KR20030055238A - Apparatus for automatically cleaning tube of heat exchanger using pump - Google Patents

Abstract

PURPOSE: An apparatus for automatically cleaning a tube of a heat exchanger using a pump is provided to simplify structure of tube near a cleaner inputting pump and an electronic valve. CONSTITUTION: A heat exchanger(2), a fluid inlet pipe(1) connected with an inlet side of the heat exchanger, a fluid circulation pump(14) placed on the fluid inlet pipe, a cleaning body separator(3) connected to an outlet side of the heat exchanger, and a fluid outlet pipe(5) connected with a fluid outlet of the cleaning body separator are connected with each other in series. A cleaning body skimmer(7) is installed between a cleaning body input pipe(9) branched from the fluid inlet pipe on the inlet side of the heat exchanger and a cleaning body recovery pipe(8) connected with a cleaning body outlet of the cleaning body separator to be installed parallel with the heat exchanger through the cleaning body input pipe and the cleaning body recovery pipe. Check valves(23) are installed on the cleaning body input pipe and the cleaning body recovery pipe on both sides of the cleaning body skimmer. A pipe in which only fluid flows by a screen(17) in the cleaning body skimmer is extended from a lower part of the cleaning body skimmer, and is branched into a cleaning body returning fluid inlet pipe(10) connected with the fluid inlet pipe between the heat exchanger and the fluid circulation pipe, and a cleaning body returning fluid recovery pipe(11) connected with the fluid inlet pipe on a suction side of the fluid circulation pipe.

Description

Heat exchanger tube automatic cleaning device using pump {omitted}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an internal tube automatic cleaning device for a shell & tube type heat exchanger.

Conventionally, shell & tube type heat exchangers in which a plurality of tubes are arranged inside a cell have been used in a refrigerating device or a chemical plant. Most of the fluids used as heat medium in this type of heat exchanger are used in the cooling tower. When the heat exchanger is used for a long time, foreign substances such as microorganisms and dust in the air flow into the fluid, and they accumulate on the inner surface of the heat exchanger tube to form deposits such as scale and slime, thereby degrading heat exchanger performance and shortening the lifespan. There is a problem such as this, it is necessary to clean these deposits regularly.

Conventionally, there is a heat exchanger tube cleaning method for removing deposits on the inner wall of a tube by forcibly passing it by a fluid flow in the tube using a cleaning body such as a sponge ball. The conventional heat exchanger tube scrubber using the sponge ball as a scrubbing body separates the fluid from the scrubber in a scrubber separator equipped with a coolant including a scrubbing body which passes through the heat exchanger and is discharged from the heat exchanger outlet. The scrubber was sent to the process and the scrubber was stored in the scrubber collector and forced into the fluid inlet conduit at the heat exchanger inlet by a fluid machine such as a pump or a compressor.

However, in the conventional heat exchanger tube scrubber, one pump or compressor functions to inject the scrubber to the heat exchanger inlet side and to recover the scrubber from the scrubber separator installed at the heat exchanger outlet side, thereby increasing the pump capacity. In addition, the pipe configuration around the pump or compressor is complicated, there is a lot of difficulties in the maintenance of the device, and also has a disadvantage in that the operating time of the pump or compressor is long, the power consumption is high.

Another conventional apparatus is a heat exchanger tube automatic cleaning device using a venturi tube, as shown in FIG. 1.

Looking at the heat exchanger tube automatic cleaning device using the venturi tube in more detail as follows.

In a heat exchanger in which a cooled fluid flows in a shell side and a cooling fluid flows in a tube, as in a shell & tube type heat exchanger, a cleaning body around the heat exchanger and at the inlet side of the heat exchanger. A feeding venturi is installed, a cleaning body recovery venturi tube is installed on the outlet side, and a cleaning body separator provided with a cleaning body holder is installed on the outlet side of the cleaning body recovery venturi tube, and the cleaning body holder is a cleaning body. The holding fluid recovery conduit is installed in communication with the cleaning body recovery venturi tube, and the cleaning body separator is installed in communication with the cleaning body recoverer through the cleaning body recovery conduit. The cleaning body recoverer is installed in communication with the cleaning body input venturi tube, the cleaning body return venturi tube, and the fluid inlet conduit through the cleaning body inlet conduit, cleaning body conveying fluid return conduit, and cleaning body conveying fluid inlet conduit. The cleaning body introduction conduit, cleaning body return conduit, cleaning body return fluid inlet conduit, cleaning body return fluid return conduit, and cleaning body holder fluid return conduit are each provided with solenoid valves. The solenoid valve installed in the cleaning body injection conduit and the cleaning body recovery conduit may be replaced by a check valve.

The scrubber separator was installed in the shape of a sieve in a conical slant and arranged in the same direction as the fluid inlet and the fluid outlet to minimize the pressure loss due to the vortex of the fluid by reducing the direction change when the fluid passes through the sieve. The cleaning body separator further includes a cleaning body holder to immediately suck the cleaning body separated from the cleaning body separator into the cleaning body holder to prevent the cleaning body from stagnation in the sieve of the cleaning body separator, thereby generating resistance to the fluid passing through the sieve. The urea was removed, and the structure was able to prevent the wear of the cleaning body caused by friction between the cleaning body and the sieve.

A cleaning body introduction conduit and a cleaning body return fluid return conduit are provided in communication with the cleaning body introduction venturi tube and the cleaning body return venturi tube, and the cleaning body return conduit, the cleaning input conduit, the cleaning body return fluid inlet conduit, and the three A solenoid valve is provided in each of the flow paths of the stagnant return fluid recovery conduit and the cleaner holder fluid recovery conduit, and the solenoid valves are controlled by a control panel not shown.

The cleaning body recovery device is installed between the cleaning body return conduit and the cleaning body inlet conduit. The cleaning body recovery device is provided with a cleaning body recovery body therein, and an upper cover is provided with a sight glass to flow the cleaning body. It is possible to observe the degree of wear and wear, and also the upper cover has a structure that can be easily removable, so that the structure can be easily replaced when the cleaning body is worn.

Referring to the operation of the heat exchanger tube automatic cleaning device using a venturi tube having the configuration as described above are as follows. First, the process of inserting the cleaning liquid into the fluid inlet conduit will be described. With the manual ball valves all open and the solenoid valves closed, open the upper cover of the cleaning body returner and insert the appropriate number of cleaning materials. After closing, each solenoid valve installed in the cleaning body introduction conduit, the cleaning body conveying fluid inflow conduit, and the cleaning body holder fluid return conduit is opened by a control panel (not shown). The suction force of the feeding venturi tube flows into the cleaning body conveying fluid inlet conduit, and then flows into the cleaning body inlet venturi tube through the cleaning body collector and the cleaning body inlet conduit, and the cleaning body stored in the cleaning body collector is conveyed. It enters the heat exchanger with the fluid. The scrubbing body is swept by the fluid flowing through the fluid inlet conduit and passes through the heat exchanger to remove deposits, such as scales and slime, attached to the inner wall of the tube. The cleaning body passed through the heat exchanger is separated from the fluid and the cleaning body by a conical body installed inclined to the fluid flow direction in the cleaning body separator, and the fluid is transferred to the next process through the fluid outflow conduit, and the cleaning body is used for the cleaning body recovery. Due to the suction force of the venturi tube, it does not stay in the washing body separator and immediately enters the cleaning body holder to be temporarily stopped.

Next, the cleaning body recovery process will be described. Once the cleaning body is introduced into the heat exchanger, the control panel (not shown) is installed in the cleaning body input conduit, the cleaning medium return fluid inlet conduit, and the cleaning body holding fluid recovery conduit. Close each open solenoid valve and open each solenoid valve installed in the cleaning body return conduit and cleaning body return fluid return conduit. When the solenoid valve installed in the cleaning body fluid return conduit is closed and the solenoid valves installed in the cleaning body return conduit and the cleaning body return fluid return conduit are opened, it was temporarily suspended in the cleaning body holder by the suction force of the cleaning body return venturi tube. The cleaning body is drawn into the cleaning body recoverer through the cleaning body recovery conduit together with the return fluid. The cleaning body sucked into the cleaning body recovery machine is caught by the cleaning body recovery gas, and the cleaning body remains in the cleaning body recovery body, and only the return fluid is sucked into the cleaning body recovery venturi tube. When the cleaning body is collected in the cleaning body recovery container, the solenoid valves installed in the cleaning body return conduit and the cleaning body return fluid return conduit are closed by a control panel not shown. After a certain period of time, the solenoid valves installed in the cleaning body introduction conduit, the cleaning carrier return fluid inlet conduit, and the cleaning body holder fluid return conduit are opened by a control panel not shown again. Repeat the above process.

However, in the heat exchanger tube automatic cleaning device using the venturi tube, a pressure loss occurs while the fluid suctioned and discharged by the fluid circulation pump passes through the venturi tube, and the pressure loss generated at this time is operated. During operation, that is, the operation time is very long, which leads to an increase in the head of the fluid circulation pump, which increases the driving force of the fluid circulation pump, and requires the use of a larger capacity pump to compensate for the pressure loss in the venturi tube. Done.

In order to solve the above problems, the present invention, by utilizing the suction force of the fluid circulation pump that is already installed in the fluid circulation system of the equipment that is the installation target of the heat exchanger tube automatic cleaning device using the present invention, around the pump for cleaning liquid injection Simplified piping and solenoid valve configuration, drastically reduced operating time, reduced power consumption, and significantly reduced maintenance points. In addition, instead of installing a venturi tube, which causes constant pressure loss and increases the head of the existing fluid circulation pump, the device can be configured with a simple combination of a small pump, solenoid valve, etc., which is operated only when the heat exchanger tube needs cleaning. It was.

1 is a block diagram of a heat exchanger tube automatic cleaning device using a conventional venturi tube

Figure 2 is a block diagram of a heat exchanger tube automatic cleaning device using a pump of the present invention.

3 is a block diagram of a heat exchanger tube automatic cleaning device using a pump connected to the cleaning fluid return conduit to the fluid outflow conduit.

Figure 4 is a block diagram of a heat exchanger tube automatic cleaning device using a pump is further provided with a cleaning body holder in the cleaning body outlet of the cleaning body separator.

FIG. 5 is a schematic diagram illustrating a heat exchanger tube automatic cleaning device using a pump, in which a cleaning body holder is further installed at a cleaning body discharge port of the cleaning body separator, and the cleaning medium return conduit is connected to the fluid outlet conduit. FIG.

<Description of the code | symbol about the principal part of drawing>

1 fluid inlet conduit 2 heat exchanger

3: cleaning body separator 4: cleaning body separator

5 fluid outflow conduit 6 cleaning body holder

7: cleaning body recovery machine 8: cleaning body recovery conduit

9 Cleaning body introduction conduit 10 Cleaning body conveying fluid inlet conduit

11 Cleaning body conveying fluid recovery conduit 12 Cleaning body holding fluid recovery conduit

13: manual valve 14: fluid circulation pump

15 cleaning body 16 cleaning body holder

17 cleaning body recovery body 18 first solenoid valve

19: 2nd solenoid valve 20: 3rd solenoid valve

21 small pump 22 second small pump

23: check valve

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic cleaning device inside a shell & tube type heat exchanger tube. The cleaning liquid is introduced into a heat exchanger inlet fluid inlet conduit by operation of a small pump and a solenoid valve, and the fluid circulation of an existing facility is performed. By using the suction power of the fluid circulation pump installed in the system, the cleaning body is recovered from the cleaning body separator, and the pump is used to recover the cleaning body by using the suction power of the fluid circulation pump installed in the fluid circulation system of the existing equipment. The pump operation time can be drastically reduced compared to the method of adding and removing the cleaning body, and the pump operation power can be greatly reduced, and the piping configuration around the pump can be simplified, so the maintenance is very convenient and the heat exchange is more efficient. The present invention relates to a heat exchanger tube automatic cleaning device using a pump capable of automatic cleaning inside a tube.

Looking at the configuration of the present invention in detail as follows.

1 is a block diagram of a heat exchanger tube automatic cleaning device using a conventional venturi tube. 2 is a configuration diagram of the automatic pump heat exchanger tube cleaning device of the present invention, Figure 3 is a configuration diagram of the automatic pump heat exchanger tube cleaning device when the cleaning fluid return conduit connected to the fluid outflow conduit. That is, instead of connecting the conduit (cleaning fluid return conduit) connected to the inlet fluid inlet conduit of the fluid circulation pump to the fluid inlet conduit, it is connected to the fluid outlet conduit in front of the scrubber separator. A heat exchanger tube automatic washing device configuration using a pump further provided with a second small pump to flow therein. 4 is a configuration diagram of a heat exchanger tube automatic cleaning device using a pump having a cleaning body holder further installed at the cleaning body outlet of the cleaning body separator. That is, the cleaning body holder is further installed at the cleaning body outlet of the cleaning body separator, the cleaning body conduit is connected to the cleaning body outlet of the cleaning body holder, and the cleaning body holding fluid recovery conduit is connected to the fluid outlet of the cleaning body holder side. A heat exchanger tube automatic cleaning device using a pump installed with a third solenoid valve installed at an appropriate position of the cleaning body holding fluid recovery conduit is installed. FIG. 5 is a schematic diagram of a heat exchanger tube automatic cleaning device using a pump having a cleaning body holder installed at a cleaning body discharge port of the cleaning body separator and connecting the cleaning medium return conduit to the fluid outlet conduit. FIG.

In the present invention, as shown in Figure 2, in the apparatus for automatically cleaning the inside of the heat exchanger tube using a cleaning body such as a sponge ball,

A heat exchanger, a fluid inlet conduit connected to the inlet side of the heat exchanger, a fluid circulation pump installed at an appropriate position of the fluid inlet conduit, a scrubber separator connected to the heat exchanger outlet side, and a fluid outlet conduit connected to the fluid outlet of the scrubber separator And a cleaning body inlet conduit branched from the heat exchanger inlet side fluid inlet conduit and connected to the cleaning body return conduit connected to the cleaning body outlet of the cleaning body separator. The cleaning body recoverer is installed in parallel with the heat exchanger by a flow path connected to the conduit, and check valves are respectively installed in the cleaning body introduction conduit and the cleaning body recovery conduit on both sides of the cleaning body recoverer. Conduit flowing only fluid by the sieve is connected to extend the proper length, but at the end two conduits Branched into the fluid inlet conduit and the cleaning medium return conduit, the cleaning medium return conduit is connected to the discharge side of the fluid circulation pump, i.e., the fluid inlet conduit between the heat exchanger and the fluid circulation pump, and the cleaning medium return conduit is connected to the fluid. Is connected to the inlet side fluid inlet conduit of the circulation pump, a small pump for delivering the fluid in the direction of the first solenoid valve and the cleaning body recovery unit is installed at the proper position of the cleaning medium return conduit, the cleaning medium return fluid conduit Heat exchanger tube automatic cleaning device using a pump, characterized in that the second solenoid valve is installed at an appropriate position.

Looking at the operation of the pump heat exchanger tube automatic cleaning device of the present invention configured as described above are as follows.

First, in the present invention, when it is not necessary to operate the automatic cleaning device, the first solenoid valve and the second solenoid valve may be closed to shut off the flow path, and the small pump operation may be stopped.

In the automatic cleaning device of the present invention, the cleaning process is performed by dosing the cleaning process in which the cleaning body stored in the cleaning body recovery unit is introduced into the heat exchanger, and the recovery process of recovering the cleaning body that has passed through the heat exchanger into the cleaning body recovery unit is repeated several dozen times a day. This is done. First, when the small pump is operated while the first solenoid valve is opened and the second solenoid valve is closed, some of the fluid flowing through the fluid inlet conduit is acted on by the small pump to carry the cleaning body return fluid inlet conduit, cleaning body recoverer, and three Through the stagnation inlet conduit, the fluid flows to the heat exchanger inlet-side fluid inlet conduit, so that the fluid contained in the cleaning body collector with the fluid flow is introduced into the heat exchanger inlet-side fluid inlet conduit. The cleaning body introduced into the fluid inlet conduit is swept by the fluid flow flowing in the fluid inlet conduit to force the inside of the heat exchanger tube to remove the scale, slime and the like attached to the inner wall of the tube. The cleaning body passing through the heat exchanger is filtered by the sieve of the cleaning body separator and collected in the cleaning body separator. Then, once the cleaning body stored in the cleaning body recoverer is introduced into the fluid inlet conduit, the small pump operation is stopped and the first solenoid valve is closed. This completes the input process. The recovery process is to recover the cleaning body passing through the heat exchanger by the sieve inside the cleaning body separator and gathered in the cleaning body separator with the cleaning body recoverer in the closing process, and the small pump is stopped and the first solenoid valve is closed. 2 When the solenoid valve is opened, a part of the fluid flowing from the heat exchanger outlet side to the fluid outlet conduit side is drawn by the suction force of the fluid circulation pump, and then the fluid circulation pump is passed through the cleaning body separator, the cleaning body return conduit, the cleaning body recovery unit, and the cleaning body return fluid return conduit. It flows to the suction side, and the washing | cleaning body which gathered in the washing | cleaning body separator with this fluid flow is attracted to the washing | cleaning body recoverer. The scrubbing body attracted to the scrubbing body collector is filtered by the sieve inside the scrubber collecting body and collected in the scrubbing body recovering body, and only the fluid is sucked to the fluid circulation pump suction side through the scrubbing body fluid return conduit. The second solenoid valve is also closed after all of the cleaning body is recovered to the cleaning body recoverer. As a result, both the first solenoid valve and the second solenoid valve are closed, and the small pump is also in the stopped state. In this way, the recovery process is completed, and the cleaning operation is performed by repeating such a cleaning body input process and a recovery process, and the number of cleaning repetitions can be variously adjusted according to the conditions of the installation site.

As another embodiment of the present invention described above, as shown in FIG. 3, the cleaning medium return conduit is connected to the fluid outlet conduit in front of the cleaning separator instead of being connected to the fluid inlet conduit on the suction side of the fluid circulation pump. However, there is a heat exchanger tube automatic cleaning device using a pump, characterized in that the second small pump is further installed at a suitable position to flow the fluid in the direction of the fluid outflow conduit. This can be selected by a person skilled in the art according to the ease of installation or economical efficiency of the cleaning medium return conduit connected to the fluid inlet conduit on the suction side of the fluid circulation pump.

Looking at the operation of the pump heat exchanger tube automatic cleaning device of the present invention configured as described above are as follows.

First, in the present invention, when it is not necessary to operate the cleaning device, the first solenoid valve and the second solenoid valve may be closed to shut off the flow path, and both the first small pump and the second small pump may be stopped. .

First, when the first small pump is operated while the first small valve is opened, the second solenoid valve is closed, and the second small pump is stopped, a part of the fluid flowing through the fluid inlet conduit is operated by the first small pump. This flows through the cleaning medium conveying fluid inlet conduit, cleaning body recovery conduit, and cleaning body inlet conduit to the heat exchanger inlet side fluid inlet conduit. To the fluid inlet conduit. The cleaning body introduced into the fluid inlet conduit is swept by the fluid flow flowing in the fluid inlet conduit to force the inside of the heat exchanger tube to remove the scale, slime, etc. attached to the inner wall of the tube. The cleaning body passing through the heat exchanger is filtered by the sieve of the cleaning body separator and collected in the cleaning body separator. Once the cleaning body stored in the cleaning body recoverer is introduced into the fluid inlet conduit, the operation of the first small pump is stopped and the first solenoid valve is closed. This completes the input process.

Next, in the recovery process, when the first small pump is stopped and the first solenoid valve is closed and the second solenoid valve is opened and the second small pump is operated, some of the fluid flowing from the heat exchanger outlet side to the fluid outlet conduit side is discharged. 2 The small pump acts to flow into the fluid outflow conduit via the scrubber separator, scrubber return conduit, scrubber return conduit and scrubber return fluid return conduit. It is attracted to the cleaning body recoverer. The scrubbing body attracted to the scrubbing body collector is collected by the sieve inside the scrubber collecting body and collected in the scrubber collecting body. Only the fluid flows into the fluid outflow conduit through the scrubber conveying fluid recovery conduit. After all of the cleaning body is recovered to the cleaning body recoverer, the second small pump is stopped and at the same time the second solenoid valve is also closed. As a result, both the first solenoid valve and the second solenoid valve are closed, and the first small pump and the second small pump are also in the stopped state. In this way, the recovery process is completed, and the cleaning operation is performed by repeating such a cleaning body input process and a recovery process, and the number of cleaning repetitions can be variously adjusted according to the conditions of the installation site.

As another embodiment of the present invention, as shown in Figure 4, the cleaning body holder is further installed in the cleaning body outlet of the cleaning body separator, the cleaning body recovery conduit is connected to the cleaning body outlet of the lower body of the cleaning body holder In the fluid outlet on the side of the cleaner holder, the fluid holding conduit for the cleaning body is installed and connected to the suction side of the fluid circulation pump, and the heat exchanger tube is automatically cleaned by the third solenoid valve installed at the proper position of the cleaning fluid holding conduit. There is a device. This will be described in more detail as follows.

A fluid inlet conduit connected to the inlet side of the heat exchanger and the heat exchanger and a scrubber separator connected to the outlet side of the heat exchanger and a fluid outlet conduit connected to the fluid outlet of the scrubber separator are connected in series and branched from the fluid inlet conduit of the heat exchanger inlet side. The cleaning body recoverer is installed between the connected cleaning body conduit and the cleaning body conduit connected to the cleaning body outlet of the cleaning body separator. Check valves are provided in the cleaning body introduction conduits and the cleaning body recovery conduits on both sides of the cleaning body recoverer, and a cleaning body holder is installed in the cleaning body outlet of the cleaning body separator, and the lower part of the cleaning body recovery machine The conduit flowing only fluid by the sieve is extended by proper length and connected to two conduits at the end. Branched so that one conduit, i.e., the cleaning medium return conduit, is connected to the conduit on the discharge side of the fluid circulation pump, i.e., the fluid inlet conduit between the heat exchanger and the fluid circulation pump, and the other conduit, i.e., the cleaning medium return conduit, After the valve is installed, it is connected to the cleaning body holding fluid recovery conduit and connected to the suction side fluid inlet conduit of the fluid circulation pump, and at the proper position of the cleaning medium return conduit, the fluid is directed in the direction of the first solenoid valve and the cleaning body recoverer. A small pump for flowing is installed, and the cleaning fluid holding conduit is connected to the fluid discharge port on the side of the cleaning fluid holder through which the cleaning fluid is caught by the cleaning fluid inside the cleaning fluid holder. There is a heat exchanger tube automatic cleaning device using a pump.

Looking at the operation of the pump heat exchanger tube automatic cleaning device configured as described above are as follows.

First, when it is not necessary to operate the automatic cleaning device, the first solenoid valve, the second solenoid valve, and the third solenoid valve may be closed to shut off the flow path, and the small pump may be stopped.

First of all, when the small pump is operated while the first solenoid valve and the third solenoid valve are opened, and the second solenoid valve is closed, some of the fluid in the fluid inlet conduit is acted on by the small pump to carry the cleaning body return fluid inlet conduit. In addition, the fluid flows to the heat exchanger inlet-side fluid inlet conduit via the cleaning body recoverer and the cleaning body inlet conduit. Therefore, the cleaning body contained in the cleaning body recoverer is introduced into the heat exchanger inlet-side fluid inlet conduit along with the fluid flow. The cleaning body introduced into the fluid inlet conduit is swept by the fluid flow flowing in the fluid inlet conduit to force the inside of the heat exchanger tube to remove the scale, slime and the like attached to the inner wall of the tube. Once the scrubbing body contained in the scrubbing body is introduced into the fluid inlet conduit, the small pump operation is stopped, the first solenoid valve is closed, and the third solenoid valve is kept open. The scrubber passing through the heat exchanger is separated from the fluid in the scrubber separator (some scrubber return fluid flows with scrubber), and immediately after the scrubber flows through the scrubber holding fluid return conduit to the fluid inlet conduit of the fluid circulation pump The flow is attracted to the cleaning body holder and is filtered by the sieve inside the cleaning body holder to be collected in the cleaning body holder. In this way, the cleaning body separated from the cleaning body separator is attracted to the cleaning body holder immediately after separation, instead of staying in the cleaning body separator, so that the cleaning body gathers in the cleaning body separator and prevents the interference of the fluid flow. Can be. This completes the input process.

Next, in the recovery process, when the small solenoid pump is stopped and the first solenoid valve is closed, the second solenoid valve is opened and the third solenoid valve is closed, the cleaning body holder, cleaning body recovery conduit, The fluid flows through the stagnation collector and the cleaning body conveying fluid recovery conduit to the fluid circulation pump suction side, and the cleaning body collected in the cleaning body holder is attracted to the cleaning body recovery by this fluid flow. The scrubbing body attracted to the scrubbing body collector is filtered by the sieve inside the scrubber collecting body and collected in the scrubbing body recovering body, and only the fluid is sucked to the fluid circulation pump suction side through the scrubbing body fluid return conduit. The second solenoid valve is also closed after all of the cleaning body is recovered to the cleaning body recoverer. As a result, the first solenoid valve, the second solenoid valve and the third solenoid valve are all closed, and the small pump is also in the stopped state. In this way, the recovery process is completed, and the cleaning operation is performed by repeating such a cleaning body input process and a recovery process, and the number of cleaning repetitions can be variously adjusted according to the conditions of the installation site.

As another embodiment of the present invention, as shown in FIG. 5, a cleaning body holder is installed in the cleaning body outlet of the cleaning body separator, and the cleaning body return conduit is connected to the cleaning body outlet of the cleaning body holder. The cleaning body holding fluid recovery conduit is connected to the fluid outlet on the side of the cleaning body and the cleaning medium return conduit, and the third solenoid valve is installed at the proper location of the cleaning fluid holding conduit. A second conduit connected to the fluid outflow conduit in front of the scrubber separator instead of the intake conduit to the inlet side fluid inlet conduit of the fluid circulation pump, wherein the fluid flows in the direction of the fluid outflow conduit to an appropriate position of the scrubber return fluid return conduit; There is a heat exchanger tube automatic cleaning device using a pump, characterized in that a small pump is further installed. This will be described in more detail as follows.

A fluid inlet conduit connected to the inlet side of the heat exchanger and the heat exchanger and a scrubber separator connected to the outlet side of the heat exchanger and a fluid outlet conduit connected to the fluid outlet of the scrubber separator are connected in series and branched from the fluid inlet conduit of the heat exchanger inlet side. The cleaning body recoverer is installed between the connected cleaning body conduit and the cleaning body conduit connected to the cleaning body outlet of the cleaning body separator, and consequently, the cleaning body return unit is installed in parallel with the heat exchanger by a flow path connected to the cleaning body inlet conduit and the cleaning body return conduit. Check valves are provided in the cleaning body introduction conduits and the cleaning body return conduits on both sides of the cleaning body recovery device, and the cleaning body holder is installed at the cleaning body outlet of the cleaning body separator, and the lower part of the cleaning body recovery machine The conduit that flows fluid only by the sieve is connected by extending the proper length. Branched so that one conduit, i.e., the cleaning medium return conduit, is connected to the conduit on the discharge side of the fluid circulation pump, i.e., the fluid inlet conduit between the heat exchanger and the fluid circulation pump, and the other conduit, i.e., the cleaning medium return conduit, After the valve is installed, a second small pump connected to the cleaning fluid holding conduit and connected to the fluid outflow conduit in front of the cleaning separator, allowing the fluid to flow in the direction of the fluid outflow conduit at an appropriate position of the cleaning fluid return conduit. There is a heat exchanger tube automatic cleaning device using the pump, characterized in that more installed

Looking at the operation of the pump heat exchanger tube automatic cleaning device of the present invention configured as described above are as follows.

First, when there is no need to operate the automatic cleaning device, the first solenoid valve, the second solenoid valve, and the third solenoid valve may be closed to shut off the flow path, and the first small pump and the second small pump may be stopped. .

First of all, when the first small pump and the second small pump are operated while the first solenoid valve and the third solenoid valve are opened, and the second solenoid valve is closed, the fluid flowing through the fluid inlet conduit may be partially discharged. Due to the action of the small pump, it flows through the cleaning medium return conduit, the cleaning body recovery conduit, and the cleaning body inlet conduit to the fluid inlet conduit at the inlet side of the heat exchanger. It enters the fluid inlet conduit at the heat exchanger inlet. The cleaning body introduced into the fluid inlet conduit is swept by the fluid flow flowing in the fluid inlet conduit to force the inside of the heat exchanger tube to remove the scale, slime and the like attached to the inner wall of the tube. Once the scrubber contained in the scrubber collector is fed into the fluid inlet conduit, the operation of the first small pump is stopped, the first solenoid valve is closed, the third solenoid valve is kept open, and the second compact pump is It remains in operation. On the other hand, the cleaning body passed through the heat exchanger is separated from the fluid in the cleaning body separator (some cleaning liquid returning fluid flows with the cleaning body), and immediately after separation, the second small pump acts as the fluid holding conduit through the cleaning body holding fluid recovery conduit. It is attracted to the cleaning body holder by the flowing fluid and is filtered by the sieve inside the cleaning body holder to be collected in the cleaning body holder.

Next, the recovery process will be described. The first solenoid valve is closed, the second solenoid valve is closed, the third solenoid valve is opened, the first small pump is stopped, and the second solenoid valve is opened while the second small pump is in operation. When the valve is closed, fluid flows to the fluid outlet conduit through the cleaning body return conduit, the cleaning body return condenser, and the cleaning medium return conduit under the action of the second small pump. Therefore, the cleaning body collected in the cleaning body holder with the flow of the fluid flows into the cleaning body recoverer, and the cleaning body flowing into the cleaning body recoverer is filtered by the sieve inside the cleaning body recovery machine and collected in the cleaning body recovery machine. Only fluid is routed through the fluid return conduit to the fluid outlet conduit. After all of the cleaning body is recovered to the cleaning body recoverer, the second small pump is stopped and at the same time the second solenoid valve is closed. As a result, the first solenoid valve, the second solenoid valve, and the third solenoid valve are all closed, and the first small pump and the second small pump are also in a stopped state. In this way, the recovery process is completed, and the cleaning operation is performed by repeating such a cleaning body input process and a recovery process, and the number of cleaning repetitions can be variously adjusted according to the conditions of the installation site.

In the present invention, the manual valve shown in the drawings is normally maintained in the open state, and serves to close the flow path only when necessary, such as repair and replacement of the cleaning device, which is a general technique.

In addition, in this invention, the control related to the starting stop of the said small pump and opening / closing of a solenoid valve is abbreviate | omitted description as a general conventional technique.

As described above, the present invention is a device for automatically cleaning by circulating a cleaning body, such as a sponge ball into the heat exchanger tube, by introducing a cleaning body by utilizing the suction force of the fluid circulation pump installed in the existing equipment in the recovery body recovery Not only can the configuration of pumps and solenoid valves needed for recovery be simplified, but the operating time of pumps and solenoid valves can be greatly reduced, which greatly reduces the power consumed in operating the equipment. Significantly reduced points can prevent inadvertent cleaning. In addition, even if compared with the method using the venturi tube, the heat exchanger tube automatic cleaning device is more efficient and economical because it is possible to input and retrieve the cleaning body by simply constructing a small pump and solenoid valve without installing a venturi tube that causes constant pressure loss. Production is possible.

Claims (4)

A heat exchanger 2, a fluid inlet conduit 1 connected to the inlet side of the heat exchanger 2, a fluid circulation pump 14 installed at an appropriate position of the fluid inlet conduit 1, and an outlet of the heat exchanger 2 The scrubber separator 3 connected to the side and the fluid outlet conduit 5 connected to the fluid outlet of the scrubber separator 3 are connected in series and branched from the fluid inlet conduit 1 at the inlet side of the heat exchanger 2. And between the cleaning body return conduit 9 and the cleaning body return conduit 8 connected to the cleaning body outlet of the cleaning body separator 3 as a result, the cleaning body inlet conduit 9 and the cleaning body return conduit 8 The cleaning body returning machine (7) is installed in parallel with the heat exchanger (2) by a flow path connected to each other, and check valves are respectively provided in the cleaning body introduction conduit (9) and the cleaning body recovery conduit (8) on both sides of the cleaning body recovery (7). (23) is provided, the lower portion of the cleaning body return device (7) is a small conduit flowing only the fluid by the sieve 17 inside the cleaning device recovery (7) It extends in a constant length, and is branched into two conduits, that is, the cleaning medium return conduit 10 and the cleaning medium return conduit 11, and the cleaning medium return conduit 10 is a fluid circulation pump ( 14 is connected to the fluid inlet conduit 1 between the discharge side of the heat exchanger 2 and the fluid circulation pump 14, and the cleaning medium return fluid return conduit 11 is the inlet side fluid inlet of the fluid circulation pump 14. Is connected to the conduit (1), a small pump (21) for flowing the fluid in the direction of the first solenoid valve 18 and the cleaning body recovery unit (7) is installed at the proper position of the cleaning liquid conveying fluid inlet conduit (10) The heat exchanger tube automatic cleaning device for pumps, characterized in that the second solenoid valve (19) is installed at an appropriate position of the cleaning liquid return conduit (11). The fluid outflow conduit (5) of claim 1, wherein the cleaning fluid return conduit (11) is connected to the suction side fluid inlet conduit (1) of the fluid circulation pump (14). Heat exchanger tube using the pump, characterized in that the second small pump 22 is further installed at the proper position of the fluid return conduit 11, the fluid flow conduit (5) is connected to the Cleaning device. The cleaning body return conduit (8) according to claim 1, further comprising a cleaning body holder (6) at a cleaning body outlet of the cleaning body separator (3), and a cleaning body outlet of the cleaning body holder (6). Is connected, the cleaning body holding fluid return conduit (12) for connecting the fluid discharge port on the side of the cleaning holder (6) and the cleaning medium return conduit (11), the cleaning body holding fluid recovery conduit (12) Heat exchanger tube automatic cleaning device using a pump, characterized in that the third solenoid valve 20 is further installed at the proper position. A cleaning body holder (6) is further provided at the cleaning body outlet of the cleaning body separator (3), and the cleaning body recovery conduit (8) is provided at the cleaning body outlet of the lower body of the cleaning body holder (6). The cleaning body holding fluid recovery conduit 12, which is connected to the fluid discharge port on the side of the cleaning body holder 6 and the cleaning medium return conduit 11, is further connected, and the cleaning body holding fluid recovery conduit 12 A third solenoid valve 20 is further provided at the proper position, and the cleaning body conveying fluid return conduit 11 is connected to the suction side fluid inlet conduit 1 of the fluid circulation pump 14 instead of the cleaning body. A second small pump 22 which is connected to the fluid outflow conduit 5 in front of the separator 3 and which flows the fluid in the direction of the fluid outflow conduit 5 at an appropriate position of the cleaning medium return conduit 11 is further provided. Heat exchanger tube automatic cleaning device using a pump, characterized in that installed.