KR950007554Y1 - Removing ash device - Google Patents

Abstract

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Description

Mini riser sediment discharge device for coke oven

1 is an overall configuration of the sediment discharge device according to the present invention.

2 is a plan view showing a state in which the sediment discharge device according to the present invention is mounted on the jacket portion of the mini-rising pipe.

3 is a structural diagram of a general mini lift plate.

4 is a cross-sectional view showing a state in which an analysis bullet is deposited on the jacket portion of the mini riser according to the prior art.

* Explanation of symbols for main parts of the drawings

10: high pressure water injection device 14: electric valve for high pressure water control

16: high pressure water supply pipe 20: nozzle

22: high pressure water injection pipe 40: drainage

45: drainage pipe 47: electric valve for drainage control

55: drain hole 100: Mini Rise Hall

120: jacket 130: lid

P: sediment (analytical coal)

The present invention relates to a device for discharging sediment deposited on the jacket portion from the mini lift pipe installed in the carbonization chamber of the coke oven, and more specifically, the mini lift pipe is a high-pressure The present invention relates to a coke oven mini riser sediment discharge device in which no harmful gas is discharged to the outside by washing with a water spray device.

In general, a coke oven facility includes a plurality of carbonization chambers and bituminous coal is introduced into the carbonization chambers to produce cokes.

As such, a large amount of harmful gas is generated in the process of producing coke, which is a major cause of environmental pollution.

On the other hand, when the bituminous coal is introduced into the carbonization chamber, since the harmful gas inside is discharged to the outside, it is not discharged to the outside, and is led to an adjacent carbonization chamber to be purified through a separate exhaust gas pipe. At this time, a mini riser located above each carbonization chamber is used, and its structure is as shown in FIG.

The mini-rising pipe 100 forms a jacket portion 120 having an enlarged diameter at the upper end of the cylindrical body portion 110, and the jacket portion 120 is filled with water. The mini-rising pipe 100 as described above is maintained in a closed state by the cover 130 from the top, and when the coal is introduced into the carbonization chamber, the mini-rising pipe of the carbonization chamber adjacent to the mini-rising pipe 100 of the upper carbonization chamber. The cover 100 and 130 'are respectively opened, and the U-tube 140 of the coal briquettes (not shown) is lowered to connect the mini lift pipes 100 and 100' to each other. The harmful gas discharged from the carbonization chamber into which the bituminous coal is introduced is led to and discharged through the mini-rising pipe 100 and the U-tube 140 to the mini-rising pipe 100 'of the adjacent carbonization chamber.

When the cover 130 and 130 ′ are opened and closed in this process, the analytical coal in the harmful gas discharged momentarily is deposited on the jacket portion 120 of the mini-rising pipe 100 to deposit the sediment layer P. Will be achieved.

The analytical coal is 5 mm or less in diameter, and is deposited in the water of the jacket part 120 so that the cover 130 covers the jacket part 120 to form a gap between the lower ends of the cover 130. To discharge the harmful gas to the outside, in particular, when the deposit layer (P) is formed higher than the drain pipe 150 of the jacket portion 120, the cover 130 is jacketed because the water is completely drained and the replenishment water is not supplied Even if it is covered in the part 120 will continue to emit harmful gases through the lower gap to cause a problem that causes environmental pollution. Therefore, in order to solve such a problem, the operator must remove the analysis shots manually from the jacket portion 120 of the mini riser 100 at any time, but since the area where the mini riser 100 is installed is a high heat generating area, The work is so difficult that it also creates a problem of significantly lower work productivity.

The present invention was devised to solve this problem, and by automatically removing the analysis shot deposited on the jacket portion of the mini lift pipe by the high pressure water sprayed at a constant cycle, the lower part of the cover is always in close contact with the jacket portion to remove harmful gas. It is an object of the present invention to provide a sediment discharge device for mini-lift 코 coke oven to block external discharge.

In order to achieve the above object, the present invention is equipped with a high-pressure water injection pipe mounted on the outer surface of the jacket portion and has a plurality of nozzles for injecting the high pressure water toward the inner side to the right, and the high pressure water opened and closed to supply the high pressure water to the nozzle. A high pressure water injector having a control electric valve and a timer for periodically opening and closing the high pressure water control electric valve, a drain pipe connected to a drain hole formed in the lower surface of the jacket to discharge high pressure water and sediment; By providing a mini-pipe riser sediment discharge device of the coke oven including a drainage device mounted to the drain pipe and having a drainage control electric valve for opening and closing at the same time according to the high-pressure water control electric valve of the high-pressure water injection device All.

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

The present invention is provided with a high-pressure water injector 10 for supplying high pressure water to the jacket portion 120 of the mini-rising pipe 100, and a drainage device 40 for discharging water and sediment from the shop jacket portion 120 have. Since the high-pressure water injection device 10 and the drainage device 40 are provided in each mini lift pipe 100, hereinafter, only one representative mini lift pipe 100 will be described in more detail. For 100 ', the same reference numerals are given to the subscript ('). The high-pressure water injection device 10 is provided with a high-pressure water control electric valve 14 in the high-pressure water supply pipe 12, and the high-pressure water supply pipe connected to the jacket portion 120 of the mini-rising pipe 100, respectively ( A plurality of 16 is formed, each of the high-pressure water supply pipe 16 is connected to a high-pressure water injection pipe 22 having a plurality of nozzles 20 through the shut-off valve 18. The high pressure water injection pipe 22 is fixed to one outer circumferential surface of the jacket portion 120 by a clamp (not shown) or the like, and a plurality of nozzles 20 extend through the outer surface of the jacket portion 120 to the inner surface. The nozzles 20 are respectively inclined downward toward the right direction. In addition, the control panel 24 is provided with a timer 26 to open and close the high pressure water control valve 14, and the timer 26 is provided to the high pressure water control valve 14 at regular intervals. It is operated to open or close the power supply.

In addition, the drainage device 40 is provided with a drain main pipe 42 on one side of the mini-rising pipe 100, the drainage pipe 45 is connected to each jacket portion 120 from the drain main pipe 42, The drainage pipe 45 is provided with a drainage control electric valve 47 which is operated together with the high-pressure water control electric valve 14 of the high-pressure water injection device 10, respectively. Therefore, each of the mini-rising pipe 100 is provided with a high-pressure water injection device 10 and a drainage device 40, respectively, and each of the high-pressure water supply pipe 16 of the high-pressure water opening and closing the electric valve 14 High pressure water is supplied to each jacket portion 120 in accordance with the opening and closing operation, and water and sediment may be discharged from the jacket portion 120 to the drain pipe 42 according to the opening and closing operation of each drain control electric valve 47. Can be structured. Reference numeral 50 is a bypass valve (By Pass Valve) 55 is a drain hole.

The present invention configured as described above, when the high-pressure water control electric valve 14 is opened periodically by the operation of the timer 26, the high-pressure water supply from the high-pressure water supply pipe 12 to the high-pressure water supply pipe 16 to supply And, it passes through the shutoff valve 18 to the high-pressure water injection pipe 22, it is injected into the lower surface of the jacket portion 120 through a plurality of nozzles (20). In this case, since the nozzle 20 is inclined downward toward the right direction, the nozzle portion 20 is formed with a flow of high pressure water toward the right side in the jacket portion 120, and together with the high pressure water in the jacket portion 120. The deposited analysis coal (sediment) is washed while moving to the right and is directed to the drain hole 55. On the other hand, since the high pressure water control electric valve 14 and the drainage control electric valve 47 are also open, the water (high pressure water) and sediment (analysis coal) are drained through the respective drainage pipes 45. Discharged to (42). Therefore, after a certain time, no sediment (analysis shot) is present in the jacket portion 120, and the high pressure water control valve 14 and the drain valve control valve 47 are closed by the timer 26. As a high pressure water supply from the high-pressure water injection pipe 22 is stopped, the cover 130 is covered with a jacket portion 120 to block the external leakage of harmful gas.

According to the present invention as described above, because the high pressure water to wash and remove the sediment (analysis coal) deposited on the jacket portion 120, there is no gap between the lower end of the cover 130 and the jacket portion 120. This prevents external leakage of harmful gases.

In addition, by eliminating the need for manual removal of the sediment by the worker as in the prior art, the work load is reduced and productivity is improved, and the practical effect of not contaminating the working environment is obtained.

Claims (1)

In the apparatus for discharging the sediment (P) deposited on the jacket portion 120 from the mini-rising pipe 100 installed in the upper carbonization chamber of the coke oven to the outside, the high-pressure water spray pipe ( 22 is equipped with a plurality of nozzles 20 for injecting high pressure water to the right toward the inner surface, and equipped with a high-pressure water control electric valve 14 that opens and closes to supply the high pressure water to the nozzle 20, High pressure water injection device 10 having a timer 26 for periodically opening and closing the high pressure water control electric valve 14 and a drain hole 55 formed in the lower surface of the jacket portion 120 is connected to high pressure water and sediment And a drainage device (45) mounted on the drainage pipe (45) for discharging the water and the drainage pipe (45) and having a drainage control electric valve (47) which is opened and closed at the same time according to the high pressure water control electric valve (14). Mini riser tube sedimentation vessels for coke furnace Device.