JP6516100B2 - POWER MANAGEMENT SYSTEM, POWER MANAGEMENT DEVICE, POWER MANAGEMENT METHOD, AND CONTROL PROGRAM - Google Patents

Description

  The present invention relates to a power management system that outputs information about power generated or used in a facility such as a house, a power management apparatus used in the system, a power management method, and a control program.

  BACKGROUND Conventionally, a HEMS (Home Energy Management System) that performs energy management in a house is known. In the HEMS, the HEMS controller controls one or more HEMS devices in a house via a HAN (Home Area Network) in order to suppress energy consumption and the like. In addition, the HEMS measures, for example, the amount of power used in a house and displays the measurement result on the HEMS device in the house to make the resident aware of the amount of used power. For example, a power consumption display system is known that receives various information from a smart meter, receives power consumption information from each of a plurality of devices, and displays power consumption information and the like on a digital television (see Patent Document 1). In this power consumption display system, power consumption information from a device fixed in advance is used for display.

JP, 2012-181055, A

  By the way, when there are a plurality of measuring devices that measure electric power in facilities such as houses due to additional introduction, etc., the nature of the measurement by each measuring device due to the difference in the installation position of each measuring device, the measurement target part The (eg accuracy) and the measured values may be different from one another.

  An object of the present invention is to provide a power management system which appropriately outputs information by specifying and using an appropriate measurement value from measurement values of power measured by a plurality of measurement devices in a facility. Another object of the present invention is to provide a power management apparatus, a power management method, and a control program which are used in this power management system.

  In order to achieve the above object, a power management system according to an aspect of the present invention includes a plurality of measuring devices for measuring the amount of power generated or used in a facility, and outputs output information regarding the power of the facility. A power management system, comprising: an acquiring unit for acquiring measured values accompanied by type information indicating a type of measurement from each of the plurality of measuring devices by communication; and a predetermined selection algorithm among the plurality of measuring devices A generation unit configured to specify a measurement value measured by each of the selected one or more measurement devices based on the type information and generate the output information using the specified measurement value; and the generation unit generated by the generation unit And an output unit for outputting output information.

  Further, in order to achieve the above object, a power management apparatus according to an aspect of the present invention is a type that indicates the type of measurement by communication from a plurality of measurement devices that measure the amount of power generated or used in a facility. An acquisition unit for acquiring a measured value accompanied by information, and a measured value measured by each of one or more measuring devices selected by a predetermined selection algorithm among the plurality of measuring devices are specified based on the type information. A generation unit that generates output information using the specified measurement value, and an output unit that outputs the output information generated by the generation unit.

  Further, in order to achieve the above object, a power management method according to an aspect of the present invention includes a plurality of measuring devices for measuring the amount of power generated or used in a facility, and output information related to the power of the facility What is claimed is: 1. A power management method for use in a power management system for outputting, comprising: acquiring at each of the plurality of measuring devices by communication, measured measurement values accompanied by type information indicating the type of measurement; A generation step of specifying a measurement value measured by each of one or more measurement devices selected by a predetermined selection algorithm among measurement devices based on the type information, and generating the output information using the specified measurement value; And an output step of outputting the output information generated in the generation step.

  Further, to achieve the above object, a control program according to an aspect of the present invention causes a computer that communicates with a plurality of measuring devices that measure the amount of power generated or used in a facility to execute power management processing. The control program according to claim 1, wherein the power management process includes an acquisition step of acquiring a measured value accompanied by type information indicating a type of measurement from the plurality of measuring devices, and a predetermined selection among the plurality of measuring devices A generation step of specifying measurement values measured by each of one or more measurement devices selected by the algorithm based on the type information, and generating output information using the specified measurement values, and generated in the generation step And an output step of outputting the output information.

  The power management system or the like of the present invention selectively outputs information by selectively using an appropriate measurement value.

FIG. 1 is a schematic configuration view showing a power management system according to a first embodiment. It is a block diagram of a power management device. FIG. 5 is a diagram showing an example of measurement information received by the power management apparatus according to the first embodiment. It is a figure which shows an example of the setting information which a power management apparatus uses. 5 is a flowchart showing an example of a power management process by the power management apparatus according to the first embodiment. It is a figure which shows an example of the screen (electric energy display screen) displayed on a display apparatus. FIG. 7 is a schematic configuration view showing a power management system according to a second embodiment. FIG. 16 is a diagram showing an example of measurement information received by the power management apparatus according to the second embodiment. FIG. 16 is a diagram showing an example of plan correspondence information used by the power management apparatus according to the second embodiment. FIG. 16 is a flowchart showing an example of power management processing by the power management apparatus according to Embodiment 2. FIG. It is a figure which shows an example of the screen (a charge plan A electric energy display screen) displayed on a display apparatus. It is a figure which shows an example of the screen (total electric power consumption display screen) displayed on a display apparatus.

  Embodiments will be described below with reference to the drawings. Each embodiment shown here shows one specific example of the present invention. Accordingly, the numerical values, shapes, materials, components, arrangement and connection forms of the components, and the order of steps (steps) and steps etc. shown in the following embodiments are merely examples and limit the present invention. is not. Among the components in the following embodiments, components not described in the independent claims are components that can be added arbitrarily. Further, each drawing is a schematic view, and is not necessarily illustrated exactly.

Embodiment 1
Hereinafter, a power management system according to an embodiment of the present invention will be described.

(Constitution)
FIG. 1 is a schematic configuration diagram of a power management system 10 according to the first embodiment. The power management system 10 shown in the figure includes a power management device 100 installed in a house 20, a distribution board 200, a power measurement device for measuring power (smart meter) 300 and a display device (tablet etc.) 400, and power management. It comprises the server apparatus 30 which can communicate with the apparatus 100 via the network 31.

  The power management system 10 manages generation and use (consumption) of power in the house 20, and outputs output information regarding the power.

  The distribution board 200 of the house 20 is supplied with power (system power) from a power system that is a facility such as a power company, and the distribution board 200 branches the system power into a plurality of branch circuits. The distribution board 200 includes a master measurement device 210, branch measurement devices 220a and 220b, and the like. The master measurement device 210 is a measurement device including a current sensor attached to a master breaker connected to the power system. Further, each of the branch measurement devices 220a, 220b, etc. is a measurement device that is installed for each branch circuit of one or more branch circuits of the distribution board 200, and includes a current sensor that measures current.

  The power measurement device for use in meter readings (smart meter) 300 is a measurement device installed in the house 20. Specifically, it is a watt-hour meter for measuring the amount of power used in the house 20 as a charging target. , And remote (automatic) meter reading is done by a device such as a power company. The power measurement device 300 for measuring a meter performs measurement of power at a portion closer to the power grid than the distribution board 200.

  The power management apparatus 100 has a function of receiving measurement values of power from various measurement devices that measure the amount of power of power used in the house 20 and outputting information related to the power. The power management apparatus 100 is a computer provided with a processor (microprocessor) 101, a memory 102, and a communication interface (I / F) 103, as shown in FIG. The memory 102 is a ROM that holds programs and data in advance, a RAM for storing data etc. when the program is executed, and may include, for example, a non-volatile memory. The processor 101 executes, for example, a control program stored in the memory 102 to control, for example, the communication I / F 103 and perform various processes. The control program includes a program for executing a power management process (described later). Communication I / F 103 is wireless or wired, and various measurement devices (that is, power measurement device 300 for measuring power, master measurement device 210, branch measurement devices 220a, 220b, etc.), display device 400, and other HEMS devices in house 20. It is a communication circuit which communicates with the like. As a protocol used by the power management apparatus 100 for communication with each apparatus, a predetermined one is used. For example, the network layer is IPv6 (Internet Protocol version 6), the transport layer is UDP (User Datagram Protocol), the application layer is ECHONET Lite (registered trademark) or the like. For example, wireless communication can be performed with the 920 MHz band with the power usage measuring device 300 for meter reading. The communication I / F 103 can also communicate with the server device 30 via the network 31 which may include a wide area network such as the Internet.

  The power management apparatus 100 may have, for example, a function as an HEMS controller, that is, a function of controlling an HEMS device in the house 20. The HEMS device is an electric device that uses power connected to each branch circuit of the distribution board 200, although not shown in FIG. The electric device is, for example, a lighting device, an air conditioner, a television receiver, a refrigerator, an electromagnetic cooker, a charging device of an electric car, and the like. The HEMS device may include, for example, a power supply device (power generation device, power storage device, etc.) or the like in the house 20.

  As illustrated in FIG. 1, the power management apparatus 100 includes an acquisition unit 110, a generation unit 120, an output unit 130, and a reception unit 140 as functional components.

  The acquisition unit 110 is realized by the communication I / F 103, the processor 101 that executes the control program, and the like, and has a function of sequentially acquiring measurement information from each measuring device by communication. Each measurement apparatus has a function of transmitting measurement information to the power management apparatus 100, for example, every predetermined period (for example, every several minutes, every few minutes, etc.). An example of the measurement information received by the power management apparatus 100 is shown in FIG. The measurement information includes a measured value accompanied by type information indicating the type of measurement, and may include, for example, information such as measurement date and time. The measured value is, for example, a power value such as an instantaneous power value or an average power value for a certain period, and may be an integrated power amount or the like. The type of measurement indicated by the type information is an attribute of the measurement value, and, for example, distinguishes the measurement device, the measurement location, and the like. That is, the type information is information used to distinguish each measurement value among a plurality of measurement values and select a specific measurement value. This type information differs, for example, for each measurement point of the power, and in FIG. 3, the measurement value is determined by any of the power measurement device for use in meter reading (smart meter) 300, master measurement device 210, branch measurement device 220a, and branch measurement device 220b. An example is shown that includes information that distinguishes whether it has been measured. The measurement information 40a illustrated in FIG. 3 is the measurement information transmitted by the power usage measurement device 300 for meter reading, and the type indicating the measurement by the power usage measurement device 300 for meter reading “smart meter” and the measured power value ( And 1001 W). The measurement information 40 b is measurement information transmitted by the master measurement device 210 and includes a type “master” indicating measurement by the master measurement device 210 and a measured power value (998 W). The measurement information 40c is measurement information transmitted by the branch measurement device 220a, and includes a type “branch 1” indicating measurement by the branch measurement device 220a and a measured power value (351 W). The measurement information 40d is measurement information transmitted by the branch measurement device 220b, and includes a type “branch 2” indicating measurement by the branch measurement device 220b and a measured power value (550 W). In the type information of the measurement information in the example of FIG. 3, whether the measured value was measured by the power measurement device for measuring the meter or was used by the power measuring device for non-metering use (that is, a measuring device other than the power measuring device for the meter reading) It can be said that it contains information that distinguishes

  The generation unit 120 is realized by the processor 101 that executes a control program, the memory 102, and the like. The generation unit 120 specifies the measurement value measured by each of one or more measurement devices selected by the selection algorithm A among the plurality of measurement devices based on the type information, and generates output information using the specified measurement value. Have a function to The selection algorithm A is measured by condition determination based on, for example, type information, setting information that can be updated by user input, the type of output information to be generated, and whether the measurement value can be acquired by the acquisition unit 110. It is a predetermined selection algorithm for selecting a device. According to the result of the condition determination, the generation unit 120 selects one of the plurality of measurement devices, which is a power measurement device for measuring power for measurement, a master measurement device, and a branch measurement device. Examples of types of output information that can be generated by the generation unit 120 include output information for displaying electric power, output information for displaying power rates, and the like. FIG. 4 shows an example of the setting information described above. In the setting information illustrated in FIG. 4, the measuring device for displaying the amount of power with the highest priority (priority 1), the measuring device for displaying the amount of power with relatively low priority (priority 2), and the power rate For each item of the measuring device for display, an initial value (default value) set in advance is shown. The initial value can be changed (updated) by the user using the display device 400 (tablet or the like) as a user interface of the power management apparatus 100. For display of the amount of power, the power value measured by the power measurement device for use in meter reading (smart meter) 300, the power value measured by the master measurement device 210, and all the branch measurement devices 220a, 220b, etc. Both the total of the measured power values are available. Therefore, the user can specify (input) any one of the smart meter, the master measurement device and the branch measurement device for each item and update the setting information. In addition, about the item of the measuring device for a power rate display, you may prohibit the change by a user. Due to this prohibition, when generating output information for displaying the power rate, the power measurement device for use in meter reading (smart meter) 300 is always selected, and in the generation unit 120, the measured value measured by the power measurement device for power consumption 300 for meter reading is , Will be used to generate output information. As a result, since the amount of power measured as a charge target is used to display the power rate, an appropriate display consistent with the charge amount can be realized.

  The output unit 130 is realized by the communication I / F 103, the processor 101 that executes the control program, and the like, and has a function of outputting the output information generated by the generation unit 120. This output is performed, for example, by transmission of output information to the display device 400 or the like. When the power management apparatus 100 includes a display device such as a liquid crystal display, the output information may be output by displaying the output information on the display device. In addition to transmission and display, the output unit 130 may perform output by reproducing sound indicating output information.

  The receiving unit 140 is realized by the communication I / F 103 and the processor 101 that executes the control program, and receives the information related to the user input from the display device 400 (tablet etc.). Have. When the power management apparatus 100 includes an input device such as a keyboard or a pointing device, the receiving unit 140 receives a user input made through the input device. The information related to the user input is, for example, change of setting information, selection of a screen to be displayed, or the like, and may be used for generation of output information in the generation unit 120.

  The display device 400 is a device serving as a user interface such as a tablet or a smartphone provided with a touch panel including a liquid crystal display, for example. The display device 400 has a function of communicating with the power management apparatus 100, receiving the output information output from the power management apparatus 100, and performing display based on the output information. Further, the display device 400 has a function of transmitting information to the power management apparatus 100 according to a user input (operation) in response to the user input (operation).

  The server device 30 is, for example, a computer having a configuration similar to that of the power management device 100 (see FIG. 2), and is located in a facility outside the house 20, for example, by a power provider, a device manufacturer or an information service provider Operated. The server apparatus 30 can distribute, for example, charge information such as a charge plan and a unit price of the power charge to the power management apparatus 100. The distributed charge information may be received by the power management apparatus 100 and held in the memory 102 or the like, and may be used when the generation unit 120 generates output information for displaying the power charge.

(Operation)
Hereinafter, an operation for outputting the output information on the power consumption and the like in the house 20 by the power management system 10 having the above-described configuration will be described with reference to FIG.

  FIG. 5 is a flowchart illustrating an example of the power management process performed by the power management apparatus 100 in the power management system 10.

  The power management apparatus 100 determines, by the receiving unit 140, whether or not the operation of displaying the power amount has been received (step S11). For example, when information indicating that the power amount display screen is to be displayed is transmitted based on user input (operation) from the display device 400 or the like, the reception unit 140 receives the information to operate the power amount display. It is determined that it has been accepted. In the display device 400 or the like, for example, a menu screen (not shown) including a button for transitioning to a power amount display screen, a button for transitioning to a power rate display screen, and the like as an initial screen for displaying power information. May be displayed. Then, when the button for transitioning to the power amount display screen is pressed (operated), the display device 400 or the like can transmit, to the power management apparatus 100, information indicating that the power amount display screen should be displayed. If the operation of power amount display is not accepted in step S11, power management device 100 does not perform the processing in steps S12 to S17, and whether the operation of power rate display in step S18 is accepted. It moves on to the determination of no. In this example, the power management processing has an event-driven processing structure that performs processing for output when an operation requiring output of some output information is accepted.

  When the operation of power amount display is accepted, the generation unit 120 refers to the setting information (see FIG. 4) by the selection algorithm A and acquires it from the measuring device set as the measuring device for power amount display of priority 1 It is determined whether the part 110 can acquire a measured value (step S12). For example, when the power measurement device for use with a meter reading (smart meter) 300 is set as a measurement device for displaying the amount of power of priority 1, a measurement value accompanied by type information indicating the smart meter by the acquisition unit 110 until now It is determined that acquisition is possible if the measurement information including the above is acquired (received). If the acquisition unit 110 has not acquired (received) the measurement information including the measurement value accompanied by the type information indicating the smart meter so far, it is determined that the acquisition is not possible. As described above, in the selection algorithm A, the measurement device to be selected can be changed according to the introduction status of the measurement device into the house 20, the communication status between the power management device 100 and each measurement device, and the like. In the power management process, the acquisition unit 110 sequentially acquires, by communication, the measured value accompanied by the type information indicating the type of measurement, and stores the measured value in, for example, the memory 102 or the like.

  When it is determined that the measurement value can be acquired from the measurement device set in the item of the measurement device for displaying the amount of power of priority 1, the generation unit 120 selects the measurement device (step S13). Then, the generation unit 120 specifies the measurement value of the measurement information measured by the selected measurement device and acquired by the acquisition unit 110 based on the type information (step S15). In addition, when it is determined that the measurement value can not be acquired from the measurement device set in the item of the measurement device for the power amount display of priority 1, the generation unit 120 performs the measurement for the power amount display of priority 2 The measuring device set in the item of device is selected (step S14). Then, the generation unit 120 specifies the measurement value of the measurement information measured by the selected measurement device and acquired by the acquisition unit 110 based on the type information (step S15). In this example, among the measuring devices included in the power management system 10, the communication status etc. is stabilized and the measurement information can be stably acquired as an item of the measuring device for displaying the electric energy of the priority 2 in the setting information. This is an example on the assumption that a device is specified.

  The generation unit 120 generates power amount display information to be output information using the measurement value specified in step S15 (step S16). The power amount display information is, for example, information indicating each display element (for example, a character string, a button, and the like) that configures a power amount display screen as a graphical user interface (GUI: Graphical User Interface). The power amount display screen may include a character string representing the measured value itself, or may include a display element reflecting the measured value, such as a character string representing a value derived by calculation from the measured value, or the measured value May include display elements that change correspondingly. That is, the power amount display information to be output information is information generated depending on the measured value.

  Subsequently, the output unit 130 outputs the output information by transmitting the power amount display information generated by the generation unit 120 to the display device 400 (step S17). In the display device 400 that has received the power amount display information, a power amount display screen 510 as illustrated in FIG. 6 is displayed. The power amount display screen 510 includes a display element 511 indicating the amount of used power measured in the house 20, a display element 512 indicating the date and time when the measurement was made, a button 513 for transitioning to the power rate display screen, and a menu screen Includes a button 514 for returning to.

  In the power management apparatus 100, the receiving unit 140 determines whether the operation of displaying the power rate has been received (step S18). For example, when information indicating that the power rate display screen is to be displayed is transmitted based on user input (operation) from the display device 400 or the like, the reception unit 140 receives the information to operate the power rate display. It is determined that it has been accepted. When the operation of the power rate display is not accepted, the processing in steps S19 to S22 is not performed.

  When the operation of the power rate display is accepted, the generation unit 120 refers to the setting information (see FIG. 4) by the selection algorithm A, and sets the measuring device set in the item of the measuring device for the power rate display. It selects (step S19). Then, the generation unit 120 specifies the measurement value of the measurement information measured by the selected measurement device and acquired by the acquisition unit 110 based on the type information (step S20). According to the example of FIG. 4, in step S20, the measurement value measured by the power measurement device for use in meter reading (smart meter) 300 is specified.

  The generation unit 120 generates power rate display information to be output information using the measurement value identified in step S20 (step S21). The power rate display information is, for example, information indicating each display element (for example, a character string, a button, and the like) that configures a power rate display screen as a GUI, similarly to the power amount display information. The power rate display screen includes a display element indicating the power rate calculated based on the measurement value and the rate information acquired from the server device 30 or the like.

  Subsequently, the output unit 130 outputs the output information by transmitting the power rate display information generated by the generation unit 120 to the display device 400 (step S22).

  In the power management apparatus 100, the determinations in steps S11 and S18 are repeatedly performed, for example, at fixed time intervals. As a result, since the measurement device of the measurement source of the measurement value to be used is selected, an appropriate measurement value can be specified according to the content etc. to be displayed on the display device 400, and the information can be output appropriately. . That is, the power management system 10 can appropriately output information by the power management method which acquires the measured value measured by the selected measuring device and generates and outputs the output information based on the measured value. In the power management system 10, all or a part of the functions of the generation unit 120 of the power management apparatus 100 may be transferred to the server apparatus 30, and the server apparatus 30 may execute the functions. In the server device 30, for example, measurement values from the measurement device selected by the selection algorithm A may be collected and analyzed to generate and output (transmit, display, etc.) output information indicating an analysis result.

Second Embodiment
Hereinafter, a power management system 10a in which a part of the power management system 10 described above is modified will be described.

(Constitution)
FIG. 7 is a schematic configuration diagram of a power management system 10a according to the second embodiment. The power management system 10a shown in the figure is different from the power management system 10 shown in the first embodiment in the power measurement device for use in meter reading (smart meter for specific part) 301 and the generated power measurement device for meter reading (power generation) This system is a system including a power management apparatus 100a in which a power management apparatus 100 is partially modified by adding a device smart meter 302).

  The power management system 10a manages generation and use (consumption) of power in the house 20, and outputs output information regarding the power. The components of the power management system 10a that are the same as those of the power management system 10 (see FIG. 1) shown in the first embodiment are given the same reference numerals, and the description thereof is omitted here. The power management system 10a is the same as the power management system 10 of the first embodiment in the points not described here.

  In the second embodiment, for example, a heat pump water heater (not shown) is introduced in the house 20, and the surplus power not generated by the solar power generation device (solar cell) or the like and not used for the electric device is We decide to sell to business. The power consumption measuring device 301 for meter reading is a smart meter (smart meter for a specific part) dedicated to a heat pump water heater provided in a specific part of a house 20, that is, a heat pump water heater supplied from an electric power system. It is a watt-hour meter that measures the power consumption. Moreover, the generated power measuring device 302 for meter reading is an watt-hour meter exclusively performing measurement of the electric power (electric power which concerns on a sale of electricity) which generate | occur | produces by a solar power generation device and is supplied to the electric power system of an electric power enterprise. The power measurement device 300 for use in meter reading described in the first embodiment measures the power supplied from the power system to parts other than the heat pump water heater. Here, the power measurement device 300 for use in meter reading is also referred to as a main part smart meter. The power management system 10a includes, as a plurality of measurement devices, a plurality of power measurement devices for meter reading, each of which is a watt-hour meter for measuring the amount of power consumption of each of a plurality of mutually independent parts in the house 20 as charging targets. It will be included. In addition, as a plurality of measurement devices, a power measurement device for measuring a meter, which is a power meter that measures the power consumption in the house 20, and a meter for a meter, which is a power meter that measures the generated power generated by the power generation in the house 20 And a generated power measuring device.

  The power management apparatus 100a receives measurement information from each measurement apparatus as in the power management apparatus 100 described in the first embodiment. An example of the measurement information received by the power management apparatus 100a is shown in FIG. In FIG. 8, the type information of the measurement information is the type of measurement, and the measurement value is the power measurement device for measuring the meter (smart meter for main part) 300, the power measurement device for the meter reading (smart meter for the identification unit) 301, the meter reading An example is shown that includes information for identifying which of the generated power measurement devices (smart meters for power generation devices) 302, the main measurement device 210, the branch measurement device 220a, and the branch measurement device 220b has measured. It can be said that the type information of the measurement information in the example of FIG. 8 includes information that distinguishes whether the measured value is measured by the power measurement device for measuring power or by the generated power measuring device for meter reading. Also, the type information includes information that distinguishes the measured value in the house 20, such as whether it is a specific part (specifying part) or other part (main part) provided with a heat pump water heater. It can be said that. The measurement information 41a illustrated in FIG. 8 is the measurement information transmitted by the power measurement device 300 for measuring the meter, and the type indicating the measurement by the power measurement device 300 for the meter, which is a "smart meter for main part", and measured And the power value (1001 W). The measurement information 41b is measurement information transmitted by the power usage measuring device 301 for meter reading, and indicates the type of measurement by the power measuring device 301 for meter reading “smart meter for specific part” and the measured power value (400 W) And contains. Further, the measurement information 41c is measurement information transmitted by the generated power measurement device 302 for meter reading, and a type indicating “measurement by the generated power measurement device 302 for meter reading” “smart meter for power generator” and a measured power value ( And 330 W). The measurement information 41 d to 41 f is the same as the measurement information 40 b to 40 d shown in FIG. 3.

  In the house 20, it is assumed that power is sold (sold and sold) in accordance with a charge plan A and a charge plan B, which are predetermined based on, for example, a contract with the electric power company and the like. FIG. 9 shows an example of plan corresponding information in which a smart meter used for meter reading for the charge plan is associated with each charge plan. In the example of FIG. 9, the set of the power measurement device for measuring power (smart meter for main part) 300 and the generated power measuring device for meter reading (smart meter for power generating device) 302 is associated with the charge plan A and used for the meter reading A power measurement device (smart meter for identification unit) 301 is associated with the charge plan B. The power management apparatus 100 a stores the plan corresponding information in the memory 102 by user input or the like and uses it for generation of output information.

  The power management apparatus 100a is obtained by partially modifying the acquisition unit 110, the output unit 130, the reception unit 140, and the generation unit 120 of the first embodiment as functional components as shown in FIG. And a generation unit 120a.

  The generation unit 120a is realized by the processor 101 that executes a control program, the memory 102, and the like. The generation unit 120a uses a selection algorithm B, which is a predetermined selection algorithm different from the generation unit 120, to select which measurement device is used to generate output information. That is, the generation unit 120a specifies the measurement value measured by each of the one or more measurement devices selected by the selection algorithm B among the plurality of measurement devices based on the type information, and uses the specified measurement value to output information Have the ability to generate The selection algorithm B is an algorithm for selecting a measuring device based on condition determination based on, for example, type information, the type of output information to be generated, and the like. According to the result of the condition determination, the generation unit 120a selects one of a plurality of measurement devices: a main part smart meter, a specific part smart meter, a power generation device smart meter, a master measurement device, and a branch measurement device. Select one or more measurement devices. As types of output information that the generation unit 120a can generate, for example, output information for displaying the power amount of the charge plan A, output information for displaying the power amount of the charge plan B, and output information for displaying the total used power amount Etc.

(Operation)
Hereinafter, an operation for outputting output information regarding power in the house 20 by the power management system 10a having the above-described configuration will be described with reference to FIG.

  FIG. 10 is a flowchart illustrating an example of the power management process performed by the power management apparatus 100a in the power management system 10a.

  The power management apparatus 100a determines, by the receiving unit 140, whether the operation of displaying the power amount of the charge plan A has been received (step S31). For example, when information indicating that the charge plan A power amount display screen is to be displayed is transmitted from the display device 400 or the like based on user input (operation), the reception unit 140 receives the information and thereby receives the charge plan A. It is determined that the operation of displaying the amount of power is accepted. In the display device 400 or the like, for example, as an initial screen when displaying information on power, a button for transitioning to a charge plan A power amount display screen, a button for transitioning to a charge plan B power amount display screen, all use A menu screen (not shown) including a button or the like for transitioning to the power amount display screen may be displayed. Then, the display device 400 or the like displays information indicating that the charge plan A power amount display screen should be displayed when the button for transitioning to the charge plan A power amount display screen is pressed (operated). Can be sent to If the operation of displaying the power amount of charge plan A is not accepted in step S31, the power management apparatus 100a does not perform the processing of steps S32 to S35, and the power amount of charge plan B in step S36. It moves on to the determination of whether or not the display operation has been accepted. In this example, the power management process has an event-driven process structure.

  When the operation of displaying the amount of power of charge plan A is accepted in step S31, generation unit 120a refers to the plan corresponding information (see FIG. 9) by selection algorithm B, and for meter reading corresponding to charge plan A. A power consumption measuring device (a smart meter for main part) 300 and a generated power measuring device for a meter reading (a smart meter for a power generating device) 302 are selected (step S32). The generation unit 120a specifies the measurement value of each measurement information measured by each of the selected measurement devices and acquired by the acquisition unit 110 based on the type information (step S33). In the power management process, the acquisition unit 110 sequentially acquires, by communication, the measured value accompanied by the type information indicating the type of measurement, and stores the measured value in, for example, the memory 102 or the like.

  Subsequently, the generation unit 120a generates charge plan A power amount display information including power amount, which is output information, by using the measurement values identified in step S33 according to type information and distinguishing them (step S34). . Specifically, the generation unit 120a calculates, for example, the difference between the measurement value measured by the main unit smart meter and the measurement value measured by the power generation device smart meter. Then, charge plan A power amount display information indicating each display element constituting the charge plan A power amount display screen as a GUI for displaying the difference or the like is generated. The charge plan A power amount display screen may include a character string representing each measured value itself, or each measured value such as a character string representing a value derived from each measured value (such as the above difference). It may include a reflected display element or may include a display element that changes corresponding to each measurement value. That is, the charge plan A power amount display information to be output information is information generated depending on each measurement value measured by each measurement device selected in step S32. Each measured value is used as output information in a method according to the type information accompanied by the measured value. For example, the measurement value measured by the smart meter for power generation equipment is calculated with a negative (minus) sign, and the measurement value measured by the smart meter for main part is calculated without a negative sign (that is, a positive value) Is used as output information.

  Subsequently, the output unit 130 outputs the output information by transmitting the charge plan A power amount display information generated by the generation unit 120a to the display device 400 (step S35). In the display device 400 that has received the charge plan A power amount display information, a charge plan A power amount display screen 520 as illustrated in FIG. 11 is displayed. The charge plan A power amount display screen 520 includes display elements 521 to 523 relating to the power amount, a display element 512 indicating the date and time, a button 513 for transitioning to the power rate display screen, and a button 514 for returning to the menu screen. Including. The display element 521 indicates the amount of generated power to be sold for sale as measured by the generated power measuring device for meter reading 302 in the house 20. The display element 522 indicates the amount of used power measured by the power usage measuring device 300 for meter reading. The display element 523 indicates the difference between the amount of power used and the amount of power generated.

  The power management apparatus 100a determines, by the receiving unit 140, whether the operation of displaying the power amount of the charge plan B has been received (step S36). For example, when information indicating that the charge plan B power amount display screen is to be displayed is transmitted from the display device 400 or the like based on user input (operation), the reception unit 140 receives the information and thereby receives the charge plan B. It is determined that the operation of displaying the amount of power is accepted. When the operation of displaying the power amount of charge plan B is not accepted in step S36, the power management apparatus 100a does not perform the processing of steps S37 to S40, and displays the total used power amount display in step S41. It moves on to the determination of whether or not the operation has been accepted.

  When the operation of displaying the amount of power of charge plan B is accepted in step S36, generation unit 120a refers to the plan correspondence information (see FIG. 9) by selection algorithm B, and for meter reading corresponding to charge plan B. The power usage measurement device (smart meter for identification unit) 301 is selected (step S37). The generation unit 120a specifies the measurement value of the measurement information measured by the selected measurement device and acquired by the acquisition unit 110 based on the type information (step S38).

  Subsequently, using the measurement value specified in step S38, the generation unit 120a generates charge plan B power amount display information including power amount, which is output information (step S39). Specifically, the generation unit 120a generates charge plan B power amount display information indicating each display element constituting the charge plan B power amount display screen as a GUI. The charge plan B power amount display screen may include a character string representing the measured value itself, or may include a display element reflecting the measured value such as a character string representing a value derived by calculation from the measured value, It may include a display element that changes in response to the measurement value. That is, the charge plan B power amount display information to be output information is information generated depending on the measured value measured by the measuring device selected in step S37.

  Subsequently, the output unit 130 outputs the output information by transmitting the charge plan B power amount display information generated by the generation unit 120a to the display device 400 (step S40). In the display device 400 that has received the charge plan B power amount display information, a charge plan B power amount display screen including the power amount based on the measurement value measured by the power measurement device for meter reading 301 is displayed.

  The power management apparatus 100a determines, by the receiving unit 140, whether or not the operation of displaying the total amount of used power has been received (step S41). For example, when information indicating that the total power consumption display screen is to be displayed is transmitted based on a user input (operation) from the display device 400 or the like, the receiving unit 140 receives the information to receive the total power consumption. It is determined that the display operation has been accepted. When the operation of displaying the total power consumption is not received in step S41, the power management apparatus 100a does not perform the process of steps S42 to S45.

  When the operation of displaying the total power consumption is accepted in step S41, the generation unit 120a causes the selection algorithm B to use the power measurement device for meter readings (smart meter for main part) 300 and the power measurement device for power consumption for meter readings (smart for identification portion The meter) 301 is selected (step S42). In selection algorithm B, as in the case of selection algorithm A described in the first embodiment, a master measurement device 210 or the like is selected instead of the power measurement device 300 for measuring a meter depending on the communication status with each measurement device. You may do it. Here, the description will be continued on the assumption that the power consumption measuring device 300 for meter reading is selected. The generation unit 120a specifies the measurement value of each measurement information measured by each of the selected measurement devices and acquired by the acquisition unit 110 based on the type information (step S43).

  Subsequently, the generation unit 120a uses the measurement values identified in step S43 according to the type information to calculate the total amount of used electric power in the house 20, reflects the calculation result, and uses all the output information as output information. Power amount display information is generated (step S44). Specifically, the generation unit 120a calculates, for example, the sum of the measurement value measured by the main unit smart meter and the measurement value measured by the identification unit smart meter. Then, the generation unit 120a generates total used power amount display information indicating each display element constituting the total used power amount display screen as a GUI for displaying the total (that is, the used power amount in the entire house 20) and the like. The total power consumption display screen may include a character string representing each measured value itself, or reflect each measured value such as a character string representing a value (such as the sum described above) derived by calculation from each measured value. The display elements may be included, or may be changed corresponding to each measurement value. That is, the total used power amount display information to be output information is information generated depending on each measurement value measured by each measurement device selected in step S42.

  Subsequently, the output unit 130 outputs the output information by transmitting the total used power amount display information generated by the generation unit 120a to the display device 400 (step S45). In the display device 400 that has received the total power consumption display information, a total power consumption display screen 530 as illustrated in FIG. 12 is displayed. The total power consumption display screen 530 has a display element 531 indicating the power consumption of the entire house 20, a display element 512 indicating the date and time, a button 513 for transitioning to the power rate display screen, and a menu screen. Includes button 514.

  In the power management apparatus 100a, the determinations of step S31, step S36 and step S41 are repeatedly performed, for example, every fixed time. As a result, since the measurement device of the measurement source of the measurement value to be used is selected, an appropriate measurement value can be specified according to the content etc. to be displayed on the display device 400, and the information can be output appropriately. . That is, the power management system 10a can appropriately output information by the power management method which acquires the measured value measured by the selected measuring device and generates and outputs the output information based on the measured value. In the power management system 10a, all or part of the functions of the generation unit 120a of the power management apparatus 100a may be transferred to the server apparatus 30, and the server apparatus 30 may execute the functions. In the server device 30, for example, measurement values from the measurement device selected by the selection algorithm B may be collected and analyzed to generate and output (send, display, etc.) output information indicating an analysis result.

(Other embodiments etc.)
Although the power management systems 10 and 10a have been described above in the first and second embodiments, the above-described embodiment is merely an example, and it goes without saying that various modifications, additions, omissions, and the like can be made.

  In the above-mentioned embodiment, although the house 20 was mentioned as an example of a facility, a facility is not restricted to this, An office, a factory, a building, etc. may be sufficient.

  In addition, the acquisition unit 110, the generation units 120 and 120a, and the output unit 130 of the power management apparatus 100 and 100a do not necessarily have to be included in one device, and are distributed to a plurality of devices in the power management system 10 and 10a. It is also good.

  Moreover, in the measurement information shown in the above-described embodiment, the type information accompanied by the measurement value may not necessarily distinguish the measurement point. As the type information, for example, only information that distinguishes whether the measured value is measured by the power measurement device for measuring power or the power measurement device for non-reading operation (that is, a measuring device other than the power measuring device for measurement) It may be included. In this case, when the generation unit 120 uses information on power consumption in the house 20 as output information, the power consumption measuring device for meter reading and the non-meter reading among the plurality of measuring devices according to the predetermined selection algorithm according to the communication status etc. At least one of the power consumption measuring devices may be selected. Further, the type information associated with the measurement value may include information for distinguishing the charge plan for use corresponding to the power measurement device for meter reading in which the measurement value is measured. In this case, for example, in the case where the generation unit 120a uses the information related to the used power related to the specific charge plan as the output information, the power consumption measuring device for meter reading corresponding to the specific charge plan based on the type information May be selected. Further, the type information accompanied by the measurement value may be capable of specifying the type of measurement by combining with information such as a table stored in advance in the power management apparatus 100, 100a.

  Further, as described in the first embodiment, the power management apparatus 100 may always select the power measurement apparatus (smart meter) 300 for use in meter reading when generating the output information for displaying the power rate. In this case, the master measurement device 210 or the branch measurement devices 220a, 220b, etc. may be selected together and the measurement values from these may be used in combination to generate output information.

  Further, in the first embodiment, the apparatus to be selected is determined by determining whether the power management apparatus 100 is a measurement apparatus that has acquired measurement values (connected communicably) (step S12). An example of generating output information based on measured values from the selected device has been shown. In addition to this, the power management apparatus 100 selects the measuring apparatus according to the setting information based on the user input etc., and if the measured value from the selected apparatus can be acquired, the output information is generated. It may not be generated (or output information indicating an error may be generated). Also in the power management apparatus 100a, it may be determined whether or not the measurement apparatus can obtain the measured value, and the measurement apparatus may be selected according to the determination result.

  In the above-described embodiment, an example in which the user input for changing the setting information, the user input for specifying the display, and the like are used to select the measuring device related to the measurement value used to generate the output information in the power management devices 100 and 100a Indicated. In addition, the power management apparatus 100, 100a may have a function of directly receiving a user input for designating a measuring apparatus and selecting the designated measuring apparatus.

  Further, any predetermined selection algorithm (selection algorithm A and selection algorithm B) described above is an algorithm that selects one or more measurement devices from a plurality of candidate measurement devices using condition judgment. It may be.

  In the above embodiment, although the server apparatus 30 distributes the charge information, the user may input the charge information to the power management apparatus 100 or 100a, for example. , 100a.

  Moreover, the execution order of the operation procedure (see FIG. 5 and FIG. 10) of the above-described power management apparatus 100, 100a is not necessarily limited to the order as described above, without departing from the scope of the invention. It is possible to change the execution order or omit part of it. Further, all or part of the above-described operation procedure may be realized by hardware such as the power management device 100 or 100 a, the server device 30, or may be realized using software. The processing by software is realized by a processor included in the power management apparatus 100 or 100 a, the server device 30 or the like executing a control program stored in the memory. In addition, the control program may be recorded on a recording medium and distributed or distributed. For example, by installing the distributed control program in an apparatus and causing the processor of the apparatus to execute the program, it is possible to cause the apparatus to perform, for example, all or part of the power management process described above.

  Further, an embodiment realized by arbitrarily combining the components and the functions shown in the above-described embodiments is also included in the scope of the present invention.

  Note that various aspects of the present invention include one or more combinations of an apparatus, a system, a method, an integrated circuit, a computer program, a computer readable recording medium, and the like.

  Hereinafter, a power management system according to an aspect of the present invention, a power management apparatus used in the power management system, configurations of power management methods and control programs, modifications, effects, and the like will be described.

  (1) A power management system according to an aspect of the present invention includes a plurality of measurement devices (for example, power measurement devices for use in meter reading 300, 301, etc.) that measure the amount of power generated or used in a facility (for example, a house 20). A power management system 10, 10a that includes generated power measuring devices 302 for measuring a meter, a master measuring device 210, branch measuring devices 220a, 220b, etc.) and outputs output information related to the power of the facility. From the acquisition unit 110 for acquiring the measured value accompanied by type information indicating the type of measurement through communication, and the measurement by one or more of the plurality of measuring devices selected by the predetermined selection algorithm. A generation unit 120, 120a that specifies a measurement value based on type information and generates output information using the specified measurement value, and a generation unit And an output unit 130 for outputting the output information generated by 20,120A.

  With this configuration, it is possible to appropriately output information by specifying and using an appropriate measurement value from the measurement values of power measured by a plurality of measurement devices. For example, in the case where a measurement device is additionally introduced to a facility equipped with the measurement device (including the case where the setting etc. is changed so that the measurement value of the existing measurement device can be used), Information can be output appropriately by selecting the measuring device that is the measurement source.

  (2) For example, a plurality of measuring devices are power consumption measuring devices for meter reading 300 which is an electric energy meter for measuring the amount of electric power used in a facility (for example, house 20) to be charged; The type information used for measuring non-metering (for example, main measurement device 210, branch measurement devices 220a, 220b, etc.) which is a measurement device for measuring the amount of power used in the facility, and the type information accompanied by the measurement value is the measurement value Includes information to distinguish whether it is measured by the power measurement device for measuring power or by the power measurement device for non-metering, and the generation unit 120 is predetermined when output data is information on power consumption in a facility According to the selection algorithm, at least one of a plurality of measuring devices for measuring the power used for measuring the probe and a device for measuring non-reading used is selected. It may be.

  Thus, information can be output appropriately according to the situation or the like by distinguishing and selecting as necessary the measuring device for measuring power used for charging processing and the other measuring devices.

  (3) For example, one or more of the main measurement device 210 including the current sensor added to the main breaker of the distribution board 200 in the facility (for example, the house 20) and one or more of the distribution board 200 The branch circuit includes one or more branch measurement devices (for example, branch measurement devices 220a and 220b) including a current sensor for measuring the current of the branch circuit, and the type information accompanied by the measurement value is for measurement of the measurement value The generation unit 120 includes information for discriminating whether the measurement is performed by the power usage measurement device 300 or the main measurement device 210 or the branch measurement devices 220a, 220b, etc. The generation unit 120 determines a plurality of measurement devices according to a predetermined selection algorithm. Among them, any one type of measurement equipment such as a power measurement device 300 for measuring a meter, a master measurement device 210, and a branch measurement device 220a, 220b, etc. It is also possible to select a.

  In this way, it is possible to appropriately output information based on the measurement value measured by the measurement device selected according to the communication status, output purpose, etc. among the measurement devices that can be substituted to measure the power of the facility.

  (4) For example, when the generation unit 120 includes, in the output information, information indicating the power rate of the facility (for example, the house 20), at least one of the plurality of measurement devices is used by a predetermined selection algorithm. Select the power measuring apparatus 300, specify the measured value measured by the selected measuring apparatus based on the type information, and generate the output information by calculating the power rate based on the specified measured value. It may be

  As a result, since the amount of power measured as a charge target is used to display the power rate, an appropriate display consistent with the charge amount can be realized.

  (5) For example, the plurality of measurement devices include a plurality of power measurement devices for meter reading, which are watt-hour meters that measure the power consumption of each of a plurality of mutually independent parts in a facility as charging targets ( For example, the type information associated with the measurement value is a part in the facility where the measurement value is measured (for example, whether it is a specific part of the power line from the power system to the heat pump water heater) And the generation unit 120a selects at least one power measurement device for measurement (for example, the power measurement device for measurement 301) among a plurality of measurement devices according to a predetermined selection algorithm. It is also good.

  In this way, it is possible to appropriately output information based on the measurement value measured by the measurement device selected according to the communication status, output purpose, etc. among the measurement devices for each part.

  (6) For example, when the generation unit 120a uses information on power used in a facility (for example, a house 20) as output information, a plurality of power consumption measuring devices for meter reading (for example, power measuring devices for power consumption for meter reading) Select 300 and the power consumption measuring device 301 for meter reading, and calculate the power consumption in the whole facility based on the measured value measured by each of the power measuring devices for meter reading and the type information accompanied by the measured value The output information may be generated to reflect the result of the calculation.

  Thereby, when a several watt-hour meter is installed in a plant | facility, the information which concerns on the used electric energy in the whole plant | facility can be output appropriately.

  (7) For example, the plurality of measuring devices are used for measuring the power used for meter reading, which is an electric energy meter for measuring the amount of electric power used for each of a plurality of mutually independent parts in the facility (for example, the house 20) The type information that includes multiple devices (for example, including the power measurement devices 300 and 301 for meter reading), and the type information accompanied by the measurement value is information that distinguishes the charge power measurement device for meter reading from which the measurement value was measured and the corresponding charge plan. In the case where the generation unit 120a sets output information to information on power consumption related to a specific charge plan (for example, charge plan B), the generation unit 120a uses a predetermined selection algorithm for meter reading corresponding to the specific charge plan based on the type information. The power consumption measuring device (for example, the power consumption measuring device 301 for meter reading) may be selected.

  Thereby, when a several watt-hour meter is installed in a plant | facility, according to a charge plan, the information which concerns on electric power consumption can be output appropriately.

  (8) For example, the plurality of measuring devices measure the amount of generated power generated by the power generation in the facility, and the power consumption measuring device 300 for meter reading, which is an electric energy meter that measures the amount of power used in the facility (for example, the house 20) The type information accompanied by the measured value includes the generated power measuring device 302 for meter reading which is a watt-hour meter, and distinguishes whether the measured value is measured by the power measuring device for measuring needle or measured by the generated power measuring device for meter reading When the acquisition unit 110 acquires the measurement value measured by the power measurement device 300 for measurement and the measurement value measured by the generated power measurement device 302 for measurement, the generation unit 120a generates a predetermined selection algorithm. Select the power consumption measuring device 300 for the meter reading and the generated power measuring device 302 for the meter reading, and the measured value of each of the specified one or more measured values Generation of output information by using the method according to the type information (for example, deriving a difference by determining whether it is a negative value (minus value) or a positive value (plus value) according to the type information and adding) It is good to do.

  Thereby, for example, the output information based on the power amount related to the power purchase and the power amount related to the power sale can be appropriately output.

  (9) For example, the power management system 10, 10a further includes the receiving unit 140 that receives an input by the user, and the generating units 120, 120a generate output information according to the input received by the receiving unit 140 according to a predetermined selection algorithm. It is also possible to select the measuring device which is the measurement source of the measurement value used for the measurement.

  In this way, appropriate measurement values can be specified and used according to the user's input, so information can be output appropriately.

  (10) For example, the generating units 120 and 120a may select the measuring apparatus according to a predetermined selection algorithm according to the type information associated with the one or more measurement values acquired by the acquiring unit 110.

  As a result, among the plurality of measuring devices in the facility, it is possible to select from the measuring devices that can communicate and obtain the measured values, and the output information is appropriately generated.

  (11) For example, the power management system 10, 10a receives the output information output from the power management apparatus 100, 100a having the acquisition unit 110 and the output unit 130, and the output unit 130, and displays the information based on the output information A display device 400 may be provided.

  This will display the appropriate information generated using the appropriate measurements.

  (12) A power management apparatus according to an aspect of the present invention includes a plurality of measurement devices (for example, power measurement devices for use in meter reading 300, 301, and the like) that measure the amount of power generated or used in a facility (for example, a house 20). And a plurality of acquisition units 110 for acquiring measured measurement values accompanied by type information indicating the type of measurement from the generated power measurement device for meter reading 302, master measurement device 210, branch measurement devices 220a, 220b, etc.) by communication. The generation unit 120, 120a which specifies the measurement value measured by each of the one or more measurement devices selected by the predetermined selection algorithm among the measurement devices of the above based on the type information and generates the output information using the specified measurement value And an output unit 130 that outputs the output information generated by the generation units 120 and 120a.

  This allows appropriate output of information using appropriate measurements.

  (13) A power management method according to an aspect of the present invention includes a plurality of measurement devices that measure the amount of power generated or used in a facility (for example, a house 20), and outputs output information regarding the power of the facility A power management method for use in a power management system 10, 10a, comprising: acquiring, from each of a plurality of measuring devices, measured measurement values accompanied by type information indicating the type of measurement by communication; and a plurality of measurements A generation step of specifying measurement values measured by each of one or more measurement devices selected by a predetermined selection algorithm among devices based on type information, and generating output information using the specified measurement values (for example, steps S11 to S11) And S16) and an output step (for example, step S17) for outputting the output information generated in the generation step.

  Thus, information can be appropriately output by specifying and using an appropriate measurement value from the measurement values of power measured by a plurality of measurement devices.

  (14) A control program according to an aspect of the present invention is a power management process for a computer that communicates with a plurality of measuring devices that measure the amount of power generated or used in a facility (for example, a house 20). Control program for executing step 10), and the power management process includes an acquisition step of acquiring measured measurement values accompanied by type information indicating the type of measurement from the plurality of measuring devices; A generation step of specifying measurement values measured by each of one or more measurement devices selected by a predetermined selection algorithm among devices based on type information, and generating output information using the specified measurement values (for example, steps S11 to S11) And S16) and an output step (for example, step S17) for outputting the output information generated in the generation step.

  If this control program is installed in a computer, the computer functions as the power management device 100, 100a, etc., whereby appropriate information can be output using appropriate measurement values.

10, 10a Power Management System 20 Housing 100, 100a Power Management Device 110 Acquisition Unit 120, 120a Generation Unit 130 Output Unit 140 Reception Unit 200 Distribution Panel 210 Main Measurement Device 220 Main Measurement Device 220a, 220b Bifurcation Measurement Device 300, 301 Power Measurement Used for Meter Reading Device 302 Generated power measuring device 400 for meter reading Display

Claims (7)

A power management system comprising a plurality of measuring devices for measuring the amount of power generated or used in a facility, and outputting output information regarding the power of the facility,
An acquisition unit configured to acquire a measured value accompanied by type information indicating a type of measurement by communication from each of the plurality of measurement devices;
Based on the type information, a measurement value measured by each of one or more measurement devices selected by a predetermined selection algorithm among the plurality of measurement devices is specified, and the output information is generated using the specified measurement value Department,
An output unit that outputs the output information generated by the generation unit ;
The plurality of measuring devices include a plurality of power consumption measuring devices for meter reading, which are watt-hour meters for measuring the power consumption of each of a plurality of mutually independent parts in the facility as a charging target.
The type information accompanied by the measurement value includes information for distinguishing the charge plan for use corresponding to the power measurement device for meter reading in which the measurement value is measured,
When the generation unit uses information related to power consumption related to a specific charge plan as the output information, the power consumption measuring device for meter reading corresponding to the specific charge plan based on the type information according to the predetermined selection algorithm Power management system to choose . The power management system further includes a receiving unit for receiving an input from the user,
The power management system according to claim 1, wherein the generation unit performs the selection according to the input according to the predetermined selection algorithm. The generating unit, the power management system of claim 1 or 2 carries out the selection by the predetermined selection algorithm in accordance with the type information 1 or more measurements acquired by the acquiring unit is accompanied. The power management system
A power management apparatus having the acquisition unit and the output unit;
The power management system according to any one of claims 1 to 3 , further comprising: a display device that receives the output information output from the output unit and performs display based on the output information. An acquisition unit for acquiring measured measurement values accompanied by type information indicating the type of measurement by communication from a plurality of measurement devices that measure the amount of power generated or used in a facility;
A generation unit that specifies measurement values measured by each of one or more measurement devices selected by a predetermined selection algorithm among the plurality of measurement devices based on the type information, and generates output information using the specified measurement values When,
An output unit that outputs the output information generated by the generation unit ;
The plurality of measuring devices include a plurality of power consumption measuring devices for meter reading, which are watt-hour meters for measuring the power consumption of each of a plurality of mutually independent parts in the facility as a charging target.
The type information accompanied by the measurement value includes information for distinguishing the charge plan for use corresponding to the power measurement device for meter reading in which the measurement value is measured,
When the generation unit uses information related to power consumption related to a specific charge plan as the output information, the power consumption measuring device for meter reading corresponding to the specific charge plan based on the type information according to the predetermined selection algorithm Power management device to choose . A power management method used in a power management system, comprising: a plurality of measurement devices that measure the amount of power generated or used in a facility, and outputting output information regarding the power of the facility,
An acquiring step of acquiring a measured value accompanied by type information indicating a type of measurement by communication from each of the plurality of measuring devices;
Based on the type information, a measurement value measured by each of one or more measurement devices selected by a predetermined selection algorithm among the plurality of measurement devices is specified, and the output information is generated using the specified measurement value Step and
Look including an output step of outputting the output information generated by said generation step,
The plurality of measuring devices include a plurality of power consumption measuring devices for meter reading, which are watt-hour meters for measuring the power consumption of each of a plurality of mutually independent parts in the facility as a charging target.
The type information accompanied by the measurement value includes information for distinguishing the charge plan for use corresponding to the power measurement device for meter reading in which the measurement value is measured,
In the generation step, in the case where information relating to used power related to a specific charge plan is used as the output information, using the predetermined selection algorithm, measuring the used power for meter reading corresponding to the specific charge plan based on the type information Power management method to select a device . A control program for causing a computer in communication with a plurality of measuring devices that measure the amount of power generated or used in a facility to execute power management processing,
The power management process
An acquisition step of acquiring a measured value accompanied by type information indicating a type of measurement from the plurality of measuring devices;
A generation step of specifying a measurement value measured by each of one or more measurement devices selected by a predetermined selection algorithm among the plurality of measurement devices based on the type information and generating output information using the specified measurement value When,
Look including an output step of outputting the output information generated by said generation step,
The plurality of measuring devices include a plurality of power consumption measuring devices for meter reading, which are watt-hour meters for measuring the power consumption of each of a plurality of mutually independent parts in the facility as a charging target.
The type information accompanied by the measurement value includes information for distinguishing the charge plan for use corresponding to the power measurement device for meter reading in which the measurement value is measured,
In the generation step, in the case where information relating to used power related to a specific charge plan is used as the output information, using the predetermined selection algorithm, measuring the used power for meter reading corresponding to the specific charge plan based on the type information Control program to select the device .

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