JP2016144234A - Power management device, display device, and power management method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power management device capable of reducing a difference between a fare charged by an electric power company and a fare recognized by a user, a display device, and a power management method.SOLUTION: The power management device includes a reception part for receiving fare unit price information in addition to power information from a smart meter.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a power management apparatus, a display apparatus, and a power management method for managing power information indicating power supplied from a power system to a customer facility.

  2. Description of the Related Art In recent years, an energy management system (EMS: Energy Management System) that manages the power of devices provided in customer facilities has attracted attention. In such a power management system, a power management apparatus that manages the power of the device is provided.

  As power management devices, HEMS (HOME Energy Management System) installed in houses, BEMS (Building Energy Management System) installed in buildings, FEMS (Factory Energy Management System) installed in factories, and FEMS (Factory Energy Management Stores) installed in factories. ) And the like.

  In such a case, introduction of a smart meter having a communication function is being studied as a meter for measuring the power supplied from the power system to the customer facility. The smart meter has a function of transmitting information on power supplied to the customer facility from the power system (hereinafter, power information) to the power management apparatus (for example, Patent Document 1).

JP 2014-153337 A

  However, in the above-described technology, the smart meter transmits power information to the power management apparatus, but power management is performed on unit price information (hereinafter referred to as unit price information) related to power supplied from the power system to the customer facility. Not sent to device. Accordingly, when the charge that the user knows is calculated based on the unit price information that is different from that of the electric power company, the charge may be different from the charge charged by the electric power company or the like.

  Therefore, the present invention has been made to solve the above-described problems, and enables power to be used to reduce a difference between a charge charged by an electric power company and the charge recognized by a consumer. An object is to provide a management device, a display device, and a power management method.

  The first feature is a power management device, in which power is transmitted or received between the power system and the customer facility from a smart meter that measures power supplied from the power system to the customer facility. In addition to the power information that is the information of the above, the gist is provided with a receiving unit that receives unit price information that is information about a unit price related to power that is transmitted or received between the power system and the customer facility. To do.

  The second feature is a display device, which is a smart meter that measures power supplied from a power system to a customer facility, and transmits or receives power between the power system and the customer facility. In addition to power information that is information, a receiving unit that receives unit price information that is information about a unit price related to power that is transmitted or received between the power system and the customer facility, the power information, and the power information A summary is provided with a display unit that displays information on the power information and the unit price information based on the unit price information.

  A third feature is a power management method, in which power is transmitted or received between the power system and the customer facility from a smart meter that measures power supplied from the power system to the customer facility. In addition to the power information that is the information of the above, the gist is provided with a step of receiving unit price information that is information about a unit price related to power that is transmitted or received between the power system and the customer facility. .

  According to the present invention, it has been made in order to solve the above-described problem, and it is possible to reduce the difference between a charge charged by an electric power company or the like and a charge recognized by a consumer. A management device, a display device, and a power management method can be provided.

FIG. 1 is a diagram illustrating a customer facility 10 according to the first embodiment. FIG. 2 is a diagram illustrating the EMS 200 according to the first embodiment. FIG. 3 is a diagram illustrating the display device 500 according to the first embodiment. FIG. 4 is a diagram illustrating an example of a message format according to the first embodiment. FIG. 5 is a diagram illustrating an example of a message format according to the first embodiment. FIG. 6 is a sequence diagram illustrating the power management method according to the first embodiment. FIG. 7 is a diagram illustrating an example of a message format according to the first modification. FIG. 8 is a sequence diagram illustrating a power management method according to the first modification. FIG. 9 is a sequence diagram illustrating a power management method according to the second modification.

  Hereinafter, a power management apparatus according to an embodiment will be described with reference to the drawings. In the following description of the drawings, the same or similar parts are denoted by the same or similar reference numerals.

  However, it should be noted that the drawings are schematic and ratios of dimensions and the like are different from actual ones. Therefore, specific dimensions and the like should be determined in consideration of the following description. Moreover, it is a matter of course that portions having different dimensional relationships and ratios are included between the drawings.

[Outline of Embodiment]
The power management apparatus according to the embodiment is information on power that is transmitted or received between the power system and the customer facility from a smart meter that measures power supplied from the power system to the customer facility. In addition to power information, a receiving unit is provided that receives unit price information that is information about a unit price related to power that is transmitted or received between the power system and the customer facility.

  In the embodiment, the power management apparatus receives unit price information from the smart meter in addition to the power information. The power management device can automatically calculate a power purchase amount that is a consideration for the power received from the power system (or a power sale amount that is a consideration for the power transmitted to the power system). Furthermore, the smart meter is managed by the electric power company, and the unit price information received from the smart meter is also under the control of the electric power company. Therefore, an error between the actual power purchase amount (or power sale amount) and the power purchase amount (or power sale amount) calculated by the power management apparatus can be reduced.

[First Embodiment]
(Customer facilities)
Hereinafter, the customer facility according to the first embodiment will be described. FIG. 1 is a diagram illustrating details of the customer facility 10 according to the first embodiment.

  As shown in FIG. 1, the customer facility 10 includes a distribution board 110, a load 120, a PV unit 130, a storage battery unit 140, a fuel cell unit 150, and a hot water storage unit 160. In addition to these, the customer facility 10 includes an EMS 200 and a smart meter 300. However, it should be noted that the smart meter 300 and the EMS 200 do not need to be provided in the building of the customer facility 10. Furthermore, a display device 500 that can communicate with the EMS 200 is provided.

  Distribution board 110 is connected to power system 400. Distribution board 110 is connected to load 120, PV unit 130, storage battery unit 140, and fuel cell unit 150 via a power line.

  The load 120 is a device that consumes power supplied to the customer facility 10 via the power line. For example, the load 120 includes devices such as a refrigerator, lighting, an air conditioner, and a television. The load 120 may be a single device or may include a plurality of devices.

  The PV unit 130 includes a PV 131 and a PCS 132. The PV 131 is a device that generates power in response to the reception of sunlight. The PV 131 outputs the generated DC power. The amount of power generated by the PV 131 changes according to the amount of solar radiation applied to the PV 131. The PCS 132 is a device (Power Conditioning System) that converts DC power output from the PV 131 into AC power. The PCS 132 outputs AC power to the distribution board 110 via the power line.

  The PV unit 130 may have a pyranometer that measures the amount of solar radiation irradiated on the PV 131.

  The PV unit 130 is controlled by an MPPT (Maximum Power Point Tracking) method. Specifically, the PV unit 130 optimizes the operating point (a point determined by the operating point voltage value and the power value, or a point determined by the operating point voltage value and the current value) of the PV 131.

  The storage battery unit 140 includes a storage battery 141 and a PCS 142. The storage battery 141 is a device that stores electric power. The PCS 142 is a device (Power Conditioning System) that converts DC power output from the storage battery 141 into AC power.

  The fuel cell unit 150 includes a fuel cell 151 and a PCS 152. The fuel cell 151 is a device that generates electric power using fuel gas. The PCS 152 is a device (Power Conditioning System) that converts DC power output from the fuel cell 151 into AC power.

  The fuel cell unit 150 operates by load following control. Specifically, the fuel cell unit 150 controls the fuel cell 151 so that the power output from the fuel cell 151 follows the power consumption of the load 120.

  The hot water storage unit 160 converts electric power into heat and accumulates heat. Specifically, the hot water storage unit 160 has a hot water storage tank, and warms water supplied from the hot water storage tank by exhaust heat generated by the operation (power generation) of the fuel cell 151. Specifically, the hot water storage unit 160 warms the water supplied from the hot water storage tank and returns the warmed hot water to the hot water storage tank.

  The EMS 200 is an example of a power management apparatus that manages power information indicating power supplied from the power system 400 to the customer facility 10.

  Specifically, the EMS 200 is connected to the load 120, the PV unit 130, the storage battery unit 140, the fuel cell unit 150, and the hot water storage unit 160 via signal lines, and the load 120, the PV unit 130, the storage battery unit 140, the fuel The battery unit 150 and the hot water storage unit 160 are controlled. The EMS 200 may control the power consumption of the load 120 by controlling the operation mode of the load 120. The signal line that connects the EMS 200 and the device may be wireless or wired.

  In the first embodiment, the EMS 200 is connected to the smart meter 300 via a signal line, and communicates with the smart meter 300. The signal line that connects the EMS 200 and the smart meter 300 and the signal line that connects the EMS 200 and the smart meter 300 may be wireless or wired.

  The smart meter 300 measures the power supplied from the power system 400 to the customer facility 10. For example, the smart meter 300 is connected to the power line on the power system 400 side of the distribution board 110 and measures the amount of power flowing through the power line. The consumer is charged based on the electric power measured by the smart meter 300.

  In the first embodiment, the smart meter 300 transmits, to the EMS 200, power information that is information on power that is transmitted or received between the power system 400 and the customer facility 10. The power information may be an integrated value of power supplied to the customer facility 10 during a certain period (for example, 30 minutes), or may be an instantaneous value of power supplied to the customer facility 10. Here, it should be noted that the power information includes information on power received from the power system 400 and information on power transmitted to the power system 400.

  For example, the smart meter 300 may transmit power information to the EMS 200 using a notification message having a specified format for notifying information. For example, the smart meter 300 transmits the integrated value of the power supplied to the customer facility 10 for a certain period (for example, 30 minutes) using the notification message. Alternatively, the smart meter 300 may transmit power information to the EMS 200 in response to receiving a request message having a specified format for requesting transmission of information. For example, the smart meter 300 transmits an instantaneous value of the power supplied to the customer facility 10 in response to receiving the request message.

  In the first embodiment, the smart meter 300 transmits to the EMS 200 unit price information that is information about a unit price related to power that is transmitted or received between the power system 400 and the customer facility 10. Here, the smart meter 300 transmits the unit price information to the EMS 200 in response to reception of a request message having a prescribed format for requesting transmission of information. The unit price information is at least one of power purchase unit price information, which is information about the unit price of power received from the power system 400, and power sale unit price information, which is information about the unit price of power transmitted to the power system 400. It is.

  Here, the power transmitted to the power system 400 is preferably power generated by the PV unit 130. However, the embodiment is not limited to this, and the power transmitted to the power system 400 may be the power stored in the storage battery unit 140, or the power generated by the fuel cell unit 150. There may be.

  The display device 500 is a terminal that displays various types of information, for example. The display device 500 preferably has a function of communicating with the EMS 200. The display device 500 may communicate with the EMS 200 through a wireless connection, or may communicate with the EMS 200 through a wired connection. The display device 500 is, for example, a smartphone or a tablet terminal. Alternatively, the display device 500 may be a dedicated terminal.

(Power management device)
The power management apparatus according to the first embodiment will be described below. FIG. 2 is a diagram illustrating the EMS 200 according to the first embodiment.

  As illustrated in FIG. 2, the EMS 200 includes a communication unit 210, a control unit 220, and a display control unit 230.

  The communication unit 210 includes a communication module, and communicates with a device connected via a signal line. Similarly, the communication unit 210 communicates with the smart meter 300 connected via a signal line.

  In the first embodiment, the communication unit 210 constitutes a reception unit that receives power information, which is information on power transmitted or received between the power system 400 and the customer facility 10, from the smart meter 300. For example, the communication unit 210 may receive power information from the smart meter 300 using a notification message having a specified format for notifying information. Alternatively, the communication unit 210 may request the smart meter 300 to transmit power information using a request message having a specified format for requesting transmission of information.

  In the first embodiment, the communication unit 210 includes a receiving unit that receives, from the smart meter 300, unit price information that is information about a unit price related to power that is transmitted or received between the power system 400 and the customer facility 10. Configure. Here, the communication unit 210 requests the smart meter 300 to transmit the unit price information using a request message having a prescribed format for requesting the transmission of information. In such a case, the communication unit 210 constitutes a transmission unit that transmits a request message having a prescribed format for requesting transmission of information.

  The unit price information is, as described above, the purchased unit price information, which is information about the unit price of power received from the power system 400, and the sold unit price, which is information about the unit price of power transmitted to the power system 400. It is at least one of information. That is, the unit price information is only the power purchase unit price information, only the power sale unit price information, or the power purchase unit price information and the power sale unit price information.

  The EMS 200 may determine what unit price information is included as the unit price information according to the power purchase situation and the power sale situation in the customer facility 10. That is, the EMS 200 determines the power purchase / sale status of the customer facility 10 and requests the smart meter 300 for unit price information including necessary unit price information.

  Specifically, for example, when the customer facility 10 is not selling power, the unit price information is only the power unit price information. Further, when power purchase is not performed at the customer facility 10, the unit price information is only the power sale unit price information. Furthermore, when the power purchase is performed at the customer facility 10 at the same time, the unit price information is power purchase unit price information and power sale unit price information.

  The control unit 220 includes a CPU and a memory, and controls the EMS 200. Specifically, the control unit 220 manages power information and unit price information received from the smart meter 300.

  The display control unit 230 performs control to display information related to power information and unit price information (hereinafter, charge related information) based on the power information and unit price information. Such control is control for displaying information on the display device 500, and is control for generating display data for displaying information on the display device 500.

  In the first embodiment, a case where information is displayed on the display device 500 is illustrated, but when the EMS 200 has a display, information (charge related information) is displayed on the display provided in the EMS 200. Also good.

  The charge related information may be information including power information and charge unit price information individually. For example, when the unit price information is power purchase unit price information, the charge related information individually includes received power information and power purchase unit price information received from the power system 400. Alternatively, when the unit price information is the power sale unit price information, the charge related information individually includes transmission power information and power sale unit price information transmitted to the power system 400. Alternatively, when the unit price information includes both the power purchase unit price information and the power sale unit price information, the charge related information includes received power information, power purchase unit price information, transmission power information, and power sale unit price information. Includes individually.

  Furthermore, the charge related information may be a multiplication result of the power information and the charge unit price information. For example, when the charge unit price information is the power purchase charge unit price information, the charge related information includes a multiplication result (that is, a power purchase price) of the received power information and the power purchase charge unit price information. Alternatively, when the charge unit price information is the power sale charge unit price information, the charge related information includes a multiplication result (that is, a power sale price) of the transmission power information and the power sale charge unit price information. Alternatively, when the unit price information includes both the power purchase unit price information and the power sale unit price information, the charge related information is obtained by multiplying the received power information and the power purchase unit price information by the transmission power information and the power sale fee. The result of multiplication of unit price information is included individually. Alternatively, when the unit price information includes both the power purchase unit price information and the power sale unit price information, the charge related information is obtained by multiplying the received power information and the power purchase unit price information by the transmission power information and the power sale fee. A value obtained by subtracting the multiplication result of the unit price information (that is, the amount to be paid by the user) may be included.

(Display device)
The display device according to the first embodiment will be described below. FIG. 3 is a diagram illustrating the display device 500 according to the first embodiment.

  As illustrated in FIG. 3, the display device 500 includes a communication unit 510 and a display unit 520. As described above, the display device 500 is a smartphone, a tablet terminal, or a dedicated terminal.

  The communication unit 510 includes a communication module, and communicates with the EMS 200. For example, the communication unit 510 receives display data from the EMS 200, for example.

  The display unit 520 is configured by a display such as a liquid crystal panel or an organic EL, and displays various types of information. For example, the display unit 520 displays the charge related information described above.

(Message format)
Hereinafter, an example of the message format according to the first embodiment will be described. 4 and 5 are diagrams illustrating an example of a message format according to the first embodiment. Here, in the case where communication between the EMS 200 and the smart meter 300 is performed by the ECHONET Lite system, a message format that conforms to the ECHONET Lite system is illustrated.

  As shown in FIG. 4, a GET command conforming to the ECHONET Lite method can be used as a request message having a prescribed format for requesting transmission of information. The GET command has a header field and a transmission request field. The transmission request field can store a value indicating that the power information is requested, a value indicating that the unit price information is requested, or a value indicating that both the power information and the unit price information are requested. . The value indicating that the power information is requested is defined as a predetermined value, and the value indicating that the charge unit price information is requested is defined as a value that can be set by the user. However, a value indicating that charge unit price information is requested may also be defined as a predetermined value.

  As shown in FIG. 5, a GET response command conforming to the ECHONET Lite method can be used as a response message to the request message. The GET response command has a header field and a request response field. Power information or unit price information can be stored in the request response field. The power information is defined as a predetermined value, and the unit price information is defined as a value that can be set by the user. However, the unit price information may also be defined as a predetermined value.

(Power management method)
Hereinafter, the power management method according to the first embodiment will be described. FIG. 6 is a sequence diagram illustrating the power management method according to the first embodiment. Here, a case where the ECHONET Lite method is used is illustrated.

  As shown in FIG. 6, in step S <b> 10, the EMS 200 transmits a GET command to the smart meter 300. The transmission request field of the GET command stores a value indicating that charge unit price information is requested.

  In step S20, the smart meter 300 transmits a GET response command to the EMS 200. Unit price information is stored in the request response field of the GET response command.

  In step S <b> 30, the smart meter 300 transmits power information to the EMS 200. The smart meter 300 may transmit power information to the EMS 200 using a notification message having a prescribed format for notifying information. Alternatively, the smart meter 300 may transmit power information to the EMS 200 in response to receiving a request message having a specified format for requesting transmission of information.

  In step S40, the EMS 200 performs control to display power information and information related to the charge unit price information (charge related information) based on the power information received in step S30 and the charge unit price information received in step S20.

(Function and effect)
In the first embodiment, the EMS 200 receives unit price information from the smart meter 300 in addition to the power information. The EMS 200 can automatically calculate a power purchase amount that is a consideration for the power received from the power system 400 (or a power sale amount that is a consideration for the power transmitted to the power system 400). Furthermore, the smart meter 300 is managed by the electric power company, and the unit price information received from the smart meter 300 is also under the control of the electric power company. Therefore, an error between the actual power purchase amount (or power sale amount) and the power purchase amount (or power sale amount) calculated by the EMS 200 can be reduced. Furthermore, even when the electric power company changes the unit price, the unit price information can be obtained in real time.

  In 1st Embodiment, the display apparatus 500 displays the information (charge related information) regarding electric power information and charge unit price information. Therefore, it is possible to easily grasp the above-mentioned power purchase amount (or power sale amount).

[Modification 1]
Hereinafter, Modification Example 1 of the first embodiment will be described. In the following, differences from the first embodiment will be mainly described.

  In the first embodiment, the communication unit 210 requests the smart meter 300 to transmit unit price information using a request message having a specified format for requesting transmission of information. On the other hand, in the first modification, the communication unit 210 receives the unit price information from the smart meter 300 using a notification message having a specified format for notifying information. Smart meter 300 periodically transmits unit price information.

(Message format)
Hereinafter, an example of a message format according to the modification example 1 will be described. FIG. 7 is a diagram illustrating an example of a message format according to the first modification. Here, in the case where communication between the EMS 200 and the smart meter 300 is performed by the ECHONET Lite system, a message format that conforms to the ECHONET Lite system is illustrated.

  As shown in FIG. 7, an INFO command conforming to the ECHONET Lite method can be used as a notification message having a prescribed format for notifying information. The INFO command has a header field and a status information field. In the status information field, power information or unit price information can be stored. The power information is defined as a predetermined value, and the unit price information is defined as a value that can be set by the user. However, the unit price information may also be defined as a predetermined value.

(Power management method)
Hereinafter, a power management method according to the first modification will be described. FIG. 8 is a sequence diagram illustrating a power management method according to the first modification. Here, a case where the ECHONET Lite method is used is illustrated.

As shown in FIG. 8, in step S110 (step S110 _n and step S110 _{n + 1} ), the smart meter 300 periodically transmits an INFO command to the EMS 200. Unit price information is stored in the status information field of the INFO command.

In step S120 (step S120 _{n (1)} and step S120 _{n (m)} ), the smart meter 300 transmits power information to the EMS 200. The smart meter 300 may transmit power information to the EMS 200 using a notification message having a prescribed format for notifying information. Alternatively, the smart meter 300 may transmit power information to the EMS 200 in response to receiving a request message having a specified format for requesting transmission of information.

Step S130 (Step _{S130 n (1)} and step _{S130 n (m)),} EMS200, the step S120 (step _{S120 n (1)} and step _{S120 n (m))} power information and step S110 of receiving at (step S110 _In accordance with the unit price information received in step _n ), control is performed to display power information and information about the unit price information (charge related information).

[Modification 2]
Hereinafter, Modification Example 2 of the first embodiment will be described. In the following, differences from the first embodiment will be mainly described.

  In the first embodiment, the communication unit 210 requests the smart meter 300 to transmit unit price information using a request message having a specified format for requesting transmission of information. On the other hand, in the second modification, the communication unit 210 receives the unit price information from the smart meter 300 using a notification message having a specified format for notifying information. The smart meter 300 transmits unit price information when the unit price is changed.

(Power management method)
Hereinafter, a power management method according to the second modification will be described. FIG. 9 is a sequence diagram illustrating a power management method according to the second modification. Here, a case where the ECHONET Lite method is used is illustrated. An INFO command conforming to the ECHONET Lite system is used as a notification message having a prescribed format for notifying information.

  As shown in FIG. 9, the unit price is changed in step S210. The change of the charge unit price may be performed by transmitting the charge unit price from the power company to the smart meter 300 by communication between the smart meter 300 and the power company. Alternatively, the unit price may be changed by operating a smart meter 300 by a person in charge of the electric power company.

  In step S220, the smart meter 300 transmits an INFO command to the EMS 200 in accordance with the change of the unit price. Unit price information is stored in the status information field of the INFO command.

In step S230 (step S230 ₍₁₎ and step S230 _(m) ), the smart meter 300 transmits power information to the EMS 200. The smart meter 300 may transmit power information to the EMS 200 using a notification message having a prescribed format for notifying information. Alternatively, the smart meter 300 may transmit power information to the EMS 200 in response to receiving a request message having a specified format for requesting transmission of information.

In step S240 (step S240 ₍₁₎ and step S240 _(m) ), the EMS 200 converts the power information received in step S230 (step S230 ₍₁₎ and step S230 _(m) ) and the unit price information received in step S220. Based on this, control is performed to display information related to power information and unit price information (charge related information).

[Other Embodiments]
Although the present invention has been described with reference to the above-described embodiments, it should not be understood that the descriptions and drawings constituting a part of this disclosure limit the present invention. From this disclosure, various alternative embodiments, examples and operational techniques will be apparent to those skilled in the art.

  The display device 500 may receive power information and unit price information from the smart meter 300. Specifically, the display device 500 may receive power information and unit price information from the smart meter 300 via the EMS 200, and may directly receive power information and unit price information from the smart meter 300. In such a case, the display unit 520 of the display device 500 constitutes a display unit that displays information related to power information and unit price information (charge related information) based on the power information and unit price information.

  The unit price information (power purchase unit price information) may be unit price unit information (TOU; Time Of Use) for each time zone determined based on the past power demand on the grid side, and the current power on the grid side. It may be unit price information (RTP: Real Time Pricing) for each time zone determined based on demand. For example, the unit price information included in the INFO command periodically transmitted in the first modification is TOU. On the other hand, the charge unit price information included in the INFO command transmitted with the change of the charge unit price in the modification example 2 is RTP.

  When the unit price information is information corresponding to a TOU, the unit price information may be a TOU in the current time zone or a list including TOUs in a plurality of time zones. When the charge unit price information is information corresponding to RTP, the charge unit price information may be information representing RTP by level, may be a ratio to TOU, or may be RTP itself.

  In the embodiment, the case where one smart meter 300 is provided in the customer facility 10 is illustrated. However, the embodiment is not limited to this. When the purchase system for the electric power transmitted to the electric power system 400 is the full purchase system, a smart meter used for power purchase and a smart meter used for power sale may be provided separately. On the other hand, when the purchase system for the power transmitted to the power system 400 is the surplus power purchase system, only one smart meter needs to be provided. The total quantity purchase system is a system for purchasing all the electric power output from the PV unit 130, for example. On the other hand, the surplus power purchase system is a system for purchasing an amount obtained by subtracting the amount of power consumed at the customer facility 10 from the amount of power output from the PV unit 130.

  In addition, when there is a power control request (demand response) related to the use or reduction of power from the power company to the customer facility 10, the power rate is temporarily changed by an incentive or penalty (incentive, etc.) You can even know the electricity price in real time. Further, when the power usage fee is discounted by an incentive or the like, the information is transmitted from the smart meter 300 to the EMS 200, so that it is possible to know the power rate with high accuracy. Further, a demand response schedule or the like may be obtained from the smart meter 300 together with information such as incentives. The request to the smart meter 300 may be made after the EMS 200 has obtained demand response information.

  Furthermore, in the customer facility 10 and the electric power company, when the upper limit of the amount of power to be used is set in advance (when contract power is set), the power is used exceeding the upper limit of the amount of power. A different power charge may be applied to or a penalty will be charged. In that case, by obtaining these power rate information from the smart meter 300, the power rate can be known in real time. The request to the smart meter 300 may be made periodically, or the request frequency may be increased only during a time period in which the power usage amount of the previous day is at a peak.

  As described above, according to the present invention, as in the above-described embodiment, it is possible to know a highly accurate power charge by obtaining all charge information related to power from the smart meter 300 managed by the power company.

  DESCRIPTION OF SYMBOLS 10 ... Consumer facility, 110 ... Distribution board, 120 ... Load, 130 ... PV unit, 131 ... PV, 132 ... PCS, 140 ... Storage battery unit, 141 ... Storage battery, 142 ... PCS, 150 ... Fuel cell unit, 151 ... Fuel cell, 152 ... PCS, 160 ... Hot water storage unit, 200 ... EMS, 210 ... Communication unit, 220 ... Control unit, 230 ... Display control unit, 300 ... Smart meter, 400 ... Power system, 500 ... Display device, 510 ... Communication Part, 520... Display part

Claims (8)

  In addition to power information, which is information on power transmitted or received between the power system and the customer facility, from the power smart meter supplied from the power system to the customer facility, the power system and the demand A power management apparatus comprising: a receiving unit that receives unit price information that is information about a unit price related to power that is transmitted to or received from a home facility. A transmitter for transmitting a request message having a prescribed format for requesting transmission of information,
The power management apparatus according to claim 1, wherein the transmission unit requests the smart meter to transmit the unit price information using the request message. The receiving unit receives a notification message having a prescribed format for notifying information;
The power management apparatus according to claim 1, wherein the receiving unit periodically receives the unit price information from the smart meter using the notification message. The receiving unit receives a notification message having a prescribed format for notifying information;
The said receiving part receives the said unit price information from the said smart meter using the said notification message, when the said unit price information is changed, The Claim 1 thru | or 3 characterized by the above-mentioned. Power management device.   The unit price information is at least one of power purchase unit price information, which is information about the unit price of power received from the power system, and power sale unit price information, which is information about the unit price of power transmitted to the power system. The power management apparatus according to claim 1, wherein the power management apparatus is a power management apparatus.   The power management apparatus according to claim 1, wherein the power management apparatus is provided in the customer facility and is connected to a load that consumes power supplied to the customer facility. In addition to power information, which is information on power transmitted or received between the power system and the customer facility, from the power smart meter supplied from the power system to the customer facility, the power system and the demand A receiving unit that receives unit price information that is information about a unit price related to power that is transmitted to or received from a home facility;
A display device comprising: a display unit configured to display information related to the power information and the unit price information based on the power information and the unit price information.   In addition to power information, which is information on power transmitted or received between the power system and the customer facility, from the power smart meter supplied from the power system to the customer facility, the power system and the demand A power management method comprising a step of receiving unit price information, which is information about a unit price related to power transmitted to or received from a home facility.

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