KR100469670B1 - A cleaning apparatus of fluid transport pipe in a condenser - Google Patents

Abstract

The present invention relates to a fluid transport tube cleaning apparatus in a condenser for cleaning a fluid transport tube installed in a capacitor in the form of a shell end tube.

The present invention provides a ball separating device connected to an outlet pipe of a condenser, a ball storage tank installed below a portion where a fluid transfer conduit and a fluid recovery conduit connected to a ball outlet of the ball separating device intersect, and the ball storage tank. In the fluid transport pipe cleaning device is connected to the circulation pump connected to the circulating pump to transfer and circulate the ball, and the circulating fluid conduit connected to the inlet pipe for introducing the fluid, the ball separator is a valve connected to the outlet pipe of the condenser And a valve connected to the fluid outlet pipe. A ball outlet is formed at the rear end of the cylindrical body installed therein, and is connected to the fluid recovery conduit. The ball storage tank is a ball inlet and a ball discharge valve. The side glass and the ball storage unit for checking the state of the ball is provided, the cylindrical bag to separate the fluid and the ball at the lower end of the side glass The fluid circulation passage provided in the lower portion of the ball storage tank is provided with a circulating fluid conduit connected to the inlet pipe, and an automatic opening / closing valve for automatically opening and closing the circulation pump and the flow passage therebetween. .

Description

A cleaning apparatus of fluid transport pipe in a condenser

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for cleaning a fluid transport tube in a condenser, and more particularly, to improve the apparatus for cleaning a fluid transport tube, most of which is provided in a condenser in the form of a shell end tube. A fluid transport tube cleaning apparatus in a condenser.

Generally, in the fluid transport tube cleaning apparatus in a condenser, as a technique for removing the scale attached to the fluid transport tube by inserting a ball and flowing a fluid, US Pat. No. 3,914,372 (Nov. 15, 1975) or 486521 ( 1989.9.12), or Japanese Patent Application Laid-Open No. 63-238397 (1988.10.4), and other publications such as Korean Patent Application Publication No. 96-706061 (1996.11.6).

In addition, the present applicant, as a way to improve the problems of the device as described above, the domestic utility model registration No. 227922 (2001.4.9), utility model registration No. 237353 ( 2001.6.27), the present invention is to improve the fluid transport pipe cleaning device in the pre-registered condenser as described above.

1, the condenser 11 is connected to the inflow pipe 2 through which the fluid flows by the operation of the pump 1, and as shown in FIG. It is provided with a plurality of parallel fluid transport pipes 12 for transporting the fluid, and a fluid outlet pipe 6 for discharging the fluid is connected to the outlet pipe 3 of the condenser 11.

A fluid transfer conduit 18 and a fluid recovery conduit 19 are installed so as to be connected to an inlet pipe 2 for introducing the fluid and an outlet pipe 3 for discharging the fluid, and the outlet pipe 3 and the fluid outlet pipe are installed. A ball separating device 8 is provided between the 6, and the inside of the ball separating device 8 has a cylindrical body 13 in its longitudinal direction and an end portion at the rear end of the cylindrical body 13. The ball outlet 5 which becomes eccentric and narrows to a conical shape is connected to the fluid recovery conduit 19 so that it may be kept airtight.

In addition, a ball storage tank in which the ball 10 injected through the ball inlet 35 connected by the valve 44 is stored at a lower portion of the portion where the fluid transfer conduit 18 and the fluid recovery conduit 19 intersect. 30 is provided, and the side glass 39 which measures the quantity of the said ball 10 is formed in the substantially center part of this ball storage tank 30, and was formed in the upper end part of this side glass 39. At the bottom of the ball reservoir 40, a cylindrical bag 31 made of a net for separating the fluid and the ball 10 is mounted.

In addition, the ball discharge conduit 20 is provided with a ball discharge valve 57 in a position perpendicular to one side of the ball storage tank 30 so that the ball 10 can be discharged to check and replace the state of the ball 10. Is provided, the lower portion of the ball storage tank 30 is provided with a circulating fluid conduit 16 is connected to the inlet pipe (2) through which the fluid is introduced by a flange 43 is connected.

In addition, the circulation fluid conduit 16 is provided with a filter 41 for filtering the scale removed from the fluid transport pipe 12, and a circulation pump 42 for circulating the fluid conveying the ball 10. The circulating fluid conduit 16 is connected to the circulating pump 42 through the circulating fluid conduit 17 so that the inlet pipe 2 and the ball separating device 8 for introducing a fluid are connected to the circulating pump 42. Is confidentially connected to

Referring to the operation of the cleaning device configured as described above, the technique opens the valves 27 and 28 provided between the outlet pipe 3 and the fluid outlet pipe 6, as shown in FIG. With the valves 24 and 25 installed in the fluid transfer conduit 18 and the fluid recovery conduit 19 open, the pump 1 is operated to allow fluid flowing from the outside to flow through the condenser 11 through the inlet conduit 2. ) Continues to flow to the ball separating device (8) through the fluid transport pipe 12 is installed in parallel in the interior, in this state through the head inlet (7) attached to the upper portion of the condenser (11) While the introduced working fluid is discharged to the head outlet 9 through the flow passage 12 ', the fluid flowing inside the fluid transport pipe 12 is discharged through the fluid outlet pipe 6 at the same time as the heat exchange takes place. .

In order to wash the scale attached to the inner wall of the fluid transport pipe 12, when the circulation pump 42 is rotated in the forward direction by a timer (not shown), the valve 54 is open, so that the inlet pipe The fluid flowing in (2) is sucked by the suction force of the circulation pump 42, passes through the filter 41, and then flows into the ball storage tank 30.

In addition, the fluid introduced into the ball reservoir 40 pushes the ball 10 toward the conduits 18 and 19, and the ball 10 is a check valve 24 ′ installed in the fluid recovery conduit 19. After passing through the check valve (25 ') and the open valve (25) to the condenser (11) installed in the fluid transfer conduit (18) and unable to move by), through the fluid transfer conduit (18) The circulation pump 42 which reaches the inside of (2), is injected and diffused, and rotates in the forward direction is stopped.

In the state in which the circulation pump 42 is stopped, the ball 10 reaching the inlet pipe 2 is introduced into the condenser 11 by the flow of fluid flowing along the inside of the inlet pipe 2. The ball 10 removes the scale attached to the inner wall surface of the fluid transport tube 12 while passing freely through the inner walls of the plurality of fluid transport tubes 12 installed in the condenser 11 together with the fluid. Done.

Thereafter, the ball 10 passes through the open valve 27 installed in the outlet pipe 3 and flows into the ball separator 8 with the fluid, which in turn flows into the cylindrical body 13. After it is filtered by the vent formed, it is discharged through the fluid outlet pipe 6.

In addition, the ball 10 collected at the ball outlet 5 of the cylindrical body 13 has a fluid flowing into the fluid recovery conduit 19 as the circulation pump 42 is reversely rotated by a set timer (not shown). Through the ball outlet 5 is introduced into the fluid recovery conduit 19 by the suction force of the.

The ball 10 introduced into the fluid recovery conduit 19 passes through the open valve 24 and the check valve 24 ′ passing in the direction of the ball storage tank 30, and then the ball storage unit 40. The circulating pump 42, which is gathered into the cylindrical bag 31 installed in the circumferential direction, stops, and the scale mixed with the fluid that has flowed back by the reverse rotation of the circulating pump 42 is filtered. ) And the fluid is transferred to the inlet pipe (2) through the circulating fluid conduit (16).

By the way, in the prior art as mentioned above, the rear part of the cylindrical body 13 provided in the longitudinal direction inside the ball separation apparatus 8 is inclined as shown in FIG. 1, and after this cylindrical body 13 Since the end portion of the ball outlet 5 formed at the end is made to be concentric and narrow at the same time, the ball 10 can not be easily collected, and it is not beautiful in appearance and difficult to manufacture and install. have.

In the structure as described above, the inlet pipe 3 'and the outlet pipe 6' of the ball separator 8 are connected to the outlet pipe 3 and the fluid outlet pipe 6 of the condenser 11. The problem is that the work is very tricky and difficult.

Then, when the fluid is circulated by the operation of the circulation pump 42 in the ball storage tank 30 to spray (inject) the ball 10, the movement of the ball is not smooth and some fluid transport pipe 12 ), The ball is not injected, the circulation pump 42 rotates forward and reverse, so the life of the equipment and the flow of fluid is not smooth, the price is expensive and the specification is limited, there is a problem in maintenance and supply .

In addition, when the circulating fluid conduit 17 is connected to the fluid outlet pipe 6, the operation of the check valves 24 'and 25' due to the pressure difference becomes unstable, Due to the residual air, the ball 10 may be damaged or not circulated smoothly due to the impact of the check valves 24 'and 25'.

The present invention is to solve the conventional problems as described above, the object of the present invention, the ball separating device and the ball storage tank and the forward and reverse to clean the fluid transport pipe installed in the condenser of the shell and tube type By improving the structure of the circulation pump and its circulation pipe, it is easier to manufacture and use than the conventional configuration, and it is possible to reduce the cost and maintenance cost according to the installation and production by optimizing the installation area and to efficiently transport the fluid. The present invention provides a fluid transport tube cleaning apparatus in a condenser that can clean the inner surface of the mold and can perform maintenance.

1 is a piping diagram showing a fluid transport tube cleaning apparatus in a conventional condenser;

Figure 2 is a piping diagram showing a fluid transport tube cleaning apparatus in the condenser according to the present invention,

3 is a view showing a state in which the ball is injected into the fluid transport pipe in the fluid transport pipe cleaning apparatus in the condenser according to the present invention,

4 is a view showing a state in which the ball is recovered in the ball separating apparatus according to the present invention,

5 is a view schematically showing the configuration of a ball storage tank according to the present invention,

6a to 6c is a schematic configuration diagram showing another embodiment of the ball separating apparatus shown in FIG.

7a to 7c is a schematic configuration diagram showing another embodiment of the circulation pump and the circulating fluid conduit according to the present invention,

8a to 8c is a schematic diagram showing another embodiment of the circulation pump and the circulation fluid conduit according to the present invention.

<Explanation of symbols for main parts of drawing>

1: pump 2: inlet pipe

3: Outlet tube 3 ': Inlet tube

5: ball outlet 6,6 ': outlet pipe

8: Ball Separator 10: Ball

11 condenser 12 fluid transport tube

12 ': working fluid flow path 13: cylindrical body

16, 16 ', 17, 17': circulating fluid conduit 18: fluid transfer conduit

19: fluid recovery conduit 24, 25, 44, 54: valve

24 ', 25': Check valve 27,28: Valve

30: ball storage tank 31: cylindrical bag body

35: ball opening 39: side glass

40: ball storage 42,45,45 ': circulation pump

a, b: Air pin 57: Ball discharge valve

71,72,73,74: Automatic open / close valve 75,76: Automatic selector valve

Features of the present invention for achieving the object as described above, the ball separation device is connected to the outlet pipe of the condenser for cleaning the fluid transport pipe in the condenser, and the fluid transfer conduit connected to the ball outlet of the ball separation device; The ball storage tank installed at the lower part of the intersection where the fluid recovery conduits intersect, the circulation pump connected to the ball storage tank to transfer and circulate the ball, and the circulation fluid conduit connected to the inflow pipe for introducing the fluid are sequentially connected. In the fluid transport pipe cleaning device, the ball separating device is mounted between the valve connected to the outlet pipe of the condenser and the valve connected to the fluid outlet pipe via both flanges thereof, and is installed in the longitudinal direction therein. At the rear end of the cylindrical body, a ball outlet is formed to guide the gathering and recovery of the ball. The ball storage tank is equipped with a discharge conduit provided with a ball inlet and a ball discharge valve on one side of an upper end thereof, and has a side glass and a ball storage unit for checking the state of the ball. A cylindrical bag for separating balls is provided, and a lower portion of the ball storage tank is provided with a fluid circulation passage connected by a flange, and the fluid circulation passage is provided with a circulation fluid conduit connected to the inlet pipe. A circulation pump for circulating the fluid for transferring the ball is provided between the circulation fluid conduits, and the circulation fluid conduit is provided with an automatic opening / closing valve for automatically opening and closing the flow path to control the flow of the fluid by the circulation pump. To control it.

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

First, as shown in Figure 2, the fluid transport pipe cleaning device in the condenser according to the present invention, one side of the condenser 11 is connected to the inlet pipe 2 through which the fluid is introduced by the operation of the pump (1) In the condenser 11, a plurality of fluid transport pipes 12 are provided in parallel so that fluid flows, and an outlet pipe 3 through which the fluid is discharged is provided on the other side of the condenser 11.

In addition, the inlet pipe 3 'of the ball separating device 8 is connected to the outlet pipe 3 of the condenser 11 via a valve 27, and the valve 28 is connected to the outlet pipe 6'. Is installed, the ball separating device 8 connected to the inlet pipe (2) for introducing the fluid and the outlet pipe (3) for discharging the fluid air pin (a) and the valve 25 for removing the internal air And a fluid transfer conduit 18 having a check valve 25 'and a fluid recovery conduit 19 having a valve 24 and a check valve 24' connected to each other.

The ball separating device 8 provided between the outlet pipe 3 and the fluid outlet pipe 6 includes a cylindrical body 13 formed of a punching net therein, and a rear end of the cylindrical body 13. The conical ball outlet 5 is hermetically connected to the fluid recovery conduit 19.

At the lower portion where the fluid transfer conduit 18 and the fluid recovery conduit 19 intersect, a cylindrical ball storage tank 30 as shown in FIG. 5 is provided via a valve 44. The ball storage The air inlet (b) is mounted on the upper end of the tank 30 and a ball inlet 35 is formed at one side thereof, and the ball storage unit 40 in which the ball 10 inserted through the ball inlet 35 is stored. ) And side glass 39 for measuring the state of the inserted ball 10 are provided.

In addition, a cylindrical bag 31 for separating the fluid and the ball 10 is attached to the lower portion of the ball reservoir 40, the ball discharge valve 57 is mounted on the discharge conduit 20 connected to one side thereof. It is.

A lower portion of the ball storage tank 30 is provided with a fluid circulation passage connected by a flange 43. The fluid circulation passage includes a circulating fluid conduit (16, 16 ') connected to the inlet pipe (2), (17, 17 ') are provided, and these circulating fluid conduits (16, 16') and (17, 17 ') automatically open and close valves (71, 72), (73, 74) for automatically opening and closing the flow path. And automatic switching valves (75, 76) are installed in accordance with the shape of the flow path to control the flow of the fluid and at the same time the circulation pump 45 for circulating the fluid conveying the ball (10) is installed.

6A to 6C show another embodiment of the above-described ball separating device, wherein the ball separating device 8 is a ball of a cylindrical body 13 provided in the longitudinal direction in the inlet pipe 3 '. The outlet 5 is directly connected to the side of the ball separating device 8 in a state in which the outlet 5 is inclined downward or horizontally, and the outlet pipe 6 'of the ball separating device 8 is the inlet pipe 3. ') Is formed in the same direction on the straight line or formed at a position perpendicular to the cylindrical body (13).

7A to 7C and 8A to 8C show another embodiment of a fluid circulation passage according to equipment and working conditions, wherein the fluid circulation passage is connected in parallel by using a forward pump. The automatic opening / closing valves 71, 72 and 73, 74 provided in the respective flow paths of the fluid conduits 16, 16 ', and 17, 17' are controlled or are provided at both ends of the connection part of each flow path. By controlling a pair of automatic switching valves 75 and 76, the direction of the fluid can be changed and circulated.

In addition, the fluid circulation passage has a pair of circulation pumps 45 and 45 'connected to each other in parallel or in series, and the automatic opening and closing valves 71 and 72 or the automatic switching valve 75 installed in the fluid circulation passage. It is possible to change the direction of the fluid circulating by.

Referring to the operational relationship of the fluid transport tube cleaning apparatus in the condenser of the present invention configured as described above is as follows.

3 and 4, the present invention opens the valves 27 and 28 provided between the outlet pipe 3 and the fluid outlet pipe 6, and the fluid transfer conduit 18 and the fluid recovery conduit. The pump 1 is operated in a state in which the valves 25 and 24 provided at 19 are opened to introduce fluid from the outside.

Accordingly, the fluid continues to flow through the inlet pipe 2 to the ball separating device 8 along the condenser 11 and the fluid transport pipe 12 installed in parallel in the plurality of condenser 11. In the fluid transport pipe 12 while the working fluid introduced through the head inlet 7 attached to the upper part of the condenser 11 is discharged to the head outlet 9 through the working fluid flow passage 12 '. The fluid flowing inside is discharged through the fluid outlet pipe 6 at the same time as the heat exchange takes place.

In addition, when the scale attached to the inner wall of the fluid transport pipe 12 is to be cleaned, the automatic opening / closing valves 71 and 72 are opened by a timer (not shown) and the circulation pump 45 is operated to operate the valve 54. ) Is open, the fluid flowing through the inlet pipe (2) is sucked by the suction pressure of the circulation pump (45).

This fluid is introduced into the ball storage tank 30 through the circulating fluid conduits 16 and 16 'and enters the ball storage unit 40 to push the ball 10 toward the conduits 18 and 19, and the ball ( 10) is opened by a check valve 25 'which is not moved by the check valve 24' installed in the fluid return conduit 19 and is directed to the condenser 11 installed in the fluid transfer conduit 18. After passing through the valve 25 and reaching the inside of the inlet pipe 2 through the fluid transfer conduit 18, the circulation pump 45 is stopped by a timer (not shown) and the automatic opening and closing valves 71 and 72 are provided. Will also be closed.

In the state in which the circulation pump 45 is stopped, the ball 10 reaching the inlet pipe 2 as shown in FIG. 3 is introduced into the condenser 11 by the fluid flowing in the inlet pipe 2. The ball 10 removes the scale attached to the inner wall surface of the fluid transport tube 12 while passing through the inner walls of the plurality of fluid transport tubes 12 installed in the condenser 11.

Thereafter, the liquid flows through the open valve 27 installed in the outlet pipe 3 and moves freely with the fluid to the ball separator 8, and the fluid introduced into the ball separator 8 is cylindrical. After being filtered through the vent formed in the upper body 13, it is discharged through the fluid outlet pipe 6.

As shown in FIG. 4, the ball 10 collected at the ball outlet 5 of the cylindrical body 13 installed inside the ball separating device 8 is automatically opened and closed by a set timer (not shown). When the valves 73 and 74 are opened and the circulation pump 45 is operated, the ball 10 is introduced into the fluid recovery conduit 19 through the ball outlet 5 by the suction force of the fluid, and the open valve ( 24 passes through the check valve 24 'which passes only in the direction of the ball storage tank 30, and then gathers into a cylindrical bag 31 provided in the ball storage portion 40, and at the same time, the circulation pump 45 ) Is stopped and the automatic opening and closing valves 73 and 74 are also closed.

The fluid flowing back according to the operation of the circulation pump 45 flows into the inlet pipe 2 along the circulating fluid conduits 17 and 17 'through the automatic opening and closing valves 73 and 74 opened by a timer (not shown). The circulation pump 45 may be driven periodically by adjusting a timer, and the flow of the fluid circulating in the ball 10 may be switched by automatic opening / closing valves 71, 72, and 73 and 74. You can do it.

In addition, the driving time of the circulation pump 45 and the operating time of the automatic opening and closing valves 71, 72, 73, 74 can be adjusted according to the circulation amount of the ball 10, and the driving time of the circulation pump 45 Since the circulation amount of the fluid and the inlet / outlet volume of the ball 10 change depending on the operation time of the automatic opening / closing valves 71, 72 and 73, 74, the fluid circulation amount is properly adjusted to separate the ball from the ball separating device 8. All the balls 10 can be recovered and accumulated in the ball storage tank 30.

Then, the driving time of the circulation pump 45 and the automatic opening / closing valves 71 and 72 by a timer (not shown) to properly control the amount of circulation of the fluid to discharge all the balls 10 accumulated in the ball storage tank 30. By appropriately adjusting the operation times of the (73) and (74), it is possible to effectively remove the scale attached to the fluid transport tube (12).

On the other hand, in order to completely recover the ball 10 from the ball separating device 8, the total cross-sectional area of the inner surface of the fluid transport pipe 12 of the condenser 11 and the outlet pipe 3 and the fluid outlet pipe 6 ), The cross-sectional area should be the same, and the flow of fluid should be stable.

In addition, there should be little pressure difference between the inner and outer cylindrical bodies 13 so that the ball 10 does not occur due to friction and adhesion to the wall surface of the cylindrical bodies 13, and the ball 10 has the best movement conditions and In order to maintain a stable flow of the fluid, the cross-sectional area of the inlet pipe (3 ') and the outlet pipe (6') of the ball separating device 8 is the same, the cross-sectional area of the cylindrical body 13 is made larger, the cylindrical body 13 The total vent cross-sectional area of s) should have at least 4 times more vents than the cross-sectional area of the inlet tube 3 '.

And, the ball outlet 5 of the cylindrical body 13 should be smooth in the assembly of the ball 10 by the flow of the fluid, the pressure in the fluid recovery conduit 19 is the outlet pipe by the operation of the circulation pump 45 Since sufficient vortex is formed when it becomes below the internal pressure of (6), the ball 10 can be collect | recovered completely from the ball separating apparatus 8.

As described above, according to the fluid transport tube cleaning apparatus in the condenser according to the present invention, a device for cleaning the fluid transport tube installed in the shell-and-tube type condenser, the structure of the ball separating device and the ball storage tank In addition to improving the circulation pump and the circulation pipe, there is an effect that can effectively clean and maintain the inner surface of the fluid transport pipe.

In addition, it is easy to manufacture and use as compared to the conventional configuration, the appearance is beautiful and the installation area can be minimized to reduce the cost and maintenance costs associated with the production and installation.

Claims (6)

The ball separator 8 connected to the outlet tube 3 of the condenser 11 and the ball outlet 5 of the ball separator 8 to clean the fluid transport tube 12 in the condenser 11. The ball storage tank 30 is installed at the lower portion of the intersection portion of the fluid transfer conduit 18 and the fluid recovery conduit 19 to be connected, and the ball 10 is connected to the ball storage tank 30 to transfer and circulate the ball 10. In the fluid transport pipe cleaning apparatus in the condenser is connected to the circulating pump and the circulating fluid conduit (16, 17) that is connected to the inlet pipe (2) for introducing the fluid, The ball separating device 8 is mounted between a valve 27 connected to the outlet pipe 3 of the condenser 11 and a valve 28 connected to the fluid outlet pipe 6 via both flanges thereof. At the rear end of the cylindrical body 13 installed in the longitudinal direction from the inlet pipe 3 ', a ball outlet 5 is formed to guide the collection and collection of the balls 10, and the fluid recovery conduit (the 19, which is airtightly connected, the ball outlet 5 is directly connected to the side of the ball separator 8 by a reduction tube, and the outlet pipe 6 'of the ball separator 8 is an inlet pipe ( 3 ') in the same direction on the straight line or formed at a position perpendicular to the cylindrical body 13, The ball storage tank 30 is equipped with a discharge conduit 20 provided with a ball inlet 35 and a ball discharge valve 57 on one side of an upper end thereof, and a side glass 39 for checking the state of the ball 10. And a ball storage unit 40, a cylindrical bag 31 for separating the fluid and the ball 10 is provided at the lower end of the side glass 39, The lower portion of the ball storage tank 30 is provided with a fluid circulation passage connected by a flange 43, the fluid circulation passage is provided with a circulating fluid conduit connected to the inlet pipe (2), these circulating fluid A circulation pump 45 is installed to circulate the fluid conveying the ball 10 between the conduits, The circulation fluid conduit is provided with an automatic opening and closing valve for automatically opening and closing the flow path to control the flow of the fluid by the circulation pump 45, characterized in that the fluid transport pipe cleaning apparatus in the condenser. delete 2. The automatic circulation valve according to claim 1, wherein the fluid circulation paths are provided in the respective flow paths of the circulation fluid conduits 16, 16 ', and 17, 17' connected in parallel. 74. A fluid transport tube cleaning device in a condenser, characterized in that the fluid is changed and circulated by controlling 74). 2. The pair of automatic switching valves (75) according to claim 1, wherein the fluid circulation path is provided at both ends of the connection portions of the circulation fluid conduits (16, 16 ') and (17, 17') connected in parallel. 76. A fluid transport tube cleaning apparatus in a condenser, characterized in that the fluid is switched to circulate by controlling the fluid. The fluid circulation passage of claim 1, wherein the fluid circulation passage has circulation fluid conduits (16, 16 '), (17, 17') connected in parallel, and one end of the circulation fluid conduit (17) is directly connected to the fluid outlet pipe ( 6) A fluid transport pipe cleaning device in a condenser, characterized in that it is connected to and so as not to be affected by the heat exchanged fluid. 2. The fluid circulation passage of claim 1, wherein the fluid circulation passage has a pair of circulation pumps 45 and 45 'connected to each other in parallel or in series, and the automatic switching valves 71 and 72 or the automatic switching provided in the fluid circulation passage. A device for cleaning a fluid transport pipe in a condenser, wherein the direction of the fluid circulated by the valve 75 can be changed.