KR20170120890A - Remote inspection system and communication method of the same - Google Patents

Abstract

The present invention provides a remote meter reading system and a communication method thereof, which require one manager to be disposed for a meter reading instruction and a meter reading data process, thereby reducing labor and management costs. The remote meter reading system includes multiple meter reading terminal groups which transmit the meter reading data from a subsystem and have different operating locations, multiple meter reading servers which instruct the meter reading to each meter reading terminal group to receive the meter reading data and have different operating locations, and an integrated server which receives and collects the meter reading data from each meter reading server. The multiple meter reading servers instruct the meter reading to each of the meter reading servers and each of the meter reading terminal groups having different operating locations and receive the meter reading data.

Description

Technical Field [0001] The present invention relates to a remote meter reading system,

The present invention relates to an automatic meter reading system and, more particularly, to an automatic meter reading system and a communication method thereof, in which labor costs and management costs are reduced.

In general, the remote meter reading system is connected to a meter reading server installed in a home in a management office, and is used to remotely meter and charge usage amounts of electricity, gas, and water.

The conventional remote meter reading system includes a plurality of meter terminal groups for transmitting meter reading data from a subsystem, a plurality of meter reading servers for receiving meter reading data by instructing the respective meter reading terminal groups to read the meter reading data, And a plurality of integration servers for receiving and collecting.

Here, a plurality of the meter reading terminal groups and the plurality of meter reading servers are respectively disposed on different operating sites.

In addition, a plurality of the meter reading servers instructs the meter reading terminals to have the same meter reading server and operating place, and receives the meter reading data and transmits them to each of the integrated servers.

At this time, in the conventional remote meter reading system, the administrator for the meter reading instruction and the meter reading data processing must be arranged for each operating site, which causes a problem that the labor cost and the management cost are increased.

Recently, data explosion is accelerating due to rapid spread of smart terminals, activation of social network services, and expansion of object networks. In order to predict the future by linking these data with profits, Is actively proceeding.

However, in the conventional remote meter-reading system, since the meter reading data is transmitted to each integrated server and is managed independently, there is a problem that the big data can not be utilized.

It is an object of the present invention to provide an automatic meter reading system and a communication method therefor, in which labor and money are reduced by arranging only one manager for meter reading instruction and meter reading data processing.

In order to achieve the above object, according to the present invention, there is provided a system for transmitting meter reading data from a subsystem, comprising a plurality of meter terminal groups having different operating destinations, a meter reading instruction is given to each meter reading terminal group to receive meter reading data, A plurality of meter reading servers and an integrating server for collecting and collecting meter reading data from the respective meter reading servers, wherein the plurality of meter reading servers instructs each meter reading terminal group to operate each meter reading terminal group, And provides a remote meter reading system for receiving.

Further, the multiple meter reading server selectively communicates with each of the meter reading terminal groups having the same operating server and each meter reading terminal group, and each meter reading terminal group having different operating logs from each meter reading server.

Further, the multiple meter reading server transmits and receives meter reading data to each other, and each meter reading server has a communication program for communication with each other.

The first meter reading server may further include a step of instructing the first meter reading terminal group having the same operating site as that of the first meter reading server to read the first meter reading data read by the sub- A step in which the first meter-reading server instructs a second meter-reading server having a different operating site from that of the first meter-reading server; and a step in which the second meter-reading server transmits the same to the second meter- Sending a second meter reading data to the second meter reading terminal group, sending second meter reading data which is read by the second meter reading terminal group to the second meter reading server, and transmitting the second meter reading data to the second meter reading server, To the first meter reading server; and receiving the first and second meter reading data from the first meter reading server and collecting the collected meter reading data.

Also, the first meter-reading server selectively communicates with the first and second meter-reading terminal groups.

Accordingly, since only one administrator for processing the meter reading instruction and the meter reading data can be disposed on any one of the operating sites of different operating sites, the present invention can reduce labor costs and management fees There is an effect to be saved.

In addition, since each meter reading data is collected through a plurality of meter reading servers having different operating destinations from one integrated server located in any one operating location, the data can be utilized as various kinds of information to improve energy management habits .

1 is a block diagram of an automatic meter reading system according to an embodiment of the present invention.
2 is a flowchart of an automatic meter reading system according to an embodiment of the present invention.

The above and other objects, features, and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings, which are not intended to limit the scope of the present invention. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to denote the same or similar elements.

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

As shown in the figure, an automatic meter reading system 1000 according to an embodiment of the present invention includes a plurality of meter terminal groups 110, 210 and 310 for transmitting meter reading data from a subsystem (not shown) A plurality of meter reading servers 130, 230 and 330 for receiving the meter reading data by instructing the meter reading terminal groups 110, 210 and 310 to read the meter reading data and receiving the meter reading data from the meter reading servers 130, 230 and 330, And an integration server 150 that performs the functions described below.

Here, the subsystem (not shown) is a meter for measuring various energy usage amounts of electricity, water, gas, etc., and may include an electric meter, a water meter and a gas meter.

Each of the plurality of meter reading terminal groups 110, 210, and 310 may be provided with first to nth (n is a natural number of 2 or more) meter reading terminals, and each meter reading terminal may be provided for each household.

At this time, a plurality of the meter reading terminal groups 110, 210, and 310 and the plurality of meter reading servers 130, 230, and 330 are all disposed in different operating sites.

Here, the operating area is an area in which each of the meter reading terminal groups 110, 210, and 310 and each of the meter reading servers 130, 230, and 330 operating the respective groups 110, 210, and 310 are operated.

The meter reading terminal groups 110, 210 and 310 can transmit and receive meter reading data through the RS-485 serial communication with the meter reading servers 130, 230 and 330, The meter reading data can be transmitted and received between the meter reading servers 130, 230 and 330 and the integration server 150 through Ethernet communication.

Also, the meter reading servers 130, 230, and 330 receive the meter reading data by instructing the meter reading terminal groups 110, 210 and 310 to read the same meter reading servers 130, 230,

That is, as shown in the figure, the first meter reading server 130 and the first meter reading terminal group 110 are all disposed in the first operating site 100, Since the second meter reading server 230 and the second meter reading terminal group 210 are all disposed in the second operating site 200 by instructing the group 110 to read the first meter reading data and receiving the first meter reading data, The n-th meter reading server 330 and the n-th meter reading terminal group 230 receive the second meter reading data by instructing the second meter reading terminal group 210 to perform meter reading, The n-th meter reading server 330 instructs the n-th meter reading terminal group 310 to perform meter reading and receives the n-meter reading data.

In addition, in particular, the meter reading servers 130, 230, and 330 of the remote meter reading system 1000 according to the embodiment of the present invention are configured such that the meter reading servers 130, 230, 110, 210 and 310 to receive the meter reading data.

That is, as shown in the figure, the first meter reading server 130 and the second meter reading terminal group 110 are disposed in the first and second operating sites 100 and 200, respectively, The second meter reading terminal 230 can receive the second meter reading data by instructing the second meter reading terminal group 210 to read the meter.

At this time, while the first reading server 130 issues a reading instruction to the second reading server 230 and receives the second reading data from the second reading server 230, 1 meter reading terminal group 110 and does not receive the first meter reading data.

That is, the first meter-reading server 130 selectively communicates with the first and second meter-reading terminal groups 110 and 210.

The second meter reading server 230 and the n-th meter reading terminal group 310 are disposed in the second and n-th operating sites 200 and 300 respectively, To the n-th meter reading terminal group 310 to receive the n-th meter reading data.

At this time, while the second meter reading server 230 issues the meter reading instruction to the nth meter reading server 330 and receives the n-th meter reading data from the n-th meter reading server 330, 2 meter reading terminal group 210 and does not receive the second meter reading data.

That is, the second meter reading server 230 selectively communicates with the second and n-th meter probe groups 210 and 310.

Also, the first meter-reading server 130 can receive the n-meter-reading data 330 through the second meter-reading server 230.

In this manner, each of the metering server 130, 230, and 330 can include a communication program for communication with each other to remotely connect to each of the metering servers 130, 230, and 330, And can transmit and receive meter reading data between the servers 130, 230, and 330.

That is, any one of the meter reading servers can control all the other meter reading servers through communication.

For this communication, each of the metering server 130, 230, and 330 may include a listening socket that is a socket capable of exchanging communication connection requests with the metering servers 130, 230, and 330 of other operating sites And places it in a standby state at all times.

When a communication connection request is received from the meter reading server 130, 230, 330 of another operating site through the listening socket and accepted, the meter reading server 130, 230, 330 can communicate with each other.

At this time, when the meter reading instruction data is received from the meter reading server 130, 230, 330 of another operating site through the listening socket, the listening socket is closed and a doing socket is formed And immediately follow the meter reading instruction.

Accordingly, since only one administrator for one of the first to nth operating sites 100 to 300, for example, a meter reading instruction and a meter reading data processing, is disposed in the first operating location 100, Labor costs and management costs are reduced compared to conventional technologies in which managers are required to be deployed at each operating site.

The first to n-th meter reading data may be transmitted through one of the slave servers 130, 230, and 330 having different operating destinations from one operating server, for example, one server 150 located in the first operating server 100 Therefore, it is possible to improve energy management habits by utilizing these data as various types of information.

In addition, since each meter reading data is transferred to one integrated server and integrated management, new value can be created by utilizing big data.

In addition, the integration server 150 receives and collects the respective meter reading data by the respective meter reading servers 130, 230, and 330 and displays them on the status room display board 170.

At this time, the integration server 150 further includes a database (not shown) for storing the metering data.

Although not shown in the drawing, the integration server 150 transmits the collected metering data to each energy supplier via wired / wireless lines or transmits it to a monthly pad (not shown) disposed in each household through a home net server (not shown) can do.

This enables each energy provider to calculate the energy usage fee of the user in the home based on the meter reading data, and the user can check the energy usage fee in real time.

In addition, by using the above-described remote metering system 1000 of the present invention, it is possible to transmit failure information of a sub-system to an administrator or to transmit various kinds of life information to a user.

2 is a flowchart of an automatic meter reading system according to an embodiment of the present invention.

Hereinafter, a communication method of the remote meter-reading system 1000 according to the embodiment of the present invention will be described with reference to FIG. 1 and FIG.

The communication method of the remote meter reading system 1000 according to the embodiment of the present invention is such that the first meter reading server 130 instructs the first meter reading terminal group 110 having the same operation site as the first meter reading server 130 And transmitting the first reading data read by the first reading probe group 110 to the first reading server 130 by the subsystem.

More specifically, the first meter reading server 130 receives the first meter reading data by instructing the first meter terminal group 110 to perform meter reading, and the second meter reading server 230 receives the meter reading data from the second meter reading terminal group 210 And the n-th meter reading server 330 receives the n-th meter reading data by instructing the n-th meter reading terminal group 310 to read the meter.

The first meter-reading server 130 may be configured to instruct the second meter-reading server 230 having a different operating site from that of the first meter-reading server 130, (230) and an operating site to the second meter reading terminal group (210); and a step in which the second meter reading terminal (210) sends the second meter reading data read by the subsystem to the second meter reading server A step of transmitting the second meter reading data to the first meter reading server 130 by the second meter reading server 230 and a step of storing the first and second readings from the first meter reading server 130, 2 meter reading data and collecting the meter reading data.

Specifically, the first meter reading server 130 and the second meter reading terminal group 110 are disposed in the first and second operating sites 100 and 200, respectively, 230 to the second reading terminal group 210 to receive the second reading data.

At this time, while the first reading server 130 issues a reading instruction to the second reading server 230 and receives the second reading data from the second reading server 230, 1 meter reading terminal group 110 and does not receive the first meter reading data.

That is, the first meter-reading server 130 selectively communicates with the first and second meter-reading terminal groups 110 and 210.

Each of the metering server 130 and 230 can include a communication program for communication between the metering server 130 and 230 so that a meter reading instruction can be issued between the metering server 130 and 230, Lt; / RTI >

That is, any one of the meter reading servers can control all the other meter reading servers through communication.

In order to perform such communication, each of the meter reading servers 130 and 230 forms a listening socket, and when it receives the meter reading instruction from the meter reading server of another operating place through the listening socket, A doing socket is formed and the meter reading instruction is immediately followed.

The meter reading terminal groups 110, 210 and 310 can transmit and receive meter reading data through the RS-485 serial communication with the meter reading servers 130, 230 and 330, The meter reading data can be transmitted and received between the meter reading servers 130, 230 and 330 and the integration server 150 through Ethernet communication.

Accordingly, since only one administrator for one of the first and second operating sites 100 and 200, for example, a meter reading instruction and a meter reading data process, is disposed in the first operating location 100, Labor costs and management costs are reduced compared to conventional technologies in which managers are required to be deployed at each operating site.

Also, the first and second metering data may be collected at one operation site, for example, one integrated server 150 located at the first operation site 100 through the metering servers 130 and 230, Therefore, energy management habits can be improved by utilizing these data as various types of information.

In addition, since each meter reading data is transferred to one integrated server and integrated management, new value can be created by utilizing big data.

In addition, by using the above-described remote metering system 1000 of the present invention, it is possible to transmit failure information of a sub-system to an administrator or to transmit various kinds of life information to a user.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, But the present invention is not limited thereto.

100 to 300: First to third operating sites
110, 210 and 310: first, second and n-th meter reading terminal groups
130, 230, 330: first, second and n-th meter reading servers
150: Integration Server

Claims (7)

A remote meter reading system including a plurality of groups of meter reading terminals and a meter reading server having different operating destinations,
A meter reading terminal group for transmitting meter reading data from the subsystem;
A meter reading server for receiving the meter reading data by instructing the meter reading terminal group to meter reading; And
And an integration server for receiving and collecting the meter reading data from the respective meter reading servers,
Wherein each of the metering servers is remotely connected to each other, and the metering server receives the metering data by instructing the metering terminal group that the operating site is different from the metering server group.
The method according to claim 1,
The meter reading server comprises:
Wherein the meter reading server and the meter reading terminal have the same operating site and the meter reading server and the operating site selectively communicate with each other.
3. The method of claim 2,
Wherein each of the metering server transmits and receives the metering data between each other.
The method of claim 3,
Wherein each of the meter reading servers is equipped with a communication program for communication with each other.
5. The method of claim 4,
Wherein the integration server includes a database for storing the meter reading data.
6. The method of claim 5,
Wherein each of the meter reading servers is connected to each other by wire or wireless.
The method according to claim 6,
Wherein said subsystem is a meter for measuring the amount of electricity, water or gas used.

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