KR100488993B1 - Sticking mud removel apparatus mud gun nozzle tip - Google Patents

Abstract

The present invention relates to a mud gun nozzle tip fixing mud material removal device that can automatically remove the mud material stuck to the inside of the nozzle tip by inserting an excavation bit into the inside of the mud gun nozzle tip, the characteristic configuration The moving cylinder 120 installed on the base 100 so as to be rotatable about the hinge 101, the rotating cylinder 110 installed on the base 100 to rotate the moving cylinder 120, and the moving cylinder A drive motor 140 installed at the distal end of the support 120 via a support plate 130, a lifting cylinder 150 provided on an upper surface of the support plate 130 to move the drive motor 140, and the drive motor ( It is to include an excavation bit 170 installed through the rotating plate 160 to the front end of the 140.

Description

Fixing mud removel apparatus mud gun nozzle tip}

The present invention relates to a fixing mud material removal apparatus of the mud gun nozzle tip, and more particularly, by inserting an excavation bit into the inside of the mud gun nozzle tip can automatically remove the mud material fixed to the inside of the nozzle tip. It relates to a fixing mud material removal device of the mud gun nozzle tip.

In general, in the furnace 11, a melt is generated while repeating each process such as charging and blowing fuel / raw material.

That is, the iron ore and coke used as fuel / raw material in the blast furnace 11 is charged into the blast furnace, and the coal is crushed to be blown into the blast furnace with pulverized coal and supplied by the high temperature hot air supplied through the tuyere 13a and 13b. As coke and pulverized coal are burned, a reducing gas is generated to reduce iron ore.

The melt thus produced is discharged to the outside through the opening 12a opened among the openings 12a and 12b, and when the discharge is completed, the gas inside the furnace is discharged together with the melt.

When closing the outlet 12a, the mud gun 14 is closed by using a mud gun 14 in which a preheated mud material having a predetermined hardness is filled in the fuselage. By forcibly filling the mud material in the fuselage to the outlet 12a, the gas and the melt in the furnace are blocked.

On the other hand, when the iron ore melts slowly while re-electing the molten iron collected at the bottom of the blast furnace 11 while gradually reducing the inside of the furnace 11, the opening work is performed by drilling holes 12a into the perforations equipped with iron bars and bits (BIT). The sludge, which is a molten material generated at the bottom of the blast furnace, is discharged through the slag, and the slag SLAG is discharged by the pressure inside the blast furnace.

The slag is separated into the top of the skimmer by the difference in specific gravity, and the large specific gravity is separated into the lower skimmer, the molten water is repaired in the charter car through the passage, and the slag separated into the upper skimmer is atomized with the aggregate treatment plant through the slag passage. It is processed by a processing facility.

As the melt level drops below the exit port at the time of departure, the operator sees that the hot air and the melt that have flowed into the blast furnace through the tuyere are ejected together (hereinafter referred to as "air blowing"). After removing the cover 25 installed in the upper portion is bonded to the outlet opening (12c) with a mud gun 14 is sealed in the outlet opening (12c) with a mud material.

After a certain period of time after filling, the mud material in the exit opening 12c is fired and at this time, the mud gun 14 is retracted to the repositioned position, and thus the nozzle tip 15 of the retracted mud gun 14 is hardened. The mud material and the melt solidify to form a firm film.

As time passes and the body of the mud gun 14 cools, the coagulation film becomes more firm. Therefore, when removing the mud gun 14, the operator removes the coagulation film on the nozzle tip 15 using a jig (not shown). .

In this conventional method, a large amount of toxic gas is ejected when the coagulation film of the nozzle tip 15 is removed immediately after the outlet 12a is closed, thereby exposing the worker to a hazardous environment.

In addition, the residual mud material heated to a high temperature from the large hot water to maintain the firing after closing the explosion when the gas outlet of the nozzle tip 15 is secured and scattered several tens of meters, there is a risk of safety accidents such as facial burns.

In addition, it is very difficult to work due to the solidified film when working after leaving for a certain time to avoid the initial work, and this causes smooth filling of the mud material when closing the exit port 12a due to blockage in the nozzle tip 15 of the mud gun 14. Failure to do so may cause the internal depth of the exit port and the cracks in the blood vessels.

The present invention has been invented to solve the above problems, the purpose of the mud gun nozzle tip fixing mud material removal apparatus that can automatically remove the hardened coagulation film by excavating the mud gun nozzle tip after closing the exit port with the mud gun In providing.

Referring to the characteristic configuration of the present invention for achieving the above object is as follows.

The fixing mud material removing apparatus of the mud gun nozzle tip of the present invention includes a moving cylinder installed on the base so as to rotate about a hinge, a rotating cylinder installed on the base to rotate the moving cylinder, and a support plate at the tip of the moving cylinder. It includes a drive motor provided through the medium, a lifting cylinder provided on the upper surface of the support plate to move the drive motor, and an excavation bit provided via the rotating plate at the distal end of the drive motor.

Referring to the present invention having such characteristics in detail as follows.

Figure 3 is a front view showing a mud material removing apparatus according to the present invention, Figure 4 is a plan view showing a mud material removing apparatus according to the present invention.

As described herein, in the present invention, a moving cylinder 120 is installed on the upper side of the base 100 so as to be rotatable about a hinge 101, and the moving cylinder 120 is disposed on an upper surface of the base 100. The rotating cylinder 110 for rotating the is provided.

On the other hand, the support plate 130 is provided at the front end of the moving cylinder 120, the drive plate 140 is provided with a drive motor 140 and the reducer 141, one side of the upper surface of the support plate 130 A lifting cylinder 150 for moving the drive motor 140 is installed.

And the rotary plate 160 is installed on the tip end of the drive motor 140, the excavation bit 170 is installed on the rotary plate 160, the excavation bit 170 is a spring on the upper surface of the rotating plate 160 It is elastically installed via 171, and the tip end of the excavation bit 170 is formed to be exposed to the outside than the circumferential surface of the rotating plate 160.

Referring to the operating state of the present invention configured as described in detail as follows.

First, when removing the mud material stuck to the nozzle tip () of the mud gun (), as shown in Figure 5, the nozzle tip () and the removal device is located in close proximity.

In this state, when the rotating cylinder 110 is operated, the moving cylinder 120 is rotated about the hinge 101, and when the operation of the rotating cylinder 110 is stopped, the moving cylinder 120 is operated to FIG. 6. As shown, the center of the excavation bit 170 and the nozzle tip ().

As described above, when the centers of the excavation bit 170 and the nozzle tip are matched to operate the driving motor 140, the rotary plate 160 and the excavation bit 170 installed in the driving motor 140 rotate together. When operating the elevating cylinder 150 when the excavating bit 170 is rotated, the driving motor 140 and the excavating bit 170 are moved, so that the excavating bit () is a mud material fixed inside the nozzle tip (). ) Will be removed.

On the other hand, the excavation bit () is to be buffered by the spring 171 when the excessive force is applied to the excavation bit 170 because it is elastically installed through the spring (171).

Therefore, when the excavation bit 170 is moved to the fixing mud material side generated inside the nozzle tip () to remove the fixing mud material inside the nozzle tip (), after the removal of the fixing mud material () is described above When the process is performed in reverse order, the mud material removal device is restored to its initial state.

As such, the present invention can automatically remove the mud material stuck to the inside of the nozzle tip after closing the outlet with a mud gun to protect the operator from harmful gases and to prevent safety accidents from explosion due to the expansion of the heated gas inside. .

In addition, it is possible to secure the volume of the inner diameter of the nozzle tip of the mud gun always has a unique effect that can prevent the depth of the exit port and the internal cracks of the exit port.

1 is a schematic view showing a typical furnace.

Figure 2 is a side view showing the state of use of the general mud gun.

Figure 3 is a front view showing the mud material removing apparatus according to the present invention.

Figure 4 is a plan view showing a mud material removing apparatus according to the present invention.

5 to 7 is a front view and a plan view showing an operating state of the mud material removing apparatus according to the present invention.

※ Explanation of symbols about main part of drawing ※

100: base 101: hinge

110: rotating cylinder 120: moving cylinder

130: support plate 140: drive motor

150: lifting cylinder 160: rotating plate

170: Excavation Bit 171: Spring

Claims (2)

A moving cylinder 120 installed on the base 100 so as to be rotatable about the hinge 101, a rotating cylinder 110 installed on the base 100 to rotate the moving cylinder 120, and the moving cylinder ( A drive motor 140 installed at the distal end of the support 120 via a support plate 130, a lift cylinder 150 provided on an upper surface of the support plate 130 to move the drive motor 140, and the drive motor 140. Fixing mud material removal device of the mud gun nozzle tip, characterized in that it comprises an excavation bit 170 installed through the rotating plate 160 in the front end portion. According to claim 1, Resilient installation via the spring 171 on the upper surface of the rotating plate 160 of the excavating bit 170, the tip portion of the excavating bit 170 is formed to be exposed to the outside than the circumferential surface of the rotating plate 160 Fixing mud material removal device of the mud gun nozzle tip characterized in that.