KR100565826B1 - Remote telemetering apparatus and remote telemetering system using said remote telemetering apparatus - Google Patents

Abstract

The present invention relates to a remote meter reading device and a remote meter reading system, and more particularly, to a remote meter reading device for obtaining meter reading related information from a plurality of energy metering devices using a power line and a remote meter reading system using the remote meter reading device.

The present invention provides a remote meter reading device, comprising: a power supply unit for supplying power to an energy metering device, a power line communication unit for performing power line communication using a power line connected to the energy metering device, and the meter reading device It is characterized in that it comprises a meter reading control unit for transmitting and receiving the related signal and a communication unit for transmitting and receiving the meter related signal between the external meter reading server.

Remote meter reading, generation, power line communication

Description

REMOTE TELEMETERING APPARATUS AND REMOTE TELEMETERING SYSTEM USING SAID REMOTE TELEMETERING APPARATUS}

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

2 is a block diagram of a remote meter reading apparatus according to an embodiment of the present invention.

The present invention relates to a remote meter reading device and a remote meter reading system, and more particularly, to a remote meter reading device for obtaining meter reading related information from a plurality of energy metering devices using a power line and a remote meter reading system using the remote meter reading device.

In group residences such as apartments, buildings, hospitals, etc., a plurality of energy metering devices are provided for each use area (for example, each household). The type of energy metering devices installed in the use zone may be a water metering device, a hot water metering device, a gas metering device, a heating metering device, a cooling metering device, a power metering device, or the like. In recent years, the energy metering device has been improved electronically, which makes it possible to miniaturize and transmit the measured reading data to the remote reading device through a communication protocol, thereby facilitating telemetry or interface with a computer.

In addition, according to the remote meter reading method, a remote meter reading device is installed at each predetermined use area predetermined at the time of system design, and communicates with each energy metering device in charge to receive energy consumption (meter reading). And it displays through the display unit, and serves to report to the upper central meter reading control means.

This remote metering method is not limited by a single remote meter because the respective energy metering devices and the remote metering devices are physically separated, that is, the remote metering device and the energy metering devices are not directly connected. It has the advantage that it can be installed without. In particular, in the case of a residential area, a single remote meter reading device is not limited to one generation but has the advantage of covering a plurality of generations (each generation is provided with a plurality of energy metering devices).

Techniques are known in the art to allow one remote meter reading device to cover multiple generations.

In Korean Patent Publication No. 316485 (2001.11.21: hereinafter referred to as "Publication 1"), the amount of power supplied to each generation (consumer) is detected by a sensor means in one electricity meter for N generations. The amount of power for each generation N is accumulated and stored by digital signal processing and microprocessor, and each power consumption is calculated and displayed so that it can have the same effect as the generation N meter with only one remote meter using communication means. Disclosed is a technique related to an electronic watt hour meter.

In addition, Korean Patent Publication No. 356495 (2002.09.30: hereinafter referred to as "Publication 2") shows that each customer has a plurality of meter reading devices (for example, four machines, water metering devices, gas metering devices, etc.). ) Is installed. One module means (refer to 1d) installed in the meter reading device is provided with a plurality of meter reading parts 11a to 11d corresponding to each meter reading device so as to read a plurality of usages at the same time. do. By this connection configuration, module means are provided for each customer (see FIG. 1 of Publication 2).

However, the publications 1 and 2 propose a concept in which one remote metering device can cover multiple generations, but a plurality of energy meters physically separated from one remote metering device (especially, installed for each household) The specific and characteristic methods for efficiently implementing the wiring between the devices are not conceived.

In addition, according to the publications 1 and 2, since each energy metering device should be directly connected to the remote meter reading device, a connection line port should be provided for each energy metering device in the remote meter reading device. Therefore, the remote metering device must be provided with an excessive number of connection line ports to cover the desired number of generations. For example, only two generations can be covered.

Further, according to the publications 1 and 2, each energy metering device has a configuration for transmitting a pulse waveform corresponding to the metered value to the remote meter reading device. That is, since each energy metering device does not have a configuration of directly detecting the metering value, converting it into digital data and transmitting it to the remote metering device using a communication protocol, the line between the energy metering device and the remote metering device cannot be long enough. Accordingly, the above-mentioned publications 1 and 2 are not enough to be effectively applied to multiple generations.

For this reason, the number of energy meter devices that a single remote meter is responsible for is limited by the system design.

For reference, in order to highlight the features of the present application, a conventional technology that can be contrasted with the above-described remote metering method supporting multiple generations will be described.

Looking at Korean Patent Publication No. 283913 (2000.12.31: hereinafter referred to as "Publication 3"), the remote meter reading control device 3 includes a plurality of meters (e.g., electric metering device, gas metering device, water metering device, etc.). 4) are connected. By this connection configuration, the remote meter reading control device 3 is installed for each customer (see FIG. 1 of Publication 3).

Also, Publication 2 discloses a configuration of power line communication.

However, when analyzing the above-mentioned publications 2 and 3, although power line communication is used for the remote meter reading system, this is limited to that between the remote meter reading device and the upper processor.

Accordingly, although publications 2 and 3 perform power line communication, and publications 1 and 2 cover a plurality of generations by one remote meter reading device, these two technical ideas are simply combined to facilitate the invention of the present application. It is never easy to derive.

As described above, when designing a system according to a remote meter reading method, there is a very important matter to consider. In other words, wiring is required to support wired communication between the physical meter and the remote meter. Further, when there are a plurality of remote meter reading devices, a lot of wiring is required.

In particular, in the case of a single residential device such as a plurality of residential areas (accommodators), apartments, and the like, the number of wires to the remote meter is further increased to cover a plurality of households. Measures should be taken to effectively reduce the number of city wirings.

In addition, the number of energy metering devices under one remote meter should not be constrained when designing the system.

In addition, although it depends on the system design method, in the case of the recently built apartment house, the gas metering device, the electric metering device and the water metering device are installed outside the door, and the hot water metering device and the heating / cooling metering device are installed indoors. There is a number. In such a construction method, the wiring efficiency between the remote detection device and each energy metering device greatly affects the reduction of construction cost and the cost reduction. Moreover, when each of these energy metering devices is installed at different locations in a household, the efficiency of wiring becomes more important when a single remote meter reading device covers a plurality of households.

The present invention has been made in such a situation, and an object thereof is to propose a method for efficiently wiring between an energy metering device and a remote metering device.

Furthermore, another object of the present invention is to propose a method for efficiently wiring between an energy meter and a plurality of remote meter reading devices.

Furthermore, in the present invention, in order to cover a plurality of households in a single residential area such as a plurality of use areas (accommodators), apartments, etc., the number of wires to the remote meter is further increased. Another object of the present invention is to provide a method for efficiently reducing the number of wires when designing such a remote meter reading system.

Furthermore, another object of the present invention is to propose a method of implementing a remote meter reading system using the remote meter reading device.

The present invention for achieving the above object is characterized in that the remote meter reading device, it is possible to transmit the meter reading related signal by performing power line communication using a power line connected to the energy meter.

Accordingly, communication related to the meter reading can be performed by using a power line connected to the energy metering device, so that a separate dedicated communication line is unnecessary, thereby effectively reducing wiring.

Furthermore, according to the auxiliary aspect of the present invention, the energy metering device is a plurality, characterized in that the type of energy metered by each energy metering device is at least one of electricity, water, hot water, gas, heating, cooling.

This enables communication with a plurality of various types of energy metering devices.

Furthermore, according to an auxiliary aspect of the present invention, the plurality of energy metering devices are connected to one power line provided from the remote meter reading device.

Accordingly, the plurality of energy metering devices do not need a line connected to the remote metering device, respectively, and even by wiring one power line, the remote metering device can communicate with the plurality of energy metering devices.

In addition, according to the conventional remote meter reading system, the remote meter reading device and each energy metering device is connected by a separate power line. As a result, the power line ports introduced into the remote meter reading device are increased, so that the wiring becomes complicated. In the present invention, since a single power supply line is used, the wiring becomes more efficient. Moreover, in the present invention, since each energy metering device and the remote metering device perform power line communication by using such a single power line, the wiring is more efficient.

Furthermore, according to the auxiliary aspect of the present invention, the plurality of energy metering device is installed for each of a plurality of consumers, characterized in that the remote detection device provides one power line for each customer.

Accordingly, in order to cover a plurality of households in one residential area such as a plurality of residential areas (accommodators) and apartments, the number of wires to the remote meter is further increased. When designing the metering system, the number of wires can be reduced efficiently.

Furthermore, according to the auxiliary aspect of the present invention, the power line communication unit of the plurality of consumer power line communication unit and each of the plurality of power line communication unit for performing power line communication with the plurality of energy metering device installed for each customer It characterized in that it comprises a selection unit for selecting any one to communicate the meter reading control unit.

Accordingly, it is possible to propose a concrete implementation plan of the remote meter reading apparatus according to a preferred embodiment of the present invention.

The foregoing and further aspects of the present invention will become more apparent through the following embodiments. Hereinafter, the present invention will be described in detail with reference to the preferred embodiments described with reference to the accompanying drawings so that those skilled in the art can easily understand and reproduce.

1 is a view showing a remote meter reading system according to a preferred embodiment of the present invention, Figure 2 is a view showing a remote meter reading apparatus according to a preferred embodiment of the present invention. Hereinafter, a description will be given with reference to the drawings.

As shown in FIG. 2, the remote meter reading device 201 according to a preferred embodiment of the present invention includes a power supply unit 211 for supplying a power source 211 to the energy metering devices 233 and 241, and Meter reading control unit for transmitting and receiving the meter-related signal between the power line communication unit 213 performing power line communication using the power line 231 connected to the energy metering devices 233 and 241 and the energy metering devices 233 and 241. And a communication unit 207 for transmitting and receiving a corresponding meter reading signal between the 209 and the external meter reading server (see 117 of FIG. 1).

According to a preferred embodiment of the present invention, the power supply unit 211 provided in the remote meter reading device 201 receives commercial AC power and receives a power source 221 (for example, 12 volts) and an internal power source 223 for the energy metering device. (Eg, 5 volts) is generated, and a power source 221 for the energy metering device is provided to the power line communication unit 213. Of course, the power supply 211 supplies the internal use power source 223 to the respective components in the apparatus 201 (not shown in FIG. 2 above).

According to a preferred embodiment of the present invention, the power line communication unit 213 receives the power meter 221 for the energy metering device from the power supply unit 211 to the energy metering devices 233 and 241 connected through the power line 231. to provide. In addition, the power line communication unit 213 performs power line communication with a corresponding power line communication unit (eg, 235) of the energy metering devices 223 and 241 using the power line 231 connected to the energy metering devices 233 and 241. do.

For example, the power line communication unit 213 may analogize the metering command signal, modulate it at a high frequency, and transmit it in addition to a low frequency 60khz power signal.

The power line communication technology itself performed between two corresponding communication entities (power line communication unit 213 and power line communication unit 235 according to an embodiment of the present invention), as shown in the aforementioned publications 1 and 2, As it will be apparent to those skilled in the art, the detailed description thereof will be omitted.

In the embodiment of the present invention, the specificity is that such power line communication is performed between the remote meter reading device 201 and the energy metering device 233 connected by the power line 231.

According to a preferred embodiment of the present invention, the meter reading control unit 209 communicates with a metering control unit (eg, 237) provided in the energy metering devices 233 and 241 to control transmission and reception of a corresponding meter reading signal. In addition, the communication unit 207 transmits and receives a meter reading related signal between an external meter reading server (see 117 of FIG. 1) under the control of the meter reading controller 209.

According to a preferred embodiment of the present invention, the metering related signal may be a metering command signal (remote metering device 201-> energy metering devices 233, 241, metering server-> remote metering device 201). . Further, the meter reading related signal may be a meter value signal (remote meter reading device 201 <-energy metering devices 233, 241, meter reading server <-remote meter reading device 201). The metered value means a meter value measured by the use energy metering unit 239 under the control of the metering control unit 237.

In addition, according to a preferred embodiment of the present invention, transmission and reception of the metering related signal may be implemented by a periodic data polling protocol. The metering protocol between the energy meter and the remote metering device can use, for example, a commercial omni-meter protocol. In addition, the communication between the metering server and the remote metering device is LonWorks FTT communication and the protocol may be a LonTalk protocol.

According to the above-described embodiment, communication related to the meter reading can be performed by using a power line connected to the energy metering device so that a separate dedicated communication line (energy metering device <-> remote metering device) is unnecessary, so that wiring can be effectively performed. Can be reduced. In particular, in the case of a system in which power is supplied from the remote meter reading device to the energy metering device, the existing power line is used, so that no additional wiring work is required.

According to an auxiliary aspect of the present invention, the energy metering devices 233 and 241 are plural, and the type of energy metered by each of the energy metering devices 233 and 241 is at least one of water, hot water, gas, heating and cooling. It is characterized by.

According to the above-described embodiment, there is an advantage in that a single remote meter reading device 201 can transmit and receive a meter-related signal through power line communication with a plurality of different types of energy metering devices.

Furthermore, according to an auxiliary aspect of the present invention, the plurality of energy metering devices 233 and 241 are connected to one power line 231 provided from the remote meter reading device 201.

According to the conventional remote meter reading system, the remote meter reading device 201 and each energy metering device (233, 241) is connected by a separate power line. As a result, the power line ports introduced into the remote meter reading device 201 increase in number and the wiring becomes complicated. In the present invention, since a single power supply line is used, the wiring becomes efficient. Furthermore, in the present invention, since each of the energy metering devices 233 and 241 and the remote meter reading device 201 performs power line communication using the single power supply line 231, wiring is more efficient.

In order to avoid communication conflicts in performing power line communication using a single line, the meter reading control unit 209 of the remote meter reading device 201 may assign an address to each energy meter device in charge. Therefore, each energy meter detects a command signal through the power line and transmits a response signal only when an address signal assigned thereto is received.

Since the communication collision avoidance algorithm itself is obvious to those skilled in the art, a detailed description thereof will be omitted.

According to an auxiliary aspect of the present invention, the plurality of energy metering devices (see 129, 131, 139, and 141 of FIG. 1) are installed for each of a plurality of consumers (see 127 and 137 of FIG. 1), and the remote In the detecting device (see 121 of FIG. 1), one power line (see 133 and 143 of FIG. 1) may be provided for each customer.

A plurality of energy metering devices do not need a line connected to the remote metering device, respectively, and by wiring one power line, the remote metering device can communicate with the plurality of energy metering devices.

According to the embodiment of FIG. 1, the remote meter reading device (see the first remote meter reading device 121) serves as a zone (acceptor) in charge of the plurality of households 127 to 137. In the present invention, the customer can be a household in a collective residence such as an apartment or residential complex. Or it could be an office in an office building.

Each household is provided with a plurality of energy metering devices. That is, the first energy meter 129, the second energy meter 131, and the like are installed in the first generation 127. In addition, the first energy meter 139, the second energy meter 141, and the like are installed in the nth generation 137.

According to a preferred embodiment of the present invention, the first remote meter reading apparatus 121 allocates one power line for each household in charge. That is, the first remote meter reading apparatus 121 allocates a single power line 127 to the first generation 127 and also allocates a single power line 137 to the nth generation 137.

Each of the energy metering devices 129 and 131 corresponding to the first generation 127 is connected to one power line 127 assigned to the first generation 127 to be supplied with power, and also to the power line 127. The first remote meter reading device 121 and each of the energy metering devices 129 and 131 perform power line communication to transmit and receive a signal related to the meter reading.

Similarly, each of the energy metering devices 139 and 141 corresponding to the nth generation 137 is connected to one power line 137 assigned to the nth generation 137 and is supplied with power. The first remote meter reading device 121 and each of the energy metering devices 139 and 141 perform power line communication through 137 to transmit and receive a signal related to the meter reading.

According to the above-described embodiment, in order to cover a plurality of households in the case of a single residential reading device in a group residential area such as a plurality of use areas (accommodators), apartments, etc., the number of wires introduced into the remote reading device is further increased. When designing such a remote metering system, the number of wires can be reduced efficiently.

Specifically, although it depends on the system design method, in the case of the recently built apartment house, the gas metering device, the electric metering device and the water metering device are installed outside the door, and the hot water metering device and the heating / cooling metering device are installed indoors. Can be. In such a construction method, the wiring efficiency between the remote detection device and each energy metering device has a great effect on the reduction of construction work and the cost reduction. Moreover, when each of these energy metering devices is installed at different locations in a household, the efficiency of wiring becomes more important when a single remote meter reading device covers a plurality of households.

Meanwhile, according to an auxiliary aspect of the present invention, a plurality of power line communication units (provided in the remote meter reading device) (see 213 of FIG. 2) may perform power line communication with a plurality of corresponding energy metering devices installed for each customer. The meter reading control unit (see 209 of FIG. 2) may be selected by selecting one of the power line communication units (see 217 to 219 of FIG. 2) and the plurality of customer power line communication units (see 217 to 219 of FIG. 2) for each customer. Characterized in that it comprises a selection unit 215 for communication connection.

2, the power line communication unit 213 provided in the remote meter reading device 201 is provided with generation-specific power line communication units 217 to 219 having one channel for each generation. That is, the first channel power line communication unit 217 performs power line communication with each power line communication unit 235 of each of the energy metering devices 233 and 241 of the first generation 229. In addition, the N-th channel power line communication unit 219 is the energy metering devices of the nth generation (not shown in FIG. 2, see 137 of FIG. 1) (not shown in FIG. 2, 139 of FIG. 1). Power line communication with each power line communication unit (not shown in FIGS. 1 and 2 and 235 of FIG. 2) of the power line communication unit.

The power line communication unit 201 is provided with a selection unit 215. The selector 215 selects one of the plurality of generation-specific power line communication units (see 217 to 219) and communicates with the meter reading control unit 209.

Meanwhile, according to a preferred embodiment of the present invention, when the power metering device is read, power lines (eg, 220 volts) are supplied to the respective power metering devices 247 and 249 through a central transformer (not shown). There is no need to supply a separate DC power line. According to a preferred embodiment of the present invention, the remote meter reading device 201 and the power metering devices 247 and 249 for each generation may be connected by a communication line 245 to transmit and receive a metering related signal. Transmission and reception of the metering related signal may be implemented by RS-485 communication.

Of course, in some cases, even in the case of the power metering device, it may be designed to communicate with the power line communication unit by connecting to a power line (refer to 231) allocated for each generation.

The electricity meter interface unit 225 performs an interface required for transmitting and receiving a meter-related signal with the generation electricity metering devices 247 and 249. In the technical field of designing digital metering device, the meter-related transmission / reception between the remote metering device and the power metering device is well known, and the configuration of the meter interface unit 225 is obvious to those skilled in the art, and thus the detailed description thereof will be omitted. Shall be.

Reference numeral 203 not described in FIG. 2 denotes a storage unit. The storage unit 203 may store meter reading related data. For example, metering value information sent by each energy metering device 233 or 241 may be stored.

The storage unit 203 also includes a communication protocol between the energy metering devices 233 and 241 and the remote meter reading device 201, and a communication protocol between the meter reading server (see 117 of FIG. 1) and the remote meter reading device 201. The program data described can be stored.

In addition, according to a preferred embodiment of the present invention, the meter reading control unit 209 transmits a metering command signal to a corresponding energy metering device at each set period, by checking whether or not a response is successfully received from the energy metering device. The state information of each energy metering device according to the test result may be stored in the storage unit 203. Preferably, the state information may be whether or not a meter value signal is received. When the meter reading value signal itself is not received, the meter reading controller 209 records the abnormality in the storage unit 203 that an error has occurred in the energy metering device. Alternatively, the state information may be determined by the size of the meter reading data. That is, the meter reading control unit 209 may compare the size of the meter reading data with a preset reference value and determine whether there is an abnormality such as a short circuit, a leak, or a gas leak. The meter reading control unit 209 records the abnormality occurrence history in the storage unit 203.

According to a preferred embodiment of the present invention, the meter reading control unit 209 may transmit the state information of each energy metering device to the remote meter reading server (117 of FIG. 1) through the communication unit 207.

Reference numeral 205 not described in FIG. 2 denotes a display unit. The display unit 205 displays the meter reading value of each energy metering device or status information of the device for each household. The display unit 205 may be implemented separately for each generation, and in some cases, the display unit 205 may be implemented such that the measurement value for each generation is displayed on a single display unit 205.

According to a preferred embodiment of the present invention, the remote meter reading device 201 may be provided with an operation unit (not shown in FIG. 2) to implement a user interface to allow a user to operate. The operation signal of the user may be, for example, selection of generation or type of energy metering device.

On the other hand, the remote meter reading system according to a preferred embodiment of the present invention, the meter reading-related signals between the remote meter reading device (see 121, 201) described in Figures 1 and 2 and the remote meter reading device (121, 201) Transmit / receive, generate energy usage related information based on the meter reading signal received, and the terminals 111, 113, etc. in the customer where the energy metering devices (eg, 129, 131, etc.) are installed through the home gateway 109. And meter reading server 117 for transmitting / receiving an energy usage related signal between the terminals.

The meter reading server 117 is to provide various information related to the remote meter reading to the outside. For example, the meter reading server 117 may be installed in management rooms such as apartments, buildings, and hospitals. The number of remote meter reading devices may be at least one, and the meter reading server 117 may manage the plurality of remote meter reading devices 121 to 123.

The meter reading server 117 transmits / receives a meter related signal between the remote meter reading devices 121 and 201. The reading related signal may be a reading command signal and a response (reading value) signal from the corresponding remote reading device for the command.

The meter reading server 117 preferably provides a graphical user interface, and can display each meter reading value of the household selected by the administrator.

In addition, the meter reading server 117 may generate energy usage related information for each generation based on the received meter reading related signals and for each type of energy used.

The energy usage related information may be substantially the same as the meter reading for energy usage, and may be displayed information so that a general tenant may easily know.

In addition, according to a preferred embodiment of the present invention, when the meter reading server 117 receives an energy usage inquiry signal from the tenant terminals 111 to 115 of the household, for example, via the LAN 109, the home gateway 109 The energy use related information is transmitted to the tenant terminals 111 to 115 through the terminal.

Preferably, the meter reading server 117 may provide a graphical user interface to the tenant terminals 111 to 115 to provide energy consumption and the like for each generation selected by the tenant.

According to a preferred embodiment of the present invention, the meter reading server 117 may transmit the energy usage for each household to, for example, a management server (not shown) operated by a company managing a customer. Accordingly, for example, the billing server may generate billing notification data by adding household usage and public usage.

In addition, according to a preferred embodiment of the present invention, the meter reading server 117 may transmit the energy usage related information to the tenant's mobile communication terminal 101. At this time, the meter reading server 117 may transmit the information in a short message, or may have a WAP function and the like to transmit the information using wireless data communication between mobile communication terminals.

According to a preferred embodiment of the present invention, as described above, the meter reading server 117 receives the state information of the corresponding energy metering devices (eg, 129 and 131) from the remote metering device (eg, 121). Then, the meter reading server 117 transmits the status information to the remote system management server 105 via the communication network 107.

The remote system management server 105 is for remotely managing the metering system (that is, the metering system under the metering server 117). The remote system management server 105 receives and manages the status information of the respective energy metering devices 129, 131, 139, 141, 149, 151, 159, 161, etc. from the meter reading server 117, and the status information is If an error occurs, an alarm signal is generated.

When the abnormality occurs in the state information, as described above, it may be whether or not the energy metering device is abnormal, leaks, leaks, gas leaks, and the like.

When an alarm signal is generated, for example, a remote system administrator can recognize it and take action. In addition, the alarm signal can be notified to the manager of the site. For example, the alarm signal may be transmitted to the mobile communication terminal of the corresponding manager.

According to a further aspect of the present invention, the remote system management server 105 transmits an after-service request signal to the after-service server 103 when the state information corresponds to an abnormal occurrence. Alternatively, the meter reading server 117 may directly transmit the after-service request signal to the after-service server 103.

 As described above, according to the embodiment of the present invention, communication related to the meter reading can be performed by using a power line connected to the energy metering device, so that a separate dedicated communication line is not necessary, thereby effectively reducing wiring.

In addition, communication with a plurality of various types of energy metering devices becomes possible.

Also, by wiring one power line, the remote meter reading device can communicate with a plurality of energy metering devices.

In addition, according to the conventional remote meter reading system, the remote meter reading device and each energy metering device is connected by a separate power line. As a result, the power line ports introduced into the remote meter reading device are increased, so that the wiring becomes complicated. In the present invention, since a single power supply line is used, the wiring becomes more efficient. Moreover, in the present invention, since each energy metering device and the remote metering device perform power line communication by using such a single power line, the wiring is more efficient.

In addition, in the case of a group residence such as a plurality of residential areas (accommodators), apartments, etc., a single meter reads more and more wires to the remote meter, so that the number of wires to the remote meter is increased. In system design, the number of wires can be reduced efficiently.

In addition, it is possible to propose a concrete implementation method of the remote meter reading apparatus according to a preferred embodiment of the present invention.

In addition, it is possible to implement a remote meter reading system using a remote meter reading device having the above characteristics.                     

In addition, in a remote meter reading system in which one remote meter is able to cover multiple generations, wiring between one remote meter and a plurality of physically separated energy metering devices (especially, installed for each household) It can suggest specific and characteristic measures that can be implemented efficiently.

In addition, as in the related art, each energy metering device must be directly connected to the remote metering device, and therefore, a connection line port must be provided for each energy metering device in the remote metering device, and thus, the connection line port must be excessively provided in the remote metering device. Unlike the number of households that do not cover the desired level, only one power line is allocated to each household, so that the number of line ports of the remote metering device can be greatly reduced and the wiring can be efficiently performed. In addition, the line between the energy meter and the remote meter can be sufficiently long by using an energy meter that can directly detect the metered value, convert it into digital data and transmit it to the remote meter using a communication protocol.

Therefore, the number of energy metering devices that one remote metering device is responsible for when designing the system is not greatly restricted.

Although the present invention has been described with reference to the accompanying drawings, it should not be construed as being limited thereto, but should be construed to cover many modifications that are obvious from this.

Claims (10)

In the remote meter reading device, A power supply for supplying power to the energy metering device; A power line communication unit configured to perform power line communication using a power line connected to the energy metering device; A meter reading controller for transmitting and receiving a meter reading related signal between energy metering devices through the power line communication unit; And a communication unit for transmitting and receiving a corresponding meter reading signal between the meter reading control unit and an external meter reading server. The method according to claim 1, The energy metering device is plural; Kind of energy that each energy metering device measures, At least one of electricity, water, hot water, gas, heating, and cooling. The method according to claim 2, And a plurality of energy metering devices connected to one power line provided from the remote meter reading device. delete The method according to claim 3, The energy metering device is installed for each of a plurality of consumers, The power line communication unit: A plurality of power line communication units for each customer that performs power line communication with a corresponding energy metering device installed for each of the plurality of customers; And a selector configured to select any one of the plurality of power line communication units for each customer to connect the meter reading control unit. In the remote meter reading system, A remote meter reading device of claim 1; And Transmit / receive metering-related signals between the remote meter reading devices, generate energy usage-related information based on the metering-related signals received, and transmit / receive energy usage-related signals between end user terminals within the customer where the energy metering device is installed. Receiving meter reading server; Remote metering system comprising a. The method according to claim 6, The meter reading server, Transmitting the energy usage information to the billing server of the company managing the customer; Remote meter reading system, characterized in that further performing. The method according to claim 7, The meter reading server, And transmitting / receiving the energy use related signal between the mobile communication terminals of the general user of the corresponding customer. The method according to claim 8, The meter reading server, Further receiving status information of the energy metering device from the remote meter reading device, and transmitting the status information to a remote system management server through a communication network; And a remote system management server configured to manage the received state information and generate an alarm signal when the state information corresponds to an abnormal occurrence. The method according to claim 9, The remote system management server or meter reading server, And transmitting the after-service request signal to the after-service server if the state information corresponds to an abnormal occurrence.

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