KR20120074392A - Apparatus for protecting inflate seal of vaccum degasing apparatus - Google Patents

Abstract

PURPOSE: An inflate seal protection apparatus of vacuum degassing equipment is provided to prevent an inflate seal from becoming damaged caused by flame. CONSTITUTION: An inflate seal protection apparatus of vacuum degassing equipment comprises a body case(110), a sliding gate, and an air cylinder(120). The body case is installed in a lower part of an inflate seal(14). The sliding gate is placed inside the body case. The sliding gate opens and closes a TOB socket by sliding onto one side. The air cylinder is connected to the sliding gate, and slides the sliding gate.

Description

In-Plate Seal Protection Device of Vacuum Degassing Facility {APPARATUS FOR PROTECTING INFLATE SEAL OF VACCUM DEGASING APPARATUS}

The present invention relates to an in-plate seal protection device of a vacuum degassing plant, and more particularly, to shorten the operation minimum vacuum attainment time, to improve the degree of vacuum, to protect the in-plate seal from the flame when coating the bottom bath, It relates to an in-plate seal protector of a vacuum degassing plant which prevents the discharge into the plant and can replace the in-plate seal on-line during the vacuum leak during processing.

Secondary refining vacuum degassing facility in steel mill is a facility for manufacturing high quality ultra low carbon steel for automobile steel by high vacuum decarburization and degassing. Top O ₂ blowing Is made of.

During the molten steel treatment operation through the vacuum degassing facility, an expansion joint is closed to maintain a vacuum after the lance is lowered to a thio hole hole installed in the vessel. The vacuum is maintained by inflation and inflation of air into the inflate seal to prevent empty space into the non-lance.

However, there was a problem in that the inflate seals were damaged by CO gas and flames generated during untreated or under bath coating after the thiobi lance was raised.

In this way, when the in-plate seal is damaged, the problem of delayed reaching the lowest vacuum (0 mbar) occurs during the treatment, resulting in a problem that the efficiency and productivity of the operation are lowered.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, shortens the operation minimum vacuum time, improves the degree of vacuum, protects the in-plate seal from the flame during the bottom bath coating, and prevents exhaust gases from entering the plant. The aim is to provide an in-plate seal protector for vacuum degassing plants which can exchange in-plate seals on-line during vacuum leakage during processing.

The present invention is a protective device for protecting the in-plate seal that is formed in the thiobi socket installed in the vacuum chamber of the vacuum degassing equipment to maintain the vacuum of the vacuum chamber, the body casing is provided below the in-plate seal; A sliding gate disposed inside the main body casing and slidably installed in one direction to open and close the thio socket; And an air cylinder connected to the sliding gate and sliding the sliding gate, wherein the in-plate seal protecting device of the vacuum degassing facility is formed.

In this case, a plurality of heat-resistant castables are provided under the sliding gate.

In addition, the main casing is also characterized in that the top of the main casing is connected to the seal removal device for guiding the obi lance in order to remove the now attached to the thio lance inserted into the thio socket.

The seal cap is also characterized by being hinged to the now removing device.

In addition, the inflate seal is characterized in that it is expanded by the injected nitrogen gas.

According to the present invention, it is possible to protect the in-plate seal from the flame during the bottom coating of the vacuum chamber.

Moreover, according to this invention, operation minimum vacuum attainment time can be shortened.

Moreover, according to this invention, a vacuum degree can be improved.

In addition, according to the present invention, it is possible to prevent the exhaust gas from being released into the plant.

In addition, according to the present invention, the in-plate seal can be exchanged on-line during vacuum leakage during processing.

1 is a schematic view showing a vacuum degassing plant having an in-plate seal protection device according to the present invention.
Figure 2 is a perspective view of the in-plate seal protector according to the present invention.
Figure 3 is a perspective view showing the operation of the in-plate seal protection device according to the present invention.
Figure 4 is a sectional perspective view showing an in-plate seal protection device according to the present invention.
5 is a cross-sectional view showing an in-plate seal protection device according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Like parts are designated with like reference numerals throughout the specification.

Then, the in-plate seal protection device of the vacuum degassing facility according to the present invention will be described with reference to FIGS. 1 to 5.

1 to 5, the inflated seal protection device 100 according to the present invention is formed in the hole degassing facility 10 to prevent the inflated seal 14 from being damaged by CO gas and flame. Device.

Here, the inflate seal 14 opens the vacuum chamber 11 through expansion in order to prevent the vacuum inside the vacuum chamber 11 from being released during the treatment operation inside the vacuum chamber 11. The sealing member, for the expansion of the inflated seal 14 such that nitrogen gas may be injected into the inflated seal (14). At this time, after the treatment of the thio lance 13, nitrogen gas is discharged to serve to maintain the gap. This inflate seal 14 may be formed of urethane.

On the other hand, the thio lance 13 enters the vacuum chamber 11 through the thio hole hole 110a of the upper end of the vacuum tank 11, in this case, the thio socket 12 is in the thio hole hole 11a It is installed to guide the thio lance (13). That is, the inflate seal 14 is formed in the thiobi socket 12, and in this case, the inflate seal 14 may be fixed to the thiobi socket 12 by a fixing ring 14a. .

And the in-plate seal protection device 100 according to the present invention is, of course, formed in such a thio socket (12). In other words, the inflate seal protector 100 becomes one component belonging to the TV socket 12.

The in-plate seal protection device 100 is formed to include a main body casing 110, the sliding gate 130 and the air cylinder 120.

The main body casing 110 is installed under the inflate seal 14 and provides an arrangement space of the sliding gate 130 therein. Both sides of the main body casing 110 is formed of a cover 110a for opening and closing the inside thereof. At this time, the cover 110a is linked to the movement of the sliding gate 130 to open and close the body casing 110. In addition, the cover 110a is used as a passage for checking the inside of the main body casing 110 and the TV socket 12.

The scraper 112 and the seal cap 111 are sequentially formed on the upper side of the main body casing 110. Here, the now removing device 112 is a device for removing the now attached to the thio lance (13), through the O-ring (112a) is stable inside the thio socket 12 of the upper body casing (110). Is formed. And the seal cap 111 serves to guide the safe lowering of the thio lance 13 when the lowering into the vacuum chamber (11).

At this time, the seal cap 111 may be hinged through the casing and the hinge bolt 113 of the now removing device 112, through this, it is easy to open and close when replacing the in-plate seal (14). And in order to further facilitate this, the handle 111a may be installed on one side of the seal cap 111.

Each connecting portion of the main body casing 110 is sealed to maintain the airtightness inside. The coolant is circulated in the lower part of the main body casing 110, and the nitrogen purge device 15 is connected to the lower part of the main body casing 110.

Here, the nitrogen purge device 15 serves to block a plurality of rows and flames generated in the vacuum chamber 11. To this end, a nitrogen inlet 15a is installed outside the casing of the nitrogen purge device 15, and a plurality of nitrogen purge nozzles 15b connected to the nitrogen inlet 15a and discharging nitrogen gas therein are formed therein. .

Sliding gate 130 is a plate that opens and closes the thio socket 12 by sliding, it should be formed of a plate wider than the opening area of the thio hole hole (11a). In addition, the sliding gate 130 is slidably installed in the body casing 110. The sliding gate 130 is slid in one direction by the air cylinder 120.

The sliding gate 130 serves to prevent the flame or heat of the vacuum chamber 11 from being transferred to the inflate seal 14. If the inflate seal 14 is damaged and is to be replaced, the sliding gate 130 is placed in a closed state, that is, the thio hole portion 11a of the thio socket 12 is closed to close the vacuum chamber 11. Replace inflate seal 14 with open flame or heat.

That is, the replacement operation of the inflate seal 14 can be replaced while the vacuum chamber 11 is in operation. As such, when the sliding gate 130 according to the present invention is installed, productivity can be improved by preventing the operation interruption caused by replacing the in-plate seal 14 as in the related art.

On the other hand, the sliding gate 130 is open when the TBI lance 13 is lowered, i.e., the TBI hole portion 11a is opened so that the tip of the TBI lance 13 is inserted into the vacuum chamber 11.

A plurality of irregular castables 131 may be provided below the sliding gate 130 to reinforce the heat resistance of the sliding gate 130. That is, the castable 131 serves to protect the sliding gate 130 from high heat.

The air cylinder 120 is a device for sliding the sliding gate 130 in one direction. To this end, the air cylinder 120 is connected to the sliding gate 130. As shown, the air cylinder 120 is horizontally connected to the lateral end of the sliding gate 130. At this time, the air cylinder 120 is connected to the sliding gate 130 through the connecting rod 123.

Here, the connecting rod 123 connects the air cylinder 120 and the sliding gate 130 to both ends in the longitudinal direction, respectively, can be pinned to them through the fixing pin 124.

That is, the air cylinder 120 has been moved to one side to open the thiobi socket 12 in accordance with the insertion of the thiobi lance 13 when the inflate seal 14 is replaced after the ascending thio lance 13 is raised. The sliding gate 130 is moved again to close the initial position, that is, the thio socket (12).

On the other hand, such an air cylinder 120 is mounted on the air cylinder base 121. And for the stability of the device, the base frame 122 is installed on the lower side of the air cylinder base 121 on which the air cylinder 120 is mounted to support it.

Hereinafter, the operation of the in-plate seal protection device according to the present invention will be described in detail.

When the thio lance 13 is inserted into the vacuum chamber 11 through the thio socket 12, first, the air cylinder 120 has a pneumatic pressure to slide the sliding gate 130 toward the air cylinder 120 Is applied. Accordingly, the sliding gate 130 is slid and moved toward the air cylinder 120, through which the thio hole portion 11a of the thio socket 12 is opened.

In this way, when the thiobi hole portion 11a is opened, nitrogen gas is injected from the nitrogen purge device 15 to the inside of the thiobi hole portion 11a to radiate heat and flame from the lower vacuum chamber 11 to the inflate seal 14. ) Is blocked to rise above the thio socket (12) is formed. That is, the nitrogen gas injected from the nitrogen purge device 15 serves as a curtain blocking the thio hole portion 11a.

When the thiobi lance 13 is positioned in the vacuum chamber 11, nitrogen gas is injected into the inflate seal 14 to expand it, and thus, the thiobi lance 13 and the thiobi socket 12 are disposed. The space between them is sealed.

On the contrary, when the thiobi lance 13 rises to return to its original position after the operation, first, the nitrogen gas injected into the inflate seal 14 and expanded therein is exhausted. As a result, the inflate seal 14 is contracted, and a space is generated between the inflate seal 14 and the thiobi lance 13 to secure a moving space of the thiobi lance 13.

In addition, the nitrogen purge device 15 which is stopped during the operation of the thio lance 13 is operated to inject nitrogen gas into the thio hole portion 11a to form a gas curtain. The gas curtain prevents the inflate seal 14 from being damaged by heat and flame inside the vacuum chamber 11.

As such, after the nitrogen purge device 15 is operated, the thiobi lance 13 is raised to return to its original position, and the thiobi lance 13 is completely removed from the thiobi socket 12 and then the nitrogen purge device ( 15 is stopped and the inflate seal 14 is slid by the air cylinder 120 to the thio hole portion 11a of the thio socket 12 to close it.

Here, the operation of the air cylinder 120 and the nitrogen purge device 15 may be controlled by a programmable logic controller connected thereto.

As described above, the present invention includes a sliding gate 130 that is slid laterally by the air cylinder 120 and opens and closes the thio socket 12, so that the vacuum during the rise and fall of the thio lance 13 Flame or a plurality of rows of the inside of the tank 11 is transmitted to the in-flate seal 14 through the hole portion 11a of the thio socket 12 to prevent the phenomenon of damaging it. In addition, the present invention can replace the damaged in-plate seal 14 in a state in which the thio socket 12 is closed by the sliding gate 130 without stopping operation of the vacuum degassing facility 10.

In addition, according to the present invention, the exhaust gas inside the vacuum chamber 11 may be prevented from being discharged into the factory according to the closing of the thiobi socket 12 of the sliding gate 130, and the degree of vacuum inside the vacuum chamber 11 may be increased. Can be improved.

That is, the present invention can shorten the operation minimum vacuum attainment time, thereby improving productivity.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

100: in-plate seal protector 110: main body casing
111: seal cap 111a: handle
112: Remove Now Device 112a: O-Ring
113: hinge bolt 120: air cylinder
121: air cylinder base 122: base frame
123: connecting rod 124: fixing pin
130: sliding gate 131: castable
10: vacuum degassing plant 11: vacuum tank
11a: TV hole part 12: TV socket
13: Tobi Lance 14: Inflate Seal
14a: retaining ring 15: nitrogen purge device
15a: nitrogen inlet 15b: nitrogen purge nozzle
110a: cover

Claims (5)

A protective device for protecting an in-plate seal, which is formed in a thiobi socket provided in a vacuum tank of a vacuum degassing facility and holds the vacuum of the vacuum tank,
A main body casing installed under the inflate seal;
A sliding gate disposed inside the main body casing and slidably installed in one direction to open and close the thio socket; And
And an air cylinder connected to the sliding gate and sliding the sliding gate.
The method of claim 1,
In-plate seal protection device of the vacuum degassing facility, characterized in that a plurality of heat-resistant castable is installed below the sliding gate.
The method of claim 1,
The upper part of the main casing is connected to the now removing device for removing the now attached to the thio lance inserted into the thio socket, and the seal cap for guiding the thio lance is connected in sequence In-Plate Seal Protector.
The method of claim 3,
And the seal cap is hinged to the now removing device.
The method of claim 1,
The inflate seal is inflated seal protection device of the vacuum degassing facility, characterized in that the expansion by the injected nitrogen gas.

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