KR100711502B1 - Device for tapping hole opening of blast furnace - Google Patents

Abstract

The present invention relates to a blast furnace opening device of the blast furnace capable of closing the bleeding portion to close the bleeding portion with the mud material when the opening of the blast furnace is sealed to the pulmonary section during the opening operation.

According to the present invention, in the opening opening device of the blast furnace that can close the blood section, a plurality of carbide tips for facilitating the excavation of the outlet opening is mounted to the distal end of the body, and the flow path of cooling water and nitrogen is in communication with the carbide tips. Byte part; A main body part including a main body having a mud material embedded therein and having a plurality of injection holes formed on an outer surface thereof, and a blower member inserted into the main body, the main part being coupled to the body of the bite part; And a cylinder rod having a gear formed at one end thereof and a groove formed at the other end thereof coupled with a hole at the other end thereof, the cylinder portion being coupled to the main end of the main body.

Outlet, opening, mud, blood section

Description

Device for tapping hole opening of blast furnace

Figure 1 (a) is a working view showing a conventional blast furnace opening section blood vessel opening work.

Figure 1 (b) is a perspective view of a conventional blast furnace opening opening bite.

Figure 2 is a working diagram showing a conventional blast furnace outlet blood clot closure method.

Figure 3 (a) is a cross-sectional view showing the abnormal flow path formation in the conventional blast furnace opening blood vessel opening.

Figure 3 (b) is a cross-sectional view showing the normal flow path formation at the opening of the exit opening by the opening opening device of the blast furnace capable of closing the blood section according to the present invention.

Figure 4 (a) is a perspective view of the opening of the tap opening of the blast furnace capable of closing the blood section according to the present invention.

Figure 4 (b) is a cross-sectional view of the outlet opening device of the blast furnace capable of closing the blood clot section according to the present invention.

Figure 4 (c) is a partial detailed view of the opening device of the opening of the blast furnace capable of closing the blood section according to the present invention.

Figure 5 is an assembly view of the opening of the tap opening of the blast furnace capable of closing the blood clot according to the present invention.                 

Figure 6 is a working state of the opening device of the opening of the blast furnace capable of closing the blood section according to the present invention.

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

40: exit 50A: mud material

60: tapping bar 70: open air

91: body 92: carbide tips

93: Euro 95: Home

96: Gear 97: Cylinder Rod

The present invention relates to a blast furnace opening opening device, and more particularly, when the blast furnace opening is sealed to the blood passage during the opening operation, the blood section closure can be closed with a mud material and continue to open the exit opening. The present invention relates to a opening device for opening of a blast furnace.

In general, as shown in FIG. 1, the melt 10 produced in the blast furnace is discharged through the tap hole 40 to the outside of the blast furnace 80 (see FIG. 3). It is blocked by the mud) material 50 and is opened by the opening machine 70 which is a facility for penetrating the tap opening 40.

When the outlet 40 is passed through a tapping bar 60 mounted on the opening 70, the melt 10 is discharged by the pressure in the furnace, and with the melt when the discharge point is completed. Hot air, gas, etc. are ejected to come out together at this time, in order to close the mud gun (not shown) to advance the cylinder (not shown) in the outlet 40 into the unshaped refractory mud material 50 to the outlet 40 Press to close it.

However, as the number of years of operation of the blast furnace increases, the molten material 10 in the furnace erodes the refractory 30 of the exit opening 40, so that a large amount of mud material 50 must be injected to preserve the eroded portion. .

The greater the amount of mud material 50 injected into the blast furnace, the more gas is generated from the mud material 50 and part of the gas is discharged through the outlet 40, but the remaining amount of gas that is not discharged is mud material ( It exists in 50).

This gas is discharged between the mud material 50 and the refractory 30, which is the weakest part by the impact when the opening of the exit opening 40, the flow path is formed in this process, the hot molten iron penetrates through this flow path It exists as a melt generated between the mud material 50 in the precursor 40, this phenomenon is referred to as blood plasma (절).

As described above, as shown in FIGS. 1 and 2, the tapping bar 60 having the cemented tip 60A is mounted on the opening machine 70. Excavation was performed using a drill and a hammer or using an oxygen pipe 100.

In addition, high pressure nitrogen (N ₂ ) to prevent the heat and melting of the tapping bar (60). The water is sprayed through the cooling holes 60B to cool the tapping bar 60. When the tapping bar 60 reaches the blood section, the melt 10 and water and nitrogen are mixed and ejected to the outside of the outlet 40.

The conventional operation as described above has a problem that the melt 10 is solidified by the cooling action of water and nitrogen, the tapping bar 60 is fixed to the blood vessels 20, so that the excavation is no longer difficult. In this case, as shown in FIG. 2, several operators attempt to penetrate the mud 50 by inserting the oxygen pipe 100 into the outlet to open the valve 100E of the oxygen line 100D. Done.

However, since the melt 10 of the blood section 20 melts the oxygen pipe 100, the mud material 50 does not penetrate, and as shown in FIG. 3 (a), the blood section 20 becomes large. As the flow path of the melt 10 is formed as a part, the refractory 30 is eroded (10A), and thus there is a problem in that a separate maintenance work has to be performed.

The present invention was devised to solve the above-mentioned conventional problems, and when the opening of the tap opening is sealed, the blood mud material is injected into the blood section immediately to close the mud, and the blood can continue to complete the tapping operation. Its purpose is to provide a factory opening for the blast furnace that can be closed.

In the tapping opening opening device of the blast furnace capable of closing the blood section in order to achieve the above object, a plurality of carbide tips for facilitating the excavation of the tap opening is mounted to the distal end of the body, the carbide tip and the cooling water and A bite section in which a flow path of nitrogen is communicated; A main body part including a main body having a mud material embedded therein and having a plurality of injection holes formed on an outer surface thereof, and a blower member inserted into the main body, the main part being coupled to the body of the bite part; A cylinder rod having a gear formed at one end and a groove formed at the other end thereof coupled with a hole at the other end thereof, a cylinder unit coupled to the main body end of the main body unit; Opening device is provided.

In the present invention, one end portion of the blower member is characterized in that the engaging member for preventing excessive insertion into the flow path is mounted.

In addition, in the present invention, the inner surface of one end of the main body is characterized in that a plurality of grooves in which the gear is engaged to rotate.

Hereinafter, with reference to the accompanying drawings will be described in more detail the configuration and operation of the present invention.

Figure 3 (b) to Figure 5 shows an embodiment of the outlet opening device of the blast furnace capable of closing the blood section in accordance with the present invention, the outlet opening factory according to this large excavation of the outlet at the tip of the body A bite portion in which a plurality of carbide tips are mounted for facilitating, and a flow path of cooling water and nitrogen is in communication with the carbide tips; A main body part including a main body having a mud material embedded therein and having a plurality of injection holes formed on an outer surface thereof, and a blower member inserted into the main body, the main part being coupled to the body of the bite part; A cylinder rod having a gear formed at one end and a groove formed at the other end coupled with an opening is formed of a cylinder unit coupled to a body end of the main body.                     

As shown in FIGS. 4 (a) to 4 (b), three cemented carbide tips 92 are radially mounted to the front end of the body 91 to facilitate the excavation of the outlet 40. The cemented tip 92 has a high temperature inside the tap opening 40 and a coolant and nitrogen passage 93 for cooling the bite section at the blood vessel section 20. A female screw 90B for coupling with 90 is formed (see FIG. 5).

For reference, the bite portion is slightly tapered on the female thread forming portion side than the tip portion to reduce the resistance during excavation of the tap hole 40.

As shown in FIGS. 4 and 5, the processing unit having a predetermined shape is formed in the longitudinal direction such that a gear 96 to be described later is inserted into the cylindrical body 90. (20) An injection mud material (50A) is incorporated, and a plurality of injection holes (94) are formed on the outer surface of the mud material (50A) so as to facilitate injection into the blood section (20).

In addition, a male screw 90A is formed on an outer surface of one end of the main body 90 so as to be engaged with the female screw 90B of the bite portion, and a bar is inserted into the flow path 93 of the bite portion inside the main body 90. A blower member 91B having a bar shape is inserted, and an engaging member 91A having a predetermined diameter is mounted on an outer surface of one end of the blower member 91B to prevent excessive insertion into the flow path 93. It is.

In addition, as shown in the cross-sectional view taken along the line A-A 'of FIG. 4 (b) shown in the right view of FIG. 4 (c), a plurality of grooves 95 are formed on the inner surface of the other end of the main body 90 to form the gear ( 96 is configured to be engaged with the groove 95 so as to rotate during forward rotation (counterclockwise) of the cylinder rod 97 to be described later.

On the other hand, when the cylinder rod 97 is reversely rotated (clockwise), the gear 96 is separated from the groove 95 to advance the cylinder portion, thereby filling the mud material 50A into the blood vessel portion 20. The linear movement of the forward and backward movement of the cylinder rod 97 is shown in the main body 90, as shown in detail in the section 'B' of FIG. 4 (b) shown on the left side of FIG. The linear movement is performed along the formed plurality of recesses (dents on both sides of the injection hole).

In other words, the inside of the main body 90 has a plurality of grooves formed in a circumferential shape in accordance with the gear 96 of the cylinder part, and the outer surface is polished so that the mud material 50A is filled with the main body 90 when re-excavated. Re-excavation of the exit opening 40 is facilitated by minimizing resistance with the opening 40 inside.

The cylinder portion has a gear 96 for rotating the main body 90 at one end of the cylinder rod 97, and a predetermined diameter in which the blower member 91B is inserted in the center of the inner surface of the gear 96. Hole 98 is formed in the longitudinal direction.

As described above, the gear 96 is engaged with the groove 95 in the main body 90 at the forward rotation (counterclockwise), and at the reverse rotation (clockwise), the cylinder rod 97 has the groove ( By advancing away from 95, the mud material 50A can be filled into the blood vessel section 20. As shown in FIG.

In addition, the hole 98 of the gear 96 is slightly larger than the outer diameter of the blower member 91B to advance the cylinder portion, and when the mud material 50A is injected into the blood section 20, the mud material 50A is The hole 98 is not blocked.                     

The cylinder rod 97 has a groove 96C that can be coupled to the opening 70 at one end of the cylinder 70 that is coupled with the opening 70, and bolts the ring 96A so that the cylinder does not come out of the main body. A structure is used to engage the bolt hole 96D formed at one end of the main body 90 by using 96B.

Hereinafter, the operation of the present invention will be described with reference to FIG.

Referring to the exit point at the time of the opening of the previous exit port 40, when the exit port 40 in which the blood section 20 is generated, first, exit the exit port 40 using a center drilling rod (not shown). Excavate the pioneer center.

After the opening of the tap opening 40, the mud material 50A for closing the blood section 20 is inserted into the main body 90, and the gear 96 is inserted into the groove 95 of the main body 90. In order to prevent the gear 96 from falling out of the groove 95 of the main body 90, the ring 96A is coupled to the bolt hole 96D using the bolt 96B, and the cylinder rod 97 is opened through the opening 70. To

Then, the outlet 40 is inserted into the tap opening 40 which can close the blood section, and the tap opening 40 is operated to manipulate the tap opening operation device (not shown).

At this time, it is desirable not to operate the opening device operating excessively or too quickly. Because, when the opening machine operation device is rotated excessively quickly, as shown in Figure 6, the mud material (50A) inserted into the main body 90 through the injection hole 94 by the injection hole 94, the main body 90 Because you can come out.

When it is determined that the mud material 50A and the melt ejected from the outlet 40 are determined to reach the blood section 20, the forward rotation is stopped and the reverse rotation is immediately performed. This action is to allow the gear 96 to be separated from the groove 95 of the body (90).

After the above operation, the gear 96 is advanced to stop the reverse drill (not shown) when the cylinder rod 97 is advanced, and the forward of the gear 96 is a feeder (rear of the operating table of the opening machine 70). By means of a vacuum device).

As the gear 96 is advanced along the groove (see FIG. 4 (c)) inside the main body 90, the internal pressure increases, and the mud material 50A therein is injected into the injection hole 94 of the main body 90. The mud material (50A) is to come out from this, it is to close the blood section 20 of the tap opening (40).

When the blood section 20 is closed by the above operation, as shown in the lower figure of FIG. 6, the outlet 40 is continuously excavated using a drill and a hammer (not shown) to completely close the outlet 40. The opening of the tap opening 40 is completed by penetrating.

As described above, according to the present invention, when the blood clot is sealed during the opening of the outlet opening, the blood outlet is immediately closed by using the mud material embedded in the body of the opening bite, and the outlet is stabilized by performing the continuous opening. It is expected to reduce the turnaround time and stabilize the rust caused by smooth melt discharge.

Claims (3)

In the opening opening device of the blast furnace that can close the blood section, A bite portion having a plurality of carbide tips mounted on the tip of the body to facilitate the excavation of the outlet, and a passage of cooling water and nitrogen in communication with the carbide tips; A main body part including a main body having a mud material embedded therein and having a plurality of injection holes formed on an outer surface thereof, and a blower member inserted into the main body, the main part being coupled to the body of the bite part; A cylinder rod having a gear formed at one end and a groove formed at the other end thereof coupled with a hole at the other end thereof, a cylinder unit coupled to the main body end of the main body unit; Opening device. The method of claim 1, The opening part of the blast furnace opening of the blast furnace, characterized in that the engaging member for preventing excessive insertion into the flow path is mounted on the outer surface of one end of the blower member. The method of claim 1, The opening part of the blast furnace opening of the blast furnace can be closed that the groove is formed on the inner surface of the end portion of the plurality of grooves in which the gear is engaged.

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