KR200227922Y1 - A cleaning apparatus of fluid transport pipe in a condenser - Google Patents

Abstract

The present invention relates to a device for cleaning a fluid transport tube in a condenser, and more specifically, to clean a fluid transport tube installed in a condenser of a shell end tube type, the ball separation tube is simpler than a conventional configuration. Cylindrical sieve can be installed in both the fluid outlet pipe and the ball separation pipe to be used, and the compressor and the fluid storage part used in the past can be removed and the ball storage tank can be installed and simplified to clean the fluid transport pipe according to the installation. It saves time and money according to the installation cost and maintenance, and checks the flow rate of the ball stored in the ball storage tank on a scale, and operates the circulation pump periodically by the setting timer to clean the fluid transportation pipe. Oil that transports the fluid by naturally circulating the ball by the fluid circulating through the fluid inlet pipe Fluid within the pipeline, which can effectively clean and maintain the inner surface of pipelines condensers relates to a cleaning device.

The present invention is provided with a plurality of fluid transport pipes 12 in parallel for transporting fluid inside the condenser 11 connected to the inflow pipe 2 through which the fluid flows, and the outlet pipe of the condenser 11 ( The valve 27 is directly connected to 3) and connected to the outlet pipe 6 of the fluid discharging the fluid, and the valve 28 is installed on the right side, and the fluid is discharged from the inlet pipe 2 through which the fluid is introduced. A fluid transfer conduit 18 and a fluid recovery conduit 19 are installed in the outlet pipe 3, and a valve 25 and a check valve 25 ′ are installed in the flow path of the fluid transfer conduit 18. In the flow path of the fluid recovery conduit 19, a check valve 24 ′ and a valve 24 are provided. The cylindrical body 13 is disposed between the outlet pipe 3 and the fluid outlet pipe 6. And the ball separation pipe which is formed through the end of the cylindrical body 13 in a streamlined form so that the ball outlet 5 through which the inlet is narrowed is sealed to the fluid recovery conduit 19. 8) is installed, the ball storage unit for storing the ball 10 injected through the inlet 35 connected by the flange 44 at the lower portion where the fluid transfer conduit 18 and the fluid recovery conduit 19 intersect. Side glass 39 for measuring the amount of the 40 and the ball 10 is formed and a cylindrical ball storage tank 30 having a sieve 31 separating the fluid and the ball 10 is installed at the bottom thereof. And a filter for removing the scale removed from the fluid transport pipe 12 between the conduits 16 connected to the lower portion of the ball storage tank 30 by a flange 43 and communicating with the inflow pipe 2 ( 41, the circulation pump 42 for circulating the fluid for conveying the ball 10, and the valve 54 for opening and closing the flow path of the conduit 16 are characterized in that the seal is provided.

Description

A cleaning apparatus of fluid transport pipe in a condenser

The present invention relates to a device for cleaning a fluid transport tube in a condenser, and more specifically, to clean a fluid transport tube installed in a condenser of a shell end tube type, the ball separation tube is simpler than a conventional configuration. Cylindrical sieve can be installed in the fluid outlet tube and the ball separation tube to be used together, and the compressor and the fluid storage part used in the past, and the ball storage tank is installed and simplified to clean the fluid transport pipe by installing according to the installation It saves time and money according to cost and maintenance, and checks the flow rate of the ball stored in the ball storage tank with a scale, and transfers the ball to clean the fluid transport pipe by operating the circulation pump periodically by the setting timer. To circulate the fluid naturally by the fluid circulating through the fluid inlet pipe Fluid within the pipeline, which can effectively clean and maintain the inner surface of pipelines condensers relates to a cleaning device.

When the scale is attached to the inner surface of the fluid transport tube installed in the conventionally known condenser, the capacitor is dismantled or disassembled to remove it. However, to solve the problem, a sponge is provided in the condenser where the fluid transport pipe is installed. A technique for removing a scale attached to a fluid transport tube by introducing a ball manufactured by using a ball, etc., is disclosed in U.S. Patent Nos. 3,919,372 (1975, 11,15) and JP-A-63-238397 (1988, 10.4 publication), US Pat. No. 4,865,21 (1989,9,12) and others are known.

In addition, as a cleaning device for removing the scale attached to the inner wall of the fluid transport pipe installed in the condenser, known as Korean Patent Application Publication No. 96-706061 (published on 1996, 11, 8) of the domestic international patent application, shown in FIG. As shown, a condenser 11 is connected to the inlet pipe 2 through which the fluid is introduced by the pump 1. Inside the condenser 11, a fluid transport tube 12 installed in parallel with a plurality of fluids flowing therein, and a working fluid flow path 12 'through which a fluid such as steam or cooling gas (hereinafter referred to as a' working fluid ') flows The other side of the condenser 11 is provided with a valve 21 is provided with an outlet pipe 3 for discharging the fluid.

The upper part of the outlet tube 3 is provided with a ball separation tube 14 having a cylindrical sieve 13 formed therein so as to communicate with each other and the ball separation tube 14 communicating with the inlet of the outlet tube 3. At the outlet, valves 22 and 23 are installed, and at the other central portion of the ball separation tube 14, the valve 24 and the check are arranged in the middle of the ball storage unit 36, which is guided to the fluid storage device 36. A conduit 15 having a valve 24 'is installed, and a conduit 16 having a valve 25 and a check valve 25' is branched under the inflow pipe 2 through which fluid is introduced. Under the conduit where the 15 and the conduit 16 intersect, a fluid is filled in the bottom, a sieve 31 for filtering the ball 10 is installed in the upper part, and a fluid storage part 32 in which the fluid is stored in the lower part. The fluid storage device 36 is provided with a recovery part 34 serving as a ball storage part on the upper part of the sieve 31 in which the tube 33 is formed, and an inlet 35 through which the ball 10 is introduced. doxy It is

A compressor 37 for supplying compressed air is connected to one side of the fluid storage device 36 by an air pipe 38 in which an automatic valve 26 is installed, and on the other side of the fluid storage device 36, a fluid storage device. A pressure reducing device 39, which is an automatic valve for reducing the compressed air supplied to the 36, is connected to the drain 4.

The action of Korean Patent Application Publication No. 96-706061 (1996, 11, 8 publication) of the domestic international patent application configured as described above is a fluid transport pipe 12 is provided in parallel in the interior of the condenser 11 In order to clean the inner wall of the pump, the pump 1 is operated to close the valve 21 installed in the outlet pipe 3 while the fluid continues to flow, and the valve 22 installed at the inlet of the ball separation pipe 14. ) And the outlet valve 23 are opened, and the valves 24 and 25 provided in the conduit 15 and the conduit 16 are opened, and the timer (not shown) connected to the air pipe 38 is When the automatic valve 26 is opened by the setting, when the air compressed and stored in the compressor 37 is supplied to the fluid storage device 36, the fluid storage unit 32 of the fluid storage device 36 is stored. When the fluid moves upward through the pipe 33 by the pressure of the air supplied from the compressor 37 The ball 10 on the upper surface of the sieve 31 installed on the upper part of the male part 34 passes through the check valve 25 'and the conduit 16 in which the valve 25 is opened. ) Is automatically closed so that the compressed air applied to the fluid storage device 36 is stopped and the ball 10 reaches the inlet pipe 2.

As described above, the ball 10 reaching the inlet pipe 2 is the condenser 11 due to the flow pressure of the fluid in which the ball 10 is introduced into the condenser 11 by the flow force through which the fluid flows. After passing through the inner wall of each of the fluid transport pipes 12 installed in parallel therein, the ball 10 is removed from the scale attached to the inner wall of the fluid transport pipe 12, and then the valve is installed in the outlet pipe 3. Since the ball 21 is closed, the ball 10 is introduced into the ball separation tube 14 through the valve 22 opened together with the fluid, and the fluid introduced into the ball separation tube 14 is cylindrical body 13. After being filtered through the vent formed in the passage passing through the open valve 23 is passed through the outlet pipe (3).

In this way, the fluid is filtered through the vent formed in the cylindrical sieve 13 and then passed through the open valve 23 and then discharged through the outlet tube 3, while the fluid is formed in the cylindrical sieve 13 The ball 10 gathered at the inlet of the conduit 15 provided in the middle of the ball separation pipe 14 by the base has a pressure reducing device 39 which is an automatic valve installed on the other side of the fluid storage device 36. When the pressure in the fluid storage device 36 is reduced by the drain 4, the balls 10 gathered at the inlet of the conduit 15 are separated by the pressure difference between the ball separation pipe 14 and the conduit 15. 10 is collected through the valve 24 and the check valve 24 'opened through the conduit 15 and flows into the fluid storage device 36 and is collected in the ball storage on the upper surface of the sieve 31. By the ball 10, the scale attached to the inner wall of the fluid transport pipe 12 installed inside the condenser 11 is obtained. It will be removed.

However, in the cleaning system for cleaning the inside of the fluid transport pipe which is installed in parallel in the condenser, a conduit 15 having a diameter smaller than the diameter of the ball separation pipe 14 is provided at the center of the ball separation pipe 14. Because it is installed, there is a problem that does not take appropriate measures to change the gathering of the ball 10 according to the fluid and the ball 10 is not continuously collected, so that the ball 10 is damaged and lost a lot, and fluid storage The ball 10 accumulated in the upper part of the sieve 31 installed in the device 36 is transferred to the fluid storage part 32 in which fluid is stored to sufficiently recover the ball 10 from the ball separation tube 14. Due to this, not only the volume of the fluid storage device 36 is increased, but also the fluid and the ball 10 accumulated in the upper part of the sieve 31 are transferred to the fluid transport pipe 12 installed in the condenser 11. To increase the main pressure in the fluid reservoir 36 Since the compressor (37) consisting of the engine (38) and the automatic valve (26) and the pressure reducing device (39), which is an automatic valve for reducing the pressure of the compressor (37), must be provided, the ball (10) is a fluid storage device. In order to reduce the pressure inside the fluid storage device 36 to recover the fluid, a considerable amount of fluid must be discharged to the wastewater through the drain 4, and the fluid storage device 36 for injection of the ball 10 is discharged. Difficulties in practical use due to the additional equipment of the compressor 37 for supplying the compressed air therein, and attached to the inner wall of the fluid transport pipe 12 due to the limited injection and recovery rate of the ball with a limited capacity of the fluid storage device 36 There was a problem that the efficiency of removing the scale has been reduced.

In order to solve the above problems, the present invention is simpler than the conventional configuration in order to clean the fluid transport pipe installed in the shell end tube type condenser, and a cylindrical sieve is installed in the ball separation tube to discharge the fluid. It can be used as both a pipe and a pipe separating tube, and it removes the compressor and the fluid storage part used in the past and installs and simplifies the ball storage tank to clean the fluid transport pipe. While reducing the cost, it is possible to check the flow rate of the ball stored in the ball storage tank with the scale.The ball stored in the ball storage tank is operated by the circulating pump by the set timer to send the ball to the inflow pipe and then to the inflow pipe. Natural circulation by the fluid flowing through the ball to clean the fluid transport pipe by the ball and gathered in the ball outlet In order to recover the ball to the ball storage tank, the circulation pump is rotated in reverse to reduce the pressure in the conduit.The ball is recovered to the ball storage tank through the conduit by the pressure difference, and the circulation pump is operated periodically to clean the fluid transport pipe. The technical problem is to allow the ball to be naturally circulated by the fluid circulating through the fluid inlet pipe so as to efficiently clean and maintain the inner surface of the fluid transport pipe transporting the fluid.

In order to solve the above technical problem, the present invention provides a plurality of fluid transport pipes in parallel for transporting a fluid inside a condenser connected to an inflow pipe through which fluid flows, and a valve is directly connected to an outlet pipe of the condenser. Installed and connected to the outlet pipe of the fluid discharging fluid, the valve is installed on the right side, the fluid inlet pipe and the fluid discharge conduit is installed in communication with the inlet pipe for injecting the fluid and the outlet pipe for discharging the fluid, the fluid A valve and a check valve are installed in the flow path of the transfer conduit, and a check valve and a valve are installed in the flow path of the fluid recovery conduit. Between the outlet pipe and the fluid outlet pipe, the end of the cylindrical body and the cylindrical body is disposed inside. The ball separation pipe is formed in a streamlined shape and the ball outlet through which the inlet is narrowed is installed to be sealed to the fluid recovery conduit. At the bottom where the pipe and the fluid recovery conduit intersect, a ball storage unit for storing the ball injected through the inlet connected by the flange and a side glass for measuring the amount of the ball are formed. A cylindrical ball storage tank is installed, and a filter for removing the scale removed from the fluid transport pipe and a fluid for transporting the ball between the conduits connected to the lower portion of the ball storage tank by a flange and communicating with the inlet pipe. It is characterized in that the circulation pump to be made, and the valve for opening and closing the flow path of the conduit are installed in a closed type.

1 is a cross-sectional view of a fluid transport tube cleaning apparatus in a conventional condenser.

Figure 2 is a cross-sectional view of the fluid transport pipe cleaning device in the condenser of the present invention.

3 is a functional diagram showing a cleaning process in which the fluid transport pipe in the condenser of the present invention is cleaned by a ball.

Figure 4 is a functional diagram showing the process of recovery of the ball in the ball separation tube according to the present invention.

5 is a cross-sectional view of another embodiment in which the conduit shown in FIG. 2 is in communication with a fluid outlet pipe from a circulation pump.

6 is an installation state of another embodiment of the circulation pump installed in the lower part of the ball storage tank of the present invention.

<Explanation of symbols for main parts of drawing>

1 pump 2 inlet pipe 3 outlet pipe

3 ': fluid outlet pipe 5: ball outlet 6: fluid outlet pipe

8 ball separation tube 10 ball 11 condenser

12: fluid transport pipe 12 ': working fluid flow path 13: cylindrical sieve

16 conduit 18 fluid transfer conduit 19 fluid recovery conduit

24,25: Valve 24 ', 25': Check valve 27.28.54: Valve

30: ball storage tank 31: sieve 35: inlet

39: side glass 40: ball storage 41: filter

42: circulation pump 43,44: flange

The present invention for achieving the above object will be described with reference to FIGS. 2 to 6.

Figure 2 shows a cross-sectional view of the fluid transport tube cleaning device in the condenser of the present invention, Figure 3 is a functional diagram showing the cleaning process by the fluid transport pipe in the condenser of the present invention by the ball, Figure 4 is a present invention FIG. 5 is a cross-sectional view of another embodiment in which a conduit shown in FIG. 2 is connected to a fluid outlet pipe from a circulation pump, and FIG. The installation state diagram of the other embodiment of the circulation pump installed in the lower part of the ball storage tank of the invention is shown, and 42A and 42B are circulation pumps which circulate a fluid, and 45A and 45B represent a switching valve.

Fluid transport tube cleaning device in the condenser according to the present invention, as shown in Figure 2, the fluid transport installed in parallel with a plurality of fluid flowing inside the condenser 11 connected to the inlet pipe 2 through which the fluid is introduced On the other side of the pipe 12 and the condenser 11, a valve 21 is provided and an outlet pipe 3 through which the fluid is discharged.

A valve 27 is installed directly on the outlet pipe 3 of the condenser 11 and a fluid outlet pipe 3 'for discharging the fluid, and a valve 28 is installed on the right side of the condenser 11, and an inlet pipe for inflowing the fluid is provided. (2) and a flow path communicating with the outlet pipe (3) for discharging the fluid, and a check valve in the flow path of the fluid transfer conduit (18) and the fluid recovery conduit (19) provided with the valve (25) and the check valve (25 '). 24 'and valve 24 are installed, which is similar to the conventional configuration.

Further, between the outlet pipe 3 and the fluid outlet pipe 6, the cylindrical body 13 and the end portion of the cylindrical body 13, which are formed in a net inside, are formed in a streamline, so that the inlet is narrowed. ) Is installed in the ball separation pipe (8) which is installed to be sealed to the fluid recovery conduit (19), the outlet of the ball outlet (5) is connected to the cylindrical body 13 in a flexible curve to efficiently the ball (10) It can be installed so that the position can be adjusted up, down, middle as needed to send.

The lower portion of the fluid transfer conduit 18 and the fluid recovery conduit 19 intersects with a cylindrical ball storage tank 30 by a connecting flange 44, and the ball storage tank 30 is an inlet 35. Ball storage unit 40 and the side glass (39) for measuring the amount of the ball 10 is stored is formed through the ball storage unit 40 is stored through the ball storage unit 40, the fluid and the ball ( 10) A sieve 31 for separating is attached.

The scale removed from the fluid transport tube 12 is removed between the conduit 16 connected to the inlet pipe 2 through which the fluid is introduced and connected to the lower portion of the ball storage tank 30 by the flange 43. Filter 41 and a circulation pump 42 which is automatically operated by a timer (not shown) to circulate the fluid forward and backward, and is installed to open and close the flow path of the conduit 16. The valve 54 is provided, the flow path of the conduit 16 is connected to the lower portion of the ball storage tank 30 by a flange 43 as shown in Figure 5 to discharge the fluid Can be used in connection with the fluid discharge pipe 6, the valve 54 and the circulation pump 42 for opening and closing the flow path of the conduit 16 may be installed and used in various forms as shown in FIG.

Referring to Figures 2 to 6 the relationship between the operation of the fluid transport pipe cleaning device in the condenser of the present invention is configured as described above is as follows.

The present invention opens the valve 27 and the valve 28 provided between the outlet pipe (3) and the fluid outlet pipe (6) and is installed in the fluid transfer conduit (18) and the fluid recovery conduit (19) valve ( 25) (24), the fluid flowing in from the outside through the inlet pipe (2), the fluid transport pipe 12 is installed in a plurality of parallel to the condenser (11) and the condenser (11) The working fluid introduced through the head inlet 7 attached to the upper portion of the condenser 11 in the state of continuously flowing through the ball separation tube 8 through the head outlet 9 through the working fluid flow passage 12 '. During the discharge, the fluid flowing in the plurality of fluid transport pipes 12 installed in the condenser 11 is heat-exchanged and is discharged through the fluid outlet pipe 6.

In addition, when the fluid is continuously flowing to the fluid transport pipe 12 provided in parallel in the condenser 11, the scale attached to the inner wall of the fluid transport pipe 12 is not shown. When the circulation pump 42 is rotated in the forward direction by a timer that is not operated, the valve 54 is opened, and the fluid flowing through the inlet pipe 2 is filtered by the suction pressure of the circulation pump 42. After passing through 41, the fluid flows into the ball storage tank 30 and flows into the ball storage portion 40 and pushes the ball 10 toward the conduits 18 and 19 so that the ball 10 is a fluid recovery conduit ( 19) through the check valve 25 'and the open valve 25, which are not moved by the check valve 24' installed in the unit and are directed to the condenser 11 connected to the fluid transfer conduit 18. After reaching the inside of the inlet pipe (2) through the fluid transfer conduit (18) in the forward direction Rotating circulation pump 42 is stopped.

As shown in FIG. 3 in the state where the circulation pump 42 is stopped, the ball 10 reaching the inlet pipe 2 is condensed by a flow of fluid flowing along the inside of the inlet pipe 2. (11) When introduced into the ball 10 is passed through the inner wall of the plurality of fluid transport pipe 12 installed in the condenser 11, the ball 10 is attached to the inner wall surface of the fluid transport pipe 12 After the scale is removed, the ball 10 is naturally flowed into the ball separation pipe 8 together with the fluid after passing through the open valve 27 installed in the outlet pipe 3, and the ball separation pipe 8 The fluid introduced into) is filtered through the vent formed in the cylindrical body 13 and then discharged through the fluid outlet pipe 6.

And. As shown in FIG. 4, the balls 10 gathered at the ball outlet 5 of the cylindrical sieve 13 installed inside the ball separation tube 8 are circulated by a timer (not shown). 42, the ball 10 is naturally introduced into the fluid recovery conduit 19 through the ball outlet (5) formed in a streamline by the suction force of the fluid flowing into the fluid recovery conduit 19, The ball 10 introduced into the fluid recovery conduit 19 by the suction force of the circulation pump 42 passes through the check valve 24 ′ which communicates with the open valve 24 in one direction, and then the ball storage part 40. It collects in the sieve 31 provided in the inside.

The scale mixed with the fluid flowing back by the reverse rotation of the circulation pump 42 is filtered by the filter 41, and the fluid filtered by the filter 41 moves to the inlet pipe 2 through the conduit 16. After being circulated to the condenser 11 and passing through the open valve 27 installed in the outlet pipe 3, the ball flows naturally into the ball separation tube 8, and the fluid introduced into the ball separation tube 8 is introduced. It is discharged through the fluid outlet pipe 6 through the vent formed in the cylindrical body 13.

In addition, the circulation pump 42 is driven periodically by setting a timer (not shown), and the flow of the fluid circulating in the ball 10 is switched by the circulation pump 42 to be switched in and out, and also the circulation pump 42. Drive time can be adjusted according to the accumulation amount of the ball 10, the discharge amount of the fluid and the discharge amount of the ball 10 is changed according to the driving time of the circulation pump 42, the circulation pump 42 By adjusting the amount of rotation of the circulation pump 42, the inflow amount of the fluid is appropriately adjusted to recover all the balls 10 separated from the ball separation tube 8 to accumulate in the ball storage tank 30 By appropriately adjusting the discharge amount of the fluid to discharge all the balls 10 accumulated in the ball storage tank 30 by a timer (not shown) to properly adjust the driving time of the circulation pump 42 to the fluid transport pipe 12 The scale attached to) can be removed.

In addition, when the ball storage tank 30, the filter 41 and the circulation pump 42 are repaired and repaired, the valves 24 and 25 'attached to the fluid transfer conduit 18 and the fluid recovery conduit 19 are provided. ) And the valve 54 attached to the conduit 16 to close the fluid flowing through the inlet pipe 2 so as not to enter the ball storage tank 30, the filter 41 and the circulation pump 42. After that, the ball storage tank 30, the filter 41 and the circulation pump 42 are repaired and repaired, and the air vent of the cylindrical sieve 13 installed in the ball separation pipe 8 is blocked or due to other circumstances. When repairing and repairing the ball separation pipe 8, the outlet pipe 3 and the fluid outlet pipe 6 so that the fluid flowing through the inlet pipe 2 does not flow into the ball separation pipe 8 and the fluid outlet pipe 6. After closing the valve 27 and the valve 28 attached to the), the ball separation tube 8 attached by the flanges at both ends can be separated to clean and repair the cylindrical body 13.

In addition, in order to completely recover the ball 10 from the ball separation pipe 8, the ball separation pipe 8 is first, the cross-sectional area of the inner surface of the fluid transport pipe 12 and the outlet pipe (3) of the condenser (11) ) And the flow of the fluid is stabilized by equalizing the cross-sectional area of the fluid outlet pipe (6), and second, the ball (10) is the wall surface of the cylindrical body (13) so that there is almost no pressure difference inside and outside the cylindrical body (13). The inlet pipe (3) of the ball separation pipe (8) is not attached to and worn, and the ball (10) in order to maintain the best movement conditions and the stable flow of the fluid according to the fluid and the flow of the fluid circulating the ball (10) ) And the outlet pipe (3) have the same cross-sectional area, the cross-sectional area of the cylindrical sieve 13 is larger, and the total opening area of the cylindrical sieve 13 is two to four times larger than the cross-sectional area of the cylindrical sieve 13 with sufficient pores. Third, the ball outlet (5) is the installation direction according to the assembly of the ball 10 by the flow of working fluid or fluid It can be installed in the middle, lower and lower, and when the pressure in the fluid recovery conduit 19 becomes less than the internal pressure of the outlet pipe 16 by the operation of the circulation pump 42, sufficient vortex is formed and the ball is separated from the ball separation pipe 8. (10) can be recovered completely.

In the circulation pump 42, the amount of the ball 10 collected and accumulated and the amount discharged by the injection are controlled by the inflow amount and the discharge amount of the fluid conveying the ball 10 as described above. It is controlled by a timer, and the fluid circulated by the rotation of the circulation pump 42 changes the movement of the ball 10 according to the flow rate and pressure, so that the ball gathers in the ball separation tube 8, the ball movement, the ball According to conditions such as turbulence formation around the outlet, recovery of balls, and the like, the circulation pump 42 may be operated by appropriately adjusting the time of a timer (not shown) to adjust the flow of fluid.

As described above, the present invention is simpler than the conventional configuration in order to clean the fluid transport tube installed in the condenser of the shell end tube type, and a cylindrical sieve is installed in the ball separation tube to separate the outlet pipe and the ball. It can be used as a pipe, and it can reduce the installation cost and maintenance time and cost to clean the fluid transport pipe by removing the compressor and the fluid storage part and using the ball storage tank. The flow rate of the ball stored in the ball storage tank can be checked with a scale, and the ball stored in the ball storage tank is periodically operated by circulating pump by setting the timer to send the ball to the inlet pipe and then through the inlet pipe. Naturally circulates by flowing fluid, cleans the fluid transport pipe by the ball, and then stores the ball collected in the ball outlet. In order to recover to the tank, the circulation pump is reversed to reduce the pressure in the conduit, and the ball is recovered to the ball storage tank through the conduit due to the pressure difference, and the ball that cleans the fluid transport pipe by periodically operating the circulation pump is introduced into the fluid. The natural circulation of the ball by the fluid circulating through the pipe has the effect of efficiently cleaning and maintaining the inner surface of the fluid transport pipe transporting the fluid.

Claims (1)

A plurality of fluid transport pipes 12 in parallel for transporting fluid are installed in the condenser 11 connected to the inflow pipe 2 through which the fluid flows. A valve 27 is installed directly connected to the outlet pipe 3 of the condenser 11 and is connected to the outlet pipe 4 of the fluid discharging the fluid, and a valve 28 is installed on the right side. A fluid transfer conduit 18 and a fluid recovery conduit 19 are installed in communication with the inlet pipe 2 for introducing the fluid and the outlet pipe 3 for discharging the fluid. In the flow path of the fluid transfer conduit 18, a valve 25 and a check valve 25 'are provided, and in the flow path of the fluid recovery conduit 19, a check valve 24' and a valve 24 are provided. , Between the outlet pipe (3) and the fluid outlet pipe (6) is formed inside the end of the cylindrical body 13 and the cylindrical body 13 in a streamlined ball outlet (5) narrowing the inlet fluid recovery conduit Ball separation pipe (8) which is installed in a hermetic seal (19) is installed, Ball storage unit 40 and the ball (40) is stored in the ball 10 is injected through the inlet 35 connected by the flange 44 at the lower portion where the fluid transfer conduit 18 and the fluid recovery conduit 19 intersects ( A side glass 39 for measuring the amount of 10 is formed and a cylindrical ball storage tank 30 having a sieve 31 separating the fluid and the ball 10 is installed at the bottom thereof. The filter 41 is connected to the lower portion of the ball storage tank 30 by a flange 43 to remove the scale removed from the fluid transport pipe 12 between the conduits 16 communicating with the inlet pipe 2. And a circulating pump 42 for circulating the fluid conveying the ball 10, and a valve 54 for opening and closing the flow path of the conduit 16, which is installed in a sealed manner. Device