KR100702592B1 - Flow administration system - Google Patents

Abstract

The present invention relates to a flow rate management system that allows an administrator to easily manage a plurality of flow rate measuring devices for performing the flow measurement of the fluid transmission pipe from a remote location.

In the flow management system according to the present invention, a plurality of flow measurement devices for processing flow information provided from a flow meter installed in a fluid transmission pipe are combined with a flow management device through a predetermined communication network, and the flow management device is coupled with a plurality of manager terminals. In the flow rate management system is configured, the flow rate measuring device has a power supply means in the inside of the second door of the case having a first door and the second door is installed to partition the internal space and the opening and closing a predetermined space; And sensor processing means coupled with various sensors including a pump motion sensor, a pump abnormality detection sensor, and a water pressure sensor, and a network connection means for communication connection with the flow rate management device. Display unit and information input unit for displaying and outputting information, flow rate information storage unit for storing flow rate information, flow measuring station A data memory storing a unique ID of the controller and registration information including communication connection information, manager authentication information, and specification information of the fluid transmission pipe for communication connection with the flow rate management device, flow rate information provided from the flow meter, and the sensor processing Storing the state information provided from the means in the flow rate information storage unit, providing the flow rate information and the state information to the flow rate management device through the network connection unit, and selectively selecting the second door based on the authentication information of the administrator provided from the information input unit. Control means including a control unit for controlling to open to the configuration, the flow rate management device is a database of the flow rate information and detection information provided from the flow rate measuring device to search for information corresponding to the request of the manager terminal manager In addition to providing to the terminal, Characterized in that it is configured to remotely control the measuring device.

Fluid transmission line, flow rate, management

Description

Flow management system

1 is a system schematic diagram showing a schematic configuration of a flow management system according to the present invention.

2 and 3 are views for explaining the shape of the flow measurement device 100 shown in FIG.

Figure 4 is a block diagram showing the functional separation of the internal configuration of the flow measurement device 100 shown in FIG.

5 is a diagram illustrating an information output screen of the display unit 162 shown in FIG.

6 is a view for explaining the operation of the flow management system shown in FIG.

******* Brief description of the main parts of the drawing *******

100: flow measuring device, 110: case,

120: power supply means, 130: temperature control means,

140: sensor processing means, 150: network connection means,

160: control means, 200: flow control device,

300: administrator terminal.

The present invention relates to a flow rate management system that allows an administrator to easily manage a plurality of flow rate measuring devices for performing the flow measurement of the fluid transmission pipe from a remote location.

In general, the fluid is provided to the required source through a pipe-shaped fluid transfer tube. Here, the fluid transmission pipe is installed on the ground or underground of the outdoors.

On the other hand, in order to easily provide the fluid to each supply source, the management of the fluid transfer pipe is essential. Thus, by installing a flow meter in the fluid transmission pipe that detects the flow rate of the fluid transmission pipe to determine the state of the fluid transmission pipe, the administrator checks the flow information of the flow meter, thereby managing the amount of fluid and the fluid transmission pipe Done. For example, the manager may manage the amount of fluid more conveniently and accurately based on the flow rate information of the flow meter, and perform appropriate measures such as replacing the fluid transfer pipe by determining whether the fluid transfer pipe is leaked or the like.

However, the installation location of the fluid transmission pipe is installed on the ground or underground so that the general public cannot easily access it, which makes it difficult for the administrator to manage the fluid transmission pipe. In addition, the fluid transmission tube is installed in a complex network in a broadband connection between the city and the city through not only industrial complexes, cities, but also outdoor and mountain walls that are far from the cities. In this case, the flow meter is installed at a predetermined distance from the fluid transmission pipe, there is a problem that the manager is to go around each day to check a large number of flowmeters directly is inefficient requires a lot of time and effort.

Accordingly, the present invention has been made in view of the above circumstances, and enables the administrator to easily check and manage the flow rate information of the fluid transmission pipe which is disposed in a wide-area spraying location, thereby efficiently managing fluid quantity and fluid transmission pipe. Its technical purpose is to provide a flow management system that enables this.

Flow rate management system according to the present invention for achieving the above object is a plurality of flow rate measuring device for processing the flow rate information provided from the flow meter installed in the fluid transmission pipe is coupled with the flow rate management device through a communication network, In the flow rate management system configured to be coupled to the manager terminal, the flow rate measuring device has a predetermined space, the second door of the case having a first door and the second door is provided to partition the internal space and the opening and closing is possible Inside the power supply means, a sensor processing means coupled with various sensors including a pump motion sensor, a pump abnormality detection sensor and a water pressure sensor, and a network connection means for communication connection with the flow rate management device, the second door Outside of the display unit for displaying and outputting the flow rate related information and information input unit, flow rate for storing the flow rate information Provided from the flow rate storage unit, a data memory that stores the unique ID of the flow measurement device and communication information for communication connection with the flow management device, the administrator authentication information, and registration information including the specification information of the fluid transmission pipe; The flow rate information and the state information provided from the sensor processing means are stored in the flow rate information storage unit, and the flow rate information and state information are provided to the flow rate management device through the network connection unit, and the administrator's authentication information provided from the information input unit is provided. And control means including a control unit for controlling to selectively open the second door on the basis of the control, wherein the flow management device is configured to database the flow rate information and the sensing information provided from the flow rate measuring device to a request of the manager terminal. Search for the corresponding information and provide it to the administrator terminal. The controller is configured to remotely control the flow rate measuring device according to the request of the controller, and the control means is mounted on the outside of the second door through the cover part, and the display part is provided on the front part of the cover part and the touch pad for inputting information is interlocked with the display part. It is characterized in that the configuration.

That is, according to the present invention, the flow rate information provided from the flow meter installed in the ground or underground fluid transmission pipe and various state information of the place where the flow measuring device is installed are transmitted to the flow control device located at a remote location and the information is databased. By doing so, it is easy to manage the amount of fluid and the fluid transfer pipe.

Hereinafter, embodiments according to the present invention will be described.

1 is a system schematic diagram showing a schematic configuration of a flow management system according to the present invention.

As shown in FIG. 1, in the flow management system according to the present invention, a plurality of flow measurement devices 100 for measuring the flow rate of the fluid transmission pipe are combined with the flow management device 200 through a predetermined communication network 1, The management device 200 is configured in combination with a plurality of user terminal 300. The communication network may be a direct connection such as a serial or parallel connection, a short distance communication such as Ethernet, or a long distance communication network such as the Internet or various wired / wireless telephone networks. For example, the flow measuring device 100 and the flow management device 200 is coupled to the Internet. In addition, the flow rate management device 200 and the user terminal 300 may also be coupled through the above-described communication network.

And, the flow rate measuring device 100 Provides flow measurement information provided from a flow meter (not shown) coupled to a fluid transmission pipe (PI) installed underground or above the ground to the flow management device (200). In this case, various fluids, such as tap water, crude oil, and liquid chemicals, which can be measured by ultrasonic waves, are transmitted to the fluid transfer pipe PI. In addition, the flow measurement device 100 provides the pump detection information provided from the pump sensor (not shown) coupled to the pump (P) to the flow management device (200). In this case, the pump P discharges the accumulated water to the outside in the basement near the fluid transfer pipe PI or is installed in the fluid transfer pipe PI to serve to transfer fluid.

On the other hand, the flow rate management device 200 remotely controls the operation of the flow rate measuring device 100, and stores the flow rate information provided from the flow rate measuring device 100. In addition, the flow rate management apparatus 200 provides the corresponding flow rate information to the user terminal 300 in response to a request from the user terminal 300. That is, the manager can check the flow rate information through the user terminal 300 at a long distance.

2 to 4 are for explaining the configuration of the flow measurement device 100 shown in Figure 1, Figure 2 is a cross-sectional view showing the front of the flow measurement device 100, Figure 3 is shown in FIG. 4 is a cross-sectional view showing a cross-sectional view taken along line A-A 'of the flow measuring apparatus 100, and FIG.

2 and 3, the flow rate measuring device 100 includes a power supply unit 120, a temperature control unit 130, a sensor processing unit 140, and a network in a case 110 having a predetermined space therein. The connecting means 150 and the control means 160 are arranged and configured.

Here, the case 110 is provided with a first door 111 facing the outside, and is provided with a second door 112 to divide the inner space of the case therein. In this case, the handles 111a and 112a are provided at the outside of the first and second doors 111 and 112 to facilitate opening and closing. In addition, the power supply means 120, the temperature control means 130, the sensor processing means 140 and the network connection means 150 is disposed inside the second door 112, the outside of the second door 112 In other words, the control means 160 is disposed at the portion facing the first door 111. Here, although not shown, each device is coupled through a predetermined cable for electrical coupling, and an opening (not shown) for introducing the cable is formed in the second door 112. In addition, an opening (not shown) through which a cable (not shown) is inserted at one side of the case 110 for electrical coupling between a fluid transmission pipe (PI) buried underground and a sensor (not shown) installed in the pump (P). Of course it is formed.

The power supply unit 120 also provides a predetermined level of operating power to each device.

In addition, the temperature control means 130 is to adjust the temperature inside the case 110 to maintain a predetermined level, for example, by providing a heater or a cooling fan to control the internal temperature.

In addition, the sensor processing means 140 is combined with at least one or more sensors to monitor the various state information of the flow measurement device 100 converts each sensing signal provided from each sensor into a digital signal and then the control means ( 160). The sensor is installed in the power supply means 120 and installed in the power sensor (S1) for detecting the power level and the temperature control device 130, the temperature sensor (S2) for detecting the internal temperature of the case 110, buried underground Or second and second doors 111 and 112 of the pump motion sensor S3 and the pump abnormality detection sensor S4 and the case 110 installed in the pump (FIG. 1P) or coupled to the fluid transfer pipe (FIG. 1 PI). Door opening sensor (S5) is installed in the), is installed in the fluid transmission pipe (FIG. 1 PI) buried underground consists of a water pressure sensor (S6) for detecting the water pressure.

In addition, the network connection means 150 is for communicating with the flow rate management apparatus 200 through the Internet or a wired or wireless telephone network, for example, is configured as a modem. In this case, the network connection means 150 may be configured to have a communication port (not shown), such as an RS232 port, to communicate with the operator terminal 250 to be described later.

In addition, as shown in FIG. 4, the control unit 160 includes a display unit 162 for displaying and outputting flow rate related information, an information input unit 163 for inputting flow rate related information, and a controller 167 to be described later. Program information storage unit 164, which stores the operation program, the unique ID information of the flow measurement apparatus 100, access information including IP information for communicating with the flow management apparatus 200, and a password of an administrator. Authentication / specification information storage unit 165 for storing the administrator authentication information and fluid transmission pipe specifications information, flow rate information for storing the various state information provided from the flow meter 400 and sensor processing means 140 to be described later The storage unit 166 and a control unit 167 for controlling the overall operation of the flow rate measuring apparatus 100 are provided. Here, the control unit 167 is provided with a web service module 167a is configured to enable online control with the flow rate management device 200 or the operator terminal 250 through the network connection means 150. In this case, the control unit 167 may be configured to provide information through an Internet document or the like when the user terminal 300 is connected. In addition, the control unit 167 is coupled to the flow meter 400, which is coupled to the fluid transmission pipe (PI) buried underground to output the flow rate information in the analog form. The flow meter 400 is coupled to the fluid transfer pipe PI to measure the instantaneous flow rate of the fluid flowing into the fluid transfer pipe PI, and calculates an integrated flow rate value based on the instantaneous flow rate value. Provided at 167. In addition, the control unit 167 grasps the state information of the fluid transmission pipe (PI) based on the information provided from the flow meter 400 and the detection information provided from the sensor (S) to the flow rate information storage unit 166. Will be saved.

On the other hand, the control means 160 is installed on the outside of the second door 112 in the form interpolated in the predetermined case 161 as shown in FIG. In addition, the front side of the case 161 is provided with a display unit 162 for the administrator to check the flow rate information. The display unit 162 includes a TFT-LCD, and as shown in FIG. 5, the year / month / day / time display item 162a, the field name indication item 162b, the instantaneous flow rate value and the integrated flow rate value are displayed. Output flow indication item (162c), status display item for door open / power failure / pump operation / pump drip display status display item (162d) for output, home move item (162e) to return to home screen, menu screen Menu selection item 162f for selection, storage information output selection item 162g for output information storage selection, pressure indication item 162h for outputting water pressure information provided from the pressure sensor S6, and And an average pressure output item 162j for outputting daily average water supply pressure information. At this time, although not shown, the display unit 162 displays and outputs the flow rate information in a graph form according to a manager's selection. Meanwhile, in FIG. 4, the information input unit 163 is configured in the form of a touch panel interlocked with the display unit 162. This is for the purpose of the administrator inputting his or her password to open the second door 112 or searching for flow rate information displayed and displayed on the display unit 162. In addition, in FIG. 4, the flow rate information storage unit 166 may be implemented as a removable storage device, for example, a USB storage device. The instantaneous flow rate information and the accumulated flow rate information provided from the flowmeter 400 are stored together with the measurement time. The state signal provided from the sensor processing means 140 is stored together with the detection time. The flow rate information storage unit 166 is configured to prevent loss of flow rate measurement information until a failure occurs, such as a communication breakdown between the flow rate measurement device 100 and the flow rate management device 200. In addition, the control unit 167 stores the flow rate measurement information and the state information provided from the flow meter 400 and the sensor detecting means 140 in the flow rate information storage unit 166, and stores the network connection means 150 therein. Through the flow management device 200 is provided. In addition, the controller 167 is a manager registered in the authentication / specification information storage unit 165 from the information input unit 163 within a predetermined time when the state changes from the sensor processing means 140 to the door open sensor S5. When the password is not input, the second door 112 is controlled not to be opened, and the door opening state information is provided to the flow management apparatus 200.

On the other hand, Figure 6 is a block diagram showing the functional separation of the internal configuration of the flow management apparatus 200 shown in FIG.

As shown in FIG. 6, the flow management apparatus 200 includes a network connection unit 210, a web server 220, a service control unit 230, a database 240, and an operator terminal 250. Here, each device may be combined through the LAN 260, each device may be configured as a server.

In FIG. 6, the network connection unit 210 is for communicating with the flow rate measuring device 100 and the user terminal 300, which includes a router, a hub, and the like, which are not shown. The web server 220 searches for the corresponding flow rate information according to a request from the user terminal 300 connected to the login process of the administrator and provides the retrieved flow rate information to the user terminal 300. At this time, the manager can only view the flow rate information through the user terminal 300. The service control unit 230 requests the flow measurement device 100 to provide flow measurement information and status information, and registers the flow measurement information and status information provided from the flow measurement device 100 to the database 240. . In addition, the service control unit 230 performs overall control of the flow management device 200 such as data management, firmware upgrade, program setting, and the like based on the information applied from the operator terminal 250. The database 240 may include authentication information such as IDs and passwords of administrators and operators, unique ID information of the flow measuring apparatus 100, and fluids such as pipe outer diameter / pipe inner diameter / pipe thickness / pipe material constituting the fluid transmission pipe. Transmission tube specification information, flow measurement information and status information provided from the flow measurement device 100 is stored for each date and time. The operator terminal 250 is to allow the operator to overall management of the flow management device 200 and the flow measurement device 100, the web connection function and the flow management device 200 and the flow measurement device 100 It is configured with a database that stores various OS and flow rate information for management of. At this time, the operator can directly manage the flow measurement device 100 by coupling the operator terminal 250 to the flow measurement device 100 in the field.

Next, the operation of the flow management system having the above configuration will be described with reference to FIG.

First, the specification information of the fluid transmission pipe for each flow measurement device is registered in the flow rate management apparatus 200 by the manager. In addition, the flow rate measuring device 100 is installed at a suitable position near the place where the fluid transmission pipe is embedded. At this time, the fluid transmission pipe (PI) is provided with a flow meter 400 and a water pressure sensor (S6), the flow meter 400 and the water pressure sensor (S6) is a flow measurement device 100 through a predetermined cable (not shown) The control means 160 and the sensor processing means 140 of the electrically coupled. In addition, a pump (P) is installed in the basement close to the fluid transfer pipe (PI) to discharge the accumulated water to the outside or installed in the fluid transfer pipe (PI) to help the fluid transfer. The pump operation sensor S3 and the pump abnormality detection sensor S4 are installed at (P), and the pump operation sensor S3 and the pump abnormality detection sensor S4 are flow rate measuring devices (not shown) through a predetermined cable (not shown). It is electrically coupled with the sensor processing means 140 of 100. In addition, when the initial flow rate measuring apparatus 100 is installed, the unique ID information and IP information for communication connection with the flow rate managing apparatus 200 are registered in the flow rate measuring apparatus 100 by the manager. Here, the IP information of the flow measurement device 100 may be a fixed IP or a floating IP, and in the case of the floating IP, the controller 167 performs an IP allocation process.

In the above state, the flow rate measuring apparatus 100 installed at a predetermined position requests setting information to the flow rate management apparatus 200 using IP information (ST1). At this time, the setting information request signal includes the IP information and the unique ID information of the flow measurement device 100.

The setting information request signal provided from the flow rate measuring device 100 is provided to the service control unit 230 through the network connection unit 210 of the flow management device 200, and the service control unit 230 is included in the setting information request signal. In addition to retrieving the unique ID of the flow measurement device from the database 240, the fluid transmission pipe specifications information such as pipe outside diameter / pipe inside diameter / pipe thickness / pipe material corresponding to the retrieved ID, and basic information such as operation program Provided to the measuring device 100 (ST2).

Basic information provided from the flow rate management apparatus 200 is applied to the controller 167 of the control means 160 through the network connection means 150. The control unit 167 stores basic information provided from the flow rate control device 200 in the authentication / specification information storage unit 165 and stores and registers the operation program in the program information storage unit 165 (ST3).

Thereafter, the flow rate measuring apparatus 100 performs a series of flow measurement and storage and output processing of the flow rate related information according to the operation program stored in the program information storage unit 165 (ST4). That is, the control unit 167 periodically performs a data request to the flow meter 400, and the flow meter 400 provides the instantaneous flow rate measurement value and the integrated flow rate value in the form of an analog signal to the control unit 167. The control unit 167 stores the flow rate value provided from the flow meter 400 in the flow rate information storage unit 166 together with the date and time information, and outputs the display value through the display unit 162. For example, through the display unit 162, various flow rate related information as shown in FIG. 5 is displayed. In addition, the sensor processing means 140 is detected from the power sensor (S1) and temperature sensor (S2), pump operation sensor (S3), pump abnormality detection sensor (S4) and door opening sensor (S5) and water pressure sensor (S6). When a change occurs in the signal, the sensing information in the form of digital signal is provided to the control unit 167, and the control unit 167 displays the sensing information provided from the sensor processing unit 140 and the time information at which the change occurred, and the flow rate information storage unit. In addition to storing the information in 166, the sensing information is displayed and output through the display unit 162. At this time, the pressure sensor S6, for example, a voltage between 0 to 5V or a current between 4 to 20mA is provided to the sensor processing means 140, and the sensor processing means 140 uses the A / D conversion module (not shown). Through the conversion to the digital signal is provided to the control unit 167. In addition, the control unit 167 controls to control the temperature control means 130 based on the temperature information provided from the temperature sensor (S2) to adjust the temperature inside the case (110). In addition, the control unit 167 grasps the state of the fluid transmission tube based on the information applied from the flow meter 400 and the sensor processing means 140, and the state information of the fluid transmission tube to the flow rate information storage unit 166. Save it. In addition, the controller 167 retrieves the data stored in the authentication / specification information storage unit 165 and the flow rate information storage unit 166 based on various request information provided through the information input unit 163 and displays the display unit 162. Displayed through For example, the controller 167 may provide the flow rate information for each date or time stored in the flow rate information storage unit 166 to the display unit 162 or the authentication / requirement information storage unit 165 according to a request from the information input unit 163. Provides the display unit 162 provides the fluid transmission pipe specifications information and the state information of the fluid transmission pipe registered in the.

On the other hand, the control unit 167 provides the flow rate measurement information and state information provided from the flow meter 400 and the various sensors (S1 ~ S6) to the flow management device 200 through the network connection means 150 (ST5) . At this time, the control unit 167 provides the flow rate management device 200 with the unique ID information of the flow rate measurement device together with the flow rate measurement information or state information. Here, the flow rate measurement information and state information may be provided to the flow rate management device 200, respectively. For example, the flow rate correction may be periodically provided to the flow rate management device 200, and the status information may be provided every time. The state information includes the detection signal provided from the sensor processing means 140 and the state information of the fluid transmission pipe.

The flow rate measurement information and the state information provided to the flow rate management apparatus 200 are provided to the service control unit 230 through the network connection unit 210, the service control unit 230 stores the corresponding information to correspond to the corresponding unique ID database 240 (6).

Subsequently, when the administrator accesses the flow management apparatus 200 through the user terminal 300 and performs predetermined information request processing such as his login information and predetermined flow related search information (ST7), the flow management apparatus 200 The information provided to the web server 220 through the network connection unit 210 is provided.

When the web server 220 performs a series of authentication processes for confirming the ID and password of the administrator and completes the normal authentication process, the web server 220 searches the database 240 for flow related information required from the user terminal 300 (ST8). .

Subsequently, the web server 220 provides the searched corresponding information to the user terminal 300 through the network connection unit 210. For example, the instantaneous flow rate value / accumulated flow rate value for each flow measurement device is provided to the user terminal 300.

On the other hand, when the operator is working directly in the flow measurement device 100, such as a failure occurs in the flow measurement device 100, the operator to the operator terminal 250 network connection means 150 of the flow measurement device 100 In addition to the information stored in the authentication / specification information storage unit 165 and the flow rate information storage unit 166, for example, the amount of fluid and the state information of the fluid transmission pipe in a state coupled to the authentication / specification information storage unit ( 165 and the program information storage unit 165 may be updated. In addition, information registration processing such as updating of the program may be performed to be performed remotely by accessing the flow rate measuring apparatus 100 through the Internet 1 in the flow rate management apparatus 200.

That is, according to the present invention, by providing the flow rate information provided from the flow rate meter installed in the fluid transmission pipe and various state information of the place where the flow rate measurement device is installed to the flow rate management device located at a remote location to manage the database, the fluid amount and the fluid Management of the transmission pipe becomes easy.

In addition, according to the present invention, by storing the flow rate information and the state information in a separate storage medium provided in the flow rate measuring device, even if the communication with the flow rate management device is not possible, such as a failure in the flow rate measuring device, It is possible to minimize the loss of information by using the storage medium provided.

In addition, according to the present invention, by checking the administrator authentication information for each flow measuring device to block the operation of the flow measuring device by the general public other than the manager, it is possible to eradicate illegal operation by the public.

In addition, the present invention is not limited to the above embodiments, and various modifications can be made without departing from the technical spirit of the present invention.

As described above, according to the present invention, the flow rate information provided from the flow rate meter installed in the fluid transmission pipe and various state information of the place where the flow rate measurement device is installed are provided to a flow rate management device located at a remote location so that the fluid can be managed by a database. Management of volume and fluid transfer tube is easy.

Claims (6)

In the flow rate management system, a plurality of flow rate measuring devices for processing the flow rate information provided from the flow meter installed in the fluid transmission pipe is coupled to the flow rate management device through a communication network, the flow rate management device is coupled to a plurality of user terminals, The flow rate measuring device has a power supply means, a pump motion sensor and a pump abnormality detection inside a second door of a case in which a first door having a predetermined space and capable of opening and closing and a second door installed to divide the internal space are formed. Sensor processing means coupled to various sensors including a sensor and a hydraulic pressure sensor, and a network connection means for communicating with the flow management device is disposed, and a display unit for displaying and outputting the flow rate related information on the outside of the second door; The information input unit, the flow information storage unit for storing the flow rate information, the unique ID of the flow measurement device, the communication connection information for communication connection with the flow management device, the administrator authentication information, and the registration information including the specification information of the fluid transmission pipe The stored authentication / specification information storage unit, the flow rate information provided from the flow meter and the state information provided from the sensor processing means A control unit for storing the flow rate information storage unit and providing the flow rate information and the state information to the flow rate management device through the network connection unit, and selectively controlling the second door to be opened based on the authentication information of the administrator provided from the information input unit. The control means is provided is configured to include, The flow management device is provided with an operator terminal and a database, the flow rate information and the sensing information provided from the flow rate measuring device to search the information corresponding to the request of the user terminal to provide to the user terminal and at the same time from the operator terminal Configured to remotely control the flow measurement device as required, The control means is mounted on the outside of the second door through the cover portion, the front of the cover portion is provided with a display unit and a touch pad for inputting information is configured to interlock with the display unit. The method of claim 1, The control means has a communication port for communication coupling with the operator terminal, The control means is configured to upgrade the flow rate measuring device based on the information provided from the operator terminal, and to provide information to the operator terminal to retrieve information corresponding to the request from the operator terminal in the flow rate information storage unit. Management system. The method of claim 2, The control means is a flow rate management system, characterized in that for providing information related to the fluid transmission pipe state to the operator terminal. The method of claim 1, The control means stores the state information applied from the sensor processing means and the flow rate information applied from the flow meter together with the generation date and time information in the flow rate information storage unit, and provides the same to the flow rate management apparatus through the network connection means. Flow management system characterized by delete The method of claim 1, The display unit displays and outputs the flow rate information including the instantaneous flow rate value, the integrated flow rate value, the cumulative accumulated flow rate value, the water supply pressure value and the average pressure value, and the detection information including the door open or power failure and the pump state. Flow management system.

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