JP2013211718A - Energy management device, control method for energy management device, control program, and energy management system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an energy management device capable of presenting information on a state of energy consumption useful to a user with respect to a plurality of electrical apparatuses.SOLUTION: An energy management device comprises: an acquisition unit for acquiring information on energy consumption from a plurality of electrical apparatuses; a display unit for displaying the acquired information on energy consumption of the plurality of electrical apparatuses; a storage unit for storing action attribute information associated with at least one or more user actions for each electrical apparatus; and a processor for making the display unit display the information on the energy consumption of the plurality of electrical apparatuses acquired through the acquisition unit. For each action attribute information stored in the storage unit, the processor makes the display unit display information on energy consumption of an electrical apparatus associated with the corresponding action attribute information in a lump.

Description

  The present invention relates to a power management apparatus that manages power information related to power consumption in at least one electrical device, a control method for the power management apparatus, a control program, and a power management system.

  In recent years, from the viewpoint of environmental protection and energy problems, efforts have been made to raise awareness of energy saving (hereinafter also referred to as “energy saving”) of electrical equipment (mainly home appliances) used in the home. Energy saving is intended to reduce energy consumption by efficiently using energy or suppressing the consumption of excess energy. As a system for supporting such efforts, HEMS (Home Energy Management System) has been put into practical use. By using such HEMS, home power management and power control can be performed more easily.

  In order to realize energy saving, first, it is necessary to measure the state of power consumption in electrical equipment. In this regard, the power management system disclosed in Japanese Patent Application Laid-Open No. 2011-120428 (Patent Document 1) measures power for each branch breaker, groups the results, and displays a list of power usage. It is shown.

JP 2011-120428 A

  However, in the power management system disclosed in the above-described Japanese Patent Application Laid-Open No. 2011-120428 (Patent Document 1), power measurement is performed for each branch breaker, and data is acquired and displayed according to the installation status of the branch breaker. Therefore, it is impossible to acquire power consumption data for each electrical device and display information related to the power consumption state useful for the user.

  The present invention has been made to solve such a problem, and an object of the present invention is to provide a power management apparatus capable of presenting information related to a state of power consumption useful for a user regarding a plurality of electrical devices. It is to provide a control method, a control program, and a power management system for a power management apparatus.

  A power management device according to an aspect of the present invention provides an acquisition unit that acquires information about power consumption from a plurality of electrical devices, a display unit that displays information about the acquired power consumption of the plurality of electrical devices, and each electrical device A storage unit that stores behavior attribute information associated with at least one user's behavior, and a processor that causes the display unit to display information related to power consumption of the plurality of electrical devices acquired via the acquisition unit. The processor collectively displays information related to the power consumption of the electrical equipment associated with the corresponding behavior attribute information for each behavior attribute information stored in the storage unit.

  Preferably, in response to the instruction, the processor displays information regarding each power consumption for each electric device associated with the behavior attribute information.

  Preferably, the processor can accept an instruction of a process for controlling each electric device, and outputs an instruction to collectively control each electric device associated with the behavior attribute information in response to the predetermined instruction. To do.

  Preferably, a processor displays the object which shows the information regarding the power consumption of the associated electric equipment corresponding to the action attribute information provided so that selection instruction | indication was possible.

  Preferably, the power management apparatus further includes an interface that receives an output from a sensor that detects the presence of a person, and the processor determines whether or not each electrical device associated with the behavior attribute information is operating, When it is determined that all are operating, it is determined whether or not a person is present based on the output from the sensor, and when it is determined that a person is present based on the output from the sensor, After determining that the associated predetermined action is being executed and determining that the predetermined action is being executed, each of the action attribute information associated with the action attribute information is determined based on the sensor output. It is determined whether or not at least a part of the electrical equipment is operating, and when it is determined that at least a part is operating, predetermined information is displayed.

  A control method for a power management apparatus according to an aspect of the present invention includes a step of acquiring information on power consumption from a plurality of electric devices, and a step of displaying information on the acquired power consumption of the plurality of electric devices. In the device, behavior attribute information associated with at least one user's behavior is preset, and the step of displaying is related to the power consumption of the electrical device associated with the corresponding behavior attribute information for each behavior attribute information. Including displaying information collectively.

  A control program for a power management apparatus according to an aspect of the present invention is a control program for a power management apparatus having a display unit, the step of acquiring information about power consumption from a plurality of electrical devices, A step of displaying information on power consumption, and each electrical device is pre-set with behavior attribute information associated with at least one user's behavior, and the step of displaying corresponds to each behavior attribute information. Causing the computer to execute processing including a step of collectively displaying information related to the power consumption of the electrical equipment associated with the behavior attribute information to be performed.

  A power management system according to an aspect of the present invention includes a plurality of electrical devices and a power management device that manages the plurality of electrical devices. The power management device includes at least one acquisition unit that acquires information about power consumption from a plurality of electrical devices, a display unit that displays information about the acquired power consumption of the plurality of electrical devices, and at least one for each electrical device. A storage unit that stores behavior attribute information associated with the user's behavior, and a processor that causes the display unit to display information related to the power consumption of the plurality of electrical devices acquired via the acquisition unit. A processor displays collectively the information regarding the power consumption of the electric equipment linked | related with corresponding action attribute information for every action attribute information memorize | stored in the memory | storage part.

  Information regarding the state of power consumption useful for the user is presented for a plurality of electrical devices.

It is a schematic diagram which shows the whole structure of the power management system 1 according to embodiment of this invention. It is a schematic diagram which shows the hardware constitutions of the home controller 100 according to embodiment of this invention. It is an external view of the measuring device 400 according to embodiment of this invention. It is a schematic diagram which shows the hardware constitutions of the measuring device 400 according to embodiment of this invention. It is a figure explaining the household appliance monitor screen displayed on the display 103 of the home controller 100 according to embodiment of this invention. It is a figure explaining operation for displaying the detailed screen regarding the power management object according to embodiment of this invention. It is a figure explaining the detailed screen regarding the power management object according to embodiment of this invention. It is a figure explaining the collective operation screen regarding the power management object according to the embodiment of the present invention. It is a figure explaining the individual operation screen regarding the electric equipment object according to embodiment of this invention. It is a figure which shows an example of the user interface screen which concerns on operation of the setting registration provided in the home controller 100 according to embodiment of this invention (the 1). It is a figure which shows an example of the user interface screen which concerns on operation of the setting registration provided in the home controller 100 according to embodiment of this invention (the 2). It is a figure which shows an example of the user interface screen which concerns on operation of the setting registration provided in the home controller 100 according to embodiment of this invention (the 3). It is a figure which shows an example of the user interface screen which concerns on operation of the setting registration provided in the home controller 100 according to embodiment of this invention (the 4). It is a figure which shows an example of the user interface screen which concerns on operation of the setting registration provided in the home controller 100 according to embodiment of this invention (the 5). It is a figure which shows an example of the screen which concerns on operation etc. of the setting registration of the power management object provided in the home controller 100 according to embodiment of this invention (the 1). It is a figure which shows an example of the screen which concerns on the operation etc. of the setting registration of the power management object provided in the home controller 100 according to embodiment of this invention (the 2). It is a figure which shows an example of the screen which concerns on operation etc. of the setting registration of the power management object provided in the home controller 100 according to embodiment of this invention (the 3). FIG. 20 is a diagram showing an example of a screen related to an operation for setting and registering a power management object provided in the home controller 100 according to the embodiment of the present invention (No. 4). FIG. 20 is a diagram showing an example of a screen related to a power management object setting registration operation and the like provided by the home controller 100 according to the embodiment of the present invention (No. 5). FIG. 20 is a diagram showing an example of a screen related to a power management object setting registration operation and the like provided in the home controller 100 according to the embodiment of the present invention (No. 6). FIG. 20 is a diagram showing an example of a screen related to an operation for setting and registering a power management object provided in the home controller 100 according to the embodiment of the present invention (No. 7). FIG. 20 is a diagram showing an example of a screen related to an operation for setting and registering a power management object provided in the home controller 100 according to the embodiment of the present invention (No. 8). It is a figure which shows an example of the screen which concerns on operation etc. of the setting registration of the power management object provided in the home controller 100 according to embodiment of this invention (the 9). FIG. 20 is a diagram showing an example of a screen related to a power management object setting registration operation and the like provided in the home controller 100 according to the embodiment of the present invention (No. 10). It is a figure which shows an example of the screen which concerns on operation etc. of the setting registration of the power management object provided in the home controller 100 according to embodiment of this invention (the 11). It is a figure which shows an example of the screen which concerns on operation etc. of the setting registration of the power management object provided in the home controller 100 according to embodiment of this invention (the 12). It is a figure which shows an example of the screen which concerns on operation etc. of the setting registration of the power management object provided in the home controller 100 according to embodiment of this invention (the 13). It is a figure explaining the action list | wrist with which each electric equipment and the action attribute were matched. It is a main flowchart explaining the display process of home controller 100 according to the embodiment of the present invention. It is a flowchart explaining the display process of the management screen according to embodiment of this invention. It is a flowchart explaining the display process of the household appliance monitor screen according to embodiment of this invention. It is a flowchart explaining the object selection process according to the embodiment of the present invention. It is a schematic diagram which shows the whole structure of the power management system 1 # according to embodiment of this invention according to the modification of embodiment of this invention. It is a flowchart which performs the display control using the human sensitive sensor etc. according to embodiment of this invention. It is a figure explaining the display of the notification to forget to erase according to embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same parts are denoted by the same reference numerals. Their names and functions are also the same. Therefore, detailed description thereof will not be repeated.

<Configuration of power management system>
The power management system according to the present embodiment includes a power management device, and the power management device manages power information related to power consumption in at least one electrical device. Note that a photovoltaic power generation device, a fuel cell, and the like may be managed. In this case, the power management system according to the present embodiment generates power in addition to or in place of power consumption. You may manage the electric power information about.

  In the present specification, the power information is a concept including various information related to power consumption / power generation in a corresponding electric device (electric appliance).

  Hereinafter, a power management system including one or a plurality of electric devices used in a house will be described as an example. However, the present invention is not applied only to such a power management system. In other words, the present invention can be applied to any configuration as long as information on power consumption is measured using a measuring instrument or the like.

  In the present specification, the electric device is a concept including both a device that operates with electric power supplied from the outside and a device that generates electric power with some energy. Houses include houses and offices.

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

  Referring to FIG. 1, power management system 1 according to the present embodiment is installed in a house such as a house or an office. More specifically, the power management system 1 includes a plurality of home appliances as electric devices that consume power.

  Although not limited to these in FIG. 1, as home appliances, an air conditioner (air conditioner) 200A, a television 200B, a microwave oven 200C, a refrigerator 200D, a lighting fixture 200E, and a water heater installed in a house are used. 200F (these are also collectively referred to as “home appliance 200”) and the like are illustrated. The power management system 1 also includes a solar power generation device 200X as an electric device that generates electric power, and a storage battery 200Y that stores and discharges electric power. Storage battery 200Y may be installed in a house or the like, or may be a storage battery for automobiles that is also used as a storage battery for housing.

  Furthermore, the power management system 1 is connected to a photovoltaic power generation apparatus 200X, a storage battery 200Y, a power system (such as commercial power provided by a power company), and a distribution board 300, and is a power conditioner for controlling each power. Including 200Z. The power conditioner 200Z balances the generated power from the solar power generation device 200X, the charge / discharge power with the storage battery 200Y, and the purchased power from the power system from the viewpoint of efficiency, and then through the distribution board 300. Then, electric power is supplied to each electric device 200 through the connected power line 402. The distribution board 300 supplies power to the water heater 200F through another path branched from the power line 402. A current sensor 302 is provided between the distribution board 300 and the water heater 200F, and the electric power supplied to the water heater 200F can be measured using the current sensor 302. In addition, the water heater 200F is provided with a flow rate sensor 304 for measuring the flow rate discharged from the water heater 200F. By using the current sensor 302 and the flow sensor 304, the discharged flow rate can be converted into power consumption or power consumption.

  Furthermore, the power management system 1 is a power management device for monitoring and controlling the measuring instruments 400A to 400E, the solar power generation device 200X, the storage battery 200Y, the hot water heater 200F, the power conditioner 200Z, and the like associated with the electric device 200. A certain home controller 100 is included. The home controller 100 includes measuring devices 400A to 400E, a current sensor 302, a flow sensor 304, a solar power generation device 200X, a storage battery 200Y, and a power conditioner 200Z that are associated with the electric device 200 via a wired or wireless network 401. Data communication is possible with

  An arbitrary network can be used as the network 401. For example, Ethernet (registered trademark), PLC (Power Line Communications), or the like can be used as long as it is a wired network. In addition, for a wireless network, for example, a wireless local area network (LAN), ZigBee (registered trademark), Bluetooth (registered trademark), an infrared communication method, or the like conforming to the IEEE 802.11 standard can be used. Further, a plurality of communication methods may be combined.

  The measuring device 400 is associated with one of the electric devices 200, measures information regarding power consumption in the associated electric device 200, and transmits the measurement information to the home controller 100. Typically, as the measuring instrument 400, a power consumption measuring device that is disposed between the power line 402 and the plug of the electric device 200 and measures the state of power consumption is used.

  The hot water heater 200F is not associated with the measuring device 400, but the measurement results of the current sensor 302 and the flow rate sensor 304 are transmitted to the home controller 100 as described above. The home controller 100 can obtain information on power consumption by converting into power consumption or power consumption based on the measurement results of these sensors.

  In the example shown in FIG. 1, five measuring devices 400 </ b> A to 400 </ b> E are electrically connected to the power line 402. Plug 250A of air conditioner 200A is connected to measuring instrument 400A, plug 250B of television 200B is connected to measuring instrument 400B, and plug 250C of microwave oven 200C is connected to measuring instrument 400C. The plug 250D of the refrigerator 200D is connected to the measuring device 400D, and the plug 250E of the lighting fixture 200E is connected to the measuring device 400E. Therefore, measuring instruments 400A-400E measure information about power consumption in air conditioner 200A, television 200B, microwave oven 200C, refrigerator 200D, and lighting fixture 200E, respectively.

In addition, about the water heater 200F, the information regarding power consumption is measured using a sensor.
The home controller 100 stores information related to power consumption transmitted from the measuring device 400 associated with each electrical device 200 in the hard disk 109.

  The home controller 100 provides a user interface that presents to the user the state of power consumption / generation in the power management system 1 and accepts instructions regarding power management in the power management system 1 from the user.

  The home controller 100 can also display a graph related to power consumption based on information related to power consumption stored in the hard disk 109. Home controller 100 may be a portable type, may be detachable from a base arranged on a table, or may be fixed to a wall of a room.

  In this example, the configuration in which the home controller 100 acquires data by performing data communication with each measuring device has been mainly described. However, a server that collects data (not shown) is provided, and the server communicates with each measuring device. Thus, the data can be stored, and the home controller 100 can obtain the data stored in the server.

  Next, the hardware configuration of the home controller 100, which is a main power management apparatus in terms of configuring the power management system 1 shown in FIG. 1, will be described.

<Home controller 100>
FIG. 2 is a schematic diagram showing a hardware configuration of home controller 100 according to the embodiment of the present invention.

  2, home controller 100 includes a CPU (Central Processing Unit) 101 that is a processor, a touch panel 102 including a display 103 and a tablet 104, operation buttons 105, a communication interface 106, an output interface 107, An input interface 108, a hard disk 109, a memory 110, and a speaker 111 are included.

  The CPU 101 is a processing entity that controls the overall processing in the home controller 100, and provides various functions as described below by executing a program stored in advance in the memory 110 or the like. In response to a user operation input from the tablet 104 or the operation button 105, the CPU 101 executes a process instructed by the user operation. Such instructions include instructions for operation / stop for the electric device 200, instructions for changing the control mode for the power conditioner 200Z, instructions for displaying the current or past power management state, and the like.

  The touch panel 102 is a device that provides a user interface, presents various types of information to the user in accordance with instructions from the CPU 101, and outputs instructions input from the user to the CPU 101. More specifically, the display 103 includes, for example, an LCD (Liquid Crystal Display) or an organic EL (Electro Luminescence) display, and displays an image on its display surface. The tablet 104 detects a touch operation with a user's finger or the like, and outputs a coordinate value indicating a position where the touch operation is performed to the CPU 101. In the present embodiment, a tablet 104 is provided in association with the display surface of the display 103. However, the home controller 100 does not necessarily need to include a touch panel, and only needs to be able to present various types of information to the user.

  The operation buttons 105 are input means for accepting user operations, and typically one or more are arranged on the surface of the home controller 100. Typically, the operation button 105 includes a plurality of buttons and keys such as a determination button, a return button, a direction button, and a numeric keypad. When the operation button 105 receives a user operation, the operation button 105 outputs information indicating the user operation to the CPU 101.

  The communication interface 106 performs data communication with the measuring device 400, the solar power generation device 200X, the storage battery 200Y, the power conditioner 200Z, and the like according to a command from the CPU 101. More specifically, the communication interface 106 includes the Ethernet (registered trademark), the PLC (Power Line Communications), the wireless LAN (Local Area Network) conforming to the IEEE 802.11 standard, the ZigBee (registered trademark), as described above. Bluetooth (registered trademark), an infrared communication system, or the like is used.

  The output interface 107 mediates exchange of internal commands between the CPU 101 and the display 103. The input interface 108 mediates exchange of internal commands between the tablet 104 and / or the operation buttons 105 and the CPU 101.

  The hard disk 109 stores various data necessary for information processing in the home controller 100. Details of the various data will be described later.

  The memory 110 is realized by a RAM (Random Access Memory) that is a volatile storage device, a ROM (Read-Only Memory) that is a nonvolatile storage device, and the like. Store the necessary work data.

  The speaker 111 is an audio device, and outputs audio according to a command from the CPU 101. The clock 112 is a time measuring means and responds to the CPU 101 with the current date and time according to a command from the CPU 101.

  The hard disk 109 and / or the memory 110 may be realized using a storage medium connected via a communication interface. As such storage media, semiconductor memories such as flash memory, mask ROM, EPROM (Electronically Programmable Read-Only Memory), EEPROM (Electronically Erasable Programmable Read-Only Memory), IC (Integrated Circuit) card, CD-ROM (Compact Disc-Read Only Memory) and optical disc storage media such as DVD-ROM (Digital Versatile Disk-Read Only Memory), magneto-optical disc storage media such as MO (Magnetic Optical Disc) and MD (Mini Disc), FD ( Magnetic storage media such as Flexible Disk), magnetic tape, and cassette tape can be used.

  Information processing in the home controller 100 is realized by the CPU 101 executing a program in cooperation with peripheral hardware components. Generally, such a program is installed in advance in the memory 110 or the like.

  Such a program can be provided by being stored and distributed in an arbitrary storage medium. Alternatively, such a program can be provided by downloading from a server device (or other device) connected to the Internet or the like. That is, the program stored in the storage medium is read out, or the program is acquired by downloading from the server device and temporarily stored in the memory 110 or the like. The CPU 101 expands the program stored in the memory 110 into an executable format and then executes the program. Storage media for storing such programs include semiconductor memory media such as flash memory, mask ROM, EPROM, EEPROM, and IC card, optical disk storage media such as CD-ROM and DVD-ROM, and optical media such as MO and MD. Magnetic storage media such as magnetic disk storage media, FD, magnetic tape, cassette tape, etc. can be used.

  Furthermore, instead of installing the program in advance in the memory 110 or the like, the CPU 101 may read and execute a program stored in another system or apparatus.

  Furthermore, after a program read from a storage medium or the like is written to a memory or the like mounted on a function expansion board or function expansion unit mounted on the computer, it is stored in the function expansion board or function expansion unit according to the program. The function according to the present embodiment may be realized by performing all or a part of the necessary processing by a mounted arithmetic unit (CPU or the like).

  Furthermore, not only the functions according to the present embodiment are realized by the CPU 101 executing the program, but also all or part of the processing required by the OS (operating system) executed on the computer according to the program. By performing the above, the function according to the present embodiment may be realized.

  When the function according to the present embodiment is realized by the software as described above, the program itself read from the storage medium or the like, or the storage medium storing the program constitutes one embodiment of the present invention. Become.

  In this specification, the program includes not only a program that can be directly executed by the CPU 101 but also a program in a source program format, a compressed program, and an encrypted program.

<Measurement device 400>
FIG. 3 is an external view of measuring instrument 400 according to the embodiment of the present invention. Here, FIG. 3A shows a perspective view including the socket 4001 of the measuring instrument 400, FIG. 3B shows a side view of the measuring instrument 400, and FIG. A perspective view including a plug 4002 of the container 400 is shown.

  Referring to FIGS. 3A to 3C, measuring instrument 400 is arranged to be inserted between a socket for supplying power flowing through power line 402 and a plug of electric device 200. . More specifically, referring to FIG. 3A, a plug insertion socket 4001 is provided on the surface 4051 of the measuring instrument 400. On the other hand, referring to FIG. 3B and FIG. 3C, a plug 4002 is provided on a surface 4053 which is a surface opposite to the surface 4051 of the measuring device 400. The socket 4001 is plugged into the electric device 200 and the plug 4002 is plugged into a socket (outlet / outlet) for supplying power via a power line 402 provided in the house.

  Since the measuring device 400 is preferably as thin as possible, the thickness of the side surface 4052 is designed to be as small as possible.

  On the surface 4051 of the measuring instrument 400, an LED 4041 and a setting button 4042 are further provided. The LED 4041 displays a data processing state in the measuring device 400. More specifically, the LED 4041 varies the presence / absence of lighting, the presence / absence / cycle of blinking, the emission color, and the like according to the data processing state. The setting button 4042 is an input means for accepting a user operation. When the setting button 4042 is operated by the user, an initial setting in the measuring instrument 400 is started.

  FIG. 4 is a schematic diagram showing a hardware configuration of measuring instrument 400 according to the embodiment of the present invention.

  Referring to FIG. 4, measuring instrument 400 includes, in addition to socket 4001, plug 4002, LED 4041, and setting button 4042, a pair of main wirings 4004 and 4005 that electrically connect socket 4001 and plug 4002, A shunt resistor 4003 inserted in the wiring 4005, a power supply unit 4007, a power detection unit 4010, a communication module 4020, and an antenna 4030 are included.

  The power detection unit 4010 detects power flowing from the plug 4002 to the socket 4001. More specifically, the power detection unit 4010 includes a voltage input ADC (Analog to Digital Converter) 4011, a current input ADC 4012, a multiplier 4013, and a digital / frequency conversion unit 4014.

  Voltage input ADC 4011 is connected to main wirings 4004 and 4005 via wirings V1P and V1N, respectively. The voltage input ADC 4011 outputs a digital signal indicating a voltage (potential difference) generated between the main wirings to the multiplier 4013.

  The current input ADC 4012 is electrically connected to both ends of the shunt resistor 4003 inserted in the main wiring 4005 via the wirings V2P and V2N. The shunt resistor 4003 is a minute (several hundred micro Ω) resistor used for measuring a flowing current value. The current input ADC 4012 outputs a digital signal indicating the current value of the current flowing through the shunt resistor 4003 to the multiplier 4013.

  The multiplier 4013 multiplies the digital signal (voltage value) from the voltage input ADC 4011 by the digital signal (current value) from the current input ADC 4012, and a value obtained as a result (power consumption / unit: W or kW). Is output to the digital / frequency converter 4014.

  The digital / frequency converter 4014 converts the digital signal from the multiplier 4013 into a frequency signal, and outputs the resulting frequency signal to the communication module 4020.

  The power supply unit 4007 supplies power to each component of the measuring device 400. The power supply unit 4007 is connected to the main wirings 4004 and 4005, and uses part of the power flowing from the plug 4002 to the socket 4001 as power for operation of the measuring device 400. The power supply unit 4007 converts the AC power into DC power, and then supplies the DC power to the power detection unit 4010 and the communication module 4020.

  The communication module 4020 transmits a radio signal indicating the power consumption in the electric device connected to the socket 4001 calculated by the power detection unit 4010 via the antenna 4030. More specifically, the communication module 4020 includes a CPU 4021, a ROM 4022, a RAM 4023, a GPIO (General Purpose Input / Output) 4024, and a wireless RF (Radio Frequency) unit 4025.

  The GPIO 4024 receives the frequency signal input from the digital / frequency conversion unit 4014 and outputs information on the frequency signal to the CPU 4021.

  The CPU 4021 converts the frequency signal information from the GPIO 4024 according to a predetermined logic, and outputs the result to the wireless RF unit 4025. The wireless RF unit 4025 generates a wireless signal by modulating a carrier wave based on a data conversion result from the CPU 4021. A wireless signal generated by the wireless RF unit 4025 is transmitted via the antenna 4030.

  The CPU 4021 implements the processing as described above by executing a program stored in the ROM 4022 in advance. The RAM 4023 stores work data necessary for the CPU 4021 to execute the program.

<Measurement information>
The measuring device 400 basically measures the power consumption (unit: W or kW) consumed by the connected electrical device. By integrating the power consumption over a predetermined time, the power consumption amount (unit: Wh or kWh) of the electric device is calculated.

  The home controller 100 can display both the power consumption and the power consumption of each electric device. Further, a plurality of electric devices are grouped, and the power consumption and power consumption for the entire group are displayed.

  Therefore, an example of mounting measurement information about the corresponding electrical device 200 transmitted from the measuring device 400 is as follows (however, it is not limited to the following example).

  (1) The measuring device 400 measures the power consumption in the electric device 200 every predetermined cycle (for example, every second), and transmits the measured power consumption as measurement information in the same transmission cycle as the measurement cycle.

  (2) The measuring device 400 measures the power consumption in the electric device 200 every predetermined cycle (for example, every second), and is measured between the previous transmission and the current transmission at a transmission cycle longer than the measurement cycle. The plurality of power consumptions are transmitted as measurement information.

  (3) The measuring device 400 measures the power consumption in the electric device 200 at predetermined intervals (for example, every second), and is measured between the previous transmission and the current transmission at a transmission cycle longer than the measurement cycle. The average power consumption obtained by averaging the plurality of power consumptions is transmitted as measurement information.

  (4) In (2) or (3), transmission is performed after adding to the measurement information a power consumption amount obtained by integrating a plurality of power consumptions measured from the previous transmission to the current transmission. Furthermore, you may add the average value, minimum value, maximum value, etc. of some power consumption.

  Although time information acquired by the measuring device 400 by some means may be added to the measurement information, generally, when the home controller 100 receives the measurement information, the time at that time is acquired from the clock 112, The data is stored in the hard disk 109 in association with the received measurement information.

  An arbitrary protocol can be adopted for exchanging measurement information between the home controller 100 and the measuring device 400. Typically, a configuration is adopted in which the measuring device 400 broadcasts a packet including its own measurement result, and the home controller 100 receives this packet. However, the home controller 100 may periodically poll each measuring device 400.

<Home appliance monitor screen>
FIG. 5 is a diagram illustrating a home appliance monitor screen displayed on display 103 of home controller 100 according to the embodiment of the present invention.

  Referring to FIG. 5, here, on home appliance monitor screen 500, a plurality of electrical devices are classified by behavior, and for each behavior, a screen in which information regarding power consumption of electrical devices belonging to the behavior is displayed as an object is shown. ing. The information regarding the power consumption of the electric device is based on the measurement information measured by the corresponding measuring device 400 or the like.

  In this example, a plurality of power management objects respectively associated with a plurality of actions are displayed on the touch panel 102. As an example, four power management objects 502 to 508 provided so as to be selectable are provided. The case is shown.

  In addition, a “behavior-specific” button 522 for displaying a power management object associated with each predetermined action is provided, and the case where it is selected is shown.

  In this example, a “register home appliance” button 520 for providing a setting screen for registering an electric device in the power management object is provided. In addition, a setting button 524 for associating the measuring instrument with the electric device is provided.

  In each power management object, for example, information on the power consumption of the electric device belonging to the registered action is shown, and the value of the total power consumption of the electric device group is shown. Note that the display is not limited to the value of power consumption, and may be, for example, the value of the total power consumption (Wh or kWh) of the electrical equipment group or may be displayed together. Any information regarding consumption may be used.

  In the power management object 502, registered electric devices belonging to the action of “watch video” are shown. In this example, as an example, a case where four electric devices “TV”, “recorder”, “speaker”, and “lighting” belonging to the action of “watch video” are registered is shown. And based on the measurement information of the measuring instrument etc. matched with each electric equipment, total power consumption OOW is displayed as information regarding power consumption.

  It should be noted that the power consumption value is not limited to a numerical value and can be easily compared with other power management objects by intuitively grasping the power consumption value using a bar graph.

  In the power management object 504, electric devices that belong to the action of “searching” are shown. In this example, as an example, a case is shown in which two electric devices “air conditioner” and “personal computer” belonging to the action of “searching” are registered. And based on the measurement information of the measuring instrument etc. matched with each electric equipment, total power consumption OOW is displayed as information regarding power consumption.

  In the power management object 506, electric devices belonging to the action of “sleeping” are shown. In this example, as an example, a case where two electric devices “humidifier” and “electric blanket” belonging to the action of “sleeping” are registered is shown. And based on the measurement information of the said measuring instrument etc., total power consumption OOW is displayed as information regarding power consumption.

  In addition, here, a power management object 508 for newly creating that no electrical device is registered is provided. By selecting the power management object 508, power management associated with a new action will be described later. It is possible to create an object.

  The power management objects on the home appliance monitor screen 500 correspond to buttons provided so as to be selectable, respectively. By selecting the power management object (FIG. 6), a detailed screen ( FIG. 7) is displayed.

  As shown in this example, the power management object associated with the predetermined action of the user is displayed, and information related to the power consumption of the electric devices belonging to the power management object provided for each action is displayed in a lump. It is possible to grasp at a glance the state of power consumption with respect to the action taken by the user, and it is possible to provide useful information regarding the state of power consumption.

<Detail screen>
FIG. 6 is a diagram illustrating an operation for displaying a detailed screen related to the power management object according to the embodiment of the present invention.

  As shown in FIG. 6, the respective power management objects 502 to 508 are provided so as to be selectable. In this example, the case where the power management object 502 is selected (tapped) is shown.

  FIG. 7 is a diagram illustrating a detailed screen related to the power management object according to the embodiment of the present invention.

  Referring to FIG. 7, here, an example of a detailed screen 510 related to a power management object according to the embodiment of the present invention is shown, and there is a case where power management object 502 is selected on home appliance monitor screen 500 of FIG. 6. It is shown.

  In the detailed screen 510, here, a case where the electric device objects 512 to 516 are provided is shown.

  Specifically, information on the power consumption of each electric device group belonging to the action of “watch video” in the power management object 502 is expanded to show information on the power consumption for each electric device, that is, the power consumption. Has been. Note that the display is not limited to the value of power consumption, and may be, for example, the value of power consumption (Wh or kWh) of an electric device, may be displayed together with power consumption, or power consumption. Any information may be used as long as the information is related. Further, any information may be displayed as long as the information is related to the electrical equipment such as the operating status, setting status, and usage status of the electrical equipment.

  In this screen, in this example, the electric device object 512 corresponds to the electric device “TV”, and based on the measurement information of the measuring instrument, the power consumption XXW is displayed as information regarding power consumption. Yes.

  The electric device object 514 corresponds to the electric device “recorder”, and displays power consumption OOW as information regarding power consumption.

  Further, the electric device object 516 corresponds to the electric device “speaker”, and power consumption OOW is displayed as information regarding power consumption.

  The electric device object 518 corresponds to the electric device “lighting”, and power consumption OOW is displayed as information regarding power consumption.

  According to the information, information on the power consumption of each electrical device belonging to the power management object, that is, information on power consumption can be easily confirmed on the detailed screen, and power saving can be promoted.

<Batch operation screen>
FIG. 8 is a diagram illustrating a collective operation screen related to a power management object according to the embodiment of the present invention.

  Referring to FIG. 8, here, a case where the power management object 502 is long-touched (long pressed) is shown. In accordance with this operation, a dialog screen 540 for collectively operating electric devices is displayed.

  In this example, the dialog screen 540 is provided with a “turn on / off power” operation instruction, a “mode switching” operation instruction, and a “cancel” operation instruction.

  By selecting an operation instruction on the dialog screen 540 that is a collective operation screen, it is possible to execute control for collectively operating registered electric devices belonging to the power management object 502.

  Specifically, when an operation instruction “turn on / off power” is selected, a control instruction for turning on / off the registered electric devices at once is output from the home controller 100. As a result, it is possible to collectively control the power sources of the registered electrical devices.

  Further, when a “mode switching” operation instruction is issued, for example, a control instruction for switching between the normal mode and the power saving mode is output. As a result, it is possible to collectively control the power modes of the registered electrical devices.

  Further, when a “cancel” operation instruction is issued, the display of the dialog screen 540 ends.

  It is highly convenient because it is possible to easily execute control according to the user's behavior by collectively controlling the electric devices registered in the power management objects for each behavior.

<Individual operation screen>
FIG. 9 is a diagram illustrating an individual operation screen related to the electric device object according to the embodiment of the present invention.

  Referring to FIG. 9, here, a case where a long touch (long press) of electric device object 512 is shown on detailed screen 550 regarding the power management object is shown. In accordance with the operation, a dialog screen 560 for individually operating the electric device is displayed.

  In this example, the dialog screen 560 is provided with a “turn on / off power” operation instruction, a “mode switching” operation instruction, and a “cancel” operation instruction.

  By selecting an operation instruction on the dialog screen 560 which is an individual operation screen, it is possible to execute control for operating the electric device associated with the electric device object 512.

  Specifically, when an operation instruction “turn on / off power” is selected, a control instruction to turn on / off power is output from the home controller 100 for the associated electrical device. Thereby, it is possible to control the power supply of an electric equipment.

  Further, when a “mode switching” operation instruction is issued, for example, a control instruction for switching between the normal mode and the power saving mode is output. Thereby, it is possible to control the power mode of the electric device.

  Further, when a “cancel” operation instruction is given, the display of the dialog screen 560 ends.

It is highly convenient because it controls individual electrical devices and can perform control with a high degree of freedom.
<Measurement device registration operation>
Next, an operation example of setting registration when registering an electrical device corresponding to the measurement device when the electrical device 200 is connected to the measurement device 400 will be described.

  Home controller 100 according to the present embodiment provides a user interface screen for accepting designation of associated electric device 200 for each measuring instrument 400.

  10 to 14 are diagrams showing an example of a user interface screen related to a setting registration operation provided in home controller 100 according to the embodiment of the present invention.

  When the user requests the home controller 100 to start setting registration (for example, selection of the setting button 524 in FIG. 5), a user interface screen 650 as shown in FIG. 10 is presented on the touch panel 102.

  On the user interface screen 650, a list of measuring instruments 400 (indicated as “measuring instruments” in FIG. 10) capable of data communication with the home controller 100 is displayed in a list, and an identification number (see FIG. 10) for each measuring instrument 400 is displayed. In the example shown in FIG. 10, the MAC address), the associated electric device 200 and its installation location are displayed. The processing related to the display of the user interface screen and the measuring instrument registration operation is realized by the CPU 101 executing a program stored in advance in the memory 110 as an example. The user interface screen 650 is based on the measuring instrument correspondence table 150 stored in the hard disk 109 after the following setting registration operation for the measuring instrument is completed.

  The user interface screen 650 includes a replacement button 661, a setting button 662, a delete button 663, and a completion button 664.

  When the user selects the replacement button 661, the information on the associated electric device 200 is switched between the two selected measuring instruments 400 among the measuring instruments 400 displayed in the list (about the user interface for selection). Is not shown). Therefore, it is more convenient when the electric device 200 connected to each other is exchanged between the two measuring devices 400.

  When the user selects the setting button 662, a series of setting operations shown in FIGS. 11 to 14 can be performed.

  In the example with reference to FIGS. 11 to 14 described later, a case where a setting operation is performed on a third measuring device 400 that is not associated with any electrical device 200 will be described.

  When the user selects the delete button 663, the setting information of the electric device 200 associated with the pre-selected measuring instrument 400 is deleted. When the user selects the completion button 664, the user exits the setting registration mode and returns to the home appliance monitor screen (FIG. 5).

  In the user interface screen 650 shown in FIG. 10, when the user selects the third measuring device 400 displayed as a list and selects the setting button 662, the screen transitions to the user interface screen 651 shown in FIG.

  On the user interface screen 651, input of the floor on which the electric device 200 connected to the selected measuring instrument 400 is installed is requested. In the example shown in FIG. 11, the first floor (1F) to the fifth floor (5F) and the rooftop are listed as options. As an example, it is assumed that the priority order is set in advance for the information related to the floor and the priority order is set so that the lower floor is higher in the display format. In this example, a case where priority is set for “floor” as attribute information will be described. However, priority may be set for other attribute information.

  For example, when the user selects the first floor (1F), the screen transitions to a user interface screen 652 shown in FIG.

  The user interface screen 652 requires input of a room (area) where the electric device 200 connected to the selected measuring instrument 400 is installed. In the example shown in FIG. 12, the entrance, living room, kitchen, dining room, study, and children's room are listed as options. For example, when the user selects a child room, the screen transitions to a user interface screen 653 shown in FIG.

  On the user interface screen 653, input of the type of the electric device 200 connected to the selected measuring instrument 400 is requested. In the example shown in FIG. 13, TV, air conditioner, lighting, recorder, and microwave oven are listed as options. For example, when the user selects lighting, a series of setting registration operations is completed. Then, as shown in FIG. 14, the user interface screen 654 presents that information about the electric device 200 input by a series of operations is associated with the third measuring device 400.

  When the association between any of the measuring devices 400 and the electric device 200 is registered by the setting registration operation as described above, the contents of the registration are stored in the measuring device correspondence table 150 of the hard disk 109 of the home controller 100.

  Other electrical devices 200 are set and registered according to the same method. When changing the association between the measuring device 400 and the electric device 200, it is possible to change by changing the replacement process or the above process again.

  The processing associates (associates) the electric device 200 with the measuring device 400 and measures information related to the power consumption of the corresponding electric device using the measuring device. In addition, about the electric equipment which is not linked | related with a measuring device, when installing, a sensor etc. shall be matched with an electric equipment and the information regarding power consumption shall be measured.

<Power management object registration operation>
Next, an operation example for registering an electric device belonging to a power management object will be described.

  Home controller 100 according to the present embodiment provides a setting screen for creating a power management object.

  FIGS. 15 to 27 are diagrams showing an example of a screen related to an operation for setting and registering a power management object provided in home controller 100 according to the embodiment of the present invention.

  For example, when the user selects the “by action” button 522 in FIG. 5 for the home controller 100 and no power management object has been created, a power management object as shown in FIG. A setting screen 570 is presented on the touch panel 102.

  The screen 570 is provided with a power management object 572 for creating a new power management object. By selecting the power management object 572, a power management object associated with a new action can be created. It is.

  When a power management object 572 is selected (tapped) on the screen 570 as shown in FIG. 16, a screen 580 for setting a new power management object name is displayed as shown in FIG.

  On the screen 580, a software keyboard 584 is displayed, and a power management object name can be set by inputting characters into a predetermined input area of the power management object 582. In this example, as an example, it is assumed that a power management object related to the action of “watch video” is set by inputting characters using the software keyboard 584.

  In FIG. 18, when power management object 592 relating to the action of “watch video” is provided and displayed on screen 590, power management object 594 for creating a new power management object is displayed. It is shown.

  As shown in FIG. 19, when “Register Home Appliance” button 520 is selected (tapped) on screen 590, screen 600 in FIG. 20 is displayed.

  In the screen 600 of FIG. 20, the user can select and register the listed electric device object for the power management object 602 related to the action of “watch video”. Specifically, the selected electric device object is dragged and dropped to be registered in the power management object related to the “watch video” action. Here, as an example of the electric equipment object, a case where an electric equipment object of “TV” is registered is shown.

  In addition, although the electric equipment object currently displayed by the list in FIG. 20 has shown the thing with which the measuring device 400 demonstrated above and the electric equipment 200 were matched, the measuring device 400, such as a water heater, is shown. It is assumed that an item that is not associated is associated with a sensor or the like and can be selected from a list display.

  The screen 610 of FIG. 21 shows a case where the “television” electric device object is registered in the power management object 612 related to the action of “watch video”. And the power consumption of the electric equipment which belongs to the power management object 612 regarding the action of “watch video” is displayed. It is to be noted that the action registered to the electrical device object 614, that is, whether it belongs is also displayed.

  In this example, the case where “watch video” is displayed on the electric device object of “TV” is shown. Thus, the user can easily grasp which electric device is associated with the power management object related to the action.

  According to the same method, four electric devices “TV”, “recorder”, “speaker”, and “lighting” are registered in the power management object 622 related to the action of “watch video” in the screen 620 of FIG. The case is shown. And the information regarding the total power consumption of the electric equipment group which belongs to the power management object concerned is displayed collectively. Each electrical device object indicates which action is registered (associated action name).

  By this operation, it is possible to execute setting registration of the power management object. Other power management objects are set and registered by the same operation.

On the other hand, an operation for deleting an electrical device registered in the power management object is also possible.
In the screen 610 of FIG. 23, when deleting an electric device registered in the power management object 612 related to the action of “watch video”, an electric device in the power management object 612 is selected and the power management object outside the power management object 612 is selected. It is possible to delete it by dragging and dropping it. In this example, a case where “TV” is selected and deleted as an electrical device is shown. In that case, the power consumption displayed on the power management object is updated.

  In addition, one electric device object can be registered not only in a power management object related to one action but also to a power management object related to a plurality of actions.

  In the screen 630 of FIG. 24, the case where the same electric equipment is registered in the power management object regarding each action is shown.

  Specifically, a case is shown in which “lighting” electrical devices are registered in the power management objects related to the actions of “watching video”, “searching”, and “sleeping”. At that time, the power consumption is added as a total with the other electric devices of the respective power management objects. In addition, the power consumption of “lighting” may be added as it is, or when registered in three power management objects, the power consumption is added by dividing equally (in this example, three equal parts). You may make it do.

  It is also possible to register a power management object related to a certain action as a part of a power management object related to another action.

  As shown in the screen 640 of FIG. 25, the case where the power management object related to the action “watch video” is dragged and dropped and registered in association with the power management object related to the action “check” is shown. In the screen 660 of FIG. 26, the case where the object “watch video” is registered in the power management object related to the action of “searching” is shown.

  That is, it is possible to provide a power management object related to one comprehensive action and register the power management objects related to individual specific actions in association with each other. With this operation, it is possible to observe the behavior in a macro manner, and it is possible to promote power saving.

  FIG. 27 shows a detail screen 670 of the power management object related to the action of “checking”. As described above, a detailed screen is displayed by selecting (tapping) a power management object related to the action of “checking”. In this example, an action object “watch video”, an electric device object “computer”, and an electric device object “air conditioner” are shown, and each power consumption is displayed.

  It should be noted that by further selecting (tapping) an action object “watch video”, an electrical device object belonging to the action object is displayed.

  FIG. 28 is a diagram illustrating an action list in which each electric device is associated with an action attribute.

  Referring to FIG. 28, here, four electric devices “TV”, “recorder”, “speaker”, and “lighting” are shown, and each is registered in the action of “watch video”. The case is shown. Specifically, in the screen 620 of FIG. 22, the action list is generated by being registered in the power management object related to the action of “watch video”.

  Note that the number of behavior attributes is not limited to one, and a plurality of behavior attributes may be registered. For example, with regard to “lighting” in FIG. 24, attribute information of “watch video”, “do an investigation”, and “sleep” is registered as the behavior attribute.

  In addition, as the attribute information related to the action, “watching video”, “checking”, “sleeping” has been described, but not limited to this, for example, “playing a game”, “taking a bath”, “ Various actions such as “cooking” and “reading” can be used as attribute information.

<Display processing of home controller 100>
FIG. 29 is a main flowchart illustrating display processing of home controller 100 according to the embodiment of the present invention. This processing is mainly performed by the CPU 101 in cooperation with the display 103 or the like based on data stored in the memory 110 and the hard disk 109. The same applies to the following flows.

  Referring to FIG. 29, first, it is determined whether or not the power is turned on (step S2). Specifically, it is determined whether a power button (not shown) provided in the home controller 100 is selected and the power is turned on.

  If it is determined in step S2 that the power supply has been turned on (YES in step S2), then information relating to power consumption is acquired (step S4).

  Next, a management screen display process is executed (step S6). Details of the management screen display processing will be described later.

  Next, it is determined whether the operation is finished (step S8). If it is determined in step S8 that the operation has ended (YES in step S8), the process ends (END).

  On the other hand, if it is determined in step S8 that the operation has not ended, the process returns to step S4 and the above processing is repeated. For example, when the operation is finished, when a power button (not shown) is selected again, the process is finished.

  In this example, a case where various processes are executed by automatically starting and executing a program stored in the memory 110 or the like when the power button is pressed will be described. It is also possible to start a program and execute various processes. The same applies to the following processing.

  FIG. 30 is a flowchart illustrating management screen display processing according to the embodiment of the present invention.

  Referring to FIG. 30, first, a home appliance monitor screen is displayed (step S10). Specifically, the home appliance monitor screen described in FIG. 5 is displayed based on the measurement information from the measuring instrument. Details of the display process will be described later.

  Next, it is determined whether or not a power management object is selected (step S12). Specifically, it is determined whether or not a power management object has been selected on the home appliance monitor screen described with reference to FIG.

  If it is determined in step S12 that a power management object has been selected (YES in step S12), a process (object selection process) corresponding to the object selection is executed (step S14). Details of the object selection processing will be described later.

Then, the process ends (return).
On the other hand, if it is determined that no power management object has been selected (NO in step S12), it is determined whether or not the other function button has been selected (step S16).

  If it is determined in step S16 that the other function button has been selected (YES in step S16), a screen corresponding to the other function button is displayed (step S18). For example, when there is a selection (tap) such as a “by room” button or a “by device” button on the screen of FIG. 5, display processing corresponding to the button is executed. For example, information about power consumption collected by room is displayed. Alternatively, when the “register home appliance” button is selected, it is possible to execute an operation such as registration of a power management object described with reference to FIG.

Then, the process ends (return).
On the other hand, when it is determined that no other function button has been selected (NO in step S16), the process returns to step S12 again.

  FIG. 31 is a flowchart illustrating a home appliance monitor screen display process according to the embodiment of the present invention.

  Referring to FIG. 31, first, the behavior attribute information is confirmed (step S20). Specifically, the behavior list in which the electric device described in FIG. 28 and the behavior attribute are associated is referred to.

  Next, an electrical device associated with the behavior attribute information is specified (step S22). For example, in the example of FIG. 28, “television”, “recorder”, “speaker”, and “lighting” are registered as electrical devices associated with the action attribute information of “watch video”.

  Next, information on power consumption is displayed for each behavior attribute information (step S24). Specifically, a power management object for each action is displayed as shown in the screen of FIG. As an example, in each power management object, the electric devices belonging to the power management object are displayed, and the total power consumption of the electric device group is collectively displayed.

Then, the process ends (return).
FIG. 32 is a flowchart illustrating object selection processing according to the embodiment of the present invention.

  Referring to FIG. 32, it is determined whether or not a long press has been selected (step S30). Specifically, it is determined whether or not the long press selection (long touch) described with reference to FIG. 8 is performed on the power management object.

  If it is determined in step S30 that the long press has been selected (YES in step S30), a collective operation screen is displayed (step S32). As described with reference to FIG. 8, the dialog screen 540 is displayed as the collective operation screen.

  Next, it is determined whether or not there is an operation (step S34). It is determined whether or not there is an operation instruction on the dialog screen 540.

  If it is determined in step S34 that there is an operation (YES in step S34), the process proceeds to the next step S36, and control corresponding to the operation is executed (step S36). For example, when an operation instruction “turn on / off power” is selected on the dialog screen 540, for example, a control instruction to turn on or turn off all the registered electrical devices is output from the home controller 100. Is done. As a result, it is possible to collectively control the power sources of the registered electrical devices.

Then, the process ends (return).
On the other hand, if the long press selection is not made in step S30 (NO in step S30), a detailed screen is displayed (step S38). Specifically, when a power management object is selected (tapped) as shown in FIG. 6, the electric device objects belonging to the power management object are displayed as shown in FIG. 7.

  Next, it is determined whether or not long press selection has been made on the detailed screen (step S40). Specifically, as shown in FIG. 8, it is determined whether or not the long press selection (long touch) described in FIG.

  If it is determined in step S40 that the long press has been selected (YES in step S40), an individual operation screen is displayed (step S42). As described in FIG. 9, the dialog screen 560 is displayed as the individual operation screen.

Next, it is determined whether or not there is an operation (step S34).
And it progresses to step S34, it is judged whether there existed operation, and when it is judged that there existed operation, control according to operation is performed (step S36). For example, when an operation instruction “turn on / off power” is selected on the dialog screen 550, for example, a control instruction to turn on / off the corresponding electrical device is output from the home controller 100. As a result, it is possible to control the power supply of the corresponding electrical device.

Then, the process ends (return).
On the other hand, when it is determined in step S40 that it is not the long press selection (NO in step S40), the process proceeds to step S34, and the subsequent processing is the same as described above.

(Other configurations)
FIG. 33 is a schematic diagram showing an overall configuration of the power management system 1 # according to the embodiment of the present invention in accordance with the modification of the embodiment of the present invention.

  Referring to FIG. 33, power management system 1 # is different from power management system 1 in that a human sensor 308 connected to home controller 100 is further added. Since other configurations are the same, detailed description thereof will not be repeated.

  In the power management system 1 #, control based on information from the camera 306 and the human sensor 308 is executed. Specifically, information from the human sensor 308 is input to the home controller 100. Specifically, an interface that is connected to the human sensor 308 and receives an input of a signal from the human sensor 308 is provided, and a signal output from the human sensor is input to the CPU 101 via the interface. The The human sensor 308 is provided for each room (not shown).

  FIG. 34 is a flowchart for executing display control using a human sensor or the like according to the embodiment of the present invention.

  Referring to FIG. 34, first, it is determined whether all home appliances corresponding to the behavior attribute are ON (step S50). Specifically, it is determined whether all electric devices belonging to the power management object related to the predetermined behavior are operating. Whether or not the home controller 100 is operating may be determined by the home controller 100 or may be determined based on the power consumption value.

  Next, it is determined whether or not the sensor is on (step S54). Specifically, it is determined whether or not a human sensor in a room where an electrical device belonging to a power management object related to a predetermined action is placed is on.

  If it is determined that the sensor is on (YES in step S54), it is determined that the behavior attribute is being executed (step S56). That is, it is determined that the predetermined action is being executed.

  Next, it is determined whether or not the sensor is turned off (step S58). That is, it is determined whether or not the human sensor in the room in which the electric device belonging to the power management object related to the predetermined action is placed is turned off.

  Next, it is determined whether or not at least a part of home appliances corresponding to the behavior attribute is ON (step S60). Specifically, it is determined whether or not a part of the electric device belonging to the power management object related to the predetermined action is operating. Whether or not the home controller 100 is operating may be determined by the home controller 100 or may be determined based on the power consumption value.

  If it is determined in step S60 that at least some of the home appliances corresponding to the behavior attributes are turned on, that is, if it is determined that all of the home appliances are not turned off (YES in step S60), there is a person who becomes a user. In spite of not doing, it is determined that the power is on and a forgetting to turn off notification is displayed.

Then, the process returns to step S60.
On the other hand, if it is determined in step S60 that at least some of the home appliances corresponding to the behavior attribute are not turned on, that is, if it is determined that all the home appliances are turned off (NO in step S60), the behavior attribute ends. Is determined (step S62). That is, it is determined that the action of the process has been completed. Then, the process ends (END).

FIG. 35 is a diagram illustrating display of a forgetting to erase notification according to the embodiment of the present invention.
Referring to FIG. 35, on screen 670 on display 103 of home controller 100, a notification message “Recorder is powered on. Would you like to exit?” Is displayed as a notification to forget to turn off.

  The display prompts the user to grasp the electric device forgotten to be turned off, and to turn off the electric device, for example.

  For example, it is assumed that an object “YES” is displayed, and a control instruction to turn off the power is output from the home controller 100 to the “recorder” by selecting the object.

  In other words, in cooperation with the human sensor 308, it is grasped whether or not a predetermined action is being executed, and if it is determined that the predetermined action has not been executed, forgetting to turn it off by notifying an electric device that is turned on Can be notified to the user to improve convenience.

  In the above description, a case has been described in which it is determined whether or not the sensor is turned off in step S58 and the process proceeds to the next step. However, it is also possible to temporarily leave the room. Thus, for example, it may be determined whether the sensor is off for a predetermined period.

  In addition to the human sensor, for example, a camera may be provided to detect the presence or absence of a person from an image captured by the camera.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

  1,1 # power management system, 100 home controller, 101, 4021 CPU, 102 touch panel, 103 display, 104 tablet, 105 operation buttons, 106 communication interface, 107 output interface, 108 input interface, 109 hard disk, 110 memory, 111 speaker , 112 Clock, 150 Measuring instrument correspondence table, 200 Electrical equipment, 308 Human sensor, 700 Repeater.

Claims (8)

An acquisition unit for acquiring information on power consumption from a plurality of electrical devices;
A display unit for displaying information on the power consumption of the acquired plurality of electrical devices;
A storage unit that stores behavior attribute information associated with at least one or more user behaviors for each of the electrical devices;
A processor that causes the display unit to display information related to power consumption of the plurality of electrical devices acquired via the acquisition unit;
The said processor is a power management apparatus which displays collectively the information regarding the power consumption of the electric equipment linked | related with the said corresponding behavior attribute information for every behavior attribute information memorize | stored in the said memory | storage part.   The power management apparatus according to claim 1, wherein the processor displays information related to power consumption for each electric device associated with the behavior attribute information in response to an instruction. The processor is capable of receiving processing instructions for controlling the electrical devices,
The power management apparatus according to claim 1, wherein, in response to a predetermined instruction, an instruction to collectively control each electric device associated with the behavior attribute information is output.   The power management apparatus according to any one of claims 1 to 3, wherein the processor displays an object indicating information related to power consumption of an associated electric device corresponding to the behavior attribute information provided so as to be selectable. . The power management device includes:
An interface for receiving an output from a sensor for detecting the presence of a person;
The processor is
Determining whether each electrical device associated with the behavior attribute information is operating,
When it is determined that everything is operating, it is determined whether or not a person is present by the output from the sensor,
If it is determined that there is a person based on the output from the sensor, it is determined that a predetermined action associated with the action attribute information is being executed,
Whether or not at least a part of each electrical device associated with the behavior attribute information is operating when it is determined that a person is not present by the output of the sensor after determining that the predetermined behavior is being performed Judging
The power management apparatus according to claim 1, wherein when it is determined that at least a part is operating, predetermined information is displayed. Obtaining information on power consumption from a plurality of electrical devices;
Displaying the acquired information on the power consumption of the plurality of electrical devices,
In each of the electrical devices, behavior attribute information associated with at least one user behavior is preset,
The display step includes a step of collectively displaying information related to power consumption of the electrical equipment associated with the corresponding behavior attribute information for each behavior attribute information. A control program for a power management apparatus having a display unit,
Obtaining information on power consumption from a plurality of electrical devices;
Displaying the acquired information on the power consumption of the plurality of electrical devices,
In each of the electrical devices, behavior attribute information associated with at least one user behavior is preset,
The step of displaying includes, for each of the behavior attribute information, a step of collectively displaying information related to power consumption of the electrical equipment associated with the corresponding behavior attribute information, and causing the computer to execute a process. Control program. Multiple electrical devices,
A power management device that manages the plurality of electrical devices;
The power management device includes:
An acquisition unit for acquiring information on power consumption from the plurality of electrical devices;
A display unit for displaying information on the power consumption of the acquired plurality of electrical devices;
A storage unit that stores behavior attribute information associated with at least one or more user behaviors for each of the electrical devices;
A processor that causes the display unit to display information on power consumption of the plurality of electrical devices acquired via the acquisition unit,
The said processor is a power management system which displays collectively the information regarding the power consumption of the electric equipment linked | related with the said corresponding behavior attribute information for every behavior attribute information memorize | stored in the said memory | storage part.

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