KR100910497B1 - A mini-sleeve for a tapping hole of converter - Google Patents

Abstract

The present invention relates to a mini-sleeve of the converter exit that serves as an outflow passage of the molten steel during the tapping operation for outflowing the molten steel refined in the converter into the taps.

According to the present invention, the lower end of one sleeve element forms a round diameter enlargement having an outer diameter and an inner diameter larger than the upper end, and the upper end of the other sleeve element adjacent to the one sleeve element is fitted to the diameter enlargement portion, The lower end of the other sleeve element forms a round diameter enlargement having an outer diameter and an inner diameter larger than the upper end thereof, and the upper end of another adjacent sleeve element is fitted to the diameter enlargement part and connected in series. The lowermost mini sleeve has a cylindrical structure to provide a converter outlet mini sleeve coupled to the main sleeve.

According to the present invention, the structural strength is improved, and the component ratio is excellent in corrosion resistance and spalling resistance to prevent wear and erosion by hot molten steel and oxygen in the atmosphere, thereby improving durability and improving productivity of refining operations. An improved effect is obtained.

Converter, outlet, main sleeve, mini sleeve, fit fitting

Description

Mini-sleeve of the converter exit {A MINI-SLEEVE FOR A TAPPING HOLE OF CONVERTER}

1 is a schematic diagram of the configuration of a general converter and converter exit,

a) is a schematic diagram showing the situation of the transfer operation,

      b) a detailed cross-sectional view of the converter outlet section;

2 is a block diagram of a converter outlet mini sleeve according to the prior art,

a) is a diagram illustrating the specifications of the mini sleeve of a typical converter outlet,

b) is a schematic diagram illustrating the specifications of the converter outlet mini sleeve,

      c) is a schematic diagram illustrating the role of the converter outlet mini sleeve;

3 is a detailed view showing the shape of a conventional mini sleeve,

a) is an exploded perspective view showing the shape of a conventional mini sleeve,

b) is a coupling diagram showing the shape of a conventional mini sleeve;

4 is a schematic diagram illustrating a problem of a conventional converter outlet mini sleeve,

a) is an explanatory diagram showing a problem caused by the wear of the mini sleeve easily,

b) an enlarged view in which the connection of the mini sleeve is easily worn;

5 is a partial cutaway cross-sectional view showing a state in which a conventional converter outlet mini sleeve is easily worn;                 

6 is a detailed view showing a mini sleeve according to the present invention,

      a) is a partial cutaway perspective view,

b) exploded perspective view;

7 is a cross-sectional view showing a state in which the mini sleeve according to the present invention is mounted on the exit of the converter;

8 is a comparison chart of the configuration according to the chemical composition of the mini sleeve according to the prior art and the present invention;

9 is a comparison table for explaining the results of applying the conventional mini-sleeve of the present invention;

10 is a comparison table showing the results obtained through the examples of the conventional mini-sleeve according to the present invention,

        a) is a result table obtained using a conventional technique,

        b) is a result table obtained using the present invention.

       <Description of the symbols for the main parts of the drawings>

1 ..... Mini Sleeve 1a, 1b .... Sleeve Element

5 .... diameter enlargement 7 .... top

100 ... converter 110 ... 110

112 ... mini sleeve 116 .... spray fireproof material

M .... molten steel

The present invention relates to a mini-sleeve of the converter outlet that is the outflow passage of the molten steel during the tapping operation to outflow the molten steel refined in the converter, more specifically, a plurality of sleeve elements are fitted to fit the main sleeve side Its structural strength improves its structural strength and its corrosion resistance and spalling resistance make it easy to prevent wear and erosion by hot molten steel and oxygen in the air, improving durability and improving the productivity of refining operations. To a mini sleeve in a converter outlet that has been improved.

In general, in the converter 100 of the steelmaking process for refining the molten iron to the molten steel (M), as shown in Figure 1, the refined molten steel (M) tapping through the tapping hole 110 to the tapping ladle 120. In this process, the tapping hole 110 serving as an outlet passage of the hot molten steel M in the course of the tapping is provided with a main sleeve 112 and a mini sleeve 114 as its main components.

As such, the converter outlet 110 serves as a passage through which the molten steel M in the converter furnace flows out, and the mini sleeve 114 is fitted to the rear portion of the main sleeve 112 so that the main sleeve 112 is closed. ) Is not easily worn by the high temperature molten steel (M) to serve as a series of auxiliary roles to extend the life of the outlet 110 long.

This mini-sleeve 114 is intended to be used in accordance with the inner diameter size of the sleeve (sleeve) and its application effect is different, as shown in Table 1 shown in a) of FIG. In this application, the impact on the converter operation varies according to the diameter of the mini sleeve 114.

In addition, as shown in b) of FIG. 2, the mini-sleeve 114 has a property of mag carbon (Mg-C), and its thickness generally corresponds to 45 mm to 60 mm. And, the mini sleeve 114 is fixed on the refractory of the converter 100 on the rear side of the main sleeve 112, that is, the inner side of the converter 100, in the process of fixing the refractory spray refractory material 116 around it Is reinforced.

Such a mini sleeve 114 of the converter outlet 110 is conventionally shown in FIG. 3, where a plurality of sleeve elements 114a have a cylindrical general flat shape, and in combination and application thereof. Also, they are assembled in a row and mounted on the rear side of the tap hole 110.

Moreover, also in the chemical component which comprises this, it has been used in the form which uses 98% or less of graphite purity, without using an electrolytic clinker.

However, the conventional mini sleeve 114 as described above has a general cylindrical sleeve element 114a on the refractory 105 of the converter 100 as shown in FIG. It is mounted on the converter outlet 110 in the form of stacked on.

The mini sleeve 114 wears the spray refractories 116 by the hot molten steel (M) during the tapping process of the converter 100, and at the same time the wear of the mini sleeve 114 is easily made, the outlet of the converter 100 It causes the spreading and thickening of the molten steel (M) flowing through the (110).

As a result, the mini sleeve 114 according to the related art has a large amount of slag that flows from the converter tapping hole 110 to the molten steel M in the tapping ladle 120 due to the failure of tapping flow, resulting in molten steel M. The problem of degrading the quality of it is derived.

In addition, as shown in FIG. 5, the interface between the components 114a of each of the mini sleeves 114 is worn in a recessed form, and the converter outlet hole (with a decrease in the service life of the mini sleeves 114). 110 to provide a cause for reducing the lifetime.

This is due to an increase in the amount of use of the mini sleeve 114 of the converter outlet 110 and an increase in the cost of repairing the outlet 110 due to a decrease in the life of the main sleeve 112, thereby increasing the cost of manufacturing molten steel (M). It is the main cause of the problem. In addition, there is also a problem of reducing the molten steel (M) productivity by shortening the refining time according to the maintenance work of the converter tap.

As such, the wear of the mini sleeve 114 has a great influence on the wear of the main sleeve 112 of the converter outlet 110 in contact with the mini sleeve 114, and thus the molten steel that flows out to the outlet 110 in the converter. It provides tremendous influence on the flow of (M), the thickness of the molten steel (M), and the spread of tapping flow. Therefore, in order to smooth the tapping flow during the tapping process of the converter 100, the necessity of maintaining the state of the mini sleeve 114 is rising, and when the state of the mini sleeve 114 is bad, the converter tapping flow is finally spread. The slag in the converter 100 is mixed into the molten steel M of the grading ladles 120, and as a result, the quality of the molten steel M is rapidly increased. It will be degraded.

 The present invention is to solve the conventional problems as described above, the object of the mini sleeve by changing the shape of the converter outlet mini sleeve to be used in the latter half of the main sleeve of the converter outlet by changing the method of applying the combination. Prolongs the service life and improves the quality of molten steel by improving stabilization of tapping flow into the tap as the mini sleeve is extended by reinforcing the weak areas where the mini sleeve is easily worn. Is in.

In addition, the present invention is optimized by the component ratio constituting the mini-sleeve of the converter outlet to prevent the mini-sleeve from being easily worn by the hot molten steel, it is not easily oxidized by oxygen or dissolved oxygen in the atmosphere of the main sleeve including the mini-sleeve It is also an object of the present invention to provide a mini-sleeve in the converter outlet, which can reduce the amount of use and thus benefit the steelmaking cost.

In order to achieve the above object, the present invention, in the mini-sleeve of the cylindrical converter outlet which is mounted on the main sleeve rear side of the converter outlet for outflowing the molten steel refined in the converter to the grasp, and becomes the outflow passage of the molten steel,

The lower end of one sleeve element forms a round diameter enlargement having an outer diameter and an inner diameter larger than the upper end, and the upper end of the other sleeve element adjacent to the one sleeve element is fit-fitted to the diameter enlargement portion and the other The lower end of the sleeve element of the outer ring forms a round diameter enlargement having an outer diameter and an inner diameter larger than the upper end thereof, and the upper end of another adjacent sleeve element is fitted to the diameter enlargement portion and connected in series and in turn, the lowest end. The mini sleeve has a cylindrical structure by providing a converter outlet mini sleeve, characterized in that coupled to the main sleeve.

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

The mini-sleeve 1 of the converter outlet according to the present invention is composed of a chemical ratio whose composition of the corrosion resistance and corrosion resistance is strong by high temperature molten steel M, and does not easily collapse when the mini sleeve is left in the air. It has a component ratio having spalling resistance, and when the mini sleeves of the present invention are applied to practical operation, the weak spots are not generated.

As shown in FIG. 6, the mini sleeve 1 of the converter outlet according to the present invention includes a molten steel M refined from the converter 100 and flows out of the converter outlet 110 into the tapping ladle 120. It is mounted on the rear side of the main sleeve 112 and has a cylindrical structure that serves as an outflow passage of the molten steel M.

The mini sleeve 1 of the converter outlet according to the invention has the same fitting structure with each other except for the sleeve element 1a adjacent to the main sleeve 112.

That is, the lower end of one sleeve element 1b located at the innermost side of the converter 100 forms a round diameter enlarged portion 5 having an outer diameter and an inner diameter larger than the upper end 7, and the one sleeve element 1b. The upper end 7 of the other sleeve element 1b adjacent to) is fitted to the diameter enlarged part 5.

Then, the lower end of the other sleeve element 1b fitted in this way forms a round diameter enlargement 5 having an outer diameter and an inner diameter larger than the upper end 7 thereof, and another sleeve element adjacent thereto. The upper end 7 of (1b) is fitted to the diameter expanding portion 5 and are connected in series.

However, the mini sleeve element 1a fitted at the bottom end has a cylindrical structure and is disposed adjacent to the main sleeve 112 as in the prior art.

The coupling configuration of the mini sleeve 1 according to the present invention as described above is commonly used in the work that the mini sleeve elements (1a) (1b) are used by combining up to two to four, which is a prior art Provides excellent reinforcement structure for weak areas.

As described above, the converter outlet mini sleeve 1 according to the present invention is coupled as shown in FIG. 7, and is inserted and used at the rear of the main sleeve 112 of the converter outlet 110.

In addition, the mini sleeve 1 of the present invention has a chemical composition ratio of 75% or more and less than 100%, and graphite of more than 0%. % Or less, having a purity of 99% to 100%, and having a chemical composition of the mini sleeve 1 for enhancing spalling resistance (a property of preventing natural abrasion due to contact with air in the air). In the composition of the component, the molten clinker is 67% or more and less than 100%, graphite is more than 0% and 33% or less, and the graphite has a purity of 99% to 100%.

The above-mentioned values have different application effects depending on the purity of the molten clinker and the graphite, and when the above-described values have the above-mentioned values, the corrosion resistance and spalling resistance of the present invention are enhanced, and thus are obtained in the present invention. This is because a predetermined effect to be obtained is obtained.

The mini sleeve 1 of the converter tap according to the present invention configured as described above is engaged by the diameter expansion part 5 without the direct connection of the boundary junction between the mutual sleeve elements 1a and 1b. By having such a shape, the joint is not easily worn as compared with the prior art.

And even if the spray fireproof material 116 which fixes the mini sleeve 1 of this invention to the refractory of converter 100 is prematurely worn by hot molten steel M, sleeve elements 1a and 1b mutually fit. By being in the form of bonding, there is an effect that the bond is not easily dropped.

The present invention as described above is superior in the application effect as compared to the conventional structure, the experiment of the actual operation application was performed and the results are shown in FIG.

Referring to the result shown in FIG. 10A), in the structure of the conventional mini sleeve 114, the tapping time of the converter outlet 110 stays in a time zone of 6 minutes to 3 minutes, whereas the mini sleeve ( As shown in FIG. 10B), it can be seen that the departure time of the converter exit 110 is 4 minutes to 8 minutes.

This shows that the structure of the present invention maintains the shape of the converter taphole 110 in good condition and is pulled out in a stable state without fluctuation of the tapping amount. The conventional structure is in the latter period of tapping due to erosion damage of the mini sleeve 1. The cross section of the molten steel M spreads, the thickness thereof becomes thicker, and more flow rate is tapped out at a time than the initial tapping time, so that a large amount of slag flows out, but this part is improved in the present invention.                     

In addition, the mini-sleeve 1 according to the present invention has such a fitting type of coupling structure, and by applying the chemical component ratio of high quality electrolytic clinker, its service life is 83 times from the conventional 83 times to 5 times of 88 to 89 times the present invention. It can be seen that more than 6 times.

In addition, in the case of the conventional tapping time for tapping 275 tons of molten steel (M) through the converter outlet 110, the tapping time reaches about four minutes or less when the tapping number reaches 70 times, but in the present invention In the case that the tapping time is approximately 4 minutes, the number of use of the tapping holes 110 reaches 80 times, so that the durability of the mini-sleeve 1 is greatly improved and the tapping holes are not greatly expanded.

As a result, the mini sleeve 1 of the converter outlet 110 according to the present invention has better corrosion resistance than the conventional structure, and has good spalling resistance, which is a phenomenon that occurs as debris and wears when left in the air. Able to know.

In addition, the present invention, while the service life of the tapping hole 110, as shown in Figure 9, while the conventional technology in terms of average tapping time is 5.58 minutes, the tapping hole 110 life according to the present invention is It can be seen that the length is 5.99 to 6.20 minutes, and accordingly, the service life of the converter outlet 110 is also longer.

As described above, according to the present invention, the main sleeve 112 of the converter outlet 110 by fitting the coupling structure of the mini sleeve 1 used for the converter outlet 110 and improving its constituent elements. And mini-sleeve (1) is minimized wear is to achieve the effect of reducing the production cost by reducing the sleeve usage.                     

In addition, due to an increase in the service life of the converter outlet mini sleeve 1 according to the present invention, the main sleeve 112 is not easily worn and can be used for a long time so that the outlet 110 is always kept in a good state. As a result, the effect of preventing the deterioration of the molten steel (M) quality due to the poor state of the tap hole 110 is obtained.

In addition, the mini-sleeve 1 according to the present invention work by eliminating the interruption of refining work due to the replacement operation time of the tap 110 derived from early replacement of the tap 110 due to the extension of its service life Time is secured and the productivity of the refining work is greatly increased accordingly.

And, by reducing the fatigue of the workers administered in the replacement operation of the tap opening 110, by reducing the work load it is possible to obtain an excellent effect, such as preventing accidents in advance.

Claims (3)

Cylindrical converter which is mounted on the rear side of the main sleeve 112 of the converter outlet 110 for flowing out the molten steel M refined from the converter 100 to the grading ladles 120 to become the outflow passage of the molten steel M. In the mini sleeve of the outlet 110, The lower end of one sleeve element 1b forms a round diameter enlargement 5 having an outer diameter and an inner diameter larger than the upper end 7 and the other sleeve element 1b adjacent to the one sleeve element 1b. The upper end 7 of is fitted to the diameter enlarged portion 5, the lower end portion of the other sleeve element (1b) has a round diameter enlarged portion (5) having a larger outer diameter and inner diameter than the upper end (7) The upper end 7 of another sleeve element 1b adjacent thereto is fitted to the diameter enlargement 5 and successively connected in series, the lowermost mini sleeve 1a being cylindrical A converter outlet mini sleeve, characterized in that the structure is coupled between the main sleeve and 112. The chemical composition of claim 1, wherein the chemical component of the sleeve elements 1a and 1b comprises at least 75% and less than 100% of an electrolytic clinker and more than 0% and not more than 25% of graphite and has a purity of 99%. To 100%, the converter outlet mini sleeve, characterized in that the corrosion resistance is enhanced. The chemical composition of claim 1, wherein the chemical component of the sleeve element (1a) (1b) comprises at least 67% and less than 100% electrolytic clinker and more than 0% and up to 33% graphite, the purity of the graphite being 99% To 100%, converter outlet mini sleeve, characterized in that to enhance the spalling resistance.

Images