KR101360644B1 - Water sealed apparatus for gas conduit - Google Patents

Abstract

The gas pipe sealing device according to an embodiment of the present invention is connected to a supply pipe for supplying water so that the gas flow of the gas pipe is blocked by the water seal, and a water seal portion continuously filled with water, and the water of the water seal portion has a predetermined pressure. In order to maintain, it may include an overflow pipe connected to the water sealing part to discharge water and a circulation part for transferring the water discharged from the overflow pipe to the supply pipe so as to reuse the water.

Description

Water sealed apparatus for gas conduit

The present invention relates to a gas pipe sealing device, and more particularly to an invention for maintaining the water pressure of the water seal by supplying and reusing the overflowed water.

In steel mills, by-product gas, such as coke oven gas, produced during the coking operation of coal, is supplied to the heat sources of various plants.The by-product gas in such steel mills is low pressure, low calorie, high in volume, For example, in the case of coke oven gas (COG), a large pipe having a diameter of about 2500 mm is installed to supply a desired factory or facility.

Therefore, in the case of using such a large gas pipe, it is practically impossible to block the flow of the gas flowing along the pipe by using a general mechanical valve. To block gas flow in large gas pipelines.

That is, a specific portion of the gas pipe is made of a V-shaped water seal part, and water is supplied to block the gas flow through a supply pipe connected to an upper side of the water seal portion and the boundary of the gas pipe. Water is filled to have a head pressure of approximately 1.5 times or more relative to the pressure of the flowing gas. At this time, the gas flowing through the gas pipe can be managed by the gas flow of the gas pipe while the flow is blocked by the head pressure of the water filled in the water seal.

On the other hand, the upper end portion of the water sealing portion of the gas pipe is overflowed to the height to form the head pressure to the overflow pipe is connected to the collecting pit, the bottom portion of the water sealing portion drains the water filled in the water sealing portion (drain) If necessary, a drain pipe for discharging the gas condensed water from the gas pipe sealing part is connected to the seal port, and another overflow pipe connected to the seal port is connected to the collecting pipe.

In addition, in the conventional gas pipe sealing device to maintain the level of water having the desired head pressure in order to block the flow of the gas, so that the water is always filled in the water seal. In other words, the water supply was continuously supplied through the supply pipe from the time of the completion of the water seal to the time when the water was released and the water was drained to the water collecting pit through the overflow pipe.

However, if the water is not supplied normally through the supply pipe, the head pressure is rapidly dropped, the gas in the gas pipe flows through the water seal, there is a problem that the hot gas is supplied to the unwanted place. It has also resulted in large facilities and safety accidents such as gas pollution, poisoning and explosions. Therefore, in order to prevent this, the worker should always check the water overflowed to the water collecting feet.

In addition, since the overflowed water is contaminated with accumulated impurities (tar, naphthalene, sulfur, phosphorus, phenol, etc.) in the gas pipe, the entire amount of water has to be treated in a wastewater treatment plant, which causes a significant treatment cost. In addition, there is a problem that the water is wasted because it is not to reuse the overflowed water.

On the other hand, in the past, since the supervisor must always check the sealing state, it causes waste in manpower operation, and large amounts such as human poisoning, fire, and explosion caused by harmful gases due to unintended gas flow when the supervisor monitors gas pipes. There was also a problem of equipment and safety accidents.

Therefore, there is no need for wastewater treatment, and there is a need for an invention for reuse of overflowed water and an invention for facilitating control thereof.

An object of the present invention is to provide a gas pipe sealing device capable of monitoring and control whether or not to be sealed by reducing the operating costs by supplying and reused by overflowing wasted water.

The gas pipe sealing device according to an embodiment of the present invention is connected to a supply pipe for supplying water so that the gas flow of the gas pipe is blocked by the water seal, and a water seal portion continuously filled with water, and the water of the water seal portion has a predetermined pressure. In order to maintain, it may include an overflow pipe connected to the water sealing part to discharge water and a circulation part for transferring the water discharged from the overflow pipe to the supply pipe so as to reuse the water.

In addition, the circulation portion of the gas pipe sealing device according to an embodiment of the present invention may be connected to one end of the shear pipe connected to the overflow pipe, and may include a circulation pump connected to the other end of the supply pipe.

In addition, the shear connector of the gas pipe sealing device according to an embodiment of the present invention at least one upper end coupled to the upper end of the shear connector in the direction of the water inflow direction to measure the water level in the shear connector pipe It is possible to provide a level sensor and at least one bottom level sensor coupled to the bottom.

In addition, the gas pipe sealing device according to an embodiment of the present invention controls the operation of the circulation pump according to the water level measured by the upper level sensor or the lower level sensor, when the circulation pump is not operating or the water seal The controller may further include a controller for generating an alarm sound or providing a transmitter for transmitting a signal when the water supply is stopped.

In addition, the circulation portion of the gas pipe sealing device according to an embodiment of the present invention to prevent the gas flow back to the rear end connecting pipe connecting the supply pipe and the circulation pump to the water sealing through the overflow pipe, It may further include a backflow preventer coupled to the shear connector.

Gas piping sealing device according to the present invention has an advantage that can be reused by the waste water is overflowed and treated with waste water. Thereby, there is an effect that can reduce the cost of treating the contaminated water as waste water and the supply cost due to the continuous supply of water.

In addition, since the monitor does not always need to check the water-sealed state, it is possible to prevent the waste of manpower, and to prevent the occurrence of safety accidents that may occur due to the watchdog's neglect.

1 is a front view schematically showing a gas pipe sealing device according to an embodiment of the present invention.
Figure 2 is a partial cross-sectional view schematically showing the backflow preventer of the gas pipe sealing device according to an embodiment of the present invention.
3A and 3B are diagrams illustrating a case in which gas in the gas pipe sealing device according to an embodiment of the present invention flows back.
Figure 4 is a flow chart schematically showing a control method of the gas pipe sealing device according to an embodiment of the present invention.
5 is a front view schematically showing a gas pipe sealing device according to another embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. 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 inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

1 is a front view schematically showing a gas pipe sealing device according to an embodiment of the present invention.

Referring to Figure 1, the gas pipe sealing device according to an embodiment of the present invention is connected to the supply pipe 40 for supplying water to block the gas flow of the gas pipe 70 by the water seal so that the water is continuously filled The water sealing unit 10, so that the water of the water sealing portion 10 to maintain a constant pressure, the overflow pipe 20 is connected to the water sealing portion 10 to discharge the water and to reuse the water, the It may include a circulation portion 30 for transmitting the water discharged from the overflow pipe 20 to the supply pipe 40.

In addition, the circulation portion 30 of the gas pipe sealing device according to an embodiment of the present invention is one end is connected to the shear connecting pipe 31 is connected to the overflow pipe 20, the other end with the supply pipe 40 This may include a connected circulation pump 33.

In addition, the shear connecting pipe 31 of the gas pipe sealing device according to an embodiment of the present invention to measure the level of the water in the shear connecting pipe 31, the shear connecting pipe 31 in the direction of water flow At least one upper level sensor 34 coupled to the top of the direction Y and at least one lower level sensor 35 coupled to the bottom may be provided.

In addition, the operation of the circulation pump 33 is controlled in accordance with the water level measured by the upper level sensor 34 or the lower level sensor 35 of the gas pipe sealing device according to an embodiment of the present invention, the circulation When the pump 33 does not operate or when the water supply is stopped in the water sealing portion 10 further includes a control unit 50 for generating an alarm sound or providing a transmitter 51 for transmitting a signal. Can be.

Gas piping sealing device of the present invention is a device for opening and closing the valve for the gas shut off by water, the water supplied for blocking the gas by water sealing (water sealing) overflow to maintain a constant pressure (overflow) Is discharged. At this time, the water discharged from the gas pipe 70 is contaminated by accumulated impurities (tar, naphthalene, sulfur, phosphorus, phenol, etc.) in the gas pipe 70, a process for wastewater treatment is required.

Therefore, the present invention can recover the overflowed water and reuse, thereby reducing the cost for wastewater treatment, and at the same time reducing the supply amount of water can reduce the maintenance cost for the water seal.

The water sealing unit 10 serves to block the gas by the water supplied from the supply pipe 40. To this end, the water sealing portion 10 may be configured in a V-shape, a U-shape and the like in the gravity direction (Y). That is, it may be provided so that water may be accumulated by gravity.

However, the present invention is not limited thereto and may be included in the present invention if the gas of the gas pipe 70 can be opened and closed by a water rod. As an example, there is an NK sealed valve (sealed valve 90 manufactured by NK) which will be described later with reference to FIG. 5.

On the other hand, the water sealing portion 10 is connected to the gas pipe 70 on both sides, each of the gas pipe 70 may be provided with a gas pressure control pipe 71 for controlling the pressure of the gas. That is, the water rod may be unintentionally dismantled according to the pressure in the gas pipe 70 on both sides of the water sealing portion 10, and the gas pipe 70 on both sides of the water sealing portion 10 by the gas pressure control tube 71. ) Is to adjust the pressure. To this end, valves may be installed in the gas pressure control pipes 71, respectively.

The overflow pipe 20 serves to discharge the overflowed water in order to maintain a constant pressure of the water sealing portion 10. Since the pressure of the water sealing portion 10 should be about 1.5 times the gas pressure, water is supplied from the supply pipe 40 to the water sealing portion 10. At this time, the water sealing portion 10 to discharge the water corresponding to the supplied water, the overflow pipe 20 is to play this role.

The overflow tube 20 may be coupled to one side of the water sealing portion 10, and the overflow tube 20 may provide an open tube 21 through which external air may flow. . The open pipe 21 controls the water pressure in the overflow pipe 20 to have an overflowing water level (OWL) for discharging only the overflowed water having the same height as that of the water seal pipe. Play a role. That is, if there is no open pipe 21, the overflow pipe 20 is the same as the pressure of the portion in which the overflow pipe 20 is coupled, it is impossible to set the desired water pressure. Therefore, by providing the open pipe 21, the water pressure of the water sealing portion 10 by the water discharged to the overflow pipe 20 can be kept constant.

The circulation part 30 serves to reuse the water by providing the water discharged from the overflow pipe 20 to the supply pipe 40 again. To this end, the circulation portion 30 may be provided with a circulation pump 33 having one end coupled to the overflow pipe 20 and the other end coupled to the supply pipe 40.

The circulation pump 33 may be turned on / off by the controller 50 and serves as a power source for providing the overflowed water to the supply pipe 40.

On the other hand, the circulation pump 33 and the overflow pipe 20 may be connected through a shear connecting pipe (31). The shear connecting pipe 31 may be coupled in the vertical direction (Y) of gravity so that water can be introduced. In addition, the shear connector 31 may be attached to the sensor that can measure the water level of the shear connector 31, the upper direction (Y) of the shear connector 31 in the direction of water flow There may be a top level sensor 34 coupled to the bottom level sensor 35 coupled to the bottom.

One or more of the upper level sensor 34 and the lower level sensor 35 may be combined. However, in consideration of the installation cost due to the detection of the correct water level and the mounting of multiple sensors, it is preferable to combine the two upper level sensors 34 and the lower level sensors 35, respectively.

This provides the first upper level sensor 34a of the highest controllable height and the second upper level sensor 34b coupled to the lower side at a predetermined interval from the first upper level sensor 34a, and at the same time, the lowest height controllable. The second lower level sensor 35b and the second lower level sensor 35b may provide a first lower level sensor 35a coupled to the upper side by a predetermined interval.

The upper level sensor 34 and the lower level sensor 35 are externally attached to the shear connection pipe 31 rather than using a sensor that measures the current by directly flowing the shear connection pipe 31. It is preferable to use a sensor for measuring without flowing a current. This is because the gas flowing into the shear connection pipe 31 may be mixed with the gas of the gas pipe 70, there is a risk of explosion.

Accordingly, the upper level sensor 34 and the lower level sensor 35 may preferably use a sensor using ultrasonic waves, a sensor using buoyancy of water, a sensor using magnetic force, and the like. However, the present invention is not limited thereto, and any sensor capable of measuring a water level without flowing a current through the shear connecting pipe 31 is included in the present invention.

The controller 50 controls the operation of the circulation pump 33, or serves to monitor and warn the malfunction of the gas pipe sealing device. That is, the operation of the circulation pump 33 is controlled according to the water level measured by the upper level sensor 34 or the lower level sensor 35, and the malfunction of the circulation pump 33 or the water sealing part 10 is performed. If no water is supplied, alarm sound or signal will be sent to the monitor.

To this end, when the water level is detected by the upper level sensor 34, the circulation pump 33 is activated, and when the water level is detected by the lower level sensor 35, the operation of the circulation pump 33 is stopped and the The water level (Cotrolled Water Level: CWL) of the shear connecting pipe 31 may be maintained between the upper level sensor 34 and the lower level sensor 35.

On the other hand, because the water level (CWL) of the shear connector 31 should not be measured higher than the first upper level sensor 34a, the water level of the shear connector 31 in the first upper level sensor 34a ( When the CWL) is measured, it is preferable to generate an alarm sound or to transmit an emergency signal to the place where the monitor is located. To this end, the control unit 50 may further include a transmitter 51.

In addition, when the water level (CWL) of the front connection pipe 31 is lower than the second lower level sensor (35b) air is introduced into the circulation pump 33 may cause a failure of the circulation pump 33, Even when the water level CWL of the front connection pipe 31 is measured by the second lower level sensor 35b, it is preferable to generate an alarm sound or transmit an emergency signal.

In addition, even when the supply of water in the supply pipe 40 and reuse of water in the circulation unit 30 is stopped and the supply of water to the water sealing unit 10 is completely stopped, the alarm sound or an emergency signal may be transmitted. It may be.

As a result, since the watcher does not always need to check the water-sealed state, it is possible to prevent the waste of manpower and to prevent the occurrence of safety accidents that may occur due to the watchdog's neglect.

On the other hand, the circulation unit 30 may further provide a water level check tube 37 that allows the monitor to directly check the water level (CWL) of the shear connecting pipe 31. That is, the water level check tube 37 is preferably provided as a transparent tube connecting both ends of the shear connecting pipe 31 and coupled.

The gas pipe sealing device may further include a drain 80. The drainage portion 80 may provide a drain pipe 81, a seal port 82, a collecting pit 83, and the like. The drain pipe 81 serves to discharge the water of the water sealing portion 10. That is, the drain pipe 81 may discharge water filled in the water sealing part 10 for water sealing, or discharge the condensed water condensed during gas flow of the gas pipe 70. To this end, the drain pipe 81 is preferably coupled to the lowermost side of the water sealing portion (10). On the other hand, the water discharged from the drain pipe 81 is sent to the seal port 82. The seal pot 82 may be connected to the catchment pit 83 through the seal pot overflowing pipe 84, and the water overflowed from the seal pot 82 is sent to the catch pit 83. Can be discharged to the outside.

The catchment pit 83 may be connected to the circulation portion drain pipe 36 connected to the bottom of the shear direction pipe Y in the height direction Y as well as the seal port overflowing pipe 84. The circulation part drain pipe 36 does not reuse water introduced into the circulation part 30, and serves to discharge water by discharging water to the catchment pit 83 when it is drained. To this end, the valve of the circulation part drainage pipe 36 is normally closed, but is open during drainage so that the water of the circulation part 30 can be sent to the catchment pit 83.

Figure 2 is a partial cross-sectional view schematically showing a backflow preventer 60 of the gas pipe sealing device according to an embodiment of the present invention, Figure 3a and 3b is a gas of the gas pipe sealing device according to an embodiment of the present invention Is a state diagram illustrating a case in which backflow occurs.

2 to 3b, the circulation portion 30 of the gas pipe sealing device according to an embodiment of the present invention is a rear end connecting pipe 32 for connecting the supply pipe 40 and the circulation pump 33. In order to prevent the gas flowed back to the water sealing portion 10 through the overflow pipe 20, it may further include a backflow preventer (60) coupled to the shear connecting pipe (31).

The backflow preventer 60 prevents the gas flowing back into the supply pipe 40 from entering the water sealing part 10. This is because the supply pipe 40 is coupled to a portion lower than the overflow level (OWL) of the overflow pipe 20, the gas flowing in the gas pipe 70 is low in the water level of the water sealing portion (10) The ground is first introduced into the supply pipe 40.

In addition, the water level (CWL) of the shear connecting pipe 31 is formed to be lower than the position of the supply pipe 40, the pressure of the gas in the gas pipe 70 is usually higher than the atmospheric pressure, the supply pipe 40 ) And the pressure P2 in the rear connection pipe 32 connecting the circulation pump 33 is greater than the pressure P1 in the front connection pipe 31. That is, the pressure P2 of the rear connection pipe 32 is the sum of the water pressure equal to the water level difference between the water level of the front connection pipe 31 and the rear connection pipe 32 and the gas pressure of the gas pipe 70. Since the pressure P1 of the front connection pipe 31 is formed only at atmospheric pressure, the pressure P2 of the rear connection pipe 32 is generally larger. Accordingly, the gas flowed back into the supply pipe 40 may flow back through the rear end connection pipe 32 to the front end connection pipe 31, and the backflow preventer 60 prevents the backflow of the gas. To do.

To this end, the backflow preventer 60 preferably has a structure to flow the fluid only in one direction. Accordingly, the backflow preventer 60 may provide a gate 61 movable according to the flow of the fluid, and a guide body 62 capable of guiding and moving the gate 61.

The gate 61 may move back and forth only in a predetermined region of the guide body 62. In addition, the gate 61 may be equipped with a pressure adjusting weight 64 to adjust the pressure of the fluid capable of moving the gate 61. That is, the more the pressure control weight 64 is mounted, the gate 61 can move only at a higher pressure.

On the other hand, the gate 61 may be provided with a buffer ring 63 for the buffer portion in contact with the guide body 62. The buffer ring 63 is preferably used as a rubber material. As a result, the gate 61 may be buffered by the buffer ring 63 even when the gate 61 is pushed by the guide body 62 due to a high fluid pressure, thereby improving durability of the transmitter 51.

In addition, the buffer ring 63 has an advantage that can more secure the seal for closing the transmitter (51).

The guide body 62 may be configured to open and close the flow of the fluid in accordance with the movement of the gate (61). Therefore, the flow path 65 may be provided for the flow of the fluid while guiding the gate 61.

Since the flow path 65 is open when the fluid flows in the forward direction and should be closed when the fluid flows in the reverse direction, the gate 61 is located off the flow path 65 when the fluid flows in the forward direction. Preferably, when the fluid flows in the reverse direction, the gate 61 is preferably located on the flow path 65 to close the flow path 65.

Figure 4 is a flow chart schematically showing a control method of the gas pipe sealing device according to an embodiment of the present invention.

Referring to Figure 4, the control method of the gas pipe sealing device of the present invention, the water supply step (S1) for supplying water to the water sealing portion 10 through the supply pipe 40 to block the gas pipe 70 by the water seal. To adjust the pressure of the water in the water sealing portion 10 constantly, the water pressure control to discharge the water in the water sealing portion 10 through the overflow pipe 20 according to the amount of water supplied in the water supply step (S1). In order to reuse the water discharged from the step S2 and the hydraulic pressure control step S2, one end is connected to the overflow pipe 20 through the front connection pipe 31, and the rear connection pipe 32 is connected to the one end. By operating the circulation pipe 33 connected to the other end of the supply pipe 40, the water discharged to the overflow pipe 20 to the supply pipe 40 includes a reuse step (S3) for reuse, the reuse Step (S3) is coupled to the top level sensor 34 and the bottom coupled to the top of the shear connector 31 in the height direction Accordance with the bottom of the water level measured by the level sensor 35, it is possible to operate the circulation pump 33.

In addition, when the circulation pump 33 is not operated or water is supplied to the water sealing part 10 in response to the operation command transmitted to the circulation pump 33 by the level detected by the upper level sensor 34, the transmitter ( 51 may further include a transmitting step (S4) for generating an alarm sound or for transmitting a non-operation signal to the receiver.

5 is a front view schematically showing a gas pipe sealing device according to another embodiment of the present invention.

Referring to Figure 5, the gas pipe sealing device of the present invention can be applied to the NK sealed valve (90). The NK sealed valve 90 refers to a sealed valve of Japan NK Corporation, and is a gas valve that can be opened and closed by a rotating body 91.

The NK-sealed valve 90 may include an electric motor 92 and a speed reducer 93 for rotating the rotating body 91 as well as the rotating body 91. On the other hand, the present invention is to supply the water discharged from the NK water-sealed valve 90 to the overflow pipe (95) back to the supply pipe 96 to reuse the V-shaped or U-shaped water sealing portion 10 described above. Same as the valve having. However, the NK water-sealed valve 90 may further include a bypass pipe 94 capable of finely adjusting the water-sealed water. The bypass tube 94 is configured of a tube having a diameter smaller than that of the overflow tube 95 so that the amount of water can be adjusted in a minute amount.

10: water seal 20: overflow pipe
21: open tube 30: circulation
31: front connector 32: rear connector
33: circulation pump 34: upper level sensor
35: lower level sensor 36: circulation pipe drainage
37: level check pipe 40: supply pipe
50: control unit 51: transmitter
60: backflow preventer 61: gate
62: guide body 63: buffer ring
64: pressure control weight 65: flow path
70: gas pipe 71: gas pressure control pipe
80: drain portion 81: drain pipe
82: seal pot 83: catchment feet
84: seal port overflow piping 90: NK sealed valve
91: rotating body 92: electric motor
93: reducer 94: bypass pipe
95: overflow pipe 96: supply pipe

Claims (5)

A water seal portion connected to a supply pipe for supplying water so that the gas flow of the gas pipe is blocked by the water seal, and the water is continuously filled;
An overflow pipe connected to the water sealing part to discharge water so that the water of the water sealing part maintains a constant pressure;
A circulation unit, one end of which is connected to the shear connection pipe connected to the overflow pipe and the other end of which is connected to the supply pipe, to transfer the water discharged from the overflow pipe to the supply pipe; And
A backflow preventer coupled to the front end connection pipe to prevent the gas flowed back to the rear end connection pipe connecting the supply pipe and the circulation pump to the water rod part through the overflow pipe;
Including;
The backflow preventer,
A guide body having a flow path for fluid flow formed in the side wall;
A gate provided to the guide body and opening and closing the flow path according to a guided position; And
A pressure regulating weight provided to be inserted into the gate to adjust a moving pressure of the gate;
Gas pipe sealing device comprising a. delete The method of claim 1,
The shear connector provides at least one upper level sensor coupled to the upper end of the shear connector tube height direction in the water inflow direction and at least one lower level sensor coupled to the lower end so as to measure the water level in the shear connector. Gas piping sealing device. The method of claim 3,
Controlling the operation of the circulation pump according to the water level measured by the upper level sensor or the lower level sensor,
And a control unit for generating an alarm sound or transmitting a signal when the circulation pump does not operate or when water supply is interrupted in the water sealing part. delete

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