KR101224014B1 - Apparatus and mothod for closing of entry nozzle in tundish - Google Patents

Abstract

The present invention relates to an apparatus and method for rapidly closing a tundish injection nozzle which can close the injection nozzle of the tundish in an emergency nozzle closing operation or a nozzle closing operation at the end of the casting, in particular in one embodiment of the present invention. The apparatus for fastening the injection nozzle of the tundish is installed in a tundish for raising and lowering the stopper by a stopper machine to control the opening and closing of the injection nozzle and closing the injection nozzle by cooling the molten steel around the injection nozzle. A cooling member freely falling around the injection nozzle to solidify the molten steel around the injection nozzle rapidly; It is installed on top of the tundish and optionally includes a support unit for supporting or dropping the cooling member.

Description

TAP DASH INJECTION NOZZLE CLOSING APPARATUS AND METHOD {APPARATUS AND MOTHOD FOR CLOSING OF ENTRY NOZZLE IN TUNDISH}

The present invention relates to an apparatus and method for rapidly closing injection nozzles of tundish, and more particularly, to injection of tundish which can quickly close the injection nozzle of tundish during emergency nozzle closing operation or nozzle closing operation at the end of casting. Nozzle quick closing device and method.

In general, continuous casting facilities are molten steel produced in the steelmaking process in ladles are transported to the tundish using a long nozzle in the continuous casting process, and then supplied as a mold to continuously produce cast pieces of the desired size.

An immersion nozzle for injecting molten steel into a mold is connected to the tundish, wherein the immersion nozzle is mounted on an injection nozzle (or a connecting nozzle) provided at the bottom of the tundish.

As a method of controlling the amount of molten steel injected into the mold in the tundish, a method using a stopper and a method using a sliding gate are used. In particular, the stopper type includes a stopper that is moved up and down by a stopper machine installed around the tundish, and the amount of molten steel injected into the mold by the tundish by adjusting the opening and closing amount of the injection nozzle using the stopper. To adjust.

However, when the stopper type molten steel control method is applied, the surface of the stopper is eroded due to repeated play at the end of the casting, or the inclusions are attached to the surface of the stopper. There is a problem that the separation between the stopper and the injection nozzle is not sealed and the residual molten steel in the tundish flow out.

In this case, the outflow steel is forcibly cut off by cutting the immersion nozzle by a hydraulic knife (Knife) installed around the immersion nozzle (SEN), but it takes the time and manpower to maintain the knife once used.

In addition, since the cut immersion nozzle falls inside the mold and is deposited in unsolidified molten steel, the worker is exposed to high-temperature radiant heat during the process of removing the nozzle from the molten steel, causing a problem for the safety of the operator, and the immersion nozzle is heavy. The nozzle removal operation itself requires considerable time and manpower.

In addition, when the outflow of the residual molten steel in the tundish is left as it is, molten steel falls into the mold and is fused to the cast slab, which causes direct failure of the equipment along with stagnation of the cast steel.

Embodiments of the present invention provide a tundish injection nozzle quick closing device and method capable of quickly closing a tundish injection nozzle by assisting a stopper in an emergency nozzle closing operation or a nozzle closing operation at the end of casting.

The present invention also provides an apparatus and method for rapidly closing an injection nozzle of a tundish capable of preventing leakage of tundish residual molten steel by rapidly cooling and solidifying molten steel around the injection nozzle even when the stopper is damaged.

The injection nozzle quick closing device of the tundish according to one embodiment of the present invention is installed in a tundish for controlling the opening and closing of the injection nozzle by raising and lowering the stopper by a stopper machine to close the injection nozzle by cooling the molten steel around the injection nozzle. An apparatus for making an apparatus, comprising: a cooling member freely falling along the stopper around the injection nozzle to rapidly solidify molten steel around the injection nozzle; It is installed on top of the tundish and optionally includes a support unit for supporting or dropping the cooling member.

The upper portion of the tundish is provided with a tundish cover, the tundish cover is formed with a stopper hole through which the stopper penetrates, and the support unit is installed to be fixed around the stopper hole of the tundish cover to one side of the cooling member. A fixed support for supporting the side; A moving support for pressing and supporting the other side of the cooling member or releasing the pressure to freely drop the cooling member; And moving means for advancing and moving the moving support toward the cooling member.

The moving means is a cylinder, the moving support is fixed to the front end of the movement shaft of the cylinder, characterized in that the tundish cover is provided with a guide block for guiding the movement shaft of the cylinder.

The cooling member has a pipe-shaped main body communicating with an upper portion and a lower portion and having an inner diameter larger than the diameter of the stopper and having an outer diameter smaller than the diameter of the stopper hole; It includes an insertion hole formed to pass through the stopper machine by cutting one point of the main body up and down.

It is preferable that the said cooling member is a metal material.

According to an embodiment of the present invention, a method of rapidly closing an injection nozzle of a tundish is a method of closing an injection nozzle in a tundish for opening and closing an injection nozzle by a stopper, comprising: disposing a cooling member on an upper portion of the tundish; Determining a closing time of the injection nozzle; And cooling the molten steel around the injection nozzle by dropping the cooling member to the inlet of the injection nozzle when the injection nozzle is closed.

In the step of cooling the molten steel around the injection nozzle, the cooling member is characterized in that the free fall to the inlet of the injection nozzle along the stopper.

And stopping the inlet of the injection nozzle with the stopper by lowering the stopper while cooling the molten steel around the injection nozzle.

According to an embodiment of the present invention, during an emergency nozzle closing operation or a nozzle closing operation at the end of the casting, the cooling member is freely dropped to the injection nozzle inlet of the tundish to rapidly cool the molten steel around the injection nozzle inlet, thereby By closing, there is an effect that can prevent the leakage of tundish residual molten steel.

In addition, when the nozzle cannot be completely closed due to stopper erosion due to repeated play at the end of casting and generation of gaps due to inclusions, the time used for maintenance after use is simpler and more reliable than closing with a conventional knife. Can save manpower.

1 is a perspective view illustrating a quick closing device for a nozzle of a tundish according to an embodiment of the present invention;
Figure 2 is a schematic cross-sectional view showing a continuous casting equipment is installed a quick closing device injection nozzle of the tundish according to an embodiment of the present invention,
Figure 3a and Figure 3b is a state diagram showing the state of using the injection nozzle quick closing device of the tundish 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.

1 is a perspective view illustrating a quick closing device of a tundish injection nozzle according to an embodiment of the present invention, and FIG. 2 is a schematic view of a continuous casting facility in which a quick nozzle closing device of a tundish is installed according to an embodiment of the present invention. It is a cross-section showing.

Prior to the description of the quick closing device of the tundish injection nozzle according to the embodiment of the present invention, the configuration of the continuous twisting equipment in which the apparatus according to the present invention is installed, in particular, the tundish provided with the stopper type molten steel control equipment It will be described with reference to the drawings.

Referring to FIG. 2, the tundish 10 is a means for adjusting the injection amount of molten steel when the molten steel produced in the steelmaking process is supplied to the mold 50 or temporarily storing molten steel for a continuous casting process. Has the shape of an enclosure that is opened. An immersion nozzle 13 for injecting molten steel into a mold is connected to the bottom of the tundish 10, and an injection nozzle 11 is provided on the bottom of the tundish 10 for connection of the immersion nozzle 13. do.

In addition, the opened upper surface of the tundish 10 is protected by the tundish cover 20, and at least one nozzle hole 23 and the stopper 40 through which the nozzle connected to the ladle passes through the tundish cover 20. A stopper hole 21 through which is passed is formed.

In addition, the stopper machine 30 is provided on the outside of the tundish 10 to generate a lifting motion of the stopper 40. Thus, as the stopper 40 is moved up and down by the movement of the stopper machine 30, the inlet of the injection nozzle 11 provided at the bottom of the tundish 10 is adjusted to open and close the mold ( 50) to control the injection amount of the molten steel injected into.

The apparatus for rapidly closing the injection nozzle of the tundish according to the present invention for supplementing the closing operation of the injection nozzle 11 by the stopper 40 in the tundish 10 related facility configured as described above is provided along the stopper 40. A cooling member (100) which freezes around the injection nozzle (11) to rapidly solidify the molten steel around the injection nozzle (11); It is installed on top of the tundish 10 includes a support unit 300 for selectively supporting or dropping the cooling member 100.

The cooling member 100 is charged into the molten steel to cool the molten steel around the injection nozzle 11 so as to rapidly solidify. The cooling member 100 includes molten steel contained in the tundish 10 at a predetermined height. After passing through it is formed of a material having a weight and melting point that can fall to the inlet of the injection nozzle (11). For example, the cooling member 100 is preferably formed of a metal material.

The cooling member 100 has a main body 110 formed in a cylindrical pipe shape in which the upper and lower parts communicate with each other so that the stopper 40 passes therethrough, and cuts one point of the main body 110 up and down. It includes an insertion hole 120 formed to pass through the stopper machine (30).

The main body 110 has an inner diameter larger than the diameter of the stopper 40 so as to pass along the stopper 40 through the stopper hole 21 formed in the tundish cover 20 during the drop, and the stopper It is preferable to have an outer diameter smaller than the diameter of the ball 21.

In addition, the length of the main body 110 may be changed in length depending on the casting situation or the capacity of the tundish 10.

The insertion hole 120 is preferably formed in a size and shape that can sufficiently pass through the stopper machine 30 when the cooling member 100 is positioned to support the support unit 300. For example, the width of the insertion hole 120 is formed to be larger than the thickness of the stopper machine 30 supporting the stopper 40, precisely, the arm 31 of the stopper machine 30, and is formed in a straight line in the vertical direction. desirable.

The support unit 300 is a means for supporting or dropping the cooling member 100 on the top of the tundish 10, and is installed to be fixed around the stopper hole 21 of the tundish cover 20 so as to fix the cooling member 100. A fixed support 310 supporting one side of the side; A moving support 320 for pressing and supporting the other side of the cooling member 100 or releasing the pressure to freely drop the cooling member 100; And a moving means 330 for moving the support 320 forward and backward in the direction of the cooling member 100.

The fixed supporter 310 is fixedly installed at a position opposite to the position at which the moving means 330 is installed with respect to the stopper hole 21, and has a shape corresponding to one side surface of the cooling member 100. For example, the radius of curvature of the cross section of the surface of the fixed support 310 that faces the cooling member 100 may correspond to the radius of curvature of the outer circumferential surface of the cooling member 100. In addition, the fixing support 310 is fixed on the wall extending line of the stopper hole 21 formed on the tundish cover 20 is the surface facing the cooling member 100, or the center direction of the stopper hole 21 It is preferable to be fixed so as to protrude by a predetermined distance.

The movable support 320 has a shape symmetrical with the fixed support 310. However, the length of the up and down direction is slightly shorter than that of the fixed support 310 so that the bottom surface of the movable support 320 is spaced apart from the top surface of the tundish cover 20 so that the movement of the movable support 320 is smoothly performed. It is preferable.

The moving means 330 may be applied in various ways to move the moving support 320 in the forward or backward direction toward the cooling member (100). For example, in the present embodiment, a cylinder 331 having a moving shaft 333 that is moved forward or backward by the moving means 330 is applied.

At this time, as the tumbled cover 20 passes through the shaft 333 of the cylinder 331, the guide block 340 guides the shaft 333 during the forward or backward movement of the shaft 333. This is installed.

A method of rapidly closing the injection nozzle of the tundish using the tundish injection nozzle quick closing device configured as described above will be described with reference to the drawings.

Figure 3a and Figure 3b is a state diagram showing the state of using the injection nozzle quick closing device of the tundish according to an embodiment of the present invention.

As shown in FIG. 3A, the cooling member 100 is introduced into the stopper hole 21 of the tundish 10 through the upper portion of the stopper 40 before or during the continuous casting. At this time, the cooling member 100 is preferably a portion of the lower portion is introduced into the stopper hole 21, the upper portion of the cooling member 100 is supported by the support unit 300.

In order to support the cooling member 100 to the support unit 300, the movement shaft 333 of the cylinder 331 is reversed, and then the cooling member 100 is introduced into the stopper hole 21 of the tundish 10. . In addition, the movement shaft 333 of the cylinder 331 is advanced so that the cooling member 100 is pressed between the fixed support 310 and the moving support 320 to be closely supported.

In this case, during the continuous casting in the state where the cooling member 100 is placed in the stopper hole 21, the nozzle is not closed due to the erosion of the stopper 40 due to the continuation of the stopper 40 due to the continuous casting and the end of the casting. In FIG. 3B, the cooling member 100 is dropped to rapidly cool the molten steel around the injection nozzle 11 of the tundish 10.

In order to drop the cooling member 100 around the injection nozzle 11 of the tundish 10, the movement shaft 333 of the cylinder 331 is reversed. As a result, the moving support body 320 moves backwards integrally with the backward movement of the movement shaft 333, thereby releasing the supporting force of the cooling member 100 supported between the fixed support body 310 and the moving support body 320 to cool down. Free fall by the weight of the member 100. At this time, the free fall cooling member 100 is dropped along the stopper 40 is located at the inlet of the injection nozzle (11). At this time, it is preferable that the process of blocking the inlet of the injection nozzle 11 with the stopper 40 proceeds at the same time as the stopper 40 is lowered by operating the stopper machine 30 while the cooling member 100 falls. . Therefore, the cooling member 100 dropped into the molten steel while partially blocking the inlet of the injection nozzle 11 with the stopper 40 rapidly cools the molten steel trapped in a predetermined space formed between the stopper 40 and the cooling member 100. By solidifying, the inlet nozzle 11 is closed.

As the inlet of the injection nozzle 11 is closed at the same time by the stopper 40 and the cooling member 100, residual molten steel inside the tundish 10 is prevented from flowing out through the injection nozzle 11, thereby causing an accident. It can prevent.

At this time, the cooling member 100 can be dropped continuously one or a plurality, it can be used with a conventional knife according to the degree of emergency situation.

The present invention is not limited to the above-described embodiments, but may be embodied in various forms. In other words, the above-described embodiments are provided so that the disclosure of the present invention is complete, and those skilled in the art will fully understand the scope of the invention, and the scope of the present invention should be understood by the appended claims .

10: Tundish 11: Injection Nozzle
20: tundish cover 21: stopper ball
30: stopper machine 40: stopper
50: template
100: cooling member 110: main body
120: insertion hole 300: support unit
310: fixed support 320: moving support
330: vehicle 331: cylinder
333: axis of motion 340: guide block

Claims (8)

It is installed in the tundish which controls the opening and closing of the injection nozzle by raising and lowering the stopper by the stopper machine and cooling the molten steel around the injection nozzle to close the injection nozzle.
A cooling member freely falling around the injection nozzle along the stopper to rapidly solidify the molten steel around the injection nozzle;
A support unit installed on an upper portion of the tundish and selectively supporting the cooling member on an upper portion of the tundish or releasing a supporting force to freely drop the cooling member;
The cooling member has a top and bottom communication with the body, the stopper penetrates through therein; And
It includes an insertion hole which is formed to pass the stopper machine by cutting the main body up and down Tundish injection nozzle quick closure device.
The method according to claim 1,
An upper portion of the tundish is provided with a tundish cover, and the tundish cover has a stopper hole through which the stopper penetrates.
The support unit
A fixed support installed to be fixed around the stopper hole of the tundish cover to support one side of the cooling member;
A moving support for pressing and supporting the other side of the cooling member or releasing the pressure to freely drop the cooling member;
A tundish injection nozzle quick closing device comprising moving means for moving the support forward and backward in the direction of the cooling member.
The method according to claim 2,
The moving means is a cylinder, the moving support is fixed to the tip of the axis of motion of the cylinder,
The tundish cover of the tundish injection nozzle quick closing device is provided with a guide block for guiding the movement axis of the cylinder.
The method according to claim 2,
And the main body has an inner diameter larger than the diameter of the stopper and has an outer diameter smaller than the diameter of the stopper hole.
The method according to any one of claims 1 to 4,
And the cooling member is a metal material of a tundish injection nozzle quick closing device.
A method of closing an injection nozzle in a tundish for opening and closing the injection nozzle by a stopper,
Placing a cooling member on top of the tundish;
Determining a closing time of the injection nozzle;
Freely dropping a cooling member around the stopper when the injection nozzle is closed so that the freely falling cooling member is positioned at the inlet of the injection nozzle;
Cooling and solidifying molten steel around the injection nozzle in a space formed between the stopper and the cooling member; And
And a step of dropping the stopper to penetrate the inside of the cooling member.
delete The method of claim 6,
And closing the stopper while the molten steel around the injection nozzle is cooled and solidified to close the inlet of the injection nozzle with the stopper.

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