KR101042304B1 - The system to improve revenue water ratio in connection with billing management system - Google Patents

Abstract

PURPOSE: An accounted water rate increasing system associated with charge management system is provided to rapidly and efficiently measure the exact flow rate by obtaining read flux information and interfacing with the existing charge management system. CONSTITUTION: An accounted water rate increasing system associated with charge management system comprises: a charge management system for managing the inspected flux information; a block monitoring control system(120) for collecting, analyzing, and controlling the information collected from flux/water pressure remote sensing control devices in a real time fashion; an accounted water rate and water leakage analysis system(130) for calculating a flux change rate, a flow rate and a leakage rate using the inspected flux information; an operation terminal for Human Machine Interface (HMI) for receiving the user operation and outputting the results.

Description

The System to Improve Revenue Water Ratio in Connection with Billing Management System}

The present invention relates to a rate management system linked flow rate improvement system, a charge management system (110) for recording and managing the meter flow rate information of the customer; and one or more of a plurality of flow rate / hydraulic remote sensing control device installed in the water supply network ( Block monitoring control system that is connected to the TM / TC (121) to collect, analyze, and control the flow rate, water pressure, water level, water quality information collected in the flow rate / pressure remote sensing control device (TM / TC) 121 in real time 120, and are connected to the tariff management system 110 and the block monitoring control system 120 through an interface, respectively, the meter reading flow rate information collected by the tariff management system 110 and the block monitoring control system ( Using the flow rate, water pressure, water level, and water quality information collected in 120), the monthly or / and daily flow rate fluctuation rate, flow rate rate and leakage rate are calculated for each block. A flow rate and leak rate analysis system 130 for generating a status alarm; and the rate management system 110, the block monitoring control system 120, and the flow rate and leak rate analysis system 130, respectively, through an interface; The flow rate, water pressure, water level, water quality information and the flow rate and leak rate analysis system 130 collected and analyzed by the block monitoring and control system 120, and the meter flow rate information of the customer collected by the charge management system 110. Integrated DBMS (Data Base Mangement System) (140) for storing and managing monthly or / and daily flow rate variation, flow rate and leakage rate calculated in the; and the tariff management system 110, the block monitoring control system 120 And an operation unit for a human machine interface (HMI) connected to the flow rate and leak rate analysis system 130 and the integrated data base management system (DBMS) 140 to receive a user's input operation and output and display a result. It relates to a charge control system in conjunction oil yield enhancement system 100 being configured to include; group 150 and the operation terminal 151 for the interface.

In recent years, local water supply in Korea is required to improve services to strengthen competitiveness and increase administrative efficiency as well as to stably supply clean and abundant water.

Therefore, increasing the flow rate has become a challenge for local governments for efficient operation through improved management of local waterworks and operational management. Yield is the percentage of tap water produced in a water treatment plant that is taken as a fee income. Here, the "high flow rate" means less loss of tap water, which prevents the importation of fee, and thus, when the flow rate increases, it is possible to reduce the production of tap water, and thus the cost of purchasing raw water. As a result, various costs such as chemical cost and power cost can be reduced. Therefore, in order to improve the efficiency of water supply management, it is essential to accurately identify the flow rate, and in order to identify the accurate flow rate, an interface with flow rate and rate information for each block is essential.

However, most local governments have invested a lot of money and manpower only to build a block monitoring control system that collects the flow rate in real time.

In order to solve the problems of the present invention using only the existing block monitoring control system, Korean Patent Laid-Open Publication No. 10-2004-0002615, "Waterworks Block Management Optimization System and Method thereof," which follows, is a waterworks block management optimization system. And a method of blocking the water supply network and installing a zonal flowmeter at an inlet in each block, and at the same time, using a conventional water meter on each customer side, the flow rate number display of the zonal flowmeter and the water meter. Image data; Remote measurement means for wirelessly transmitting the flow rate and the pressure data in real time periodically according to a set time of the pressure change value acquired by the pressure sensor installed at the same position; It is possible to communicate wirelessly with the remote measuring means for the flow rate and water pressure and control, and the flow rate and pressure data input from the remote measuring means for the flow rate and water pressure is transmitted to the host computer through the RF modem of the wireless data communication line A base station; An input / output unit having a plurality of input / output ports to which at least one base station is connected, each input / output port connected to a host computer; An arithmetic unit which calculates and processes the flow rate and hydraulic pressure data transmitted from each remote measuring means in the block and input through the input / output unit on an hourly, daily, and monthly basis; A system has been proposed and disclosed, which is connected to a specific input / output port of the input / output unit and is configured as a monitor for displaying the calculation result in real time from a host computer.

However, in the case of the existing invention, by using the existing water meter for each consumer side, the water pressure change value obtained from the water pressure sensor installed at the same position as the image data obtained through the flow rate number display unit of the area flow meter and water meter There was a difficulty in implementing a separate remote measuring means for wirelessly transmitting flow rate and water pressure data in real time according to a set time. In particular, the remote measuring means is a means having the same function as the conventional flow / hydraulic remote sensing control device (TM / TC) 121 installed and operated for each block of the water supply pipe network. Since the detection control device (TM / TC) 121 has to be installed and carried out for every customer, the installation cost is extremely excessive in the implementation, and too much flow / hydraulic remote sensing control device (TM / TC) There was a problem that should be operating (121).

Republic of Korea Patent Publication No. 10-2004-0002615

The present invention solves the above-described problems of the present invention, without having to install the flow rate / pressure remote sensing control device (TM / TC) 121 for each customer separately, the metering flow rate of the customer by interfacing with the instrumented charge management system The task is to contribute to stable water supply and flow rate improvement by providing a flow rate improvement system linked with a tariff management system that can obtain information and use it to efficiently and quickly measure and improve the flow rate.

In order to achieve the above object, the present invention, the charge management system 110 for recording and managing the meter flow rate information of the customer; and one or more flow rate / hydraulic remote sensing control device (TM / TC) installed in the water supply network Block monitoring control system 120 is connected to the (121) to collect, analyze, and control in real time the flow rate, water pressure, water level, water quality information collected by the flow rate / pressure remote sensing control device (TM / TC) (121); And the metering flow rate information collected by the tariff management system 110 and the block monitoring control system 120 and connected with the tariff management system 110 and the block monitoring control system 120, respectively. Calculate monthly or / and daily flow rate change rate, flow rate rate and leak rate rate for each block by using the flow rate, water pressure level, water level, and water quality information. Is a flow rate and leak rate analysis system 130; and the rate management system 110, the block monitoring control system 120 and the flow rate and leak rate analysis system 130 are connected through an interface, respectively, Meter flow rate information of the customer collected in the management system 110, flow rate, water pressure, water level, water quality information collected and analyzed in the block monitoring control system 120 and the monthly rate calculated by the flow rate and leak rate analysis system 130 Or / and an integrated data base management system (DBMS) 140 for storing and managing daily flow rate of change, flow rate and leakage rate; and, the fee management system 110, the block monitoring control system 120, and the flow rate. And an operating terminal 150 for a human machine interface (HMI) connected to the leak rate analysis system 130 and the integrated data base management system (DBMS) 140 to receive a user's input operation and output and display a result. interface Characterized in that the configuration including; management terminal 151. The

In addition, the flow rate and leak rate analysis system 130 is divided into large, medium and small blocks, water purification plant, drainage installed water flow rate / pressure remote sensing control device (TM / TC) 121, respectively, water production rate and rate It is characterized by further having a function of calculating and managing the charge amount.

On the other hand, the flow rate and leak rate analysis system 130 calculates the monthly use amount based on the water usage for each block collected by the block monitoring and control system 120 and the amount of water charged by the water supply zone of the tariff management system 110 and Display and output to be contrasted, and characterized in that it further has a function to display and output the daily, monthly water usage status for the water usage by block.

According to the present invention, without having to install the flow rate / hydraulic remote sensing control device (TM / TC) 121 for each customer separately, the metering flow rate information of the customer is obtained by interfacing with the instrumented charge management system. By using the rate management system linked with the rate management system, which can measure and improve the flow rate efficiently and quickly, it is possible to contribute to the stable water supply and flow rate improvement.

In addition, it is possible to reduce water consumption costs by reducing leakage, increase profits of local governments by increasing the flow rate, suppress the increase in water tariffs, improve local finances and make alternative investments, and finally realize customer satisfaction, improve local administrative reliability, and inhabitants There is an advantage in that it can promote hygiene and welfare, and maximize administrative efficiency.

1 is a block diagram of the overall configuration of the rate management system linked flow rate increase system according to an embodiment of the present invention.
2 is a system linkage configuration diagram of a rate management system linked flow rate increase system according to an embodiment of the present invention.
3 is a basic operation flow chart of a rate management system linked flow rate increase system according to an embodiment of the present invention.
4: GUI at logon of the rate management system linked flow rate increase system according to an embodiment of the present invention.
5 is a city / water treatment plant / drainage / block management setting screen of the rate management system linked flow rate increase system according to an embodiment of the present invention.
6 is a customer block management GUI of a rate management system linked flow rate increase system according to an embodiment of the present invention.
7: Monthly flow rate change GUI of the rate management system linked flow rate increase system according to an embodiment of the present invention.
8 is a year flow rate change chart GUI of the rate management system linked flow rate increase system according to an embodiment of the present invention.
9: annual flow rate chart GUI of the rate management system linked flow rate increase system according to an embodiment of the present invention.
10: Overall monitoring GUI of the rate management system linked flow rate increase system according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, it will be described in detail with the rate management system linked flow rate increase system according to an embodiment of the present invention. First, in the drawings, the same components or parts are to be noted that as indicated by the same reference numerals as possible. In describing the present invention, detailed descriptions of related well-known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

The present invention, as shown in Figures 1 and 2, largely charge management system 110, block monitoring control system 120, flow rate and leak rate analysis system 130, integrated DBMS (Data Base Management System) ( 140), an operating terminal 150 for a human machine interface (HMI), and an operating terminal 151 for an interface.

First, the charge management system 110 will be described. The tariff management system 110 has a function of recording and managing the metering flow rate information of each water supply customer, characterized in that to use the tariff management system 110 of the water supply supplier of each municipality already installed as it is. do.

Next, the block monitoring control system 120 is demonstrated. The block monitoring control system 120 is connected to one or more flow rate / hydraulic remote sensing control device (TM / TC) 121 installed in the water supply network, as shown in FIGS. It has a function of collecting, analyzing, and controlling flow rate, water pressure, water level, and water quality information collected by the remote sensing control device (TM / TC) 121 in real time. The flow rate / hydraulic remote sensing control device (TM / TC) 121 is also conventionally installed by each municipality's water supply organization for each large, medium, small block, water purification plant, and drainage for each of the flow rate / water pressure. It is possible to use the remote sensing control device (TM / TC) 121 as it is. In this case, it is preferable that the connection interface of the block monitoring control system 120 is configured to support data conversion, processing agent, and data transmission / reception function.

Next, the flow rate and leak rate analysis system 130 will be described. The flow rate and leak rate analysis system 130 is connected to the rate management system 110 and the block monitoring control system 120, respectively, as shown in Figs. 1 and 2, through the interface, the rate management system Calculate monthly or / and daily flow rate fluctuation rate, flow rate and leak rate for each block by using the meter reading flow rate information collected at 110 and the flow rate, water pressure, water level, and water quality information collected by the block monitoring control system 120. If the daily flow rate of change is more than 10%, it has a function of generating a leak state alarm in the block. In this case, the interface for freezing the flow rate and leak rate analysis system 130 and the fee management system 110 is configured to support the data conversion and processing agency, data transmission and reception functions of the existing fee management system 110. It is desirable to. In addition, the connection interface between the flow rate and leak rate analysis system 130 and the block monitoring control system 120 is also preferably configured to support data conversion and processing agency, data transmission and reception functions.

On the other hand, the flow rate and leak rate analysis system 130 is divided into the water flow rate and water pressure by the remote sensing control device (TM / TC) 121 is installed by each large, medium, small block, water purification plant, drainage It is desirable to further have the function of calculating and managing the amount charged.

On the other hand, the flow rate and leak rate analysis system 130 calculates the monthly use amount based on the water usage for each block collected by the block monitoring and control system 120 and the amount of water charged by the water supply zone of the tariff management system 110 and It is preferable to have a function to display and output to be contrasted, and to display and output the daily and monthly water usage status for the water usage by block.

Meanwhile, the current terms and statistical data calculated for each of the water supply zones in the water flow rate and the water leakage rate analyzing system 130 are related to information disclosure services that need to be linked as shown in FIG. 1 through the interface of the tariff management system 110. It is desirable to allow the user to define the delivery data and processing range so that it can be delivered to the linked system.

Next, an integrated Data Base Management System (DBMS) 140 will be described. The integrated data base management system (DBMS) 140, as shown in Figures 1 and 2, the charge management system 110, the block monitoring control system 120 and the flow rate and leak rate analysis system 130 Is connected via an interface, and the meter flow rate information of the customer collected by the tariff management system 110, the flow rate, water pressure, water level, water quality information and the flow rate collected and analyzed by the block monitoring control system 120 And a function of storing and managing monthly or / and daily flow rate fluctuation rate, flow rate and leak rate calculated by the leak rate analysis system 130.

Next, an operation terminal 150 for a human machine interface (HMI) and an operation terminal 151 for an interface will be described. The HMI (Human Machine Interface) operating terminal 150 and the interface operating terminal 151, as shown in Figures 1 and 2, the charge management system 110, the block monitoring control system 120, It is connected to the flow rate and leak rate analysis system 130 and the integrated DBMS (Data Base Management System) 140, and has a function of receiving a user's input operation and outputting and displaying a result.

On the other hand, the rate management system linked flow rate improvement system 100 of the present invention is preferably configured to satisfy both the client / server environment and WEB environment as shown in FIG.

In the above, the best embodiments have been disclosed in the drawings and specification. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not used to limit the scope of the present invention as defined in the meaning or claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

100: Flow rate improvement system linked with tariff management system
110: fee management system
120: block supervisory control system
121: Flow / hydraulic remote sensing control unit (TM / TC) (121)
130: flow rate and leak rate analysis system
140: Integrated Data Base Mangement System (DBMS)
150: operating terminal for human machine interface (HMI)
151: operating terminal for the interface

Claims (3)

delete A rate management system 110 for recording and managing meter reading flow rate information of the customer;
Flow rate, water pressure, and water level collected by the flow rate / hydraulic remote sensing control device (TM / TC) 121 connected to at least one plurality of flow rate / hydraulic remote sensing control device (TM / TC) 121 installed in the water supply network. A block monitoring control system 120 for collecting, analyzing, and controlling water quality information in real time;
It is connected to the charge management system 110 and the block monitoring control system 120 through an interface, respectively, the meter flow rate information collected by the charge management system 110 and the flow rate collected by the block monitoring control system 120. Using the water pressure, water level, water quality information to calculate the monthly flow rate and / or daily flow rate change rate, flow rate and leakage rate for each block, and if the daily flow rate change rate is more than 10%, Leak rate analysis system 130;
The meter management flow rate information of the customer collected from the tariff management system 110, the block monitoring control system 120 and the flow rate and leakage rate analysis system 130 through the interface, respectively, collected in the tariff management system 110 And store the flow rate, water pressure, water level, water quality information collected and analyzed by the block monitoring control system 120 and the monthly or / and daily flow rate fluctuation rate, flow rate and leak rate calculated by the flow rate and leak rate analysis system 130. An integrated Data Base Management System (DBMS) 140 for managing;
It is connected to the fee management system 110, the block monitoring control system 120, the flow rate and leak rate analysis system 130 and the integrated data base management system (DBMS) 140, and inputs a user's input operation Receiving and outputting a result and displaying the operation terminal 150 for the HMI (Human Machine Interface) and the operating terminal 151 for the interface;
The water flow rate and the water leakage rate analysis system 130 is divided into the water, the water production and the charge amount by the large, medium and small blocks, water purification plant, drainage basin where the flow rate / pressure remote sensing control device (TM / TC) 121 is installed, respectively. Rate management system linked flow rate improvement system, characterized in that it further has a function to calculate and manage.
The method according to claim 2,
The flow rate and leak rate analysis system 130 calculates a monthly use amount based on the water usage for each block collected by the block monitoring control system 120 to be compared with the charge amount for each water supply zone of the fee management system 110. Display and output, the rate management system linked flow rate improvement system 100, characterized in that it further has a function to display and output the daily, monthly water usage status for the water usage by block.

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