KR102313700B1 - Water supply network automatic drain valve system based on ICT monitoring - Google Patents

Abstract

The present invention relates to an ICT monitoring-based automatic drain valve system for a top water pipe network, which can prevent impurities from flowing into homes, comprising: an automatic drain valve control device (10); a network (20); and a control management system server (30).

Description

Water supply network automatic drain valve system based on ITC monitoring

The present invention relates to a water pipe network automatic drain valve system based on ICT monitoring, and more specifically, when it detects that a flow rate stagnant section or turbid water occurs, it is transmitted from the indicator to the automatic drain valve and automatically drained to remove foreign substances from the water supply pipe. It relates to an ICT monitoring-based automatic water pipe network automatic drain valve system for automatically discharging turbid water to prevent impurities from flowing into homes in advance.

The drain (ITO) valve installed in the conventional water and sewer pipe is manually opened whenever there is a problem by the manager to solve the civil complaint, but it is not enough to manage a wide pipe network.

In other words, the existing drain (ITO) valve is installed in the main drain pipe, and is equipped with a drain valve, which is a downstream drain valve, and a drain valve in the main building. When the drain valve is shut off, a water shock occurs and the water supply area at the rear end is temporarily shut off. It has a side effect of being drained from time to time for a long time as it is a structure that washes in the same direction.

In addition, the flow rate loss is high, the water supply section at the rear end continues for a long time, and air pockets are generated inside the pipe due to the water shock action and frequent operation of the main water drain valve.

Separately, looking at the prior art, Korean Patent Application No. 10-202-00013648 (2020.02.05) "The water valve for the boundary valve with drainage installed at the bottom of the manhole and having a drainage function function)" is to install a water drain valve at the connection part of the pipe line and the pipe line connected to different water supply blocks inside the manhole, so that the water in the pipe line can be transferred in the desired direction through the water drain valve, and a single Alternatively, a plurality of Ito parts are further connected and installed to individually and selectively discharge rust and foreign substances in the pipeline, or to drain the water in the pipeline to the outside for various meter readings or water quality tests. It relates to a water drain valve for a boundary valve that is installed in a water outlet and has a water discharge function.

In addition, the Republic of Korea Patent Application No. 10-2012-0104954 (2012.09.21) No. "APPARATUS FOR REMOVING IMPURITIES INCLUDED IN WATER OF WATER PIPE" provides water to each home or office. It is installed at the front end of the water supply pipe, which can remove foreign substances such as rust or impurities contained in the water of the water supply pipe. It can be filtered with a filter and has high filtration efficiency, and even fine foreign substances of 0.1mm or less can be removed in advance. It can be used for a long time as it is manufactured to withstand the use of water for a long time, and it is possible to clean foreign substances only by draining. It is about a technology that can always provide clear and clean tap water to each place of use by cleaning it neatly.

In addition, the Republic of Korea Patent Application No. 10-2005-0122282 (2005.12.09) No. "3-way quality of water control valves" relates to the water quality control of the water supply pipe, the present invention The purpose is to measure the contamination status (red water, black water, turbidity, etc.) of tap water flowing along the pipeline by the water quality monitoring sensor, and according to the difference in degree, good tap water is supplied to each household. It relates to a 3-way water quality control valve that shuts off the pipeline leading to

In addition, the Republic of Korea Patent Application No. 10-2005-0018469 (05.03.05) "water quality pollution observation and control valveof feed pipe" is related to the monitoring and control of water quality in the water supply pipe. The object of the present invention is to measure the contamination status (red water, black water, turbidity, temperature, residual chlorine concentration, etc.) of tap water flowing along the pipeline and wirelessly transmit the level to the water quality monitor or the water quality monitoring central control room, It is related to the valve for monitoring and controlling the water quality of the water supply pipe that cuts off the supply to the household and determines the discharge of the sewage when it exceeds the standard value.

However, these conventional techniques have limitations in not solving the above-described problems.

Republic of Korea Patent Application No. 10-202-00013648 (2020.02.05) "The water valve for the boundary valve with drainage function installed at the bottom of the manhole" Korean Patent Application No. 10-2012-0104954 (2012.09.21) "APPARATUS FOR REMOVING IMPURITIES INCLUDED IN WATER OF WATER PIPE" Republic of Korea Patent Application No. 10-2005-0122282 (2005.12.09) No. "3-way quality of water control valves" Republic of Korea Patent Application No. 10-2005-0018469 (05.03.05) "Water quality pollution observation and control valveof feed pipe"

The present invention is to solve the above problems, and when it detects that a flow rate stagnant section or turbid water occurs, it is transmitted to the automatic drain valve from the indicating unit and automatically drained to automatically discharge foreign substances and turbid water from the water supply pipe and flow into the home. This is to provide an ICT monitoring-based water supply network automatic drain valve system to prevent impurities in advance.

In addition, the present invention provides an ICT monitoring-based water supply pipe network automatic drain in order to enable automatic management in a way that solves civil complaints by manually opening the drain (ITO) valve installed in the conventional water and sewer pipe whenever there is a problem. To provide a valve system.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the water pipe network automatic drain valve system based on ICT monitoring according to an embodiment of the present invention includes an automatic drain valve control device 10 , a network 20 and a control management system server 30 . In the water pipe network automatic drain valve system 100 based on ICT monitoring, the automatic drain valve control device 10 includes: an automatic drain valve 150; Turbidity sensor 120 that not only connects the branch pipe from the existing main water pipe to the branch pipe, but also detects water quality information and water pressure information in the area branching to the branch pipe And the water pressure sensor 130 is installed, the faucet 110 is installed; a turbidity sensor 120 installed behind the automatic drain valve 150 at a preset distance to detect a water quality value in advance to prepare the drain valve for operation; Water pressure sensor 130 installed to detect the water pressure flowing from the existing water supply pipe to the branch pipe; and a water quality display module for outputting water quality information provided from the turbidity sensor 120, a water pressure display module for outputting water pressure information provided from the water pressure sensor 130, and an automatic drain valve 150 formed in the rainwater pipe. It includes a flow rate display module that outputs the flow information provided from the flow meter 160, and provides information output from each module by transmitting and receiving signals and data with the control management system server 30 through the network 20, and provides water quality information a control display unit 140 for controlling the opening and closing of the automatic drain valve 150 according to the It is characterized in that it includes.

At this time, the automatic drain valve 150 is characterized in that it is an automatic water drain valve that is installed in the rainwater pipe branching from the water supply pipe and automatically opens the sluice gate by recognizing the value transmitted from the display support unit 140 .

In addition, the flow meter 160 detects the flow rate discharged and transmits it to the control display unit 140 in the RF method, and the control display unit 140 transmits the discharged flow rate to the control management system server 30 through the network 20 . It is characterized in that it is a device for calculating and managing the loss value.

In addition, the automatic drain valve control device 10 is characterized in that it is installed including the end of the flow velocity stagnant near the large water consumer where the water shock (water hammer) occurs to the installation site, and the end of the isolated section in the block.

In addition, the distance behind the preset distance from the automatic drain valve 150 is characterized in that 10 ~ 50m.

The water pipe network automatic drain valve system based on ICT monitoring according to an embodiment of the present invention automatically removes foreign substances and turbid water from the water supply pipe by sending it to the automatic drain valve from the indicating unit when detecting that a flow rate stagnant section or turbid water occurs. It can be discharged to prevent impurities from entering the household in advance.

In addition, the automatic drain valve system for water pipe network based on ICT monitoring according to another embodiment of the present invention, the drain (ITO) valve installed in the conventional water and sewage pipe is manually opened whenever there is a problem by the manager to solve civil complaints. It has the effect of enabling automatic management in the method.

1 is a diagram illustrating an ICT monitoring-based automatic water pipe network automatic drain valve system 100 according to an embodiment of the present invention.
2 is a block diagram showing the components of the control display unit 140 of the water pipe network automatic drain valve system 100 based on ICT monitoring according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, detailed description of preferred embodiments of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

In the present specification, when one component 'transmits' data or signal to another component, the component may directly transmit the data or signal to another component, and through at least one other component This means that data or signals can be transmitted to other components.

1 is a view showing an ICT monitoring-based water pipe network automatic drain valve system 100 according to an embodiment of the present invention. 2 is a block diagram showing the components of the control display unit 140 of the water pipe network automatic drain valve system 100 based on ICT monitoring according to an embodiment of the present invention.

First, referring to FIG. 1 , the water pipe network automatic drain valve system 100 based on ICT monitoring is a saddle fountain 110 , a turbidity sensor 120 , a water pressure sensor 130 , a control display unit 140 , an automatic It may include a drain valve 150 , an automatic drain valve control device 10 including a flow meter 160 , and a network 20 and a control management system server 30 .

The automatic drain valve control device 10 is suitable for the installation site at the end of the flow stagnant near the large water consumer where water shock (water hammer) frequently occurs, and at the end of the isolated section in the block.

First, looking at each component of the automatic drain valve control device 10 , the saddle water faucet 110 may be installed in an existing water supply pipe by a continuous method to form a branch pipe. That is, the saddle faucet 110 not only connects the branch pipe from the existing main water supply pipe, but also the turbidity sensor 120 and the water pressure sensor 130 for detecting water quality information and water pressure information of the area branching to the branch pipe are installed. .

The turbidity sensor 120 is installed behind a preset distance (eg, 10 to 50 m, more specifically, about 30 m) from the automatic drain valve 150 to detect the water quality value in advance to prepare the drain valve for operation. is installed That is, the turbidity detection sensor 120 corresponds to a sensor for detecting turbidity and foreign substances in water flowing from the existing water supply pipe to the branch pipe.

The water pressure sensor 130 corresponds to a sensor for detecting the water pressure flowing from the existing water supply pipe to the branch pipe.

As shown in FIG. 2, the control display unit 140 includes a water quality display module 143, a water pressure sensor ( 130) to include a water pressure display module 144 for outputting the water pressure information provided, and a flow rate display module 145 for outputting the flow rate information provided from the flow meter 160 formed at the rear end of the automatic drain valve 150 formed in the rainwater pipe. Also, it is possible to transmit and receive signals and data with the control management system server 30 through the network 20 .

The automatic drain valve 150 may be an automatic water drain valve that is installed in a rainwater pipe branching from a water supply pipe and automatically opens the sluice gate by recognizing the value transmitted from the display support unit 140 .

The flow meter 160 detects the flow rate discharged and transmits it to the control display unit 140 in the RF method, and the control display unit 140 transmits the flow rate loss value to the control management system server 30 through the network 20. It is a device that calculates and manages

Through this configuration, the control display unit 140 receives the water quality information from the turbidity detection sensor 120 and the water pressure information from the water pressure detection sensor 130, and then the water quality level above the preset turbidity occurs from the water quality information, or from the water pressure information. When a preset flow rate stagnation step occurs, the turbid water from the water supply pipe is automatically discharged into the rainwater pipe through the control of the automatic drain valve 150, thereby automatically discharging foreign substances and turbid water from the water supply pipe to prevent impurities flowing into the home. can be prevented in advance.

Here, the time timer module 141 of the control display unit 140 receives the water quality information, which is the turbidity (water quality) value, transmitted from the turbidity sensor 120 at a preset period, and transmits the water quality information to the automatic drain valve 150 in the automatic drain. carry out

On the other hand, the valve rotation instruction module 142 of the control display unit 140 receives the water quality information, which is the turbidity (water quality) value, transmitted from the turbidity sensor 120, and transmits it to the automatic drain valve 150. It plays a role in controlling the flow rate.

That is, the valve rotation instructing module 142 serves to adjust the opening information of the automatic drain valve 150 while maintaining the water pressure from the water pressure information provided from the water pressure sensor 130 to a preset error water pressure.

In the case of a section with a high flow rate, when the automatic drain valve 150 is manually opened 100%, the flow rate acts four times faster to perform flushing custom-washing. Corresponds to the method of artificially washing with force and friction, but in the case of flushing customs washing, damage to the rainwater pipe occurs depending on the material of the rainwater pipe. It is a device instructing to control the opening of the drain valve 150 to discharge only turbidity and foreign substances depending on the state.

On the other hand, the control management system server 30 receives the flow rate information discharged from the flow meter 160 from the control display unit 140 of each automatic drain valve control device 10 through the network 20 , and then each automatic drain valve The flow rate information may be stored in the database in units of a preset period by using the control device ID of the control device 10 as metadata.

The control management system server 30 may generate a pattern for the discharge flow rate information in units of a preset period for each control device ID.

More specifically, the control management system server 30 may calculate the total amount and the average amount of the discharge flow rate information for each control device ID in a preset period unit and store it in the database.

In addition, the control management system server 30 extracts, through its own big data DB, the number of households set for each control device ID and the number of members per household, along with the total and average amount of discharge flow information, and the extracted number of households and each household. It is possible to store the information on the number of people in the database as metadata of the control device ID together with the discharge flow rate information in units of a preset period.

The control management system server 30 is the opposite where the saddle fountain 110 of the branch pipes among the current automatic drain valve control devices 10 is formed based on the average amount of the discharge flow rate information for each control device ID in a preset period unit. After extracting the average inflow flow information for a preset period from the current of the control device ID and inflow flow information (or water pressure) from the inflow flowmeter installed in addition to the single customer from the big data DB, the unit time inflow flow rate of the current inflow flowmeter The quantitative numerical value obtained by extracting the first flow information as information and the second flow information as the same unit time outflow flow information provided from the flow meter 160 and subtracting the first flow information from the average inflow flow information is negative. If the value of the quantitative value obtained by subtracting the average inflow flow information from the quantitative value obtained by performing addition between the first flow rate information and the second flow rate information is a positive value, excessive existing water supply Provided to the control display unit 140 of the automatic drain valve control device 10 through the network 20 a control command to improve the opening ratio of the automatic drain valve 150 in proportion to the result value determined by the inflow from the pipe can do.

In addition, the control management system server 30 is based on the average amount of the discharge flow rate information for each control device ID in a preset period unit, the current automatic drain valve control device 10 of each automatic drain valve control device 10 of the branch pipe. After extracting the average inflow flow information for a preset period from the present of the control device ID and the inflow flow information (or water pressure) from the inflow flowmeter installed in addition to the opposite end, the customer, from the big data DB, the unit time of the current inflow flowmeter A quantitative numerical value obtained by extracting the first flow rate information, which is inflow flow information, and the second flow information, which is the same unit time outflow flow rate information provided from the flow meter 160, and subtracting the first flow rate information from the average inflow flow rate information. is a negative value, and when the quantitative value obtained by subtracting the second flow rate information from the first flow rate information is greater than or equal to the first threshold value corresponding to a preset positive number, the turbidity sensor 120 and the water pressure sensor ( 130), the automatic drain valve 150 does not operate according to a failure in one of the automatic drain valve 150 and the flow meter 160, and a warning message indicating the risk of supplying wastewater to the consumer is sent to the network 20. Through this, it can be provided to the control display unit 140 of the automatic drain valve control device 10 .

In another embodiment of the present invention, the control and management system server 30 is a saddle of each current automatic drain valve control device 10 based on the average amount of discharge flow rate information for each control device ID in a preset period unit. After extracting the average inflow flow information for a preset period from the current of the control device ID and the inflow flow information (or water pressure) from the inflow flow meter additionally installed at the opposite end where the fountain 110 is formed, on the big data DB, the current Extracts the first flow rate information, which is unit time inflow flow rate information of the inflow flow meter, and the second flow information, which is the same unit time outflow flow rate information provided from the flow meter 160, and subtracts the first flow rate information from the average inflow flow rate information. ) is a positive value, and the result value is a quantitative value obtained by subtracting the average inflow flow information from the quantitative value performing an addition between the first flow rate information and the second flow rate information. If is a negative value, a control command to improve the opening ratio of the automatic drain valve 150 in inverse proportion to the result value is judged as an inflow from the existing water supply pipe too little through the network 20 to the automatic drain valve control device 10 ) by providing the control display unit 140 of the control display unit 140, even if the turbidity is high, not only control to expand the supply to the consumer, but also control to display the high turbidity by the water quality display module 143 of the control display unit 140 can do.

In addition, the control management system server 30 is based on the average amount of the discharge flow rate information for each control device ID in a preset period unit, the current automatic drain valve control device 10 of each automatic drain valve control device 10 of the branch pipe. After extracting the average inflow flow information for a preset period from the present of the control device ID and the inflow flow information (or water pressure) from the inflow flowmeter installed in addition to the opposite end, the customer, from the big data DB, the unit time of the current inflow flowmeter A quantitative numerical value obtained by extracting the first flow rate information, which is inflow flow information, and the second flow information, which is the same unit time outflow flow rate information provided from the flow meter 160, and subtracting the first flow rate information from the average inflow flow rate information. is a positive value, and with respect to the average inflow flow rate information, a quantitative value obtained by subtraction of a quantitative value obtained by performing an addition between the first flow rate information and the second flow rate information is a preset positive number is equal to or greater than the second threshold value (the second threshold value is a natural number equal to or different from the first threshold value) or more, and the second flow rate information is preset compared to the average flow information of the automatic drain valve 150 in the same time period. If the error range is greater than the error range, the automatic drain valve 150 may not operate according to a failure in one of the turbidity detection sensor 120 and the water pressure detection sensor 130, the automatic drain valve 150, and the flow meter 160 A warning message indicating the risk of supply to the consumer may be provided to the control display unit 140 of the automatic drain valve control device 10 through the network 20 .

The present invention can also be implemented as computer-readable codes on a computer-readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data readable by a computer system is stored.

Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage device, etc. also includes

In addition, the computer-readable recording medium is distributed in a computer system connected to a network, so that the computer-readable code can be stored and executed in a distributed manner. And functional programs, codes, and code segments for implementing the present invention can be easily inferred by programmers in the technical field to which the present invention pertains.

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms are used, these are only used in a general sense to easily explain the technical contents of the present invention and to help the understanding of the present invention. , it is not intended to limit the scope of the present invention. It is apparent to those of ordinary skill in the art to which the present invention pertains that other modifications based on the technical spirit of the present invention can be implemented in addition to the embodiments disclosed herein.

100: ICT monitoring-based water pipe network automatic drain valve system
110: Saddle fountain jeon 120: Turbidity sensor
130: water pressure sensor 140: control display unit
150: automatic drain valve 160: flow meter
10: automatic drain valve control device 20: network
30: control management system server

Claims (5)

In the automatic drain valve control device 10, and the ICT monitoring-based water pipe network automatic drain valve system 100 including the network 20 and the control management system server 30,
Automatic drain valve control device (10),
As an installation site, it is formed at the end of the flow stagnation near the large water consumer where water shocks frequently occur, and at the end of the isolated section in the block, and the saddle fountain 110, turbidity sensor 120, water pressure sensor 130, control display unit 140 ), including an automatic drain valve 150, a flow meter 160,
Saddle fountain jeon (110),
Turbidity sensor 120 and water pressure sensor ( 130) is installed,
The turbidity sensor 120 is,
It is installed behind a preset distance from the automatic drain valve 150 to detect the water quality value in advance to prepare the drain valve for operation in advance. ,
The water pressure sensor 130,
Corresponds to a sensor that detects the water pressure flowing from the water supply pipe to the branch pipe,
Control display unit 140,
In addition to the time timer module 141 and the valve rotation instructing module 142, the water quality display module 143 for outputting water quality information provided from the turbidity sensor 120, and the water pressure information provided from the water pressure sensor 130 are output. It includes a water pressure display module 144 and a flow rate display module 145 for outputting flow information provided from a flow meter 160 formed at the rear end of the automatic drain valve 150 formed in the rainwater pipe, and a control management system through the network 20 It performs signal and data transmission and reception with the server 30,
The automatic drain valve 150 is
It is an automatic water drain valve that is installed in the rainwater pipe branching from the water supply pipe and automatically opens the sluice gate by recognizing the value transmitted from the display part support unit 140,
The flow meter 160 is
The discharged flow rate is sensed and transmitted to the control display unit 140 in the RF method, and the control display unit 140 transmits it to the control management system server 30 through the network 20 to calculate and manage the discharged flow rate loss value. ,
Control display unit 140,
After receiving the water quality information from the turbidity sensor 120 and the water pressure information from the water pressure sensor 130, a water quality level above a preset turbidity occurs from the water quality information, or a preset flow velocity stagnant step occurs from the water pressure information. Through the control of the drain valve 150, the turbid water from the water supply pipe is automatically discharged into the rainwater pipe, and foreign substances and turbid water from the water supply pipe are automatically discharged to prevent impurities from flowing into the home in advance.
The time timer module 141 of the control display unit 140,
It receives the water quality information, which is the turbidity (ie, water quality) value, transmitted from the turbidity sensor 120 at a preset period and transmits it to the automatic drain valve 150 in the automatic drain,
The valve rotation instruction module 142 of the control display unit 140,
It receives the water quality information that is the turbidity value transmitted from the turbidity sensor 120 and transmits it to the automatic drain valve 150 to control the flow rate when the water is discharged through the valve opening,
It serves to adjust the opening information of the automatic drain valve 150 while maintaining the water pressure from the water pressure information provided from the water pressure sensor 130 to the preset error water pressure,
Control management system server 30,
After receiving the flow rate information discharged from the flow meter 160 from the control display unit 140 of each automatic drain valve control device 10 through the network 20, the control device ID of each automatic drain valve control device 10 is displayed. It stores flow information as metadata in the database for a preset period,
For each control device ID, create a pattern for the discharge flow rate information in a preset period unit, but calculate the total and average amount of the discharge flow rate information in a preset period unit for each control device ID and store it in the database,
After extracting the total and average amount of discharge flow information, as well as the number of households set by each control device ID and the number of members per household through its own big data DB, the extracted information on the number of households and members per household is discharged in a preset period unit It stores the control device ID as metadata along with the flow information in the database,
Based on the average amount of discharge flow rate information for each control unit ID in advance for each control unit ID, among the current automatic drain valve control devices 10, the inflow additionally installed at the opposite end where the saddle fountain 110 is formed among the branch pipes After extracting the average inflow flow information for a preset period from the current of the control device ID and inflow flow information (or water pressure) from the flowmeter from the big data DB, the first flow information and the flowmeter, which are unit time inflow flow information of the current inflow flowmeter, The quantitative value obtained by extracting the second flow rate information, which is the same unit time outflow flow rate information provided in 160, and performing the subtraction of the first flow rate information from the average inflow flow rate information, is a negative value, and the first flow rate information If the quantitative value obtained by subtracting the average inflow flow rate information from the quantitative value added between and the second flow rate information is positive, it is judged as excessive inflow from the existing water supply pipe and automatically A control command for improving the opening ratio of the drain valve 150 in proportion to the result is provided to the control display unit 140 of the automatic drain valve control device 10 through the network 20,
Based on the average amount of discharge flow rate information for each control unit ID in advance for each control unit ID, among the current automatic drain valve control devices 10, the inflow additionally installed at the opposite end where the saddle fountain 110 is formed among the branch pipes After extracting the average inflow flow information for a preset period from the current of the control device ID and inflow flow information (or water pressure) from the flowmeter from the big data DB, the first flow information and the flowmeter, which are unit time inflow flow information of the current inflow flowmeter, The quantitative value obtained by extracting the second flow rate information, which is the same unit time outflow flow rate information provided in 160, and performing the subtraction of the first flow rate information from the average inflow flow rate information, is a negative value, and the first flow rate information When the quantitative value obtained by subtracting the second flow rate information in the turbidity sensor 120 and the water pressure sensor 130, the automatic drain valve 150 and According to the failure of one of the flow meters 160, the automatic drain valve 150 does not operate, and a warning message indicating the risk of supplying wastewater to the consumer is transmitted through the network 20 of the automatic drain valve control device 10. Provided to the control display unit 140,
Based on the average amount of discharge flow rate information for each control unit ID in advance for each control unit ID, among the current automatic drain valve control devices 10, the inflow additionally installed at the opposite end where the saddle fountain 110 is formed among the branch pipes After extracting the average inflow flow information for a preset period from the current of the control device ID and inflow flow information (or water pressure) from the flowmeter from the big data DB, the first flow information and the flowmeter, which are unit time inflow flow information of the current inflow flowmeter, The quantitative value obtained by extracting the second flow rate information, which is the same unit time outflow flow rate information provided in 160, and performing the subtraction of the first flow rate information from the average inflow flow rate information, is a positive value, and the first flow rate information If the quantitative value obtained by subtracting the average inflow flow rate information from the quantitative value performed between the and the second flow rate information is negative, it is judged as an inflow from the existing water supply pipe too small By providing a control command to improve the opening ratio of the automatic drain valve 150 in inverse proportion to the result value to the control display unit 140 of the automatic drain valve control device 10 through the network 20, the customer can accept it regardless of the turbidity Not only control so as to expand the supply to the furnace, but also control to display high turbidity with the water quality display module 143 of the control display unit 140,
Based on the average amount of discharge flow rate information for each control unit ID in advance for each control unit ID, among the current automatic drain valve control devices 10, the inflow additionally installed at the opposite end where the saddle fountain 110 is formed among the branch pipes After extracting the average inflow flow information for a preset period from the current of the control device ID and inflow flow information (or water pressure) from the flowmeter from the big data DB, the first flow information and the flowmeter, which are unit time inflow flow information of the current inflow flowmeter, The quantitative value obtained by extracting the second flow rate information, which is the same unit time outflow flow rate information provided in 160, and performing the subtraction of the first flow rate information from the average inflow flow rate information is a positive value, and the average inflow flow rate information With respect to , a second threshold value (second threshold value) corresponding to a preset positive number, the result of which is a quantitative value obtained by performing subtraction of a quantitative value obtained by performing addition between the first flow rate information and the second flow rate information The threshold value is equal to or greater than a natural number equal to or different from the first threshold value) or more, and when the second flow rate information is greater than or equal to a preset error range compared to the average flow information of the automatic drain valve 150 in the same time period, the turbidity detection sensor 120 and a warning message indicating that the automatic drain valve 150 does not work according to a failure in one of the water pressure sensor 130, the automatic drain valve 150, and the flow meter 160, as well as the risk of supplying wastewater to the consumer. ICT monitoring-based water pipe network automatic drain valve system, characterized in that it is provided to the control display unit 140 of the automatic drain valve control device 10 through the network 20.
The method according to claim 1, The valve rotation instruction module 142,
ICT monitoring-based water pipe network automatic drain valve system, which instructs to control the opening of the automatic drain valve 150 to discharge only turbidity and foreign substances depending on the state while maintaining the existing flow rate to prevent involuntary flushing .
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