KR101659422B1 - Auto-discharge system and method for stagnant water in water distribution system - Google Patents

Abstract

The present invention relates to a municipal water withdrawal method, comprising the steps of: measuring the quality of stagnant water and comparing it with a water quality threshold; determining whether the measured water quality of the stagnant water is lower than the water quality threshold; If the congestion water quality is lower than the water quality threshold, opening the dehydration valve of the congestion water until the congestion water quality becomes higher than the water quality threshold and discharging the congestion water to the canal path, The stagnant water is located in the stagnant zone in the water pipe, so that the stagnant water can be efficiently managed according to the water quality by sensing the quality of stagnant water in real time.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic discharge system and a method for stagnant water in a water supply system,

The present invention relates to a stagnant water withdrawal system, and more particularly, to a stagnant water withdrawal system and a stagnant water withdrawal method for measuring stagnant water according to the quality of stagnant water.

In order to supply tap water to citizens with safe water quality, it is necessary to efficiently maintain the water supply pipes in the water supply process to safely deliver water to the customers. In the case of pipelines where tap water is transported during the water supply process, there is a risk of contamination in the pipeline. Therefore, it is necessary to control not to detect harmful pathogenic microorganisms such as bacteria or viruses in the customer. Especially, Proper drain valve operation must be performed for water quality management. At present, the waterworks office is aware of the status of the stagnant piping and manages the water quality of the tap water in the hall manually by the field personnel at certain intervals. However, since the congestion zone is managed without accurate information on the quality of water in the pipeline, it is necessary to elucidate efficient water quality improvement measures.

The prior art for the present invention is "automatic drain valve device " (Korean Patent Laid-Open No. 10-2010-0065853).

The first problem to be solved by the present invention is to provide a stagnant water withdrawal system for measuring the quality of stagnant water in a pipe, thereby allowing the stagnant water to be discharged according to the quality of stagnant water.

A second problem to be solved by the present invention is to provide a method of removing water from the stagnant water by measuring the quality of water in the stagnant water in accordance with the water quality of the stagnant water.

In order to achieve the first object, the present invention provides a water quality measurement unit for measuring water quality of stagnant water; A water quality judging unit comparing the measured water quality of the stagnant water with a water quality threshold to determine whether the measured value of the stagnant water quality is lower than the water quality threshold; And when the stagnant water quality is lower than the water quality threshold continuously for more than the first time threshold, the stagnant water is discharged to the stagnant canal by opening the stagnant water discharge valve until the stagnant water quality becomes higher than the water quality threshold And a valve control unit, wherein the stagnant water is located in a stagnant zone in the water line.

According to an embodiment of the present invention, when the stagnant water quality is lower than the water quality threshold, the stagnant water withdrawal system may further include a communication unit for providing information to the manager that the stagnant water needs to be discharged .

According to another aspect of the present invention, there is provided a method for measuring a quality of a stagnant water, comprising the steps of: Determining whether the measured value of the stagnant water quality is lower than the water quality threshold; If the stagnant water quality is lower than the water quality threshold continuously for more than the first time threshold, opening the stagnant water withdrawing valve until the stagnated water quality becomes higher than the water quality threshold and discharging the stagnant water to the stagnant canal Wherein the stagnant water is located in a stagnation zone in the water line.

According to an embodiment of the present invention, the step of measuring the quality of the stagnant water and comparing the measured quality of the stagnant water with the water quality threshold may include measuring the residual chlorine of the stagnant water, comparing the measured residual water with the residual chlorine threshold value, measuring the turbidity of the stagnant water, Wherein the step of determining whether the measured value of the stagnant water quality is lower than the water quality threshold is characterized in that the measured value of the residual chlorine in the stagnant water is lower than the threshold value of the residual chlorine or the measured value of the turbidity of the stagnant water is the turbidity And determining that the measured value of the stagnant water quality is lower than the water quality threshold if the measured water quality is higher than the threshold value.

According to an embodiment of the present invention, the water collection time and water collection amount of the stagnant water is adjusted in consideration of at least one of the water quality of the stagnant water, the water quantity of the water pipe, or the accumulated water quantity of the stagnant water currently being collected And may be a municipal water withdrawal method.

According to an embodiment of the present invention, in a state where the water discharge valve is open, when the stagnant water quality is continuously higher than the water quality threshold for a second time threshold or more, the stagnant water discharge valve is closed, The method further comprising the step of discontinuing the stoppage.

According to an embodiment of the present invention, when the stagnant water quality is lower than the water quality threshold, the method may further include the step of providing information to the manager that the stagnant water needs to be removed from the stagnant water, .

According to the embodiment of the present invention, when the operation mode of the stagnant water withdrawal valve is set to the manual mode, the withdrawal valve operation command is inputted from the manager to operate the stagnant water withdrawal method Lt; / RTI >

According to the present invention, the quality of the stagnant water can be sensed in real time, and the stagnant area can be efficiently managed according to the quality of the stagnant water. Remote monitoring of water quality is carried out for prevention of pipeline scale and improvement of water quality of the water supply pipe in the existing lowering of the flow rate in the water supply pipe, so that appropriate water discharge timing is determined and automatic discharge is performed at the remote site. The existing drainage works were carried out on site by the mobilization of the manpower by the operator 's experience. Therefore, it is not possible to deal with the number of stagnation immediately, and the problem of lengthening the stagnant water retention time in the water supply network may occur during the period of selecting the drainage section, the work plan, Through real-time monitoring of the tap water quality, the safety of the water quality of the tap water can be expected by discharging the stagnant water quickly from the pipe network. Conventional drainage works require a series of operations to connect the general lake from the landfill to the manhole and open the drain valve. This system can connect the water quality analyzer to the discharge point and connect the discharge pipe near the discharge valve to operate the electric valve at the remote place without performing the field injection or to perform the automatic discharge operation based on the water quality information. In addition, the selection of the discharge point is periodically carried out by reviewing the past discharge history of the existing discharge point. This method is extremely dependent on the operator's capability and is also a point at which human error may occur. The water quality data of the water quality analysis module installed in this system will automatically generate alarms by selecting alarm points and time based on alarm occurrence and data when the water quality is below the legal water quality standard.

1 is a block diagram of a congestion control system according to an embodiment of the present invention.
FIG. 2 illustrates a stagnant water withdrawal system and environment in accordance with another embodiment of the present invention.
3 is a block diagram of a congestion control system according to another embodiment of the present invention.
FIG. 4 is a flowchart of a stagnant water withdrawal method according to an embodiment of the present invention.
5 to 7 are flow charts of a method for withdrawing congestion water according to another embodiment of the present invention.
8 is a flowchart of a congestion control method according to another embodiment of the present invention.

Prior to the description of the concrete contents of the present invention, for the sake of understanding, the outline of the solution of the problem to be solved by the present invention or the core of the technical idea is first given.

According to an embodiment of the present invention, there is provided a method for removing stagnant water, comprising the steps of: measuring a quality of stagnant water and comparing it with a water quality threshold; determining whether the measured stagnation water quality is lower than the water quality threshold; If the stagnant water quality is lower than the water quality threshold continuously for more than a time threshold value, opening the stagnant water discharge valve until the stagnation water quality becomes higher than the water quality threshold and discharging the stagnation water to the stagnant canal , And the stagnant water is located in a stagnant zone in the water line.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It will be apparent to those skilled in the art, however, that these examples are provided to further illustrate the present invention, and the scope of the present invention is not limited thereto.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, It is to be noted that components are denoted by the same reference numerals even though they are shown in different drawings, and components of different drawings can be cited when necessary in describing the drawings. In the following detailed description of the principles of operation of the preferred embodiments of the present invention, it is to be understood that the present invention is not limited to the details of the known functions and configurations, and other matters may be unnecessarily obscured, A detailed description thereof will be omitted.

1 is a block diagram of a congestion control system according to an embodiment of the present invention.

The stagnant water withdrawing system 100 according to an embodiment of the present invention may include a water quality measuring unit 110, a water quality judging unit 120 and a drain valve control unit 130 and may further include a communication unit 140 have.

The water quality measuring unit 110 measures the quality of the stagnant water.

More specifically, the water quality measuring unit 110 measures the water quality by sampling the stagnation water at a point before the point of withdrawal of the stagnation water stagnation pipe. The stagnation water is located in the stagnant zone in the water line. The water quality of the stagnant water in the stagnant area is measured in order to measure the pollution degree of the water quality according to the stagnation in the water pipe supplying the water to the customer and to maintain the water quality of the water pipe using the discharged water. In measuring the quality of the stagnant water, residual chlorine and turbidity of the stagnant water are measured.

The water quality judging unit 120 compares the measured water quality of the stagnation water with the water quality threshold to determine whether the measured value of the stagnation water quality is lower than the water quality threshold.

More specifically, the water quality of the stagnant water measured by the water quality measuring unit 110 is compared with the water quality threshold to determine whether the stagnant water needs to be discharged. The water quality threshold may be preset or may be used by calculating an optimal water quality threshold.

The water quality judging unit 120 measures the residual chlorine of the stagnant water and compares it with the residual chlorine threshold value, measures the turbidity of the stagnant water, compares the measured turbidity with the turbidity threshold, and determines that the measured value of the residual chlorine of the stagnant water is the threshold Or if the turbidity value of the stagnant water is higher than the turbidity threshold, it can be determined that the measured value of the stagnant water quality is lower than the water quality threshold. In order to determine the quality of stagnant water, it is possible to use turbidity, which is a turbidity of residual chlorine and stagnant water remaining in stagnant water. It can be judged that it is necessary to discharge the stagnant water when the measured value of the residual chlorine of the stagnant water is lower than the threshold value of the residual chlorine or when the measured value of the turbidity of the stagnant water is higher than the turbidity threshold value. The threshold value of the residual chlorine and the threshold value of the turbidity may be preset or may be used by calculating an optimal residual chlorine threshold value or an optimum turbidity threshold value.

The drain valve control unit 130 opens the drain valve of the stagnant water until the stagnant water quality becomes higher than the water quality threshold or more when the stagnated water quality is lower than the water quality threshold continuously for the first time threshold or more, It is discharged to a paved road.

More specifically, if it is determined that the water quality of the stagnant water is lower than the water quality threshold as a result of the determination by the water quality determination unit 120, the stagnant water can not be supplied to the customer through the water pipe, The stagnant water is allowed to be discharged to the gut pipe. The withdrawal valve can control the withdrawal or withdrawal volume. That is, the drain valve can perform the open / close operation, and the drainage rate can be adjusted stepwise when open. The pipe diameter of the drainage pipe is more than 60% of the pipe diameter of the main pipe of the water pipe, so that foreign matter in the pipe can be treated when the pipe is removed.

When the stagnant water quality is higher than the water quality threshold continuously for a second time threshold or more in a state where the drain valve is open, the drain valve control unit 130 closes the drain valve of the stagnant water to stop the drainage of the stagnant water do. The water quality of the stagnant water is measured periodically or in real time, and when the water quality of the stagnant water becomes higher than the water quality threshold, the water withdrawal valve is closed to stop the water withdrawal.

The drain valve control unit 130 may adjust the drainage period and the accumulation rate of the stagnant water in consideration of at least one of the water quality of the stagnant water, the water quantity of the water pipe, or the accumulated water quantity of the stagnant water currently being collected. The amount of water withdrawn and the amount of water withdrawn from the stagnant water can be adjusted in consideration of the degree of water quality of the stagnant water, the quantity of the water pipe, or the quantity of the stagnant water when it is currently being discharged. The water quality of the stagnant water and the water quality of the stagnant water can be calculated and used through the water quality of the stagnant water and the water quality of the stagnant water when the water withdrawal is not performed, The amount of sediment or the amount of sedimentation can be calculated and used through the quantity of sediment that is currently being discharged or the quantity of sediment that is being withdrawn.

The withdrawal valve control unit may receive the withdrawal valve operation command from the manager and operate the withdrawal valve when the operation mode of the stagnant water withdrawal valve is set to the manual mode. The drain valve may be controlled by the drain valve control unit in the automatic mode, or may be set to the manual mode, and the drain valve may be operated by the manager to receive the drain valve operation command. For this, a communication unit 140 that can communicate with an administrator may be further included.

When the stagnant water quality is lower than the water quality threshold, the communication unit 140 provides information to the manager that the stagnant water needs to be discharged.

More specifically, the communication unit 140 provides information on the water quality and information on the water discharge to the manager. The automatic mode of the withdrawal system allows the administrator to recognize the current situation by providing the status information in real time to the administrator. In the manual mode, the administrator can control the withdrawal valve .

The stagnant water withdrawal system according to the embodiment of the present invention may include an alarm providing unit for determining whether the accumulated water amount of the stagnant water is higher than the accumulated water amount threshold and for providing an alarm to the manager when the accumulated water amount of the stagnant water is higher than the accumulated water amount threshold .

More specifically, it is judged whether the accumulation amount of the congestion water is higher than the withdrawal threshold value, and if an excessive amount of water is generated, an alarm is provided to the manager so that the manager can check it. The water outlet valve of the stagnant water can be manually controlled by the manager so that the water outlet valve can be manually controlled when the water withdrawn water volume is higher than the water discharge water threshold. In addition, when a water quality meter or communication error occurs, the administrator can manually control the water outlet valve.

FIG. 2 illustrates a stagnant water withdrawal system and environment in accordance with another embodiment of the present invention.

The water quality of stagnant water stagnated in the water pipe stagnation zone 240 is sampled in a water supply pipe for supplying water to the water supply unit 220 and the residual water and turbidity of the stagnant water is measured in the water quality analysis unit 211, The water discharge control system 212 determines whether or not the water is automatically discharged. When the automatic drainage system determines that drainage is necessary, the drainage valve 230 is controlled to drain the stagnant water to the drain line 250. The withdrawal valve 230 may include a manual valve and an automatic withdrawal valve. In the automatic mode, the withdrawal may be performed automatically according to the water quality. In the manual mode, the withdrawal may be performed according to an operation command of the administrator. During dehydration, the amount of dehydration can be sensed through the flow meter to control the timing and amount of dehydration.

3 is a block diagram of a congestion control system according to another embodiment of the present invention.

Collaboration between the water quality analysis site control panel 310 and the waterworks office 330 can be used for the removal of stagnant water. That is, the water quality can be analyzed in the water quality analysis field control panel 310 and the water quality information can be transmitted to the water service office 330 through the dedicated network 320 with the water service establishment 330. The water service office 330 may use the received information to store it in the DB server, analyze the water quality information in the analysis server and display it to the administrator in the operating PC or input an operation command of the administrator to determine whether to withdraw . The withdrawal valve can be controlled according to the determined withdrawal status to perform withdrawal of stagnant water.

FIG. 4 is a flowchart of a stagnant water withdrawal method according to an embodiment of the present invention.

Step 410 is a step of comparing the quality of the stagnant water with the water quality threshold.

More specifically, the stagnant water is located in the stagnant zone in the water line. When the water quality of the stagnant water is not suitable for the customer, the stagnant water may be discharged to the stagnant water pipe through the water discharge pipe. The water quality of stagnant water is sampled by sampling the stagnation water and compared with the water quality threshold. The cross-sectional area of the water discharge pipe through which the stagnant water is discharged may be 60 or more of the cross-sectional area of the water pipe. The detailed description of this step corresponds to the detailed description of the water quality measurement unit 110 and the water quality determination unit 120 of FIG. 1, and the detailed description of the water quality measurement unit 110 and the water quality determination unit 120 Replace it with a detailed description.

In step 420, it is determined whether the measured value of the stagnant water quality is lower than the water quality threshold.

More specifically, as a result of the comparison in step 410, the water quality of the stagnant water is compared with the water quality threshold to determine whether or not the water needs to be removed. The detailed description of this step corresponds to the detailed description of the water quality judging unit 120 of FIG. 1, and is replaced with a detailed description of the water quality judging unit 120 of FIG.

If the stagnant water quality is lower than the water quality threshold continuously for more than the first time threshold value, the stagnant water is discharged to the stagnant water pipe until the stagnant water quality is higher than the water quality threshold, .

More specifically, when the water quality of the stagnant water is low enough to require drainage, the drain valve is opened to discharge the stagnant water to the stadium. It is possible to control the water withdrawal time and accumulation amount of the stagnant water by taking into consideration at least one of the water quality of the stagnant water, the water quantity of the water pipe, or the accumulated water quantity of the stagnant water currently being discharged. When the operation mode of the stagnant water withdrawal valve is set to the manual mode, the withdrawal valve operation command may be inputted from the manager to operate the withdrawal valve. The detailed description of this step corresponds to the detailed description of the discharge valve control unit 130 of FIG. 1, and is replaced with a detailed description of the discharge valve control unit 130 of FIG.

5 to 7 are flow charts of a method for withdrawing congestion water according to another embodiment of the present invention.

In step 510, the residual chlorine of the stagnant water is measured, compared with the residual chlorine threshold value, and the turbidity of the stagnant water is measured to compare with the turbidity threshold value.

More specifically, in order to compare the water quality of the stagnant water in step 410 with the water quality threshold, the residual chlorine of the stagnant water is measured and compared with the residual chlorine threshold, and the turbidity of the stagnant water is measured and compared with the turbidity threshold. The detailed description of this step corresponds to the detailed description of the water quality measurement unit 110 and the water quality determination unit 120 of FIG. 1, and the detailed description of the water quality measurement unit 110 and the water quality determination unit 120 Replace it with a detailed description.

If the measurement value of the residual chlorine in the stagnant water is lower than the threshold value of the residual chlorine or the measured value of the turbidity of the stagnant water is higher than the turbidity threshold value, .

More specifically, when the measured value of the residual chlorine in the stagnant water is lower than the threshold value of the residual chlorine or the measured value of the turbidity of the stagnant water is higher than the turbidity threshold value as a result of the comparison in the step 510, . That is, it is determined whether the measured value of the stagnant water quality is lower than the water quality threshold. The detailed description of this step corresponds to the detailed description of the water quality judging unit 120 of FIG. 1, and is replaced with a detailed description of the water quality judging unit 120 of FIG.

In step 610, when the stagnant water quality is higher than the water quality threshold continuously for a second time threshold or more in a state where the drain valve is open, the stagnating water valve is closed to stop the stagnation of the stagnation water.

More specifically, in step 430, the water quality of the stagnant water is measured in real time by opening the drain valve to remove the stagnant water. When the stagnant water quality is continuously higher than the water quality threshold for the second time threshold or more, The water withdrawal valve is closed to stop the withdrawal of the stagnant water. The detailed description of this step corresponds to the detailed description of the discharge valve control unit 130 of FIG. 1, and is replaced with a detailed description of the discharge valve control unit 130 of FIG.

In step 710, when the stagnant water quality is lower than the water quality threshold, it is informed to the manager that the stagnant water needs to be discharged.

More specifically, the congestion water quality information is provided to the manager in real time or periodically so that the manager can know the current situation. 1 corresponds to the detailed description of the communication unit 140 of FIG. 1, and the communication unit 140 of FIG. 1 is described in detail.

8 is a flowchart of a congestion control method according to another embodiment of the present invention.

It is determined 811 whether the control mode is the remote mode. If it is not a remote mode, it controls 812 whether or not to withdraw from the field control panel. In remote mode, initially, the drain valve is closed and started (813). Then, turbidity and residual chlorine are measured and compared with the threshold value (814) to determine the quality of stagnant water. For example, if the drinking water quality standard is a threshold value, the turbidity is judged to be higher than 0.5 NTU, and the residual chlorine is judged to be lower than 0.1 mg / l. This threshold can be set differently depending on the field conditions. If the turbidity or the residual chlorine is out of the threshold value as a result of the comparison, the water quality outside the threshold value and the water quality during that time are checked (815). If the water quality does not improve above the first time threshold, an alarm is generated (816) to the administrator or operator. When the operation mode of the drain valve is the manual mode 817, the drain valve is operated only when the operation command button of the drain valve is depressed (818), and the drain valve is operated (819) . Turbidity and residual chlorine are also used (820) to determine the quality of stagnant water in real time as the water is removed. When the turbidity and the residual chlorine are within the critical value, the flow rate, time, and water quality are checked (821), and the water removal valve is closed in the remote mode (811)

Embodiments of the present invention may be implemented in the form of program instructions that can be executed on various computer means and recorded on a computer readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

As described above, the present invention has been described with reference to particular embodiments, such as specific elements, and specific embodiments and drawings. However, it should be understood that the present invention is not limited to the above- And various modifications and changes may be made thereto by those skilled in the art to which the present invention pertains.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

100: Congestion water withdrawal system
110: Water quality measurement unit
120: water quality judgment unit
130: a withdrawal valve control section
140:

Claims (15)

Sampling the stagnant water at the previous stage of the exit point of the stagnation zone conduit, measuring the water quality and comparing with the water quality threshold;
Determining whether the measured value of the stagnant water quality is lower than the water quality threshold;
If the stagnant water quality is lower than the water quality threshold continuously for more than the first time threshold, opening the stagnant water withdrawing valve until the stagnated water quality becomes higher than the water quality threshold and discharging the stagnant water to the stagnant canal Including,
The stagnant water is located in the stagnant zone in the water line,
Wherein the water quality of the stagnant water, the water quality of the stagnant water, the water quality of the stagnant water, the water quality of the stagnant water, the water quality of the stagnant water, the water quality of the stagnant water and the water amount of the stagnant water are adjusted. The method according to claim 1,
Wherein the step of comparing the quality of the stagnant water with the water quality threshold comprises:
The residual chlorine of the stagnant water is measured and compared with the residual chlorine threshold value, the turbidity of the stagnant water is measured and compared with the turbidity threshold value,
Determining whether the measured value of the stagnant water quality is lower than the water quality threshold,
When the measured value of the residual chlorine in the stagnant water is lower than the threshold value of the residual chlorine or when the measured value of the turbidity of the stagnant water is higher than the turbidity threshold value, it is determined that the measured value of the stagnant water quality is lower than the water quality threshold The method of withdrawal from the congested area. delete The method according to claim 1,
Further comprising the step of stopping the withdrawal of the congestion water by closing the congestion valve of the congestion water when the congestion water quality is continuously higher than the water quality threshold for a second time threshold or more with the withdrawal valve being open, Water submergence method. The method according to claim 1,
Further comprising the step of: if the stagnant water quality is lower than the water quality threshold, providing information to the manager that the stagnant water needs to be discharged. The method according to claim 1,
When the operation mode of the water outlet valve of the stagnant water is set to the manual mode,
Wherein the water drain valve is operated by receiving the water drain valve operation command from the manager. The method according to claim 1,
Wherein the cross-sectional area of the water discharge pipe through which the stagnant water is discharged is at least 60% of the cross-sectional area of the water pipe. The method according to claim 1,
Determining whether the accumulated water amount of the stagnant water is higher than the accumulated water amount threshold;
And providing an alarm to the manager when the accumulated water amount of the stagnant water is higher than the accumulated water amount threshold,
Wherein the stagnant water withdrawal valve can be manually controlled by an administrator. A water quality measuring unit for measuring water quality of stagnant water;
A water quality judging unit comparing the measured water quality of the stagnant water with a water quality threshold to determine whether the measured value of the stagnant water quality is lower than the water quality threshold; And
A water discharge valve for opening the water discharge valve of the stagnant water and discharging the stagnant water to the stagnant water pipe until the stagnant water quality is higher than the water quality threshold when the stagnation water quality is lower than the water quality threshold continuously for the first time threshold or more And a control unit,
The stagnant water is located in the stagnant zone in the water line,
Wherein the water quality of the stagnant water is adjusted in consideration of the water quality of the stagnant water, the water quantity of the water pipe, and the accumulated water quantity of the stagnant water currently being collected. 10. The method of claim 9,
The water quality judgment unit,
The residual chlorine of the stagnant water is measured and compared with the residual chlorine threshold value and the turbidity of the stagnant water is measured and compared with the turbidity threshold value so that the measured value of the residual chlorine of the stagnant water is lower than the threshold value of the residual chlorine, Wherein the determination unit determines that the measured value of the stagnant water quality is lower than the water quality threshold when the measured value of turbidity is higher than the turbidity threshold value. delete 10. The method of claim 9,
The withdrawal valve control unit,
Wherein when the stagnant water quality is higher than the water quality threshold continuously for a second time threshold or more in a state where the drain valve is open, the stagnant water is stopped from being discharged by closing the stagnant water discharge valve Drainage system. 10. The method of claim 9,
Further comprising a communication unit for providing information to the manager that the congestion water needs to be withdrawn when the congestion water quality is lower than the water quality threshold. 10. The method of claim 9,
The withdrawal valve control unit,
When the operation mode of the water outlet valve of the stagnant water is set to the manual mode,
Wherein the water discharge valve operation command is received from an administrator to operate the water discharge valve. 10. The method of claim 9,
And an alarm providing unit for providing an alarm to the manager when it is determined that the accumulated water amount of the stagnant water is higher than the accumulated water amount threshold and the accumulated water amount of the stagnant water is higher than the accumulated water amount threshold,
Wherein the stagnant water withdrawal valve is manually controllable by a manager.

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