KR101183388B1 - Power monitoring system and plug module - Google Patents

Abstract

PURPOSE: A plug module and an electric energy monitoring system are provided to grasp the kind of an individual device used in an electric power customer based on electric energy information and to remotely control the individual device. CONSTITUTION: A plug module(15) is installed between a socket and a power connector, a power plug of an individual device and the power connector, or the socket and the power plug of the individual device. The plug module senses electric energy of the individual device and transmits it to a meter(14) through a first communications network. The meter receives electric energy information from the plug module and transmits it to a remote management server(19) through a second communications network. The remote management server compares the electric energy information with an electric energy profile saved in database and distinguishes a used individual device. The remote management server matches the corresponding plug module and the individual device and stores it. The remote management server transmits a remote control command for the individual device.

Description

Power Monitoring System and Plug Modules

The present invention can determine the type of the individual devices used in the power consumer and remote control based on the plug module that can measure and transmit the amount of power consumed by the individual devices connected to it, and the power information transmitted by the plug module It relates to a power monitoring system.

In recent years, various measures have been taken to use energy resources more efficiently and reduce energy consumption.

An example of this is the Smart Grid, which incorporates information technology (IT) into the power grid, allowing power providers and consumers to exchange real-time information in both directions, optimizing energy efficiency and adding new added value. Next generation power grid that can create

In addition to the smart grid, a smart meter is a meter that adds communication capabilities. It enables two-way communication between power providers and consumers, enabling real-time investigation of power usage.

On the other hand, in order to achieve energy saving and reasonable energy consumption in the smart grid society, it is necessary to grasp the situation in which users use power in detail and actively control power consumption through this.

As a method of determining the current power consumption situation, a technique for monitoring the total amount of power used by the power consumer has been used.

However, it is difficult to understand the power consumption situation of the power consumers only by monitoring the total power consumption of the power consumers. Therefore, it is necessary to understand the power consumption situation by the unit of individual devices. It is desirable to.

Accordingly, the present invention has been made to meet the above needs, to provide a power monitoring system and a plug module to grasp the power consumption of the power consumer in individual device units, and to enable remote control of individual device units. The purpose is.

In order to achieve the above object, the first embodiment of the power amount monitoring system according to the present invention is installed between an outlet and a power connector, between a power plug and a power connector of an individual device, or between an outlet and a power plug of an individual device. A plug module which senses an amount of power of an individual device and transmits it to a meter through a first communication network; A meter for receiving power amount information from the plug module and transmitting the power amount information to a remote management server through a second communication network; And a remote management server for distinguishing individual devices to be used by comparing the power amount information received from the meter with a power amount profile stored in a database, matching and storing corresponding plug modules and individual devices, and transmitting a remote control command to the individual devices. It is made, including.

A second embodiment of the power amount monitoring system according to the present invention is installed between an outlet and a power connector, between a power plug and a power connector of an individual device, or between a power outlet of an outlet and an individual device, and detects the amount of power of the individual device. A plug module for transmitting to a meter through a first communication network; A meter for receiving power amount information from the plug module and transmitting the power amount information to an in-house management device through the first communication network; And comparing the amount of power received from the meter with the amount of power stored in the database to distinguish the individual devices to be used, matching and storing the corresponding plug module and the individual devices, and the home management apparatus for transmitting a remote control command for the individual devices. It is made, including.

In the second embodiment, the home management apparatus may include an In Home Display (IHD) or a personal computer.

The first communication network may include at least one of a power line communication network, a Bluetooth communication network, and a Zigbee communication network.

The second communication network may include at least one of a wireless LAN (WLAN), a power line communication network, a Bluetooth communication network, and a Zigbee communication network.

The power amount monitoring system of each embodiment may display power usage information of an individual device through an IHD (In Home Display) or a personal computer.

The plug module may be configured to enable a user to set a power supply need of an individual device connected to the plug module to one of a plurality of levels.

The plug module may be configured to allow a user to set identification information of the plug module.

At this time, the identification information of the plug module may be set through a numeric key or a dip (DIP) switch.

The remote management server and the home management apparatus may transmit a remote control command for an individual device or a group of individual devices.

The remote management server and the home management apparatus may provide an alarm to the user when matching information of the plug module and the individual device is changed.

Plug module according to the invention, the sensor for sensing the amount of power; An input unit for inputting plug management information; Communication unit for transmitting and receiving data with the meter; A switch for connecting or disconnecting power; And a control unit for transmitting plug management information input through the input unit and power amount information detected through the sensor through the communication unit, and controlling the switch according to a remote control command received through the communication unit.

The plug module according to the present invention may be located between an outlet and a power connector, between a power plug and a power connector of an individual device, or between an outlet and a power plug of an individual device.

The plug management information input through the input unit may include one or more of identification information of the plug module and information regarding a need for power supply of an individual device connected to the plug module.

The input unit may be configured to allow a user to set a power supply need of an individual device connected to the plug module to one of a plurality of levels.

The input unit may be configured to allow a user to set identification information of the plug module. To this end, the input unit may include a numeric key or a dip (DIP) switch.

According to the present invention, it is possible to grasp the situation in which each electric power consumer uses power in units of individual devices.

In particular, since the current device is automatically identified based on the power pattern, which is a unique characteristic of each device, the user does not need to input a matching relationship between the plug module and the individual device.

By knowing how power is being used on an individual device basis, it is possible to provide specific consumer behavioral guidelines that can regulate power usage rather than induce vaguely reducing the use of electrical energy.

In addition, based on the power usage situation identified by the individual device, it is possible to remotely control whether the individual device is powered on according to the target value of the power consumption or the energy price that changes over time.

Therefore, in the smart grid society, it is possible to induce users to control energy consumption more actively and to reasonably consume energy.

1 is a general overview of a power monitoring system;
2 is a first embodiment of a power monitoring system according to the present invention,
3 is a second embodiment of a power monitoring system according to the present invention;
4 is a specific example of a remote management server (or home management apparatus),
5 is an example of the operation of the registration means,
6 is an example of the operation of the device control means,
7 illustrates an example of a power pattern of an individual device;
8 and 9 are examples illustrating the overall process of operating the power monitoring system of each embodiment,
10 is an example of a use state of a plug module according to the present invention;
11 is an embodiment of a plug module according to the present invention;
12 is an example of an input unit configured to allow a user to set a need for powering up an individual device;
13 is an example of an input unit configured to allow a user to set identification information of a plug module.

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

1 shows an overall overview of a power monitoring system according to the present invention, wherein the electric energy supplied from the power supply company 11 is supplied to the power consumer 10 through the power supply line 12, and the power consumer ( 10) various types of individual devices (load 16) operated by using electric energy, such as a refrigerator, a washing machine, an air conditioner, an audio, a personal computer (PC), and the like, are provided.

Meter 14 is an electronic wattmeter that measures the state in which electrical energy supplied to power consumer 10 is consumed through each load 16. A specific example of the meter 14 is a smart meter with a communication function.

Each load 16 of the power consumer 10 is connected to a power source via a plug module 15, and the plug module 15 communicates with the meter 14 through the first communication network 17-1.

The first communication network 17-1 may be various wired or wireless communication networks.

For example, the first communication network 17-1 may include at least one of a power line communication network (PLC), a Bluetooth communication network, and a Zigbee communication network.

The plug module 15 is located between the outlet and the power connector, between the power plug and the power connector of the individual device, or between the outlet and the power plug of the individual device. And to connect or disconnect the power supply to the individual devices 16 according to the remote control command received from the meter 14.

In this case, the plug module 15 may transmit the power amount information of the individual device according to a transmission request periodically received from the meter 14, or may determine the cycle and transmit the power amount information of the individual device.

The information that the plug module 15 transmits to the meter 14 basically includes power amount information of the individual device 16 connected thereto and its identification information (ID), and the plug module 15 periodically transmits this information. Send to meter 14.

The plug module identification information may be set permanently in the plug module 15, or may be configured to be set directly by the user.

The meter 14 may perform various roles as necessary, and in particular, in connection with the present invention, the meter 14 communicates with the remote management server 19 through the second communication network 17-2 or establishes a first communication network 17-1. Communicate with the home management device 18 through.

The meter 14 periodically transmits power consumption information of individual devices to the remote management server 19 or the home management device 18, and receives a remote control command received from the remote management server 19 or the home management device 18. To the plug module 15.

In this case, the meter 14 may transmit power consumption information of the individual device according to a transmission request periodically received from the remote management server 19 or the home management device 18, or may determine the cycle by itself to consume power of the individual device. The information may be transmitted to the remote management server 19 or the home management apparatus 18.

The second communication network 17-2 through which the meter 14 and the remote management server 19 communicate may be various wired or wireless communication networks. For example, the second communication network 17-2 may include at least one of a wireless LAN (WLAN), a power line communication network (PLC), a Bluetooth communication network, a Zigbee communication network, an Internet network, and a mobile communication network.

The power consumption information of the individual device transmitted from the meter 14 to the remote management server 19 includes power customer identification information, plug module identification information, and power amount information of each device connected to the plug module.

Here, the power customer identification information refers to information that can uniquely identify the power consumer 10, such as a unique serial number assigned to the meter, the address of the power consumer.

When the meter 14 transmits power consumption information of an individual device to the in-house management device 18, the power consumption information of the individual device includes plug module identification information and power amount information of each device connected to the plug module.

The remote management server 19 or the home management apparatus 18 compares the amount of power information of the individual devices received from the meter 14 with the power profile to determine which individual devices are connected to which plug module, and each plug module It manages the matching information of the and individual devices, and transmits a remote control command for the individual devices to the meter (14).

2, the power monitoring system 21 of the first embodiment according to the present invention communicates through one or more plug modules 15, meters 14, meters 14 and the second communication network 17-2. The remote management server 19 is made.

The plug module 15 basically transmits power amount information of the individual device 16 connected thereto and its identification information (ID) to the meter 14, and the meter 14 identifies power customer identification information and plug module identification. Information is transmitted to the remote management server 19, the power consumption information including the amount of power information of the individual devices connected to the plug module.

In addition, the meter 14 transmits a remote control command received from the remote management server 19 to the plug module 15.

The remote management server 19 manages various power consumers, receives power consumption information of individual devices from the meter 14 through the second communication network 17-2, and receives the power amount information of the received individual devices and By comparing which individual device is connected to each plug module, the management of matching information between the plug module and the individual device for each power customer is managed.

In addition, the remote management server 19 transmits a remote control command for the individual device of each power consumer to the meter 14 according to a preset control condition.

Referring to FIG. 3, the power amount monitoring system 23 of the second embodiment according to the present invention communicates through one or more plug modules 15, the meter 14, the meter 14, and the first communication network 17-1. It comprises a home management device 18 to do.

The role of the home management apparatus 18 may be configured to be performed by various devices provided in the power consumer 10, for example, an In Home Display (18-1) or a personal computer (PC) 18-2. have.

The home management apparatus 18 plays a special role in relation to the present invention, but is a kind of load in terms of power consumption.

The IHD 18-1 is a display device provided in the power consumer 10 to display various types of information related to energy, and to interface the user to manage energy of the power consumer 10.

The plug module 15 basically transmits power amount information of the individual device 16 connected thereto and its identification information (ID) to the meter 14, and the meter 14 transmits the plug module identification information to the plug module. The power consumption information including the power amount information of the connected individual device is transmitted to the indoor management device 18.

In addition, the meter 14 transmits the remote control command received from the home management apparatus 18 to the plug module 15.

The indoor management device 18 receives power consumption information of individual devices from the meter 14 and compares the received power device information with the power profile to determine which individual device is connected to each plug module. Manages matching information between plug modules and individual devices.

In addition, the indoor management device 18 transmits a remote control command for the individual device to the meter 14 according to a preset control condition.

With reference to FIG. 4, the specific example regarding the remote management server 19 and the indoor management apparatus 18 is demonstrated.

The communication means 211 enables communication with the meter 14 via the first communication network 17-1 or the second communication network 17-2. That is, the communication means 211 serves as an interface to enable communication using a wireless LAN (WLAN), a power line communication method, a Bluetooth communication method, a Zigbee communication method, and the like. It may be configured in plural to enable this.

The power profile database 217-1 stores power profile of various individual devices. The power amount profile refers to power patterns of individual devices, and each individual device has a power pattern that is distinct from each other.

When the power consumption information of the individual device is received from the meter 14 through the communication means 211, the registration means 213 compares the power amount information included therein with each power pattern of the power profile database 217-1. It determines whether an individual device is connected to the corresponding plug module, and maintains matching information of the plug module and the individual device in the matching information database 217-2.

At this time, in the case of the remote management server 19, the registration means 213 maintains the matching information of the plug module and the individual device for each power consumer.

As described above, since the meter 14 periodically transmits power consumption information of the individual device, the registration means 213 may keep the matching information of the matching information database 217-2 up to date.

FIG. 5 illustrates an example of an operation process of the registration means 213. It is examined whether power amount information corresponding to each plug module is periodically received (S311), and compares the received power amount information with the power amount profile. By checking the individual devices connected to the plug module (S312), and maintains the matching information of the plug module and the individual device (S313).

That is, each individual device has a power pattern that is distinct from each other, such as the power pattern of the refrigerator illustrated in FIG. 7A or the power pattern of the washing machine illustrated in FIG. 7B.

Therefore, in step S312, the registration means 213 may determine which individual device is connected to each plug module by comparing the power amount information of the individual device with each power pattern of the power profile database 217-1.

The registration means 213 may provide an alarm to the user when the type of the individual device connected to a plug module is changed.

The method of providing the alarm by the registration means 213 may be variously configured. For example, the registration means 213 may transmit an alarm message to the meter 14 to output an alarm message through an IHD or a personal computer, or to a user's mobile communication terminal. An alarm message indicating this can be sent.

The control condition database 217-3 stores control conditions for connecting or disconnecting power of the individual devices 16 connected to the plug module 15.

The control conditions can be configured in various ways depending on the circumstances under which the power of any individual device is to be controlled. For example, if the total power used by the power consumer is to be controlled so as not to exceed the target value, the target value may be included in the control condition.

In addition, in the case where a variable rate system in which the price of electricity fluctuates over time is applied, individual devices may be controlled according to the price of electricity, and thus the price of specific electricity may be included in the control condition.

The control condition may be set by default, but may also be configured to be set manually by the user.

In this case, a user interface (UI) for allowing a user to set control conditions may be provided by an IHD or a personal computer.

In the case of the power amount monitoring system 21 of the first embodiment, the IHD or the personal computer can transmit the control condition set by the user to the remote management server 19, and the registration means 213 or the device control means 215 is a communication means. The control condition information received through the 211 is stored in the control condition database 217-3.

The control condition may include information about the control sequence.

That is, it may include information on which individual device is powered off first or which individual device is powered on first.

In connection with this control sequence, the plug module 15 may be configured to allow the user to set the need for powering up an individual device to one of a plurality of levels.

As a specific example, the plug module 15 may be configured to allow a user to set one of three levels of power supply need high, power supply need normal, and power supply need low according to the importance of an individual device connected thereto.

At this time, the plug module 15 transmits the level information regarding the necessity of applying power of the individual device to the meter 14, and the meter 14 includes this information in the power consumption information of the individual device. It transmits to the indoor management apparatus 18.

The level information regarding the necessity of applying the power becomes a control condition for the device control means 215 to select individual devices to be controlled.

The device control means 215 monitors whether the control condition stored in the control condition database 217-3 is satisfied, and if the control condition is satisfied, remote control command to the meter 14 through the communication means 211. Send it.

Referring to FIG. 6, the device control means 215 satisfies the control condition based on the matching information stored in the matching information database 217-2 and the control condition stored in the control condition database 217-3. It is monitored whether there is an individual device (S331), and transmits a remote control command to the meter 14 through the communication means 211 for the individual device that the control condition is satisfied (S332).

Remote control commands include connection / disconnection information about the power of a particular plug module and the individual devices connected to that plug module. The remote control command may also include connection / blocking information for two or more individual device groups.

When the remote management server 19 or home management device 18 sends a remote control command to the meter 14, the meter 14 sends the received remote control command to the plug module 15, and the plug module 15. ) Connects or disconnects the power of the individual devices 16 connected to it according to the remote control command.

The method of controlling the individual devices by the device control means 215 according to the control conditions may be configured in various ways as needed.

One example is to maintain the power usage of the power consumer not to exceed the target value as described above.

At this time, the device control means 215 manages the power usage of the power consumer, and if the power usage is higher than the target value, selects an individual device to turn off the power and transmits a remote control command instructing to turn off the power of the respective device. In addition, if the power usage is less than the target value, select the individual device to be powered, and transmits a remote control command instructing to connect the power of the individual device.

With regard to the control sequence, the individual device to be controlled can be selected through various methods. For example, a cyclic control method and a priority control method may be used.

The cyclic control method sequentially controls individual devices and resumes power supply from individual devices that have first been turned off.

Priority control method prioritizes power supply of individual devices by cutting off power from low priority devices and resuming power supply from high priority devices. In other words, the power supply is resumed first from the individual device which is cut off later.

Priority of individual devices may be set via the plug module 15 or a user interface (UI) provided by an IHD or personal computer. However, as the power consumption of an individual device increases or the fluctuation of the power usage increases, the method may be set dynamically such as to lower the priority.

The time point at which the control of individual devices is made can also be handled in various ways.

For example, when the power consumption of the power consumer reaches the target value, the device control means 215 may immediately transmit a remote control command. Also, turning off power to an individual device and then powering on that individual device again, or after powering up an individual device, turn off power to that individual device after a period of time. Can be.

Referring to FIG. 8, the overall operation of the power amount monitoring system 21 of the first embodiment will be summarized.

The plug module 15 transmits power amount information and plug identification information of the individual device 16 connected to the meter 14 to the meter 14, and the meter 14 receives information and power received from the plug module 15. The power consumption information including the identification information is transmitted to the remote management server 19.

The remote management server 19 receives the power consumption information from the meter 14, and compares the received power information of the individual devices with the power profile to manage the matching information of the plug module and the individual devices of each power consumer, control conditions Monitor whether there is an individual device that satisfies the requirements.

In this case, the control condition may be configured to be set by the user through an IHD or a personal computer provided in the power consumer, and the set control condition is transmitted to the remote management server 19 by the IHD or the personal computer.

In addition, the IHD or personal computer may perform various roles related to energy management, such as receiving power information of individual devices from the meter 14 on the first communication network 17-1 and displaying them on a screen.

If there is an individual device that satisfies the monitoring result control condition, the remote management server 19 transmits a remote control command to the meter 14 of the corresponding power consumer, and the meter 14 receives the remote control received from the remote management server 19. The control command is transmitted to the plug module 15.

The plug module 15 then cuts off or connects the power of the individual device 16 connected thereto according to the remote control command.

Referring to FIG. 9, the overall process of operating the power amount monitoring system 23 of the second embodiment will be described in summary.

The plug module 15 transmits power amount information of the individual device 16 connected thereto and the plug identification information to the meter 14, and the meter 14 includes information received from the plug module 15. The power consumption information is transmitted to the home management apparatus 18.

The indoor management device 18 receives power consumption information from the meter 14, compares the received power amount information of the individual device with the power amount profile, manages matching information of the plug module and the individual device, and satisfies the control conditions. Monitor the presence of the device.

The indoor management device 18 transmits a remote control command to the meter 14 if there is an individual device that satisfies the monitoring result control condition, and the meter 14 transmits the received remote control command to the plug module 15. .

The plug module 15 then cuts off or connects the power of the individual device 16 connected thereto according to the remote control command.

The indoor management device 18 may be configured to allow a user to set control conditions, and may perform various roles related to energy management, such as displaying power information of individual devices on a screen.

10 to 13, a specific embodiment of the plug module 15 according to the present invention will be described.

Referring to FIG. 10, the plug module 15 may be provided between the outlet 231 and the power connector 233 (A), or between the power plug 16-1 and the power connector 233 of an individual device (B). Is installed in the power supply to the individual devices 16 or cut off.

The plug module 15 may be located between the outlet 231 and the power plug 16-1 of the individual device.

The outlet 231 refers to a power inlet terminal installed on the wall, and the power connector 233 refers to an auxiliary connector for increasing the connection between the power plug 16-1 and the outlet 231 of an individual device.

An example of the power connector 233 may include a power strip including one or more fasteners 233-2 and a plug 233-1 connected to a wire of a predetermined length.

FIG. 11 illustrates an embodiment of the plug module 15, which includes a fastener 15-1, a fastening pin 15-2, a switch 15-3, an input unit 15-4, and a communication unit 15. -5), a sensor 15-6, and a control unit 15-7.

The sensor 15-6 detects the amount of power consumed by the individual device 16.

The input unit 15-4 serves to allow a user to input plug related information, and may be configured in various forms according to which plug related information is input to the user.

One example of the plug management information is information regarding the need (importance) of the power supply of the individual device 16 connected with the plug module 15.

FIG. 12 illustrates an example of buttons 251-1 to 251-3 that can set power supply needs of individual devices to three levels of high, normal, and low.

12A and 12B are a plan view and a side view of the plug module 15, respectively, in which a user operates one of each of the buttons 251-1 to 251-3 according to the importance of an individual device. Usually, one of three levels can be set: low power supply required.

Another example of the plug management information is identification information for identifying the plug module 15.

That is, many individual devices may be used for the power consumer, and since each individual device corresponds to the plug module 15 one-to-one, identification information of each plug module may be used to identify and control which individual devices are connected to which plug module. Should be assigned and identified.

The plug module identification information may be set permanently on its own, or may be configured to be set directly by the user through the input unit 15-4.

FIG. 13A illustrates an example in which the plug module identification information can be set using the numeric keys 271. After the user presses the 'setting' key, the user inputs a number of digits and presses the 'setting' key again. When pressed, the input number can be configured to be set as plug module identification information.

The type or input method of the numeric keys 271 may be configured in various ways as necessary.

FIG. 13B illustrates an example configured to set plug module identification information using a dip (DIP) switch, and a user moves a predetermined number of dip switches 273-1 to 273-k in a down / up direction. The identification information of the plug module 15 can be set. In this case, assuming that k dip switches are provided, ^2k different plug identification information may be set.

The communication unit 15-5 may transmit and receive data with the meter 14 through the first communication network 17-1.

The communication unit 15-5 may be configured in various ways according to which communication method to communicate with the meter 14.

For example, the communication unit may be configured to communicate through a power line communication (PLC), a Bluetooth communication network, a Zigbee communication network, and the like.

The switch 15-3 connects or disconnects between the fastener 15-1 of the plug module 15 and the fastening pin 15-2 under the control of the controller 15-7 to supply power to an individual device. To be connected or disconnected.

The control unit 15-7 controls the communication unit 15-5 to provide information on the amount of power detected through the sensor 15-6, plug module identification information set through the input unit 15-4, or information on power supply necessity. Periodically transmit via

In addition, the controller 15-7 controls the switch 15-3 according to a remote control command received from the meter 14 through the communication unit 15-5 so that power to an individual device is connected or disconnected. .

It is to be understood that the present invention is not limited to the above-described embodiment, and various changes and modifications may be made by those skilled in the art without departing from the technical spirit of the present invention. to be.

11: power supply company 12: power supply line
14: meter 15: plug module
15-1: Fastener 15-2: Fastening Pin
15-3: switch 15-4: input
15-5: communication unit 15-6: sensor
15-7: Control Unit 16: Individual Instruments
17-1: first communication network 17-2: second communication network
18: Home Management Device 18-1: IHD
18-2: Personal Computer 19: Remote Management Server
21,23: power monitoring system
211: communication means 213: registration means
215: device control means
217-1: Power Profile Database
217-2: Matching database
217-3: Control Condition Database
231: outlet 233: power connector

Claims (18)

In the power monitoring system,
A plug module installed between the outlet and the power connector, between the power plug and the power connector of the individual device, or between the outlet and the power plug of the individual device to sense an amount of power of the individual device and transmit it to the meter through the first communication network;
A meter for receiving power amount information from the plug module and transmitting the power amount information to a remote management server through a second communication network; And
Remote management server for distinguishing the individual devices to be used by comparing the power information received from the meter with the power profile stored in the database, matching and storing the corresponding plug module and the individual devices, and transmits a remote control command for each device Including,
The plug module is configured to enable a user to set identification information of the plug module. In the power monitoring system,
A plug module installed between the outlet and the power connector, between the power plug and the power connector of the individual device, or between the outlet and the power plug of the individual device to sense an amount of power of the individual device and transmit it to the meter through the first communication network;
A meter for receiving power amount information from the plug module and transmitting the power amount information to an in-house management device through the first communication network; And
In-house management device that distinguishes the individual devices used by comparing the power information received from the meter with the power profile stored in the database, matching and storing the corresponding plug module and the individual devices, and transmits a remote control command for each device Including,
The plug module is configured to enable a user to set identification information of the plug module. The method of claim 2,
The home management apparatus includes an IHD (In Home Display) or a personal computer (Personal Computer). The method according to claim 1 or 2,
The first communication network includes at least one of a power line communication (Power Line Communication), a Bluetooth (Bluetooth) communication network, and a Zigbee communication network. The method of claim 1,
The second communication network includes at least one of a wireless local area network (WLAN), a power line communication network, a Bluetooth communication network, a Zigbee communication network, an internet network, and a mobile communication network. The method according to claim 1 or 2,
A power monitoring system that displays power usage information of an individual device through an IHD (In Home Display) or a personal computer. The method according to claim 1 or 2,
The plug module is configured to enable the user to set the power supply of the individual device connected to the plug module to one of a plurality of levels, the power amount monitoring system. delete The method according to claim 1 or 2,
Identification information of the plug module is a power monitoring system, characterized in that set via a numeric key or a dip (DIP) switch. The method of claim 1,
The remote management server is a power amount monitoring system, characterized in that for transmitting a remote control command for an individual device or a group of individual devices. The method of claim 2,
The indoor management device is a power amount monitoring system, characterized in that for transmitting a remote control command for connecting or disconnecting power to individual devices or groups of individual devices according to the user's settings. The method of claim 1,
The remote management server, the power amount monitoring system, characterized in that to provide an alarm to the user when the matching information of the plug module and the individual device is changed. The method of claim 2,
The indoor management device, the power amount monitoring system, characterized in that to provide an alarm to the user when the matching information of the plug module and the individual device is changed. A plug module for connecting an individual device to a power source,
A sensor for sensing a power amount;
An input unit for inputting plug management information;
Communication unit for transmitting and receiving data with the meter;
A switch for connecting or disconnecting power; And
And a control unit for transmitting the plug management information input through the input unit and the amount of power information detected through the sensor through the communication unit, and controlling the switch according to a remote control command received through the communication unit.
The plug management information may include at least one of identification information of the plug module and information on a power supply need of an individual device connected to the plug module. 15. The method of claim 14,
The plug module is located between the outlet and the power connector, between the power plug and the power connector of the individual device, or between the outlet and the power plug of the individual device. delete 15. The method of claim 14,
The input module is a plug module, characterized in that configured to enable the user to set the power supply of the individual device connected to the plug module to one of a plurality of levels. 15. The method of claim 14,
The input unit is a plug module, characterized in that configured to enable the user to set the identification information of the plug module via a numeric key or a dip (DIP) switch.

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