KR101999357B1 - Apparatus and method for removing a remaining fluid in pipe to be maintained - Google Patents

Abstract

The present invention relates to an apparatus for removing fluid remaining in a maintenance pipe, which extracts the fluid remaining in the maintenance pipe with a transfer means and supplying the fluid together with a normal flow to allow the fluid to be used for an original purpose to prevent the fluid which is diffused through the air or the ground to cause environmental pollution, and a method thereof. According to the present invention, the apparatus for removing the fluid remaining in a maintenance pipe comprises: a bypass pipe (26) connected to normally supply the fluid in a pipeline when the maintenance pipe (10) is blocked; an extraction tube (33) connecting a front end portion to a through-hole formed in the maintenance pipe (10) including the remaining fluid; a discharge tube (34) connecting a front end portion to a portion in which the fluid normally flows; and the transfer means transferring the remaining fluid extracted through the extraction tube (33) to the discharge tube (34) to transfer the remaining fluid to the portion in which the fluid normally flows. The transfer means is installed on one base (50) and comprises: a discharge cylinder (40) receiving the fluid from the extraction tube (33) and discharging the fluid to the discharge tube (34); a hydraulic cylinder (45) generating power for reciprocating a piston (41) of the discharge cylinder (40); and a coupling (49) interconnecting the front end of a piston rod (42) of the outwardly protruding discharge cylinder (40) with the front end of a piston rod (47) of the hydraulic cylinder (45). Moreover, the coupling (49) has a thermal insulating gasket (49d) installed therein to block heat transfer.

Description

Technical Field [0001] The present invention relates to a device for removing residual fluid in a maintenance pipe,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus and method for removing a fluid remaining in a piping of a specific part requiring maintenance in a pipe through which a fluid flows such as high-pressure gas, oil, and heating water. More particularly, A residual fluid removing device in a maintenance pipe and a removing method thereof for preventing a phenomenon in which the fluid leaks into the atmosphere or the ground by causing the fluid remaining in the pipe to be taken out and transported together with the normal flow fluid and used for the original purpose .

In the basement of the city, there are pipes for transporting various kinds of fluid such as gas piping, oil transportation piping, heating water piping, and water piping.

In order to perform pipe maintenance such as valve replacement, pipe replacement, new pipe installation, and old pipe replacement, it is necessary to cut off a specific portion of the pipe so that the fluid can not flow or bypass the pipe. At this time, the plugging head is inserted into the main pipe to be blocked by using the plugging machine to block the flow of the fluid.

The fluid conveyed through the main pipe is a high pressure gas and a heating water. The gas has a pressure of about 60 kg / cm 2, a temperature of about -40 ° C, a heating water pressure of about 16 kg / cm 2, 110 ° C, each containing a drug.

FIG. 1 shows a state in which a plugging head is inserted into a pipe for blocking fluid flow. In order to cut off the main pipe 11, the branch pipe 12 and the sandwich valve 21 are installed in the main pipe 11 and the branch pipe 20 is installed. Then, a plugging machine (23) is installed in the branch pipe (20).

A lever body 24 is provided on the piston rod 22 of the plugging machine 23 and a plugging head 25 is connected to the lever body 24.

When the piston rod 22 of the plugging machine 23 is extended downward, the rollers at the foremost end formed on the plugging head 25 come into contact with the bottom of the main pipe 11 to rotate the lever body 24, The roller contacts the bottom of the main pipe 11 and the lever body 24 rotates by 90 ° so that the third roller comes into contact with the bottom of the main pipe 11.

The flow of the fluid is shut off by sealing the main pipe 11 by the blocking rubber of the plugging head 25 formed at the tip end of the lever body 24 in the process of rotating the lever body 24 by 90 degrees.

The flow of the fluid is blocked only by the piping part to be maintained and the fluid is continuously flowed, the downstream side of the main piping 11 is blocked by the same method using the plugging machine 23, .

In this way, the piping maintenance work is performed on the piping of the specific part to be maintained with the fluid not flowing to the piping part to be maintained.

Conventionally, there has been a problem that a maintenance work such as replacement is carried out without removing residual fluid remaining in the piping of a specific part to be maintained, that is, the maintenance pipe, so that the residual fluid flows to the atmosphere or the ground during the maintenance work, . In particular, gas and heating water contains harmful substances such as chemicals, which causes serious environmental pollution in air, land, and groundwater when spilled in the nature.

The present invention is to solve the problem of the residual fluid in the conventional maintenance pipe as described above. It is possible to prevent environmental pollution due to the disposal of the residual fluid in the maintenance pipe, to remove the residual fluid from the maintenance pipe, And it is an object of the present invention to provide a residual fluid remover in a maintenance pipe which requires simple processing and low cost.

It is another object of the present invention to provide a method and apparatus for preventing the environmental pollution due to the disposal of the residual fluid in the maintenance pipe and removing the residual fluid from the maintenance pipe, And to provide a method for removing residual fluid in a maintenance pipe.

In order to accomplish the above object, the apparatus for removing residual fluid in a maintenance pipe of the present invention is an apparatus for removing a fluid remaining in a maintenance pipe that interrupts a fluid flow for maintenance, A bypass pipe (26) is connected between the upstream side branch pipe provided in the upstream main pipe and the downstream pipe provided in the downstream main pipe; A discharge tube having a leading end portion connected to a through hole formed in a maintenance pipe having a residual fluid, and a discharge tube having a leading end portion connected to a portion where the fluid normally flows. And transfer means for transferring residual fluid drawn out through the take-out tube to the discharge tube to transfer the fluid to a portion where the fluid normally flows; The conveying means is provided on one base and includes a discharge cylinder for receiving the fluid through the take-out tube and discharging the fluid through the discharge tube, a hydraulic cylinder for generating power for reciprocating the piston of the discharge cylinder, And a coupling for coupling the tip end of the piston rod of the discharge cylinder and the tip end of the piston rod of the hydraulic cylinder to each other; And the coupling is heat-blocked by a heat transfer prevention gasket in the middle.

The apparatus for removing residual fluid in a maintenance pipe of the present invention is also characterized in that the discharge cylinder discharges the fluid in the front of the cylinder to the discharge tube at the time of advancement of the piston and at the same time flows the fluid of the outlet tube to the cylinder in the rear of the piston, And is a double-acting cylinder that discharges the fluid that flows into the rear of the cylinder to the discharge tube and flows the fluid of the drawing tube to the front of the cylinder.

The apparatus for removing residual fluid in a maintenance pipe of the present invention is further characterized in that the coupling is composed of both side plates, an intermediate plate, and a heat transfer prevention gasket disposed therebetween and is coupled to each other by bolts and nuts.

In the apparatus for removing residual fluid in a maintenance pipe of the present invention, the portion in which the fluid normally flows is an upstream side branch pipe, a downstream side branch pipe, an upstream side main pipe, a downstream side main pipe and an upstream side branch pipe and a downstream side branch pipe And a bypass pipe connected to the bypass pipe.

In accordance with another aspect of the present invention, there is provided a method for removing residual fluid in a maintenance pipe that cuts off fluid flow for maintenance, the method comprising the steps of: Connecting the bypass piping between the downstream pipelines provided in the downstream main piping to allow the fluid to flow normally in a state where the maintenance piping is shut off; Withdrawing the residual fluid in the maintenance pipe through the take-out tube provided in the maintenance pipe having the residual fluid by the transferring means; And transferring the residual fluid drawn through the discharge tube provided at the portion where the fluid normally flows by the transferring means to the portion where the fluid normally flows.

The method for removing residual fluid in a maintenance pipe of the present invention may further comprise a storage container so that the outlet end of the draw-out tube is connected to the inlet of the storage container, the inlet end of the discharge tube is connected to the outlet of the storage container, And a step of temporarily storing the fluid withdrawn from the maintenance pipe by the transfer means of the withdrawal tube in a storage container by providing transfer means respectively in the tube and the discharge tube.

The method for removing residual fluid in a maintenance pipe of the present invention is also characterized in that the conveying means is installed in one base provided between the drawing tube and the discharge tube and is provided with a discharge port for receiving the fluid through the draw tube and discharging the fluid through the discharge tube A cylinder, a hydraulic cylinder for generating power for reciprocating the piston of the discharge cylinder, and a coupling for connecting the tip of the piston rod of the discharge cylinder protruding outward to the tip of the piston rod of the hydraulic cylinder to each other Or is a pump.

The method for removing residual fluid in a maintenance pipe according to the present invention is also characterized in that the part in which the fluid normally flows is an upstream side branch pipe, a downstream side branch pipe, an upstream side main pipe, a downstream side main pipe, an upstream side branch pipe and a downstream side pipe And the bypass pipe is connected to the bypass pipe.

The residual fluid removing device and the removing method in the maintenance pipe of the present invention use the transferring means to transfer the residual fluid in the maintenance pipe to a portion where the fluid normally flows in addition to the maintenance pipe, It is not necessary to remove pollutants and separate treatment after the residual fluid in the maintenance pipe is taken out. Therefore, the treatment is simple and the cost is low, and the transfer means using the hydraulic pressure is used It exhibits the effect that the processing speed is fast because it exerts a powerful transfer force.

FIG. 1 is an installation view of a conventional plugging machine and a sandwich valve in which a plugging head is inserted into a main pipe; FIG.
2 is a configuration diagram showing an embodiment of the apparatus for removing residual fluid in a maintenance pipe of the present invention,
3 is a cross-sectional view showing the structure of an in-feed apparatus which is a component of the apparatus for removing residual fluid in a maintenance pipe of the present invention,
4 is a configuration diagram showing another embodiment of the apparatus for removing residual fluid in a maintenance pipe of the present invention,
5 is a configuration diagram showing still another embodiment of the apparatus for removing residual fluid in a maintenance pipe of the present invention,
6 is a flow chart showing an embodiment of a method for removing residual fluid in a maintenance pipe of the present invention,
7 is a flow chart showing another embodiment of the residual fluid removing method in a maintenance pipe of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

As shown in FIGS. 2, 4 and 5, the present invention is a device for removing fluid remaining in a maintenance pipe 10 that blocks fluid flow by using two plugging machines 23 for maintenance.

The plugging machine 23 is installed on the upstream side and the downstream side of the maintenance piping 10 requiring piping maintenance work such as replacement of old pipes, replacement of valves, replacement of piping, installation of piping, Side main pipe 11 and the downstream-side main pipe 11 '. The branch fittings are welded to the main pipes 11 and 11 'to install the plugging machine 23 and the sandwich valve 21 is installed and then the main pipes 11 and 11' are welded by using a perforator (not shown) The perforator is removed while the sandwich valve 21 is closed, and the plugging machine 23 is installed in its place. After the sandwich valve 21 is opened, the plugging machine 23 is operated to lower the piston rod 22, the lever body 24, and the plugging head 25 to thereby open the main pipe 11 by the plugging head 25, (11 '). The technique of installing the plugging machine 23 and shutting off the main pipes 11 and 11 'is a well-known technique in the art, so a detailed description thereof will be omitted.

The bypass pipe 26 is provided between the upstream side branch pipe 20 and the downstream side pipe 20 'in order to continuously flow the fluid while the maintenance pipe 10 is shut off as described above. A sandwich valve 27 for opening and closing is provided at the outlet and the inlet of the branch pipes 20 and 20 'for installing the bypass pipe 26. When the sandwich valve 27 is shut off, And then the sandwich valve 27 is opened. In this state, the fluid in the upstream main pipe 11 flows into the downstream main pipe 11 'through the upstream side branch pipe 20, the bypass pipe 26 and the downstream pipe branch 20' 10) are blocked, the fluid flows normally.

In this state, the fluid remaining in the maintenance pipe (10) is removed. Since the fluid is a high pressure and has a high temperature or a very low temperature, care is required in the operation.

FIG. 2 shows an embodiment of the apparatus for removing residual fluid in a maintenance pipe of the present invention, which is suitable for maintenance of piping through which heating water flows. The apparatus of this embodiment includes an upstream side branch pipe 20 and a downstream side main pipe 11 'provided on the upstream side main pipe 11 in order to allow the fluid to flow normally in the state that the maintenance pipe 10 is shut off. A take-out tube 33 to which a bypass pipe 26 is connected between the downstream-side branch pipes 20 'provided in the maintenance pipe 10 and a tip portion of which is connected to a through-hole formed in the maintenance pipe 10, And a discharge tube (34) to which the leading end portion is connected to the normally flowing portion. And transfer means for transferring residual fluid drawn out through the drawing tube 33 to the discharge tube 34 to transfer the fluid to a portion where the fluid normally flows.

 3, the conveying means is provided in one base 50 and includes a discharge cylinder 40 for receiving fluid through the take-out tube 33 and discharging the fluid through the discharge tube 34, A hydraulic cylinder 45 for generating a power for reciprocating the piston 41 of the discharge cylinder 40 and a hydraulic cylinder 45 for guiding the tip of the piston rod 42 of the discharge cylinder 40 protruding outward to the tip of the hydraulic cylinder 45 And a coupling 49 for connecting the tip ends of the piston rods 47 of the piston rod 47 to each other.

The discharge cylinder 40 and the hydraulic cylinder 45 are connected by a coupling 49 in such a manner that the ends of the respective piston rods are aligned so as to face each other.

The discharge cylinder 40 discharges the fluid in the front of the cylinder to the discharge tube 34 when the piston 41 advances and the fluid of the take-out tube 33 to the cylinder behind the piston, And is a double acting cylinder for discharging the fluid flowing backward from the cylinder to the discharge tube 34 and flowing the fluid of the take-out tube 33 to the front of the cylinder.

As shown in FIG. 3, the discharge inlet pipes 43a and 44a are connected to the front end and the end of the discharge cylinder 40 for operation of the discharge cylinder 40, respectively.

The outflow inlet 43a of the distal end portion is branched into the inflow pipe 43b and the outflow pipe 43c and the check valve 43d opened only in the inflow direction is connected to the inflow pipe 43b, And a check valve 43e which is opened only by the check valve 43e.

Likewise, the outflow inlet 44a at the end portion is branched into the inflow pipe 44b and the outflow pipe 44c, and the check valve 44d opened only in the inflow direction is branched into the inflow pipe 44b, And a check valve 44e which is open only in the direction of the check valve 44e.

The check valve 43d at the distal end portion and the check valve 44d at the end portion are connected to each other by a connection pipe 43f and a T pipe 44g is connected to the connection pipe 43f to connect the extraction pipe 33 have. The drawing tube 33 is provided with a filter 44h to filter the object contained in the residual fluid.

The check valve 43e at the distal end portion and the check valve 44e at the end portion are connected to each other by a connection pipe 44f and a T-shaped pipe 43g is provided to the connection pipe 44f to connect the discharge tube 34 have.

The coupling 49 is provided with a heat shielding gasket 49d in the middle so that the coupling 49 can prevent heat transfer between the side plates 49a and 49b and the intermediate plate 49c, And a gasket 49d, and are coupled to each other by bolts 49e and nuts 49f. The heat transfer prevention gasket 49d blocks the fluid in the discharge cylinder 40, that is, the high temperature heat of the heating water from being transmitted to the hydraulic cylinder 45 through the piston rod. Therefore, the hydraulic cylinder 45 is not heated and normally operates.

Since the hydraulic cylinder 45 is suitable for processing a large amount of fluid, it is preferable to use this apparatus and the large amount of heating water to quickly draw out the heating water.

The discharge cylinder 40 and the hydraulic cylinder 45 are provided with a plurality of parallel guide rods 48 so as to freely adjust the clearance therebetween and to make the piston rods 42, I am using it.

Heat-resistant packing 41a and 46a are provided on the cylindrical surface of the piston 41 of the discharge cylinder 40 and the piston 46 of the hydraulic cylinder 45 so that wear is not caused even if frictional heat is generated. The heat-resistant packing 40b and 45b are also provided on the piston rod contact portions of the discharge cylinder 40 and the front cover plates 40a and 45a of the hydraulic cylinder 45 so as not to be worn.

The above conveying apparatus is configured such that the piston 41 of the discharge cylinder 40 reciprocates every time the piston 46 reciprocates by the hydraulic pressure of the hydraulic cylinder 45, The feeding and discharging operations are performed continuously each time the backward movement is performed, so that the feeding efficiency is greatly improved.

2 shows that the discharge tube 34 is connected to the upstream side branch pipe 20 while the downstream side branch pipe 20 ', the upstream side main pipe 11, The downstream side main pipe 11 'and the bypass pipe 26 connecting the upstream side branch pipe 20 and the downstream side pipe 20'.

The drawing tube 33 may be inserted directly through the through hole of the maintenance pipe 10 and may be provided with a drawing fitting 31 in the through hole as shown in the figure for keeping the airtight, The coupling fitting may be screwed to the fitting fitting 31 while the leading end of the coupling fitting is inserted into the fitting fitting 31. An opening / closing valve 32 is provided in the drawing fitting 31, As shown in Fig.

An inlet fitting 31 'is provided in the through hole of the branch pipe 20 so that the discharge port 34 is connected to the branch pipe 20 so as to maintain the airtightness. And the fitting fitting may be connected to the opening / closing valve 32 'by providing an opening / closing valve 32' in the inlet fitting 31 '.

As shown in FIG. 4, another embodiment of the apparatus for removing residual fluid in a maintenance pipe of the present invention includes an extraction fitting 31 provided on a maintenance pipe 10 having residual fluid to be withdrawn, A valve 32, an outlet tube 33 connected to the opening / closing valve 32, an inlet fitting 31 'installed at a portion where the fluid normally flows, an opening / closing valve 32' installed at the inlet fitting 31 ' A discharge tube 34 connected to the open / close valve 32 ', and a pump 35 for transferring the residual fluid transferred through the take-out tube 33 to the discharge tube 34 to transfer the fluid to a portion where the fluid normally flows . The pump 35 is a concept that includes both electric, hydraulic, and pneumatic pumps.

5, a storage vessel 36 for temporarily storing the fluid withdrawn from the maintenance pipe 10 is additionally provided, and the outlet end of the outlet tube 33a is connected to the outlet The inlet end of the discharge tube 34a is connected to the outlet port of the storage container 36 and the outlet end of the storage tube 34a is connected to the outlet port of the storage container 36, (35a) and (35) are provided.

It is preferable to provide check valves (not shown) in the drawing tubes 33 (33a) and the discharge tubes 34 (34a), respectively, so as to prevent the drawing fluid or the inflowing fluid from flowing backward.

Some of the portions through which the fluid normally flows include the upstream side branch pipe 20, the downstream side branch pipe 20 ', the upstream side main pipe 11, the downstream side main pipe 11', the upstream side branch pipe 20, And a bypass pipe 26 connecting the downstream-side branch pipe 20 '.

A ventilation fitting 31a for venting is provided on the other side of the maintenance pipe 10 to remove residual fluid from the maintenance pipe 10 so as to open the vent pipe 10 when the vacuum is formed in the maintenance pipe 10, As a fitting, it can be opened and closed.

4 and 5, the inlet fitting 31 'may be installed on the upstream side branch pipe 20, but the downstream side branch pipe 20', the upstream side main pipe 11, the downstream side It can be installed at any portion where the fluid normally flows, such as the main pipe 11 ', the bypass pipe 26 connecting the upstream pipe 20 and the downstream pipe 20' Install in a convenient place.

Pumps 35 and 35b that supply the residual fluid through the inlet fitting 31 'must have a capacity to supply the residual fluid at a pressure higher than the pressure of the normally flowing fluid and must be capable of withstanding the high or low temperature of the fluid to be treated It should have a characteristic.

Similarly to the above-described method of installing the plugging machine 23, the opening fittings 31 and the inlet fitting 31 'are installed without opening the open / close valves 32 and 32' .

The method for removing residual fluid in a maintenance pipe according to the present invention is characterized in that it comprises a drawing fitting (31) provided on a maintenance pipe (10) having residual fluid by a conveying means, an opening / closing valve (32) provided on the drawing fitting (31) Withdrawing the residual fluid in the maintenance pipe (10) through the withdrawal tube (33) (33a) connected to the main pipe (32); And a discharge tube 34 (34a) connected to the on-off valve 32 ', an inlet valve 32' installed in the inlet fitting 31 ' And transferring the residual fluid that has been withdrawn to the portion where the fluid normally flows.

6, a pump 35 is installed between the draw-out tube 33 and the discharge tube 34 by the conveying means, and the maintenance of the maintenance fluid is performed by the pump 35 The residual fluid in the pipe 10 flows directly into the inflow fitting 31 'to transfer the residual fluid to the portion where the fluid normally flows.

7, a storage vessel 36 is provided so that the outlet end of the draw-out tube 33a is connected to the inlet of the storage vessel 36 through a discharge tube (not shown) 34a are respectively connected to the outlet of the storage container 36 and pumps 35a and 35b are provided in the drawing tube 33a and the discharging tube 34a as the conveying means, And temporarily storing the fluid withdrawn from the maintenance pipe 10 by the pump 35a of the pump 33a in the storage container 36. [ In this embodiment, the residual fluid of the storage container 36 taken out of the maintenance pipe 10 by the pump 35b flows into the inlet fitting 31 ', and is transferred to the portion where the fluid normally flows.

When the fluid in the maintenance pipe 10 is drawn to some extent and the pressure of the inner fluid drops below the atmospheric pressure, the outflow tube is replaced with a tube extending to the bottom of the maintenance pipe 10 to cleanly replace the fluid at the bottom.

According to the apparatus and method for removing residual fluid in a maintenance pipe of the present invention, residual fluid in the maintenance pipe (10) can be uniformly supplied to the branch pipe (20), bypass pipe (26) And the residual fluid is used as it is for the original purpose, so that environmental pollution due to the residual fluid is not generated.

Since the residual fluid in the maintenance piping is taken out, there is no need for separate treatment for removing contaminants such as filtration and chemical treatment, so that the treatment is simple and low cost.

While the invention has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

10: Maintenance piping 11, 11 ': Main piping
12: Branch fitting 20, 20 ': Branching
21: Sandwich valve 22: Piston rod
23: plugging machine 24: lever body
25: plugging head 26: bypass pipe
27: Sandwich valve 31: Retraction fitting
31 ': Inlet fitting 31a: Aeration fitting
32, 32 ': opening / closing valve 33, 33a: drawing tube
34, 34a: Discharge tube 35, 35a, 35b: Pump
36: Storage container
40: Discharge cylinder 40a: Front cover plate
40b: Heat-resistant packing 41: Piston
41a: Heat-resistant packing 42: Piston rod
43a, 44a: Outflow inlet 43b, 44b: Inflow pipe
43c, 44c: outflow pipes 43d, 44d: check valves
43e, 44e: check valves 43f, 44f: connection pipe
43g, 44g: T-tube 44h: filter
45: Hydraulic cylinder 45a: Front cover plate
45b: Heat-resistant packing 46a: Heat-resistant packing
47: Piston rod 48: Guide rod
49: coupling 49a, 49b:
49c: intermediate plate 49d: heat transfer prevention gasket
49e: bolt 49f: nut
50: Base

Claims (8)

1. An apparatus for removing fluid remaining in a maintenance piping (10) that cuts off a fluid flow for maintenance, the apparatus comprising:
The upstream side branch pipe 20 provided in the upstream side main pipe 11 and the downstream side branch pipe 20 provided in the downstream side main pipe 11 'in order to allow the fluid to flow normally in the state that the maintenance pipe 10 is shut off. A bypass pipe (26) is connected between the inlet pipe (20 ') and the bypass pipe (26);
A withdrawal tube 33 to which the tip end portion is connected to the through hole formed in the maintenance pipe 10 having the residual fluid, and a discharge tube 34 to which the tip end portion is connected to the portion where the fluid normally flows. And transfer means for transferring the residual fluid drawn out through the drawing tube (33) to the discharge tube (34) and transferring the residual fluid to a portion where the fluid normally flows;
The transfer means is provided in one base 50 and includes a discharge cylinder 40 for receiving fluid through the take-out tube 33 and discharging the fluid through the discharge tube 34, A hydraulic cylinder 45 for generating a power for reciprocating the piston 41 and a hydraulic cylinder 45 for driving the piston rod 42 of the hydraulic cylinder 45 and the piston rod 42 of the discharge cylinder 40 projecting to the outside, And a coupling (49) connecting the tips to each other;
Wherein the coupling (49) is configured such that the heat transfer prevention gasket (49d) serves as a heat shield in the middle. 2. The apparatus according to claim 1, wherein the discharge cylinder (40) discharges the fluid in the front of the cylinder to the discharge tube (34) when the piston (41) Is a double-acting cylinder that discharges the fluid that has flowed backward in the cylinder backward to the discharge tube (34) when the piston (41) is reversed and simultaneously allows the fluid of the take-out tube (33) to flow in front of the cylinder. The residual fluid removal device. 2. The valve according to claim 1, wherein said coupling (49) comprises both side plates (49a) and (49b), intermediate plate (49c) and heat transfer prevention gasket (49d) disposed therebetween, and bolt (49e) and nut The residual fluid removing device in the maintenance piping. The apparatus as claimed in claim 1, wherein the portion through which the fluid normally flows is an upstream side branch pipe (20), a downstream side branch pipe (20 '), an upstream main pipe (11), a downstream main pipe (11' And a bypass pipe (26) for connecting the engine (20) and the downstream side branch pipe (20 '). 1. A method for removing fluid remaining in a maintenance piping (10) that cuts off fluid flow for maintenance,
A bypass piping 26 is connected between the upstream side branch pipe 20 provided in the upstream main pipe 11 and the downstream pipe 20 'provided in the downstream main pipe 11' Allowing the fluid to flow normally through the pipe while shutting off the pipe;
Withdrawing the residual fluid in the maintenance pipe (10) through a take-out tube provided in the maintenance pipe (10) having the residual fluid by the transfer means; And
And transferring the residual fluid drawn through the discharge tube provided at the portion where the fluid normally flows by the transfer means to the portion where the fluid normally flows;
The conveying means is installed in one base 50 provided between the drawing tube and the discharge tube and includes a discharge cylinder 40 for receiving the fluid through the draw tube 33 and discharging the fluid through the discharge tube 34 A hydraulic cylinder 45 for generating a power for reciprocating the piston 41 of the discharge cylinder 40 and a hydraulic cylinder 45 for discharging the tip of the piston rod 42 of the discharge cylinder 40 projecting to the outside, 45 or a coupling (49) connecting the tips of the piston rods (47) of the piston rods (45) to each other, or a pump (35). The storage container (36) according to claim 5, further comprising a storage container (36) so that the outlet end of the draw-out tube is connected to the inlet of the storage container (36) and the inlet end of the discharge tube is connected to the outlet of the storage container , And a step of providing transfer means to the take-out tube and the discharge tube, respectively, and temporarily storing the fluid drawn out from the maintenance pipe (10) in the storage container (36) by the transfer means of the take- A method for removing residual fluid in a pipe. delete 6. The fuel cell system according to claim 5, wherein the part in which the fluid normally flows is an upstream side branch pipe (20), a downstream side branch pipe (20 '), an upstream side main pipe (11), a downstream side main pipe (11' And a bypass pipe (26) connecting the branch pipe (20) and the downstream pipe (20 ').

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