KR101127391B1 - Power management system and method - Google Patents

Abstract

Power management systems and methods are provided. The power management system managing power provided to a load includes a metering unit measuring an amount of power used in a first load, and a power data receiving unit receiving power usage data about the amount of power used in the second load from a second load. And a power control setting unit that sets a method of controlling power provided to the load based on whether communication with the load is possible, and the set power control method based on the received power usage data and the measured power amount. And a power controller for controlling the power provided to the load, wherein the first load does not communicate with the power management system, and the second load communicates with the power management system. Provide the power management system with data related to power usage.

Description

Power Management System and Method {POWER MANAGEMENT SYSTEM AND METHOD}

The present invention relates to a power management system and method, and more particularly, to differentiate and manage power provided to a load according to whether or not the communication function of the load, and to effectively check the power usage statistics information through the mobile terminal. It relates to a power management system and method.

Recent advances in analog and digital technology have created tremendous energy problems as electronics with advanced features rapidly spread into our homes and workplaces. In particular, when household appliances such as televisions, refrigerators, washing machines, air-conditioning appliances, and the like are not used in the daily life, an enormous amount of standby power of 3.25 trillion won is consumed per year.

In addition, the remote controllers of electric appliances that are widely used in homes are mainly made of remote control products that provide memory functions such as time and operation reservation, and users need to repeatedly plug and unplug the power supply every time they are aware of the waste of power. Because of the inconvenience, most home appliances remain plugged into a power outlet, even when not in use in most homes.

Therefore, power consumption is increasing day by day due to various electric devices, and various technologies for efficient control of electric use have been developed.

Conventionally, the power consumption is measured and monitored for each load, and the power provided to each load is controlled. However, in this case, the power measuring device must be connected to all the loads in the house, which is expensive. In order to perform power control by separately identifying the loads necessary for the operation / management of the house, the user directly connects to the load. There was a hassle to set the power control method for.

Furthermore, in the related art, in order to check the power usage information of each load through the mobile terminal, the mobile terminal user had no choice but to receive the information through the existing wireless network. There was a problem of cost.

Therefore, based on the presence or absence of the communication function, whether or not the load is essential in the home, and based on the power control method is discriminated and set, the power that enables the mobile terminal user to effectively check the power usage information of the load at no additional cost There is a strong demand for a description of management systems and methods.

Some embodiments of the present invention provide a power management system and method that can differentiate and manage the amount of power provided to a load based on the presence or absence of a communication function of the load.

In addition, an embodiment of the present invention, through the user's mobile terminal, it is possible to effectively check the power usage statistics information at no additional cost, and provides a power management system and method for controlling the power provided to the load .

As a technical means for achieving the above-described technical problem, the first aspect of the present invention, the metering unit for measuring the amount of power used in the first load, from the second load, the use of power related to the amount of power used in the second load A power data receiving unit for receiving data, a power control setting unit for setting a method for controlling power provided to the load based on whether communication with the load is possible, and based on the received power usage data and the measured power amount Thus, according to the set power control method, a power control unit for controlling the power provided to the load, the first load does not communicate with the power management system, the second load the power management system Providing data related to power usage to the power management system by communicating with the power supply. Li system can provide.

In addition, the second aspect of the present invention, measuring the power usage of at least one first load, receiving information about the power usage of the second load measured in at least one second load from the second load Setting a method of controlling power provided to the load based on whether communication with the load is possible and based on power usage information of the received second load and measured power usage of the first load. And controlling the power provided to the load according to the set power control method, wherein the first load does not communicate with a power management system, and the second load communicates with the power management system. Providing power related data to the power management system by performing a method of managing power provided to a load. Can be provided.

In addition, the third aspect of the present invention, the power usage for receiving power usage statistics information on the amount of power used in the load connected to the power management system via the power line connected to the power management system while the battery of the mobile terminal is being charged And a display for displaying an information receiving unit and the received power usage statistics on a screen, wherein the power usage statistics information is converted into a signal for power line communication by a charging device connected to the mobile terminal and the power management system. It is possible to provide a mobile terminal for receiving statistical information on the power usage of the load.

According to the problem solving means of the present invention described above, it is possible to distinguish whether or not the load is essential in the home depending on the presence or absence of the communication function of the load, and to set and manage the power control method based on this.

In addition, according to the above-described problem solving means of the present invention, the mobile terminal user can effectively receive and confirm the power usage statistics information of the load without any cost, and can control the power provided to the load without any cost. .

1 is an overall configuration diagram of a power system according to an embodiment of the present invention.
2 is a detailed block diagram of a power control system 3300 according to an embodiment of the present invention.
3 is an example of a power control setting table generated by the power control setting unit 3320 according to an embodiment of the present invention.
4 is a detailed configuration diagram of a power communication device separately connected to a load according to an embodiment of the present invention.
5 is a detailed configuration diagram of a display apparatus 4000 according to an embodiment of the present invention.
6 is a detailed block diagram of a display apparatus 4000 according to another embodiment of the present invention.
7 is a detailed flowchart of a power management method according to whether there is a communication function according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is "connected" to another part, this includes not only "directly connected" but also "electrically connected" with another element in between. . In addition, when a part is said to "include" a certain component, which means that it may further include other components, except to exclude other components unless otherwise stated.

Also, in the present specification, the first load 1000 refers to a load that is connected to the power management system 3000 but does not communicate with the power management system 3000, and the second load 1000 refers to a power management system 3000. As a load connected to the network and performing communication, the load may provide data related to power usage to the power management system 3000.

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

1 is an overall configuration diagram of a power system according to an embodiment of the present invention.

As shown in FIG. 1, a power system according to an embodiment of the present invention includes a plurality of first loads 1000, a plurality of second loads 2000, a power management system 3000, a display device 4000, and Network 5000. In addition, the power management system 3000 includes a power data receiver 3100, a metering unit 3200, and a power control system 3300.

The first load 1000 and the second load 2000 are connected to the power management system 3000, and the power management system 3000 controls the power provided to the first load 1000 and the second load 2000. do.

The first load 1000 includes, for example, a load necessary for operating the building itself, such as a lamp, a fan, a boiler, and the like, and the first load 1000 communicates with the power management system 3000. It does not include the function to do it.

In addition, the second load 2000 measures its own power usage and provides the measured power usage data to the power management system 3000 through a communication function. In addition, the second load 2000 may receive a power control signal from the power management system 3000 to block or adjust power provided to the second load 2000.

The second load 2000 includes a communication unit (not shown) capable of communicating with the power management system 3000, but is not limited thereto and includes a separate power communication device (for example, a power amount measurement function and a communication function). Power supply data to the power management system 3000 through a power strip having a plurality of outlets, and the power provided to the power management system 3000 may be adjusted. In this case, the power communication device separately connected to the load will be described later.

The power management system 3000 measures the power usage of the first load 1000, receives power usage data regarding the amount of power used in the second load 2000 from the second load 2000, and communicates each load. Based on the presence or absence of the function and the power usage information, a power control method, priority, and the like are set and power control is performed.

The power data receiver 3100 receives data about the amount of power used in the second load 2000 from the second load 2000.

The metering unit 3200 measures power consumption used by the first load 1000.

The metering unit 3200 directly measures the power usage of the first load 1000 or measures the total power usage of the home, and the power of the second load 2000 received by the power data receiver 3100 based on the measured value. Power consumption of the first load 1000 may be obtained by subtracting the usage amount.

According to an embodiment of the present invention, in the case of the first load 1000, the power consumption of the entire plurality of first loads 1000 may be measured and managed, and in the case of the second load 2000, the power may be individually managed. Receive and manage power usage. In addition, based on whether or not the load has a communication function, it is possible to distinguish whether the load is an essential load in the home, it is possible to more efficiently manage the power provided to the load.

The power control system 3300 controls the power provided to the first load 1000 and the second load 2000 based on the power usage of the load. The power control system 3300 may set a power control method and priority for each load based on the presence or absence of a communication function of the load. In addition, the power control system 3300 may generate power usage statistics information based on the power usage of each load, and control power provided to each load based on the generated power usage statistics information. In addition, the power control system 3300 may provide power usage statistics information to the display apparatus 4000.

The display apparatus 4000 receives and displays power usage statistics information from the power management system 3000.

The display device 4000 is a terminal including a display screen, and may include one or more terminals of a computer, a notebook computer, a set-top box (STB), or a mobile terminal.

In particular, the display apparatus 4000 may be connected to a charger to receive power usage statistics information from the power management system 3000 through a power line communication method, and display the received information. In particular, when the display apparatus 4000 is a mobile terminal, even if a separate wireless communication function is not used, the power usage statistics information may be received from the power management system 3000 through a power line communication method through a charger. In addition, a user carrying the mobile terminal can check the power usage statistics information through his mobile terminal at any place in the future.

In an embodiment of the present invention, the display apparatus 4000 is described as being connected to the power management system 3000 through a separate network. However, the present invention is not limited thereto and may be included in the power management system 3000.

The network 5000 includes a dedicated line, a LAN, a QAN, a VAN, an intranet, a private telephone network, a public telephone network, a PSTN network, a PLC communication network, and a combination thereof, and each network component illustrated in FIG. 1 communicates smoothly with each other. It is a data network in a comprehensive sense that enables it, and includes wired internet, wireless internet, and mobile wireless network.

Hereinafter, a detailed configuration of the power control system 3300 according to an embodiment of the present invention will be described with reference to FIG. 2.

2 is a detailed block diagram of the power control system 3300 according to an embodiment of the present invention.

As shown in FIG. 2, the power control system 3300 according to an embodiment of the present invention may include a power usage statistics information generator 3310, a power control setter 3320, a power adjuster 3330, and an alarm. The unit 3340 includes a database unit 3350, a control unit 3360, and a transceiver unit 3370.

The power usage statistics information generator 3310 generates power usage statistics information related to the power usage of the load.

The power usage statistics information generator 3310 uses the power usage based on the power usage data of the first load 1000 measured by the metering unit 3200 and the power usage data received from the second load 2000. Statistical information can be generated.

The power usage statistics information generation unit 3310 may generate, for example, statistical information about real-time power usage, daily / week / month / year power usage, and electric charges thereof for the first load and the second load. can do. In addition, the power usage statistics information generation unit 3310 may calculate the estimated power consumption and the estimated electric charge in consideration of factors such as seasons and quarters.

In addition, the power usage statistics information generator 3310 generates power usage statistics information for all the loads in the case of the first load 1000, and power usage statistics information for each load in the case of the second load 2000. Can be generated.

The power control setting unit 3320 sets a method of controlling power provided to the load based on whether a function capable of communicating with the power management system 3000 exists in the load. In addition, the power control setting unit 3320 may set the priority of power control for the load based on the presence or absence of the communication function of the load. The power control setting unit 3320 may perform power control setting based on a user input or set items related to power control according to a preset algorithm. In addition, the power control setting unit 3320 may set items related to control of power provided to the load based on the power control setting information provided from the display apparatus 4000.

The power control setting unit 3320 confirms the presence or absence of a communication function of the load, and in the case of the first load 1000 without the communication function, determines that it is an essential load for operation / management in the house, such as a lamp, a fan, a boiler, Instead of cutting off or adjusting the power provided to the first load 1000, only an alarm may be generated to alert the user. In addition, in the case of the second load 2000 having a communication function, the power control setting unit 3320 may set to cut off the power provided to the second load 2000 or adjust the amount of power.

In addition, the power control setting unit 3320 may compare the power consumption of each load (which may be the power usage of the entire first loads in the case of the first load 1000) and the total power consumption with a preset value. It can be set to control the power provided to the load.

The power control setting unit 3320 may compare, for example, the electric power usage to which the progressive rate plan is applied, or the electric power usage for the rate set by the user, with the estimated electric usage calculated by the electric power usage statistics information generation unit 3310. When the estimated electricity usage exceeds the power usage for the progressive rate plan or the power usage for the set fee, the power provided to the first load 1000 or the second load 2000 may be controlled or set to generate an alarm. have.

In addition, the power control setting unit 3320 sets a maximum use power limit value for each load (it can be basically set in consideration of the limit value of the indoor wiring wire prescribed by the norm), and when the amount of power used in the load exceeds this, In addition, it may be determined that an emergency situation (a situation in which a fire or a breakdown of an electric device is expected due to a sudden increase in the amount of electricity consumed by abnormal use) occurs, and the power control may be urgently performed. In particular, in this case, the power control setting unit 3320 may be configured to block power provided to the second load having the communication function.

The power controller 3330 adjusts the power provided to the load based on the power control setting. When adjusting the power provided to the first load 1000, the power controller 3330 may directly adjust the power provided to the first load 1000, and may adjust the power provided to the second load 2000. In the case of adjusting, the power control signal may be generated and transmitted to the second load 2000 to allow the second load 2000 to adjust the power provided to the second load 2000.

The power controller 3330 may adjust the power provided to the load according to the priority when the estimated electric charge exceeds the set charge value or when the amount of power used by the load exceeds the maximum used power limit.

The power controller 3330 may cut off or adjust the power provided to the second load 2000 when, for example, the estimated electric charge exceeds the set charge value, and the power usage exceeds the maximum used power limit. In this case, power provided to the second load 2000 may be cut off.

In addition, the power controller 3330 may receive a power control command from the display apparatus 4000 and control the power provided to the load based on the power control command.

The alarm generator 3340 generates an alarm for each load based on the power control setting.

The alarm generator 3340 sends an alarm signal corresponding to the load to the display device 4000 when the estimated electric charge exceeds the set charge value or when the amount of power used by the load exceeds the maximum used power limit. Alarms may be generated by the screen and the speaker of the display device 4000.

When the display apparatus 4000 is a mobile terminal, the alarm generator may provide an alarm message to the mobile terminal through a short message service (SMS) or a multimedia messaging service (MMS).

The database unit 3350 stores various information necessary for power control. The database unit 3350 may store power usage and power control setting values of the load.

The controller 3360 controls the operation of the entire power control system 3300, generates power usage statistics information, performs settings related to power control, and adjusts the power provided to the load or alarms based on the set values. The power usage statistics information generator 3310, the power control setting unit 3320, the power controller 3330, the alarm generator 3340, the database unit 3350, and the transmitter / receiver 3370 are controlled to provide the same. .

The transceiver 3370 transmits and receives various information and signals necessary for power control with the second load 2000 and the display apparatus 4000. In particular, the transceiver 3370 may provide power usage statistics information to the mobile terminal connected to the charger through a power line communication method. Therefore, the mobile terminal user can effectively download and store the power usage statistics information on his terminal when charging the mobile terminal even without using a separate wireless communication, and can check his power usage statistics information at any place in the future. It becomes possible.

Hereinafter, the power control setting table generated by the power control setting unit 3320 according to an embodiment of the present invention will be described with reference to FIG. 3.

3 is an example of a power control setting table generated by the power control setting unit 3320 according to an embodiment of the present invention.

As shown in FIG. 3, the power control setting table generated by the power control setting unit 3320 according to an embodiment of the present invention includes a load field 30, a communication function presence field 32, and a power interruption ranking field ( 34) and an alarm occurrence field 36.

In the load field 30, the identification value of the load connected to the power management system 3000 is recorded, and in the communication function presence field 32, whether each function has a function capable of communicating with the power management system 3000 is recorded. do.

In addition, the power cut-off priority 34 field records whether or not to perform power cut-off for each load and the priority of power cut-off, and the alarm generation field 36 records whether to generate an alarm for each load.

As shown in FIG. 3, the power control setting unit 3320 may check whether there is a communication function of each load, and, based on this, in the case of a load having no communication function, the power control setting unit 3320 may be configured to generate only an alarm without performing power interruption. In the case of a load with a communication function, the power cut-off can be set in order of priority.

Therefore, for loads that are essential for operation / management in a house and do not have a communication function, such as a lamp, a fan, a boiler, and the like, the user can directly control the power by generating an alarm rather than a power cut. In the case of such a load, by cutting off the power provided according to the priority, the user can effectively manage the power usage while performing efficient power control.

Hereinafter, a detailed configuration of a power communication device separately connected to a load according to an embodiment of the present invention will be described with reference to FIG. 4.

4 is a detailed configuration diagram of a power communication device separately connected to a load according to an embodiment of the present invention.

According to an embodiment of the present invention, even in the case of a load having no built-in communication function, the power management system 3000 may be connected to the power management system 3000.

As shown in FIG. 4, the power communication apparatus according to an embodiment of the present invention includes a load connecting unit 2100, a load measuring unit 2200 for each load, a power adjusting unit 2300 for each load, a display unit 2400, The controller 2500 and the transceiver 2600 are included.

The load connection unit 2100 is connected to the power plug of the load to provide power of the power system to the load. There may be a plurality of load connection units 2100 in the power communication device, and each may be connected to a load.

The load measuring unit 2200 for each load measures power consumption for each load connected to the power communication device.

The load control unit 2300 for each load receives a control signal related to power regulation from the power management system 3000 and adjusts power provided to the connected load based on the received control signal.

The display 2400 displays power usage for each load.

The controller 2500 controls the operation of the entire power communication device, measures and displays power usage for each load connected to the device, provides measured power usage data to the power management system 3000, and the power management system 3000. Load connection unit 2100, load measurement unit 2200, load control unit 2300, load control unit 2300, display unit 2400, and transmission and reception to cut off the power provided to each load by receiving a signal related to power control from The control unit 2600 is controlled.

The transmitter / receiver 2600 provides power usage of each load to the power management system 3000, and receives and transmits control information from the power management system 3000 to transmit and receive various kinds of information necessary to adjust power provided to each load.

Such a power communication device may be implemented in the form of a multi-outlet including a plurality of outlets.

Hereinafter, a detailed configuration of the display apparatus 4000 according to an exemplary embodiment of the present invention will be described with reference to FIG. 5.

5 is a detailed block diagram of the display apparatus 4000 according to an exemplary embodiment.

As illustrated in FIG. 5, the display apparatus 4000 according to an exemplary embodiment may be connected to the power management system 3000 through a separate charging device 5000, and may include a power line communication (PLC) communication unit (PLC). 4100, a power usage information receiver 4200, a database unit 4300, and a display unit 4400.

The PLC communication unit 4100 transmits and receives various information with the power management system 3000 through a power line communication method. The PLC communication unit 4100 may convert various types of information and signals to transmit and receive data to and from the power management system 3000 through a power line communication method.

The power usage information receiver 4200 receives power usage statistics information from the power management system 3000.

The power usage information receiver 4200 may be connected to the power management system 3000 through the charging device 5000 connected to the display apparatus 4000 to receive power usage statistics information through a power line communication method. Accordingly, the power usage information receiver 4200 may efficiently receive power usage statistics information through the power line and update the received power usage statistics information while the display apparatus 4000 is being charged.

The database unit 4300 stores various pieces of information necessary to display the received power usage statistics information and the power usage information.

The display unit 4400 displays information on power usage of each load on the screen.

Therefore, in particular, when the display apparatus 4000 is a mobile terminal, information related to power consumption of a load in the home may be received and stored from the power management system 3000 while the terminal is being charged, and the user may store the mobile terminal. Through this, it is possible to freely check the stored power usage statistics anywhere in the future. In addition, the mobile terminal can more efficiently receive power usage statistics information through a power line connected to a charger without using a separate wireless communication means.

Hereinafter, a detailed configuration of the display apparatus 4000 according to another exemplary embodiment of the present invention will be described with reference to FIG. 6.

6 is a detailed block diagram of a display apparatus 4000 according to another embodiment of the present invention.

As illustrated in FIG. 6, the display apparatus 4000 according to another exemplary embodiment of the present invention may include a power usage information receiver 4010, a display 4020, a power control input processor 4030, and a database 4040. ) And the controller 4050.

In addition, the display apparatus 4000 may be connected to the power management system 3000 through a separate charging device 5000 including a power line communication (PLC) communication unit 5100, and in this case, the charging device 5000. The PLC communication unit 5100 included in the power management system 3000 and the display apparatus 4000 may convert various types of information and signals to transmit and receive in a power line communication method.

The power usage information receiver 4010 receives power usage statistics information from the power management system 3000.

The power usage information receiver 4010 may be connected to the power management system 3000 through the charging device 5000 connected to the display apparatus 4000 to receive power usage statistics information through a power line communication method. The power usage information receiver 4010 may efficiently receive power usage statistics information through the power line while the display apparatus 4000 is being charged, and may update the received power usage statistics information.

The display unit 4020 displays information on power usage of each load on the screen based on the received power usage statistics information. The display 4020 may provide a separate user interface (UI) on a screen so that a user may input a signal related to power control.

The power control input processor 4030 receives a user input related to power control and provides information or a signal related to power control to the power management system 3000.

The power control input processor 4030 may receive an input related to power control from a user and store the received power control input in a database 4040 which will be described later. In addition, the power management system 3000 may provide the power management setting information or the power control command to the power management system 3000 so that the power management system 3000 can control the power provided to the load in the home.

The power control input processor 4030 may determine whether the display apparatus 4000 is connected to the charging apparatus 5000 to enable power line communication with the power management system 3000, and the display apparatus 4000 may be the charging apparatus 5000. During the charging process, the stored power control signal may be provided to the power management system 3000 through a power line communication method.

The database unit 4040 stores power usage statistics information and power control information (control setting information, control commands, etc.).

The database unit 4040 may receive and store power usage statistics information while the display apparatus 4000 is being charged, so that the user may check the stored power usage information in any place in the future.

In addition, since the database unit 4040 stores user input related to power control, the database unit 4040 may provide the stored power control signal to the power management system 3000 while the display apparatus 4000 is charged in the future.

The controller 4050 controls the operation of the entire display apparatus 4000, receives power usage statistics information from the power management system 3000, displays information on power usage of each load on a screen, and is input from a user. The power usage information receiver 4010, the display unit 4020, the power control input processor 4030, and the database unit may provide a power control signal to the power management system 3000 based on an input related to the power control. Control 4040.

According to another embodiment of the present invention, since the charging device 5000 performs the signal conversion for power line communication, even if the configuration or design of the existing display device 4000 is not changed in hardware, the existing display device ( By installing only separate software in the 4000, the existing display apparatus 4000 may receive and display power usage statistics information from the power management system 3000, and provide the power management system 3000 with information for power control. It becomes possible.

In addition, the software installed in the display device 4000 may receive power usage statistics information through a specific pin of a data jack connecting the display device 4000 and the charging device 5000, or transmit the power setting information to the power management system 3000. ) Can be provided.

In particular, when the display apparatus 4000 is a mobile terminal, while charging the mobile terminal, information related to the power consumption of the load in the home may be received and stored from the power management system 3000, and the user may store the information through the mobile terminal. In addition, it is possible to freely check stored power usage statistics information and input control commands anywhere in the future. Furthermore, the user may predefine power control settings or commands even in a situation where the mobile terminal is not connected to the charging device 5000, and when the charging device 5000 and the mobile terminal are connected later, the power management system 3000 Can provide a control setting or a control command, so that power control can be effectively performed.

In addition, the mobile terminal can more efficiently receive power usage statistics information through a power line connected to a charger without using a separate wireless communication means.

Hereinafter, a power management method according to the presence or absence of a communication function according to an embodiment of the present invention will be described with reference to FIG. 7.

7 is a detailed flowchart of a power management method according to whether there is a communication function according to an embodiment of the present invention.

Step S700 is a step of receiving power usage data from the second load 2000.

In operation S700, data regarding power usage of the second load 2000 may be received from the second load 2000. The second load 2000 may communicate with the power management system 3000, measure its own power usage, and provide the measured power usage data to the power management system 3000. The second load 2000 includes a communication unit (not shown) for communicating with the power management system 3000, but is not limited thereto. The second load 2000 may use power to the power management system 3000 through a separate power communication device. You can provide data or adjust the power provided to you.

Step S702 is a step of measuring the power usage used in the first load 1000.

The first load 1000 includes, for example, a load used to operate the building itself, such as a light, a fan, a boiler, and the like, and does not include a function of communicating with the power management system 3000.

In step S702, the power usage of the first load 1000 is directly measured, or the total power usage of the home is measured, and the power usage of the second load 2000 received in step S700 is subtracted from the measured value to the first load. The power consumption of 1000 can be obtained.

Step S704 is a step of generating and displaying power usage statistics information.

In step S704, the power usage statistics information may be generated based on the power usage data received from the second load 2000 in step S700 and the power usage of the first load 1000 measured in step S702.

In operation S704, statistical information regarding the real-time power consumption, daily / weekly / monthly / yearly electric power usage, and electricity charges thereof may be generated for the first load and the second load. In consideration of the above, the estimated power consumption and the estimated electric charge can be calculated.

In operation S704, power usage statistics information may be generated for the plurality of loads in the case of the first load 1000, and power usage statistics information may be generated for each load in the case of the second load 2000.

In addition, the generated power usage statistics information may be provided to the mobile terminal connected to the charging device by the power line communication method while the battery of the mobile terminal is being charged.

Step S706 is a step of setting a power control method for each load based on the presence or absence of a communication function of the load. In operation S706, the power control method may be set to cut off the power provided to the load, adjust the amount of power provided to the load, or generate an alarm in response to the load.

In step S706, in the case of the first load 1000 that cannot communicate with the power management system 2000, it is determined that the load is essential for operation / management in the house, such as a light bulb or a boiler, and does not perform power cutoff or power regulation. Instead, it can be set to alert the user by generating only an alarm. In addition, in the case of the second load 2000 having a communication function, the second load 2000 may be determined to be a general electric device, and may be configured to cut off the power provided to the corresponding load or adjust the amount of power.

Step S708 is a step of setting the power control priority of each load based on the presence or absence of the communication function of the load.

In step S708, it is possible to set in what order power control is to be performed according to the set power control method based on whether the load has a communication function. In step S708, for example, the power interruption order of the load and the power adjustment order of the load may be set for the second load 2000 having the communication function.

Step S710 is a step of controlling the power provided to the load based on the power usage information and the set value.

In operation S710, the power consumption and total power usage of each load may be compared with a preset value, and based on this, the power provided to each load may be controlled.

In step S710, for example, the amount of power applied to the progressive plan is compared with the estimated power consumption, and when the estimated power usage exceeds the amount of power applied to the progressive plan, the power provided to the load may be controlled or an alarm may be generated. have.

In step S710, the maximum power limit value set for each load or the total load is compared with the amount of power used or the total amount used in each load, and an emergency situation (such as a fire and a breakdown of an electric device due to a sudden increase in the amount of electricity used due to abnormal use) is detected. Power control may be urgently performed when an expected situation) occurs. In particular, in this case, the power provided to the second load with the communication function can be cut off first.

One embodiment of the present invention may also be embodied in the form of a recording medium including instructions executable by a computer, such as program modules, being executed by a computer. Computer readable media can be any available media that can be accessed by a computer and includes both volatile and nonvolatile media, removable and non-removable media. In addition, computer readable media may include both computer storage media and communication media. Computer storage media includes both volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data. Communication media typically includes computer readable instructions, data structures, program modules, or other data in a modulated data signal such as a carrier wave, or other transmission mechanism, and includes any information delivery media.

The above description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

1000: first load 2000: second load
3000: Power management system 3100: Power data receiver
3200: metering unit 3300: power control system
3310: power usage statistics information generating unit 3320: power control setting unit
3330: power control unit 3340: alarm generating unit
3350: database unit 3360: control unit
3370: transceiver

Claims (18)

In the power management system for managing the power provided to the load,
Metering unit for measuring the amount of power used in the first load,
A power data receiver configured to receive, from a second load, power usage data relating to the amount of power used in the second load;
A power control setting unit for setting a method of controlling power provided to the load based on whether communication with the load is possible;
A power controller configured to control power provided to the load according to the set power control method based on the received power usage data and the measured power amount;
A power usage statistics information generation unit generating statistical information related to power usage for the load based on the received power usage data and the measured power amount
Including;
The first load does not communicate with the power management system, the second load communicates with the power management system to provide data related to power usage to the power management system,
The power usage statistics information is provided to the mobile terminal through power line communication while the battery of the mobile terminal connected to the charging device is being charged.
The method of claim 1,
The power control setting unit further sets a priority of power control for the load based on whether communication with the load is possible.
The method of claim 1,
The set power control method may include at least one of a method of cutting off power provided to the load, a method of reducing power provided to the load, and a method of generating an alarm corresponding to the load. system.
The method of claim 3, wherein
And the power control setting unit is configured to generate an alarm for the first load and to cut off or reduce power for the second load based on whether communication with the load is possible.
delete The method of claim 1,
A plurality of first loads are connected to the metering unit,
A plurality of second loads are connected to the power data receiver,
The power usage statistics information generator may generate statistical information regarding power usage of the entire first loads for the first loads and based on the first loads for the first loads, and the second loads for the second loads. And generate statistical information about the power usage of each of the two loads.
The method of claim 1,
The power usage statistics information includes information on one or more of real-time power usage, daily / week / month / year-based power usage, electricity rates related to the power usage, estimated power usage, and estimated electricity rates. Management system.
delete The method of claim 1,
The metering unit,
Measuring the power usage of the entire load, subtracting the power usage received from the second load from the measured value, and measuring the power usage of the first load.
The method of claim 1,
The power data receiving unit receives the power usage data from the second load through a separate outlet device,
The outlet device includes a plurality of outlets, the power management system for measuring the power consumption for each of the second load connected to the outlet via a power plug.
In the method for managing the power provided to the load,
Measuring power usage of the at least one first load,
Receiving information from the second load about power usage of the second load measured at one or more second loads,
Setting a method of controlling power provided to the load based on whether communication with the load is possible;
Controlling the power provided to the load according to the set power control method based on the received power usage information of the second load and the measured power usage of the first load,
Generating power usage statistics information for the load based on the received power usage information and the measured power amount;
And
Providing the generated statistical information to the mobile terminal connected to the charging device by the power line communication method while the battery of the mobile terminal is being charged.
Wherein the first load does not communicate with a power management system, and the second load provides data related to power usage to the power management system by communicating with the power management system. Way.
The method of claim 11,
And setting the power control method further includes setting a priority of power control for the load based on whether communication with the load is possible.
The method of claim 11,
The power control method includes at least one of shutting off power provided to the load, reducing power provided to the load, or generating an alarm corresponding to the load.
The method of claim 13,
The setting of the power control method may include setting an alarm for the first load and cutting off or reducing power for the second load based on whether communication with the load is possible. Power management method.
delete A mobile terminal for receiving statistical information about power usage of a load,
While the battery of the mobile terminal is being charged, the power usage information receiving unit for receiving the power usage statistics information on the amount of power used in the load connected to the power management system through the power line connected to the power management system;
A display unit for displaying the received power usage statistics on the screen
Including;
The power usage statistics information is converted into a signal for power line communication by the charging device connected to the mobile terminal and the power management system.
17. The method of claim 16,
The power usage statistics information is converted into a signal for power line communication by a power line communication modem included in the charging device.
17. The method of claim 16,
A power control input processing unit which receives a user input for controlling the power provided to the load and provides power control setting information or a control command to the power management system based on the input;
Database unit for storing the power control setting information or control command
More,
And the power control input processing unit provides the stored power control setting information or a control command to the power management system through the charging device while the battery of the mobile terminal is being charged.

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