KR20060125279A - System for managing small power water flow in a water valve and area - Google Patents

Abstract

A small power water flow managing system of a water valve and an area is provided to transmit flow data output from a flow sensor to a central management system by attaching the flow sensor to the water valve of a water supply pipe and converting the flow data output from the flow sensor into an RF(Radio Frequency) signal. A flow sensor(100) is installed to the rear side of a water valve, measures the flow rate of water supplied to the water valve and transmits the measured flow data. An RF transmitter(200) converts the flow data received from the flow sensor into the RF signal and transmits the RF signal to a repeater(300). The repeater amplifies and transmits the RF signal received from the RF transmitter to the central management system(400). The flow sensor includes a power supply, an impeller detecting the flow of the supplied water by being installed inside the water valve and calculating/converting the detected water flow, and a data transmitter converting the flow data into a pulse signal and transmitting the pulse signal to the RF transmitter.

Description

System for managing small power water flow in a water valve and area}

1 is a conceptual diagram showing a connection state of the small output water flow rate management system and the dividing area according to an embodiment of the present invention.

Figure 2 is a block diagram showing an installation state of the flow sensor according to an embodiment of the present invention.

Figure 3 is a block diagram showing the structure of a flow sensor according to an embodiment of the present invention.

Figure 4 is a block diagram showing the internal structure of the RF transmitting apparatus according to an embodiment of the present invention.

* Description of Signs of Main Parts of Drawings *

2: manhole cover 4: manhole

6: water pipe 8: dividing side

10: dike valve 12: band

20: Ground 100: Flow sensor

102: Impera 104: housing

106: power supply unit 108: data transmission unit

110: port 112: transmission line

200: RF transmitter 202: control unit

204: RF transmitter 206: antenna

208: battery 210: light collecting plate

300: repeater 400: central management system

The present invention relates to a small output water flow rate management system for zones and dikes, and more particularly, by installing a low power flow rate sensor in a water supply pipe, converting a signal measured by the flow sensor into digital data and wirelessly transmitting it to the central management system. It can identify the flow and leakage of tap water in real time from a remote location, and establish a water supply policy that can quickly and accurately identify the amount of water and detect leaks, providing informational water energy management and systematic water management for the 21st century. Area and dike-side small-output flow rate management system.

Due to population growth and industrial socialization, the demand for tap water is gradually accelerating due to the urban concentration of the population. In particular, it is increasingly difficult to secure water sources due to water shortages and deterioration of water quality, and the environment surrounding water pipelines in urban areas is contaminated, causing water pollution in the pipeline due to leakage, and enormous economic Causing phosphorus loss.

As of 2003, the amount of tap water produced in Korea is about 574.2 million tons. Of these, the amount of water that is subject to reduction and the amount of water leaked, that is, the amount that cannot accept the water usage fee, is about 700 million. It is 82 million tons, accounting for about 14% of the total tap water. In other words, about 14% of effectively produced tap water is treated as a loss, which translates into more than 400 billion won into the ground.

Due to the nature of underground pipelines, there are many long-distance burials and many branching points, so strange symptoms that pass over them are visible to the naked eye by seeing water rising up or recessed in certain areas. However, when a small amount of water leaked from the water pipe penetrates into the ground, it is difficult to detect and leaked water moves around and meets other pollutants and contaminates groundwater.

In addition, leak measurement of water pipes as underground buried uses methods such as ultrasonic wave generation or pipeline injection device and ultra-short laser because water pipes are mainly buried underground and in dangerous areas. Subsequent measurements and realistic difficulties were encountered to identify the location at the same time as the leak. Compared with water supply and water consumption leakage, water leaks from the water supply pipe are compared to the site, and the staff is walking around the field at night to see audible sound. There was a problem that it took considerable effort and cost for detection and flow measurement.

The present invention has been made in order to solve the above problems, the small output flow sensor attached to the distillation side of the water supply pipe, the area and the distillation small output to convert the flow rate data from the flow sensor into a wireless signal to be transmitted to the central management system The purpose is to provide a water flow management system.

In addition, an object of the present invention is to provide a zone and a distilled water output flow rate management system to efficiently operate an integrated flow rate management system by computerizing the production and consumption of tap water for each region or zone.

In addition, the present invention is to transmit the flow data measured at the dilution in the radio signal to the central management system via a repeater, so that the flow data of each dilution in one server even without a separate communication cost The purpose is to provide a small-area water output flow rate management system.

In addition, the present invention is to provide an automatic water flow rate check by the remote command in conjunction with the GIS, to provide a zone and distilled water output flow rate management system that can significantly reduce the effort and cost of measuring the flow rate compared to the conventional method The purpose.

In the system for achieving the above object, the small-area water output management system according to the present invention is a system for transmitting the flow rate data measured at the tap water side to the central management system using a radio signal, which is installed after the water side of the water pipe. An RF transmitter and the RF transmitter for measuring the flow rate of tap water supplied to the sides, converting the flow rate sensor for transmitting the measured flow rate data and the flow rate data transmitted from the flow rate sensor to a wireline to a repeater It characterized in that it comprises a repeater for amplifying a wireless signal transmitted from the transmission to the central management system.

Preferably, the flow rate sensor is installed behind the power supply unit and the dilution valve to detect the flow of tap water, and calculates the flow of the detected tap water and converts the flow data into flow data and converts the flow data into a pulse signal to the RF transmitter. It includes a data transmission unit for transmitting.

Preferably, the RF transmitter includes an RF transmitter configured to generate a radio signal including a light collecting plate for generating a current from incident sunlight, a battery storing a current supplied from the light collecting plate, and a flow rate data transmitted from the flow sensor. It includes an antenna for transmitting a wireless signal containing the flow rate data to the repeater.

The power supply unit is preferably a DC power supply of 5V to 24V.

In addition, the radio signal preferably includes a unique number of the RF transmitter.

Hereinafter, with reference to the drawings will be described the zone and dilution water output flow rate management system according to an embodiment of the present invention.

1 is a conceptual diagram illustrating a connection state of a zone and a small water output flow rate management system according to an embodiment of the present invention, Figure 2 is a configuration diagram showing an installation state of a flow sensor according to an embodiment of the present invention.

Referring to Figures 1 and 2, the flow sensor 100 and the RF transmitter 200 is connected by wire, the data transmitted from the RF transmitter 200 via a radio signal is passed through the repeater 300 The central management system 400 is transmitted.

As described above, it is preferable to perform wireless communication only between the RF transmitter 200 and the repeater 300, but all communication between each component may be performed by wire or wirelessly.

The repeater 300 serves to amplify a radio signal transmitted from the RF transmitter 200 and transmit the amplified radio signal to the central management system 400. Since a feature of the present invention is to transmit data using a radio signal of low power, It should be equipped with a facility that can collect a small output radio signal transmitted from a plurality of RF transmitters 200 located within 1 to 2km and transmit it to the central management system 400.

Meanwhile, the manhole 4 installed below the ground 20 is protected by the manhole cover 2, and the water pipe 6 passes through a space of a predetermined size formed inside the manhole 4.

Water supply pipe (6) is provided with a distillation valve (8) and a distillation valve (10) for branching tap water to each home or office, and filled the band (12) in the water supply pipe (6) to make a hole in the upper flow sensor 100 is installed.

A portion of the flow sensor 100 is inserted into the water pipe 6, and measures the amount of tap water flowing around the dividing side 8 and transmits the amount of tap water to the RF transmitter 200 through the transmission line 112.

The flow sensor 100 operates with a DC power supply of about 5V to 24V, and uses a sensor capable of detecting a flow rate of about 0.15 m / sec to about 10 m / sec. In addition, it is preferable to coat the waterproof and anti-corrosive protective film so that the internal operating devices are not corroded or short-circuited by moisture.

And each flow sensor 100 includes the position and the manhole (4) information, such as the flow sensor 100 is installed, so as to transmit with the flow rate data. In addition, the position information of the flow sensor 100 may be linked with a geographic information system (GIS) to implement a flow rate management system more efficiently.

On the other hand, the RF transmitter 200 is installed on the ground around the manhole 4, the road, etc. to transmit data to the repeater 300 by a radio signal. The RF transmitter 200 and the flow sensor 100 are connected to the transmission line 112.

The central management system 400 refers to a computerized center of a waterworks office distributed in each region, and builds a comprehensive flow rate management system by databaseting the flow rate data transmitted from each flow sensor 100 by region and time zone. . In addition, the central management system 400 may install a two-way communication system to control the operation of the flow sensor 100 and the RF transmitter 200 at a remote location, through which a person directly installed the impeller installed in the manhole (4) There is no need to read.

3 is a block diagram showing the structure of a flow sensor according to an embodiment of the present invention. 1 to 3, the flow sensor 100 includes an impeller 102, a housing 104, a power supply unit 106, a data transmission unit 108, and a port 110, and a transmission line 112. It is connected to the RF transmitter 200 through).

Impera 102 is a portion inserted into the band 12 to measure the tap water flowing at a speed of about 0.15 m / sec to 10 m / sec, the housing 104 is formed on the upper end of the band 12 It is a part that is fixed to the fixing groove by force fitting or screw fixing method.

The power supply unit 106 included in the flow sensor 100 supplies a DC power of about 5V to 24V to transmit the data measured by the flow sensor 100 to the RF transmitter 200.

The data transmitter 108 converts the flow rate data measured by the impeller 102 into a pulse signal, and the converted pulse signal is transmitted to the RF transmitter 200 along a transmission line 112 connected to the port 110. As described above, the digital signal preferably includes information such as the position and the unique number of the flow sensor 100.

4 is a block diagram showing the internal structure of an RF transmitter according to an embodiment of the present invention. 1 to 4, the RF transmitter 200 includes a controller 202, an RF transmitter 204, an antenna 206, a battery 208, a light collecting plate 210, and the like.

The control unit 202 controls the RF transmitter 204 to convert the flow rate data transmitted from the flow rate sensor 100 into a digital signal and a wireless signal. The RF transmitter 204 transmits the flow rate data through the antenna 206 in a radio signal using a frequency of 400 MHz band (preferably 424 MHz or 447 MHz) or a dedicated frequency of waterworks (150 MHz band).

In addition, the controller 202 may have a separate port for wired or wireless communication, and may use an RS-232C port which is commonly used for wired communication as a communication interface. By using the RS-232C port, voice communication between the central management system 400 and the site is possible, so that the operator does not have to communicate with the operator of the central management system 400 even though the site operator does not have a separate communication means. You can do it.

As described above, since the RF transmitter 200 and the repeater are separated by a distance of up to about 1 km, and preferably at a distance of about 100 m to 300 m, the data is sufficiently transmitted even with a low power (10 Hz) wireless signal. This will be possible.

In addition, the flow rate data transmitted from the plurality of flow sensor 100 to the repeater 300 to be provided with about 10 to about 20 channels.

The battery 208 is a part for supplying power for the operation of the components of the RF transmitter 200, although it may use a DC rechargeable battery or AC power, so that the solar can operate independently without a separate power supply It could also be powered by a battery.

To this end, after installing a light collecting plate 210 for producing a current from sunlight incident on a certain position of the ground 20, and storing the current generated in the light collecting plate 210 in the battery 208, the generation of a wireless signal and Can be used for transmission.

In addition, any device capable of producing an electric current independently without a separate power supply may be used as a power supply source for the RF transmitter 200 of the present invention.

As described above, when the measurement data on the flow rate of the tap water is transmitted from the flow sensor 100 installed behind the dividing valve 8, the RF transmitter 200 converts it into a low power wireless signal to convert the repeater 300 Through the central management system 400 is transmitted.

The central management system 400 can be used in a comprehensive database of the flow data transmitted from each region from the remote site and compatible with the wide water supply network, and can easily grasp the usage data for water and sewage consumers.

Although the embodiments of the present invention have been described above, the scope of the present invention is not limited to these embodiments, and the rights of the person skilled in the art can be easily modified.

According to the present invention, it is possible to accurately identify the leak rate and usage of the water supply pipe from a remote location, thereby reducing the cost and effort for meter reading and metering, and providing accurate information in constructing a wide water supply network.

In addition, according to the present invention, there is no need for a person to directly inspect the imperial sperm located in the basement or dangerous area, thereby reducing the risk of meter reading.

In addition, it is possible to grasp the flow and leakage of tap water in real time from a remote location, and establish a water supply policy that can quickly and accurately identify the amount of water and detect leaks, providing informational water energy management and systematic water management for the 21st century. It can be effective.

Claims (5)

In the system for transmitting the flow rate data measured at the tap water side to the central management system using a radio signal, A flow rate sensor installed behind the dividing side of the water supply pipe, measuring a flow rate of the tap water supplied to the dividing side, and transmitting the measured flow rate data; An RF transmitter for converting the flow rate data transmitted from the flow rate sensor to the wire line and converting the flow rate data to a repeater; And a repeater for amplifying a radio signal transmitted from the RF transmitter and transmitting the amplified radio signal to the central management system. The method of claim 1, The flow sensor is A power supply unit; An imperarator installed inside the distillation valve for sensing the flow of tap water, calculating the flow of the detected tap water, and converting the detected tap water into flow data; And a data transmission unit for converting the flow rate data into a pulse signal and transmitting the pulse data to the RF transmitter. The method of claim 2, The RF transmitter is A light collecting plate for producing a current from incident sunlight; A battery storing a current supplied from the light collecting plate; An RF transmitter configured to generate a radio signal converted from the signal transmitted from the flow sensor into digital flow rate data; And an antenna for transmitting a radio signal including the flow rate data to the repeater. The method of claim 3, The power supply unit District and dike small output water management system, characterized in that the DC power supply of 5V to 24V. The method according to any one of claims 1 to 4, And the wireless signal includes a unique number of the RF transmitter.

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