KR101249465B1 - Backflow prevention system for pulverized coal injection line of furnace - Google Patents

Abstract

PURPOSE: A backflow prevention system of a pulverized coal feeding line is provided to prevent the backflow of oxygen and hot air flowing along the pulverized coal feeding line by simultaneously shutting off an automatic cutoff valve when stopping the feeding of pulverized coal due to a power outage and an equipment failure. CONSTITUTION: A backflow prevention system of a pulverized coal feeding line(100) comprises automatic cutoff valves(31), pneumatic actuators(32), and an opening and closing controller(40). The automatic cutoff valve is installed on the upper part of a multi-joint connection device(23) in each pulverized coal feeding line. The pneumatic actuators are respectively combined with each automatic cutoff valve. The opening and closing controller is connected to the multiple pneumatic actuators which control the opening and shutting of the automatic cutoff valves.

Description

Backflow prevention system of blast furnace coal dust injection line {BACKFLOW PREVENTION SYSTEM FOR PULVERIZED COAL INJECTION LINE OF FURNACE}

The present invention relates to a pulverized coal injection line of the blast furnace, and more particularly to a backflow prevention system of the pulverized coal injection line for preventing damage due to the back flow of oxygen and hot air.

More than 40 blown lances are provided in the tuyere formed in the steel mill blast furnace to supply pulverized coal. When the pulverized coal injection is stopped due to a power failure or equipment failure, the operator manually closes the ball valve installed in the blown pipe to prevent oxygen and hot air from flowing back to the pulverized coal injection line.

By the way, the number of ball valves to be closed is very large, about 40, and since the ball valves are distributed in a wide range, these ball valves cannot be closed at the same time. As a result, when the operation of the ball valve is delayed due to operations such as emergency measures in another place, oxygen or hot air flows back along the pulverized coal injection line.

In addition, the articulated connector is installed in the blown end pipe over the ball valve, but there is no separate shutoff valve on the upper part of the articulated connector. Therefore, when exchanging the articulated connector, the blow lance, and the blown pipe, there is an inconvenience in that all the pulverized coal is emptied from the pulverized coal injection line to the pulverized coal distributor located at the top of the pipe.

The present invention solves the problem of oxygen or hot air flowing back by closing a plurality of blow lances at the same time when the injection of the pulverized coal is stopped, and without replacing the entire pulverized coal supply line when exchanging the articulated connector, the blow lance, and the blown pipe. It is an object of the present invention to provide a backflow prevention system for a blast furnace pulverized coal injection line capable of performing an exchange operation.

According to one embodiment of the present invention, in a pulverized coal blowing line of a blast furnace installed in plural between a pulverized coal distributor and a blast furnace and including a blow lance, a blow pipe, and a articulated joint, i) a multi-joint at each pulverized coal injection line. An automatic shut-off valve installed at the top of the connector, ii) a pneumatic actuator coupled to each automatic shut-off valve, and iii) an open / close control unit connected to a plurality of pneumatic actuators to control the opening and closing of the automatic shut-off valve by the pneumatic actuator. It provides a backflow prevention system of the pulverized coal blowing line.

The automatic shutoff valve may be located closer to the pulverized coal distributor than to the articulated connector, the blown pipe, and the blown lance. The automatic shutoff valve is closed when the articulated coupler, the blown pipe, and the blown lance are exchanged, and the exchange operation can be performed after the pulverized coal is emptied to the pulverized coal blowing line below the automatic shutoff valve.

The opening / closing control part is iii) a compressed air pipe installed to surround the entire blast furnace and connected to a plurality of pneumatic actuators, ii) an air header connected to the compressed air pipe, and iii) a compressed air inlet connected to the air header. It may include an inlet valve and an outlet valve for controlling the discharge.

The inlet valve and the outlet valve are set so that their operations are reversed with each other, and are electrically connected to the control panel to operate according to the output signal of the control panel. The opening and closing control unit may further include a manual valve positioned between the air header and the inlet valve and the discharge valve.

According to the present embodiment, the automatic shutoff valve is located on the upper part of the articulated connector, thereby facilitating the replacement of parts, and when the pulverized coal injection is to be stopped due to power failure or equipment failure, the pulverized coal is simultaneously closed. The problem of backflow of oxygen or hot air along the blowing line can be effectively prevented.

1 is a schematic diagram showing a backflow prevention system of the blast furnace pulverized coal injection line according to an embodiment of the present invention.
2 is a partially enlarged view of Fig.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

1 is a schematic view showing a backflow prevention system of the blast furnace pulverized coal injection line according to an embodiment of the present invention, Figure 2 is a partially enlarged view of FIG.

1 and 2, the pulverized coal injection line 100 is installed between the pulverized coal distributor 11 and the blast furnace 12 to inject the pulverized coal provided from the pulverized coal distributor 11 into the blast furnace 12. . About 40 pulverized coal injection lines 100 are installed along the circumference of the blast furnace 12, and each pulverized coal injection line 100 is blown lance 21, blown pipe 22, and articulated connector 23. , And a ball valve 24.

From the pulverized coal distributor 11, it is located closely in the order of the articulated connector 23, the ball valve 24, the blown pipe 22, and the blown lance 21. As shown in FIG. At this time, the ball valve 24 is a manual opening and closing valve that is opened and closed manually by the operator.

The reverse flow prevention system 200 of the pulverized coal injection line 100 according to the present embodiment includes an automatic shutoff valve 31 installed above the articulated connector 23 in each pulverized coal injection line 100, and each automatic shutoff. Pneumatic actuator (32) connected to the valve 31 and the opening and closing control unit 40 is connected to the plurality of pneumatic actuator 32 to control the opening and closing of the automatic shut-off valve 31 by the pneumatic actuator (32) It includes.

The automatic shutoff valve 31 is located at the top of the articulated connector 23 in the pulverized coal blowing line 100. Accordingly, the automatic shut-off valve 31 is connected to the pulverized coal distributor 11 rather than the articulated connector 23 and the members positioned below it (ball valve 24, blowing end pipe 22, and blowing lance 21). Is located closer.

Therefore, when it is necessary to replace parts such as the articulated connector 23, the blown pipe 22, and the blow lance 21, the automatic shut-off valve 31 is operated to close it. Then, only the lower portion of the automatic shutoff valve 31 of the pulverized coal injection line 100 may be emptied of the pulverized coal therein and then the exchange operation may be performed.

That is, in the conventional case without the automatic shutoff valve 31, there is a need to empty all the pulverized coal for the pulverized coal distributor 11 and the pulverized coal injection line 100. However, in the present embodiment, since the pulverized coal is emptied only for a part of the pulverized coal injection line 100 by operating and closing the automatic shutoff valve 31, it is possible to facilitate the replacement of parts.

One pneumatic actuator 32 is provided for each automatic shutoff valve 31 and is mechanically coupled to the automatic shutoff valve 31. The pneumatic actuator 32 controls the opening and closing of the automatic shutoff valve 31 using compressed air.

The open / close control unit 40 is connected to the plurality of pneumatic actuators 32 to control the compressed air inlet / outlet of the pneumatic actuators 32. The backflow prevention system 200 of the present embodiment is configured to simultaneously open or close the plurality of automatic shutoff valves 31 in the central cab 41 by a remote control method using the open / close control unit 40.

Opening and closing control unit 40 is installed so as to surround the entire blast furnace 12, the compressed air pipe 42 connected to the plurality of pneumatic actuators 32, the air header 43 connected to the compressed air pipe 42, It is connected to the air header 43 includes an inlet valve 44 and a discharge valve 45 for controlling the compressed air inlet and outlet of the air header 43.

The inlet valve 44 and the outlet valve 45 are electrically connected to the control panel 46 to operate in accordance with the output signal of the control panel 46. The control panel 46 is electrically connected to the central cab 41 to operate under the control of the central cab 41.

The intake valve 44 and the discharge valve 45 are set so that their operation is opposite to each other. For example, the intake valve 44 is set to close when an outage or abnormality occurs, and the discharge valve 45 is set to open when an outage or abnormality occurs. In this case, in the case of a power failure or an abnormality, the inlet valve 44 is closed and the discharge valve 45 is opened, so that the compressed air is not injected into the pneumatic actuator 32, so that the automatic shutoff valve 31 is closed.

At this time, the plurality of pneumatic actuators 32 operate simultaneously because they use a common air header 43 through the compressed air pipe 42.

Therefore, the operator can close the plurality of automatic shutoff valves 31 simultaneously in the central cab 41. As a result, it is possible to solve the problem that oxygen or hot air flows back along the pulverized coal injection line 100 by simultaneously closing the automatic shutoff valve 31 at the same time when it is necessary to stop the pulverized coal injection due to a power failure and equipment failure.

On the other hand, between the air header 43, the intake valve 44 and the discharge valve 45 may be provided with a manual valve 47 for manually controlling their operation.

Thus, according to the present embodiment, the automatic shut-off valve 31 is located on the top of the articulated connector 23 can facilitate the replacement of parts, and when the injection of pulverized coal is to be stopped for reasons such as power failure and equipment failure. By simultaneously closing the automatic shutoff valve 31, the problem of backflow of oxygen or hot air can be effectively prevented.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Of course.

100: pulverized coal injection line 11: pulverized coal distributor
12: blast furnace 21: blow lance
22: blown pipe 23: articulated connector
24: ball valve 200: backflow prevention system
31: automatic shutoff valve 32: pneumatic actuator
40: opening and closing control unit

Claims (6)

In the pulverized coal injection line of the blast furnace is provided between the pulverized coal distributor and the blast furnace, and comprising a blow lance, blown pipe and a multi-joint connector,
An automatic shut-off valve installed at an upper portion of the articulated connector at each of the pulverized coal blowing lines;
Pneumatic actuators associated with each of the automatic shutoff valves; And
Opening and closing control unit connected to the plurality of pneumatic actuators to control the opening and closing of the automatic shut-off valve by the pneumatic actuators
Backflow prevention system of the pulverized coal injection line comprising a. The method of claim 1,
And said automatic shut-off valve is located closer to said pulverized coal distributor than said articulated joint, said blown pipe, and said blow lance. The method of claim 2,
The automatic shutoff valve is closed when the articulated connector, the blown pipe, and the blown lance are exchanged, and backflow prevention of the pulverized coal injection line is performed after the pulverized coal is emptied to the pulverized coal injection line under the automatic shutoff valve. system. 4. The method according to any one of claims 1 to 3,
The opening and closing control unit,
A compressed air pipe installed to surround the blast furnace and connected to the plurality of pneumatic actuators;
An air header connected to the compressed air pipe; And
An inlet valve and a discharge valve connected to the air header to control compressed air inlet / outlet of the air header
Backflow prevention system of the pulverized coal injection line comprising a. 5. The method of claim 4,
And the inlet valve and the outlet valve are set to be opposite in operation to each other, and electrically connected to a control panel to operate according to an output signal of the control panel. 5. The method of claim 4,
The opening and closing control unit further comprises a manual valve positioned between the air header, the inlet valve and the discharge valve backflow prevention system of the pulverized coal injection line.

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