KR101183169B1 - Seal pot of gas pipeline - Google Patents

Abstract

PURPOSE: A seal port of a gas pipeline is provided to maintain a predetermined water level as condensate in a first water tank flows into a second water tank at a predetermined amount even if the pressure of a gas pipeline is suddenly increased, and to prevent gas leakage by discharging the condensate flowing from the first water tank to the second water tank to the outside. CONSTITUTION: A seal port of a gas pipeline comprises a first water tank(10), a condensate inflow line(20), a second water tank(30), a condensate discharge line(40), and a pressure releasing part(60). The condensate inflow line connects a gas pipeline and the first water tank to provide a passage through which condensate generating in the gas pipeline is discharged. The second water tank is vertically arranged inside the first water tank and the top of the second water tank is opened. The condensate discharge line discharges the condensate stored in the second water tank to the outside of the first water tank. The pressure releasing part is installed at the top of the first water tank and communicates the first water tank to the external air. When the internal pressure of the first water tank is increased, the internal pressure of the first water tank is reduced because a critical pressure higher than a reference pressure in a normal state is generated in the gas pipeline.

Description

Seal pot of gas pipeline

The present invention relates to a seal port of a gas pipeline to prevent the leakage of gas by using condensate generated in the gas pipeline.

Generally, the gas pipe line of various gas (BFG, COG, LDG) used as fuel of the power plant boiler is connected with a seal port (SEAL POT) through a pipe to discharge the condensed water condensed inside the pipe to the outside. .

In the conventional seal port, when the pressure inside the gas pipeline rises sharply according to the operating conditions of the production plant, a seal port breakdown phenomenon occurs in which the condensate flowing into the seal port is ejected to the outside. As the gas is destroyed, the gas of the gas pipeline always leaks to the open overflow line, and the worker is addicted to the gas and contaminates the surrounding equipment.

In addition, the gas leak caused by the breakdown of the seal port is detected by a gas alarm installed around each gas pipe line, and when the gas leak is detected, the valve of the pipe connected between the seal port and the gas pipe line is closed by field inspection. There is a separate supplementary water supply line to replenish water in the seal port. This operation has a long inspection time, which makes it difficult to respond quickly, and there is a risk of poisoning because the operation is performed while the gas is exposed.

The present invention is to solve the above problems, when the pressure in the gas pipe line rises sharply, to discharge a certain amount of condensate in the overflow line to reduce the pressure inside the seal port but inside the seal port The aim is to provide a seal port of the gas pipeline which can prevent the gas from escaping into the overflow line by maintaining the condensate level above a certain level.

In addition, to provide a seal port of the gas pipeline to open the flow path for the gas discharge to the outside to prevent the discharge of all the condensed water inside the seal port to the outside when a pressure above the threshold set in the gas pipeline occurs The purpose is.

Seal port of the gas pipeline according to the present invention for achieving the above object is the first reservoir tank; A condensate inlet line connecting the gas pipe line and the first water storage tank to provide a flow path through which the condensed water generated in the gas pipe line is discharged; A second storage tank disposed vertically in the first storage tank and having an upper portion opened; A horizontal portion extending from the outside of the first water storage tank to the inside of the first water storage tank at a height corresponding to the top height of the second water storage tank, and extending from an end of the horizontal portion to an inner lower portion of the second water storage tank; And a condensate discharge line for discharging condensate stored in the second reservoir tank to the outside of the first reservoir tank.

The upper portion of the first reservoir tank to reduce the pressure in the first reservoir tank when a threshold pressure higher than the reference pressure in the normal state occurs in the gas pipeline to increase the pressure in the first reservoir tank It is further provided with a; pressure release unit for communicating with the first reservoir tank and the outside air.

The pressure release part includes a valve body including a valve seat having a hollow portion communicating with the reservoir space of the first reservoir tank and having a through hole having an inner diameter smaller than an inner diameter of the hollow portion, and opening and closing the passage hole. Opening and closing plate which flows up and down in the valve body, the opening and closing link that is fluidly coupled to the opening and closing plate, one end is coupled to the opening and closing link and the other end is extended to the outside of the valve body and the hinge provided in the valve body A rod member having one end and the other end rotatably installed up and down with a center, and a weight member movably coupled along the longitudinal direction from the other side of the rod to adjust the opening and closing pressure of the opening and closing plate acting on the valve seat. It is provided.

Coating layers made of Teflon are respectively formed on the contact surface between the opening and closing plate and the valve seat.

The pressure release part is coupled to the coupling flange provided on the upper portion of the first water storage tank and the first flange is provided therein, and the second hollow portion is coupled to the upper portion of the base flange and in communication with the first hollow portion is provided A protection cylinder, a discharge flange connected to one side of the protection cylinder and communicating with the second hollow portion, a disc for lifting and closing the first hollow portion by lifting up and down in the second hollow portion, and a lower portion of the disc. A shaft coupled to the upper portion and installed to be exposed to the outside of the protection cylinder, a guide fixed to the protection cylinder to support the shaft to be elevated, and extending up and down along the longitudinal direction of the shaft to surround the shaft. It is fixed to the guide and the other end is fixed to the disk so that the disk is burnt in the direction of closing the first hollow portion And a resilient member that provides a force.

When the water level inside the first water storage tank is lower than the reference water level corresponding to the upper end of the second water storage tank, the replenishment water is supplied into the first water storage tank, and the water level inside the first water storage tank reaches the reference water level. It is provided with a replenishment water supply unit for stopping the supply of the replenishment water when reaching.

The replenishment water supply unit includes a water supply line extending from the outside of the first water storage tank to the first water storage tank, and a floating valve connected to the water supply line, and extending into the first water storage tank. A body part provided with a flow path to move the supplemental water moving along the water supply line into the first water storage tank, a link part hingedly rotatably coupled to one side of the lower part of the body part, and coupled to the link part; (1) a floating body for elevating up and down to rotate the link unit according to the water level inside the reservoir tank, and a lower end supported on one side of the link unit by being lowered up and down by rotation of the link unit. Containing the opening and closing body portion, when the sudden change in pressure in the gas pipeline is condensate in the first reservoir tank scattered upward That includes a first low water splash prevention plate provided in the tank prevented.

Seal port of the gas pipeline according to the present invention for achieving the above object and the storage tank; A condensate inlet line connecting the gas pipe line and the water storage tank to provide a flow path through which the condensed water generated in the gas pipe line is discharged; Is installed inside the water storage tank to supply the supplementary water into the water storage tank when the water level of the water storage tank is lower than the set first water level, and discharges the condensed water of the water storage tank to the outside of the water storage tank when the water level is higher than the first water level. A supplementary water supply unit, wherein the supplementary water supply unit has a first space and has a first passage hole through which supplemental water flows from the outside of the reservoir tank into the first space at a height corresponding to the first water level, A second passage hole through which the condensed water inside the water storage tank flows into the first space is provided at a position lower than the first passage hole, and the replenishment water introduced through the first passage hole is in the storage tank. A third through hole is provided, and a condensate for discharging condensed water introduced into the first space through the second through hole to the outside of the storage tank. A first cylinder coupled to an outlet line, and installed in the first cylinder to move up and down in the first space, and an outer circumferential surface thereof is in close contact with an inner circumferential surface of the first cylinder, and the first through hole and the second through hole. The opening and closing piston is formed longer than the interval between, and one side is fixed to the upper end of the opening and closing piston includes a buckle for lifting up and down the opening and closing piston in accordance with the water level change in the water storage tank, the opening and closing piston is The first passage hole and the second passage hole are closed when the water level of the water storage tank is equal to the first water level, and when the water level of the water storage tank is lower than the first water level, the first passage hole is opened and the The second through hole is closed, and the first through hole is closed and the second through hole is opened when the water level of the water storage tank is higher than the first water level.

The replenishment water supply unit surrounds the first cylinder and has a second cylinder having an inner circumferential surface spaced apart from the outer circumferential surface of the first cylinder by a predetermined distance, and a space between the first cylinder and the second cylinder as an upper space and a lower space. A partition wall portion configured to connect the outer circumferential surface of the first cylinder and the inner circumferential surface of the second cylinder so as to be partitioned, and one side of the second cylinder has a water supply line for supplying the replenishment water from the outside of the water storage tank to the upper space; Is coupled, the other side is formed with a condensate inlet through which the condensed water in the storage tank flows into the lower space.

A pressure releasing unit installed on an upper portion of the water storage tank to reduce a pressure inside the water storage tank when the pressure inside the water storage tank increases due to a threshold pressure higher than a reference pressure in a normal state in the gas pipeline; The pressure release part is coupled to the coupling flange provided on the upper portion of the water storage tank and the first flange is provided therein, and the second hollow portion is coupled to the upper portion of the base flange and in communication with the first hollow portion A prepared protection cylinder, a discharge flange connected to one side of the protection cylinder and communicating with the second hollow portion, a disc opening and closing the first hollow portion by lifting up and down in the second hollow portion, and a lower portion of the disc. Is coupled and the upper portion is installed to the shaft exposed to the outside of the protective cylinder, the protective cylinder is fixed to the lifting shaft And a guide extending up and down along the longitudinal direction of the shaft to surround the shaft, one end of which is fixed to the guide, and the other end of which is fixed to the disk so that the disk closes the first hollow portion. It includes an elastic member to provide.

According to the seal port of the gas pipeline according to the present invention, even if a sudden rise in pressure in the gas pipeline, condensed water in the first reservoir tank flows into the second reservoir tank only by a predetermined amount to maintain a constant water level. Since the condensed water flowing into the second reservoir tank from the reservoir tank is discharged to the outside to prevent the leakage of gas.

In addition, when a pressure higher than the threshold set in the gas pipeline occurs, the pressure release unit releasing the pressure inside the first water storage tank prevents all condensed water inside the second water storage tank from being discharged to the outside to the condensate discharge line. Gas leakage is blocked.

1 is a perspective view illustrating a seal port of a gas pipeline according to a first embodiment of the present invention;
2 is a cross-sectional view showing a seal port of the gas pipeline shown in FIG.
3 is a cross-sectional view showing the replenishment water supply unit shown in FIG.
Figure 4 is a partial excerpt perspective view showing the pressure release portion shown in Figure 1,
5 is a cross-sectional view of the pressure release unit shown in FIG. 4,
6 is a cross-sectional view illustrating a seal port of a gas pipeline according to a second embodiment of the present invention.
7 is a partial excerpt sectional view showing the pressure release unit shown in FIG. 6,
8 is a partial excerpt sectional view showing the supplemental water supply unit shown in FIG.

Hereinafter, a seal port of a gas pipeline according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 5 illustrate seal ports of the gas pipeline according to the first embodiment of the present invention. 1 to 5, the seal port 1 of the gas pipe line is a condensate inlet line 20 connecting the first water storage tank 10 and the gas pipe line 5 and the first water storage tank 10. ), A second water storage tank 30 installed inside the first water storage tank 10, and a condensate discharge line 40 for discharging the condensed water inside the second water storage tank 30 to the outside.

The first reservoir tank 10 extends up and down long and the first reservoir space 10a is provided to store the condensed water generated in the gas pipeline 5 and the lower portion of the first storage tank 10 is fixed to the ground. Combined.

A drain line 11 is connected to a lower portion of the first reservoir tank 10 so that the sediment precipitated from the condensate stored in the first reservoir space 10a can be discharged to the outside of the first reservoir tank 10. The induction line 12 is connected to the storage tank (not shown) leading to a separate storage tank (not shown) so that the gas introduced into the first reservoir tank 10 does not leak to the outside. The drain line 11 is provided with a sediment blocking valve 11a for opening and closing an internal flow path.

The condensate inlet line 20 extends from the gas pipeline 5 to the first reservoir tank 10 to provide a flow path for condensate generated in the gas pipeline 5 to be discharged from the gas pipeline 5. do.

The condensate inlet line 20 is maintained in a state in which the condensate is filled by a predetermined height by the pressure of the condensate stored in the first reservoir space 10a to block the gas from moving to the first reservoir tank 10. .

When the condensate inlet line 20 is required to check or replace the first reservoir tank 10 and the second reservoir tank 30, the gas is not moved from the gas pipeline 5 to the first reservoir tank 10. A gas shutoff valve 21 for opening and closing the flow path is provided.

The second water storage tank 30 is fixedly disposed in the up and down direction inside the first water storage tank 10 and is formed to have a diameter smaller than the diameter of the first water storage tank 10, and a second water storage space is provided therein. It has an open top and a closed bottom. The second water storage tank 30 is installed to stand up and down on the fixed frame 31 provided inside the first water storage tank 10.

The condensate discharge line 40 discharges the condensed water introduced into the second reservoir 30a from the first reservoir tank 10 to the second reservoir 30a to the outside of the first reservoir tank 10. It provides a flow path so that the horizontal portion 41 and the vertical portion 45 is provided.

The horizontal portion 41 passes through the first reservoir tank 10 from the outside of the first reservoir tank 10 to a height corresponding to the height of the upper end of the second reservoir tank 30, thereby It extends to the open top.

The vertical part 45 extends downwardly from the one end of the horizontal part 41 extending inwardly of the first water storage tank 10 to the bottom of the second water storage tank 30, and the bottom thereof is the bottom of the second water storage tank 30. Spaced apart.

Since the condensate discharge line 40 has a horizontal portion 41 formed at a height corresponding to the upper end of the second reservoir tank 30, the second reservoir tank (even if condensed water is introduced through the condensate inlet line 20) 30) Condensed water is discharged to the outside without raising the water level above the water level corresponding to the upper end (hereinafter referred to as "first water level"), so that the water level inside the second water storage tank 30 can be kept constant.

The first reservoir tank 10 supplies the supplementary water to the first reservoir space 10a, but stops the supply of the supplementary water when the water level in the first reservoir tank 10 reaches the reference level so that the first reservoir tank 10 Supplementary water supply unit 50 for maintaining the water level of the reference level.

The supplemental water supply unit 50 includes a water supply line 51 and a floating valve 52 screwed to one end of the water supply line 51 and extending into the first water storage tank 10. The floating valve 52 includes a body portion 53, a contact portion 54, a link portion 55, and a body portion 56.

The body portion 53 is formed to be bent in a '-' shape, the lower portion is provided with a mounting space extended outward so that the link portion 55 can be rotatably installed. The contact portion 54 is provided with a hole 54a having an inner diameter smaller than that of the body portion 53 and tapered on the flow path of the body portion 53.

The link portion 55 is rotatably installed at one end in a mounting space provided inside the body portion 53 and the floating body 57 is coupled to the other end by a wire. At one end of the link portion 55, an interference protrusion 55a is formed so as to push up the body portion 56 described later.

The body portion 56 has an upper portion of the contact portion 54 so as to open and close the hole 54a of the contact portion 54 by a link portion 55 interposed between the interference protrusion 55a and the contact portion 54 to move up and down. It has a shape corresponding to the lower shape of the).

Looking at the operation of the floating valve 52 as described above, if the water level of the condensate stored in the first reservoir tank 10 is lower than the reference level because the position of the float 57 is located at a position lower than the reference level link portion The 55 is rotated downward, and the fuselage 56 opens the hole while moving downward by its own weight.

On the other hand, when the water level of the first reservoir tank 10 reaches the reference level, the link portion 55 is rotated upward by the floating body 57, the fuselage by the interference projection (55a) of the link portion 55 Part 56 closes the hole.

The first water storage tank 10 when the pressure inside the first water storage tank 10 increases due to a critical pressure higher than a normal pressure in the gas pipe line 5 in the upper portion of the first water storage tank 10. A pressure release part 60 communicating with the first reservoir space 10a and the outside air is provided to reduce the pressure inside.

The pressure release part 60 is coupled to the upper portion of the first water storage tank 10, and the valve body 61, the opening and closing plate 65, the opening and closing link 66, the rod 67, the weight member (68).

The valve body 61 has a hollow portion 61a communicating with the first reservoir space 10a, and has a passage hole 63a having an inner diameter smaller than the inner diameter of the hollow portion 61a at the lower portion of the hollow portion 61a. The provided valve seat 63 and a coupling flange formed on the upper and lower ends, respectively.

In the coupling flange provided on the upper portion of the valve body 61, the gas is guided to guide the gas to a separate storage tank when the gas moves from the gas pipe line 5 to the hollow portion 61a through the first reservoir space (10a) (12) is combined.

The opening and closing plate 65 moves up and down in conjunction with the opening / closing link 66 to be described later on the upper portion of the valve seat 63 to allow the passage hole 63a to communicate the hollow portion 61a and the first reservoir space 10a. Open and close.

Although not shown in the drawing, a contact layer between the opening and closing plate 65 and the valve seat 63 is formed with a coating layer made of Teflon, respectively, to prevent foreign substances contained in the gas from sticking.

One end of the opening and closing link 66 is rotatably coupled to the upper portion of the opening and closing plate 65 and the other end is rotatably coupled to the rod 67 extending through the valve body 61 from the hollow portion 61a to the outside. do. On the outer circumference of the other end of the rod 67, a thread 67a to which a weight member 68 to be described later is coupled is formed.

The rod 67 is rotatably installed at the hinge 61b provided at the valve body 61 at the center of the length thereof.

The weight member 68 is provided with a screw hole in the center portion, and controls the opening and closing pressure of the opening and closing plate 65 seated on the valve seat 63, that is, the load of the opening and closing plate 65 acting on the valve seat 63. So as to be movable along the longitudinal direction on the other side of the rod 67.

The weight member 68 reduces the opening and closing pressure of the opening and closing plate 65 acting on the valve seat 63 as it moves to a point adjacent to the other side of the rod 67 based on the hinge 61b.

The valve body 61 is coupled to a cover 69 in close contact with the outer circumferential surface of the valve body 61 to protect the rod 67 protruding from the hollow portion 61a to the outside of the valve body 61.

The operation of the seal port 2 of the gas pipeline will now be described.

Condensate is stored in the first reservoir tank 10 by the reference level while the pressure of the gas pipe line 5 is in a normal state, and condensate is also stored in the condensate inlet line 20 at a level lower than the reference level.

When the abnormal pressure higher than the normal pressure acts on the gas pipe line 5, the condensed water, which is filled by the predetermined level in the condensate inflow line, is introduced into the first reservoir tank 10, thereby When the pressure increases, the condensate stored in the second reservoir tank 30 is discharged to the outside through the condensate discharge line 40 to reduce the internal pressure of the first reservoir tank 10.

Meanwhile, when the critical pressure set higher than the abnormal pressure is continuously applied to the gas pipeline 5, when the gas enters the first reservoir tank 10, the condensed water stored in the second reservoir tank 30 is removed. The pressure releasing unit 60 releases the pressure acting on the first reservoir space 10a so as to prevent all discharge through the condensed water discharge line 40 by the pressure acting on the first reservoir space 10a. do.

That is, the pressure releasing unit 60 is the first reservoir 10a and the hollow 61a before the condensate stored in the second reservoir 30a is discharged to the outside through the condensate discharge line 40. By communicating with the gas to prevent leakage through the condensate discharge line 40.

The gas introduced into the hollow portion 61a through the open passage hole 63a is moved to a storage tank (not shown) separately provided through the induction line 12 so that the gas does not flow out.

In the first reservoir tank 10, when a sudden pressure change occurs in the gas pipeline 5, the condensed water inside the first reservoir tank 10 is scattered to the upper portion and prevents the inflow into the pressure releasing part 60. The prevention plate 70 is installed.

Shatterproof plate 70 has a diameter smaller than the diameter of the first water storage tank 10 to block the condensate water flowing into the pressure release unit 60 side, but the gas can pass through, the bottom of the conical shape or the shade It is formed to be fixed to the connecting frame 71 extending inwardly from the inner peripheral surface of the first reservoir tank (10).

6 to 8 illustrate seal ports of the gas pipeline according to the second embodiment of the present invention. 6 to 8, the seal port of the gas pipeline is provided with a water storage tank 10 in which condensate is accommodated, and a sediment deposited from condensate stored in the water storage tank 10 installed under the water storage tank 10. A drain line 11 discharged to the outside of the tank 10, a condensate inlet line 20 through which condensed water moves from the gas pipe line to the water storage tank 10, and a water storage tank 10 when abnormal pressure is generated in the gas pipe line. The pressure release unit 100 for releasing the pressure in the inside, and the supplementary water supply unit 200 for maintaining the water level of the condensed water contained in the storage tank 10 at a constant level.

The water storage tank 10 includes an upper tank and a lower tank so as to be separable and coupled to each other. Inside the water storage tank 10, a partition wall 15 is formed to partition the internal space of the water storage tank into an upper space and a lower space.

The condensate inlet line 20 is coupled to the upper tank side from the gas pipe line and branches into the first branch pipe 21, the buffer pipe 22, and the second branch pipe 23 at the point of entry into the upper space, respectively.

The condensate inlet line 20 and the storage tank 10 are closed so that condensate does not directly flow into the upper space from the condensate inlet line 20, but is coupled in communication with the first branch pipe 21 and the buffer pipe 22. .

The first branch pipe 21 extends from the condensate inlet line 20 to the lower space through the partition wall 15, and the buffer pipe 22 extends from the lower portion of the condensate inlet line 20 to the upper space. The bifurcation pipe 23 extends from the buffer pipe 22 into the lower space through the partition wall 15. The buffer tube 22 is formed to have a retention space for the condensed water or gas to stay and the end extending toward the upper space has a gentle bend.

The third branch pipe 24 is coupled to the second branch pipe 23 extending through the partition wall 15 from the lower space to the upper space. The first branch pipe 21 and the second branch pipe 23 are arranged such that their lower ends are located at equal heights.

When a sudden pressure rise occurs in the gas pipe line, a part of the condensate that has filled the condensate inlet line 20 is introduced into the lower space through the first branch pipe 21 and the second branch pipe 23.

The third branch pipe 24 keeps the pressure of the upper space and the lower space in equilibrium by allowing the upper space and the lower space to communicate with each other. That is, by moving the condensed water introduced into the lower space through the first branch pipe 21 and the second branch pipe 23 from the condensate inlet line 20 to the upper space to act on the upper and lower space by the condensate and gas. To keep the pressure the same.

The pressure release part 100 includes the base flange 110, the protective cylinder 120, the discharge flange 130, the disc 140, the shaft 150, the guide 160, and the elastic member 170. ).

The base flange 110 is coupled to the coupling flange provided on the upper portion of the first water storage tank, and the first hollow portion 111 is provided therein. The protective cylinder 120 is coupled to the upper portion of the base flange 110 and the second hollow portion 121 communicating with the first hollow portion 111 is provided therein.

One side of the protective cylinder 120 is coupled to the discharge flange 130 to allow the gas passing through the first hollow 111 and the second hollow 121 from the first reservoir tank.

The disk 140 is installed in the second hollow portion 121 so as to be lifted up and down, and has a cylindrical structure in which the upper part is closed and the lower part is open. On the outer circumferential surface of the disk 140, a pad 141 that is in close contact with the lower portion of the protective cylinder 120 and maintains airtightness is installed. Even when no abnormal pressure is generated inside the first reservoir tank by the pad 141, the lower end of the disk 140 does not contact the lower portion of the protective cylinder 120, and the pad 141 is an elastic member 170. It is in close contact with the lower portion of the protective cylinder 120 by the elastic force of the).

The shaft 150 is installed on the upper portion of the disk 140 to be exposed to the outside of the protective cylinder 120 and the shaft 150 is coupled to the upper portion of the protective cylinder 120 to surround the shaft 150. The guide 160 to be installed is supported to be liftable.

The elastic member 170 has an upper portion coupled to the upper portion of the guide 160 and the lower portion coupled to the disk 140 to provide an elastic force in a direction in which the disk 140 closes the first hollow portion 111. The elastic member 170 has an elastic force enough to communicate the first hollow portion 111 and the second hollow portion 121 when the disk 140 is pushed upward when an abnormal pressure occurs in the first reservoir tank. It is desirable to apply.

The pressure releasing unit 100 is not limited to having a structure as shown in FIGS. 6 and 7, and alternatively, as shown in FIGS. 4 and 5, the weight release unit 68 is used to store the inside of the water storage tank. It is also possible to apply a pressure release unit 60 having a function of releasing pressure.

The replenishment water supply unit 200 is installed in the support frame 17 supported in the storage tank 10 so that the level of condensate contained therein becomes lower than the set first level, and supplies the supplementary water into the storage tank 10. And, if the first water level is higher than the first cylinder 210, the second cylinder 220, the partition 230, the lifting shaft 240, opening and closing piston to discharge the condensed water in the storage tank 10 to the outside 250.

The first cylinder 210 has a cylindrical shape in which the lower part is opened and the upper part is closed, but a lifting shaft 240 to be described later is installed on the upper part so as to be slidable, and a first space is provided therein.

The outer circumferential surface of the first cylinder 211 has a plurality of first through holes 211 at a height corresponding to the first water level, and a plurality of second through holes 212 at a height lower than the first through holes 211. They are formed to be spaced apart from each other along the circumferential direction, respectively, and a supplemental water inflow hole 213 is provided at an upper side thereof.

The second cylinder 220 is formed in a cylindrical shape to surround the first cylinder 210 and is installed to be spaced apart from the outer circumferential surface of the first cylinder 210 by a predetermined interval. Is extended. A condensate inlet 221 is installed at one side of the second cylinder 220 to allow condensed water to flow into the second cylinder 220 from inside the reservoir tank.

The lower plate 222 is coupled to the lower portion of the first cylinder 210 and the second cylinder 220. The lower plate 222 is provided with a discharge port 223 through which the condensed water introduced through the condensate inlet 221 of the second cylinder 220 is discharged, and the condensed water discharged through the outlet 223 is a storage tank 10. ) Flows inside.

The partition portion 230 divides the space between the first cylinder 210 and the second cylinder 220 up and down, and the second cylinder 220 from the outer circumferential surface of the first cylinder 210 at a height corresponding to the first water level. It extends to the inner circumferential surface of).

The lifting shaft 240 is coupled to one end 241 is coupled to one end so as to be moved up and down in accordance with the water level change in the storage tank 10 in the first cylinder 210, the other end is coupled to the opening and closing piston 250 do.

The opening and closing piston 250 has a cylindrical structure in which all directions are closed, and the lifting shaft 240 is fixed to the upper portion, and the first passage holes 211 are formed in the first cylinder 210 by the lifting of the lifting shaft 240. And open and close the second through holes 212.

An auxiliary discharge line 224 is installed in the second through hole 212 on one side. The second passage hole 212 not only provides a passage through which the replenishment water flows into the first cylinder 210 from the water storage tank 10, but also stores the condensed water or the replenishment water inside the first cylinder 210. ) It provides a passage for discharging to the outside, that is, the drain line (11).

The auxiliary discharge line 224 extends to the outside of the storage tank 10 and is connected to the drain line 11.

Hereinafter, a process of maintaining a constant water level in the storage tank through the replenishment water supply unit 200 having the above structure will be described.

When the water level inside the water storage tank 210 becomes higher than the first water level, that is, a momentary abnormal pressure is generated in the gas pipe line, the condensed water filled in the water condensate inlet line 20 flows into the water storage tank 10 and is normal. When the water level rises above the first water level, the opening and closing piston 250 is lifted by the buckle 241 to close the first through holes 211 and open the second through holes 212.

At this time, the condensed water in the storage tank 10 is introduced into the first cylinder through the condensate inlet 221, the second through hole 212 on one side, and is assisted through the second through hole 212 on the one side. It is discharged to the discharge line 224. The supplemental water supplied from the water supply line 51 is prevented from flowing into the water storage tank 10 because the first passage holes 211 are closed by the opening and closing piston 250.

On the other hand, when the water level of the water storage tank 10 becomes lower than the first water level, that is, the abnormal pressure is generated in the gas pipeline, the condensed water in the water storage tank 10 is converted to a normal pressure state. When the water level inside the water storage tank 10 is lowered by flowing into the side, the opening and closing piston 250 is lowered by the mouth 241 so that the first through holes 211 are opened and the second through holes 212 are closed. do.

At this time, the condensed water in the storage tank 10 is blocked from being discharged to the auxiliary discharge line 224 by the opening and closing piston 250 and at the same time, the supplemental water introduced from the water supply line 51 through the first through hole 211. Is introduced into the water storage tank 10 through the replenishment water inlet hole 213 formed in the upper portion of the first cylinder 210, and when the water level of the water storage tank 10 reaches a height corresponding to the first water level, the opening and closing piston 250 ) Simultaneously closes the first and second through holes 211 and 212 to block the inflow and outflow of condensate to maintain a constant water level.

The seal port of the gas pipeline according to the present invention as described above has been described with reference to one embodiment shown in the drawings, but this is only an example, and those skilled in the art have various modifications therefrom. And other equivalent embodiments are possible.

Therefore, the true technical protection scope of the present invention will be defined by the appended claims.

1: seal port
5: gas pipeline
10: first water storage tank
20: condensate inflow line
30: second reservoir tank
40: condensate discharge line
50: replenishment water supply unit
60: pressure release part
70: shatterproof plate

Claims (11)

delete delete A first water storage tank;
A condensate inlet line connecting the gas pipe line and the first water storage tank to provide a flow path through which the condensed water generated in the gas pipe line is discharged;
A second storage tank disposed vertically in the first storage tank and having an upper portion opened;
A horizontal portion extending from the outside of the first water storage tank to the inside of the first water storage tank at a height corresponding to the top height of the second water storage tank, and extending from an end of the horizontal portion to an inner lower portion of the second water storage tank; A condensate discharge line including a vertical portion and discharging condensate stored in the second reservoir tank to the outside of the first reservoir tank;
A critical pressure higher than a reference pressure in a steady state occurs in the gas pipeline so that the pressure inside the first water storage tank may be reduced when the pressure inside the first water storage tank increases. And a pressure release unit communicating with the first water storage tank and installed in the outside air.
The pressure release part includes a valve body including a valve seat having a hollow portion communicating with the reservoir space of the first reservoir tank and having a through hole having an inner diameter smaller than an inner diameter of the hollow portion, and opening and closing the passage hole. Opening and closing plate which flows up and down in the valve body, the opening and closing link that is fluidly coupled to the opening and closing plate, one end is coupled to the opening and closing link and the other end is extended to the outside of the valve body and the hinge provided in the valve body A rod member having one end and the other end rotatably installed up and down with a center, and a weight member movably coupled along the longitudinal direction from the other side of the rod to adjust the opening and closing pressure of the opening and closing plate acting on the valve seat. Seal port of the gas pipeline, characterized in that it comprises a. The method of claim 3,
Seal port of the gas pipeline, characterized in that the coating layer made of Teflon is formed on each of the contact surface contacting the opening and closing plate and the valve seat. A first water storage tank;
A condensate inlet line connecting the gas pipe line and the first water storage tank to provide a flow path through which the condensed water generated in the gas pipe line is discharged;
A second storage tank disposed vertically in the first storage tank and having an upper portion opened;
A horizontal portion extending from the outside of the first water storage tank to the inside of the first water storage tank at a height corresponding to the top height of the second water storage tank, and extending from an end of the horizontal portion to an inner lower portion of the second water storage tank; A condensate discharge line including a vertical portion and discharging condensate stored in the second reservoir tank to the outside of the first reservoir tank;
A critical pressure higher than a reference pressure in a steady state occurs in the gas pipeline so that the pressure inside the first water storage tank may be reduced when the pressure inside the first water storage tank increases. And a pressure release part installed to communicate with the first water storage tank and the outside air.
The pressure release part is coupled to the coupling flange provided on the upper portion of the first water storage tank and the first flange is provided therein, and the second hollow portion is coupled to the upper portion of the base flange and in communication with the first hollow portion is provided A protection cylinder, a discharge flange connected to one side of the protection cylinder and communicating with the second hollow portion, a disc for lifting and closing the first hollow portion by lifting up and down in the second hollow portion, and a lower portion of the disc. A shaft coupled to the upper portion and installed to be exposed to the outside of the protection cylinder, a guide fixed to the protection cylinder to support the shaft to be elevated, and extending up and down along the longitudinal direction of the shaft to surround the shaft. It is fixed to the guide and the other end is fixed to the disk so that the disk is burnt in the direction of closing the first hollow portion Seal port of the gas pipeline which is characterized in that it comprises a resilient member providing a force. delete A first water storage tank;
A condensate inlet line connecting the gas pipe line and the first water storage tank to provide a flow path through which the condensed water generated in the gas pipe line is discharged;
A second storage tank disposed vertically in the first storage tank and having an upper portion opened;
A horizontal portion extending from the outside of the first water storage tank to the inside of the first water storage tank at a height corresponding to the top height of the second water storage tank, and extending from an end of the horizontal portion to an inner lower portion of the second water storage tank; A condensate discharge line including a vertical portion and discharging condensate stored in the second reservoir tank to the outside of the first reservoir tank;
When the water level inside the first water storage tank is lower than the reference water level corresponding to the upper end of the second water storage tank, the replenishment water is supplied into the first water storage tank, and the water level inside the first water storage tank reaches the reference water level. And a replenishment water supply unit which stops the replenishment water supply when it arrives.
The replenishment water supply unit includes a water supply line extending from the outside of the first water storage tank to the first water storage tank and a floating valve connected to the water supply line and extending into the first water storage tank.
The floating valve may include a body part provided with a flow path to allow the replenishment water moving along the water supply line to move into the first reservoir tank, a link part hinged rotatably on one side of the lower part of the body part, and the link part It is coupled to the floating body to move up and down in accordance with the water level inside the first reservoir tank to rotate the link portion, and is installed on the flow path and the lower end is supported on one side of the link portion up and down by the rotation of the link portion It includes a fuselage to move up and down to open and close the flow path,
Seal of the gas pipe line, characterized in that provided with a scattering prevention plate installed inside the first water storage tank to prevent the condensed water in the first water storage tank to rise upward when a sudden pressure change occurs in the gas pipe line port. A storage tank;
A condensate inlet line connecting the gas pipe line and the water storage tank to provide a flow path through which the condensed water generated in the gas pipe line is discharged;
Is installed inside the water storage tank to supply the supplementary water into the water storage tank when the water level of the water storage tank is lower than the set first water level, and discharges the condensed water of the water storage tank to the outside of the water storage tank when the water level is higher than the first water level. Comprising a supplementary water supply unit;
The replenishment water supply unit has a first space and has a first passage hole through which replenishment water flows from the outside of the reservoir tank to the first space at a height corresponding to the first water level, and at a position lower than the first passage hole. A second passage hole is provided through which the condensed water in the water storage tank flows into the first space, and a third passage hole through which the replenishment water introduced through the first passage hole is discharged into the storage tank is provided. A lower portion of the first cylinder having a condensate discharge line for discharging condensate introduced into the first space through the second through hole to the outside of the storage tank;
In the first space, the outer circumferential surface is installed in the first cylinder so as to be able to move up and down in a state of being in close contact with the inner circumferential surface of the first cylinder, the length is longer than the distance between the first through hole and the second through hole With opening and closing piston,
One side is fixed to the upper end of the opening and closing piston includes a buckle for lifting up and down the opening and closing piston in accordance with the water level change in the water storage tank,
The opening and closing piston is
When the water level of the water storage tank is equal to the first water level, the first through hole and the second through hole are closed;
When the water level of the reservoir tank is lower than the first water level, the first through hole is opened and the second through hole is closed.
And the first through hole is closed and the second through hole is opened when the water level of the water storage tank is higher than the first water level. The method of claim 8,
The supplemental water supply unit
A second cylinder surrounding the first cylinder, the inner circumferential surface of which is spaced apart from the outer circumferential surface of the first cylinder by a predetermined distance;
And a partition wall portion connecting the outer circumferential surface of the first cylinder and the inner circumferential surface of the second cylinder to partition a space between the first cylinder and the second cylinder into an upper space and a lower space, respectively.
One side of the second cylinder is coupled to the water supply line for supplying the replenishment water from the outside of the water storage tank to the upper space, and the other side is provided with a condensate inlet for the condensate in the water storage tank is introduced into the lower space. Seal port of gas pipeline. 10. The method of claim 9,
A pressure releasing unit installed on an upper portion of the water storage tank to reduce a pressure inside the water storage tank when the pressure inside the water storage tank increases due to a threshold pressure higher than a reference pressure in a normal state in the gas pipeline; Equipped,
The pressure release unit
A base flange coupled to a coupling flange provided on an upper portion of the water storage tank and provided with a first hollow portion therein;
A protective cylinder coupled to an upper portion of the base flange and provided with a second hollow portion communicating with the first hollow portion;
A discharge flange connected to one side of the protection cylinder and communicating with the second hollow part;
A disc for opening and closing the first hollow portion by lifting up and down in the second hollow portion;
A shaft coupled to a lower portion of the disk and an upper portion of the shaft installed to be exposed to the outside of the protection cylinder;
A guide fixed to the protection cylinder to support the shaft to be elevated;
An elastic member extending up and down along the longitudinal direction of the shaft to surround the shaft and having one end fixed to the guide and the other end fixed to the disk to provide an elastic force in a direction in which the disk closes the first hollow portion. Seal port of the gas pipeline, characterized in that. 10. The method of claim 9,
A pressure releasing unit installed on an upper portion of the water storage tank to reduce a pressure inside the water storage tank when the pressure inside the water storage tank increases due to a threshold pressure higher than a reference pressure in a normal state in the gas pipeline; Equipped,
The pressure release unit
A valve body including a valve seat having a hollow portion communicating with the reservoir space of the reservoir tank and having a passage hole having an inner diameter smaller than an inner diameter of the hollow portion;
An opening and closing plate flowing up and down in the valve body to open and close the through hole;
An opening and closing link that is fluidly coupled to the opening and closing plate;
A rod having one end coupled to the opening and closing link and the other end extending outside the valve body and rotatably installed at one end and the other end respectively up and down about a hinge provided at the valve body;
And a weight member movably coupled along the longitudinal direction at the other side of the rod to adjust the opening and closing pressure of the opening and closing plate acting on the valve seat.

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