KR101071225B1 - Metering system using wire communication network - Google Patents

Abstract

The present invention relates to a metering system using a wired communication network, and more particularly, a power meter for measuring the amount of electricity produced by a generator of a power plant and storing it in a memory; A dedicated line modem for relaying communication between a power meter and a wired data processing device through a dedicated line; A power plant-side preprocessor connected to a plurality of power plant-side dedicated line modems to demultiplex metering data received from the plurality of power plant-side dedicated line modems and transmit them through a dedicated line; An aerial modem for relaying communication between the electricity meter and the wired data processing device through the aerial network; A wired data processing device connected to a plurality of metering server-side dedicated line modems and a plurality of metering server-side aerial modems to collect and convert metering data measured by a power meter and transmit the metering data to the metering server; It is connected to the wired data processing device, and includes a weighing server for managing and interpreting the received weighing data, and transmitting the setting information of the wired data processing device and the unreceived weighing data signal, it is possible to save the communication cost using the public wire network It is intended to provide a metering system using a wired communication network that can accommodate more leased lines and prevent overload of the metering server.

Weighing, Wired Data Processing Unit, Weighing Server

Description

Metering system using wire communication network

The present invention relates to a metering system using a wired communication network, and more particularly, a power meter for measuring the amount of electricity produced by a generator of a power plant and storing it in a memory; A dedicated line modem for relaying communication between a power meter and a wired data processing device through a dedicated line; A power plant-side preprocessor connected to a plurality of power plant-side dedicated line modems to demultiplex metering data received from the plurality of power plant-side dedicated line modems and transmit them through a dedicated line; An aerial modem for relaying communication between the electricity meter and the wired data processing device through the aerial network; A wired data processing device connected to a plurality of metering server-side dedicated line modems and a plurality of metering server-side aerial modems to collect and convert metering data measured by a power meter and transmit the metering data to the metering server; It is connected to the wired data processing device, and includes a weighing server for managing and interpreting the received weighing data, and transmitting the setting information of the wired data processing device and the unreceived weighing data signal, it is possible to save the communication cost using the public wire network It is intended to provide a metering system using a wired communication network that can accommodate more leased lines and prevent overload of the metering server.

Currently, electricity used in homes and businesses is produced by power companies throughout the country. Electricity is difficult to store, so supply and demand must always match, but power demand is constantly changing, so power generation companies are adjusting their production to meet changing demand. Each power company installs an electricity meter to measure the amount of electricity generated by each power plant, and transfers the measured electricity to the Korea Electric Power Exchange, and pays a corresponding fee according to the electricity produced by the generator of each power company from the Korea Power Exchange. It is paid. Therefore, it is important for KEPCO to obtain information on the metering data of the electricity produced by the generator, which checks the state of the meter and the meter measured by the person (the meter) to check the power generation of the power plants located in remote areas by the Nimbi phenomenon. The method has a problem in solving labor costs, inaccurate meter reading, and ever-changing demand and supply of electric power. Accordingly, a metering system for remotely measuring the amount of electricity generated by a generator has been devised.

The remote weighing system according to the prior art transmits the value metered by the meter to the metering server using a wired communication network according to the instruction of the metering server, and a wired data processing device is installed at the front side of the metering server to be sent to each meter. Collect the data and send it to the weighing server. In the remote weighing system, the weighing server becomes the subject of weighing, converting and interpreting the weighing data, which causes an overload of the weighing server, thereby making it impossible to collect the weighing data smoothly.

The present invention is to solve the above-mentioned problems of the prior art, in the case of receiving the metering data using a public wire network including a wired data processing device including an automatic weighing module, the required weighing performing module to transmit to the weighing server If the weighing server does not receive the weighing data, the metering system can also transmit the weighing data not received by the weighing server at the next automatic weighing to provide a weighing system using a wired communication network that can save the communication cost using the public wire network. have.

In addition, an object of the present invention is to provide a metering system using a wired communication network that can efficiently utilize the connection port of the wired data processing device can accommodate more dedicated lines.

In addition, an object of the present invention is to provide a weighing system using a wired communication network that can prevent the overload of the weighing server, including a wired data processing device for collecting and converting the weighing data.

In addition, the present invention, if there is a plurality of generators in one power plant, including a power plant-side preprocessor connected to a plurality of power station-side dedicated line modem, it is possible to transmit the weighing data in a power plant having a single generator with a plurality of generators The purpose is to provide a metering system using a wired communication network.

The present invention is implemented by the embodiment having the following configuration in order to achieve the above object.

According to an embodiment of the present invention, a metering system using a wired communication network according to the present invention is a metering system in which a metering server collects metering data measured by an electricity meter installed in a plurality of generators by using a dedicated line and an aerial line network. A power meter for measuring the amount of electricity produced by a generator of the power plant and storing the measured amount in a memory; It relays communication between electricity meter and wired data processing device through leased line, and includes power line-side dedicated line modem connected to electricity meter and leased line in one dedicated line, and metering server-side dedicated line modem connected to leased line and wired data processing device respectively. A dedicated line modem; A power plant-side preprocessor connected to a plurality of power plant-side dedicated line modems to demultiplex metering data received from the plurality of power plant-side dedicated line modems and transmit them through a dedicated line; An airship that relays the communication between the electricity meter and the wireline data processing device through the aerial network, and includes an aerial modem on the power station side connected to the electricity meter and the aerial network, and an aerial modem on the weighing server side respectively connected to the aerial network and the wireline data processing device. A modem; A wired data processing device connected to a plurality of metering server-side dedicated line modems and a plurality of metering server-side aerial modems to collect and convert metering data measured by a power meter and transmit the metering data to the metering server; A metering server connected to the wireline data processing device, for managing and interpreting the received metering data, and for transmitting setting information of the wireline data processing device and a signal for not receiving weighing data; And an information DB server for storing information generated in the process of transmitting and receiving the metering server and the wired data processing device and setting information of the metering server and the wired data processing device.

According to an embodiment of the present invention, in the metering system using a wired communication network according to the present invention, the wired data processing apparatus uses data input or output to use a communication method of RS-232C, RS-422C, and RS-485C. A communication driver unit for controlling the protocol, a protocol processing unit for converting the standard data to receive the metering data transmitted from the electricity meter having a different communication protocol, and the communication between the wired data processing apparatus, the dedicated server modem on the metering server side and the aerial server modem on the metering server side. A modem transmitting and receiving unit including a buffer unit for adjusting an operation speed and a timing; Automatic weighing module requesting the transmission of the weighing data measured by the electricity meter according to the automatic weighing cycle, and instructing the server sending / receiving unit to send the weighing data directly to the dedicated line modem of the weighing server side when the meter data receiving signal is not received from the weighing server. A metering instruction unit including a requesting weighing module for instructing the weighing server side aerial modem to collect and transmit the weighing data not transmitted at the next automatic weighing; A storage unit for storing the power meter, the dedicated line modem, the aerial line modem, basic information of the metering server, and metering data transmitted and received by a wired data processing device; A multidrop performing unit extracting the original weighing data by multiplexing the demultiplexed weighing data transmitted by the power plant side preprocessor through a dedicated line so that the weighing server can interpret it; A logical channel function unit for allocating a power station-side aerial modem to transmit and receive data through the aerial server network with the weighing server-side aerial modem for transmitting and transmitting metering data transmission commands through the aerial network; And a server transmitter / receiver for transmitting the weighing data received and converted through the modem transmitter / receiver to the metering server or receiving setting information and a metering data non-received signal from the metering server.

According to another embodiment of the present invention, in the metering system using a wired communication network according to the present invention, the metering server is connected to the wired data processing device, and the metering system setting change and the metering data non-received signal are transmitted to the wired data. A transmitting / receiving unit which transmits to a processing apparatus and receives metering data information from the wired data processing apparatus; A data analysis module for calculating an amount to be paid to a power generation company by checking the amount of electricity produced by each generator based on the weighing data received by the transceiver; A request weighing instruction module for checking the weighing data information stored in the weighing information DB according to the check period of the request weighing instruction module and transmitting a non-measured weighing signal to the control unit when the existence of the weighing data which has not been transmitted is confirmed; A function setting module for checking and changing the registration and setting states of the metering server and the wired data processing device; And a transmission / reception module connected to the information DB server to transmit and receive metering data and setting information.

As described above, the weighing system using the wired communication network according to the present invention includes a wired data processing apparatus including an automatic weighing module and a required weighing module, and transmits the weighing data to the weighing server using a public network. When the weighing server does not receive the weighing data, the metering server also transmits the weighing data not received by the weighing server at the time of the next automatic weighing, thereby saving the communication cost using the public wire network.

In addition, the present invention can effectively utilize the connection port of the wired data processing device has the effect that can accommodate more dedicated lines.

In addition, the present invention has the effect of preventing the overload of the weighing server, including a wired data processing device for performing the collection and conversion of the weighing data.

In addition, the present invention, if there is a plurality of generators in one power plant, including a power plant-side preprocessor connected to a plurality of power station-side dedicated line modem, it is possible to transmit the weighing data in a power plant having a single generator with a plurality of generators It is effective.

Hereinafter, with reference to the accompanying drawings, a metering system and a metering method using a wired communication network according to the present invention will be described in detail.

1 is an overall configuration diagram of a metering system using a wired communication network according to an embodiment of the present invention, Figure 2 is for explaining in detail the connection line connection in the metering system using a wired communication network according to an embodiment of the present invention 3 is a configuration diagram for explaining in detail the aerial network connection relationship in the metering system using a wired communication network according to an embodiment of the present invention, Figure 4 is a wired communication network according to an embodiment of the present invention 5 is a block diagram of a wireline data processing device in the metering system used, FIG. 5 is a block diagram of a metering instruction unit of the wireline data processing device according to an embodiment of the present invention, and FIG. 6 is a wireline data processing according to an embodiment of the present invention. 7 is a block diagram of a metering server of a metering system using a wired communication network according to an embodiment of the present invention, and FIG. A metering system with a wired communication network according to an exemplary embodiment a block diagram of a DB server information FIG.

1 to 8, a metering system using a wired communication network is a system for remotely measuring and calculating the amount of electricity produced by a generator of a power plant, and includes a power meter 21, a dedicated line modem 22 and 23, and an aerial modem 22. 23), wired data processing device 24, metering server 25, information DB server 26, information public web server 27, PC.

First, the overall coupling relationship between the configuration of a metering system using a wired communication network according to the present invention will be described with reference to FIGS. In the metering system using a wired communication network, a metering server 25 collects metering data measured by a power meter 21 installed in a plurality of generators by using a dedicated line and a public line network. For each power plant, a dedicated dedicated line connecting the metering server side is set, and each dedicated line is connected to the metering server side dedicated line modem 23 and the power plant side dedicated line modem 22. In the case where only one power plant has a plurality of generators, the dedicated line is connected to the metering server side dedicated line modem 23 and the power plant side preprocessor. Looking at the connection relationship in the case of using the aerial network, the aerial metering server side M modem server 23 'and the N power station side aerial modem is installed in the aerial network. In general, M has a number less than N. The above shows a coupling relationship between the overall configuration of the metering system using a wired communication network according to the present invention, the details will be described in detail in the description of the configuration below.

The electricity meter 21 measures the amount of electricity produced from the generator of the power plant in a digital manner and stores it in a memory, and receives a measurement data transmission command to measure the quantity of electricity (meaning the amount of electricity generated by the generator) of the electricity meter 21. Send a unique ID together. The watt-hour meter 21 preferably measures the measurement data in units of 5 minutes and has a specification capable of storing the measurement data for 50 days or more. For example, a Landis + Gyr, Actaris, LSIS, ABB class 0.5 meter 21, and a power measurement, Actaris, Landis + Gyr class 0.2 meter 21 may be used.

The dedicated line modems 22 and 23 relay the communication between the wired data processing device 24 and the electricity meter 21 through a dedicated line, and the power plant side dedicated line modem 22 is a power meter 21 and a dedicated line in one dedicated line. Respectively connected to the metering server side dedicated line modem 23 are respectively connected to the wired data processing apparatus 24 and the dedicated line. The metering server side dedicated line modem 23 transmits the metering data transmission command of the wireline data processing device 24 to the power plant side dedicated line modem 22 via a dedicated line, and the power plant side dedicated line modem 22 transmits the dedicated line through the dedicated line. Receives the weighing data and transmits it to the weighing server (25). The power station side dedicated line modem 22 receives the metering data transfer command from the metering server side dedicated line modem 23 and collects metering data from the electricity meter 21 and transmits the metering data to the metering server side dedicated line modem 23 via a dedicated line. . When there are a plurality of power generators in one power plant and there are a plurality of power plant-side dedicated line modems 22, the plurality of power plant-side dedicated line modems 22 are connected to the power plant-side preprocessor. The power plant-side preprocessor demultiplexes the metering data received from the plurality of power plant-side dedicated line modems 22 and transmits them through the dedicated line, and multiplexes the metering data transmission request received through the dedicated line to the power plant-side dedicated line modem 22. Send. By using the power plant side preprocessor, the metering data transmission is possible in a power plant having a single dedicated line and a plurality of generators.

The aerial modems 22 'and 23' relay the communication between the wired data processing device 24 and the electricity meter 21 through the aerial network, and the power station-side aerial modem 22 'is connected to the electricity meter 21 and the aerial network. Respectively connected to the metering server side aerial modem 23 'is connected to the wireline data processing device 24 and the aerial network respectively. The weighing server side aerial modem 23 'transmits a metering data transmission command of the wireline data processing device 24 to the power plant side aerial modem 22' via the public network, and the power station side aerial modem 22 'is connected to the aerial network. Receives the weighing data transmitted through the transmission to the weighing server (25). The power plant-side aerial modem 22 'receives the metering data transmission command from the metering server-side aerial modem 23', collects metering data from the electricity meter 21, and transmits it to the aerial modem on the metering server side through the aerial network. do. The metering server side aerial modem 23 'has a smaller number than the power plant side aerial modem 22'.

The wired data processing device 24 is connected to the metering server 25, a plurality of metering server side dedicated line modems 23, and a plurality of metering server side aerial modems 23 ′ to measure the metering power 21. Collecting and converting data to transmit to the metering server 25, modem transmission and reception unit 241, metering instruction unit 242, storage unit 243, power supply unit 244, multidrop performing unit 245, A logical channel function unit 246, a server transmission / reception unit 247, a function setting and upgrading unit 248, and a control unit 249.

The modem transmitter / receiver 241 transmits a data transmission command to the metering server side dedicated line modem 23 and the metering server side aerial modem 23 ', and the metering server side dedicated line modem 23 and the metering server side aerial modem 23. ') To receive the metering data and the unique ID of the electricity meter 21, the modem transmitter and receiver 241 is a data input or output to use a communication method such as RS-232C, RS-422C, RS-485C A communication driver for adjusting, a protocol processing unit for converting the metering data transmitted from the electricity meter 21 having different communication protocols into a standard protocol, the wired data processing unit 24 and the dedicated server modem line modem ( 23) and a buffer unit for controlling the operation speed and timing during the communication of the weighing server side aerial modem 23 '.

The metering instruction unit 242 collects the metering data measured by the electricity meter 21 according to the automatic metering cycle or the instruction of the metering server 25 and requests transmission to the metering server 25, and the metering module 2421. ), A required weighing module 2422 and a direct weighing module 2423.

The automatic weighing module 2421 is configured to request transmission of the weighing data measured by the electricity meter 21 according to a preset weighing cycle (hereinafter, referred to as an automatic weighing cycle). When the wired data processing device 24 is set, the automatic weighing module 2421 operates every 1 hour so that the wired data processing device 24 measures the power meter 21 under the control of the controller 249. The metering data and the electricity meter 21 are collected and transmitted to the metering server 25.

The request weighing module 2422 transmits the weighing data immediately after the metering server side dedicated line modem 23 when the wired data processing device 24 receives the weighing data non-received signal from the weighing server 25. It is configured to instruct the weighing server side aerial modem to collect and transmit the weighing data not transmitted at the next automatic weighing. The difference between the method of transmitting unreceived metered data by using the leased line and the public line network is that the carrier pays the cost regardless of the data sent or received when the leased line is established. Because you pay for it. Receiving the weighing data of the weighing server 25 is not urgent to receive the weighing data at a predetermined time compared to the importance of the weighing data receiving result, and the public network is separately set up even if the next automatic weighing is scheduled according to the automatic weighing cycle. This is because it is inefficient in terms of cost to receive the weighing data.

When the wireline data processing device 24 receives the metering data request signal from the metering server 25, the direct weighing module 2423 and the air line modem 23 'and the dedicated line modem 23 on the metering server side. ) Is configured to collect and transmit the weighing data.

The storage unit 243 is a power meter 21, dedicated line modems 22, 23, aerial modems 22 ', 23', basic information of the metering server 25 and the wired data processing device 24 is transmitted and received In the configuration for storing the metering data, the type information of the electricity meter 21, dedicated line modems 22, 23, aerial line modems 22 ', 23', metering data transmission period, information of the metering server 25, etc. are stored. Stores the setting data memory 2431, the weighing data received from the dedicated line modem 23 and the aerial modem 23 'on the weighing server side, and transmitted to the weighing server 25, the electricity meter 21 ID, and the transmission result. A metering data memory 2432, a protocol memory 2433 for storing communication protocols of each power meter 21, and a control program memory 2434 in which a program for controlling the wired data processing device 24 is stored. Include. For example, the protocol memory stores communication protocols such as DLMS (IEC 62056), LGRW, Ain +, and Ion.

The power supply unit 244 is configured to supply power for operating the wired data processing device 24.

The multidrop performing unit 245 is configured to extract the original weighing data by multiplexing the demultiplexed metering data transmitted by the power plant side preprocessor through a dedicated line so that the metering server 25 can interpret it. The multiplexed metering data is transmitted to the metering server 25 through the server transmitter and receiver 247.

The logical channel function unit 246 is configured to set a communication channel for transmitting a weighing data transmission command and receiving a weighing data through an aerial network, and includes a control module and an execution module. Since the number of the weighing server side aerial modems 23 'connected to the wired data processing device 24 is smaller than the number of the power station-side aerial modems 22', the control module provides the weighing server side aerials for smooth data processing. The communication channel is established by allocating the power station-side aerial modem 22 'to transmit and receive data through the modem 23' and the aerial network, and the execution unit performs data transmission and reception through the communication channel set up from the control module and performs work. When complete, send the completion message to the control module. Upon receiving the completion message, the control module allocates a power station-side aerial modem 22 'to perform the next work, establishes a communication channel, and executes the next work by the execution unit. The work assignment of the control module and the work performance of the execution unit are repeated until the meter data is collected from all the electricity meters 21 connected to the aerial.

Looking at the connection between the connection port (not shown) of the wired data processing device 24 and the dedicated line modem 23 and the aerial line modem 23 'on the metering server side, a dedicated dedicated line is set for each power plant when using a dedicated line. The leased line should be connected to the connection port of the wired data processing device 24 through the leased line modem 23 on the metering server side. When the aerial network is used, the metering server side aerial modem 23 'which is smaller than the number of power plants (that is, the power plant side aerial modem 22') is controlled by the logical channel function unit 246. Connect to the connection port of 24). The number of connection ports of the wired data processing device 24 is limited in the number of the aerial modem on the metering server side connected to the connection port of the wired data processing device 24 through the logical channel function unit 246. Since the number can be reduced, more dedicated lines can be connected to the wired data processing device 24, so that utilization of the connection port can be efficiently performed.

The server transmission / reception unit 247 transmits the weighing data received and converted by the wired data processing device 24 to the weighing server 25 or receives setting information and a weighing data unacknowledged signal from the weighing server 25. Configuration.

The function setting and upgrading unit 248 performs a function of checking and changing the setting state of the wired data processing device 24, and the wired data processing device according to the setting information transmitted by the metering server 25. The setting state of 24 may be changed, or the setting state may be checked and changed through a PC connected to an external connection port (not shown) of the wired data processing device 24. Through the function setting and upgrading unit 248, it is possible to upgrade the communication protocol of the new standard to collect the metering data from the electricity meter 21 of the new communication standard.

The control unit 249 includes the modem transmitter / receiver 241, the meter instruction unit 242, the storage unit 243, the power supply unit 244, the multidrop execution unit 245, the logical channel function unit 246, and the server transmission / reception unit. 247, the function setting and upgrade unit 248 is the overall part of the control management.

The metering server 25 is connected to the wired data processing device 24, and stores and stores various programs necessary for operating a weighing system using a wired communication network, and analyzes and manages the transmitted weighing data. And a data analysis module 252, a requesting measurement instruction module 253, a direct measurement instruction module 254, a function setting module 255, a transmission / reception module 256, and a control unit 257.

The transmission / reception unit 251 is connected to the wired data processing device 24 to transmit a change in a weighing system setting and a non-measured data to the wired data processing device 24, and transmits the wired data processing device 24. Receive the weighing data information.

The data analysis module 252 is a module for calculating the amount to be paid to the power generation company by checking the amount of electricity produced by each generator through the metering data received by the transceiver 251, the data analysis module 252 The information is stored in the fee settlement DB under the control of the control unit 257 and is disclosed by the information disclosure web server 27.

The required weighing instruction module 253 checks the weighing data information stored in the weighing information DB according to a preset cycle (hereinafter, referred to as 'confirmation period of the required weighing instruction module'), and confirms the existence of untransmitted weighing data. In addition, the control unit 257 transmits an unreceived weighing data signal. The checking period of the required weighing instruction module is the same as the automatic weighing period of the wired data processing device 24, so that when the wired data processing device 24 uses the public network, transmission fails in all cycles at the next automatic weighing. It is desirable to send the weighing data together.

The direct weighing instruction module 254 is configured to generate a weighing data request signal when the weighing data transmitted to the weighing server 25 is lost or the operator of the weighing system needs specific weighing data. The signal is transmitted to the wired data processing apparatus 24 under the control of the controller 257. The wired data processing device 24 receiving the weighing data request signal immediately collects the weighing data required and transmits the weighing data to the weighing server 25.

The function setting module 255 checks and changes the registration and setting states of the metering server 25 and the wired data processing device 24, and the metering server changed by the function setting module 255. The setting information of the 25 and the wired data processing device 24 is stored in the setting information DB 261 under the control of the control unit 257 and transmitted to the wired data processing device 24.

The transmission and reception module 256 is connected to the information DB server 26 to transmit and receive metering data and setting information.

The control unit 257 transmits the transmission / reception unit 251, the data analysis module 252, the required measurement instruction module 253, the direct measurement instruction module 254, the function setting module 255, and the transmission / reception module 256. As part of control management, it performs a function such as transmission and reception of information through the transceiver 251 and the transceiver module 256.

The information DB server 26 is information generated in the process of transmitting and receiving the metering server 25 and the wired data processing device 24 and setting information of the metering server 25 and the wired data processing device 24. The server stores various kinds of information such as setting information DB 261, metering information DB 262, event information DB 263, and settlement amount DB.

The setting information DB 261 stores setting information of the metering server 25 and the wired data processing device 24, for example, the specification of the wired data processing device 24 and the metering of the wired data processing device 24. Cycle, the metering data checking cycle of the metering server 25 is stored. The metering information DB 262 stores metering data received by the metering server 25 from the wired data processing device 24 and a unique ID of the electricity meter 21. The event information DB 263 stores information for which the metering server 25 has not received the metering data according to the automatic metering cycle of the wired data processing device 24. The settlement information DB 264 stores the information for calculating the amount to be paid to the power generation company by checking the metering data received by the metering server 25.

The information disclosure web server 27 is connected to the information DB server 26 to receive information from the information DB server 26, such as metering data information, payments to be paid to the power generation company, and provide the server on the web. The power generation company may check the information provided by the information disclosure web server 27 by accessing the information disclosure web server 27 by inputting a unique ID and password through a PC connected to the Internet.

9 is a flowchart illustrating a metering method through a dedicated line in a metering method using a wired communication network according to the present invention, and FIG. 10 is a flowchart illustrating a metering method through a public line network in a metering method using a wired communication network according to the present invention. .

Referring to FIGS. 1 to 10, a weighing method using a wired communication network is used to collect weighing data at the same time through a leased line and a public line network, but there is a difference between a method using a dedicated line and a method using a public line network. It will be described accordingly.

Looking at the weighing method using the dedicated line, the weighing method using the dedicated line includes an automatic weighing step (S21), the required weighing step (S22).

The automatic metering step (S21) is to receive the metering data and the information of the electricity meter 21 ID from the electricity meter 21 according to the automatic metering cycle of the wired data processing device 24 to transmit to the metering server 25 The automatic measurement instruction step (S211), the automatic measurement data collection step (S212), and the automatic measurement data transmission step (S213).

The automatic weighing instruction step S211 is an automatic weighing requesting collection of weighing data and transmission of weighing data to the weighing server 25 when the weighing time reaches the weighing time according to the automatic weighing module 2421 stored in the setting information memory. This step generates a request signal.

In the automatic weighing data collection step (S212), when the automatic weighing request signal is generated in the automatic weighing instruction step (S211), the modem transmitter / receiver unit 241 transmits the weighing data request signal to the metering server side dedicated line modem by the control of the controller. 23) to receive the metering data and the electricity meter 21 ID corresponding to the current metering cycle from the electricity meter 21 through the leased line and the power plant-side dedicated line modem 22.

The automatic weighing data transmitting step (S213) is performed on the metering server (25) through the server transmitting and receiving unit (247) under the control of a control unit of the metering data and the electricity meter 21 ID received in the automatic weighing data collecting step (S212). It is the step of transmitting. When the metering data is received through the power plant side preprocessor, the multidrop performer 245 multiplexes the metering data so that the metering server 25 can process the metering data.

In the request weighing step S22, when the weighing server 25 confirms the existence of the weighing data not transmitted to the weighing server 25, the weighing data 25 transmits a non-received weighing data signal to the wired data processing device 24, and the wired data. The data processing device 24 receives the measurement data non-receipt signal, collects the data that has not been transmitted immediately, and transmits the measurement data to the weighing server 25. A step S222, a request weighing instruction step S223, a request weighing data collection step S224, and a request weighing data transfer step S225 are included.

In the step of checking the weighing data of the requesting weighing instruction module (S221), the requesting weighing instruction module 253 searches for the weighing information DB 262 according to the checking period of the requesting weighing instruction module, and confirms the existence of the weighing data not transmitted. In this case, it is a step of generating a weighing data non-received signal. It is preferable that the confirmation period of the required measurement instruction module is the same as the automatic measurement period of the wired data processing device 24.

In the non-received signal transmitting step (S222), when the non-measured data non-received signal is generated in the weighing data checking step (S221) of the required weighing instruction module, the wired data processing device 24 transmits the non-measured data unreceived signal under control of a controller. Sending to.

In the request weighing instruction step S223, when the wired data processing apparatus 24 receives a weighing data non-received signal, the requesting weighing module 2422 immediately receives the weighing data that is not transmitted to the weighing server 25. Generating a request measurement request signal to be transmitted.

In the request weighing data collecting step S224, when the request weighing request signal is generated in the request weighing step S223, the modem transmitter / receiver 241 transmits the weighing data request signal to the metering server side dedicated line modem under the control of a controller. Receiving the metering data and the electricity meter 21 ID not transmitted to the metering server 25 from the electricity meter 21 through the leased line and the power plant-side dedicated line modem 22 by transmitting to (23).

The required weighing data transmitting step (S225) is the metering data and power meter 21 ID received in the requesting weighing data collection step (S224) to the metering server 25 through the server transmission and reception unit 247 under the control of the control unit. It is the step of transmitting.

Looking at the weighing method using the aerial network, the weighing method using the aerial network includes an automatic weighing step (S21 '), the required weighing step (S22').

The automatic metering step (S21 ') receives the metering data and information of the power meter 21 ID from the power meter 21 according to the automatic weighing cycle of the wired data processing device 24 to transmit to the metering server 25. Steps include an automatic measurement instruction step S211 ', an automatic measurement data collection step S212', and an automatic measurement data transmission step S213 '.

The automatic weighing instruction step S211 'is an automatic weighing module 2421 requesting the collection of weighing data and the transmission of weighing data to the weighing server 25 when the weighing time is reached according to the automatic weighing cycle stored in the setting information memory. The step of generating a weighing request signal.

In the automatic weighing data collection step (S212 '), when the automatic weighing request signal is generated in the automatic weighing instruction step (S211'), the logical channel function unit 246 performs the weighing server side aerial modem 23 'and the power plant side aerial modem. Receiving the metering data and the electricity meter 21 ID corresponding to the current metering cycle from the electricity meter 21 by setting up a communication channel between the 22 ', through the aerial server modem 23' and the aerial network. A channel setting step (S2121 ') for allocating a power station-side aerial modem 22' to establish a communication channel, and a receiving execution step (S2122 ') for collecting weighing data from the communication channel set in the channel setting step. And, it is determined whether the collection of the metering data from all the electricity meter 21 has been completed, and if there is a power meter 21 that has not yet collected the metering data, the metering data collection completion determination step of proceeding to the channel setting step again (S2123 '). It includes.

The automatic measurement data transmission step (S213 ') is a metering server 25 through the server transmission and reception unit 247 under the control of the control unit and the metering data and power meter 21 ID received in the automatic measurement data collection step (S212') ) Is the step of transmitting.

 In the request weighing step S22 ′, when the weighing server 25 confirms the existence of the weighing data that has not been transmitted to the weighing server 25, the metering data 25 transmits an unreceived weighing data signal to the wired data processing device 24. The wired data processing unit 24 receives the non-measurement data signal received and collects the weighing data not transmitted to the weighing server 25 at the next automatic weighing and transmits the weighing data to the weighing server 25. The weighing data checking step (S221 '), the unreceived signal transmitting step (S222'), the required weighing instruction step (S223 '), the required weighing data collection step (S224'), and the required weighing data transfer step (S225 '). .

The weighing data checking step (S221 ′) of the request weighing instruction module (S221 ′) searches for the weighing information DB 262 according to the check weighing period of the request weighing instruction module to determine the presence of weighing data not transmitted. If it is confirmed, it is a step of generating a signal that has not received the weighing data. It is preferable that the confirmation period of the required measurement instruction module is the same as the automatic measurement period of the wired data processing device 24.

The non-received signal transmitting step (S222 ′) is performed when the non-measured data received signal is generated in the weighing data checking step (S221 ′) of the requesting weighing instruction module. ).

In the request weighing instruction step S223 ', when the wired data processing apparatus 24 receives the non-measured data signal, the request weighing module 2422 is not transmitted to the entire weighing cycle during the current automatic weighing cycle. The step of generating the required weighing request signal to receive the weighing data and transmit it together with the current weighing data.

In the request weighing data collecting step S224 ', when the request weighing request signal is generated in the request weighing indicating step S223', the logical channel function unit 246 performs the weighing server side aerial modem 23 'and the power plant side aerial. A communication channel is set between the modems 22 'to receive metering data not transmitted from the electricity meter 21 to the metering server 25 and metering data corresponding to the current period. A step (S2241 ') of checking the unused weighing server side aerial modem 23' which determines whether there is a weighing server side aerial modem 23 'that is not set up with a communication channel, and the unused weighing server side aerial modem 23'. In this case, a channel setting step (S2242 ') for setting a communication channel by allocating a power station side aerial modem 22' to communicate with the metering server side aerial modem 23 'and the aerial network, and the channel setting step Transfer from the communication channel to the weighing server 25 It does not include quantitative data and receives the execution phase (S2243 ') for collecting metering data corresponding to the current automatic weighing cycle.

The required weighing data transmitting step (S225 ′) includes weighing data not transmitted to the weighing server 25 received in the gathering of the required weighing data step S224 ′, weighing data corresponding to the current cycle, and an electricity meter 21 ID. It is a step of transmitting to the metering server 25 through the server transmission and reception unit 247 under the control of the control unit.

If the weighing server 25 does not receive the weighing data despite the automatic weighing step, the metering costs are paid to the telecommunications company regardless of data transmission and reception when the dedicated line is set in the case of metering data transmission using a dedicated line. After receiving the data unreceived signal, the weighing data is collected and transmitted to the weighing server 25. However, in the case of the weighing data transmission using the aerial network, the transmission and reception of data using the aerial network pays only to the communication company for data transmission and reception. Receiving weighing data in 25) is not urgent to receive weighing data at a fixed time compared to the importance of weighing data receiving result, and the next automatic weighing is scheduled according to the automatic weighing cycle. It also receives and transmits data that could not be sent in automatic weighing cycle.

In the above, the applicant has described preferred embodiments of the present invention, but these embodiments are only one embodiment for implementing the technical idea of the present invention and should be construed as belonging to the present invention.

1 is an overall configuration diagram of a metering system using a wired communication network according to an embodiment of the present invention.

Figure 2 is a configuration diagram for explaining in detail the dedicated line connection relationship in the metering system using a wired communication network according to an embodiment of the present invention.

Figure 3 is a block diagram for explaining in detail the aerial network connection in the metering system using a wired communication network according to an embodiment of the present invention.

4 is a block diagram of a data processing apparatus in a metering system using a wired communication network according to an embodiment of the present invention.

5 is a block diagram of a metering instruction unit of a data processing apparatus according to an embodiment of the present invention;

6 is a block diagram of a storage unit of a data processing apparatus according to an embodiment of the present invention.

7 is a block diagram of a metering server of a metering system using a wired communication network according to an embodiment of the present invention.

8 is a block diagram of an information DB server of a metering system using a wired communication network according to an embodiment of the present invention.

9 is a flowchart illustrating a measuring method through a dedicated line in the measuring method using a wired communication network according to the present invention.

10 is a flowchart illustrating a measurement method through a public line network in the metering method using a wired communication network according to the present invention.

* Explanation of the main symbols used in the drawings

21: power meter 22, 23: dedicated line modem 22 ', 23': aerial modem

24: wired data processing device 25: weighing server 26: information DB server

27: Information Disclosure Web Server 28: PC 221: Power Plant Side Preprocessor

241: modem transmission and reception unit 242: metering instruction unit 243: storage unit

244: power supply unit 245: multi-drop execution unit 246: logical channel function unit

247: server transmission and reception unit 248: function setting and upgrade unit

249: control unit 251: transceiver unit 252: data analysis module

253: required weighing instruction module 254: direct weighing instruction module 255: function setting module

256: transmission and reception module 257: control unit

Claims (3)

In the weighing system in which the metering server collects the weighing data measured by the electricity meter installed in each of the plurality of generators by using the leased line and the aerial line network, A power meter for measuring the amount of electricity produced by a generator of the power plant and storing the measured amount in a memory; It relays communication between electricity meter and wired data processing device through leased line, and includes power line-side dedicated line modem connected to electricity meter and leased line in one dedicated line, and metering server-side dedicated line modem connected to leased line and wired data processing device respectively. A dedicated line modem; A power plant-side preprocessor connected to a plurality of power plant-side dedicated line modems to demultiplex metering data received from the plurality of power plant-side dedicated line modems and transmit them through a dedicated line; An airship that relays the communication between the electricity meter and the wireline data processing device through the aerial network, and includes an aerial modem on the power station side connected to the electricity meter and the aerial network, and an aerial modem on the weighing server side respectively connected to the aerial network and the wireline data processing device. A modem; A wired data processing device connected to a plurality of metering server-side dedicated line modems and a plurality of metering server-side aerial modems to collect and convert metering data measured by a power meter and transmit the metering data to the metering server; A metering server connected to the wireline data processing device, for managing and interpreting the received metering data, and for transmitting setting information of the wireline data processing device and a signal for not receiving weighing data; And an information DB server for storing the information generated in the process of transmitting and receiving the metering server and the wired data processing device, and setting information of the metering server and the wired data processing device. The wired data processing device Protocol driver that controls data input or output to use communication method of RS-232C, RS-422C, RS-485C, and protocol that converts into standard protocol to receive metering data transmitted from electricity meter with other communication protocol. A modem transmitting and receiving unit including a processing unit and a buffer unit for controlling an operation speed and a timing during communication between the wired data processing device, the dedicated server modem on the metering server side, and the aerial server on the metering server side; Automatic weighing module requesting the transmission of the weighing data measured by the electricity meter according to the automatic weighing cycle, and instructing the server sending / receiving unit to send the weighing data directly to the dedicated line modem of the weighing server side when the meter data receiving signal is not received from the weighing server. A metering instruction unit including a requesting weighing module for instructing the weighing server side aerial modem to collect and transmit the weighing data not transmitted at the next automatic weighing; A storage unit for storing the power meter, the dedicated line modem, the aerial line modem, basic information of the metering server, and metering data transmitted and received by a wired data processing device; A multidrop performing unit extracting the original weighing data by multiplexing the demultiplexed weighing data transmitted by the power plant side preprocessor through a dedicated line so that the weighing server can interpret it; A logical channel function unit for allocating a power station-side aerial modem to transmit and receive data through the aerial server network with the weighing server-side aerial modem for transmitting and transmitting metering data transmission commands through the aerial network; And a server transmitter / receiver for transmitting the weighing data received and converted through the modem transmitter / receiver to the metering server or receiving setting information and a metering data non-received signal from the metering server. delete According to claim 1, wherein the metering server A transmission / reception unit connected to the wired data processing device, for transmitting a change in setting of a weighing system and an unreceived weighing data signal to the wired data processing device, and receiving metering data information from the wired data processing device; A data analysis module for calculating an amount to be paid to a power generation company by checking the amount of electricity produced by each generator based on the weighing data received by the transceiver; A function setting module for checking and changing the registration and setting states of the metering server and the wired data processing device; Weighing system using a wired communication network comprising a; transmitting and receiving module connected to the information DB server for transmitting and receiving weighing data and setting information.

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