KR101538344B1 - Pipe structure at neutralization device and flushing method thereof - Google Patents

Abstract

The present invention relates to a piping structure of a neutralization apparatus and a cleaning method thereof. The pipe structure of the neutralization device is connected to the fresh water inlet pipe for receiving clean water and the clean water inlet pipe for receiving the fresh water and is controlled to be opened or closed according to a first flushing valve opening / A fresh water delivery pipe having a flushing valve, a first tank connected to the fresh water delivery pipe and receiving the clean water, one end having a first tank connected to the first tank and a second tank connected to the second tank, A first neutralization pipe connected to the inner pipe and the other end connected to the second neutral pipe and the third neutral pipe, a first neutral pipe disposed at the other end of the first and second tank valves, The first and second tank valves being controlled to be opened or closed in accordance with the signal, and the second and third neutralization pipes respectively disposed in the second and third neutralization pipes, And a first check valve and a second check valve for controlling the fresh water flowing inside in one direction. As a result, since the inside of the piping remaining in the neutralizing chemical discharged from the neutralizing device is washed, the lifetime of the neutralizing device is lengthened, and the inside of the external piping connected to the neutralizing device is also cleaned, It is effective.

Description

TECHNICAL FIELD [0001] The present invention relates to a piping structure of a neutralization apparatus and a cleaning method thereof,

The present invention relates to a piping structure of a neutralization apparatus and a cleaning method thereof.

A neutralization apparatus for neutralizing a neutralization target using a neutralization agent includes a neutralization agent storage unit having a neutralization agent and a neutralization pipe as a pipe for transporting the neutralization agent discharged from the neutralization agent storage unit.

However, if the neutralizing device is not used for a long time, the neutralized chemical inside the neutralized pipe is hardened and the inside of the neutralized pipe is clogged.

If the inside of the neutralization pipe is clogged like this, the neutralized pipe that is clogged when the neutralization device is restarted may be damaged, or the neutralization drug may not be discharged through the clogged neutralization pipe, so that the neutralization function may not be performed properly.

Korean Patent Publication No. 10-2010-0128660

The object of the present invention is to efficiently design the piping structure of the neutralization apparatus and to clean the piping structure of the neutralization apparatus so that the piping of the neutralization apparatus can be used without being clogged for a long time.

The piping structure of the neutralization apparatus according to an embodiment of the present invention includes a fresh water inlet pipe for receiving clean water and a clean water inlet pipe connected to the clean water inlet pipe and receiving the clean water, A fresh water delivery pipe having a first flushing valve controlled to be opened or closed, a fresh water delivery pipe connected to the fresh water delivery pipe to receive the fresh water, and one end connected to a first tank and a second tank respectively having a neutralizing agent A first neutralization pipe connected to the first inner pipe and the second inner pipe, and the other end connected to the second and third neutralization pipes, and a second neutral pipe connected to the first and second inner pipes, Or first and second tank valves which are controlled to be opened or closed in accordance with a second tank valve opening / closing control signal, respectively, and a second tank valve located in the second and third neutral pipe, And the first and second check valves for controlling the fresh water flowing in the second and third neutralization pipes to flow in one direction.

And a second flushing valve connected to the fresh water inlet pipe for receiving the fresh water and controlled to be opened or closed according to a second flushing valve opening / closing control signal transmitted from the outside, Is connected to the first external cleaning pipe and the other end is connected to the second neutralization pipe and is provided with a first check valve so that the fresh water transferred from the first external pipe is connected to the second neutralization pipe And one end connected to the first external cleaning pipe and the other end connected to the third neutralization pipe and having a second check valve to connect the first external cleaning pipe to the first external cleaning pipe, And a second external washing pipe for transferring the fresh water transferred from the external washing pipe to the third neutralizing pipe.

And the second and third neutralization pipes may include first and second pumps, respectively.

The method of cleaning a piping structure of a neutralization apparatus according to an embodiment of the present invention includes determining whether an internal pipeline cleaning signal or an external pipeline cleaning signal is generated, determining whether the pipeline cleaning signal is generated, The method comprising the steps of: opening the first flushing valve and locking the second flushing valve; determining whether the generated internal pipeline cleaning signal is a first internal pipeline cleaning signal or a second internal pipeline cleaning signal; Or from the second internal pipeline cleaning signal determination step, when the generated internal pipeline cleaning signal is the first internal pipeline cleaning signal, opening the first tank valve and locking the second tank valve, From the second internal pipeline cleaning signal determination step, when the generated internal pipeline cleaning signal is the second internal pipeline cleaning signal, And opening the second flushing valve and controlling the first flushing valve to be locked when an external pipe cleaning signal is generated from the step of determining whether the pipe cleaning signal is generated .

According to this feature, the fresh water introduced through the fresh water inlet pipe flows through the fresh water delivery pipe, the at least one internal pipe, the at least one external cleaning pipe, and the at least one neutralized pipe, thereby cleaning the inside of the pipes. Accordingly, since the inside of the pipe is periodically cleaned, it is possible to prevent the problem that the neutralizing agent is hardened in the pipe of the neutralizing device.

FIG. 1 is a schematic view illustrating a piping structure of a neutralization apparatus according to an embodiment of the present invention.
2 is a flowchart illustrating a cleaning method in a piping structure of a neutralization apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Hereinafter, a piping structure of a neutralization apparatus according to an embodiment of the present invention will be described with reference to the accompanying drawings.

1, a piping structure of a neutralization apparatus according to an embodiment of the present invention will be described in detail. The piping structure of a neutralization apparatus includes a fresh water inlet A first neutralization pipe 9 connected to the neutralization medicine storage unit 100 and a first neutralization pipe 9 connected to the fresh water delivery pipe 3 connected to the fresh water inlet pipe 1; Second, and third neutralization pipes 10 and 11 connected to the clean water inlet pipe 1 and first to third external cleaning pipes 2, 4, 5, 6, 7 and 8 connected to the fresh water inlet pipe 1.

The fresh water inlet pipe (1) receives fresh water from the piping constructed inside the vessel. At this time, fresh water flows through the inside of the piping and is used to clean the inside of the piping. It is preferable to use clean water used for living water in the inside of the vessel.

The fresh water delivery pipe 3 is connected to the fresh water inlet pipe 1 and receives clean water from the fresh water inlet pipe 1 and transfers clean water in the direction of the first neutralized pipe 9.

At this time, the fresh water delivery pipe 3 has a first flushing valve 20.

In one example, a part of the piping of the fresh water inlet pipe 1 can be used as the fresh water delivery pipe 3 without separately providing the fresh water delivery pipe 3.

The first flushing valve 20 may be a solenoid valve controlled to be opened or closed by receiving an open / close signal from the outside.

The first flushing valve 20 is controlled to open so that the fresh water inlet pipe 1 is opened and the first flushing valve 20 is opened. The fresh water flowing into the fresh water delivery pipe 3 flows.

On the contrary, when the first flushing valve 20 receives a signal from the outside to close or lock the first flushing valve, the first flushing valve 20 is controlled to close, 1) does not flow to the fresh water delivery pipe (3).

The fresh water delivery pipe 3 is provided with a fifth check valve 28.

The fifth check valve 28 is a unidirectional flow control valve that allows fluid flowing in one direction to pass but not fluid flowing in the opposite direction.

In one example, the fifth check valve 28 passes fresh water flowing from the fresh water delivery pipe 3 to the first neutralization pipe 9, is discharged from the first neutralization pipe 9 and flows into the second or third neutralization pipe 9, Thereby preventing the neutralized chemicals flowing into the fresh water delivery pipe 3 from flowing into the fresh water delivery pipe 3.

The first external washing pipe is connected to one side of the fresh water inlet pipe 1 and is connected to the second flushing valve 21 as a pipe for receiving clean water from the fresh water inlet pipe 1. The second flushing valve 21, The first pipe 2 of the first external cleaning pipe and the second pipe 4 of the first external cleaning pipe are separated from each other.
Like the first flushing valve 20, the second flushing valve 21 may be a solenoid valve controlled to be opened or closed according to a control signal transmitted from the outside.

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In one example, when the second flushing valve 21 receives a signal from the outside to open the second flushing valve 21, the second flushing valve 21 is controlled to open, Fresh water introduced into the first pipe (1) of the first external cleaning pipe and the first pipe (2) of the first external cleaning pipe flows into the second pipe (4) of the first external cleaning pipe.

On the contrary, when the second flushing valve 21 receives a signal for controlling the second flushing valve 21 to be closed or locked from the outside, the second flushing valve 21 is controlled to close, The fresh water flowing through the inlet pipe 1 and the first pipe 2 of the first external cleaning pipe does not flow back to the second pipe 4 of the first external cleaning pipe.

The second external cleaning pipe is connected to one end of the second pipe 4 of the first external cleaning pipe and includes the third check valve 24 and the third check valve 24 The first pipe 5 of the second external cleaning pipe and the second pipe 7 of the second external cleaning pipe.

At this time, the third check valve (24) located between the first pipe (5) of the second external cleaning pipe and the second pipe (7) of the second external cleaning pipe is connected to the first The flow of fresh water flowing from the pipe 5 to the second pipe 7 of the second external cleaning pipe is controlled in one direction.

In one example, the third check valve 24 passes fresh water flowing from the first pipe 5 of the second external cleaning pipe to the second pipe 7 of the second external cleaning pipe , The fresh water flowing from the second pipe 7 of the second external cleaning pipe to the first pipe 5 of the second external cleaning pipe is not passed.

That is, the fresh water flowing into the first pipe 5 of the second external cleaning pipe from the second pipe 4 of the first external cleaning pipe is discharged to the outside of the second external cleaning pipe The fresh water flowing into the second pipe 7 of the second external cleaning pipe does not flow back to the first pipe 5 of the second external cleaning pipe.

The third external cleaning pipe is connected to one end of the second pipe 4 of the first external cleaning pipe and includes the fourth check valve 25 and the fourth check valve 25 The first pipe 6 of the third external cleaning pipe and the second pipe 8 of the third external cleaning pipe are separately formed.

At this time, the fourth check valve (25) located between the first pipe (6) of one third external cleaning pipe and the second pipe (8) of the third external cleaning pipe is connected to the third external cleaning pipe The flow of fresh water moving from the first pipe 6 to the second pipe 8 of the third external cleaning pipe is controlled in one direction.

The fourth check valve 25 allows the fresh water flowing in the direction of the second pipe 8 of the third external cleaning pipe from the first pipe 6 of the third external cleaning pipe to pass therethrough, The fresh water flowing from the second pipe 8 toward the first pipe 6 of the third external cleaning pipe is not passed.

That is, the fresh water introduced into the third external cleaning pipe from the second pipe 4 of the first external cleaning pipe is discharged to the second pipe 8 of the third external cleaning pipe by the fourth check valve 25 And fresh water flowing through the second pipe 8 of the third external cleaning pipe does not flow back to the first pipe 6 of the third external cleaning pipe.

As described above, the first neutralization pipe 9, which receives fresh water from the fresh water delivery pipe 3, is connected to one end of the fresh water delivery pipe 3. At this time, one end of the first neutralization pipe 9 is connected to the inner pipe of the neutralization medicine storage unit 100, and the other end of the first neutralization pipe 9 is connected to the second or third neutralization pipe 10 .

The neutralized medicine storage unit 100 includes first and second tanks 110 and 120 storing neutralizing chemicals, a first inner pipe 14 connected to the first tank 110, and a second inner pipe 14 connected to the first inner pipe 14 A second internal pipe 15 connected to the second tank 120 and a second tank valve 23 located in the second internal pipe 15. The first tank valve 22,

The first internal piping 14 receives the neutralized chemicals discharged from the first tank 110 and transfers the neutralized chemicals.

The first tank valve 22 is a solenoid valve which is controlled to be opened or closed in response to an opening / closing signal transmitted from the outside.

In one example, when the first tank valve 22 receives a signal to control opening of the first tank valve 22 from the outside, the first tank valve 22 is opened, whereby the first tank 110 The neutralized chemical discharged to the first inner pipe 14 flows in the direction of the first neutralization pipe 9.

On the other hand, when the first tank valve 22 receives a signal from the outside to close or lock the first tank valve 22, the first tank valve 22 is closed, The neutralized chemicals discharged from the first inner pipe 14 to the first inner pipe 14 do not flow toward the first neutralization pipe 9.

The second internal pipe 15 receives the neutralized chemical discharged from the second tank 120 and transfers the neutralized chemical.

The second tank valve 23 is a solenoid valve, like the first tank valve 22, and is controlled to be opened or closed in accordance with the second tank valve 23 opening / closing control signal transmitted from the outside.

In one example, when the second tank valve 23 receives a signal to control opening of the second tank valve 23 from the outside, the second tank valve 23 is opened, and thus the second tank 120 The neutralized chemical discharged to the second inner pipe 15 flows in the direction of the first neutralization pipe 9.

On the other hand, when the second tank valve 23 receives a signal for controlling the second tank valve 23 to be closed from the outside, the second tank valve 23 is closed, The neutralized chemical discharged to the second inner pipe 15 does not flow in the direction of the first neutralization pipe 9.

As described above, the first and second tank valves 22 and 23 respectively located in the first and second inner pipes 14 and 15 are controlled so as to be opened at the same time, or only one of them is opened. Thereby, there is an effect that it is possible to select which tank of the first or second tank 110 or 120 to discharge the neutralized medicine.

The second and third neutralization pipes 10 and 11 connected to one end of the first neutralization pipe 9 are connected to the first neutralization pipe 9 Respectively.

The second neutralization pipe 10 is provided with a first pump 31 and a first check valve 26.

The first pump 31 is a pump that flows into the second neutralization pipe 10 from the first neutralization pipe 9 and generates pressure to move the neutralization agent or fresh water flowing inside the second neutralization pipe 10 effectively pump.

Like the third and fourth check valves 24 and 25 described above, the first check valve 26 is a valve that controls the flow of the fluid (fresh water or neutralizing agent in the present invention) flowing in the piping in only one direction .

The first check valve 26 allows the fresh water or neutralizing agent to flow from the first neutralization pipe 9 to the second neutralization pipe 10 and flow in the second neutralization pipe 10 toward the first pump 31 And flows only in the direction of the first check valve 26 and does not flow back in the direction of the first pump 31 in the direction of the first check valve 26.

At this time, the pipe 12 extending to the second neutralization pipe 10 is connected to the second pipe 7 of the second external cleaning pipe to receive fresh water from the second external cleaning pipe, The inside of the pipe 12 extending to the second neutralization pipe from the fresh water transferred from the water supply pipe is cleaned.

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The third neutralization pipe 11 is provided with a second pump 32 and a second check valve 27.

The second pump 32 is a pump that flows into the third neutralization pipe 11 from the first neutralization pipe 9 and generates pressure to effectively move neutralizing chemicals or fresh water flowing inside the third neutralization pipe 11 .

Similarly to the first, third and fourth check valves 26, 24 and 25, the second check valve 27 is a valve for controlling the flow of the fluid flowing in the pipe in only one direction.

The second check valve 27 allows the fresh water or the neutralizing agent to flow through the third neutralization pipe 11 through the first neutralization pipe 9 to the second pump 32, And flows only in the direction of the second check valve 27, and does not flow backward from the second check valve 27 toward the second pump 32.

At this time, the pipe 13 extending to the third neutralization pipe 11 is connected to the second pipe 8 of the third external cleaning pipe to receive fresh water from the third external cleaning pipe, The inside of the pipe 13 extending to the third neutralization pipe is cleaned from the fresh water transferred from the use pipe.

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In the piping structure of the neutralization apparatus of the present invention described with reference to Fig. 1, the fresh water introduced into the fresh water inlet pipe 1 flows along the arrow A1 along with the first flushing valve 20, the fresh water delivery pipe 3, Passes through the pipe 9, the first tank valve 22, and the first inner pipe 14, respectively.

At this time, the fresh water moves along the above path (arrow A1) to clean the inside of the first neutralization pipe 9 and the first inner pipe 14, passes the above path, 1 tank (110).

The fresh water flowing into the fresh water inlet pipe 1 flows along the arrow A2 along with the first flushing valve 20, the fresh water delivery pipe 3, the first neutralization pipe 9, the second tank valve 23, 2 inner pipe 15, respectively.

At this time, the fresh water moves along the path of the arrow A2 to clean the inside of the first neutralization pipe 9 and the second inner pipe 15, and the fresh water which has passed through the above path and has been cleaned in the inside of the pipe, 120, respectively.

This makes it possible to move from the neutralized medicine storage unit 100 to the second or third neutralized pipe 10 or 11 and remain in the first or second inner pipe 14 or 15 or the first neutralized pipe 9, The neutralizing agent is washed.

Here, since the amount of cleaned clean water flowing into the first or second tank 110 or 120 is small, it does not affect the neutralizing agent in the first or second tank 110 or 120.

As described above, the fresh water flowing along the fresh water delivery pipe 3 may be transmitted to the neutralization medicine storage unit 100 along the direction of the arrow A1 or A2 through the first neutralization pipe 9, but the first neutralization pipe 9 To the second and third neutralization pipes 10 and 11 along the direction of the arrow B1 or B2, respectively.

More specifically, the fresh water transferred to the first neutralization pipe 9 through the fresh water inlet pipe 1, the first flushing valve 20 and the fresh water delivery pipe 3 flows through the second neutralization pipe 10 and the third neutralization pipe 9, And is delivered to the piping 11.

At this time, the fresh water transferred to the second neutralization pipe 10 flows to the pipe 12 passing through the first pump 31 and the first check valve 26 and extending to the second neutralization pipe 10.

The fresh water transferred to the third neutralization pipe 11 flows to the pipe 13 extending to the third neutralization pipe 11 through the second pump 32 and the second check valve 27.

At this time, the fresh water flowing into the fresh water inlet pipe 1 flows through the first pipe 2, the second flushing valve 21, the second pipe 4 of the first external cleaning pipe, The first pipe 5 of the second external cleaning pipe, the third check valve 24, the second pipe 7 of the second external cleaning pipe and the pipe 12 extending to the second neutralization pipe 10 As shown in Fig.

The fresh water flowing into the fresh water inlet pipe 1 is supplied to the first pipe 2 of the first external cleaning pipe, the second flushing valve 21, the second pipe 4 of the first external cleaning pipe, The third pipe 6 of the third external cleaning pipe, the fourth check valve 25, the second pipe 8 of the third external cleaning pipe, and the pipe 13 extending to the third neutralizing pipe 11, RTI ID = 0.0 > C2 < / RTI >

As a result, in the neutralization medicine storage unit 100, the pipe 12 and the third neutralization pipe 11, which move along the second and third neutralization pipes 10 and 11 and extend to the second neutralization pipe 10, The neutralizing agent remaining in the extended pipe 13 and the external pipe connected thereto is cleaned.

Here, the external piping is a pipe located outside the neutralization apparatus connected to the pipe 12 extending to the second neutralization pipe 10 and the pipe 13 extending to the third neutralization pipe 11.

Since the piping structure of the neutralization apparatus according to an embodiment of the present invention has such a structure, clean water is discharged from the first or second tank 110 or 120 and flows into the first or the first inner pipe 14, 15, Flows along the first to third neutralization pipes 9, 10 and 11, the pipe 12 extending to the second neutralization pipe 10 and the pipe 13 extending to the third neutralization pipe 11, Clean the buried neutralizing chemicals.

Therefore, there is an effect that the life of the piping is prolonged.

Next, a cleaning method according to a piping structure of a neutralization apparatus according to an embodiment of the present invention having the structure described with reference to FIG. 1 will be described in detail with reference to FIGS. 1 and 2. FIG.

First, the controller determines whether an internal pipeline cleaning signal or an external pipeline cleaning signal is generated (Q10).

If the cleaning signal is not generated in the step Q10 of determining whether the pipe cleaning signal is generated, the next step is not performed.

In one example, when an internal piping cleaning signal is generated, the first flushing valve 20 is opened and the second flushing valve 21 is locked according to the generated internal pipeline cleaning signal (S10).

As a result, the fresh water flowing into the fresh water inlet pipe 1 flows to the fresh water delivery pipe 3.

At this time, it is determined whether a specific internal pipe cleaning signal is generated in the control unit (Q30). If the internal pipe cleaning signal generated in the step of determining whether the pipe cleaning signal is generated is Q20 is the first internal pipe cleaning signal, (22) and controls the second tank valve (23) to be locked (S21).

As a result, fresh water flowing into the fresh water delivery pipe 3 flows along the first internal pipe 14 and proceeds to wash the inside of the first internal pipe 14 (S22).

In another example, when the internal pipeline cleaning signal generated in the step Q20 for determining whether or not the pipeline cleaning signal is generated is a second internal pipeline cleaning signal from the specific internal pipeline cleaning signal generation determination step (Q30), the second tank valve 23, and controls the first tank valve 22 to be locked (S31).

As a result, the fresh water flowing into the fresh water delivery pipe 3 flows along the second internal pipe 15 and proceeds to wash the inside of the second internal pipe 15 (S32).

If the external piping cleaning signal is generated in step Q10, the control unit opens the second flushing valve 21 according to the generated external piping cleaning signal, The first flushing valve 20 is controlled to be locked (S41).

Therefore, the fresh water flowing into the fresh water inlet pipe (1) flows through the first pipe (2) of the first external cleaning pipe to the first pipe (5) of the second external cleaning pipe and the third pipe The second external pipe 6 and the second external pipe 6 are connected to each other by the third check valve 24 and the second pipe 7 of the second external cleaning pipe, And then flows along the pipe 12 extending to the second neutralization pipe 10 to perform the external pipe cleaning connected to the pipe 12 extending to the second neutralization pipe 10 at step S42.

Similarly, the fresh water flowing into the first pipe 6 of the third external cleaning pipe is supplied to the fourth check valve 25, the second pipe 8 of the third external cleaning pipe, and the third neutralizing pipe 11 The external pipe washing connected to the pipe 13 extending to the third neutralizing pipe 11 is performed along the extended pipe 13 (S42).

In this way, the fresh water flowing into the neutralizing device flows according to the washing signal, the valve opening / closing signal generated by the control unit, etc., and the external cleaning pipe and the external pipe are cleaned, and the neutralizing chemicals remaining in the inside of the pipe are cleaned. The lifetime is prolonged and the external piping connected to the neutralization apparatus is cleaned, thereby prolonging the life of the external piping and preventing clogging of the external piping.

As shown in the drawing, the pipe cleaning signal can be determined (Q20) and the inner pipe and the outer pipe can be separately cleaned. However, after the inner pipe cleaning is completed (S22 and S32), the outer pipe cleaning (S42) You may proceed further.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

1: fresh water inlet pipe 2: first external cleaning pipe
3: fresh water delivery pipe 20: first flushing valve
21: second flushing valve 22: first tank valve
23: second tank valve 24, 25, 26, 27: check valve
31: first pump 32: second pump
100: Neutralizing medicine storage unit 110: First tank
120: Second tank

Claims (4)

Fresh water inlet piping,
And a first flushing valve connected to the fresh water inlet pipe to receive the fresh water and controlled to be opened or closed according to a first flushing valve opening / closing control signal transmitted from the outside,
And the other end is connected to the first inner pipe and the second inner pipe connected to the first tank and the second tank respectively having neutralization chemicals and the other end is connected to the fresh water delivery pipe, A first neutralization pipe connected to the second neutralization pipe and the third neutralization pipe,
A first tank valve and a second tank valve which are respectively located in the first inner pipe and the second inner pipe and are controlled to be opened or closed in accordance with a first tank valve opening / closing control signal or a second tank valve opening / Valves, and
A first check valve and a second check valve located respectively in the second neutralization pipe and the third neutralization pipe for controlling the fresh water flowing in the second neutralization pipe and the third neutralization pipe to flow in one direction,
Wherein the piping structure of the neutralization apparatus includes a piping structure. The method of claim 1,
And a second flushing valve connected to the fresh water inlet pipe for receiving the clean water and controlled to be opened or closed according to a second flushing valve opening / closing control signal transmitted from the outside,
And a third check valve disposed between the first external pipe and the second external pipe and connected to the first external pipe for cleaning and the second external pipe connected to the second neutral pipe, A second external flushing pipe for transferring to the neutralization pipe, and
And one end of the clean water is connected to the first external cleaning pipe and the other end of the fresh water is connected to the third neutralization pipe, And the third external cleaning pipe to be delivered to the third neutralization pipe
Wherein the piping structure of the neutralization apparatus further comprises: The method of claim 1,
Wherein the second neutralization pipe and the third neutralization pipe each include a first pump and a second pump. Determining whether an internal pipeline cleaning signal or an external pipeline cleaning signal is generated,
Opening the first flushing valve and locking the second flushing valve when the internal pipe cleaning signal is generated from the step of determining whether the pipe cleaning signal is generated,
Determining whether the generated internal pipeline cleaning signal is a first internal pipeline cleaning signal or a second internal pipeline cleaning signal,
Opening the first tank valve and locking the second tank valve when the generated internal pipeline cleaning signal is the first internal pipeline cleaning signal from the first or second internal pipeline cleaning signal determination step,
Opening the second tank valve and locking the first tank valve when the generated internal pipeline cleaning signal is the second internal pipeline cleaning signal from the first or second internal pipeline cleaning signal determination step,
Opening the second flushing valve and controlling the first flushing valve to be locked when an external pipe cleaning signal is generated from the step of determining whether the pipe cleaning signal is generated
And a cleaning device for cleaning the piping structure of the neutralization device.

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