KR100777234B1 - Eccentric bottom tapping opener of electrode arc furnace - Google Patents

Abstract

The present invention relates to an eccentric nozzle exit opener of an electric furnace,

In the conventional eccentric notch outlet opener having a graphite 151 for sealing the upper eccentric nozzle outlet, and a graphite fixing plate 152 for holding and fixing the graphite 151, the upper portion of the graphite fixing plate 152 A side plate portion 268 vertically formed along a surface periphery; Penetrating through each of the plurality of bolt holes 265 formed symmetrically distributed with respect to the center point of the graphite fixing plate 152, the bolt support 264 is formed integrally at the upper end, the adjustment nut 267 is coupled to the lower end Fine adjustment bolt 262 is installed; Springs 263 which are respectively inserted into and installed in the fine adjustment bolts 262 at positions between the bolt pedestal 264 and the upper surface of the graphite fixing plate 152; Fine adjustment bolts 262 respectively coupled to fine adjustment bolts 262 at the bottom of the graphite fixing plate 152 to maintain the spring 263 at a predetermined adjustment height; Located in the inner space surrounded by the side plate portion 268, is distributed and supported by the respective bolt pedestal 264 is given a restoring force by the spring 263, the upper surface by supporting the graphite 151 It characterized in that it comprises a balance plate (261) in close contact with the eccentric notch exit of the,

It prevents sand flowing down and molten steel during operation, preventing large-scale equipment accidents caused by molten steel leakage, improving working efficiency with electricity, and improving the quality of molten steel by reducing the outflow of slag in the furnace. do.

Furnace, Eccentric Nozzle Door, Opener

Description

ECCENTRIC BOTTOM TAPPING OPENER OF ELECTRODE ARC FURNACE}

1 is a schematic diagram showing a tapping operation state of a general electric furnace having an eccentric nozzle tap;

2 is a cross-sectional configuration diagram of a general electric furnace having an eccentric nozzle outlet;

Figure 3a is a detailed cross-sectional view of the eccentric notch exit with a conventional opener,

Figure 3b is a bottom view of a conventional eccentric nozzle outlet opener,

Figure 4a is a detailed cross-sectional view of the eccentric nozzle outlet with an opener according to the present invention,

Figure 4b is a bottom view of the eccentric nozzle outlet opener according to the present invention,

5 is an operational state diagram of the eccentric nozzle exit opener according to the present invention.

<Description of Symbols for Main Parts of Drawings>

101: electric furnace body 102: upper electrode rod

103: electric furnace lower electrode 104: electric furnace exit hole

105: ferroalloy injection tube 106: molten steel ladle (LADLE)

107: molten steel in steel 108: molten steel in electric furnace

109: furnace loop (ROOF) 112: outlet fill

114: exit fixing plate 150: eccentric nozzle exit opener                 

151: graphite 152: graphite fixing plate

153: rod (ROD) fixed plate 154: opener rod

155: opener fixing pin 160: sand

261: balance plate 262: fine adjustment bolt

263: spring 264: bolt support

265: bolt hole 266: fine adjustment nut

267: adjusting nut 268: side plate

270: N ₂ purge line 271: N ₂ purge nozzle

The present invention relates to an eccentric nozzle outlet opener of an electric furnace, in the opening and closing of the eccentric nozzle outlet for tapping out molten steel that has been dissolved by arc (ARC) in the electric furnace, horizontal adjustment by the operator is possible, and automatically airtight The state can be corrected, and by using N ₂ purge to prevent thermal deformation and removal of foreign matters by cooling, it can improve the adhesion to the tap hole and suppress the risk of sand flowing down and molten steel during operation. So that it relates to an eccentric nodular exit opener in an electric furnace.

1 is a schematic diagram showing a tapping operation state of a general electric furnace having an eccentric notch outlet, FIG. 2 is a cross-sectional configuration of a general electric furnace having an eccentric notch outlet, and FIG. 3A is an eccentric nose having a conventional opener. 3B is a bottom view of a conventional eccentric notched outlet opener.

In general, electric furnaces are used to dissolve scrap (SCRAP) by heat of oxidation of arc (ARC) and oxygen, and to take molten molten steel out of the steel ladle to obtain high-temperature molten steel.

The electric furnace adopts one of two methods, e.g., EBT (ECCENTRIC BOTTOM TAPPING), depending on the way of tapping. Almost all tapping methods in electric furnace reduce the time of tapping when tapping. To reduce the temperature drop (DROP) during tapping, and to minimize the slag (SLAG) flowing into the ladle (LADLE) eccentric nose tapping method is used. 1 and 2 schematically show a configuration of a general electric furnace having such an eccentric nozzle outlet.

After melting is completed using ARC for SCRAP (Scrap Metal), molten steel is refined in the furnace and pulled out through the EBT installed in the lower part of the furnace body. .

During the above tapping operation, ferroalloy is added through CHUTE to mix the desired components to satisfy the appropriate product components and required mechanical properties required by the consumer. Etc.), and after passing through the secondary refining process LF (LADLE FURNACE) and VTD (VACUUM TANK DEGASING), and then sent to a continuous rolling process to produce a hot rolled coil (HOT COIL).                         

After the tapping is completed, the electric furnace tap opening (EBT) has a circular cross-sectional shape (about 160 mm in diameter when installed at the working site of the inventors) while forming a pupil, so as to withstand high temperature molten steel. It is constructed with high temperature reinforced lead.

An opener facility is installed in the lower portion of the eccentric notch outlet to seal the outlet, and after filling the opener and filling the pupil of the eccentric notch outlet with about 80 kg to 120 kg of MgO sand, the scrap is charged into the furnace. Arc dissolution is performed.

At this time, the airtight state of the eccentric notch outlet opener which seals the eccentric notch outlet becomes very important. That is, the opener of the eccentric nozzle exit is remotely controlled by the operator's equipment operation and electric furnace automatic driving conditions, so that the opener must be completely sealed to prevent large equipment accidents such as molten steel spill accident.

The eccentric tap tapping method takes a tap tap (DEEP BATH) method due to the characteristics of the furnace body of the electric furnace, as described above to open and close the tap hole 104 of the bottom opener (OPENER) as shown in Figures 3a and 3b : 150).

By the way, in the case of using the conventional opener 150 as shown in Figures 3a and 3b, the positive pressure of the molten steel 108 acting on the upper portion of the eccentric notch exit port is blocking the eccentric notch outlet 104 It acts on the sealing sand (SAND: 160), the eccentric notch outlet from time to time due to the structural limitations of the opener 150 for sealing the sand 160 and the arc vibration of the upper electrode rod 102 used for melting the scrap. Due to a phenomenon in which the adhesion of the opener 150 is weakened, there are frequent cases in which hot molten steel in the furnace flows out to the eccentric notch outlet side with the outflow of sand through the eccentric notch outlet 104. There was this.

In addition, after the completion of the tapping, the opener of the eccentric notch tap opening is locally deformed and twisted together with the electric furnace shell by the high-temperature flame generated during the taping, whereby the sand is not completely sealed during the post work, and the sand is naturally leaked. There was a problem that occurs.

The present invention is to solve the above problems, in opening and closing the eccentric nozzle exit port for tapping the molten steel finished by the arc (ARC) in the electric furnace, it is possible to adjust the horizontal level by the operator, automatically sealed state By using N ₂ purge, it is possible to prevent thermal deformation and removal of foreign substances by cooling, to prevent sand flowing down and spilled molten steel during operation, thereby preventing large equipment accidents caused by molten steel leakage and Its purpose is to provide an electric furnace eccentric nozzle exit opener that can improve the work efficiency of the furnace.

The present invention for achieving the above object, a conventional eccentric nose having a graphite 151 to be in close contact with the upper eccentric nozzle outlet and the graphite fixing plate 152 to support and fix the graphite 151. In the door opener,

A side plate portion 268 formed vertically around the upper surface of the graphite fixing plate 152; Penetrating through each of the plurality of bolt holes 265 formed symmetrically distributed with respect to the center point of the graphite fixing plate 152, the bolt support 264 is formed integrally at the upper end, the adjustment nut 267 is coupled to the lower end Fine adjustment bolt 262 is installed; Springs 263 which are respectively inserted into and installed in the fine adjustment bolts 262 at positions between the bolt pedestal 264 and the upper surface of the graphite fixing plate 152; Fine adjustment bolts 262 respectively coupled to fine adjustment bolts 262 at the bottom of the graphite fixing plate 152 to maintain the spring 263 at a predetermined adjustment height; Located in the inner space surrounded by the side plate portion 268, is distributed and supported by the respective bolt pedestal 264 is given a restoring force by the spring 263, the upper surface by supporting the graphite 151 It characterized in that it comprises a balance plate (261) in close contact with the eccentric notch exit.

In addition, the present invention, the plurality of N ₂ purge nozzles 271 are formed symmetrically distributed with respect to the center point of the graphite fixing plate 152, and receives the purge gas from the lower N ₂ purge line 270 to inject upwards Characterized in that further comprises a.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A preferred embodiment of the present invention eccentric nozzle outlet opener will be described with reference to the drawings.

Figure 4a is a detailed cross-sectional view of the eccentric notch outlet with an opener according to the present invention, Figure 4b is a bottom view of the eccentric notch outlet opener according to the present invention, Figure 5 is an operational state diagram of the eccentric nozzle outlet opener according to the present invention. .

The eccentric nozzle outlet opener according to the present invention is configured in the form of an additional component for improving the adhesion to the outlet in the state almost maintaining the basic structure of the conventional opener, the same as the conventional It is configured to be in close contact with the lower portion of the tap fixing plate 114 for supporting and fixing the tap.

The conventional opener is used to move and support the graphite 151 used as a blind plate, the graphite fixing plate 152 for fixing the graphite 151, and the graphite fixing plate 152 to improve adhesion to the tap hole. The rod fixing plate 153 and the opener rod 154, the opener fixing pin 155, etc., the graphite 151 is to be replaced at any time when worn or burned out, the graphite fixing plate 152 is about 600mm It is designed to be operated by an air cylinder (not shown) that can move to the left and right to an extent.

In the present invention, the graphite 151 and the graphite fixing plate 152 are provided as substantially the same as the conventional one, as shown in Figures 4a and 4b, to enable horizontal adjustment and horizontal balance correction of the graphite 151, A balance plate 261 capable of rotating 360 degrees and being provided with up and down fluidity, a plurality of springs 263 supporting and buffering them from the bottom, and a fine adjustment bolt 262 for adjusting the vertical height through the springs 263. ) And fine adjustment nut 266, adjustment nut 267.

Through such a configuration, the eccentric nozzle outlet opener 150 can be completely in close contact with the outlet fixing plate 114 by the air cylinder, so that the airtightness maintaining effect of the outlet can be significantly improved.

In addition, the eccentric nozzle outlet opener of the present invention, in addition to the conventional air purge facility (not shown) that has been conventionally used, the N ₂ purge line 270 and the N ₂ purge nozzle 271 is further configured, through which the opener By improving the cooling effect of the facility to prevent thermal deformation due to high heat flame, foreign matter in the facility can be easily removed.

When the opener 150 is sealed to the eccentric notch outlet side, it is moved and sealed by an air cylinder (not shown) and the opener rod 154 to the extent that they can be mutually sealed by the upper outlet fixing plate 114. The balance plate 261 supporting the graphite 151 is supported by the fine adjustment bolt 262 and the spring 263 while being maintained at a predetermined distance from the lower graphite fixing plate 152 to receive fluidity, thereby providing graphite. 151 may be in close contact with the upper exit.

When it is determined that the adhesion of the graphite 151 is deteriorated, the operator adjusts the fine adjustment nut 266 and the adjustment nut 267 screwed to the fine adjustment bolt 262 to place the upper portion of the fine adjustment bolt 262. The height of the balance plate 261 can be selectively adjusted, and also local adjustment can be made in response to burnout and wear of the graphite 151. At this time, the adjustment of the fine adjustment bolt 262 can be made by the operator using a general hand tool.

The side plate portion 268 formed vertically around the upper surface of the graphite fixing plate 152 prevents the balance plate 261 from deviating laterally.                     

On the other hand, the plurality of bolt holes 265 formed symmetrically distributed with respect to the center point of the graphite fixing plate 152 is formed in an appropriate number in consideration of the size and operating conditions (load applied from the top) of the graphite fixing plate 152. In this embodiment, a total of six were formed symmetrically about the center as shown.

N ₂ purge nozzle 271 is provided in the graphite fixing plate 152 makes it possible to carry out N ₂ purging to prevent thermal deformation of the opener through the cooling equipment and prevent the accumulation of debris. The N ₂ purge nozzles 271 which are symmetrically distributed with respect to the center point of the graphite fixing plate 152 are formed in an appropriate number in consideration of the size and operating conditions of the graphite fixing plate 152, as shown in the present embodiment. A total of eight were formed.

Such an eccentric nozzle outlet opener of the electric furnace of the present invention prevents sand flowing down and molten steel outflow during operation to prevent large-scale equipment accidents due to the leakage of molten steel, and increases the average replacement cycle of graphite used when the outlet is closed. It improves work efficiency by reducing the inconvenience of having to repeat checking and maintainability at every tap and improves the quality of molten steel and reduces the use of various ferrous alloys and deoxidizers. Provides the effect of reduction.

Claims (2)

In the conventional eccentric notch outlet opener having a graphite 151 that is in close contact with the upper eccentric notch outlet and the graphite fixing plate 152 for holding and fixing the graphite 151, A side plate portion 268 formed vertically around the upper surface of the graphite fixing plate 152; Penetrating through each of the plurality of bolt holes 265 formed symmetrically distributed with respect to the center point of the graphite fixing plate 152, the bolt support 264 is formed integrally at the upper end, the adjustment nut 267 is coupled to the lower end Fine adjustment bolt 262 is installed; Springs 263 which are respectively inserted into and installed in the fine adjustment bolts 262 at positions between the bolt pedestal 264 and the upper surface of the graphite fixing plate 152; Fine adjustment bolts 262 respectively coupled to fine adjustment bolts 262 at the bottom of the graphite fixing plate 152 to maintain the spring 263 at a predetermined adjustment height; Located in the inner space surrounded by the side plate portion 268, is distributed and supported by the respective bolt pedestal 264 is given a restoring force by the spring 263, the upper surface by supporting the graphite 151 Eccentric notch outlet opener of the electric furnace characterized in that it comprises a balance plate (261) in close contact with the eccentric notch outlet. The method of claim 1, It is formed to be symmetrically distributed with respect to the center point of the graphite fixing plate 152, and further comprises a plurality of N ₂ purge nozzles 271 to receive the purge gas from the lower N ₂ purge line 270 to inject upwards Eccentric nozzle outlet opener of the electric furnace, characterized in that.

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