KR102440285B1 - System for Waterworks Network Management - Google Patents

Abstract

The present invention relates to a water supply network management system capable of quickly replacing water supply pipes and bypassing water sources as the water supply pipe network is managed by a control server. Specifically, the water supply network management system includes: a water supply pipe network which supplies water sources for each block of units; a measurement device which is formed in the water supply pipe network, and measures the flow rate and flow amount of the water sources; a control server which communicates with the measurement device and monitors the water supply pipe network; and a control server which is formed in the control server and controls the path of the water source moving in the water supply pipe network.

Description

Waterworks Network Management System {System for Waterworks Network Management}

The present invention relates to a waterworks network management system that can quickly replace a waterworks pipe and divert a water supply source as the waterworks pipe network is managed by a control server.

Patent Invention 001 is a waterworks facility management unit that monitors and measures the condition of waterworks and transmits state information data obtained in real time; and an integrated type that receives and analyzes the state information data from the waterworks facility management unit and automatically transmits an alarm signal to an external user terminal when it is determined that the analysis result exceeds a reference value, and remotely monitors and controls the waterworks facility A technology including a remote monitoring and control system is presented.

Patent Invention 002 is installed in each block of a water supply pipe network that is blocked for each unit block, and includes a flow measuring unit that measures the flow rate, flow rate, and water level of water for each area, a water quality measuring unit that measures water quality, and a water pressure measuring unit that measures water pressure data measuring means; The measurement data measuring the flow rate, flow rate, water level, water quality, and water pressure of the water supply are collected in real time from the data measurement means through a wired/wireless communication network, and based on the collected measurement data, using algorithms stored in advance of the water supply pipe network a web server that performs calculations and analysis for monitoring, analysis and maintenance, and transmits the calculation and analysis results; a user terminal for outputting the result by accessing the web server through the Internet; and a Geographic Information System (GIS) server for providing a waterworks network diagram of the waterworks network by interworking with the web server through the Internet; technology, including

In the patent invention 003, the pipe network management system of the waterworks block by unit block is installed in each block of the waterworks pipe network to measure the flow rate of water by each block, the constant A pipe network management server and the pipe network management that obtains and stores the flow data measured by the flow rate of and a user terminal that accesses the server to request registration of a user-defined pattern for a specific block, and outputs the leak alarm, wherein the pipe network management server requests to register the user-defined pattern among flow data stored for the specific block Generates a flow rate pattern according to time using flow data corresponding to a specified period included in When the difference value of the flow data value on the user-defined pattern corresponding to the value exceeds the allowable range, a technology for alarming the water leak is proposed.

Patent Invention 004 is installed in each block of a water supply pipe network that is blocked for each unit block, and includes a flow measuring unit that measures the flow rate, flow rate, and water level of water for each area, a water quality measuring unit that measures water quality, and a water pressure measuring unit that measures water pressure data measuring means; The measurement data measuring the flow rate, flow rate, water level, water quality, and water pressure of the water supply are collected in real time from the data measurement means through a wired/wireless communication network, and based on the collected measurement data, using algorithms stored in advance of the water supply pipe network a web server that performs calculations and analysis for monitoring, analysis and maintenance, and transmits the calculation and analysis results; a user terminal for outputting the result by accessing the web server through the Internet; and a Geographic Information System (GIS) server that provides a waterworks network diagram of the waterworks network by interworking with the web server through the Internet.

US 10-1912898 B1 (October 23, 2018) US 10-1183656 B1 (September 11, 2012) US 10-1554981 B1 (September 16, 2015) US 10-2011-0065088 A (June 15, 2011)

The present invention relates to a waterworks network management system that can quickly replace a waterworks pipe and divert a water supply source as the waterworks pipe network is managed by a control server.

In order to solve the problems of the prior inventions, the present invention relates to a water supply network management system and a water supply pipe network 100 for supplying a water source for each unit block-blocked area; It is formed in the water supply pipe network 100, the measuring device 400 for measuring the flow rate and flow rate of the water source; a control server 500 communicating with the measuring device 400 and monitoring the water supply pipe network 100; It is formed in the control server 500, the control server 600 for controlling the path of the water source moving in the water supply pipe network 100; consists of a configuration including a.

The present invention relates to a water supply network management system and is an invention, the water supply pipe network 100 presented above; measuring device 400; control server 500; Control server 600; is formed in the water supply pipe network 100 in the invention consisting of, and a supply unit 110 to which a water source is supplied; a distribution unit 120 connected to the supply unit 110 and distributing a water source to the houses in the area; It is connected to the distribution unit 120, the discharge unit 130 for discharging waste water; is added.

The present invention relates to a water supply network management system and is an invention, the water supply pipe network 100 presented above; measuring device 400; control server 500; Control server 600; is formed in the distribution unit 120 in the invention consisting of, a water supply pipe 121 through which the water source moves; It is formed between a plurality of the water supply pipe 121, the bypass pipe 122 for moving the water source by detour; is added.

The present invention relates to a water supply network management system and is an invention, the water supply pipe network 100 presented above; measuring device 400; control server 500; Control server 600; is formed in the distribution unit 120 in the invention consisting of, a control valve 200 for controlling the movement direction of the water source; A pressure pump 300 connected to the control valve 200 and regulating the pressure of the water source; is added.

The present invention relates to a water supply network management system and is an invention, the water supply pipe network 100 presented above; measuring device 400; control server 500; The control server 600; is formed in the pressure pump 300 in the invention consisting of, the power unit 310 rotated by power; It is formed on both sides of the power unit 310, respectively, the pressurizing device 320 for applying pressure to the water source; is added.

The present invention relates to a water supply network management system and is an invention, the water supply pipe network 100 presented above; measuring device 400; control server 500; A control server 600; is formed in the measuring device 400 to the invention consisting of, and a water leak detection device 410 for detecting aging and water leakage of the water supply pipe 121; is added.

The present invention relates to a water supply network management system and is an invention, the water supply pipe network 100 presented above; measuring device 400; control server 500; a control server 600; a communication unit 510 formed in the control server 500 in the invention comprising: a communication unit 510 for communicating with the measurement device 400; an analysis unit 520 for calculating and analyzing the measurement data of the constant source received from the communication unit 510; It is formed in the analysis unit 520, and a determination unit 530 for determining the location of the old and leaking water supply pipe 121; is added.

The present invention relates to a water supply network management system and is an invention, the water supply pipe network 100 presented above; measuring device 400; control server 500; Control server (600); formed in the control server (600) in the invention consisting of, a blocking unit (610) for blocking the old and leaking water supply pipe (121) determined by the control server (500); A bypass portion 620 formed in the blocking portion 610 and controlling the control valve 200 to divert the water source to the bypass pipe 122; is added.

According to the present invention, the old and leaking water pipe can be measured simply as the water pipe of the water pipe network and the control server communicate.

According to the present invention, when it is determined that the bypass pipe is formed and the water supply pipe is old and leaking, the water source can be blocked and diverted to the bypass pipe.

The present invention is to prevent the water hammer phenomenon by gradually increasing the pressure of the water source supplied to the bypass pipe by forming a plurality of pressurizing devices in the pressure pump.

The present invention can effectively supply a water source by controlling the control valve and the pressure pump by the control server.

According to the present invention, a measuring sensor is formed so that it can always detect a water source.

1 is an exemplary view of a water supply network management system of the present invention.
Figure 2 is a block diagram of the water supply network management system shown in Figure 1.
3 to 4 is a conceptual diagram of the water supply network management system of the present invention.
5 is a conceptual diagram showing a distribution unit of the present invention.
6 is a cross-sectional view showing the pressure pump of the present invention.
7 is a graph showing the pressure of the pressure pump of the present invention.
8 is a cross-sectional view showing a water leak detection device of the present invention.

Hereinafter, the most preferred embodiment of the present invention will be described in detail in order to be described in detail enough to be easily practiced by those of ordinary skill in the art to which the present invention pertains.

The numbers cited in the examples below are not limited only to the objects of reference, and may be applied to all examples. An object that exhibits the same purpose and effect as the configuration presented in the embodiment corresponds to an equivalent replacement object. The higher-level concept presented in the examples includes sub-concept objects that are not described.

(Embodiment 1-1) The present invention provides a waterworks network management system, comprising: a waterworks pipe network 100 for supplying a water source for each unit-blocked area; It is formed in the water supply pipe network 100, the measuring device 400 for measuring the flow rate and flow rate of the water source; a control server 500 communicating with the measuring device 400 and monitoring the water supply pipe network 100; It is formed in the control server 500, the control server 600 for controlling the path of the water source moving in the water supply pipe network (100); includes.

(Example 1-2) The waterworks network management system of the present invention, in Example 1-1, wherein the zone is formed by unitizing one selected among dong, gu, and myeon of the city where the water source is supplied as a unit block; including; do.

(Embodiment 1-3) The water supply network management system of the present invention according to Embodiment 1-1, wherein the water supply pipe network 100 moves the water source supplied from the water treatment plant to the entire city.

(Embodiment 1-4) The waterworks network management system of the present invention according to Embodiment 1-1, wherein the measuring device 400 includes a communication device 420 that communicates with the control server 500;

(Embodiment 1-5) The water supply network management system of the present invention according to Embodiment 1-1, wherein the control server 500 includes a display on which the water supply pipe network 100 is displayed.

The present invention relates to a water supply network management system. Specifically, the waterworks network management system monitors the movement of water sources in the city to effectively replace the leaky pipes according to the aging and damage of the waterworks pipes. Referring to FIGS. 1 and 2, the water supply network management system monitors the water supply pipe network 100 that is buried throughout the city and installed at a location where water sources such as houses and parks are supplied. A network of water supply pipes installed throughout. Such a water supply pipe network 100 supplies water sources to various areas such as dong, gu, and myeon of the city where the water source is supplied. And through the water supply pipe network 100, it is possible to simply check and manage old or leaking water supply pipes for each zone.

In this way, in order to manage old or leaking water supply pipes in the water supply pipe network 100, a measuring device 400 is formed in a plurality of water supply pipes, and the measuring device 400 collects various information such as water pressure, flow rate, and flow rate of the water source. It is possible to determine the condition of the water supply pipe by measuring it.

The information measured by the plurality of measurement devices 400 is transmitted to the control server 500 through the communication device 420 , and the control server 500 collects information measured by the plurality of measurement devices 400 and displays it. As the water supply pipe network 100 is displayed in the

Therefore, the waterworks network management system of the present invention has a feature that can effectively manage the status of a plurality of waterworks pipes by checking the waterworks network 100.

(Embodiment 2-1) The present invention relates to a water supply network management system, and in Embodiment 1-1, the water supply pipe network 100 is formed, and the supply unit 110 to which a water source is supplied; a distribution unit 120 connected to the supply unit 110 and distributing a water source to the houses in the area; It is connected to the distribution unit 120, the discharge unit 130 for discharging the sewage; includes;

(Embodiment 2-2) The waterworks network management system of the present invention according to Embodiment 2-1, wherein the supply unit 110 is formed as a water treatment plant that is delivered from a water collection source and purifies.

(Embodiment 2-3) In Embodiment 2-2, the water supply network management system of the present invention is formed in the distribution unit 120, the water supply pipe 121 to which the water source moves; It is formed between the plurality of the water supply pipe 121, the bypass pipe 122 to bypass the water source and move it; includes.

(Embodiment 2-4) The water supply network management system of the present invention in Embodiment 2-1, wherein the water supply pipe 121 is formed to be spaced apart from each other in plurality.

(Embodiment 2-5) The waterworks network management system of the present invention in Embodiment 2-1, the discharge unit 130 includes a discharge pipe 131 through which sewage is discharged; A plurality of the discharge pipe 131 is connected, the sewage treatment plant 132 for purifying the sewage; includes.

The present invention relates to a water supply pipe network 100, and specifically, the water supply pipe network 100 is formed in a plurality of zones to supply and move water sources. Referring to FIGS. 3 to 4 , the water supply pipe network 100 is provided with a supply unit 110 for supplying a water source to each zone to a water treatment plant where unpurified water is delivered and purified from a water collection source. In this case, the supply unit 110 is formed in plurality, and receives water from a water collecting source formed in a reservoir, river, lake, etc., purifies it, and supplies it to the distribution unit 120 . In addition, the supply unit 110 supplies a water source to the distribution unit 120 as a plurality of water treatment plants are formed outside the city to purify water. In addition, the distribution unit 120 is formed with a water supply pipe 121 through which the water source moves, and the water supply pipe 121 is installed at a location that uses a water source such as each house, park, and the like. And a bypass pipe 122 is formed between the plurality of water supply pipes 121 that are formed to be spaced apart, and the bypass pipe 122 is installed one for each of the plurality of water supply pipes 121 so that the water supply pipe 121 is old and leaking. In most cases, it can be used.

In addition, the distribution unit 120 is connected to the discharge unit 130, and the discharge unit 130 is connected to a discharge pipe 131 through which sewage is discharged and a plurality of discharge pipes 131 are connected, and a sewage treatment plant for purifying sewage. (132) teeth are formed. The sewage treatment plant 132 is formed in plurality, and the sewage is discharged uniformly by the control server 500 .

(Embodiment 3-1) The present invention relates to a waterworks network management system, and in Embodiment 2-1, the control valve 200 is formed in the distribution unit 120 and controls the movement direction of the water source; It is connected to the control valve 200, the pressure pump 300 for adjusting the pressure of the water source; includes.

(Embodiment 3-2) The waterworks network management system of the present invention according to Embodiment 3-1, wherein the control valve 200 is controlled by the control server 500; includes.

(Embodiment 3-3) In Embodiment 3-1, the water supply network management system of the present invention comprises: a power unit 310 formed in the pressure pump 300 and rotating by power; It includes a; is formed on both sides of the power unit 310, respectively, pressurizing device 320 for applying pressure to the water source.

(Embodiment 3-4) In the waterworks network management system of the present invention, in Embodiment 3-1, the pressurizing device 320 is formed on both sides of the power unit 310, and the blade 330 rotates by power. ); It is formed to surround the blade 330, and includes a casing 340 to which the water source moves.

(Embodiment 3-5) The waterworks network management system of the present invention, in Embodiment 3-4, connects the plurality of casings 340, respectively, and includes an inlet pipe 350 through which a water source is introduced; a supply pipe 360 formed at the other end of the casing 340 and supplied with a water source; and a pressure valve 370 that is formed in the inlet pipe 350 and the supply pipe 360 and controls the water pressure of the water source as it opens and closes.

(Embodiment 3-6) The water supply network management system of the present invention according to Embodiment 3-4, is formed on the blade 330, the first blade 331 formed on one side of the power unit 310; and a second blade 332 formed on the other side of the first blade 331 and rotating.

(Embodiment 3-7) In the waterworks network management system of the present invention, in Embodiment 2-3 or Embodiment 3-3, the plurality of pressurization devices 320 are sequentially driven by the control server 600 include;

The present invention relates to the distribution unit 120 , and specifically the distribution unit 120 is formed in the water supply pipe network 100 , a plurality of water supply pipes 121 are formed, and a bypass between the plurality of water supply pipes 121 . When the pipe 122 is formed and the water pipe 121 is old and leaks occur, the water source is diverted to the bypass pipe 122 . 5, the distribution unit 120 is a control valve 200 is formed in the water supply pipe 121 in order to bypass the water source to the bypass pipe 122 when the old water pipe 121 and leakage occur. , the plurality of control valves 200 are controlled by the control server 500 . At this time, the control valve 200 and the bypass pipe 122 are installed one for each of the plurality of water supply pipes 121 , and when the old water pipe 121 and leakage occur, the water supply source is supplied to the water supply pipe 121 to be replaced. It is blocked so that the water source is bypassed by the bypass pipe (122). And the pressure pump 300 is formed in the control valve 200, the pressure pump 300 is, referring to FIG. Adjust the pressure so that water hammering does not occur when supplying. At this time, the power device 310 is formed of a motor, and the pressurizing device 320 is formed on both sides of the power device 310 to surround the blade 330 and the blade 330 rotated by the power device 310 . A casing 340 is formed.

The casing 340 is that the water source is supplied to the bypass pipe 122 at the top or bottom after the water source is introduced from the side of the blade 330. A supply pipe 360 is disposed in the supplied casing 340 . In addition, the inlet pipe 350 and the supply pipe 360 are respectively connected to the plurality of casings 340 , and a pressure valve 370 is formed in the inlet pipe 350 and the supply pipe 360 . The pressure valve 370 opens all of the plurality of pressurization devices 320 when the water source is supplied to the water supply pipe 121 and bypasses the water source with the bypass pipe 122. In the bypass pipe 122 where the water source is not stored. The pressurizing device 320 is opened one by one so that the water hammer phenomenon does not occur. This is because when a water source is suddenly supplied to the bypass pipe 122, a water hammer phenomenon occurs due to high pressure, so as shown in the graph of FIG. If it is maintained and the other is opened over time, the water pressure rises rapidly as in (2), and as in (3) of (1), the water pressure is formed higher.

Therefore, the distribution unit 120 of the present invention has a feature of controlling the pressure in order to prevent the water hammer phenomenon when the old water pipe 121 and leakage occurs.

(Embodiment 4-1) The present invention relates to a water supply network management system, and in Embodiment 3-1, a leak is formed in the measuring device 400 and detects aging and leakage of the water supply pipe 121 It includes a sensing device 410;

(Embodiment 4-2) The water supply network management system of the present invention in Embodiment 4-1, the leak detection device 410 includes a fastening unit 411 for coupling a plurality of water supply pipes 121 facing each other; It includes a;

(Example 4-3) The water supply network management system of the present invention, in Example 4-1, passes through the fastening part 411 and the airtight part 412, and the water quality, water pressure, flow rate, flow rate, It includes; a measuring sensor 413 for measuring a selected one of the water level.

(Embodiment 4-4) The water supply network management system of the present invention in Embodiment 4-1, the measurement sensor 413 includes a water quality meter for measuring the quality of the water source; A water pressure gauge for measuring the water pressure of a water source; A flow meter for measuring at least one selected from the flow rate, flow rate, and water level of the water source;

The present invention relates to a measuring device 400, and specifically, the measuring device 400 is formed by connecting a plurality of water supply pipes 121 to measure a water source. The measuring device 400 is formed by connecting a plurality of water supply pipes 121 , and a leak detection device 410 is formed at a joint to which the pipes are connected. Referring to FIG. 8, the water leak detection device 410 measures the quality, water pressure, flow rate, flow rate, water level, etc. of the water source flowing into the water supply pipe 121 to detect aging and leakage of the water supply pipe 121. A fastening part 411 connecting the water supply pipe 121 of the , and an airtight part 412 formed in the fastening part 411 to prevent water leakage are formed. A measurement sensor 413 for measuring the water quality, water pressure, flow rate, flow rate, water level, etc. of the water source flowing into the water supply pipe 121 is formed in the fastening part 411, so that the change of the water source among the plurality of measurement sensors 413 is the standard If it is below, it is judged to be old and leaking.

At this time, the measuring sensor 413 is formed through the fastening part 411 and the airtight part 412, and a water quality meter for measuring the water quality of the water source, a water pressure meter for measuring the water pressure of the water source, and the flow rate, flow rate, and water level of the water source It is formed as a flow meter for measuring at least one selected from among.

(Example 5-1) The present invention relates to a water supply network management system, and in Example 4-1, a communication unit 510 formed in the control server 500 and communicating with the measurement device 400 ; an analysis unit 520 for calculating and analyzing the measurement data of the constant source received from the communication unit 510; It is formed in the analysis unit 520, the determination unit 530 for determining the location of the old and leaking water supply pipe 121; includes.

(Embodiment 5-2) The waterworks network management system of the present invention according to Embodiment 5-1, wherein the control server 500 measures the water consumption for each house; includes.

(Example 5-3) In Example 5-1, the water supply network management system of the present invention is formed in the analysis unit 520 and analyzes the flow rate and water pressure for each area of the water supply pipe network 100 by time include;

The present invention relates to a control server 500, specifically, the control server 500 communicates with a plurality of measuring devices 400 installed in the water supply pipe network 100 to measure the aging and leakage of the water supply pipe 121, compensation can be determined. Referring to FIG. 2 , the control server 500 calculates and analyzes the measurement data of the water source received from the communication unit 510 and the communication unit 510 communicating with the plurality of measurement devices 400 , thereby generating old and leaking water supply. The analysis unit 520 for grasping the tube 121 is formed. In addition, the communication unit 510 may measure the water consumption for each house and adjust the water pressure and flow rate of the water source moving to the water supply pipe network 100 . And the analysis unit 520 determines the aging and leakage of the water supply pipe 121 by analyzing the water pressure, flow rate, flow rate, etc. of the water source. At this time, the analysis unit 520 measures the amount of water source for each area of the water supply pipe network 100 and analyzes the flow rate and water pressure supplied by the water source by time, such as hour, day, month, year, etc. The water pressure and flow rate of the supplied water source can be adjusted This is because the amount of use is formed differently for each area, so an area with a high flow rate supplies a large amount of flow.

In this way, when changes in water pressure, flow rate, flow rate, etc. occur in the analysis unit 520 , it is possible to accurately determine the location of the old pipe and the leaked upper conduit in the predicting unit 530 . This is to allow rapid replacement of the water supply pipe 121, and to quickly bypass the water source with the bypass pipe 122 so that the water source is not cut off.

(Example 6-1) The present invention relates to a waterworks network management system, and in Example 5-1, it is formed in the control server 600, and the old age and leakage determined by the control server 500 have occurred a blocking unit 610 for blocking the water supply pipe 121; It includes a;

(Example 6-2) In the waterworks network management system of the present invention, in Example 6-1, the control server 600 is a pressure adjusting unit 630 for regulating the pressure of the water source bypassing the bypass pipe 122. ); includes.

The present invention relates to a control server (600), specifically, the control server (600) is to divert the water source moving to the old and leaking water pipe (121). Referring to FIG. 2, the control server 600 is formed in the control server 500, and controls the control valve 200 so that the water source is not supplied to the old and leaking water supply pipe 121. The water supply pipe 121 is blocked by the control valve 200 by the 610 to change the movement path of the water source. At this time, by controlling the control valve 200 in the bypass unit 620 , the water source is diverted to the bypass pipe 122 through the bypass unit 620 . And in order to prevent the occurrence of water hammer as the water source is suddenly supplied to the bypass pipe 122, only one pressurizing device 320 drives the water source in the pressure control unit 630 to supply the water source and a predetermined time elapses. After passing, another pressurizing device 320 is also driven to supply a water source. At this time, the water source supplied to the water supply pipe 121 is to supply a water source by a plurality of pressurizing devices 320, and depending on the water pressure of the water source, only one pressurizing device 320 may be opened to supply a water source.

In this way, the control server 600 may adjust the power of the power unit 310 according to the water pressure of the water source or drive only one of the plurality of pressurization units 320 to adjust the water pressure.

Therefore, the control server 600 of the present invention has a feature of controlling the control valve 200 and the pressure pump 300 to effectively bypass the water source to the bypass pipe 122 .

100: water supply network 110: supply part
120: distribution unit 121: water supply pipe
122: bypass pipe 130: discharge part
131: discharge pipe 132: sewage treatment plant
200: control valve 300: pressure pump
310: power unit 320: pressurization device
330: blade 331: first blade
332: second blade 340: casing
350: inlet pipe 360: supply pipe
370: pressure valve 400: measuring device
410: leak detection device 411: fastening part
412: airtight part 413: measuring sensor
420: communication device 500: control server
510: communication unit 520: analysis unit
530: judgment unit 600: control server
610: blocking unit 620: bypass unit
630: pressure control unit

Claims (8)

A water supply pipe network 100 for supplying a water source for each unit block-blocked area;
It is formed in the water supply pipe network 100, the measuring device 400 for measuring the flow rate and flow rate of the water source;
a control server 500 communicating with the measuring device 400 and monitoring the water supply pipe network 100;
It is formed in the control server 500, the control server 600 for controlling the path of the water source moving in the water supply pipe network 100; includes;
The water supply pipe network 100,
a supply unit 110 to which the water source is supplied;
a distribution unit 120 connected to the supply unit 110 and distributing the water source to the houses in the area;
It is connected to the distribution unit 120, the discharge unit 130 for discharging waste water; includes,
The distribution unit 120,
a water supply pipe 121 through which the water source moves;
a bypass pipe 122 formed between the plurality of water supply pipes 121 to bypass and move the water supply source;
a control valve 200 for controlling the movement direction of the water source;
It is connected to the control valve 200, the pressure pump 300 for controlling the pressure of the water source; includes;
The discharge unit 130 includes a discharge pipe 131 through which sewage is discharged; A plurality of the discharge pipes 131 are connected, the sewage treatment plant 132 for purifying the sewage; includes;
The pressure pump 300,
a power unit 310 rotating by power;
It includes a; is formed on both sides of the power unit 310, respectively, pressurizing device 320 for applying pressure to the water source;
The pressurizing device 320,
Blades 330 formed on both sides of the power unit 310 and rotated by power;
A casing 340 that is formed to surround the blade 330, and the water source moves, includes;
an inlet pipe 350 connecting the plurality of casings 340, respectively, into which a water source is introduced;
a supply pipe 360 formed at the other end of the casing 340 and supplied with a water source;
A water supply network management system comprising a; a pressure valve (370) formed in the inlet pipe (350) and the supply pipe (360), and adjusting the water pressure of the water source as it opens and closes.
delete delete delete delete The method according to claim 1,
A water supply network management system comprising a; is formed in the measuring device 400, the leak detection device 410 for detecting the aging and water leakage of the water supply pipe (121).
The method according to claim 1,
a communication unit 510 formed in the control server 500 and communicating with the measurement device 400;
an analysis unit 520 for calculating and analyzing the measurement data of the constant source received from the communication unit 510;
A water supply network management system comprising a; is formed in the analysis unit 520, the determination unit 530 for determining the location of the old and leaking water supply pipe 121.
The method according to claim 1,
a blocking unit 610 formed in the control server 600 and blocking the old and leaking water supply pipe 121 determined by the control server 500;
A water supply network management system comprising a; is formed in the blocking unit (610), and controls the control valve (200) to bypass the water source to the bypass pipe (122).

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