KR100843834B1 - A method for supplying oxygen into converter - Google Patents

Abstract

The present invention relates to a method of cavitation of the inner wall wall attached to the refractory of the converter 1 and the furnace head attached to the furnace port 14 as the high pressure oxygen of the oxygen lance 17.

The present invention comprises the steps of vertically standing the converter (1) as a tilting motor (3) for rotating the converter support bar (19); Confirming the uprights of the converter (1) and blowing oxygen for removal of the current attached to the converter (1); Confirming the blowing of oxygen and repeatedly tilting the converter 1 at a set tilt angle; And checking that the converter 1 is repeatedly tilted a predetermined number of times, thereby rotating the converter 1 to an upright state as an initial state, and stopping the intake of oxygen.

According to the present invention, in the process of injecting the high pressure oxygen through the oxygen lance to the converter, the converter is repeatedly tilted at the charging side and the tapping side to be tilted at a predetermined angle, thereby improving the efficiency of removing the now and inner walls of the furnace.

Converter, Deduction, Kyungdong, Now

Description

A METHOD FOR SUPPLYING OXYGEN INTO CONVERTER}

Figure 1 (a) (b) is a perspective view showing a working state of the general converter,

Figure 2 (a) (b) (c) is a perspective view showing a state in which now occurs in a general converter,

Figure 3 (a) (b) is a state diagram of removing the current from the general converter,

4 is a configuration diagram showing a conventional method of notifying the converter;

Figure 5 is a state diagram showing the local wear of the refractory brick in the conventional method of defrosting converters,

Figure 6 (a) (b) is a working state diagram showing a method of deduction of the converter according to the present invention,

7 is an explanatory diagram showing a devotion method of a converter according to the present invention;

8 is a flow chart showing a method of notifying the converter according to the present invention.

        Explanation of symbols on the main parts of the drawings

1 .... converter 2 .... exit

3 .... Kyung-dong Motor 4 .... Course Ladle

6 .... tilt controller 10 ... angle measuring instrument

14 ... furnace 15 ... flue gas duct

19 ... Converter Bar 17 ... Oxygen Lance

The present invention relates to a method of notifying a converter, and more particularly, in the process of injecting high pressure oxygen into the converter through an oxygen lance, the converter is repeatedly tilted to the charging side and the tapping side to remove the present and the inner wall of the furnace. It is about a method of notifying converters that can improve the efficiency of the process.

In the converter process, which is a steelmaking process for refining molten iron with molten steel, a high pressure oxygen is blown through an oxygen lance to remove the current attached to the furnace of the converter. Conduct.

Such a deduction work is carried out when the current is excessively attached to the refractory wall of the converter or the furnace port of the converter, and a normal deduction work is carried out only when the converter is upright.

In more detail with regard to the equipment matters and general matters required for the converter voting work, as shown in Fig. 1 (a) (b), the converter (1) is a 360-degree rotation, the tilting motor (3) Installed in the converter support bar 19 rotated by), and discharges the molten steel pulled out through the tapping hole 2 to the tapping ladle 4 side, and the tilt motor 3 is a converter tilt controller 6. The controller 7 and the converter tilting panel 8 are electrically connected to each other, and an angle measuring device 10 measuring tilting angle is provided at one end of the converter support bar 19.

The converter 1 is erected so that the furnace port 14 is directed to the upper portion in accordance with the working conditions, or by tilting the converter (1) at an angle to tap the molten steel through the tap hole (2).                         

In addition, as shown in Fig. 2 (a), the high-pressure oxygen is blown through the lance nozzle 18 of the oxygen lance 17 disposed at the upper end of the furnace port 14 in the state in which the converter 1 is upright. To carry out the deduction of the converter.

Here, if the current is excessively attached to the refractory 13 or the furnace 14, which is the inner wall of the converter 1, the upper end of the lance guide car 21 assembled to the lance guide beam 20 to be movable Is fixed, the oxygen lance 17 disposed on the lance dome 16 of the exhaust gas duct 16 is lowered, and the lance nozzle 18 mounted at the lower end thereof is lowered and entered into the inner space of the converter 1, When the oxygen blowing operation is performed by opening the oxygen intake valve 22 connected to the lance controller 23 of the computer 24, as shown in FIG. 2 (b), the exhaust gas duct at the upper end of the furnace port 14. The hermetic refining contacting the lower end of (15) is difficult due to the now attached to the furnace port 14, and the exhaust gas duct 15 ruptures due to the attached now.

In addition, as shown in Fig. 2 (c), the weight is excessively attached to the furnace 14 during the tapping operation for tapping the converter (1) to tap the molten steel with the tapping ladle (4) Dropped by) dropping into the ladle (4) or falling to the peripheral equipment, while damaging the various equipment and caused the obstacle of the tapping work. In addition, as shown in Fig. 2 (d), the oxygen lance 17 is necessarily inserted into the converter 1 to inevitably prevent excessive attachment to the outer circumferential surface of the oxygen lance 17 during the blow operation. As a preliminary operation for removing the now attached to the inner wall of the converter (1) and the now attached to the furnace port 14 was performed a devotion work.

After the degassing operation is performed, as shown in Fig. 3 (a), a chute 26 is inserted into the converter 1, or as shown in Fig. 3 (b), power is applied. As the magnetic force generated at the time of separation, the now attached to the furnace port 14 was separated and the now removed using an electromagnet removal device 27 which is an electromagnet dropping to the slag port 28.

That is to say, the vacant work is also carried out to remove the current of the refractory 13 wall of the converter 1 and to simultaneously overheat the current of the furnace port 14 as the heat dissipated. It was.

Oxygen lance 17 used for such a degassing operation may be subjected to a degassing through the specially manufactured nozzle. However, the normal deodorization work is used by applying the oxygen lance (17), which is a general low used in the converter blow job, because it is not satisfactory to meet the operating conditions of alternating lances of different types. to be.

As described above, as shown in FIG. 4, the general oxygen lance 17 applied to the breathing operation is provided with a lance nozzle 18 at the lower end of the oxygen lance 17, and the lance nozzle 18 is provided. It consists of five or six nozzle holes 18a, and the angle which is injected also depends on the inclination of the nozzle holes 18a.

That is, the nozzle port 18a provided in the lance nozzle 18 of the oxygen lance 17 facilitates the molten steel refining reaction that is suitable for the furnace hole diameter of the converter 1 and the characteristics of the converter 1 to be used. The mechanism is built according to the nested work design.

In other words, when the high-pressure oxygen injected through the nozzle port 18a is blown into the furnace of the converter 1, the injection is performed at a predetermined angle and in a predetermined range so as to be mainly injected into the molten steel.

On the other hand, the conventional work of notifying the converter 1 removes the inner wall groove attached to the wall made up of the refractory 13 of the converter 1 and the furnace hole attached to the furnace port 14 of the converter 1. As shown in FIG. 4, in the state in which the converter 1 is upright, oxygen is blown into the converter 1 through the oxygen lance 17 and the oxidation reaction caused by the melt in the furnace is overheated. As the oxygen was cut by the oxidized melt in the present, the inner wall of the converter 1 and the furnace port were melted.

That is, while the converter 1 was upright, the oxygen lance 17 of the converter 1 was raised and lowered by a predetermined distance, and took the form of cavitation work.

However, the conventional work performed only in the state in which the converter 1 is upright is somewhat effective in terms of removing the now attached to the furnace port 14 of the converter 1 and the now attached to the bottom of the converter 1. However, as shown in FIG. 5, there is a problem that the efficiency is inferior in terms of the operation of removing the upper left 12a of the converter 1 and the right upper part 12b of the converter 1.

The inner wall of the converter (1) because the upper left (12a) and the upper right (12b) is located in a dead zone that does not directly affect the high-pressure oxygen is blown, hit the bottom surface and then indirectly affects, It was very difficult to remove the now attached to it. That is, in the angle of the lance nozzle 18 provided in the oxygen lance 17 of the converter 1, the high pressure oxygen (oxygen) of the upper left 12a and the right top 12b of the converter 1 is not blown in now. As a result, the inner wall of the converter 1 is not completely removed as a result.

Accordingly, when the current attached to the upper left (12a) and the upper right (112b) of the converter (1) is excessively accompanied by the refractory is naturally dropped by its own weight, as well as equipment accidents, the refractory of the converter (1) There was a problem of shortening the service life.

Further, by injecting oxygen at a high pressure locally and continuously in the state in which the converter 1 is upright, the converter is broken by the broken part P in which the refractory brick 13 around the bottom of the converter 1 is locally molten. It caused a problem of shortening the life span of the carcass.

In addition, when the current attached to the inner wall of the converter 1 is not removed, unstable drilling is caused by the formation of a cavity of the melt and a change in the mechanism of the molten steel reaction during the blowing operation for the production of molten steel in the converter 1. Added to the work.

In addition, in the case of repeatedly performing the deodorization work for elimination now, there is a problem of lowering the work productivity due to the increase in the unproductive working time administered to the deduction work.

Therefore, the present invention has been proposed to solve the conventional problems as described above, the object of which is to more easily remove the current attached to the inner wall, which is the refractory brick of the converter to prevent the instability of work during the drilling of the converter, By forming conditions that can be easily dropped now, the efficiency of the management work for removal is maximized, and the life of the furnace body is extended by preventing local converter refractory brick from being worn by the injected oxygen. It is possible to reduce costs by reducing the amount of oxy-oxygen used in the deodorization work, and to provide a deduction method for converters that can improve the work productivity of converter work.

As a technical configuration for achieving the above object, the present invention,

In the voting method of removing the inner wall shell attached to the refractory of the converter and the furnace shell attached to the furnace port as high pressure oxygen of an oxygen lance,

Vertically standing the converter as a tilt motor for rotating the converter support bar;

Confirming the uprights of the converter and blowing oxygen for removal of the current attached to the converter;

Confirming the intake of oxygen and repeatedly tilting the converter at a set tilt angle;
And checking that the converter is repeatedly tilted a predetermined number of times, thereby rotating the converter to an upright state, which is an initial state, and stopping the intake of oxygen.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

Figure 6 (a) (b) is a working state diagram showing a deconduction method of the converter according to the invention, Figure 7 is an explanatory view showing a deduction method of the converter according to the present invention, Figure 8 is a converter according to the present invention This is a flow chart showing the method of notifying of.

The method of the present invention is now and converter attached to the furnace port 14 as high pressure oxygen supplied into the converter from the oxygen lance 17 disposed on the furnace furnace 14 of the converter, as shown in FIGS. The converter 1 is tilted to easily remove the now attached to the refractory material 13 of the wall, and is composed of an upright step, a tilting step, and a returning step.

That is, in the upright step (S1) as a tilting motor (3) to rotate the converter support bar 19 so that the center line of the furnace port (14) of the converter (1) orthogonal to the converter support bar (19) before the decoction operation. The converter 1 is vertically upright. In other words, the converter support bar 19 is operated by the tilt motor 3 so that the center of the furnace port 14 is aligned with the oxygen lance 17 so that the converter 1 is made upright. The upright state of the converter 1 is measured by the angle measuring device 10 connected to the converter support bar 19 to measure the tilt angle (S2).

In the tilting step S4, the oxygen lance 17 is blown into the converter 1 in a state in which the oxygen lance 17 is disposed directly above the furnace port 14 of the converter 1. Open the connected oxygen intake valve 22, the converter (1) around the converter support bar (19) by the tilting controller (6) received when the open signal of the valve 22 by the step (S3). Tilt tilting is performed so as to tilt at a predetermined angle (step S4). In the tilting step (S4), as shown in FIG. 6A, the converter 1 is tilted at a predetermined angle to the tapping side (S4-1), and the converter 1 is shown on the other charging side opposite to that shown in FIG. 6B. As shown, a certain angle is tilted (S4-3). The tilting of the converter 1 may be performed by the angle measuring device 10 so that the angle at which the converter 1 is tilted is checked frequently (S4-2, S4-4) to allow repeated tilting.

When the converter 1 is tilted, the converter 1 has a tilt angle such that the high pressure oxygen injected from the oxygen lance 17 does not escape the center of the furnace port 14. Repeated tilting to the outside should be made.

That is, for example, in the case of a 250-ton class converter whose diameter of the converter furnace port 14 exceeds 3300 mm after the construction of the firebrick 13, the angle at which the converter 1 is tilted is 15 ° at the charging side and 15 at the exit side. It is controlled by the tilting controller 6 connected to the tilting motor 3 to be tilted within °.

In addition, the return step (S5) is the converter upright in the closing signal of the oxygen injection valve 22 to stop the operation of blowing the high-pressure oxygen into the converter (1) tilted through the oxygen lance (17) Return to the initial state.

The operation and effects of the present invention having the configuration as described above will be described.

Deduction work according to the present invention, first, so that the center line of the furnace port 14 of the converter 1 is perpendicular to the converter support bar 19, that is, the furnace port 14 and the oxygen lance 17 to form a straight line (1) ) Has an upright state (S1).

The upright state of the converter is connected to the converter support bar 19 is measured by the angle measuring device 10 for measuring the tilt angle of the converter (1) (S2), the converter 1 is made upright If it is confirmed by the angle measuring device 10, a signal is transmitted to the lance controller 23 to be transmitted to the tilt controller (6) and at the same time to perform the deodorization operation oxygen supply valve for supplying high pressure oxygen to the oxygen lance (17) Open 22.

Subsequently, when it is confirmed that oxygen is blown into the converter 1 by the lance controller 23 due to the opening of the oxygen intake valve 22 (S3), the controller 7 which recognizes this is a tilting controller ( 6) to drive the tilting motor 3 connected to the tilting support bar 19 of the converter 1, to perform the tilting step (S4).

Since the tilting motor 3 is a motor member which is easy to rotate the drive shaft in the forward or reverse direction, the converter 1 is tilted at a predetermined angle with respect to the tilting support bar 19 toward the outgoing side, and then charged oppositely. Tilt the side to a certain angle.

At this time, the tilt angle measurement value measured by the angle measuring device 10 for measuring the tilt angle of the converter 1 is transmitted to the controller 7 side at any time, and the controller 7 recognizing this tilts the tilt controller 6. The converter 1 is repeatedly tilted by repeating the converter by the converter tilt value (number of times) of a preset program.
That is, the tilting step (S4) is the converter (1) is made by the tilting motor 3 at an angle in any one direction (S4-1), the converter (1) through the angle measuring device 10 Tilt angle is measured (S4-2). When the measured tilting angle of the converter 1 does not reach the set angle, the tilting of the converter 1 is maintained in the same direction by the continuous driving of the tilting motor 3, and the tilting of the measured converter 1 is performed. When the angle reaches the set angle, the converter 1 is tilted at an angle in the opposite direction (S4-3). In this case, the tilt angle of the converter 1 is measured through the angle measuring device 10 (S4-4). When the measured tilting angle of the converter 1 does not reach the set angle, the tilting of the converter 1 is maintained in the same direction by the continuous driving of the tilting motor 3, and the tilting of the measured converter 1 is performed. When the angle reaches the set angle, it is repeated as many times as the number of ramps of the pre-set program to check whether the converter (1) is tilted (S4-5), if the repeated ramp is not performed for the set number of times, repeat the tilt Done.

When the converter 1 is tilted at the same time as the opening signal of the oxygen injection valve 22 as described above, among the inner walls of the converter 1 that is tilted, the inner walls of the upper left 12a and the upper right 12b are the oxygen lance ( Since it is exposed out of the blind spot so as to be directly affected by the high pressure oxygen injected from the lance nozzle 18 of 17), the inner wall is melted right now, attached to the furnace port 14, or melted to facilitate dropping, Now attached to the direct hitting the high-pressure oxygen supplied into the converter through the oxygen lance 17, it is easier to remove than to perform the deduction work in the conventional converter upright state.

In addition, the oxygen injected by the injection nozzle from the lance nozzle 18 of the oxygen lance 17 on the hearth of the converter 1 is continuously injected into the bottom surface of the converter at a predetermined point, but in the present invention, the oxygen lance Since the converter 1 is continuously tilted at a predetermined angle in the process of injection blowing through the 17, the refractory brick 13 constituting the bottom surface of the converter 1 is prevented from being locally worn and broken. .

The speed of tilting the converter 1 by the tilt motor 3 is injected from the oxygen lance 17 so as to be proportional to the speed of the high pressure oxygen injected through the oxygen lance 17 of the converter 1. When the injection amount of high-pressure oxygen is large, the tilting speed of the converter 1 is increased, and when the injection amount of the high-pressure oxygen injected is low, the tilting speed of the converter 1 is slowed to cut oxygen using a welding machine. Like the principle, the converter inner wall now attached to the fireproof brick is more easily removed.

On the other hand, if the devotion work to remove the now attached to the furnace 14 and the inner wall of the converter 1 is repeated by the preset tilt value (number of times) of the pre-set program, all are finished, the oxygen lance ( When the oxygen intake valve 22 for supplying high pressure oxygen to 22 is closed by the closing signal of the lance controller 23, the tilting controller 6 of the controller 7 which recognizes the closing signal is operated and the converter 1 ) Is driven to the upright state and the tilt motor 3 is returned to the initial state.

Then, the upright state of the converter 1 is detected by the angle measuring instrument 10, and this state is transmitted to the tilt controller 6 to stop the driving of the tilt motor 3 to thereby stop the upright state of the converter. Maintain (S5).

According to the present invention as described above, by repeatedly tilting the converter at a predetermined angle during the deodorization operation of removing the current attached to the furnace furnace of the converter and the current attached to the inner wall as high pressure oxygen, the inner wall of the converter is easily removed. Stability is maintained during the drilling operation of the converter, and the old and new ones can be easily dropped, thereby maximizing the efficiency of the now-removal management work, and significantly reducing the time required for the now-removal work compared to the prior art, thereby improving work productivity. . In addition, as in the prior art, the bottom of the converter is prevented from being worn out due to the high pressure oxygen injected during the de noeration, thereby prolonging the service life of the converter furnace, and reducing the amount of pure oxygen required for the de noxing operation. The effect of reducing the unit cost is obtained.

While the invention has been shown and described with respect to specific embodiments thereof, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit or scope of the invention as set forth in the claims below. I would like to clarify that knowledge is easy to know.

Claims (3)

In the method of notifying the inner wall chord attached to the refractory of the converter 1 and the furnace port chock attached to the furnace port 14 as high pressure oxygen of the oxygen lance 17, Vertically standing the converter (1) as a tilt motor (3) for rotating the converter support bar (19); Confirming the uprights of the converter (1) and blowing oxygen for removal of the current attached to the converter (1); After confirming the intake of oxygen, the converter 1 is tilted at an angle in one direction, and then the angle of the converter 1 tilted at the angle in the one direction is rotated at the set tilt angle to the opposite direction. After the converter 1 is tilted, it is confirmed that the angle of the converter 1 that is tilted again at the opposite direction is rotated by the set tilt angle, and the repetition of the converter 1 is performed by the set number of repeated tilts. Repeatedly tilting the converter (1) by the number of tilts; And confirming that the converter (1) is repeatedly tilted a predetermined number of times, thereby rotating the converter (1) to an upright state as an initial state, and stopping the intake of oxygen. The converter according to claim 1, wherein the hardness angle of the converter (1) in the tilting step is a tilting angle at which the high pressure oxygen injected from the oxygen lance (17) does not deviate from the region of the furnace port (14). How to Notify 2. The converter according to claim 1, wherein the speed at which the converter (1) is tilted in the tilting step is inclined in proportion to the injection speed of the high pressure oxygen injected into the converter (1) through the oxygen lance (17). Deduction Method.

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