B1 - Apparatus for treating the molten metal - Google Patents

Abstract

The present invention relates to a molten steel collecting device for collecting molten steel leaking from the immersion nozzle at the end of the casting, and more particularly, a molten steel collecting device for collecting molten steel leaking from the discharge hole of the immersion nozzle when the inlet of the immersion nozzle is sealed with a stopper A molten steel collecting device according to an embodiment of the present invention is a molten steel collecting device for collecting molten steel leaking from a nozzle having a discharge port, the bucket portion receiving the molten steel leaking from the nozzle; It includes a support for mounting the bucket portion in the lower portion of the nozzle.

Description

Apparatus for treating the molten metal}

The present invention relates to a molten steel collecting device for collecting molten steel leaking from the immersion nozzle at the end of the casting, and more particularly, a molten steel collecting device for collecting molten steel leaking from the discharge hole of the immersion nozzle when the inlet of the immersion nozzle is sealed with a stopper It is about.

In general, the tundish used in the continuous casting device serves to discharge the molten steel into the mold through the molten steel outlet formed in the bottom and the immersion nozzle connected to the molten steel outlet. At this time, the method of controlling the amount of molten steel injected into the mold through the immersion nozzle is a sliding gate casting method of injecting and blocking molten steel by opening and closing the sliding gate by combining the immersion nozzle on the bottom surface of the tundish and penetrating the bottom in the tundish bath. There is a stopper casting method for inserting and immersing the immersion nozzle and opening and closing the immersion nozzle inlet with a stopper to inject molten steel.

In the sliding gate casting method, when the sliding gate (not shown) coupling the immersion nozzle is closed, no leakage phenomenon occurs in which the molten steel leaks from the immersion nozzle. However, in the stopper casting method, an unwanted space is formed by various factors between the stopper end and the inlet of the immersion nozzle, so that the molten steel remaining in the tundish is leaked because it is not completely sealed.

1 is a view illustrating a conventional stopper casting method, as shown in FIG. 1, a stopper casting method is performed by supplying molten steel 1 from a tundish 10 to a mold 30 through an immersion nozzle 11. , The flow rate of the molten steel 1 supplied to the mold 30 through the immersion nozzle 11 is controlled according to the opening and closing degree of the immersion nozzle 11 inlet in accordance with the up and down movement of the stopper 20.

However, as the continuous casting proceeds, foreign substances are fused at the end of the stopper 20, or the inlet 11a of the immersion nozzle 11 is affected by the iron static pressure of the molten steel 1 and the calcium component contained in the molten steel. Cases of courage arise. When the foreign matter is fused to the stopper 20 or the injection hole 11a of the immersion nozzle 11 is damaged, the stopper 20 may not completely seal the injection hole 11a of the immersion nozzle 11. This problem does not cause any accident during the continuous casting operation, but during the final casting operation, the stopper 20 blocks the inlet 11a of the immersion nozzle 11 and the molten steel 1 and slag remaining in the tundish 10. The molten steel (1) and slag (2) remaining in the tundish (10) between the stopper 20 and the immersion nozzle (11) is not completely sealed between the gaps generated due to blocking injection of the mold (30). 2) is an accident that all leaks through the discharge port (11b) of the immersion nozzle (11).

The present invention provides a molten steel collection device that can capture the exposure of molten steel and slag remaining in the tundish between the gap generated by the stopper and the immersion nozzle is not in close contact during the final casting operation.

In addition, by collecting the molten steel and slag leaking through the immersion nozzle undesirably to prevent the molten steel is scattered around the work space to create a safe working environment, the unwanted molten steel and slag is injected into the mold to deteriorate the quality of the cast Provided is a molten steel collection device that can prevent the damage.

A molten steel collecting device according to an embodiment of the present invention is a molten steel collecting device for collecting molten steel leaking from the nozzle is formed with a discharge port, the bucket portion for receiving the molten steel leaking from the nozzle; It includes a support for mounting the bucket portion in the lower portion of the nozzle.

The bucket part is a housing which is an upper portion of the housing; It has a shape corresponding to the housing, and includes a collecting enclosure inserted into the housing.

The collection enclosure is characterized in that it is coupled to the housing so that replacement.

The support part includes a support body mounted on an upper surface of the bucket part; A mounting bar extending to one side of the support main body and inserted into the outlet of the nozzle; At least one carrying bar extending to the other side of the support body protrudes.

The support body is characterized in that the opening groove for exposing the discharge port of the nozzle is formed.

The length of the mounting bar is characterized in that formed longer than the diameter of the nozzle.

The support portion is characterized in that coupled to the bucket portion replaceable.

According to the embodiments of the present invention, the stopper and the immersion nozzle are not completely in contact with the stopper and the immersion nozzle during the final casting operation, even if the molten steel and slag remaining in the tundish leak through the immersion nozzle to stably collect it It can make a safe working environment.

In addition, molten steel and slag leaking through the immersion nozzle can be prevented from being injected into the mold and mixed in the cast steel, thereby preventing the quality of the cast steel from being degraded.

In addition, the molten steel remaining in the tundish may be collected when the tundish is moved to the preheating position after completion of the casting operation, thereby preventing the mold and the peripheral equipment from being contaminated.

1 is a view showing a continuous stopper type continuous casting installation,
2 is a perspective view showing a molten steel collection device according to an embodiment of the present invention,
3 is an exploded perspective view showing a molten steel collection device according to an embodiment of the present invention,
4 is a view showing a state in which the molten steel collection device according to an embodiment of the present invention mounted on the immersion nozzle,
5a to 5b is a view showing a state of use of the molten steel collection device according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It will be apparent to those skilled in the art that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to let you know. Wherein like reference numerals refer to like elements throughout.

2 is a perspective view showing a molten steel collecting device according to an embodiment of the present invention, Figure 3 is an exploded perspective view showing a molten steel collecting device according to an embodiment of the present invention, Figure 4 is according to an embodiment of the present invention The molten steel collecting device is attached to the immersion nozzle.

As shown in the drawings, the molten steel collecting device according to an embodiment of the present invention is a means for collecting molten steel leaking through the immersion nozzle 11 by various factors by being attached to the immersion nozzle 11 during the final casting operation. , Bucket portion 100 is accommodated in the molten steel leaking from the immersion nozzle (11); It includes a support portion 200 for mounting the bucket portion 100 to the lower portion of the immersion nozzle (11).

The bucket part 100 is a means for accommodating molten steel and slag leaked through the immersion nozzle 11 mounted on the lower part of the immersion nozzle 11, and has a shape of an enclosure having an upper opening as a whole.

The bucket part 100 is not formed as a single body, and a housing 110 which is an upper part of the housing; It has a shape corresponding to the housing 110, it is configured by combining the capture housing 120 is inserted into the housing 110. Therefore, it is preferable to easily replace the collection enclosure 120 in the housing 110. In addition, when the molten steel and slag is accommodated in the bucket part 100, it is accommodated only in the collecting enclosure 120, and thus, the collecting enclosure 120 can be replaced and the housing 110 can be used continuously without replacement.

The housing 110 and the collecting enclosure 120 preferably has a space wide enough to accommodate both molten steel and slag remaining in the tundish during the final casting operation. In this case, the shape of the housing 110 and the collecting enclosure 120 may be formed in any shape as long as at least a part of the upper portion of the housing 110 and the collecting enclosure 120 can accommodate the molten steel leaking from the immersion nozzle 11. In the present Example, the upper part was opened and it comprised with the enclosure which has a substantially rectangular cross section.

In addition, the housing 110 and the collecting enclosure 120 are preferably formed of a metal material so as to take the temperature of the received molten steel to promote solidification. In addition, coupling holes 111 and 121 for coupling the housing 110, the collecting enclosure 120, and the support part 200, which will be described later, may be formed on the bottom surface of the housing 110 and the collecting enclosure 120. Can be.

The support part 200 is a means for mounting the bucket part 100 to the lower part of the immersion nozzle, and a support main body 210 which is installed on the upper surface of the bucket part 100; A mounting bar 220 extending to one side of the support main body 210 and inserted into the outlet 11b of the immersion nozzle 11; It includes at least one carrying bar 230 extending to the other side of the support body 210 protruding.

The support body 210 is installed in the upper direction from the bottom surface of the bucket part 100, precisely the collecting enclosure 120, the means for installing the mounting bar 220 and the carrying bar 230, the immersion nozzle It may be formed in any shape as long as the discharge port 11b of (11) is not blocked. For example, in the present embodiment, an opening groove 211 is formed in an “H” shape to expose the discharge port 11b of the immersion nozzle 11 in the upper region.

The mounting bar 220 is a means for mounting the bucket part 100 and the support part 200 to the immersion nozzle 11, and protrudes laterally from one side of the support body 210. In this case, the mounting bar 220 may be formed into a bar type having any shape as long as it does not seal the discharge hole 11b while being introduced through the discharge hole 11b of the immersion nozzle 11. However, the length of the mounting bar 220 is longer than the diameter of the immersion nozzle 11 so that the mounting bar 220 is introduced through one discharge port 11b of the immersion nozzle 11 to the other discharge port 11b. It is desirable to make it withdraw. Therefore, it is preferable that the mounting bar 220 is firm to the immersion nozzle 11.

The carrying bar 230 is a means for mounting by the jig (not shown) when carrying the bucket part 100 and the support part 200, protrudes laterally from the other side of the support body 210 Is extended. In this case, the number and shape of the carrying bar 230 may be formed in any shape as long as the bucket part 100 and the support part 200 can be mounted. For example, the present embodiment is configured in the form of a pair of bars.

On the other hand, the support portion 200 is preferably coupled to the bucket portion 100 so that replacement. For example, it may be integrally coupled by a fixing member 300 such as a bolt for coupling the housing 110 and the collecting enclosure 120 through the coupling holes 111 and 121 formed in the bucket part 100. . Of course, the coupling of the support part 200 and the bucket part 100 is not limited to being coupled by the fixing member 300, but in various ways to easily replace the support part 200 in the bucket part 100. can be changed.

The use state of the molten steel collection device according to an embodiment of the present invention configured as described above will be described with reference to the drawings.

During the final casting operation, the molten steel contained in the ladle is completed by the tundish, and the molten steel 1 is injected into the mold so that the amount of the molten steel 1 remaining in the tundish 10 is minimized. As shown in the drawing, the stopper 20 is lowered to seal the inlet 11a of the immersion nozzle 11 to complete the casting operation. In this case, a small amount of molten steel 1 and slag 2 remain in the tundish 10.

Then, the tundish 10 is raised to a certain height. At this time, a gap is formed between the stopper 20 and the injection hole 11a of the immersion nozzle 11 due to damage such as deposits attached to the stopper 20 and the melting damage of the immersion nozzle 11, and remains in the tundish 10. The molten steel 1 and the slag 2 may leak through the discharge port 11b of the immersion nozzle 11.

Then, as shown in FIG. 5B, the molten steel collecting device according to the present invention is mounted on the immersion nozzle 11. In detail, the jig bar is inserted into the carrying bar 230 provided in the support part 200 to maintain the safety distance, and the mounting bar 220 is inserted into the discharge port 11b of the immersion nozzle 11 to provide the mounting bar 220. It is mounted while being in contact with the lower surface of the discharge port (11b) of the immersion nozzle. Thus, the bucket portion 100 is to be disposed directly below the immersion nozzle (11). At this time, the upper part of the mold 30 covers the opened upper part of the mold 30 to prevent the molten steel 1 and the slag 2 leaking from the immersion nozzle 11 from being injected into the mold 30. Can be covered with

Then, the remaining molten steel 1 and the slag 2 leaked through the immersion nozzle 11 are leaked into the space between the mounting bar 220 and the discharge port 11b, and the bucket part 100, preferably the collecting enclosure 120 Flows into and is captured. The molten steel 1 and the slag 2 collected in the collecting enclosure 120 are cooled and solidified to become current.

At this time, the mounting bar 220 inserted into the discharge port 11b of the immersion nozzle 11 acts as an obstacle of the leaking molten steel 1 to dualize the flow of the molten steel 1 to prevent the discharge port 11b from being blocked.

The molten steel 1 and the slag 2 remaining in the tundish 10 are collected in the bucket part 100, and as the predetermined time elapses, the molten steel 1 collected in the collecting enclosure 120 is formed. If all are now, remove the molten steel capture device from the immersion nozzle or the immersion nozzle from the tundish.

Depending on the amount of current collected in the molten steel capture device, the molten steel capture device is used only once and disposed of, or the collection enclosure 120 and the support part 200 are separated from the housing 110 and the new capture enclosure 120 and the support are removed. It can be used repeatedly by replacing the part 200.

Although the present invention has been described with reference to the accompanying drawings and the preferred embodiments described above, the present invention is not limited thereto but is limited by the following claims. Accordingly, those skilled in the art will appreciate that various modifications and changes may be made thereto without departing from the spirit of the following claims.

100: bucket portion 110: housing
120: collecting enclosure 200: Sutorp part
210; Support body 220: Mounting bar
230: carrying bar

Claims (7)

A molten steel collecting device for collecting molten steel leaking from a nozzle formed with a discharge port,
A bucket part for receiving molten steel leaking from the nozzle;
A molten steel collection device comprising a support portion for mounting the bucket portion to the lower portion of the nozzle.
The method of claim 1, wherein the bucket portion
A housing which is a housing having an upper portion open;
A molten steel collecting device having a shape corresponding to the housing and including a collecting enclosure inserted into the housing.
The method according to claim 2,
And the collecting enclosure is replaceably coupled to the housing.
The method according to claim 1, wherein the support portion
A support body mounted on an upper surface of the bucket part;
A mounting bar extending to one side of the support main body and inserted into the outlet of the nozzle;
Molten steel collecting device comprising at least one carrying bar extending to the other side of the support body protruding.
The method of claim 4,
The support body is a molten steel collecting device is formed with an opening groove for exposing the discharge port of the nozzle.
The method according to claim 1 or 4,
The length of the mounting bar is longer than the diameter of the nozzle is formed molten steel collecting device.
The method according to claim 1,
The support portion molten steel collection device is coupled to replace the bucket portion.

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