KR101303032B1 - Remote automatic meter reading system for facilitating transmission of data - Google Patents

Abstract

PURPOSE: A remote metering system is provided to easily transmit data by minimizing a mitering cycle as a traffic amount is reduced. CONSTITUTION: A remote metering system comprises a remoter metering server (200), a distribution frame (120), a high voltage meter, and a plurality of low voltage meters. The distribution frame opens, closes, and protects a circuit in order to supply low voltage power to electric equipment. The high voltage meter is connected to a line for supplying high voltage power, and transmits metering data when a mater meter requests. The low voltage meters is supplied with the low voltage power from the distribution frame, and meter the power of the electric equipment. The low voltage meter comprises a mater meter and a slave meter. Data communication occurs between the master meter and the high voltage meter. A master communication unit of the master meter transmits data to a slave communication unit of the slave meter. The master meter stores the metering data transmitted from the slave meter and high voltage meter, and transmits the metering data to the remote metering server. The mater meter connects the slave meter to the master meter in order that a controller controls communications when the metering data is required to be transmitted. [Reference numerals] (110) Main transformer; (120) Main distribution frame; (200) Remote metering server; (300) Communication network; (400) High voltage meter; (420) Short-distance communication unit; (500) Master meter; (600) Slave meter; (AA) High voltage electricity; (BB,DD,FF) Cable; (CC) Master communication unit; (EE,GG) Slave communication unit

Description

Remote automatic meter reading system for facilitating transmission of data

The present invention relates to a remote meter reading system that is easy to transmit data, and in particular, to transfer the meter reading data transmitted from a plurality of slave meters to a remote meter reading server directly through a communication network without transferring the meter reading data from a plurality of slave meters. As the traffic volume between the high pressure meter and the master meter is reduced, the complexity of the implementation and the meter reading cycle required by the remote metering server can be minimized, and the remote metering system can be controlled efficiently from the remote site. will be.

In general homes or companies, a meter is installed to accumulate energy consumption, and the meter is a mechanical meter that detects the rotation of the dial to generate a predetermined pulse signal and counts the generated pulses to record and display the accumulated energy usage. There is an electronic meter that calculates energy consumption by applying voltage and current of three phases. Recently, the use of electronic meters for the accurate counting of energy consumption is increasing.

In addition, a remote meter reading system has been developed for remote meter reading with a computer using wired / wireless communication media to eliminate the hassle of visiting the meter installation site and collecting meter reading data counted by the meter.

As shown in FIG. 6, the conventional remote meter reading system reads meter reading data of the mother meter 40 and the magnetic meter 50 and 60 transmitted from the remote mother meter 40 through the mobile communication network 30. Main switchgear 12, high-voltage power supply line to open, close, monitor and protect the circuit to supply the low-voltage power converted from high-voltage power to the various electrical equipment by the remote meter reading server 20, the peripheral pressure transformer 11 to process Low voltage power in the main meter 40 and the main switchgear 12 for collecting the meter reading data and the meter reading data transmitted from the various weighing devices 50, 60 and connected when the request is received from the remote meter reading server 20 It includes a plurality of magnetic weighers (50, 60) for reading the power for a plurality of electrical equipment that is driven by being supplied, the magnetic meter (50), 60 is the most close to the mother meter (40) Master meter 50, which is a self weighing instrument and the master It consists of a slave magnetic weigher 60 which is the remaining magnetic weigher except the magnetic weighing machine, and the mother weigher 40 is provided with a mother master communication part 41 and communicates with the master communication part 51 of the master magnetic weigher 50. In this case, the master communication unit 51 of the master magnetic meter 50 communicates with the slave slave unit 61 of the slave magnetic meter 60.

Such a conventional remote meter reading system has the following problems.

First, when the number of slave self-weigher 60 is increased, the amount of low-pressure reading data that the master self-weigher 50 should transmit to the ma- meter 40 increases, and the ma- meter 40 weighs the master self-weigher 50. And the low pressure metering data of the slave self-meters (60), the implementation cost is increased by requiring the maximum size of the memory, and the communication protocol and the complexity of the implementation of the interval between the master meter 40 and the master self-meter unit is increased It takes a lot of time to acquire the low pressure metering data of the slave self-meters 60 in the mother meter 40. This causes a problem (for example, the meter reading period required by the remote meter reading server 20) in transmitting the meter reading data from the mother meter 40 to the remote meter reading server at regular intervals.

Second, if you want to collect the low-pressure metering data by remotely controlling the slave weighing machine 60 at a remote place, after communicating to the master weighing machine 40 at a remote place, the master weighing machine 50 at the master weighing machine 40 When the connection request is made and the master weighing machine 50 accepts the connection, the master weighing machine 50 is connected to the slave weighing machine 60 designated by the remote place. In order to connect with the slave weighing device 60 in the remote place due to the system structure, three devices, such as the master weighing machine 40, the master weighing machine 50, and the slave weighing device 60, must pass through the slave weighing device 60 in the remote place. ), It takes a lot of time and delays in sending and receiving data.

Korea Patent Registration No. 10-0938616

The present invention was created to solve various problems of the prior art as described above, and its object is to transmit meter reading data transmitted from a plurality of slave meters to a remote meter reading server directly through a communication network without transmitting the meter to the high pressure meter. In addition, the memory size required by the high-pressure meter is reduced compared to the conventional method, and as the traffic volume between the high-pressure meter and the master meter is reduced, the complexity of the implementation and the metering period required by the remote metering server can be minimized and efficient. It is to provide a remote meter reading system that is easy to transmit data to control the slave meter at a remote location.

In order to achieve the above object, the remote meter reading system of the present invention is easy to transmit data, the remote meter reading server for reading and processing the meter reading data of the high-pressure meter and low-pressure meter transmitted from a remote master meter; A main switchgear that opens, closes, monitors and protects the circuit to supply the low voltage power converted from the high voltage power by the peripheral voltage to the main electric power; A high voltage meter which transmits meter reading data connected to the high voltage power supply line when requested by the master meter; And a plurality of low pressure gauges for reading electric power for a plurality of electrical equipments driven by low voltage power supplied from the main switchgear, wherein the low pressure gauges are master gauges, which are the closest low pressure gauges, and It consists of a slave meter which is a low-pressure meter other than the master meter, and the high-voltage meter is provided with a short-range communication unit is a data communication with the master communication unit of the master meter, the master communication unit of the master meter is the slave communication unit of the slave meter Data communication is performed with the master meter, and stores the meter reading data transmitted from the high pressure meter and the slave meter, and transmits the stored meter reading data to the remote meter reading server at the request of a remote meter reading server.

The stored meter reading data can be transmitted to the remote meter reading server at regular intervals, and when the meter reading data is requested from the remote site, the stored meter reading data is connected to the master meter and the slave meter so as to remotely control the meter reading data.

The short range communication unit of the high-voltage meter and the master communication unit of the master meter communicate with each other by the RF communication method, the master communication unit of the master meter and the slave communication unit of the slave meter is characterized in that the communication by PLC or Ethernet communication.

The short range communication unit of the high-voltage meter and the master communication unit of the master meter communicates in a PLC communication method or an Ethernet communication method, and the master communication unit of the master meter and the slave communication unit of the slave meter communicate with the RF communication method.

The near field communication unit of the high voltage meter and the master communication unit of the master meter communicate with each other by RF communication and PLC communication method (or Ethernet communication method), and the master communication unit of the master meter and the slave communication unit of the slave meter communicate with the RF communication and PLC communication method (or Ethernet communication method), when communication of any one of the RF communication method and PLC communication method (or Ethernet communication method) is bad, it characterized in that the data transmission is made through the other communication method.

In addition, the present invention is to install a wireless coupler between the PLC communication (or Ethernet communication) and RF communication, the wireless coupler to control the wireless signal to transmit the power line (or LAN line) and transmit the power line (or LAN line) signal wirelessly It characterized in that it comprises a microcontroller.

The high voltage meter may be connected to the high voltage power supply line and collect a meter reading data; A short-range communication unit implemented in short-range wireless communication such as Zigbee, RF, IEE 802.11a / b / g, Bluetooth, and transmitting meter reading data collected in the high-voltage power meter to the master meter; A data storage unit storing meter reading data collected in the high voltage power metering unit and data received through the short range communication unit; A power supply unit supplying power to each component of the high pressure meter; And storing the data transmitted through the high-voltage power metering unit and the short-range communication unit to be stored in the data storage unit, and when the meter reading data is requested from the master meter, the latest reading data is read from the data storage unit and transmitted to the master meter. If there is no metering data, characterized in that it comprises a central control unit for controlling to obtain the high-voltage power meter.

The master meter, the wireless communication unit for performing wireless communication with the high pressure meter and a plurality of slave meter; A wired communication unit for wired communication with a plurality of slave meters; A wired / wireless communication unit implemented in a wired / wireless communication method such as mobile communication, optical communication, ADSL communication, and Ethernet communication for data communication with a remote meter reading server; Metering unit for collecting the meter data from the connected electrical equipment; A memory unit for storing data transmitted through the wireless communication unit, wired communication unit, wired / wireless communication unit, and metering unit; A power supply unit supplying power to each component of the master meter; And storing the data transmitted through the wireless communication unit, the wire communication unit, the wired / wireless communication unit, and the metering unit to store the data in the memory unit, and when the meter reading data is requested from the remote metering server, the meter reading data is transmitted to the remote metering server every predetermined period. It reads from the memory unit and transmits it to the remote meter reading server through the wired / wireless communication unit. If there is no recent meter reading data, the meter reading unit sends a request signal to the metering unit. It characterized in that it comprises a controller for controlling the communication to be controlled by.

The slave meter may include a wired communication device for wired communication with an upper master meter; A wireless communication device for wireless communication with an upper master meter; A metering device for collecting metering data from the connected electrical equipment; A storage device for storing data transmitted through the wired / wireless communication device and the metering device; A power supply for supplying power to each component of the slave meter; And control the data transmitted through the wired / wireless communication device and the metering device to be stored in the storage device, and when the meter data is requested from the master meter, the latest meter data is retrieved from the storage device and wired or wireless communication to the master meter. It is transmitted through the device, and if there is no recent meter data is obtained through the metering device, and a control device for controlling to accept the connection when a connection request from the master meter to control the slave meter at a remote location It is characterized by.

In addition, in an embodiment of the present invention, in transmitting data from the slave meter to the master meter, it may be configured in an ad-hoc network method.

By providing the remote meter reading system as described above the following effects occur.

That is, the master meter stores the low pressure metering data collected from the slave meter in the data storage unit (memory) without transmitting it to the high pressure meter, and then acquires the high pressure metering data from the high pressure meter and collects the high pressure metering data and the low pressure metering data. It has a structure to transmit to a remote meter reading server. Accordingly, the present invention reduces the memory size required by the high pressure meter compared to the conventional method, and minimizes the complexity of the implementation and the metering cycle required by the remote meter reading server as the traffic volume between the high pressure meter and the master meter is reduced. can do.

In addition, since the slave meter provides a quick response when trying to control the slave meter at a remote location, the quality of service can be improved.

Accordingly, the present invention has the effect that the overall efficiency of the remote meter reading system is improved to maximize the satisfaction and reliability of the communication used to install it.

1 is an internal block diagram of a remote meter reading system according to an embodiment of the present invention.
FIG. 2 is a detailed configuration diagram of the high pressure meter shown in FIG. 1.
3 is a detailed configuration diagram of the master weighing instrument shown in FIG. 1.
4 is a detailed configuration diagram of the slave meter shown in FIG. 1.
5 is an internal block diagram of a wireless coupler according to the present invention.
6 is an internal block diagram of a remote meter reading system according to the prior art.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The same or similar reference numerals are used throughout the drawings for portions having similar functions and functions.

In addition, "including" a certain component means that it may further include other components, without excluding other components unless there is a description to the contrary.

1 is an internal block diagram of a remote meter reading system according to an embodiment of the present invention.

As shown in the figure, the remote meter reading system of the present invention is a remote meter reading server 200, high-pressure meter 400, peripheral pressure 110, the main switchboard 120 and a plurality of low-pressure meter (500, 600) It is configured to include. Although also described below, the low pressure meter is composed of one master meter 500 and the other slave meter 600.

The remote meter reading server 200 reads and processes the meter reading data of the high pressure meter 400 and the low pressure meter transmitted from the remote master meter 500 through the communication network 300.

Specifically, the remote meter reading server 200 and the high-pressure meter 400 is a Code Division Multiple Access (CDMA) network, a Global System for Mobile Telecommunication (GSM) network, a Wideband Code Division Multiple Access (WCDMA) network, and a WiBro network. Etc. Communicate with each other through any wireless mobile communication network currently under development or in the future.

The main switchboard 120 receives a high voltage power (for example, 22,900 V) and converts the low voltage power (for example, 220 V to 380 V) through the peripheral pressure transformer 110, and converts the converted low voltage power into a street lamp, a drain pump, and the like. The circuits will be opened, closed, monitored and protected to supply the same electrical equipment to the mains.

Power for a plurality of electrical installations driven with low voltage power supplied from the main switchgear 120 is metered through the low pressure meter (500, 600).

At this time, the high-voltage meter 400 is provided with a short-range communication unit 420, the meter reading data read by the high-voltage meter 400 through the short-range communication unit 420 is transmitted to the master meter 500.

In addition, the low pressure meter 500 is provided with a master communication unit or a slave communication unit, respectively.

At this time, one of the plurality of low-pressure meter (500, 600) is called the master meter (500), the rest of the slave meter (600).

The master meter 500 refers to the high-pressure meter 400 and the nearest meter, and has a built-in master communication unit. Here, the master communication unit includes a wireless communication unit 510, a wired communication unit 520, and a wired / wireless communication unit 530 of FIG. 43.

In addition, the master meter 500 stores the meter reading data transmitted from the high-pressure meter 400 and the slave meter 600, the remote meter reading server 200 when the meter reading data request from the remote meter reading server 200 Send it to. It transmits the stored meter reading data to the remote meter reading server 200 at regular intervals, and connects communication so that the master meter 500 and the slave meter 600 can be remotely controlled when the meter reading data is requested from a remote location.

The slave meter 600 incorporates a slave communication unit 61. Here, the slave communication unit includes a wired communication device 650 and a wireless communication device 660 of FIG. 4.

The master communication unit of the master meter 500 is configured to enable mutual communication (wireless and wireless communication) with the remote meter reading server 200, the short range communication unit 420 of the high pressure meter 400, and the slave communication unit of the slave meter 600. Here, the mutual communication is one example, such as RF communication which is wireless communication and PLC communication (or Ethernet communication) which is a power line communication system.

That is, when the near field communication unit 420 and the master communication unit communicate with each other by RF communication, which is wireless communication, the master communication unit and the slave communication unit communicate with each other by PLC communication (or Ethernet communication) which is power line communication.

In addition, when the local area communication unit 420 and the master communication unit communicates with each other via PLC communication, which is power line communication, the master communication unit and the slave communication unit communicate with each other through RF communication, which is wireless communication.

Accordingly, when the short-range communication unit 420 and the master communication unit selects and executes any one of wireless communication, RF communication or power line communication, PLC communication, the master communication unit and the slave communication unit are also wireless communication RF communication or power line communication method. Any one of the PLC communication can be selected and communicate, and the RF communication, which is the wireless communication, and the PLC communication, which is the power line communication method, can be simultaneously performed for accurate meter reading. When an error or an error occurs, the meter reading data can be transmitted through another communication method.

FIG. 2 is a detailed configuration diagram of the high pressure meter 400 shown in FIG. 1.

Referring to FIG. 2, the high pressure meter 400 of the present invention includes a high voltage power meter 410, a short range communication unit 420, a data storage unit 430, a power supply unit 440, and a central control unit 450. It is composed.

The high voltage power meter 410 is connected to the high voltage power supply line to collect high voltage meter reading data.

The short-range communication unit 420 is implemented by short-range wireless communication such as ZigBee, RF, IEE 802.11a / b / g, Bluetooth, and transmits the metering data collected by the high-voltage power meter 410 to the master meter 500. to be.

The data storage unit 430 stores the meter data collected in the high voltage power meter 410 and data received through the short range communication unit 420 (eg, a meter data request signal).

The power supply unit 440 supplies power to each of the components of the high voltage meter 400, the high voltage power meter 410, the short range communication unit 420, the data storage unit 430, and the central controller 450.

The central controller 450 controls each component of the high pressure meter 400 of the present invention.

Specifically, the central controller 450 controls the data transmitted through the high-voltage power metering unit 410 and the short-range communication unit 420 to be stored in the data storage unit 430, and reads the meter reading data request signal from the master meter 500. When is transmitted, the latest metering data is retrieved from the data storage unit 430 and transmitted to the master meter 500. If the latest metering data is not in the data storage unit 430, the metering data is transferred to the high voltage power metering unit ( 410 controls to obtain. Here, the determination of whether the reading data is recent may be based on a date and / or time set by the user.

3 is a detailed configuration diagram of the master weighing machine 500 shown in FIG. 1.

Referring to FIG. 3, the master meter 500 of the present invention is located in the same space as the high pressure meter 400 and is one of the magnetic probes installed at the shortest distance (usually around 20 M) with the high pressure meter 400. The wireless communication unit 510, a wired communication unit 520, a wired / wireless communication unit 530, a metering unit 540, a memory unit 550, a power supply unit 560, and a controller 570 are configured to be included.

The wireless communication unit 510 is provided for wireless data communication with the high voltage meter 400 in a short distance, and is also provided for wireless data communication with a plurality of slave meter 600.

In particular, the wireless communication unit 510 performs short-range wireless communication with the high-voltage meter 400, and the short-range wireless communication methods include Zigbee, RF, IEE 802.11a / b / g, Bluetooth, and the like.

Meanwhile, in performing data communication between the high voltage meter 400 and the master meter 500, in addition to the short range wireless communication, a wired communication, preferably a short distance wired communication method may be used.

The wired communication unit 520 is provided for wired communication with a plurality of slave meter 600.

The wired / wireless communication unit 530 is provided for data communication with the upper remote meter reading server 200, and examples thereof include mobile communication, optical communication, ADSL communication, and Ethernet communication.

The metering unit 540 collects meter reading data from a connected electric facility (eg, a street lamp).

The memory unit 550 stores data transmitted through the wireless communication unit 510, the wired communication unit 520, the wired / wireless communication unit 530, and the metering unit 540.

The power supply unit 560 is a wireless communication unit 510, wired communication unit 520, wired / wireless communication unit 530, metering unit 540, memory unit 550, and controller 570, which are components of the master meter 500. Power on.

The controller 570 controls the data transmitted through the wireless communication unit 510, the wired communication unit 520, the wired / wireless communication unit 530, and the metering unit 540 to be stored in the memory unit 550, and the remote meter reading server 200. When reading the meter data from the request to send the meter reading data to the remote meter reading server 200 at a predetermined period every time to read the meter reading data from the memory unit 550 and transmits to the remote meter reading server 200 through the wired and wireless communication unit 530, If there is no metering data, the metering unit 540 transmits a metering data request signal to acquire metering data, and when the metering data is requested from a remote location, the master meter 500 and the slave meter 600 can be controlled so as to remotely control the metering data. To control.

4 is a detailed block diagram of the slave meter 600 shown in FIG.

4, the slave meter 600 of the present invention is a wired communication device 650, a wireless communication device 660, a metering device 610, a storage device 640, a power supply device 630 and a control device And 620.

The wired communication device 650 is provided for wired communication with the upper master meter 500. As an example, there are PLC (power line) communication and Ethernet communication.

The wireless communication device 660 is provided for wireless communication with the upper master meter 500.

The metering device 610 collects the metering data from the connected electrical equipment (eg, septic tank, drain pump).

The storage device 640 stores data transmitted through the wired / wireless communication devices 650 and 660 and the metering device 610.

The power supply 630 supplies power to each component of the slave meter 600.

The control device 620 controls the data transmitted through the wired / wireless communication devices 650 and 660 and the metering device 610 to be stored in the storage device 640, and upon reading the meter data from the master meter 500. Read the recent meter reading data from the storage device 640 and transmit it to the master meter 500 through the wired and wireless communication device 650, 660, if there is no recent meter reading data obtained through the metering device 610, When a connection request comes from the master meter 500 to control the slave meter 600 at a remote location, the controller controls the slave meter 600 to accept the connection.

5 is an internal block diagram of a wireless coupler according to the present invention.

Referring to FIG. 5, the wireless coupler 700 of the present invention relays two media, that is, the PLC communication unit 720 and the RF communication unit 710, and transmits a wireless signal to a power line and wirelessly transmits a power line signal to a wireless line. Microcontroller (MCU) 730 to control delivery.

By providing the coupler as described above, even if the PLC communication method and the RF communication method are combined with the master meter, it is possible to solve the problem that the communication relay cannot be performed because the meter that needs to receive the RF is out of the RF communication distance.

Meanwhile, in the present invention, in performing data transmission from the slave meter 600 to the master meter 500, an ad-hoc network method may be used. In detail, the plurality of slave meters 600 transmit metering data, and the data is transmitted to the closest slave meter 600 of the master meter 500, and finally, the master meter 500 is transmitted.

Ad hoc network is researching standardization of protocol for mobile ad hoc network in IETF MANET (Mobile Ad hoc Network) working group, and it is a network that can communicate with each other by multiple slave meter 600. This IEEE 802.11 wireless LAN (WLAN), IEEE 802.15 Wireless Personal Area Network (WPAN) and Home Area Network (HAN) and communication fields are used.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

110: peripheral pressure
120: main switchboard
200: remote meter reading server
300: Network
400: high pressure meter
410: high voltage power meter
420: Near Field Communication
430: data storage
440: power supply
450: central control unit
500: master meter
510: wireless communication unit
520: wired communication unit
530: wired and wireless communication
540: metering unit
550: memory
560: Power supply
570: controller
600: slave meter
610: weighing device
620: controller
630: power supply
640: storage device
650: wired communication device
660: wireless communication device

Claims (9)

A remote metering server that reads and processes metering data of a high pressure meter and a low pressure meter transmitted through a communication network from a remote master meter;
A main switchgear that opens, closes, monitors and protects the circuit to supply the low voltage power converted from the high voltage power by the peripheral voltage to the main electric power;
A high pressure meter for transmitting meter reading data connected to the high voltage power supply line upon request of the master meter; And
It comprises a plurality of low-pressure meter for reading the power to a plurality of electrical equipment driven by the low voltage power supplied from the main switchboard,
The low pressure meter is composed of the high pressure meter and the master meter which is the lowest pressure meter in the shortest distance and the slave meter which is the remaining low pressure meter except the master meter.
The high voltage meter is provided with a short-range communication unit is a data communication with the master communication unit of the master meter, the master communication unit of the master meter is a data communication with the slave communication unit of the slave meter,
The master meter stores the metering data transmitted from the high-pressure meter and the slave metering unit and transmits the stored metering data to the remote metering server at a predetermined period at the request of a remote metering server, and when the metering data is requested from a remote location, the master meter Remote meter reading system, characterized in that for connecting the communication with the slave meter to control the remote. The method of claim 1,
The short range communication unit of the high voltage meter and the master communication unit of the master meter communication by RF communication method, the master communication unit of the master meter and the slave communication unit of the slave meter remote communication system, characterized in that the communication by PLC or Ethernet communication method . The method of claim 1,
The short range communication unit of the high voltage meter and the master communication unit of the master meter communicates in a PLC communication method or an Ethernet communication method, and the master communication unit of the master meter and the slave communication unit of the slave meter communicates by RF communication method . The method of claim 1,
The near field communication unit of the high voltage meter and the master communication unit of the master meter communicate with each other by RF communication and PLC communication method (or Ethernet communication method), and the master communication unit of the master meter and the slave communication unit of the slave meter communicate with the RF communication and PLC communication method (or Ethernet communication method)
When the communication of any one of the RF communication method and PLC communication method (or Ethernet communication method) is bad, the remote meter reading system characterized in that the data transmission is made through the other communication method. The method according to any one of claims 2 to 4,
Install a wireless coupler between PLC communication (or Ethernet communication) and RF communication,
The wireless coupler includes a microcontroller for transmitting a wireless signal to the power line (or LAN line) and controls to transmit the power line (or LAN line) signal wirelessly. The method of claim 1,
The high pressure meter,
A high voltage power meter connected to the high voltage power supply line to collect meter reading data;
A short-range communication unit implemented in short-range wireless communication such as Zigbee, RF, IEE 802.11a / b / g, Bluetooth, and transmitting meter reading data collected in the high-voltage power meter to the master meter;
A data storage unit storing meter reading data collected in the high voltage power metering unit and data received through the short range communication unit;
A power supply unit supplying power to each component of the high pressure meter; And
Control the data transmitted through the high-voltage power meter and the short-range communication unit to be stored in the data storage unit, and when the reading data request from the master meter to retrieve the latest meter data from the data storage unit and transmits to the master meter, the recent meter reading The remote meter reading system, characterized in that it comprises a central control unit for controlling to obtain the high-voltage power meter if there is no data. The method of claim 1,
The master meter,
A wireless communication unit performing wireless communication with the high voltage meter and the plurality of slave meters;
A wired communication unit for wired communication with a plurality of slave meters;
A wired / wireless communication unit implemented in a wired / wireless communication method such as mobile communication, optical communication, ADSL communication, and Ethernet communication for data communication with a remote meter reading server;
Metering unit for collecting the meter data from the connected electrical equipment;
A memory unit for storing data transmitted through the wireless communication unit, wired communication unit, wired / wireless communication unit, and metering unit;
A power supply unit supplying power to each component of the master meter; And
The data transmitted through the wireless communication unit, wired communication unit, wired / wireless communication unit, and metering unit is controlled to be stored in the memory unit, and when the meter reading data is requested from the remote metering server, the meter reading data is stored when the meter reading data is sent to the remote metering server at regular intervals. It reads from the unit and transmits it to the remote metering server through the wired / wireless communication unit. If there is no recent metering data, it acquires the metering data request signal to the metering unit and controls the master meter and the slave meter at the remote site when the metering data is requested from the remote site. Remote meter reading system comprising a controller for controlling the communication to be able to. The method of claim 1,
The slave meter is,
A wired communication device for wired communication with an upper master meter;
A wireless communication device for wireless communication with an upper master meter;
A metering device for collecting metering data from the connected electrical equipment;
A storage device for storing data transmitted through the wired / wireless communication device and the metering device;
A power supply for supplying power to each component of the slave meter; And
Control the data transmitted through the wired / wireless communication device and the metering device to be stored in the storage device, and when the meter data is requested from the master meter, the latest meter data is read from the storage device and the wired / wireless communication device is used as the master meter. And a control device for acquiring the connection when there is no recent metering data, and for acquiring the connection when the connection request is received from the master meter to control the slave meter at a remote location. Remote meter reading system characterized in that. 9. The method according to claim 7 or 8,
Data transmission from the slave meter to the master meter is a remote meter reading system, characterized in that the ad-hoc (ad-hoc) network method.

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