KR20050058086A - An apparatus for closing urgently the tap holes of a blast furnace - Google Patents

Abstract

An emergency exit closure device is provided for emergency exit of a mud gun malfunction when the mud gun malfunctions.

The exit opening emergency closing device is connected to the open air and rotated and moved forward, the inside of the hollow for the distribution of the cooling fluid, the operating rod provided with a piston member; and the piston member of the operating rod is inserted A cylindrical body in which a cooling fluid pipe passing through the inner hollow portion of the operation rod is inserted, the mud material for closing the exit port while being compressed and released outside as the piston member, and the mud material discharge holes are formed; And a tip member detachably fastened to an end of the cylindrical body and having injection holes for cooling the melt by injecting the cooling fluid supplied by the cooling fluid pipe connected thereto.

According to the present invention as described above, during the closing operation of the outlet through the mud gun, the first discharge of high pressure carbon dioxide (CO ₂ ) in the emergency state in the emergency state difficult to close the outlet due to the malfunction of the mud gun or other causes While rapidly cooling the melt within, the embedded mud material is injected into the exit port to achieve an improved effect of effectively closing the exit port inside the exit port to effectively perform the exit of the exit port.

Description

An Apparatus for closing Urgently the Tap Holes of A Blast Furnace}

The present invention relates to an exit emergency closing device for urgently closing an exit for discharging hot water into the blast furnace during operation, and more particularly, the operation of the mud gun during the closing operation of the exit through the mud gun or other causes. In an emergency situation where it is difficult to close the outlet, the high pressure carbon dioxide (CO ₂ ) is released _first to rapidly cool the melt in the outlet, and the internal mud material is injected into the outlet to close the outlet. The present invention relates to an emergency exit closure device that can effectively perform an emergency exit closure of an exit port.

During operation of the blast furnace, the melt is discharged to the outside large hot water through the exits installed in the blast furnace, and such blast furnace exits are installed in one blast furnace, and the other exits are closed except for one exit in operation. The apparatus for closing the apparatus is called a mud gun, and the apparatus for reopening the air for discharging the melt through the closed outlet as a mud is called an opening apparatus. The mud gun is shown.

That is, as shown in FIG. 1, the refractory 130 is injected into the blast furnace outlet 110 through the mud gun 120 disposed outside the outlet 110 installed in the blast furnace 100. The refractory is fired after a certain time to close the outlet 110.

By the way, although the mud gun 120 is schematically illustrated in the drawing, the mud gun 120 is disposed outside each exit port 110 of the blast furnace 100 and is operated by receiving power such as hydraulic pressure or electric force. Since the refractory 130 is injected into the refractory 130 to close the outlet 100, the mud gun 120 often does not operate properly due to an abnormality of the power system (hydraulic, electricity, etc.) when the outlet is closed.

Therefore, when the closing operation of the outlet 110 is delayed or the inner surface (brick) of the outlet 110 is dropped, the nozzle tip 120a of the mud gun 120 does not come into close contact with the outlet 110. As a result, the refractory 130 is leaked out, and the outlet opening in which the melt is ejected with severe gas explosion is generated.

At this time, the operator reduces the amount of air injected into the heat source of the blast furnace at a temperature of about 1150 ℃ and a high pressure of 4.2kg / ㎠ as much as possible, then quickly repairs the mud gun 120 to close the exit port 110 Since it has to be carried out again, there is a problem that there is a concern that the productivity decrease due to the blast furnace operation of the blast furnace, the load increase of the old workers and the loss of equipment are generated.

As a result, it is difficult to emergencyly close the exit port by reusing the mud gun when the conventional mud gun is inoperative.

Meanwhile, in FIG. 2, as described above, the opener 200 for opening the outlet 110 is illustrated, and carbon dioxide gas C 0 ₂ , which is a cooling fluid, is used at the outlet for the opening of the outlet 110. It is sprayed to perform emergency closing of the exit.

That is, as shown in Figure 2, the tip 220 is installed on the end of the rod 210 of the opening machine 200 is inserted into the exit port 110, the rod 210 and the tip 220 When the opening rod is inserted into the outlet opening 110 through the injection of high pressure carbon dioxide (CO ₂ ), which is a cooling fluid, the melt 140 of the outlet opening 110 is temporarily cooled and cooled. Emergency exit is closed by the melt (150) to harden.

However, in the emergency temporary closing operation of the outlet 110 using the tip 220 installed in the open air rod, the outlet can be temporarily closed by cooling the melt inside the outlet by injecting carbon dioxide gas. Since the melt melts immediately because it is a high temperature, it is impossible to completely close the tap opening.

The present invention has been made in order to improve the various problems as described above, the purpose of the blast furnace blast furnace using the opening of the existing blast furnace in the case of emergency that the closing operation of the exit through the mud gun is not complete It is possible to close the blast furnace outlet quickly and completely emergencyly by melt cooling and mud material injection in the first and second stages without using the outlet emergency closing device that simplifies the production and use. To provide.

The present invention as a technical configuration for achieving the above object, in the device connected to the open air disposed on the outer periphery of the blast furnace outlet, enabling the emergency closing of the blast furnace outlet,

An actuating rod connected to the opening and rotating and moving forward, the inside of which is hollow for circulation of the cooling fluid, and a piston member provided at an end thereof;

The piston member of the operation rod is inserted, a cooling fluid tube passing through the inner hollow portion of the operation rod is inserted, and the mud material for closing the exit port is filled with the compressed and discharged as the piston member, the mud material discharge holes A cylindrical body formed; And

A tip member detachably fastened to an end of the cylindrical body and having injection holes for cooling the melt by injecting the supplied cooling fluid with the cooling fluid pipe connected thereto;

It is specified that it consists of.

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

Figure 3 is an overall configuration diagram showing an exit emergency closing device using the opening machine according to the present invention, Figure 4 is a perspective view showing the emergency exit device of the inventors, Figure 5 is an emergency exit device of the inventors 6 is an exploded view showing the outlet exit closure device of the present invention, Figure 7 is a cross-sectional view showing a cylindrical body in the device of the present invention, Figure 8 is a stopping groove in the device of the present invention 9 is a perspective view showing the main part, Figure 9 is a view showing the operating state of the inventors exit emergency closing device, Figure 10 is a view showing the operation step of the exit emergency closing device using the inventor's opening machine.

3 shows the entire configuration of the present inventors emergency exit closure device 1, the exit emergency closure device 1 of the present invention is largely the operating rod 10 and the cylindrical body 30 and the tip member It can be divided into 50, these components 10, 30, 50 will be described in detail as follows.

First, the outlet exit closure device 1 of the present invention is used to be connected to the opening machine 200 that is used when the opening of the blast furnace outlet 110 in the past, specifically, the operation rod 10 to be described later Is connected to enable the rotation and forward movement by the operation of the opening machine 200, the opening machine is a power source, because it is used by connecting the operating rod 10 of the device to the existing opening machine 200, The facility is simplified.

In addition, the openings 200 are connected to tanks T for supplying carbon dioxide gas CO ₂ , which is a cooling fluid, to be described later, and a hose H connected thereto. Carbon dioxide gas is injected into the outlet through the operating rod 10, and carbon dioxide gas, which is such a cooling fluid, primarily cools the melt 150 during the emergency exit of the outlet, thereby temporarily closing the outlet. The opener 200 is connected to an air supply pipe A for operating a pneumatic device such as a pneumatic cylinder and a motor for advancing and rotating the operation rod 10.

Next, Figures 4 to 6 show the operating rod 10 of the present inventors emergency exit closure device 1, the operating rod 10 of the present invention, such as, connected to the opening machine 200 It is rotated and moved forward, the inside is hollow for the circulation of the cooling fluid, and the piston member 14 is provided at the end.

That is, as shown in Figures 5 and 6, the operating rod 10 is elongated, the rear end is formed with a connecting groove 10a connected to the opening machine 200 is integrally formed, the operating rod The inside of 10 is integrally formed with a hollow portion 12 through which carbon dioxide gas, which is the cooling fluid described above, is passed.

And, as shown in Figure 5 and 6, the piston member 14 of the operating rod 10 is actually formed in the form of a gear firmly mounted integrally to the front end of the operating rod 10, The reason why the piston member 14 is formed in the form of a gear is to engage the inner gear-type support groove 40 of the cylindrical body 40 to be described below to block slip during the forward movement. The constant forward operation of the member 14 facilitates closure by the outlet opening of the mud stick 34.

Next, Fig. 4 to Fig. 6 shows the cylindrical body 30 of the present inventors emergency exit device 1, the cylindrical body 30 of the present invention, the piston of the operation rod 10 The member 14 is inserted, and the cooling fluid pipe 32 passing through the inner hollow portion 12 of the operation rod 10 is inserted, and the fluid is composed of a cooling gas pipe through which carbon dioxide gas flows.

In addition, the cylindrical body 30 is filled with a mud material 34 for closing the outlet port 110 while being compressed and discharged as the piston member 14, and the mud material discharge holes 36 extend in the longitudinal direction thereof. Many are formed integrally.

Therefore, as shown in Figures 9a and 9b, when the operating rod 10 is advanced in the state connected to the opening machine 200, the piston member 14 is a gear-shaped support formed on the inner peripheral surface of the cylindrical body 30 While advancing in the engaged state along the groove 40, the mud material 34 embedded between the outside of the cooling fluid pipe 32 inside the cylindrical body 30 is forcibly discharged through the discharge holes 36, and eventually The mud material 34 closes the outlet 110 immediately in a state in which carbon dioxide gas, which is a cooling fluid, is first injected into the outlet 110 to cool the melt 150, so that the apparatus of the present invention uses a conventional mud. The outlet 110 can be closed more completely as compared to using only carbon dioxide when the gun is in operation.

At this time, as shown in Figures 5 and 8, the stopper groove 38 is formed integrally inside the one end of the cylindrical body 30, the initial piston member 14 is fitted here do.

Therefore, when the operation rod 10 advances during the initial operation of the opening machine 200, the cylindrical body 30 is in a state where the operation rod piston member 14 is supported by the stoppering groove 38 on its inner circumferential surface. The tip member 50 and the cylindrical body 30 fastened to the distal end of the cylindrical body 30 are inserted forward in the outlet 100.

Next, when the operation rod 10 rotates slightly counterclockwise by the operation of the opening hole 200, the gear parts are separated from the stopping groove 38, and the operation of the opening hole 200 is again performed. When the working rod 10 moves forward, the mud material 54 embedded in the cylindrical body 30 is discharged from the cylindrical body 30 while only the piston member 14 is advanced in the cylindrical body 10. It is discharged and fired while spreading into the outlet opening 110 through the outlets, and thus the outlet opening 110 is emergency closed as the mud material 34.

This is compared with conventionally simply injecting only carbon dioxide to quench the melt 150 inside the exit port to perform emergency closing of the exit port. In the present invention, the molten material 150 is primarily injected by injecting a high pressure carbon dioxide gas. At the same time as the mud material 34, the exit port is completely emergency closed.

And, as shown in Figures 4 to 6, one end of the cylindrical body 30 is inserted into the operating rod 10 and the fixing ring 42 for preventing the separation of the piston member 14 is fastened and fixed The other end portion of the cylindrical body 30 and the tip member 50 are integrally formed with screw portions 44 and 54 which are detachably fastened to each other in a screw form.

In addition, the end of the cooling fluid tube 32 is integrally formed with a fixed end (32a) is formed in the center of the tip member 50, the insertion end 56 is supported by the insertion hole 56 connected to the injection hole (52). .

Thus, as shown in Figure 5 and 6, the piston member 14 of the operating rod 10 in the state in which the catalyst tube 32 is inserted into the hollow portion 12 of the operating rod 10, the cylindrical body ( 30 is inserted into the fixing ring 42, and the fixed end 32a of the cooling fluid tube 32 is inserted into the insertion hole 56 of the tip member 50. When the threaded portions 44 and 54 of the cylindrical body 30 are fastened and fixed, that is, the male threaded portion and the female threaded portion, the assembly of the tip member 50, the cylindrical body 30 and the operating rod 10 is completed, and the operating rod ( In the state of connecting the fixed end 10a of the 10) to the opening machine 200, the tip member 50 and the cylindrical body 30 are inserted into the outlet port 110, and the opening is performed through the operation of the opening machine 200. This can be done by pioneering emergency closing.

That is, the tip member 50 of the outlet emergency closing device 1 of the present invention is detachably fastened to an end of the cylindrical body 30, and the cooling fluid pipe 32 is connected and supplied to the cooling unit. Injection holes 52 for cooling the melt by injecting a carbon dioxide gas, which is a fluid, are provided.

Therefore, when a high-pressure carbon dioxide gas is injected through the hollow part 12 of the operation rod 10, it is injected through the injection holes 52 of the tip member 50 to first cool the melt 150 inside the exit port. In the state in which the exit opening is emergency closed, the mud material 54 is discharged through the cylindrical body 30 when the operation rod 10 is advanced, and the emergency closing operation of the second exit port is performed to close the exit port. Will be done.

Looking at the operation of the emergency exit device (1) of the present invention as described above, when the conventional exit port 110 closing operation through the mud gun 100 of FIG. 1 is difficult due to various factors, as shown in Figure 10a Likewise, while connecting the operating rod 10 to the opening machine 200 on the outside of the blast furnace, the operating rod 10 and the cylindrical body 30 and the tip member 50 are assembled and inserted into the exit port 1100. .

Next, when the opening rod 200 is operated to advance the actuation rod 10 primarily, the piston member 14 of the actuation rod 10 is caught in the stopping groove 38 in the cylindrical body 30 so that the cylinder The main body 30 and the tip member 50 enter the inside of the outlet 110.

At this time, when the high-pressure carbon dioxide gas is injected through the hollow portion 12 and the cooling fluid tube 32 of the operating rod 10, the spray member 52 of the tip member 50 is moved back and forth and up and down in four directions. As the gas is injected, the melt 150 in the exit port is cooled, and the solidified melt first closes the exit port.

Next, as shown in FIG. 9B, when the operating rod 10 is moved in a state in which the operating rod is slightly rotated counterclockwise by operating the opening machine 200, the piston member 14 has a cylindrical body 30. The mud material 54 embedded therein is advanced in the state in which the gears of the piston member 14 are engaged with the gear-type support groove 40 and is discharged to the outside, that is, the inside of the outlet 110, and the discharged mud material ( 34 is fired and hardened, and completely closes the exit port 110 secondarily.

Next, as shown in FIG. 10C, when the opening unit 200 is separated from the operating rod 10, the cooled melt is dissolved and a part of the tip member 50 and the cylindrical body 30 is dissolved. The device of the present invention is a part used for emergency closing of the exit port for single use.

Accordingly, the exit exit emergency closing device 1 of the present invention allows the exit port 110 to be quickly closed using the existing opening machine reliably over two times as the carbon dioxide gas and the mud material. will be.

As described above, according to the inventor's tap-out emergency closing device, in the case of an emergency in which the tap-out operation through the mud gun is not completed, the melt is cooled in the first and second stages without using a blast furnace blast using an opening machine disposed outside the existing blast furnace. And the mud material can be used to close the blast furnace exit quickly and completely, preventing large-scale safety and equipment accidents such as explosions caused by the discharge of molten materials, and the blast furnace operation is not necessary because the blast furnace is not required. It is to provide an excellent effect to maintain.

In addition, since the existing open air disposed outside the blast furnace is used, the device structure is also simplified to provide other advantages, such as to facilitate the manufacture and use.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

1 is a schematic diagram showing a closing operation of the exit port using a conventional mud gun

Figure 2 is a schematic diagram showing the emergency closing operation of the exit using a conventional opening machine

Figure 3 is an overall configuration showing the emergency exit emergency exit device using the opening machine in accordance with the present invention

Figure 4 is a perspective view showing the emergency exit device of the inventors

Figure 5 is a block diagram showing the inventors exit emergency closing device

Figure 6 is an exploded view showing the inventors emergency exit closure device

7 is a cross-sectional view showing a cylindrical body in the apparatus of the present invention.

Figure 8 is a perspective view of the main portion showing the stopping groove in the device of the present invention

Figure 9 shows the operating state of the inventors exit emergency closing device,

(a) is a state diagram showing the exit opening state through the primary gas injection state

(b) is a state diagram showing the exit closure state using the secondary mud material

10 is a view showing the operation stage of the exit exit emergency closing device using the inventor of the opening,

(a) is a first step showing the primary gas injection state

(b) is a second step showing the state of secondary mud material injection

(c) is the third step showing the exit opening and closing state showing the state of leaving the main body of the opening machine

Explanation of symbols on main parts of drawing

1 .... exit emergency shutoff device 10 .... working rod

12 .... rod hollow 14. 14. Piston member

30 .... cylindrical body 32 .... cooling fluid pipe

34 .... Mud material 36 .... Ejection hole

42 .. Retaining ring 50 .... Tip member

52 .... 110 injection holes

200 .... open air

Claims (3)

In the device that is connected to the opening machine 200 disposed on the outside of the blast furnace outlet 110 to enable emergency closing of the blast furnace outlet 110, An operating rod (10) connected to the opening (200) to rotate and move forward, the inside of which is hollow (12) for distributing the cooling fluid, and the piston member (14) provided at an end thereof; The piston member 14 of the actuating rod 10 is inserted, and the cooling fluid tube 32 passing through the inner hollow portion 12 of the actuating rod 10 is inserted, and pressed as the piston member 14. A cylindrical body 30 filled with a mud material 34 for closing the outlet 110 while being discharged to the outside, and having mud material discharge holes 36 formed therein; And A tip member (50) detachably fastened to an end of the cylindrical body (30) and having injection holes (52) for cooling the melt by injecting the cooling fluid supplied with the cooling fluid pipe (32) connected thereto; Exit emergency closing devices, characterized in that configured as The method of claim 1, wherein the piston member 14 of the operating rod 10 is formed in the shape of a gear, One end of the cylindrical body 30 is integrally formed with a plurality of stopping grooves 38 for stopping the forward of the gear-shaped piston member 14, the stopping groove to the inner peripheral surface of the cylindrical body 30 Outlet emergency closing device, characterized in that the gear-shaped support groove 40 for supporting the movement of the gear-shaped piston member 14 is integrally formed between the other end at one side of (38). According to claim 1, wherein the one end of the cylindrical body 30 is inserted into the operation rod 10 and the fixing ring 42 for preventing the separation of the piston member 14 is fastened and fixed, The other end portion and the tip member 50 of the cylindrical body 30 are integrally formed with threaded portions 44 and 54 which are detachably fastened in a screw form to each other, An end of the cooling fluid tube 32 is formed in the center of the tip member 50 and is fixed to the insertion end 56 is inserted into the insertion hole 56 connected to the injection hole 52 is characterized in that the integral end formed Exit emergency closing device