KR101891160B1 - A sealing gasket for collector nozzle - Google Patents

Abstract

The present invention discloses a sealing gasket for a collector nozzle of a continuous casting plant. A sealing gasket for a collector nozzle of a disclosed continuous casting facility is provided with a ring member supported by a shroud nozzle and having an inner surface tilted downwardly and a first inclined portion and a second inclined portion having different inclination angles so that the collector nozzle And a cup member having an outer surface of the first inclined portion inserted and assembled into the ring member and a seating end extending inwardly from the second inclined portion to support the lower surface of the collector nozzle.

Description

{A SEALING GASKET FOR COLLECTOR NOZZLE FOR COLLECTOR NOZZLE IN CONTINUOUS CASTING EQUIPMENT}

The present invention relates to a sealing gasket for a collector nozzle of a continuous casting facility, and more particularly, to a separating type sealing gasket for sealing a collector nozzle of a continuous casting facility, To a sealing gasket for a collector nozzle of a continuous casting plant.

In general, casting is a method of a metal working method in which a metal is melted and injected into a mold, which is then taken out to produce a product. In particular, continuous casting during casting is performed by cooling and cutting molten steel, which has been refined in a refining furnace, Slabs, blooms, billets, and the like.

This continuous casting has advantages such as energy saving, improvement of product error rate, product production cost reduction, delivery time shortening, and easy automation and mechanization.

In addition, in the case of continuous casting using the continuous casting tundish provided with the sliding gate, the molten steel taken in the ladle at the beginning of the casting is supplied into the tundish through the long nozzle provided at the bottom of the ladle.

In a typical continuous casting facility, hot molten steel filled in a ladle is sent to a tundish through a collector nozzle and a shroud nozzle, and is introduced into a mold through a dipping nozzle in a tundish to produce a cast steel. In addition, collector nozzles and shroud nozzles in a continuous casting facility are provided to inhibit reoxidation when molten steel enters the tundish.

Also, the collector nozzle guides the high temperature molten steel contained in the ladle to the tundish through a shroud nozzle, which is a lower nozzle, and the ladle is injected into the ladle for about 60 minutes once. The shredding nozzle assembled to the lower part of the collector nozzle is used for about 60 minutes to 5 times to 10 times in continuous casting operation. After the use, the solidified molten steel attached to the inner wall is used after oxygen washing .

In particular, a conical sealing gasket is positioned between the collector nozzle and the contact portion of the shroud nozzle to prevent air from flowing into the gap between the collector nozzle and the shroud nozzle.

However, in the sealing gasket of the related art as described above, when the inclination of the bottom end of the collector nozzle is changed, there is a problem that the sealing member is difficult to be coupled thereto, and the sealing member is bonded to the shroud nozzle after use and can not be reused.

On the other hand, Korean Registered Utility Model No. 20-0325718 (published on Aug. 27, 2003) discloses a "sealing gasket used between a collector nozzle for continuous casting and a shrouding nozzle ".

The present invention has been made in view of the above-mentioned need, and it is an object of the present invention to provide a separator for a collector gasket for sealing a collector nozzle of a continuous casting facility, thereby facilitating installation of a collector nozzle, And to provide a sealing gasket for a collector nozzle of a continuous casting facility which can be reused.

In order to accomplish the above object, a sealing gasket for a collector nozzle of a continuous casting plant according to the present invention comprises: a ring member supported by a shroud nozzle and having an inner surface inclined downward; Wherein the outer surface of the first inclined portion is inserted and assembled into the ring member and the inner end of the second inclined portion is supported on the lower end of the collector nozzle to support the lower surface of the collector nozzle, And a cup member on which a cup is formed.

The ring member is characterized in that the heat resistant reinforcing layer is formed so as to ensure heat resistance and airtightness and to prevent bonding with the shroud nozzle due to heat of the molten steel.

The cup member is characterized in that the heat-resistant reinforcing layer is formed to secure heat resistance and airtightness and to prevent bonding with the shroud nozzle due to heat of the molten steel.

Further, the heat-resistant reinforcing layer is characterized in that kaolin is applied on the surface of the ring member and the cup member.

Further, the ring member includes 50% by weight of silicon dioxide, 45% by weight of aluminum oxide, and 5% by weight of other residues, and is manufactured at a density of 280 kg / m3.

In addition, the cup member includes 50 wt% of silicon dioxide, 45 wt% of aluminum oxide, and 5 wt% of other residues, and is manufactured with a density of 280 kg / m 3.

As described above, the sealing gasket for the collector nozzle of the continuous casting equipment according to the present invention is different from the conventional invention in that the collector member and the cup member for sealing the collector nozzle and the shroud nozzle of the continuous casting facility are separately formed, And the heat-resistant reinforcing layer is formed on the surface of the ring member and the cup member, so that the ring member and the cup member are prevented from joining the shroud nozzle by the heat of the molten steel, so that the ring member and the cup member can be reused.

1 is a view illustrating a continuous casting facility according to an embodiment of the present invention.
2 is a cross-sectional view illustrating a state in which a sealing gasket for a collector nozzle of a continuous casting facility according to an embodiment of the present invention is applied.
3 is a perspective view illustrating a sealing gasket for a collector nozzle of a continuous casting facility according to an embodiment of the present invention.
4 is a cross-sectional view illustrating a sealing gasket for a collector nozzle of a continuous casting facility according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of a sealing gasket for a collector nozzle of a continuous casting plant according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

2 is a cross-sectional view illustrating a state where a sealing gasket for a collector nozzle of a continuous casting facility according to an embodiment of the present invention is applied, and FIG. 2 is a cross- 3 is a perspective view illustrating a sealing gasket for a collector nozzle of a continuous casting facility according to an embodiment of the present invention, and FIG. 4 is a cross-sectional view illustrating a sealing gasket for a collector nozzle of a continuous casting facility according to an embodiment of the present invention.

1 to 4, the continuous casting equipment according to the present embodiment includes a ladle 10 for receiving molten steel, a sliding gate 20 for regulating molten steel discharged from the ladle 10, A collector nozzle 40 for delivering the molten steel of the ladle 10 to the tundish 30 and a shroud nozzle 50 secured to the tundish 30 to connect the ladle 10.

The continuous main facility according to this embodiment prevents air from flowing into the gap between the collector nozzle 40 and the shroud nozzle 50 during the continuous casting operation to lower the quality of the steel due to oxidation of the molten steel The sealing gasket 100 is positioned such that the collector nozzle 40 and the shroud nozzle 50 are prevented from being damaged by the mechanical compression stress during the contact process of the collector nozzle 40 and the shroud nozzle 50.

The sealing gasket 100 for a collector nozzle of a continuous casting plant according to an embodiment of the present invention includes a ring member 110 that is seated on the upper surface of a shroud nozzle 50 and a lower end of the collector nozzle 40 And a cup member 120 which is coupled to the ring member 110 so as to be rotatable. Since the ring member 110 and the cup member 120 are separately provided, the sealing gasket 100 for the collector nozzle of the continuous casting facility according to the present invention can be easily installed in the shroud nozzle 50 The collector nozzle 40 can be easily assembled.

The ring member 110 is supported by the shroud nozzle 50, and the cup member 120 is coupled to the inside. The ring member 110 is formed such that the inner surface thereof is inclined downward so that the cup member 120 is easily and stably engaged. That is, the diameter of the inner surface of the ring member 110 gradually decreases from the upper side to the lower side.

The ring member 110 includes 50% by weight of silicon dioxide, 45% by weight of aluminum oxide and 5% by weight of other residues so as to ensure heat resistance and durability, and can be manufactured with a density of 280 kg / m3. In addition, the heat resistant reinforcing layer 130 is formed on the outer surface of the ring member 110 to prevent the ring member 110 from being bonded to the shroud nozzle 50 and the collector nozzle 40 due to the heat of the molten steel. The heat-resistant reinforcing layer 130 is formed by applying kaolin on the outer surface of the ring member 110.

The cup member 120 is inserted and assembled into the inner surface of the ring member 110 and inserted into the shroud nozzle 50. The cup member 120 includes a first inclined portion 121 and a second inclined portion 120 so that the lower end of the collector nozzle 40 is inserted into the cup member 120 and the seat of the collector nozzle 40 is seated more tightly and stably. 123).

Here, the first inclined portion 121 is in contact with the inner surface of the ring member 110, and the second inclined portion 123 stably supports the outer surface of the lower end of the collector nozzle 40.

In addition, the cup member 120 extends inwardly from the second inclined portion 123 to form a seating end 125 supporting the lower surface of the collector nozzle 40.

The cup member 120 according to the present embodiment includes 50% by weight of silicon dioxide, 45% by weight of aluminum oxide, and 5% by weight of other residues so as to secure heat resistance and durability, and can be produced by compression molding at a density of 280 kg /

The cup member 120 is formed on the outer surface of the heat resistant reinforcing layer 130 like the ring member 110 so that the cup member 120 is prevented from being bonded to the ring member 110 and the shroud nozzle 50 and the collector nozzle 40 due to the heat of the molten steel. . The heat-resistant reinforcing layer 130 is formed by coating kaolin on the outer surface of the cup member 120.

The sealing gasket 100 for the collector nozzle of the continuous casting equipment according to an embodiment of the present invention having the above structure is provided with the collector nozzle 40 for the continuous casting equipment and the ring member 110 for sealing the shroud nozzle 50 The cup member 120 can be moved up and down by the ring member 110 according to the inner surface shape of the shroud nozzle 50 as well as being easy to install.

In the sealing gasket 100 for a collector nozzle of the continuous casting equipment according to the embodiment of the present invention, since the heat resistant reinforcing layer 130 is formed on the surfaces of the ring member 110 and the cup member 120, And the cup member 120 are prevented from being bonded to the shroud nozzle 50 and the collector nozzle 40 by the heat of the molten steel. Therefore, the reuse rate can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand.

Accordingly, the true scope of protection of the present invention should be defined by the claims.

10: Ladle 20: Sliding gate
30: Tundish 40: Collector nozzle
50: shroud nozzle
100: sealing gasket for collector nozzle 110: ring member
120: cup member 130: heat-resistant reinforcing layer

Claims (4)

A ring member supported on the shroud nozzle and having an inner surface formed to be inclined downward; And a first inclined portion and a second inclined portion having different inclination angles so that the collector nozzle and the collector nozzle are inserted and seated, wherein an outer surface of the first inclined portion is inserted and assembled into the ring member, And a cup member having a seating end for supporting the lower surface of the collector nozzle,
Wherein the ring member and the cup member are coated with kaolin so as to ensure heat resistance and airtightness and to prevent bonding with the shroud nozzle due to the heat of the molten steel to form a heat resistant reinforcing layer,
Characterized in that the ring member and the cup member comprise 50% by weight of silicon dioxide, 45% by weight of aluminum oxide, and 5% by weight of other residues and are manufactured with a density of 280 kg / m3. . delete delete delete

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