KR101482320B1 - Lever for controlling the damper of coke oven's ascension pipe and apparatus for operating the same - Google Patents

Abstract

The present invention relates to a device comprising a device body including a link member connected to a lifting tube damper on a coke oven facility and a contact member provided on the device body for being brought into contact with an operating block on a coke oven facility, The present invention relates to a rising tube damper operating lever of a coke oven including a contact member and a deviation adjusting means disposed between the contact member and the apparatus body so as to adjust the deviation. The operating lever connected to the ascending pipe damper can alleviate the variation caused by the deformation, so that the contact between the operating blocks, which can be realized by an electromagnet or the like, can be stably performed, The effect can be expected.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an elevator damper operating lever of a coke oven,

The present invention relates to a lifting damper operating lever of a coke oven and a lifting damper operating device including the lifting damper operating lever of the coke oven. More particularly, the lifting damper operating lever of a coke oven capable of adjusting a deviation and opening / To a damper operating device.

1, generally, a coke oven 300 having a plurality of carbonizing chambers 310 is charged with coal using a charging car 320 into a carbonization chamber, and then heated to a temperature of about 1240 ° C. or higher It is a facility used to produce an off-white coke in which the volatiles contained in coal are removed by cutting off and heating the outside air for about 19 hours.

The above-described operation using the coke oven is also referred to as a " carburizing operation ", and the coke after the carburizing operation is taken out by opening the door 312 of the carbonization chamber 310, Discharged from the carbonization chamber and loaded on the extinguishing cart 350 through the coke guide of the transfer car 340, and then transferred to the digestion tower and extinguished.

When the coke is discharged from the carbonization chamber as described above, the extruder 360 and the transfer car 340 close the carbonization chamber door 312 and recharge the coal into the carbonization chamber to repeatedly carry out the carbonization operation .

1 to 3 illustrate an uprising pipe 330 installed on the carbonization chamber 310 of the coke oven 300.

That is, as shown in FIGS. 2 and 3, when coal is charged in the coke oven 300 and the gas is burned in the combustion chamber to heat the coal, the coal charged in the carbonization chamber 310 is carbonized, The COG (dotted line in FIG. 2) is generated by the uprising pipe 330 provided in the coke oven 300 and the coke oven gas (338) and the main collecting pipe (337) (Gas Collecting Main).

3, a lead 333 for opening and closing the uprising pipe is provided at an upper portion of the uprising pipe 330. The lead 333 is provided with an open lever (not shown) 338 includes a high pressure oranagement valve 343 mounted with a damper 335 operated by an operation lever 330a protruding to the outside and opening the high pressure orifice supply pipe 345.

For example, as shown in FIGS. 2 and 3, the uprising pipe 330 serves as a path for sending the COG generated when the coal is charged to the carbonization chamber 310 of the coke oven 300 and is heated.

At this time, when the coal is charged in the charging difference (320 in FIG. 1), it is necessary to operate the damper 335 of the bending portion 338. Just before the coal is charged in the charging car 320 as shown in FIG. 2 and FIG. The up tube lead 333 is closed and the bending portion 338 damper 335 is opened.

In this case, the COG generated in the coke oven 300 is sent to the Hwasung plant, which is a refining process. At this time, blooming is performed through the main collection pipe 337 for smooth ventilation of the COG.

As shown in FIGS. 2 and 3, when the coal is charged into the coke oven 300 for about 15 hours, gas is hardly generated in the coke oven 300, so that the bending part 338 of the bending part 338 is closed The lid 333 of the uprising pipe 330 is opened.

The COG remaining in the uprising pipe 330 is ignited and removed so that the gas is not generated in the carbonization chamber 310 of the coke oven 300. Therefore, the bending portion 338 of the cusp portion 338 is closed, And the rising pipe lead 333 is opened to improve the quality of the produced coke.

3, a damper 335 that opens and closes the passage between the bending portion 338 connected to the uprising pipe 330 and the main collecting pipe 337 is installed in the charging car 320, And the damper operation block 322 connected to the drive source such as the cylinder advances and pushes or pulls the damper operation plate 330a by the magnetic force to realize opening and closing of the bending portion 338 of the damper 335. [

3, when the operation block 322 is pushed by the damper operation plate 330a, the damper 335 is connected to the damper operation plate 330a by the link arm 334 connected to the hinge, And closes the passage between the bending portion 338 and the main collection pipe 337 while rotating.

However, in the operation of the conventional damper 335 as shown in FIG. 3, the linearly moving magnet block 322 must completely come in close contact with the damper operating plate 330a (which is actually a disk) 330a can be operated.

As shown in FIG. 3, the riser pipe 330 is tilted from the normal center line C to C1 or C2 by the heat of the coke oven 300.

Therefore, when the ascending pipe 330 is inclined, it is difficult to completely close the gap between the damper operation block 322 and the damper operation plate 330a, and a gap G is formed between the damper operation block 330a and the damper operation block 330a, .

As a result, the contact surface between the damper operating block 322 and the damper operating plate 330a, which determines the opening / closing operation of the damper 335, becomes smaller, and the operation of the damper operating plate 330a using the damper operating block 322 It will not be done normally.

4A and 4B, the conventional damper operating plate 330a has a simple structure, so that the contact surface deviation is mitigated or not compensated, so that the damper 335 can not be opened and closed smoothly. As a result, as shown in FIGS. 5A and 5B, the COG flows backward in the main collection pipe 337, and the occurrence of environmental pollution due to the unintended COG discharge and the generation of flames in the rising pipe lead 333 cause a safety accident .

The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide an apparatus for smoothly opening and closing an up tube damper by mitigating a deformation variation between an operation block, which can be realized by an electromagnet or the like, .

In order to achieve the above object, an embodiment of the present invention provides a lifting damper operating lever of a coke oven and an elevator tube damper operating device including the same.

One embodiment of the lift tube damper operating lever of the present invention comprises a device body including a link member connected to a lifting tube damper on a coke oven facility and a contact member mounted on the device body and provided in contact with the operating block on the coke oven facility And a deviation adjusting means connected and arranged between the contact member and the apparatus body so as to control a deviation between the contact member and the operation block, wherein the deviation adjusting means includes a ball joint unit for allowing the flow of the contact member Wherein the ball joint unit comprises a housing having a spherical flow space portion connected to the apparatus body and at least one side thereof being provided in a spherical shape, and a ball joint for connecting the housing and the contact member, .

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In one embodiment, the deviation adjusting means further includes a compensation unit for compensating for a deviation between the contact member and the manipulation block, wherein the compensation unit includes a fixed plate disposed in the circumferential direction of the housing, And a resilient member disposed between the fixing plate and a part of the support beam and provided to provide an elastic force to the contact member.

In one embodiment, the contact member is connected to the support beam, and includes a contact plate contacting the operation block and at least one reinforcing rib provided on the contact plate and a central portion of the contact plate, And a reinforcing block to which the ball joint is connected.

One embodiment of the ascending pipe damper operating apparatus according to the present invention is characterized in that the lifting pipe damper operating lever is provided on the coke oven facility to which the main collection pipe is connected to the lifting pipe damper and which pushes the operating lever, An operation block for allowing the damper to open or close the main collection pipe, and a drive portion disposed on the coke oven facility in connection with the operation block, for advancing or retracting the operation block toward the operation lever.

In one embodiment, the operating block may be a member of electromagnetic force to be attached or detached to the operating lever.

The operation lever of the up tube damper of the coke oven of the present invention and the up tube damper operating device including the up tube damper operating lever of the coke oven of the present invention may be constructed such that even if deformation occurs in the up tube due to long- It is possible to relieve the deviation due to the deformation and to ensure stable contact between the operation blocks, which can be realized by an electromagnet or the like, so that the opening and closing of the ascending pipe damper can be smoothly performed.

1 is an overall structure view of a coke oven.
Fig. 2 is a view showing a state in which the COG of the carbonization chamber is treated through the operation of an ascending pipe damper.
Fig. 3 is a schematic view of an operating device equipped with a conventional up-tube damper operating lever.
Figs. 4A and 4B are diagrams of conventional elevator damper actuating levers.
FIGS. 5A and 5B are diagrams showing gas leakage and flame generation due to a malfunction of a conventional up tube damper operation lever.
6 is a side cross-sectional view of one embodiment of an upturn damper operating lever of the present invention.
Fig. 7 is a schematic view showing a state in which the invention shown in Fig. 6 is mounted on an ascending pipe damper operating device.
8 is a state diagram showing the principle of relieving the deviation between the operation block and the operation lever in the invention shown in Fig.
9A and 9B are views showing a state in which the invention shown in FIG. 6 is actually mounted.

In order to facilitate understanding of the features of the present invention as described above, a lifting damper operating lever of a coke oven and a lifting damper operating device including the lifting damper operating lever of the lifting damper according to embodiments of the present invention will be described in detail.

In order to facilitate understanding of the embodiments described below, in the reference numerals shown in the accompanying drawings, the related components among the components that perform the same function in the respective embodiments are denoted by the same or an extension line number.

Embodiments related to the present invention are basically based on the fact that deformation deviations between an operation block, which can be realized by an electromagnet or the like, and an operation lever connected to an uprising damper are relieved to smoothly open and close the uprising pipe damper.

Hereinafter, a specific embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 6 is a side cross-sectional view of one embodiment of an upturn damper operating lever according to the present invention, and FIG. 7 is a schematic view showing a state in which the invention shown in FIG. 6 is mounted on an upturn damper operating device. And FIG. 8 is a state diagram showing the principle of relieving the deviation between the operation block and the operation lever in the invention shown in FIG. 7, and FIGS. 9A and 9B show a state in which the invention shown in FIG. 6 is actually mounted .

6 to 9B, the configuration of one embodiment of the lifting damper operating lever 10 of the coke oven according to the present invention includes a link member 30 connected to a lifting tube damper 235 on a coke oven facility, (20) and a contact member (40) which is provided in the apparatus body (20) and is brought into contact with an operation block (81) on a coke oven facility and a difference between the contact member (40) and the operation block And a deviation adjusting means 50 connected to the contact member 40 and the apparatus body 20 so as to be adjusted.

First, the apparatus body 20 may be made of steel, aluminum or titanium for weight or weight, and may be provided in the form of a polygonal column or a cylinder. A through hole 21 may be formed at the center of the apparatus body 20 and the link member 30 is screwed into the through hole 21 at one side of the apparatus body 20, As shown in FIG.

The link member 30 may include a connecting shaft portion 33 and a mounting portion 31. The connecting shaft portion 33 may be elongated and provided in the direction of the up tube damper 235, The mounting portion 31 may be installed at one end of the connecting shaft portion 33. The mounting portion 31 may have a connection hole 31a and may be provided to be connected to a link arm 234 assembled to the up tube damper 235 by the connection hole 31a.

The contact member 40 may be disposed on the other side of the apparatus body 20. The contact member 40 may be provided in contact with the operation block 81, which may be embodied as an electromagnet 81a or the like.

The contact member 40 may include a contact plate 41, a reinforcing rib 43, and a reinforcing block 45. First, the contact plate 41 is provided flat on one side and is in contact with the operation block 81. The opposite side of the contact plate 41 prevents the contact plate 41 from being deformed by an external impact or heat loss, One or more reinforcing ribs 43 may be installed in the radial direction of the contact plate 41 so as to enhance the rigidity of the contact plate 41. The reinforcing block 45 may be disposed at a central portion of the contact plate 41 so as to be connected to the deviation adjusting means 50.

The link member 30 and the contact member 40 may be made of the same material as that of the device body 20.

On the other hand, when the position of the contact plate 41 is changed due to the deformation of the up tube 231 due to an external impact or a heat loss, the deviation adjusting unit 50 may cause the operation block 81, Between the contact member (40) and the device body (20) so as to control the contact surface deviation of the contact plate (41). The deviation adjusting means 50 may include a ball joint unit 60 and a compensation unit 70.

The ball joint unit 60 may include a housing 61 and a ball joint 63. The ball joint unit 60 may be formed of a ball joint and a ball joint 63. In order to alleviate a contact surface deviation between the operation block 81 and the contact plate 41, Is provided to allow the flow of the contact plate (41) with respect to the block (81).

Specifically, the housing 61 may be welded or bolted to one side of the apparatus body 20, and a spherical flow space 61a may be formed at the center of the housing 61, .

At least one side of the ball joint 63 is provided in a spherical shape so as to be inserted into the flow space portion 61a of the housing 61 and to flow through a certain range. The other side of the ball joint 63 may be screwed into the through hole 45a formed at the center of the reinforcing block 45 and fixed by a nut 65. [ Of course, the other side of the ball joint 63 may be provided in the shape of a sphere, and a separate insertion space may be formed in the inner central portion of the reinforcing block 45 and connected thereto. Even in this case, the contact plate 41 can be allowed to flow.

That is, as one side of the ball joint 63 is provided in a spherical shape, the ball joint 63 can freely flow within a certain range within the housing 61, and thus the ball joint 63 is connected to the ball joint 63 The contact plate 41 is also allowed to flow and the deviation of the contact surface between the operation block 81 and the contact plate 41 can be mitigated.

Next, the compensation unit 70 may be configured to include a fixing plate 71, a support beam 73, and an elastic member 75. In order to compensate the deviation between the contact plate 41 and the operation block 81 Can be provided.

Specifically, the fixing plate 71 may be provided in the shape of an annular disk or a polygonal plate having a central opening, and may be welded or bolted together around the periphery of the housing 61. A plurality of opening holes 71a may be formed in the circumferential direction on the fixing plate 71 and the supporting beams 73 may be inserted into the opening holes 71a.

The support beam 73 may be provided in the form of a circular rod, one side of which is inserted into the opening hole 71a, and the other side of which is welded or bolted to one side of the contact plate 41.

The elastic member 75 may be installed on a side of the opening 71a of the fixing plate 71 facing the contact plate 41 and a part of the supporting beam 73.

A first support plate 76 is disposed on one side of the opening hole 71a of the fixing plate 71 and a second supporting plate 77 is fixed to a portion of the supporting beam 73 by a nut 78 Are fixedly arranged. The elastic member 75, which can be realized by a coil spring, a diction spring or the like, is disposed between the first and second support plates 76 and 77.

8, when the contact plate 41 contacts the manipulation block 81, the contact surface angle of the contact plate 41 is set to the elasticity corresponding to the contact surface angle of the manipulation block 81, Is adjusted by the member (75) to compensate the contact surface deviation between the contact plate (41) and the operation block (81).

Namely, when it is assumed that the contact surface of the operation block 81 is perpendicular to the paper surface, normally, the contact surface of the contact plate 41 will also be in a vertical state (V) with respect to the paper surface. Accordingly, the contact surface of the contact plate 41 will be in a horizontal state (H) with the contact surface of the operation block 81.

However, when the uprising pipe 231 is deformed due to an external impact or a heat loss, the position of the uprising pipe operation lever 10 connected to the uprising pipe damper 235 is also changed. At this time, the contact surface of the contact plate 41 is positioned in a state of being inclined (V1) or inclined (V2) perpendicular to the paper surface. In this case, the contact surface of the contact plate 41 and the contact surface of the operation block 81 are in the horizontal inclined state (H1) or the inclined state (H2).

The contact plate 41 is allowed to flow by the ball joint unit 60 when the operation block 81 is advanced to operate the up tube damper 235 and the contact plate 41 is contacted. And the compensation unit 70 provides an urging force in the direction of the contact surface of the operation block 81 so that the operation block 81 and the contact plate 41 are brought into stable contact with each other. Thus, the operation of the up tube damper 235 proceeds smoothly.

7, an embodiment of the ascending pipe damper control apparatus 100 of the coke oven according to the present invention includes the ascending pipe damper operation lever 10 and the ascending pipe damper operation lever (not shown) provided on the coke oven facility 10), or an up block damper (235) to open or close the main collection pipe (237), and an operating block (81) connected to the operating block (81) on the coke oven facility , And a driving unit (82) for advancing or retracting the operation block (81) toward the uprising damper operation lever (10).

The up tube damper operation lever 10 may be installed in the up tube 231 provided at the upper part of the carbonization chamber 210 and the upward tube 235 may be installed between the bending tube 238 and the main tube 237 And can be connected to the up tube damper 235 and the link arm 234 provided to open and close the bending portion 238 and the main collecting tube 237.

The driving unit 82 may be implemented as a hydraulic cylinder or the like so that the lifting pipe damper operating lever 10 can be moved forward or backward in the direction of the lifting damper operating lever 10. [ On the same horizontal line as that of the carburization chamber 210. [

The operation block 81 is connected to the drive unit 82 and may be mounted on the end of the rod 82a of the hydraulic cylinder 82 when the drive unit 82 is implemented as a hydraulic cylinder 82, And may include an electromagnet 81a so as to be attached to or detached from the contact plate 41 of the up tube damper operation lever 10. [

Accordingly, when the operator drives the driving unit 82, the operation block 81 pushes the lifting damper operating lever 10, and the elevating pipe damper operating lever 10 is lifted up by the link arm 234 The pipe damper 235 is opened and the COG is collected in the main collecting pipe 237 through the bending portion 238 in the carbonization chamber 210 and then moved to the next process.

Then, when the operator drives the drive unit 82 to move the operation block 81 backward, the up tube damper operation lever 10 attached to the operation block 81 is also moved backward by the electromagnetic force and the up tube damper 235 ) Is closed.

At this time, the contact surface deviation between the operation block 81 and the contact plate 41 of the uprising damper operating lever 10 is relaxed by the ball joint unit 60 and the compensation unit 70, Thereby smoothly opening and closing the damper 235.

The above description is only a specific embodiment of the ascending pipe damper operating lever of the coke oven and the ascending pipe damper operating device including it.

Therefore, it should be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims. do.

20 ... device body 30 ... link member
31 ... mounting portion 33 ... connection shaft portion
40 ... contact member 41 ... contact plate
43 ... reinforcing rib 45 ... reinforcing block
50 ... deviation adjusting means 60 ... ball joint unit
61 ... housing 63 ... ball joint
70 ... compensation unit 71 ... fixed plate
73 ... support beam 75 ... elastic member
76,77 ... First and second support plates 81 ... Operation block
82 ... driving part (hydraulic cylinder) 231 ... rising pipe
235 ... ascending tube damper 237 ... main collection tube

Claims (6)

delete An apparatus body including a link member connected to an up tube damper on a coke oven facility; A contact member installed in the apparatus body and provided to be in contact with an operation block on the coke oven facility; And a deviation adjusting means disposed between the contact member and the device body so as to adjust a deviation between the contact member and the operation block,
Wherein the deviation adjusting means includes a ball joint unit for allowing the flow of the contact member,
A housing connected to the device body and having a spherical flow space portion penetrated outward; And
At least one of which is provided in a spherical shape, the ball joint connecting the housing and the contact member;
And an operating lever for operating the up tube damper of the coke oven.
3. The method of claim 2,
Wherein the deviation adjusting means further comprises a compensation unit for compensating for a deviation between the contact member and the manipulation block,
A fixing plate disposed in the circumferential direction of the housing;
A support beam connecting the contact plate to the fixing plate; And
An elastic member disposed between the fixing plate and a part of the support beam, the elastic member being provided to provide an elastic force to the contact member;
And an operating lever for operating the up tube damper of the coke oven.
The method of claim 3,
The contact member
A contact plate connected to the support beam and contacting the operation block;
At least one reinforcing rib provided on the contact plate so as to enhance rigidity of the contact plate; And
A reinforcing block disposed at the center of the contact plate and connected to the ball joint;
Wherein the operating lever of the up tube damper of the coke oven comprises:
A rising pipe damper operating lever of the coke oven according to any one of claims 2 to 4;
An operating block installed on the coke oven facility to which the main collection pipe is connected to the uprising pipe damper and which pushes the operation lever or causes the uprising pipe damper to open or close the main collection pipe; And
A driving unit disposed on the coke oven facility in connection with the operating block and advancing or retracting the operating block toward the operating lever;
Wherein the damper is provided with a damper.
6. The method of claim 5,
Wherein the operating block is an electromagnetic force member to be attached to or detached from the operating lever.

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