KR101938586B1 - Blowing apparatus of oxygen gas and installation method for the same - Google Patents

Abstract

According to the present invention, a steel oxygen blowing apparatus comprises: a blowing lance provided with an inner assembly having a hollow part and an outer assembly accommodating the inner assembly; a guide unit into which the blowing lance is inserted, and which guides one-way movement of the blowing lance; and a supply unit supplying gas to the hollow part of the inner assembly.

Description

TECHNICAL FIELD [0001] The present invention relates to a molten-

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a molten steel oxygen inserting device for performing stirring component adjustment of molten steel during scrap iron melting operation.

Generally, an electric furnace working process is a process of supplying a power for arcing to an electrode in an electric furnace, and performing a scrap melting operation by generating an arc between an electrode and a scrap. In the electric furnace, an iron scrap is charged into the electric furnace, and an electric current is flowed in an arc form to an electrode part which heats the iron scrap, which is a molten material, to heat the scrap. The electric furnace has an oxygen supply part for supplying oxygen into the molten steel, A blowing lance is provided.

Oxygen blowing work using the blowing lance is an operation for blowing oxygen into the electric furnace during the scrap melting operation, and is performed for increasing the scrap dissolution speed and reducing power during the scrap melting operation. In the electric furnace operation, the oxygen blowing operation requires the optimum use condition of the oxygen blowing through the installation position and angle setting of the blowing lance for efficient driving.

To this end, the operator continuously adjusts the position of the intake lance. This is because the blowing lance wears due to non-ideal stirring of molten steel / vortex / collapse of scrap metal / contact with molten steel. On the other hand, such adjustment work induces a difference in the molten steel agitation and composition depending on the skill level of each worker.

In addition, when the molten steel is stirred and vortexed during the dissolving work, the slag is piled up on the upper part of the observation hole to obstruct the worker's observation of the molten steel. In this case, when the slag accumulates, the observation dam must be removed and re-

Korean Patent Publication No. 2003-0054415 (published on July 02, 2003)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a molten steel oxygen receiving apparatus which solves the problem of scraping uneven solubility and component in oxygen blowing process during scrap iron melting operation.

According to an aspect of the invention, there is provided a blowing lance comprising an inner assembly having a hollow portion and an outer assembly for receiving the inner assembly; A guide unit for inserting the blowing lance therein and guiding the one-way movement thereof; And a supply unit for supplying a gas to the hollow portion of the inner assembly.

The inner assembly includes a body portion and a male threaded portion. The outer assembly includes an internal thread portion receiving the body portion and a female threaded portion engaged with the male threaded portion. The plurality of the blowing lances can be continuously connected in the longitudinal direction.

The inner assembly may be made of ceramic, and the outer assembly may be made of a soft material.

And a dolomite dam (40) installed around the intake lance and restricting the dolomite dam (40).

The guide unit includes a housing attached to a support plate and provided with upper and lower rolls and side rolls, and the blowing lance can be inserted into the electric furnace in contact with the upper and lower rolls and the side rolls.

According to another aspect of the present invention, there is provided a method of installing a molten steel oxygen filling apparatus for supplying oxygen to an electric furnace, the method comprising: a first receiving lance inserting step; Establishing a dam to restrain movement of the first picking lance; And installing a second blowing lance in the first blowing lance when the first blowing lance is worn.

The molten steel oxygen filling apparatus according to the present invention is characterized in that the blowing lance is positioned and fixed at the lower portion of the observation port to blow oxygen so that even in a non-ideal special situation such as stirring / vortex / lance wear / It is possible to produce molten steel with constant composition ratio without component variation.

In addition, since the blowing lance can be additionally connected and advanced even in the wear of the blowing lance, it is possible to continuously use the blowing lance, so that the equipment failure and the consumption amount of blowing lance can be reduced. This facilitates the operator's electric operation and facility management.

1 is a side view showing a state where a molten steel oxygen receiving apparatus is installed in an electric furnace according to an embodiment of the present invention.
2 is a perspective view of a molten steel oxygen ingestion device according to an embodiment of the present invention.
3 is a side view of a molten steel oxygen ingestion device according to an embodiment of the present invention.
4 is a front view of a blown lance according to one embodiment of the present invention.
5 is a perspective view of an intake lance according to an embodiment of the present invention.
FIG. 6 illustrates a connection method of an intake lance according to an embodiment of the present invention.
7 shows a state in which a blowing lance is installed in an electric furnace according to an embodiment of the present invention.
FIG. 8 shows a state in which an intake lance and a dam are installed according to an embodiment of the present invention.
Figures 9 and 10 illustrate the removal of now from a molten steel oxygen ingress device according to one embodiment of the present invention.
Fig. 11 shows an example of continuous installation of an intake lance 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. The following embodiments are provided to fully convey the spirit of the present invention to a person having ordinary skill in the art to which the present invention belongs. The present invention is not limited to the embodiments shown herein but may be embodied in other forms. For the sake of clarity, the drawings are not drawn to scale, and the size of the elements may be slightly exaggerated to facilitate understanding.

Conventional oxygen blowing has been performed by an operator inserting a blowing lance through an observation hole of an electric furnace and immersing a blowing lance in a molten steel slag interface to oxidize impurities in the molten steel. However, this method requires know-how to adjust and adjust the sub-materials appropriately so that the operator can keep the deposition depth of the intake lance at a constant level, and there is a problem that the result is different according to the skill of the worker.

In addition, the operator is required to constantly correct the depth of the intake lance deposition depth while observing the position of the intake lance through the observation port. If this operation is not properly performed, problems such as poor adjustment of the scrape- .

In addition, when the molten steel is stirred and vortexed during the melting process, the slag overflow and the accumulation of the slag overlay it obstructs the operator's observation of the molten steel. If the slag accumulates in this way, the observation dam must be removed by heavy equipment and re- did. In addition, since the molten metal electric furnace is operated in an environment of bad conditions such as high temperature dust in operating the blowing lance, there is a problem that frequent equipment failure occurs and needs to be solved.

1 is a side view showing a state where a molten steel oxygen ingestion device 100 is installed in an electric furnace 20 according to an embodiment of the present invention, FIG. 2 is a perspective view, FIG. 3 is a side view, and FIG. 4 is a front view Respectively. And FIG. 5 is a perspective view of an intake lance according to an embodiment of the present invention, and FIG. 6 shows a connection method thereof. Hereinafter, the respective parts will be described with reference to these drawings.

The slag 12 shown here means that when the ore or the metal is melted, the solvent, the nonmetal substance, the metal oxide, etc., remain on the molten steel 10 as a floating or scum. The molten steel 10 is prevented from flowing out to the outside through the molten steel 110. The molten steel 10 is prevented from flowing out to the outside through the molten steel 10, So that it is necessary to remove the bending lance 110 when it is necessary to advance the blowing lance 110 due to wear.

The electric furnace 20 is provided for scrap melting operation and supplies a power for arcing to the electrode rod 22 in the electric furnace to perform scrap melting operation by generating an arc between the electrode rod 22 and scrap do. The electric furnace 20 is charged with iron scrap, and electric current is flowed in an arc shape to an electrode rod 22 which heats the iron scrap, which is a molten material, to heat the scrap. At this time, (Not shown). The blowing lance 110 has a length of about 5 m, and the surface can be ceramic coated. On the other hand, the electrode rod 22 may be a black seed rod for supplying electric power to scrap iron.

The dam 40 may be made of dolomite having a hardness of 3.5 to 4 and a specific gravity of 2.8 to 2.9. The dam 40 is filled in the dam installation portion 42 located at the lower portion of the observation opening 24 to fix the position of the inlet lance 110. The dolomite dam 40 may be provided in the form of a stack of gravel stones.

As described above, the dam 40 is made of dolomite, so that the operation of moving the blowing lance 110 and re-installing the dolomite dam 40 can be easily performed. In the past, the dam was constructed as a quarry, which became a lump with the lance and now it was impossible to replace or modify it until the lifetime of the lance was over.

5, the blowing apparatus 100 includes an inlet lance 110 having an inner assembly 112 having a hollow portion 112b and an outer assembly 114 for receiving the inner assembly 112, A guide unit 120 for inserting a blowing lance 110 and guiding its unidirectional movement, and a supply unit 130 for supplying gas to the hollow portion of the inner assembly 112.

The inner assembly 112 may have a round bar shape and may have a male thread 112a at one end thereof. The outer assembly 114 is a rectangular tube having open ends at both ends thereof and can be provided with an inner thread portion 114b for receiving the body of the inner assembly 112 and a female thread portion 114a for fitting the male thread portion 112a . At this time, the inner assembly 112 is made of ceramics, and the outer assembly 114 can be made of a soft solder for increasing the service life due to abrasion occurring upon contact with molten steel during oxygen blowing.

A plurality of the blowing lances 110 including the inner assembly 112 and the outer assembly 114 described above may be continuously connected in the longitudinal direction. The blowing lance 110 is provided with a female screw 114a in the outer assembly 114 and a male screw 112a in the inner assembly 112 so that a plurality of the blowing lances 110 can be coupled in the longitudinal direction. As described above, the blowing lance 110 can be continuously used because it can be easily connected, so that it is possible to reduce not only equipment failure but also consumption of the blowing lance 110. Furthermore, this facilitates the operator's electric operation and facility management.

The supply unit 130 is a means for supplying oxygen with nozzles, and may be an oxygen supplier or an air compressor for pressurizing and sending ambient air. The operator can input oxygen as needed by opening the oxygen valve provided in the supply unit 130, and then the oxygen valve can be closed to complete the operation.

Referring to FIG. 6, the supply unit 130 is provided with a female screw part 130a and can be fastened to the male screw part 112a of the inner assembly 112. The plurality of blowing lances 110 are extended in the longitudinal direction and the feeding unit 130 is fastened to the ends of the blowing lances 110 to enable the fluid to be conveyed to the hollow portion 112b of the inner assembly 112. [

The guide unit 120 is a means for guiding the advancing or retreating of the blowing lance 110. The guide unit 120 is attached to the support plate 128 and has the upper and lower rolls 124 and the side rolls 126, So that the blowing lance 110 can be easily inserted into the housing 122 provided. The support plate 128 constitutes the outer wall of the dam 40 together with the dam laying portion 42 and can be erected vertically to the observation opening 24 of the electric furnace 20.

The support plate 128 facilitates the installation of dolomite and prevents molten steel and molten steel from leaking out of the molten steel and the slag 12 primarily by the dolomite dam 40 and the support plate 128.

As described above, the molten steel oxygen receiving apparatus 100 is configured such that the blowing lance 110 is positioned and fixed to the lower portion of the observation port 24 to blow oxygen, thereby making it possible to perform a special situation such as stirring / vortex / lance wear / It is possible to produce molten steel having a constant composition ratio without any variation of unheated components according to the skill of the operator.

7 shows a state in which a blowing lance 110 is installed in an electric furnace 20 according to an embodiment of the present invention. Fig. 8 shows a state in which a blowing lance 110 and a dam 40 are installed. And 10 show a state in which the present invention (30) is removed from the molten steel oxygen receiving apparatus. And Fig. 11 shows an example of continuous installation of an intake lance according to an embodiment of the present invention. Hereinafter, a method of installing the molten-steel oxygen import apparatus 100 will be described with reference to these drawings.

The installation method of the molten steel oxygen ingestion apparatus 100 includes a step of inserting the inlet lance 110 and a step of installing the dam 40. [ The inserting lance 110 is a step of inserting the inserting lance 110 into the guiding unit 120 and positioning the inserting lance 110 under the inspecting hole 24. The inserting position of the inserting lance 110 is 30 to 50 cm below the molten steel interface Lt; / RTI > The dam 40 may be installed at the periphery of the blowing lance 110 to form the dam 40 while fixing the dolomite.

Meanwhile, the molten steel oxygen injector 100 according to an embodiment of the present invention can easily extend another blowing lance 110 when the blowing lance 110 is worn. At this time, the extension of the acceptance lance 110 can be performed in the following order.

As shown in Figs. 9 and 10, first, the present 30 made in front of the blowing lance 110 is removed using a heavy equipment or the like. The present lance 30 is formed by melting and hardening on the surface where the blowing lance 110 and the molten steel 10 are in contact with each other. This is necessary to be removed first because it restricts the movement of the blowing lance 110.

Next, as shown in Fig. 11, the blowing lance which is easy to move back and forth is extended. When the installed first lancing lance 141 is worn by use, the other second lancing lance 142 is extended to the rear of the first lancing lance 141, It enables continuous use.

As described above, the molten steel oxygen receiving apparatus 100 according to the embodiment of the present invention is constructed such that the periphery of the blowing lance 110 is installed in the dolomite dam 40 so that the adjusting operation of the depth of the blowing lance 110 is unnecessary, (110) can be fixed and molten steel and slag flooding can be prevented.

In addition, since the blowing lance 110 is positioned and fixed to the lower portion of the observation opening 24 to blow oxygen, even in a non-ideal special situation such as stirring / vortex / lance wear / scrap metal fall of the molten steel, It is possible to produce molten steel with constant composition ratio without any deviation. (110) sinks the depth of the lance (110) so that the worker does not need to correct the position of the lance (110) and the production of a certain component and molten steel This is possible.

In addition, since the blowing lance 110 can be further connected and advanced by the wear of the blowing lance 110, it is possible to continuously use the blowing lance 110, thereby reducing the equipment failure and the consumption amount of the blowing lance 110. This facilitates the operator's electric operation and facility management.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, You will understand. Accordingly, the true scope of the invention should be determined only by the appended claims.

10: molten steel 12: slag
20: Electric furnace 22: Electrode
24: Observation Area 30: Now
40: dam 42: dam installation part
100: blowing device 110: blowing lance
112: inner assembly 112a:
112b: hollow part 114: outer assembly
114a: Female thread portion 114b:
120: guide unit 122: housing
124: upper and lower rolls 126: side rolls
128: support plate 130: supply unit
130a: female thread portion 141: first blowing lance
142: 2nd blowing lance

Claims (6)

An intake lance having an inner assembly having a hollow portion and an outer assembly for receiving the inner assembly;
A guide unit for inserting the blowing lance therein and guiding the one-way movement thereof; And
And a supply unit for supplying gas to the hollow portion of the inner assembly,
The inner assembly includes a body portion and a male screw portion,
Wherein the outer assembly includes an internal thread portion for receiving the body portion and a female threaded portion for fastening the male threaded portion,
Wherein the blowing lances are continuously fastened in a longitudinal direction and are restrained by a dolomite dam located at a lower portion of an observation hole of an electric furnace and installed around the electric furnace. delete The method according to claim 1,
Wherein the inner assembly is made of ceramic,
Wherein the outer assembly comprises a soft welded joint. delete The method according to claim 1,
The guide unit
A housing attached to the support plate and provided with upper and lower rolls and side rolls,
Wherein the blowing lance is inserted inside the electric furnace in contact with the upper and lower rolls and the side rolls. A method of installing a molten steel oxygen filling device for supplying oxygen to an electric furnace,
A first accepting lance inserting step;
Establishing a dam to constrain the first intake lance; And
And installing a second blowing lance on the first blowing lance when the first blowing lance is abraded.

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