KR20210076792A - Gas shutoff device and gas seal pot device having the same - Google Patents

Abstract

Disclosed is a gas shutoff device and a gas seal port device having a gas shutoff device. The gas shutoff device according to an embodiment of the present invention comprises: a discharge passage that communicates a gas pipe and a seal port and discharges condensed water and foreign substances from the gas pipe to the seal port; and a sealing part installed in the discharge passage.

Description

A gas shut-off device and a gas seal port device having the same {GAS SHUTOFF DEVICE AND GAS SEAL POT DEVICE HAVING THE SAME}

The present invention relates to a gas shut-off device and a gas shut-off device having the same, and more particularly, to a gas shut-off device capable of preventing by-product gas from being introduced from a gas pipe when repair of a drain pipe or a seal port is required, and a gas shut-off device having the same One relates to a gas seal port device.

In general, the by-product gas generated during operation in the steel mill is a flammable and toxic gas, and the amount of generated and high calorific value is high, so it is reused or processed during the process of using gas fuel in the steel mill to be used as a resource.

A large amount of condensed water and impurities are contained in the by-product gas, which acts as a factor that causes an obstacle to gas transport in the gas pipe.

In order to solve this problem, a gas seal port device is installed at each predetermined distance of the gas pipe to discharge condensed water and impurities.

On the other hand, when a defect occurs in the gas seal port device due to evaporation of the condensate inside the drain pipe or seal port or corrosion caused by the condensate, condensate in which tar and naphthalene are dissolved may be ejected to the outside, and in this case, the ejected condensate There may be problems that cause fire, explosion, or human accidents due to gas by the by-product gas. In the related art, when the above defect occurs, the by-product gas is blocked from flowing into the seal port from the gas pipe by locking the upper valve provided on the upper part of the drain pipe, and repair work is performed. However, when a functional defect occurred in the upper valve, it was not possible to prevent the by-product gas from being introduced into the seal port. In this way, if the work is carried out in a state where the gas shutoff is not perfect, there may be human accidents such as gas poisoning.

In order to prevent this, the repair work was carried out while the process of the blast furnace or coke plant generating by-product gas was stopped as the next best solution, but the overall repair period was long and the process was interrupted during the repair period, resulting in significant cost damage. there was

Republic of Korea Registered Utility Model Publication No. 20-0352304 (May 25, 2004, published)

An object of the present embodiment is to provide a gas blocking device capable of preventing by-product gas from being introduced from a gas pipe when repair of a drain pipe or a seal port is required, and a gas seal port device having the same.

In this embodiment, the by-product gas can be smoothly supplied to the product manufacturing plant by discharging the condensate and foreign substances contained in the by-product gas.

According to one aspect of the present invention, the gas pipe and the seal port to communicate, the discharge passage for discharging the condensed water and foreign substances of the gas pipe to the seal port; and a sealing part installed in the discharge flow path, wherein the sealing part may include an expansion part for selectively closing the discharge flow path by gas pressure and a gas supply pipe for injecting gas into the expansion part.

The discharge passage includes a reducer passing through one side of the gas pipe, a drain pipe connected through the reducer and an upper valve and connected through the seal port and a lower valve, and the gas supply pipe is outside the reducer. is disposed, and the expansion part may be disposed inside the reducer.

The expansion part may be made of a rubber material, and may be provided to close the discharge passage by injecting gas from the gas supply pipe to increase the volume.

The sealing part may include a first valve for controlling the gas flow in the gas supply pipe, and a pressure sensor provided at a point downstream of the first valve among the gas supply pipes to measure the internal pressure of the expansion part.

It may further include; a cleaning unit provided with a steam supply pipe, a second valve for controlling the steam distribution of the steam supply pipe, and a spraying unit for spraying steam toward the inner surface of the discharge passage.

It may further include; a mesh portion provided in the discharge passage, and blocking the expansion of the sealing portion toward the gas pipe when the sealing portion is expanded.

According to another aspect of the present invention, a reducer communicating with the gas pipe and discharging the condensed water and foreign substances of the gas pipe; a seal port in which the condensed water and foreign substances are stored; a drain pipe connected through the reducer and the upper valve and connected through the seal port and the lower valve; an overflow pipe communicating with the drain pipe through the seal port and spaced apart from the drain pipe; and a sealing unit provided in the reducer, provided with an expansion unit for selectively closing the reducer by gas pressure, and a gas supply pipe for injecting gas into the expansion unit.

It may further include; a manhole portion installed to open or close the opening formed on one side of the gas pipe.

The seal port may be located at a lower portion of the gas pipe.

The gas shut-off device and the gas seal port device having the same according to the present embodiment may discharge condensed water and foreign substances contained in the by-product gas.

The sealing part of the present embodiment may prevent the by-product gas from being introduced into the seal port from the gas pipe even when the upper valve fails.

The washing unit of this embodiment may improve the airtightness between the inner circumferential surface of the discharge passage and the expansion unit.

1 is a view showing a state in which by-product gas moves during the iron making process.
2 is a perspective view showing a gas shut-off device according to an embodiment of the present invention.
3 is a view showing a state before the expansion of the expansion unit according to an embodiment of the present invention.
4 is a view showing a state after the expansion of the expansion unit according to an embodiment of the present invention.
5 is a view showing a sealing part 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. The following examples are presented in order to sufficiently convey the spirit of the present invention to those of ordinary skill in the art to which the present invention pertains. The present invention is not limited to the embodiments presented herein and may be embodied in other forms. The drawings may omit the illustration of parts irrelevant to the description in order to clarify the present invention, and may slightly exaggerate the size of the components to help understanding.

2 to 5, the gas shutoff device according to this embodiment communicates with the gas pipe 10 and the seal port 30, and a discharge passage 11 for discharging condensed water and foreign substances of the gas pipe 10 to the seal port. 20) and a sealing part 70 installed in the discharge passages 11 and 20, and the sealing portion 70 includes an expansion part 71 that selectively closes the discharge passages 11 and 20 by gas pressure; A gas supply pipe 72 for injecting gas into the expansion unit 71 may be included.

Referring to FIG. 1 , various by-product gases generated during the iron making process in the blast furnace or coke plant 1 are combustible and toxic gases, and because of their large amount of generated and high calorific value, they can be used as fuel for heating furnaces in the product production plant 2, etc. . Meanwhile, a gas pipe 10 may be provided to supply (“G”) such by-product gas to each product production plant 2 as shown in FIG. 1 . On the other hand, the unexplained reference numeral "3" denotes the water rod valve 3 installed to forcibly restrict the movement of the by-product gas of the gas pipe 10 .

The gas pipe 10 is a passage through which the by-product gas moves, and may be provided in a pipe shape. On the other hand, a large amount of condensed water and foreign substances are contained in the by-product gas, which acts as a factor hindering the transport of the by-product gas in the gas pipe 10 . To solve this problem, a seal port 30 communicating with the gas pipe 10 is provided, and condensed water and foreign substances in the gas pipe 10 may be discharged to the seal port 30 . Meanwhile, as shown, the gas pipe 10 may be provided as a plurality of pipes and a connecting pipe connecting them, but is not limited thereto, and may be provided as a single pipe.

The gas shut-off device of the present invention may be provided with discharge passages (11, 20). The discharge passages 11 and 20 communicate with the gas pipe 10 and the seal port 30 , and may be provided to discharge condensed water and foreign substances of the gas pipe 10 to the seal port 30 . The discharge passages 11 and 20 may include a reducer 11 passing through one side of the gas pipe 10 and a drain pipe 20 connecting the reducer 11 and the seal port, as will be described later.

The sealing part 70 may be installed in the discharge passages 11 and 20, and gas is injected into the expansion portion 71 and the expansion portion 71 that selectively close the discharge passages 11 and 20 by gas pressure. It may include a gas supply pipe 72 that does. When gas is injected from the gas supply pipe 72 , the internal pressure of the expansion unit 71 may be increased and the volume may be increased. The volume-increased expansion part 71 can prevent the by-product gas, condensed water, and foreign substances of the gas pipe 10 from being discharged to the seal port 30 by shielding the inside of the discharge passages 11 and 20 .

On the other hand, as shown in FIGS. 2 to 5 , the discharge passages 11 and 20 are a reducer 11 passing through one side of the gas pipe 10 , and a drain pipe 20 connected to the reducer 11 and the upper valve 21 through the upper valve 21 . ) may be included. The reducer 11 may be connected to an opening provided under the gas pipe 10 . In addition, the reducer 11 may have a shape through which the upper and lower parts are penetrated, and may be provided in a shape in which the diameter is gradually reduced from the upper end to the lower end. A lower end of the reducer 11 may be connected to a drain pipe through the upper valve 21 . The drain pipe 20 may be connected to the seal port 30 through the lower valve 22 .

In addition, the gas supply pipe 72 of the sealing part 70 may be disposed outside the reducer 11 , and the expansion part 71 of the sealing part 70 may be disposed inside the reducer 11 . The gas supply pipe 72 is provided to inject a gas such as nitrogen into the expansion unit 71 . The gas supply pipe 72 may pass through one side of the reducer 11 and be connected to the expander 71 disposed inside the reducer 11 . The expansion part 71 is disposed inside the reducer 11, and gas is injected from the gas supply pipe 72 in an emergency to increase the volume. In an emergency, the expanded part 71 having an increased volume closes the reducer 11 so that the gas pipe 10 and the seal port 30 are not connected to each other. On the other hand, the sealing part 70 may be installed in the reducer 11 of the discharge passages 11 and 20 as described above, but is not limited thereto, and is installed in the drain pipe 20 of the discharge passages 11 and 20 . could be Even when the sealing part 70 is installed in the drain pipe 20, the operation in case of an emergency is the same as described above. Hereinafter, the sealing part 70 and the washing part 80 to be described later will be described as an example installed in the reducer 11 , but the present invention is not limited thereto.

In more detail, the expansion part 71 may be made of a rubber material. The expandable part 71 is provided with a stretchable rubber material, so that the volume may increase when gas is injected. And the inflation unit 71 may be provided in a balloon shape (Ballon). The expansion unit 71 normally occupies only a partial space inside the reducer 11 , and in an emergency, gas is injected from the gas supply pipe 72 to increase the volume, thereby closing the reducer 11 .

Meanwhile, the sealing part 70 may further include a first valve 74 and a pressure sensor 73 . The first valve 74 may be provided in the gas supply pipe 72 to control gas flow in the gas supply pipe 72 . In addition, the pressure sensor 73 is disposed at a point downstream of the first valve 74 in the gas supply pipe 72 , and may measure the internal pressure of the expansion unit 71 . The operator may inject gas into the expansion unit 71 by directly opening the first valve 74 or indirectly opening the first valve 74 through a control unit (not shown). In addition, the gas shut-off device of this embodiment may measure the internal pressure of the expansion unit through the pressure sensor 73 in order to supply an appropriate amount of gas to the expansion unit 71 . Accordingly, it is possible to prevent the expansion unit 71 from bursting due to excessively high internal pressure of the expansion unit 71 .

The gas blocking device of this embodiment may further include a cleaning unit 80 . The washing unit 80 includes a steam supply pipe 82, a second valve 84 for controlling the steam distribution of the steam supply pipe 82, and an injection unit ( 81) may be provided. Hereinafter, the washing unit 80 is provided in the reducer as an example, but the present invention is not limited thereto. When the sealing unit 70 is provided in the drain pipe 20 , the washing unit 80 is also provided in the drain pipe 20 . can

The washing unit 80 may supply steam through the steam supply pipe 82 . The washing unit 80 may spray steam to remove impurities such as tar and naphthalene solidified on the inner circumferential surface of the reducer 11 . The steam may be provided as high-temperature steam. Meanwhile, the washing unit 80 may be provided with a second valve 84 to control the steam distribution of the steam supply pipe 82 . The operator may supply steam by directly opening the second valve 84 or indirectly opening the second valve 84 through a control unit (not shown).

And the injection unit 81 may be provided at a point where the steam supply pipe 82 and the reducer 11 are connected. As shown in FIG. 5 , the spraying unit 81 may spray steam toward the inner circumferential surface of the reducer 11 . The sprayed steam can remove solidified impurities while flowing down along the inner peripheral surface of the reducer 11 .

The inner circumferential surface of the reducer 11 has a smooth surface while being cleaned or washed through the washing unit 80, and then, when the volume of the expander 71 increases, between the inner circumferential surface of the expander 71 and the reducer 11 Confidentiality can be improved.

The mesh part 90 may be provided in the discharge passages 11 and 20 . The mesh part 90 may be provided at an upstream point from the sealing part 70 among the discharge passages 11 and 20 . The mesh portion 90 may be provided in the shape of a mesh or the like. The mesh part 90 may prevent the expansion part 71 from expanding toward the gas pipe when the expansion part 71 is expanded. That is, when the discharge passages 11 and 20 are closed through the expansion unit 71 in an emergency, the mesh unit 90 may prevent the expansion unit 71 from being exposed to the inside of the gas pipe 10 . If the expansion part 71 is exposed to the inside of the gas pipe 10 and closes the gas pipe 10 , it may be difficult to smoothly supply the by-product gas to the product production plant 2 . To prevent this, the mesh part 90 is provided to prevent the expansion part 71 from closing the inside of the gas pipe 10 . Therefore, even if the sealing part 70 is used in an emergency, the by-product gas can be continuously supplied to the product production plant 2 .

Hereinafter, a gas seal port device equipped with a gas shut-off device according to another embodiment of the present invention will be described. The gas seal port device communicates with the gas pipe 10, and a reducer 11 for discharging condensed water and foreign substances from the gas pipe 10, a seal port for storing condensed water and foreign substances, a reducer 11 and an upper valve ( 21), the drain pipe 20 connected through the seal port 30 and the lower valve 22, and the drain pipe 20 through the seal port 30, the drain pipe 20 The gas is provided in the overflow pipe 61 and the reducer 11 that are spaced apart from each other and injects gas into the expander 71 and the expander 71 that selectively closes the reducer 11 by gas pressure. It may include a sealing part 70 provided with a supply pipe 72 .

The overflow pipe 61 may communicate with the drain pipe 20 through the seal port 30 . The overflow pipe 61 is disposed to be spaced apart from the drain pipe 20 by a predetermined distance, and an upper end of the overflow pipe 61 may be opened. In addition, a discharge pipe 62 may be connected to the upper side of the overflow pipe 61 . The discharge pipe 62 may be connected to the water collecting tank 50 .

In the drain pipe 20, the seal port 30, and the overflow pipe 61, to provide a head pressure that can withstand about 1.5 times the pressure of the by-product gas flowing in the gas pipe 10. Sealing water (3) for the can be filled.

And the drain pipe 20 has an upper portion connected to the reducer 11 through an upper valve 21 , and a lower portion connected to the seal port 30 through a lower valve 22 . The upper valve 21 and the lower valve 22 may be manually operated by an operator to close the drain pipe for supply or maintenance of sealing water of the seal port.

On the other hand, condensed water and foreign substances contained in the by-product gas passing through the gas pipe 10 are collected in the seal port 30 through the reducer 11 and the drain pipe 20, and the condensed water of a certain amount or more is discharged through the overflow pipe 61 ) and the discharge pipe 62 may be discharged to the water collecting tank 50 .

On the other hand, if the pressure of the by-product gas flowing through the gas pipe 10 rises rapidly or the sealing water leaks due to defects in the seal port 30 or the drain pipe 20, repair work may be required. have. In this case, cleaning work or repair work can be performed in a state in which the discharge passages 11 and 20 are closed by locking the upper valve 21 . On the other hand, when the upper valve 21 has a functional defect, there may be a problem in that the by-product gas is not completely blocked. In the case of the present invention, even if a defect occurs in the upper valve 21, by-product gas, condensate and foreign substances from the gas pipe 10 to the seal port 30 by closing the discharge passages 11 and 20 through the sealing part 70 This can be prevented from being emitted. Therefore, even if the first valve 74 is broken, repair work or cleaning work can be performed after closing the discharge passages 11 and 20 through the sealing unit 70 in an emergency.

On the other hand, the gas seal port device may further include a manhole portion (13). The manhole part 13 may be installed in an opening formed on one side of the gas pipe 10 through bolting or the like. The manhole part 13 closes the opening when installed in the opening, and can open the opening when the installation is removed. Therefore, when repair of the sealing part 70 or the washing part 80 is required, the opening of the gas pipe 10 may be opened to perform the repair work. On the other hand, when one side of the gas pipe 10 is opened by disassembling the manhole part 13, the by-product gas is not circulated in the gas pipe 10 using the water bar 3 to prevent the outflow of the by-product gas. After that, you may be able to proceed with repair work, etc.

On the other hand, as shown, the opening to which the manhole part 13 is coupled may be provided on the upper portion of the gas pipe 10 , but the present invention is not limited thereto and the gas pipe 10 does not interfere with the opening to which the reducer 11 is connected. ) may be provided on the side.

Meanwhile, the seal port 30 may be located at a lower portion of the gas pipe 10 . Accordingly, condensed water or foreign substances formed in the gas pipe 10 may be naturally discharged to the seal port 30 along the reducer 11 and the drain pipe 20 .

As described above, although the present invention has been described with reference to limited embodiments and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following by those of ordinary skill in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

10: gas pipe 11: reducer
13: manhole part 20: drain pipe
21: upper valve 22: lower valve
30: seal port 50: water tank
61: overflow pipe 62: discharge pipe
70: sealing part 71: expansion part
80: washing unit 90: mesh unit

Claims (9)

a discharge passage communicating the gas pipe and the seal port and discharging condensed water and foreign substances from the gas pipe to the seal port; and
Including; a sealing part installed in the discharge passage;
The sealing part
A gas shut-off device comprising: an expansion part for selectively closing the discharge passage by gas pressure; and a gas supply pipe for injecting gas into the expansion part. According to claim 1,
The discharge path
a reducer passing through one side of the gas pipe, and a drain pipe connected through the reducer and an upper valve and connected through the seal port and a lower valve,
The gas supply pipe is disposed outside the reducer, and the expansion unit is a gas blocking device disposed inside the reducer. According to claim 1,
the expansion part
A gas shut-off device made of a rubber material and provided to close the discharge flow path by injecting gas from the gas supply pipe and increasing the volume. According to claim 1,
The sealing part
A gas shut-off device comprising: a first valve for regulating gas flow in the gas supply pipe; and a pressure sensor provided at a point downstream of the first valve in the gas supply pipe to measure the internal pressure of the expansion unit. According to claim 1,
A gas shut-off device further comprising a steam supply pipe, a cleaning unit provided with a second valve for controlling steam distribution of the steam supply pipe, and an injection unit for spraying steam toward the inner surface of the discharge passage. According to claim 1,
The gas blocking device further comprising a; provided in the discharge passage, the mesh portion for blocking the expansion of the expansion portion toward the gas pipe when the expansion portion is expanded. a reducer communicating with the gas pipe and discharging condensed water and foreign substances from the gas pipe;
a seal port in which the condensed water and foreign substances are stored;
a drain pipe connected through the reducer and the upper valve and connected through the seal port and the lower valve;
an overflow pipe communicating with the drain pipe through the seal port and spaced apart from the drain pipe; and
Gas seal port device provided with a gas shut-off device comprising a; provided in the reducer, the expansion part for selectively closing the reducer by gas pressure and a gas supply pipe for injecting gas into the expansion part. 8. The method of claim 7,
A gas seal port device having a gas shut-off device further comprising a; a manhole part installed to open or close an opening formed on one side of the gas pipe. 8. The method of claim 7,
The seal port is
A gas seal port device having a gas shut-off device positioned at a lower portion of the gas pipe.

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