KR101080712B1 - Parallel type connecting structure of many digital meter in a remote automatic meter reading system - Google Patents

Abstract

PURPOSE: A parallel type connecting structure between aggregate shaped digital meters is provided to decrease a difficulty and improve a speed at field work by reducing a work error and overall costs. CONSTITUTION: A plurality of digital meters(11-1n) is aggregately formed in a consumer. The plurality of the digital meters is respectively connected to parallel connected type separators. The parallel connected type separators comprise a body(21), a first connector(22), and a second connector(25). The first connector is formed in the body and connected to each digital meter. The second connector is formed in the body and connected to an external modem. Data, which is transmitted from the plurality of the digital meters, is transmitted to a data transfer apparatus through the external modem.

Description

Parallel type connecting structure of many digital meter in a remote automatic meter reading system

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a parallel connection structure of digital weighing periods in an aggregate form in a remote meter reading system, and more particularly, to a connection structure for efficient data transmission and reception of a plurality of digital weighing periods provided in a customer (a shopping mall).

The digital meter of the aggregate type refers to a plurality of digital meters provided in a customer (a shopping mall, etc.), and the present invention relates to a structure for connecting such a plurality of digital meters using a parallel separation device.

In general, utilities have had passive relationships as a service provider that simply supplies electricity to consumers.

However, in recent years, the necessity of establishing an additional service system for electric power, such as remote meter reading, demand management, and diversification of the rate system, has been raised to reorganize the electricity industry and improve efficiency.

To this end, the information and communication subscriber network base technology must be secured, but establishing a new communication line remains a big problem.

With recent developments in technology, communication technologies capable of sending and receiving data to power lines for the purpose of supplying electricity have been combined (also called "power line communication (PLC)"), commercialization and commercialization. The power line is already connected to every corner of the country and is a huge network.

A modem for power line communication is provided, and various data such as customer information and power consumption information are stored in a memory of the power line communication modem.

However, there are a large number of digital meters in the form of aggregates in the consumer (shops, etc.), and the following problems occur in transmitting and receiving data in these digital measurement periods.

That is, in the related art, when connecting the digital weighing period, the female terminal and the means are separated, so that the worker has to manually perform the wiring work every time in the field, and the defect cost according to the site wiring service fee and the connection error has increased. In addition, in the related art, several strands of wires are complicatedly messed up, and thus, the installation is not only difficult, but also aesthetically bad.

The present invention was devised to solve the above problems, and its object is to construct a standardized parallel separation apparatus for transmitting and receiving data of a plurality of digital weighing periods in the customer, thereby dramatically reducing work errors and overall costs. It can reduce, improve the difficulty and speed of field work, and to enable a clean look after installation.

In addition, the present invention constitutes an LED lamp indicating the operation (data transmission and reception) of the parallel separation device to enable the operator to check the opening state in the field.

In order to achieve the above object, the present invention provides a digital meter installed in each customer and metering power consumption, installed in Jeonju to perform power line communication with the customer, and collect power consumption of the customer to measure voltage and current of the transformer. In the remote meter reading system comprising a data transmission device and a remote management server that collects the power consumption of each customer provided from the data transmission device, the voltage and current of each transformer and is transmitted through a communication network, the customer has a plurality of digital meters And a plurality of digital meters are respectively connected to the parallel separator, the parallel separator is configured in the body, the first connector is configured in the body and connected to each digital meter, and the body From multiple digital meters, including a second connector that connects to an external modem Integrating data to an aggregate form of a digital weighing term parallel connection structure of the remote meter reading system, comprising a step of transmitting to the data transfer device via an external modem.

In addition, the present invention is characterized in that for configuring the LED lamp for displaying data transmission and reception in the parallel type separation device.

The parallel type separator may include an impedance detector for detecting signals when signals are transmitted to and received from each digital meter, and the LED lamp is turned on when signal detection by the impedance detector is performed.

As described above, according to the present invention, by constructing a standardized parallel separation apparatus for transmitting and receiving data of a plurality of digital weighing periods in the consumer, it is possible to drastically reduce the work error and the associated costs, and the difficulty of field work. Speed can be improved, and after installation, it can be neatly organized.

In addition, the present invention can configure the LED lamp to display the operation (data transmission and reception, etc.) of the parallel separation device, so that the operator can check the opening state in the field can reduce the error of rework.

1 is a remote meter reading system of the present invention.
2 is a view showing a state in which the parallel separator of the present invention is connected to a plurality of digital meters.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a remote meter reading system road of the present invention, installed in each customer (100) and digital meter 10 for reading the power consumption, and installed in the electric pole 104, respectively, and performs power line communication with the customer (100), Data transmission device 106 for collecting the power consumption of the customer 100 to measure the voltage, current of the transformer, and power consumption of each customer 100 provided from the data transmission device 106, voltage and current of each transformer It is configured to include a remote management server 108 is collected through the communication network.

In addition, the remote meter reading system of the present invention is a front end processor (FEP) 110 to reduce the communication load with the remote management server 108 to collect the meter reading information of the customer by communicating with the data transmission device 106, It further comprises a network management system 112 for monitoring and storing the equipment through a web application installed in the data transmission device 106.

The digital meter 10 includes a power consumption detector for detecting power consumption of the customer 100, a controller for processing detection data detected by the power consumption detector, and a storage device for managing and storing the detected data. And a memory in which the management program is stored, and a communication module for transmitting the detection data to the other data transmission device 106.

The power consumption detector is provided to detect power consumption of the customer 100. Here, the power consumption detector detects an input current and an input voltage in order to calculate the amount of power used by the customer 100.

The memory is provided with a web server application program (JAVA, HTML, etc.) to remotely access the detection data storage, the user transfer message, and the digital meter 10 detected by the power consumption detection unit so as to be remotely accessed.

The communication module is provided to transmit the detection data stored in the memory. Here, the communication module transmits the data detected by the power consumption detection unit and processed by the control unit to each data transmission device 106.

The communication module is provided to be connected remotely. Here, the communication module allows to remotely access the web server application program stored in the memory. In this case, the communication module may be provided as a bidirectional communication module using a communication method such as IEEE 802 standard, Wibro, Zigbee, Bluetooth, and the like.

The data transmission device 106 is provided to periodically request meter reading information of the digital meter 10 installed in the customer 100 according to the meter reading cycle to collect the latest meter reading information and equipment state information.

A network management system (NMS) 112 is provided to collect data between the data transmission device 106 and the front end processor (FEP) 110. Here, the network management system (NMS) 112 communicates with a network management web application installed in each device such as the data transmission device 106 to collect data, monitor the state of the equipment, and store the data in a remote management server ( 108). At this time, the network management system (NMS) 112 may be configured by any one or a combination of CDMA, xDSL, cable and optical Internet, GSM, UMTS, portable Internet, WiFi.

The front end processor (FEP) 110 is provided to transmit data and setting commands from the remote management server 108 and the data transmission device 106. Subsequently, the front end processor (FEP) 110 is provided for reducing the communication load of the remote management server 108 and for future data link with other systems. The front end processor (FEP) 110 communicates with the data transmission device 106 to collect customer's detection data and transmits various setting commands, and communicates with the remote management server 108 to transmit the collected detection data.

Nuclear power management server 108 is installed in the period of supplying electricity to store the meter information of each customer acquired in the front end processor (FEP) 110 connected to a remote site through a dedicated information and communication network in real time in a database system It is provided to provide information to the user.

That is, the remote management server 108 is connected to the data transmission device 106 installed in the electric pole 104 around the customer 100 via a data communication network (HFC network, optical communication network, etc.) based on TCP / IP in real time. It conducts data communication for collecting and monitoring meter reading information. Through this data communication process, it is possible to collect all information from customer information to power usage and meter status information, and charges, various statistical analysis and power quality confirmation are possible. . In this case, the remote management server 108 generally includes an automatic meter reading (AMR) server, a billing server, and the like.

At this time, the AMR server stores the overall management function of the power usage checking system and the detection data of each customer 100 acquired from the shear processor (FEP) 110 in a database system in real time and provides information to the user when necessary. Device. It is also used as a device to provide data links with other systems.

 2 is a view showing a state in which the parallel separator of the present invention is connected to a plurality of digital meters.

One customer may be provided with one digital meter 10, but a number of digital meter (11 ~ 1n) is composed of an aggregate in the customer, such as the mall. The present invention is characterized in that a parallel separation device for efficient data transmission and reception between a plurality of digital meter (11 ~ 1n) configured in such a collective form.

As shown in the drawing, the parallel type separating device includes a body 21, a first connector 22, a second connector 25, a transmission LED lamp 26, a reception LED lamp 27, and an impedance detector 28. It is configured to include.

The body 21 may be configured as a hexahedron shape as an example.

The first connector 22 is configured on one side of the body 21 and is connected to the plurality of digital meters 11 to 1n, respectively. That is, as shown in the drawings, the first to nth digital meters 11 to 1n are connected to the first connectors 22 respectively configured on the body 21 of the parallel type separator.

The first connector 22 is a female or male connector, and correspondingly, the digital meters 11 to 1n are composed of male or female connectors.

The second connector 25 is configured on the upper side of the body 21 and connected to the external modem 30.

As an example, the first connector 22 and / or the second connector 25 is configured as four ports, two of which are provided for data communication, and the other two ports provide power. It is provided for.

The present invention can be connected through a cable (not shown) between the digital meter (11 ~ 1n) and the first connector 22 and the external modem 30 and the second connector 25, this cable is an RS, -485 communication cable can be used.

In the parallel type separating apparatus of the present invention, LED lamps 26 and 27 which display data transmission and reception are configured. That is, the LED lamp is composed of a transmitting LED lamp 26 and a receiving LED lamp 27, which displays the state of data transmission and reception with each device.

In addition, the parallel type separation device includes an impedance detector 28 which detects when a signal is transmitted / received to each digital meter. When the signal is detected by the impedance detector 28, LED lamps 26 and 27 are provided. Is turned ON.

The impedance detection unit 28 utilizes a method of detecting a change in which the line impedance is high during RX reception standby and the line impedance is low when TX is transmitted.

Accordingly, in the present invention, the impedance detection unit 28 is positioned in front of each node to determine whether data is received or transmitted.

For example, when data is transmitted from the parallel separator to the digital meter, the impedance detector 28 detects this, and accordingly, the transmission LED lamp 26 is turned on and the data is transmitted from the digital meter to the parallel separator. When the reception is made, the impedance detection unit 28 detects this and, accordingly, the reception LED lamp 27 is turned on.

Each digital metering period of the present invention may be electrically connected, for example, a communication connection line.

According to the present invention configured as described above, the power amount data generated in each digital meter is transferred to the parallel type separation device, and then transmitted to the data transmission device through an external modem.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

10: digital meter
11: first digital meter
12: second digital meter
1n: nth digital meter
21: body
22: first connector
25: second connector
26: transmit LED lamp
27: Receive LED Lamp
28: impedance detector
30: external modem
100: customer
104: Jeonju
106: data transmission device
108: remote management server
110: shear processor (FEP)
112: network management system (NMS)

Claims (3)

A digital meter installed at each customer and reading power consumption, a data transmitter installed at Jeonju to perform power line communication with the customer, collecting power consumption of the customer, and measuring voltage and current of the transformer, and from the data transmission device. In the remote meter reading system including a remote management server that transmits through the communication network by collecting the power consumption of each customer provided, the voltage and current of each transformer,
The consumer consists of a large number of digital meters
The plurality of digital meters are each connected to a parallel separator,
The parallel separator includes a body, a first connector configured in the body and connected to each digital meter, and a second connector configured in the body and connected to an external modem. The digital metering period parallel connection structure of the aggregate form in the remote meter reading system, characterized in that the integrated transmission to the data transmission device via an external modem. The method of claim 1,
The parallel type separation structure of the digital weighing period in the aggregate form in the remote meter reading system, characterized in that the parallel separation device is configured to LED lamps for transmitting and receiving data. The method of claim 2,
The parallel type separating apparatus includes an impedance detector for detecting a signal when each digital meter is transmitted and received, and the LED lamp is turned on when the signal is detected by the impedance detector. Digital weighing period parallel connection structure in aggregate form.

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