KR101621049B1 - Apparatus for removing coal of gas sending pipe line of coke oven - Google Patents

Abstract

The present invention relates to an apparatus for removing coal of a gas transferring pipe line for a coke oven, comprising: a coal level detecting unit which detects the height through contacting stacked coals by being installed inside a gas transferring pipe line in order to secure work efficiency improvement and work safety of a worker by automatically detecting and removing the stacked coals while checking the gas transferring pipe line; and a removing unit which is installed inside the gas transferring pipe line, and discharges coals inside the gas transferring pipe line to the outside by being driven according to a detecting signal of the coal level detecting unit.

Description

TECHNICAL FIELD [0001] The present invention relates to an apparatus for removing carbon from a gas delivery pipe for coke oven,

Disclosed is an apparatus for removing the burnt gas transfer piping installed in a coke oven.

Generally, the coke oven has a RAW gas transfer facility. Coke oven gas (COKE OVEN GAS) is generated when coal is charged into the carbonization chamber of the coke oven.

A low gas transfer facility was installed in the oven end wall to discharge the coke oven gas.

However, in the conventional case, coal is continuously accumulated in the gas transfer pipe of the low gas transfer facility. It is difficult to clean periodic gas transfer piping because the worker can not confirm the accumulated burnt.

If the cleaning cycle is exceeded, it may cause environmental pollution and equipment damage, and the work load of the operator increases because the worker must individually confirm the inside of the gas transfer pipe or remove the carbon by hand.

The present invention provides an apparatus for removing gas from a gas transfer piping for a coke oven, which is capable of enhancing work efficiency and safety of an operator by mechanically detecting and removing accumulated carbon while checking the inside of a gas transfer pipe.

An apparatus for removing carbon from a coke oven gas delivery pipe, comprising: a charge level detector installed in a gas transfer pipe to detect a height of the pipe through contact with a bullet; And a removing unit installed inside the gas transfer pipe and driven by the detection signal of the charge level sensing unit to discharge the inside of the gas transfer pipe to the outside.

The gas transfer pipe may further include a check port provided at a position where the carbon is discharged to allow the user to visually check the carbon particles accumulated in the gas transfer pipe.

A door capable of opening and closing is installed on one side of the gas transfer pipe, and the check port can be installed on the door.

The door may be configured to be openable and closable by being connected to a first operating cylinder connected to a pneumatic line.

Wherein the charge level sensing unit comprises: a sensing pipe rotatably inserted into the gas transfer pipe; At least one or more sensing blades provided outside the sensing pipe for contacting the coils to rotate the sensing pipe; A support member installed outside the gas transfer pipe for rotatably supporting the sensing pipe; And a fire detection confirmation unit installed on the sensing pipe for outputting the sensing pipe to the outside when the sensing pipe is rotated according to the contact with the sensing wing.

The tamper detection unit may include a cam member eccentrically installed at the outer end of the sensing pipe and moved in position when the sensing pipe is rotated.

The removing unit may include a scraper installed inside the gas transfer pipe to push out the shot, and a second operating cylinder installed in the gas transfer pipe and connected to the scraper to move the scraper forward and backward along the gas transfer pipe.

And a control unit electrically connected to the first and second actuating cylinders to drive the first actuating cylinder during the scraper operation according to the driving of the second actuating cylinder to open the door.

According to this apparatus, it is possible to prevent environmental accidents due to burrs by periodically cleaning the inside of the gas transfer pipe by checking the burrs through the check port.

Also, by detecting the accumulated carbon in the gas transfer pipe and mechanically cleaning it, it is possible to improve work efficiency and work safety of the worker.

1 is a schematic view showing an apparatus for removing carbon in a gas transfer pipe for coke oven according to the present embodiment.
Fig. 2 is a schematic view showing an inspection port door of the gas transfer pipe according to the present embodiment.
FIG. 3 is a schematic view showing the structure of the charge level sensing unit according to the present embodiment.
FIG. 4 is a schematic view showing the operating state of the debris removing apparatus according to the present embodiment.
FIG. 5 is a view showing a sequence of operation of the apparatus for removing carbon in the gas transfer pipe for coke oven according to the present embodiment.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the invention. The singular forms as used herein include plural forms as long as the phrases do not expressly express the opposite meaning thereto. Means that a particular feature, region, integer, step, operation, element and / or component is specified, and that other specific features, regions, integers, steps, operations, elements, components, and / And the like.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Accordingly, the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In the following description, the present embodiment describes, as an example, an apparatus for mechanically removing a shot inside a gas transfer pipe installed in a coke oven. The present invention is not limited to this, and is applicable to an apparatus for mechanically removing charcoal or foreign matter accumulated in all the tubes.

1 is a schematic view showing an apparatus for removing carbon in a gas transfer pipe for coke oven according to the present embodiment.

As shown in Fig. 1, a carbon removal pipe 1 is provided with a carbon removal pipe 1 for removing the carbon (C) inside the gas transfer pipe 1 connected to the coke oven.

The above-described apparatus for removing carbon includes a charge level sensing unit 10 for detecting the charge accumulated in the gas transfer pipe, and a removal unit 20 for discharging the accumulated charge.

The bullet level sensing unit 10 is installed inside the gas transfer pipe 1 and senses the height of the bullet through the contact with the bullet C of the bullet. The carbon level sensing unit 10 senses the carbon nanotubes when the carbon nanotubes rise in the gas transfer pipe 1 by a predetermined height or more and remove the carbon nanotubes C. [

The removal unit 20 is installed inside the gas transfer pipe 1 and is driven in accordance with a detection signal of the charge level sensing unit 10 to discharge the charge C in the gas transfer pipe 1 to the outside .

In this embodiment, the gas transfer pipe 1 is provided with a check port 30 provided at a portion where the carbon (C) is discharged to allow the user to visually confirm the carbon (C) accumulated in the gas transfer pipe . The inspection port 30 is installed at one end of the gas transfer pipe 1 so as to be seen through the inside of the gas transfer pipe 1. Therefore, the inspection port 30 is made of a transparent material.

Fig. 2 is a schematic view showing an inspection port door of the gas transfer pipe according to the present embodiment.

2, the inspection port 30 is installed in a door 31 that can be opened and closed at one side of the gas transfer pipe 1. [ The inspection port 30 is installed on the door 31 so that the inspection port 30 can be opened and closed as well as the inside can be seen from the outside of the gas transfer pipe 1. [

The door 31 is connected to the first operating cylinder 32 connected to the pneumatic line 40 so as to be openable and closable. The door 31 is connected to the piston rod of the first actuating cylinder 32 and can be opened or closed by the expansion and contraction of the piston rod.

For example, the first operating cylinder 32 may be connected to the door 31 through a bracket 33 on the upper portion of the gas transfer pipe 1.

FIG. 3 is a schematic view showing the structure of the charge level sensing unit according to the present embodiment.

3, the bullet level sensing unit 10 includes a sensing pipe 11 rotatably inserted into the gas transfer pipe 1, at least one or more installed outside the sensing pipe 11, A sensing blade 12 for contacting the shot pipe C to rotate the sensing pipe 11 and a supporting member 12 installed outside the gas transfer pipe 1 for rotatably supporting the sensing pipe 11 And a shot detection confirmation unit installed on the sensing pipe 11 and outputting the sensing pipe 11 to the outside when the sensing pipe 11 is rotated according to the contact of the sensing blades 12 with the cans.

The tamper detection unit may include a cam member 14 eccentrically installed at the outer end of the sensing pipe 11 and moved in position when the sensing pipe 11 is rotated.

The sensing pipe (11) of the charge level sensing unit (10) is provided with one or more sensing vanes (12) on its outer side and rotates together. That is, the sensing blade 12 in contact with the bullet C rotates and the sensing pipe 11 also rotates.

In this embodiment, a cam member (not shown) that moves together when the sensing pipe 11 rotates through contact between the sensing blade 12 and the bullet C is provided at the rear end of the sensing pipe 11 of the bullet- 14 are installed. The position of the cam member 14 is changed by rotation so that it can be informed to the outside that the carbon particles C are present in the gas transfer pipe 1.

That is, when the bullet C comes into the gas transfer pipe 1 and comes into contact with the sensing vane 12, the sensing vane 12 moves so that the cam member 14, together with the sensing pipe 11, Rotate.

3, the cam member 14 is eccentrically coupled to the sensing pipe 11 and lifted upward. When the cam member 14 is rotated, the center of gravity of the cam member 14 is tilted to one side, 14) is further rotated by its own weight. Thus, the position of the cam member 14 is largely changed, and this state can be reliably detected from the outside.

In this embodiment, an apparatus for automatically removing the carbon (C) accumulated in the gas transfer pipe (1) is described as an example. However, Of course, it is possible to automatically remove foreign matter.

FIG. 4 is a schematic view showing the operating state of the debris removing apparatus according to the present embodiment.

4, the removal unit 20 includes a scraper 21 installed inside the gas transfer pipe 1 and pushing out the coal, a scraper 21 installed in the gas transfer pipe 1, And a second operating cylinder 22 connected to the gas transfer piping 1 for moving the scraper 21 forward and backward.

The scraper 21 is connected to the second operating cylinder 22 connected to the pneumatic line 40 so as to be movable forward and backward. The scraper 21 is connected to the piston rod of the second operating cylinder 22 and can be moved forward or backward by the expansion and contraction of the piston rod. The bullet C in the gas transfer pipe 1 can be pushed in one direction through the advancing of the scraper 21 to be discharged to the outside. After completion of the work, the scraper 21 can be moved backward and returned to its original position.

The first operation cylinder 32 and the second operation cylinder 22 are electrically connected to each other so that the first operation cylinder 22 and the second operation cylinder 22 are operated, (50) for opening the door (31) by driving the door (32). The controller 50 can simultaneously control the first actuating cylinder 32 and the second actuating cylinder 22.

The control unit 50 may simultaneously control the door 31 and the scraper 21 to remove the burr C inside the gas transfer pipe 1. [ The controller 50 operates the first actuating cylinder 32 to open the door 31 and at the same time actuates the second actuating cylinder 22 to move the scraper 21 forward.

The bullet C pushed in one direction by the scraper 20 is discharged to the outside through the door 31, so that the bullet C inside the gas transfer pipe 1 can be removed.

FIG. 5 is a view showing a sequence of operation of the apparatus for removing carbon in the gas transfer pipe for coke oven according to the present embodiment.

As shown in FIGS. 4 and 5, when the carbon particles C rise in the gas transfer pipe 1 by a predetermined height or more, the carbon particles C and the sensing wings 12 are separated from each other inside the gas transfer pipe 1, . Accordingly, the sensing pipe 11 is rotated at the same time as the sensing vane 12 moves.

That is, the rotation of the sensing pipe 11 causes the cam member 14 to change its position from top to bottom by its own weight. When the operator looks at the cam member 14 whose position has been changed, the operator recognizes that the carbon particles C are present in the gas transfer pipe 1.

The control unit 50 sends a signal to actuate the first actuating cylinder 32 by the switching operation of the operator. The door 31 connected to the first operating cylinder 32 is opened.

At the same time, the control unit 50 sends a signal to operate the second operation cylinder 22. The scraper 21 connected to the second operating cylinder 22 advances.

The scraper 21 advances in the direction of the opened door 31 and pushes the bullet C so that the bullet C is discharged to the outside through the door 31. [

When the operation is completed by the present apparatus, the control unit 50 sends signals to the first operation cylinder 32 and the second operation cylinder 22, respectively. According to this signal, the door 31 connected to the first actuating cylinder 32 is closed and the scraper 21 connected to the second actuating cylinder 22 is moved backward.

In this way, since the operator can confirm the state of the carbon (C) inside the gas transfer pipe (1), the environmental accident can be prevented in advance by the carbon (C). In addition, the amount of burnt (C) can be recognized and the cleaning cycle of the coal can be confirmed. It is possible to inform the operator of the inside of the gas transfer pipe (1) loaded with the shot (C) and to quickly remove the shot (C), thereby improving work efficiency and safety of the worker.

While the illustrative embodiments of the present invention have been shown and described, various modifications and alternative embodiments may be made by those skilled in the art. Such variations and other embodiments will be considered and included in the appended claims, all without departing from the true spirit and scope of the invention.

1: gas transfer pipe 10:
11: Sense Pipe 12: Sense Wing
13: support member 14: cam member
20: Removal 21: Scraper
22: second operating cylinder 30: check port
31: door 32: first operating cylinder
33: Bracket 40: Pneumatic line
50:

Claims (8)

A carbon level sensing unit installed inside the gas transfer pipe to sense the height of the gas transport pipe through contact with the carbon nanotube; And
A gas discharge pipe connected to the gas discharge pipe, for discharging the gas inside the gas discharge pipe to the outside,
Lt; / RTI >
Wherein the removing part includes a scraper installed inside the gas transfer pipe and pushing the coal, and a second operating cylinder installed in the gas transfer pipe and connected to the scraper to move the scraper forward and backward along the gas transfer pipe,
Wherein the gas transfer piping further comprises an inspection port provided at a site where the carbon is discharged to allow the user to visually check the accumulated carbon in the gas transfer pipe. delete delete The method according to claim 1,
Wherein a door capable of being opened and closed is provided on one side of the gas transfer pipe, and the check port is provided on the door. 5. The method of claim 4,
Wherein the door is connected to a first operating cylinder connected to a pneumatic line to open and close the gas carrying pipette for coke oven. 6. The method of claim 5,
Further comprising a control unit electrically connected to the first operating cylinder and the second operating cylinder to drive the first operating cylinder during the scraper operation in accordance with the driving of the second operating cylinder to open the door, A device for removing carbon from a pipe. 7. The method according to any one of claims 1 to 6,
Wherein the charge level sensing unit comprises: a sensing pipe rotatably inserted into the gas transfer pipe;
At least one or more sensing blades installed on the outside of the sensing pipe to rotate the sensing pipe in contact with the coarse shot;
A support member installed outside the gas transfer pipe for rotatably supporting the sensing pipe; And
A detection sensor for detecting the rotation of the sensing pipe,
And a gas discharge pipe for discharging the coke oven gas. 8. The method of claim 7,
Wherein the tamper detection confirmation unit includes a cam member eccentrically installed at an outer end of the sensing pipe and a position of which is shifted during rotation of the sensing pipe.

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