KR20140102955A - Cover apparatus for charging inlet of coke dry quenching system - Google Patents

Abstract

The present invention, among quenching tower devices of a coke dry quenching apparatus, relates to a charging inlet cover of the coke dry quenching apparatus capable of opening and closing the charging inlet of a free chamber for charging red-heat coke into a main body. The charging inlet cover of a coke dry quenching apparatus according to an embodiment of the present invention includes: a cover unit for covering the charging inlet, while being cooled by water; and an insulation unit fixated onto the basal surface of the cover unit while being charged into the charging inlet and having a plurality of partitioned rolled insulation members filled up in the insulation member.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cover apparatus for a fire extinguishing apparatus,

[0001] The present invention relates to a device for covering an entrance of a coke dry fire extinguishing facility, and more particularly, to a device for opening and closing a coke dry fire extinguishing facility which opens and closes a entry opening of a pre- To an inlet cover device.

Coke used as a heat source and reducing agent in iron ore blast furnaces is produced in a coke oven (coke oven), in which the coal is carbonized in a glow state (over 1000 ° C).

The method of cooling the coke in the red state includes a wet fire extinguishing system for cooling and cooling the coolant in a normal temperature state and a dry fire quenching (CDQ) system for cooling using inert gas (nitrogen) have.

1, a general coke dry type fire extinguishing system includes a fire extinguisher 10, a hot gas duct 20, a boiler 30, and a circulation line 70, as shown in FIG. 1, As shown in Fig.

The digester 10 has a cooling chamber 11 for exchanging sensible heat of the glow-in-coke with an inert gas as a medium, and a cooling chamber 11 connected to the upper portion of the cooling chamber 11 to absorb time- A pre-chamber 12 is provided for the purpose of obtaining stability of operation and a ring duct 13 surrounding the prechamber 12 is provided in communication with the cooling chamber 11. At this time, a bow inlet for charging the red coke is formed at the upper end of the prechamber, and a cover 80 is provided at the bow inlet 12a to open and close the bow inlet 12a. Thus, the red coke is charged into the prechamber 12 from above the prechamber 12, sequentially moved to the cooling chamber 11, heat-exchanged with the inert gas, cooled to a temperature of 200 ° C, And is discharged to the outside.

On the other hand, the inert gas heated to a temperature of 1000 ° C. after the heat exchange is discharged from the upper part of the cooling chamber 11 through the ring duct 13 to the hot gas duct 20, And the dust coke and dust contained in the inert gas are removed through the dust catcher 21 installed in the reactor 20 and then passed through the boiler 30.

In the boiler 30, the sensible heat of the inert gas is recovered to generate steam to produce electric power. The inert gas that has passed through the boiler 30 is cooled to about 160 DEG C while the sensible heat is recovered.

The inert gas having passed through the boiler 30 is supplied again to the cooling chamber 11 of the fire extinguisher 10 through the circulation pipe 70. At this time, a cyclone (40) as a facility for separating dust contained in the inert gas is disposed on the circulation pipe (70), and a circulation fan (50) for circulating the inert gas by pressure is provided.

An auxiliary heat exchanger 60 for cooling the inert gas to a lower temperature is disposed on the circulation pipe 70 so that the inert gas is re-cooled while passing through the auxiliary heat exchanger 60, Cooled and fed to the cooling chamber 11 of the fire extinguisher 10.

2 is a cross-sectional view showing a conventional entrance port and a cover. As shown in FIG. 2, the entry port 12a formed in the conventional coke dry fire extinguishing facility and the cover 80 opening and closing the entry port 12a It is sealed with a water bubble. A water tongue groove 14 in which a number of water W is filled around the entry opening 12a is disposed on the bottom surface of the cover body 81 of the steel material constituting the cover 80, A seal ring 82 is provided which is locked by the water seal groove 14. A heat insulating material 83 for protecting the cover body 81 from the high temperature inside the fire extinguisher 10 is provided in the form of a block at the bottom center of the cover body 81. At this time, the respective heat insulating materials 83 are fixed to the bottom surface of the cover body 81 by the anchor bolts 84.

The cover 80 covers the inlet port 12a to block the inside of the fire extinguisher 10 and the outside air. The cover 80 is separated from the inlet port 12a of the glow plug coke to enter the inlet port 12a And serves to provide a space for loading the red coke. In this way, the cover 80 is repeatedly mounted on and separated from the entry opening 12a to perform its role, and in the process of sealing and sealing the high heat of the gypsum coke, the heat insulating material 83 in block form is mechanically impacted, There arises a problem that a part is damaged or dropped off due to thermal shock and corrosive gas. When a part of the heat insulating material 83 is damaged or dropped, the crack propagates to the fixing point of the anchor bolt 84 and is damaged. As a result, the entire heat insulating material 83 is removed from the cover body 81, The high temperature inside the fire extinguisher 10 is directly transmitted to the cover body 81 so that the cover body 81 is deformed or corroded, 80) is lost.

However, until now, only the technique for sealing the gap between the cover covering the entry port and the entry port has been studied, as proposed in "Device for preventing foreign matter from entering the water jacket of the entrance of the CDQ (Patent Publication No. 10-2009-0048904) " Research on techniques for preventing the insulation of the cover from falling off was in a state of insufficient.

[Patent document 10 2009-0048904 (May 15, 2009)

The present invention provides a sheet entrance cover device for a coke dry fire extinguishing system which can prevent a heat insulating material from falling off due to damage while protecting a cover device for opening and closing a sheet entrance from thermal impacts.

A cover device of a coke dry fire extinguishing system according to an embodiment of the present invention is a cover device for covering a cage entrance port of a coke dry fire extinguishing facility, the cover device being covered with the water inlet and being cooled by water cooling; And an insulating unit which is fixed to the bottom surface of the cover unit and is drawn into the intestinal entrance and in which a plurality of roll thermal insulating materials are partitioned and filled.

Wherein the cover unit includes a cover main body having an inner space formed by covering the intestinal mouth while being hollowed; A water-cooling jacket provided at an upper portion of the inner space of the cover body; A mounting plate spaced apart from the water-cooling jacket and disposed below the inner space of the cover body; And a seal ring projecting downward along the bottom edge of the cover body.

The water-cooled jacket has an inlet formed at an upper portion of the water-cooled jacket, an outlet for discharging cooling water is formed at the other side of the water-cooled jacket, a first flow meter is connected to the inlet, And the cooling water leakage of the water-cooling jacket is determined according to the flow rate value measured by the first flow meter and the second flow meter.

And a leak check pipe is provided at a side of the cover body to communicate with a lower portion of the inner space and open to the outside of the cover body.

Wherein the heat insulating unit is fixed to a bottom surface of the cover unit and has a housing space in which the scroll thermal insulating material is filled, and a plurality of cases in which a lower area is opened to expose the thermally insulating material, And the respective side surfaces are closely attached to the bottom surface of the cover unit.

Wherein each of the cases comprises an upper surface which is in close contact with a bottom surface of the cover unit and a pair of side surfaces which are bent downward so as to face each other on both sides of the upper surface, A plurality of fixing bars for supporting the bottom of the case are installed across the lower area of the case.

Characterized in that the rolled thermal insulation is formed by rolling a thermal insulating material in the form of a blanket wool.

According to the embodiment of the present invention, since the cover body is provided with the water-cooling jacket, the cover body prevents thermal shock caused by the high temperature inside the fire extinguisher, thereby preventing the cover body from being deformed or damaged, It is possible to prevent deterioration of the image quality.

In addition, since the heat insulating material for protecting the cover body from the high temperature inside the fire extinguisher is changed from a conventional block form to a rolled form and the roll heat insulating material is firmly attached to the cover body, the heat insulating material is damaged and prevented from falling off the cover body There is an effect that can be.

1 is a view showing a general coke dry fire extinguishing system,
2 is a cross-sectional view showing a conventional intestinal mouth and a cover,
FIG. 3 is a cross-sectional view of a device for covering the entrance of a coke dry fire extinguishing system according to an embodiment of the present invention,
FIG. 4 is a view showing a heat insulating unit according to an embodiment of the present invention,
FIG. 5 is a bottom view of the entry opening cover device of the coke dry fire extinguishing system according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It will be apparent to those skilled in the art that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to let you know. Wherein like reference numerals refer to like elements throughout.

FIG. 3 is a cross-sectional view showing a sheet entrance cover device of a coke dry fire extinguishing system according to an embodiment of the present invention, FIG. 4 is a view illustrating a heat insulating unit according to an embodiment of the present invention, FIG. 2 is a bottom view of a containment opening cover device of a coke dry fire extinguishing system according to an embodiment.

As shown in the drawing, a device for covering the entrance port of a coke dry fire extinguishing system according to an embodiment of the present invention is installed on the entry port 12a of the prechamber 12 to open and close the entry port 12a. A cover unit (100) which is cooled by water cooling while covering the sheet inlet (12a); And an adiabatic unit 200 which is fixed to the bottom surface of the cover unit 100 and is drawn into the intestinal inlet 12a and a plurality of roll thermal insulators 220 are partitioned and filled.

The cover unit 100 is a means for opening and closing the entry port 12a and sealing with the entry port 12a in a water-sealed manner as in the prior art. For example, the cover unit 100 includes a cover main body 110 which covers the entry port 12a and opens and closes the inside of the cover unit 100 to form an internal space therein; A water-cooling jacket 120 provided above the inner space of the cover body 110; A mounting plate 130 disposed below the inner space of the cover body 110 while being spaced apart from the water-cooling jacket 120; And a seal ring 140 protruding downward along the bottom edge of the cover body 110.

The cover body 110 is substantially made of steel and has a shape corresponding to the shape of the entry port 12a so as to cover the entry port 12a And is formed in a large disc shape. At this time, the inside of the cover body 110 is hollow to form an internal space.

The water-cooled jacket 120 forms a flow path through which the cooling water flows, and exchanges the heat transmitted to the cover body 110 with the cooling water by the flow of the cooling water. An inlet 121 is formed at an upper portion of one side of the water-cooling jacket 120 and an outlet 122 is formed at an upper portion of the other side of the water-cooling jacket 120 to discharge cooling water. Thus, the cooling water flowing into the inlet 121 is heat-exchanged while passing through the water-cooling jacket 120, and then discharged to the outside through the outlet 122.

The mounting plate 130 is a means for providing a base for fixing the heat insulating unit 200 to be described later to the cover body 110. The mounting plate 130 is provided in a lower region of the water- And is installed apart from the water-cooling jacket 120. The shape of the mounting plate 130 is not limited to a specific shape, but is preferably formed in a shape corresponding to the inner space of the cover body 110, that is, a disc shape.

The water seal ring 140 is a means for sealing between the cover body 110 and the inlet port 12a and includes a watertight trough 14 filled with a number of water W around the inlet port 12a, And is protruded downward from the bottom edge of the cover body 110 so as to be locked with the cover body 110. [

The cover unit 100 has a first flow meter 123 connected to the inlet 121 and a second flow meter 123 connected to the outlet 122 to determine the leakage of the cooling water into the water- 124 are connected. Therefore, the cooling water leakage of the water-cooling jacket 120 is determined according to the deviation of the flow rate value measured by the first flow meter 123 and the second flow meter 124.

The cover unit 100 is provided with a leak check pipe (not shown) that is opened to the outside of the cover body 110 by communicating with the lower portion of the inner space on the side of the cover body 110 to directly visually check the leakage of the cooling water 111 are installed. Therefore, when the leakage of the cooling water occurs in the water-cooling jacket 120, the leakage of the cooling water into the inner space of the cover body 110 causes the leakage of the cooling water to the outside of the cover body 110 through the leak- So that the operator can visually confirm this fact and judge the leakage of the water-cooling jacket 120. [0050]

The heat insulating unit 200 is a means for preventing the high temperature inside the digester 10 from being directly transmitted to the cover body 110. The heat insulating unit 200 is installed on the bottom surface of the cover body 110, (Not shown).

Each of the cases 210 has a top surface 211 and a pair of side surfaces 212 bent downward so as to face each other at both sides of the top surface 211, The shape of "ㄷ" is shaped like a person. Therefore, a receiving space in which the roll insulation material 220 is filled is formed inside.

The upper surface 211 of the case 210 is fixed to the mounting plate 130 of the cover unit 100 by a plurality of anchor bolts 84 so as to be in close contact with the bottom surface of the cover body 110.

As shown in FIG. 5, the plurality of cases 210 are disposed on the bottom surface of the cover body 110 so that their respective sides are in close contact with each other to form a single layer.

A protective ring 150 for protecting the plurality of cases 210 may protrude downward from the bottom surface of the cover body 110.

The protection ring 150 is formed to surround the plurality of cases 210 so that the plurality of cases 210 are received therein. For example, as shown in FIG. 5, the protection ring 150 is formed in a circular shape in cross section.

Meanwhile, the inside of the case 210 is filled with the rolled thermal insulation material 220.

In order to prevent the rolled thermal insulation material 220 from escaping into the lower open region of the case 210, a pair of side surfaces 212 constituting the case 210 is provided with a lower surface A plurality of fixing bars 230 are installed across the lower area of the case 210. [ The fixed bar 230 may be separately installed in each of the cases 210. The fixed bar 230 may be continuously installed in the adjacent case 210 as shown in FIG. .

At this time, the case 210 and the fixing bar 230 are formed of the SUS 316 material, which is an internal heat-resistant forcible agent, so that the case 210 and the fixing bar 230 are corroded by the corrosive gas inside the fire extinguisher 10 .

On the other hand, the rolled thermal insulation material 220 is formed by winding a thermal insulation material in the form of a blanket wool as shown in FIG. The rolled thermal insulation material 220 is inserted into each of the cases 210 and filled therein, and the bottom of the rolled thermal insulation material 220 is supported by the fixing bar 230. When the block-shaped heat insulating material is used as in the conventional method, the crack is propagated to the connecting point of the anchor bolt 84 and the entire heat insulating material is removed. Can be prevented. However, when the rolled thermal insulation material 220 is used, the rolled thermal insulation material 220 may be rolled into various shapes so as to cover the entire surface of the case 210, It is possible to fill the inside of the cover body 110 with the scroll thermal insulation material 220 between the outermost case 210 and the protection ring 150 so that the entire bottom surface of the cover body 110 can be effectively protected have.

Although the present invention has been described with reference to the accompanying drawings and the preferred embodiments described above, the present invention is not limited thereto but is limited by the following claims. Accordingly, those skilled in the art will appreciate that various modifications and changes may be made thereto without departing from the spirit of the following claims.

12a: entrance to the hall 14:
84: anchor bolt 100: cover unit
110: Cover body 111: Water leakage check pipe
120: water-cooling jacket 121: inlet
122: outlet 123: first flow meter
124: second flow meter 130: mounting plate
140: Water ring 150: Protective ring
200: heat insulating unit 210: case
220: scroll thermal insulation material 230: fixed bar

Claims (7)

A cover device for covering the entry opening of a coke dry fire extinguishing facility,
A cover unit which is cooled by water cooling while covering the intestinal mouth;
And a heat insulating unit which is fixed to a bottom surface of the cover unit and is drawn into the entry opening and into which a plurality of log heat insulators are partitioned and filled.
[2] The apparatus according to claim 1,
A cover body covering the bow inlet and having an inner space formed therein to form an inner space;
A water-cooling jacket provided at an upper portion of the inner space of the cover body;
A mounting plate spaced apart from the water-cooling jacket and disposed below the inner space of the cover body;
And a water seal ring projecting downward along the bottom edge of the cover body.
The method of claim 2,
The water-cooled jacket has an inlet formed at an upper portion of the water-cooled jacket, an outlet for discharging cooling water is formed at the other side of the water-cooled jacket, a first flow meter is connected to the inlet, Wherein the cooling water leakage of the water-cooling jacket is determined according to the flow rate value measured by the first flow meter and the second flow meter.
The method of claim 2,
And a leakage check pipe connected to a lower portion of the inner space and opened to the outside of the cover body is provided on a side portion of the cover body.
The method according to claim 1,
Wherein the heat insulating unit is fixed to a bottom surface of the cover unit, a receiving space in which the thermo-insulating material is filled is formed, and a lower case is opened to expose the thermo insulation material,
Wherein the plurality of cases are disposed on the bottom surface of the cover unit in close contact with each other.
The method of claim 5,
Wherein each of the cases comprises an upper surface that is in close contact with a bottom surface of the cover unit and a pair of side surfaces that are bent downward so as to face each other on both sides of the upper surface,
And a plurality of fixing bars for supporting the bottom surface of the roll thermal insulation material are provided across the lower area of the case at a lower end of the pair of side surfaces.
The method according to any one of claims 1 to 6,
Wherein the rolled thermal insulation material is formed by rolling a heat insulating material in the form of a blanket wool.

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