JP5794603B2 - Power management system, control device, management server, power management method, and program - Google Patents

Description

  The present invention relates to a power management system, a control device, a management server, a power management method, and a program.

  In recent years, the use of renewable energy such as sunlight and wind power has attracted attention as a measure against global warming. In Japan, the introduction of the FIT system has begun, and the spread of solar panels and fuel cells in each home is expected to further increase in the future.

  In addition, the spread of electric vehicles (hereinafter referred to as “EV”) is expected to progress in the future, and it is expected that the number of cases where general consumers purchase electricity outside the home will increase.

  Furthermore, power companies are expected to increase the amount of renewable energy introduced in the future due to the effects of the Energy Supply Structure Advancement Law.

  Here, Patent Document 1 describes a power generation system that determines and predicts which of “sell” or “consumes privately” the power generated in-house in each home is advantageous to the home (home). ing.

JP 2010-16989 A

  In power generation using renewable energy, the power generation sources are geographically dispersed. In addition, the amount of power generation is easily affected by the weather and is unstable. For this reason, it is not easy for a power manager (such as a power company) to stably use power generated by using renewable energy.

  Therefore, in order for power managers (such as power companies) to stably use the power generated by using renewable energy, there is a mechanism in which individuals can stably purchase power generated by themselves using renewable energy. is necessary.

  However, if there is simply a mechanism for selling and buying self-generated electricity, the power manager cannot purchase a sufficient amount of electricity from the individual, resulting in an unstable state in terms of quantity and geographical location. There is a risk that it cannot be resolved.

  In view of such a background, the present invention provides a system in which a power manager can stably secure power generated using renewable energy and can be stably supplied to consumers. Is an issue.

  According to the present invention, a plurality of power storage devices that store power, a plurality of control devices that are communicably connected to any of the plurality of power storage devices, and a plurality of the control devices are connected via a network, A power management system that controls a plurality of the control devices, wherein the control device includes control device-side discharge control means for controlling the discharge of the connected power storage device, and the management server includes: User management information holding means for holding user management information, which is information relating user identification information and information for identifying the power storage device managed by the user specified by the user identification information, and a plurality of the controls A connection state management information holding hand for holding connection state management information, which is information associated with each control device, for identifying the power storage device connected to each device Power transfer acceptance means for receiving from the user an application for power transfer that transfers the user identification information and a power usage right that is a right to use the power stored in the power storage device managed by the user; , A power purchase determination unit that determines to purchase the power usage right from the user in response to the application for the power transfer, and the user who has applied for the power transfer when the power purchase determination unit determines the purchase. There is provided a power management system including server-side discharge control means for controlling the control device connected to the power storage device managed by the server and controlling the discharge of the power stored in the power storage device.

  According to the present invention, the control device is provided.

  According to the present invention, the management server is provided.

  Further, according to the present invention, a plurality of power storage devices that store power, a plurality of control devices that are communicably connected to any of the plurality of power storage devices, and a plurality of control devices that are connected via a network And a program for causing the control device of the power management system to control a plurality of the control devices to control the discharge of the connected power storage devices according to the control by the management server. A program for causing a computer to execute a function is provided.

  Further, according to the present invention, a plurality of power storage devices that store power, a plurality of control devices that are communicably connected to any of the plurality of power storage devices, a user specified by user identification information and the user identification information User management information, which is information associated with information identifying the power storage device managed by the user, and information associated with each control device, information identifying the power storage device connected to each of the plurality of control devices The management server of the power management system has a management server that holds the connection state management information and is connected to each of the plurality of control devices via a network and controls the plurality of control devices. A program for using the user identification information and the power stored in the power storage device managed by the user from the user A power transfer acceptance step for receiving a power transfer application for transferring a power usage right that is a right to be transferred; a power purchase determination step for determining to purchase the power usage right from the user in response to the power transfer application; When the purchase is determined in the power purchase determination step, the control device connected to the power storage device managed by the user who applied for the power transfer is controlled, and the power stored in the power storage device is discharged. And a discharge control step for controlling the program are provided.

  Further, according to the present invention, a plurality of power storage devices that store power, a plurality of control devices that are communicably connected to any of the plurality of power storage devices, a user specified by user identification information and the user identification information User management information, which is information associated with information identifying the power storage device managed by the user, and information associated with each control device, information identifying the power storage device connected to each of the plurality of control devices A power management method for a power management system, comprising: a management server that holds connection state management information, and is connected to each of the plurality of control devices via a network to control the plurality of control devices. The management server is the right to use the user identification information from the user and the power stored in the power storage device managed by the user. A power transfer acceptance step for receiving a power transfer application for transferring a power usage right; and a power purchase determination step for determining that the management server purchases the power usage right from the user in response to the power transfer application. When the management server determines purchase in the power purchase determination step, the control server controls the control device connected to the power storage device managed by the user who applied for the power transfer, and stores power in the power storage device. A server-side discharge control step for controlling the discharge of the electric power, and a control-device-side discharge control step for controlling the discharge of the connected power storage device according to the control in the server-side discharge control step. A power management method is provided.

  According to the present invention, the power manager can stably secure the power generated using the renewable energy, and can be stably supplied to the consumer.

It is a conceptual diagram for demonstrating the outline | summary of the power management system of this embodiment. It is a figure which shows an example of the functional block diagram of the control apparatus of this embodiment. It is a figure which shows an example of the functional block diagram of the management server of this embodiment. It is a figure which shows typically an example of the information which the management server of this embodiment hold | maintains. It is a figure which shows typically an example of the information which the management server of this embodiment hold | maintains. It is a flowchart which shows an example of the flow of a process of the management server of this embodiment. It is a figure which shows an example of the functional block diagram of the control apparatus of this embodiment. It is a figure which shows an example of the functional block diagram of the management server of this embodiment. It is a figure which shows typically an example of the information which the management server of this embodiment hold | maintains. It is a figure which shows an example of the functional block diagram of the management server of this embodiment. It is a figure which shows typically an example of the information which the management server of this embodiment hold | maintains. It is a flowchart which shows an example of the flow of a process of the management server of this embodiment. It is a figure which shows an example of the functional block diagram of the management server of this embodiment. It is a figure which shows typically an example of the information which the management server of this embodiment hold | maintains. It is a flowchart which shows an example of the flow of a process of the management server of this embodiment. It is a figure which shows an example of the functional block diagram of the management server of this embodiment. It is a figure which shows typically an example of the information which the management server of this embodiment hold | maintains. It is a figure which shows an example of the functional block diagram of the control apparatus of this embodiment. It is a figure which shows typically an example of the information which the control apparatus of this embodiment hold | maintains. It is a figure which shows typically an example of the information which the control apparatus of this embodiment hold | maintains. It is a figure which shows an example of the functional block diagram of the control apparatus of this embodiment. It is a figure which shows typically an example of the information which the control apparatus of this embodiment hold | maintains. It is a figure which shows an example of the functional block diagram of the conversion apparatus of this embodiment. It is a figure which shows an example of the functional block diagram of the management server of this embodiment. It is a figure which shows typically an example of the information which the management server of this embodiment hold | maintains.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In all the drawings and the description in the specification, the same components are denoted by the same reference numerals, and the description thereof is omitted as appropriate.

  In addition, each unit constituting the device of each embodiment includes a CPU, a memory, and a program loaded in the memory of an arbitrary computer (a program stored in the memory from the stage of shipping the device in advance, a storage such as a CD) Including a program downloaded from a medium or a server on the Internet), a storage unit such as a hard disk for storing the program, and a network connection interface, and any combination of hardware and software. It will be understood by those skilled in the art that there are various modifications to the implementation method and apparatus.

  In addition, the functional block diagram used in the description of each embodiment shows a functional unit block, not a hardware unit configuration. In these drawings, the apparatus of each embodiment is described as being realized by one apparatus, but the means for realizing it is not limited to this. That is, it may be a physically separated configuration or a logically separated configuration.

<Embodiment 1>
First, an example of the outline of the power management system of this embodiment will be described with reference to FIG.

  In the power management system of FIG. 1, the management server 1 and a plurality of control devices 2 installed at various places are connected via a communication network. And EV3A and the storage battery 3B are connected to the control apparatus 2 installed in the user's home. Moreover, EV3A is connected to the control apparatus 2 installed in the area | region of an electric power seller. In addition, EV3A and the storage battery 3B are not connected to the control apparatus 2 installed in the parking lot.

  In the present embodiment, the user connects the power storage device (EV3A, storage battery 3B, etc.) managed by the user to the control device 2, and performs a predetermined input operation on the control device 2, for example, to thereby store the power storage device (EV3A, The right to use the power stored in the storage battery 3B or the like (hereinafter referred to as “power usage right”) can be transferred to the power manager. In addition to the control device 2 installed at home, the user can store the power storage device (EV3A) in, for example, the control device 2 installed in a parking lot or the control device 2 installed in the area of the power seller. , Storage battery 3B, etc.) can be connected and the right to use power can be transferred to the power manager.

  When the management server 1 managed by the power manager receives an input for transferring the right to use the power stored in a predetermined power storage device (EV3A, storage battery 3B, etc.) via the control device 2, for example, the power storage It controls the discharge of electric power from the power storage device (EV3A, storage battery 3B, etc.) via the control device 2 to which the device (EV3A, storage battery 3B, etc.) is connected. That is, the power manager can arbitrarily discharge the power stored in the power storage device (EV3A, storage battery 3B, etc.).

  According to such a configuration, the power manager purchases the power usage right of the power stored in the power storage device (EV3A, storage battery 3B, etc.) from the user, and discharges the purchased power at an arbitrary timing. It becomes possible.

  Hereinafter, the configuration of each device constituting the power management system of the present embodiment will be described.

<Control device 2>
FIG. 2 is a functional block diagram showing an example of the configuration of the control device 2. As illustrated, the control device 2 includes a control device-side discharge control unit 31, a management server I / F 32, a power storage device I / F 33, and a user I / F 34. In addition, you may have the connection state transmission part 45 and / or the power transfer application part 46 further. Hereinafter, the configuration of each unit will be described.

  The management server I / F 32 is an interface for exchanging information with the management server 1. The power storage device I / F 33 is an interface for exchanging information with the power storage devices (3A, 3B). The user I / F 34 is an interface for exchanging information with the user.

  When the control device 2 is connected to any one of the power storage devices (3A, 3B), for example, the connection state transmission unit 45 uses the trigger as a trigger to send information identifying the power storage device (3A, 3B) to the power storage device (3A, 3B). 3B). Then, the connection state transmitting unit 45 transmits information identifying the earned power storage device (3A, 3B) to the management server 1, and when the connection with the power storage device (3A, 3B) is canceled, that fact. Is transmitted to the management server 1. Here, “the control device 2 and the power storage devices (3A, 3B) are connected” means that these devices are communicable in a wired or wireless manner. In addition, the power storage device (3A, 3B) here is a power storage device designed on the assumption that it is moved (including “carrying”) in a normal use mode, such as an EV or a lightweight storage battery. Alternatively, it may be a power storage device that is designed not to be moved in a normal usage mode, such as a storage battery installed in each home. Note that the EV 3A and the storage battery 3B illustrated in FIG. 1 are merely examples, and power storage devices having other configurations may be used. Such power storage devices (3A, 3B) may store power generated using renewable energy (hereinafter referred to as “green power”). For example, electric power received from a solar power generation device or a fuel cell may be stored. This green power may be power generated by the user in-house. The power storage devices (3A, 3B) may store power other than green power. However, since this embodiment is intended to provide a means for utilizing green power, the following description will be made assuming that green power is stored in the power storage devices (3A, 3B). This assumption is the same in all the following embodiments.

  Here, the timing at which the connection state transmission unit 45 transmits information for identifying the connected power storage devices (3A, 3B) to the management server 1 is not particularly limited, and various modes can be used. For example, when the connection state transmission unit 45 acquires information for identifying the connected power storage devices (3A, 3B), the connection state transmission unit 45 uses the trigger for the information to identify the connected power storage devices (3A, 3B). You may send it. Alternatively, the connection state transmission unit 45 transmits information for identifying the connected power storage devices (3A, 3B) as information indicating the connection state, triggered by the connection state inquiry received from the management server 1. May be. In such a case, when no power storage device (3A, 3B) is connected, the connection state transmission unit 45 transmits information indicating that fact to the management server 1. The timing at which the management server 1 inquires of the connection state transmitter 45 about the connection state is, for example, when confirming the connection state of the control device 2 installed in that area in order to discharge power in a predetermined area. For example, it may be possible to confirm whether the power storage device (3A, 3B) managed by the user is connected to any of the control devices 2 when an application for power transfer is made by the user.

  Further, the timing at which the connection state transmission unit 45 transmits information indicating that the connection with the power storage device (3A, 3B) has been canceled to the management server 1 is not particularly limited, but it triggers that the connection has been canceled. It is desirable to send to. The connection state transmission unit 45 is configured to transmit information indicating the connection state triggered by the connection state inquiry received from the management server 1, and the connection state is transmitted to the management server 1. If it is not transmitted, it is not necessary to transmit information indicating that the connection has been canceled.

  The control device-side discharge control unit 31 transmits a control signal to the connected power storage devices (3A, 3B) via the power storage device I / F 33, and discharges the power stored in the power storage devices (3A, 3B). To control. That is, the control device-side discharge control unit 31 discharges the electric power stored in the connected power storage devices (3A, 3B) by an arbitrary amount at an arbitrary timing. Note that such discharge control by the control device-side discharge control unit 31 is performed according to the control of the server-side discharge control unit 14 of the management server 1 described below. Since the control of the power discharge by the control device side discharge control unit 31 can be realized according to the prior art, the description thereof is omitted here.

  The power transfer application unit 46 transfers the user identification information and the power usage right that is the right to use the power stored in the power storage devices (3A, 3B) managed by the user from the user. Accept applications for. The user identification information here may be, for example, user identification information issued at the time of accepting an application for user registration (user registration for receiving a service to transfer power usage rights) from a user at an arbitrary timing. it can. Then, the power transfer application unit 46 transmits the received user identification information and power transfer application to the management server 1 described below via the management server I / F 32. At this time, the power transfer application unit 46 also receives information for identifying the power storage devices (3A, 3B) in which the power for transferring the power usage right is stored from the user, and also includes the management server together with the user identification information and the like. 1 may be transmitted. The power transfer application unit 46 can accept the user identification information and the application for power transfer regardless of whether or not the power storage devices (3A, 3B) are connected to the control device 2. The power transfer here means transfer to the power manager who manages the management server 1.

<Management server 1>
FIG. 3 is a functional block diagram showing an example of the configuration of the management server 1. As illustrated, the management server 1 includes a user management information holding unit 10, a connection state management information holding unit 11, a power transfer acceptance unit 12, a power purchase determination unit 13, a server-side discharge control unit 14, and a control. Device I / F15. In addition, you may have the connection status management information update part 29 further. Hereinafter, the configuration of each unit will be described.

  The user management information holding unit 10 holds user management information, which is information in which user identification information is associated with information for identifying power storage devices (3A, 3B) managed by the user specified by the user identification information. The means for registering such information in the user management information holding unit 10 is not particularly limited, and for example, accepts an application for user registration (user registration for receiving a service for transferring power usage rights) from a user at an arbitrary timing. At that time, user identification information may be issued. In addition, it accepts input of information for identifying the power storage devices (3A, 3B) managed by the user at the time of user registration, and registers the user management information using the received information and the issued user identification information. May be made.

  Here, FIG. 4 schematically shows an example of user management information held by the user management information holding unit 10. According to the illustrated example, the power storage device (storage battery 3B) specified by the identification information “stationary type 1” is specified by the user identification information “a0002” and the user identification information “a0002”. And the user specified by the user identification information “a0003”. It can also be seen that the power storage device (EV3A) specified by the identification information “EV1” is managed by the user specified by the user identification information “a0001”. It can also be seen that the power storage devices (EV3A, storage battery 3B) specified by the identification information of “EV2” and “stationary type 2” are managed by the user specified by the user identification information of “b0001”. Thus, the power storage devices (3A, 3B) may be managed by one user or may be shared and managed by a plurality of users.

  The connection state management information holding unit 11 holds connection state management information, which is information associated with each control device 2 and information for identifying the power storage devices (3A, 3B) connected to each of the plurality of control devices 2. .

  Here, FIG. 5 schematically shows an example of connection state management information held by the connection state management information holding unit 11. According to the illustrated example, the control device 2 specified by the identification information “000001” includes the storage device (storage battery 3B) specified by the identification information “stationary type 1” and the identification information “EV1”. It turns out that it connects with the electrical storage apparatus (EV3A) specified. Further, the control device 2 specified by the identification information “000002” is connected to the power storage device (EV3A) specified by the identification information “EV2”, and the control device 2 specified by the identification information “000004” is It can be seen that the battery is connected to the power storage device (storage battery 3B) specified by the identification information of “stationary type 2”. Then, it can be seen that the control device 2 specified by the identification information “000003” is not connected to any power storage device (3A, 3B). In this way, the control device 2 can be connected to one or more power storage devices (3A, 3B), and even if there is a time zone that is not connected to any power storage device (3A, 3B). Good. The other information shown in FIG. 5 will be described below as appropriate.

  When the connection state management information update unit 29 receives the information transmitted by the connection state transmission unit 45 of the control device 2, the connection state management information update unit 29 holds the connection state management information (FIG. 5) held by the connection state management information holding unit 11 based on the received information. Update).

  The power transfer acceptance unit 12 applies an application for power transfer from the user to transfer user identification information and a power usage right that is a right to use the power stored in the power storage devices (3A, 3B) managed by the user. Accept. The means by which the power transfer acceptance unit 12 accepts the user identification information and the application for power transfer is not particularly limited. For example, the power transfer application unit 46 of the control device 2 controls the user identification information and the application for power transfer received from the user. You may implement | achieve by acquiring via apparatus I / F15. Alternatively, the user identification information and the application for power transfer may be received from a predetermined Web page using a communication device such as a PC or a portable device. In addition to the user identification information and the application for power transfer, the power transfer acceptance unit 12 may also receive information specifying the power storage device (3A, 3B) in which the power for transferring the power usage right is stored. Good. This information can be used to specify one power storage device (3A, 3B), for example, when the user manages a plurality of power storage devices (3A, 3B).

  The power purchase determination unit 13 determines to purchase the right to use power from the user in response to an application for power transfer. The process of the power purchase determination unit 13 may be as follows.

  For example, the power purchase determination unit 13 searches the user management information (see FIG. 4) using the user identification information received by the power transfer acceptance unit 12 as a key, thereby identifying the power storage devices (3A, 3B) managed by the user. It may be determined that the right to use the power stored in the specified power storage device (3A, 3B) is purchased. As another example, for example, the power purchase determination unit 13 searches for user management information (see FIG. 4) using the user identification information received by the power transfer acceptance unit 12 as a key, and stores the power storage device ( 3A, 3B) is identified, and then the connection state management information (see FIG. 5) is searched using the identification information of the identified power storage device (3A, 3B) as a key, and the power storage device (3A, 3B) It is confirmed whether it is connected to the control device 2. When the power storage device (3A, 3B) is connected to any one of the control devices 2, it is decided to purchase the right to use the power stored in the power storage device (3A, 3B). May be. On the other hand, when the power storage device (3A, 3B) is not connected to any control device 2, the power purchase determination unit 13 may determine not to purchase the right to use the power in response to the application for power transfer. . In addition, when the power transfer acceptance unit 12 receives information identifying the power storage device (3A, 3B) in which the power to be transferred is stored from the user, the power purchase determination unit 13 sets the power storage device (3A, 3B, 3B) determines whether it is connected to one of the control devices 2, and if it is connected, decides to purchase the right to use the power stored in the power storage device (3A, 3B). May be.

  When the power purchase determination unit 13 determines the purchase of the power usage right, the server-side discharge control unit 14 connects the control device 2 connected to the power storage devices (3A, 3B) managed by the user who applied for the power transfer. A control signal is transmitted to control the discharge of power stored in the power storage devices (3A, 3B). That is, the power manager who manages the management server can freely discharge the power stored in the power storage devices (3A, 3B). Note that the power manager can arbitrarily determine the timing of discharging power from the power storage devices (3A, 3B) that controlled the discharge. For example, when a power usage right of power stored in a mobile power storage device such as EV3A is purchased, discharging may be performed at the timing when the power usage right is purchased. In addition, when a right to use power stored in a stationary power storage device such as the storage battery 3B (a power storage device connected to the control device 2 at all times) is purchased, from the time of purchasing the power usage right You may discharge at arbitrary timings after predetermined time progress. The discharge at such timing may be performed in response to an instruction input from the power manager managing the management server 1 or may be performed according to processing of a predetermined program.

  Next, an example of the processing flow of the management server 1 of the present embodiment will be described using the flowchart of FIG.

  First, when receiving an application for power transfer from the user (step S1: power transfer acceptance unit 12), the management server 1 determines to purchase the right to use power (step S2: power purchase determination unit 13).

  Next, the management server 1 controls the control device 2 connected to the power storage device (3A, 3B) in which the power determined to purchase the right to use the power is stored, so that the power storage device (3A, 3B) ) Is controlled (step S3: server-side discharge control unit 14).

  Thereafter, the management server 1 discharges power from the power storage devices (3A, 3B) whose discharge has been controlled in Step S3 at an arbitrary timing (Step S4: server-side discharge control unit 14).

  According to such a power management system of the present embodiment, the power manager purchases the right to use green power stored in the power storage devices (3A, 3B) from the user, and purchases it at an arbitrary timing. It is possible to use the electric power flowing through the grid.

  As a result, power managers can increase the amount of green power they use, and they can eliminate green power management instability due to geographical factors by purchasing green power from users in various regions. It is possible to simultaneously stabilize the grid and increase the amount of renewable energy introduced.

  In addition, according to the said description, invention of the program shown below and invention of the power management method are also made | formed.

  A plurality of power storage devices that store power; a plurality of control devices that are communicably connected to any of the plurality of power storage devices; and a plurality of the control devices that are connected to each other via a network; A program for causing the control device of the power management system to control the computer to execute a function of controlling the discharge of the connected power storage device in accordance with the control by the management server program.

  Identifying a plurality of power storage devices that store electric power, a plurality of control devices that are communicably connected to any of the plurality of power storage devices, and the power storage device managed by a user specified by user identification information and the user identification information User management information, which is information associated with information to be connected, and connection state management information, which is information associated with each control device, information identifying the power storage device connected to each of the plurality of control devices And a management server connected to each of the plurality of control devices via a network and controlling the plurality of control devices, and causing the management server of the power management system to execute the program, Power usage, which is the right to use the user identification information and the power stored in the power storage device managed by the user from the user A power transfer acceptance step for accepting a power transfer application for transferring the power, a power purchase determination step for determining to purchase the right to use the power from the user in response to the power transfer application, and a purchase in the power purchase determination step. A discharge control step of controlling the control device connected to the power storage device managed by the user who applied for the power transfer and controlling the discharge of the power stored in the power storage device; A program for causing a computer to execute.

  Identifying a plurality of power storage devices that store electric power, a plurality of control devices that are communicably connected to any of the plurality of power storage devices, and the power storage device managed by a user specified by user identification information and the user identification information User management information, which is information associated with information to be connected, and connection state management information, which is information associated with each control device, information identifying the power storage device connected to each of the plurality of control devices And a management server for controlling the plurality of control devices by connecting to each of the plurality of control devices via a network, wherein the management server is the user To transfer the user identification information and the right to use power, which is the right to use the power stored in the power storage device managed by the user. A power transfer acceptance step for accepting an application for power transfer; a power purchase determination step for determining that the management server purchases the power usage right from the user in response to the power transfer application; and When the purchase is determined in the power purchase determination step, the control device connected to the power storage device managed by the user who applied for the power transfer is controlled, and the power stored in the power storage device is discharged. A server-side discharge control step for controlling the power supply, and a control device-side discharge control step for controlling the discharge of the connected power storage device according to the control in the server-side discharge control step.

<Embodiment 2>
The power management system of the present embodiment is based on the first embodiment and is different in the following points. First, an example of the outline of the present embodiment will be described.

  The management server 1 of the present embodiment receives an application for power transfer from a user by specifying a quantity. Then, when the right to use the amount of power is purchased, the control unit controls the discharge of only the power purchased for the right to use the electric power stored in the power storage devices (3A, 3B) managed by the user. That is, other power can be discharged freely by the user.

  For example, consider a case where a power manager purchases a power usage right for 10 kw out of 30 kw of power stored in the power storage devices (3A, 3B) managed by the user. In such a case, the power manager can discharge 10 kW of power from the power storage devices (3A, 3B) at an arbitrary timing. On the other hand, the user who has transferred the right to use the power can freely discharge the power remaining after subtracting the amount of the right to use the power from the power stored in the power storage devices (3A, 3B). Note that the “transferred power usage right” here is initially 10 kW, but is a concept that decreases in conjunction with the discharge by the power manager.

  Hereinafter, the configuration of each device constituting the power management system of the present embodiment will be described.

<Control device 2>
The control device 2 of the present embodiment is based on the control device 2 of the first embodiment. FIG. 7 is a functional block diagram showing an example of the configuration of the control device 2 of the present embodiment. As illustrated, the control device 2 includes a control device-side discharge control unit 31, a management server I / F 32, a power storage device I / F 33, a user I / F 34, a power storage amount acquisition unit 35, and a power storage amount transmission unit. 36. In addition, you may have the connection state transmission part 45 and / or the power transfer application part 46 further. Hereinafter, the configuration of each unit will be described. Since the management server I / F 32, the power storage device I / F 33, the user I / F 34, and the connection state transmission unit 45 are the same as those described in the first embodiment, the description thereof is omitted.

  The storage amount acquisition unit 35 acquires information indicating the storage amount of the connected storage devices (3A, 3B) from the storage device. The means by which the storage amount acquisition unit 35 acquires the information indicating the storage amount is not particularly limited. For example, information on a meter indicating the storage amount provided in the storage device (3A, 3B) is connected to the connected storage device (3A 3B).

  Although the timing at which the storage amount acquisition unit 35 acquires the storage amount is not particularly limited, for example, information indicating the storage amount may be acquired at the timing when the control device 2 is connected to the storage device (3A, 3B). . After that, while the control device 2 is connected to the power storage devices (3A, 3B), the power storage amount acquisition unit 35 may continue to acquire information indicating the power storage amount constantly or intermittently. For example, the storage amount acquisition unit 35 acquires information indicating the storage amount from the storage device (3A, 3B) at regular intervals (eg, every 0.1 second, every 1 second, every 1 minute, every 5 minutes, etc.). You may keep doing.

  The storage amount transmitting unit 36 is connected to the information indicating the storage amount of the connected storage device (3A, 3B) acquired by the storage amount acquisition unit 35 (hereinafter referred to as “storage amount information”). The information is transmitted to the management server 1 in association with information for identifying the devices (3A, 3B).

  In addition, the storage amount transmission unit 36 may transmit all the storage amount information acquired by the storage amount acquisition unit 35 to the management server 1 in real time, or while the variation amount of the storage amount is larger than a predetermined value. Transmits all the storage amount information in real time, and while the fluctuation amount of the storage amount is smaller than a predetermined value, the storage amount information at a relatively long fixed time (eg every 5 minutes, every 10 minutes, etc.) in real time You may transmit to the management server 1. The fluctuation amount of the charged amount can be calculated based on the information acquired by the charged amount acquisition unit 35. In addition, the storage amount transmission unit 36 may transmit the latest storage amount information to the management server 1 at the time when the inquiry about the storage amount information is received from the management server 1 as a trigger. The timing at which the management server 1 inquires about the storage amount information may be, for example, when the power is discharged in a predetermined area or when the user has applied for power transfer.

  The power transfer application unit 46 is based on the configuration of the first embodiment, and when receiving user identification information and an application for power transfer from the user, also receives information indicating the amount of power to which the power usage right is transferred. The power transfer application unit 46 also transmits information indicating the amount of power to be transferred to the management server 1 together with the received user identification information and the like.

  The control device-side discharge control unit 31 controls the discharge of a predetermined amount of power stored in the connected power storage devices (3A, 3B). That is, the power manager managing the management server 1 can freely discharge a predetermined amount of power stored in the power storage device (EV 3A, storage battery 3B, etc.). The discharge of the predetermined amount of power by the control device-side discharge control unit 31 is, for example, information on a meter indicating the amount of power provided in the power storage device (3A, 3B) or the amount of power stored by the power storage amount acquisition unit 35. It can be realized using.

Here, as one form of discharge control, the control device-side discharge control unit 31 is connected to the power storage devices (3A, 3B) so that a predetermined amount of power is continuously stored in the power storage devices (3A, 3B). ) May be controlled. Here, the predetermined amount corresponds to the amount purchased by the power manager. Further, the “amount of purchased power usage right” (hereinafter referred to as “purchased amount”) is the power from the power storage device (3A, 3B) under the control of the management server 1 (server-side discharge control unit 14). This is a concept that decreases when the battery is discharged. Means for realizing such a configuration is not particularly limited. For example, the control device-side discharge control unit 31 constantly monitors a value obtained by subtracting the purchase amount from the stored power amount of the connected power storage devices (3A, 3B). If this value is equal to or greater than the predetermined value, both the user and the power manager can freely discharge, and if this value is smaller than the predetermined value, the user can discharge from the power storage device (3A, 3B). Instead, it may be realized by controlling so that only the power manager can discharge from the power storage device (3A, 3B). In addition, the means by which the control device-side discharge control unit 31 acquires the purchase amount is not particularly limited, and is realized by acquiring the information held by the dischargeable power amount information holding unit 18 of the management server 1 described below. May be. Alternatively, as described in the following embodiment, when the purchase amount is managed in the control device 2 (transfer power amount management unit 38), it may be realized by acquiring the information.
<Management server 1>

  The management server 1 of this embodiment is based on the management server 1 of the first embodiment. FIG. 8 is a functional block diagram showing an example of the configuration of the management server 1 of this embodiment. As illustrated, the management server 1 includes a user management information holding unit 10, a connection state management information holding unit 11, a power transfer acceptance unit 12, a power purchase determination unit 13, a server-side discharge control unit 14, and a control. A device I / F 15, a storage amount receiving unit 16, and a transfer amount receiving unit 17 are included. Further, the dischargeable power amount information holding unit 18 and the dischargeable power amount information update unit 19 may be included, or in addition to or instead of the connection state management information update unit 29. Hereinafter, the configuration of each unit will be described. Note that the user management information holding unit 10, the connection state management information holding unit 11, the power transfer acceptance unit 12, the control device I / F 15, and the connection state management information update unit 29 are the same as described in the first embodiment. The description is omitted.

  The storage amount receiving unit 16 receives the storage amount information transmitted by the storage amount transmission unit 36 of the control device 2.

  The transfer amount reception unit 17 receives the amount of power to be transferred from the user together with the application for power transfer. The means for receiving the amount of power to be transferred is not particularly limited, and can be realized according to the means for receiving the user identification information and the application for power transfer by the power transfer receiving unit 12 described in the first embodiment.

  The power purchase determination unit 13 is based on the configuration of the first embodiment, and searches for user management information (see FIG. 4) and connection state management information (see FIG. 5) using the user identification information received by the power transfer acceptance unit 12 as a key. And one or more specified power storage devices (3A, 3B) managed by the user after specifying one or more power storage devices (3A, 3B) connected to any of the control devices 2 In consideration of the amount of electricity stored in the power storage devices (3A, 3B), it is determined to purchase the right to use the power. As shown in FIG. 5, the power storage device (3A, 3B) connected to one of the control devices 2 can be associated with the storage amount based on the storage information received by the storage amount receiving unit 16. it can.

  For example, the power purchase determination unit 13 uses the information shown in FIG. 5, the amount of power that has been applied for transfer, and the power storage device (3A, 3B) managed by the user, You may decide to purchase the right to use power within the range of the amount of power stored in the power storage devices (3A, 3B) connected to any of the control devices 2 at the time. When the user manages a plurality of power storage devices (3A, 3B), the power purchase determination unit 13 determines the amount of power that has been applied for transfer and the power storage device managed by the user ( 3A, 3B) and decides to purchase the right to use power within the range of the total amount of electricity stored in the plurality of power storage devices (3A, 3B) connected to any of the control devices 2 at that time. Also good.

  The dischargeable power amount information holding unit 18 holds dischargeable power amount information, which is information indicating the amount of power that the server-side discharge control unit 14 can control to discharge by purchasing the right to use power.

  Here, FIG. 9 schematically shows an example of dischargeable power amount information held by the dischargeable power amount information holding unit 18. In the example shown in FIG. 9, the server-side discharge control unit 14 can control the discharge for 3 kW in the electric power stored in the power storage device (storage battery 3B) specified by the identification information of “stationary type 1”. I understand. In addition, the power for 3 kw is purchased according to the application from the user of the user identification information “a0002” managing the power storage device (storage battery 3B) specified by the identification information of “stationary type 1” (1 kw) It can be seen that this is the total value (2 kw) purchased according to the application from the user of the user identification information “a0003”. Moreover, it turns out that the server side discharge control part 14 can control the discharge for 2 kw in the electric power currently stored in the electrical storage apparatus (storage battery 3B) specified by the identification information of "stationary type 2". However, the server-side discharge control unit 14 discharges the electric power stored in the power storage device (storage battery 3B) specified by the identification information “EV1” and the power storage device (EV3A) specified by the identification information “EV2”. It can be seen that cannot be controlled.

  The dischargeable power amount information update unit 19 acquires discharge information indicating the discharge of power by the server-side discharge control unit 14, and based on the discharge information and the content determined by the power purchase determination unit 13, the dischargeable power amount information ( (See FIG. 9). The “discharge information” includes information for identifying the power storage devices (3A, 3B) that have discharged power and information indicating the amount of discharge. The “determination content” by the power purchase determination unit 13 includes information for identifying the power storage devices (3A, 3B) in which the power purchased for the power usage right is stored and information indicating the amount of power purchased for the power usage right. Is included. The content determined by the power purchase determination unit 13 may further include user identification information of a user who has transferred the power usage right.

  The server-side discharge control unit 14 is based on the configuration of the first embodiment, and controls the discharge of the power stored in the power storage devices (3A, 3B) based on the dischargeable power amount information (see FIG. 9). That is, the power storage device (3A, 3B) that discharges power and the discharge amount are determined based on the dischargeable power amount information (see FIG. 9), and the power is discharged according to the determined content. Note that when discharging power from the EV 3A, the server-side discharge control unit 14 may determine the discharge amount so that a predetermined amount of power remains in the EV 3A. This is to prevent the EV 3A from being unable to move due to power shortage.

  Since the processing flow of the management server 1 of the present embodiment is the same as that of the management server 1 of the first embodiment, description thereof is omitted here.

  According to such a power management system of the present embodiment, the power manager can discharge by purchasing and securing the right to use green power stored in the power storage device (EV3A, storage battery 3B, etc.) in advance from the user. It is possible to grasp the amount of electric power, and to discharge the purchased electric power at an arbitrary timing based on a predetermined electric power usage plan.

  That is, the power manager can systematically control the amount of green power flowing through the grid, and as a result, the grid can be stabilized and the amount of renewable energy introduced can be increased.

  In addition, since the user can transfer to the power manager the green power that is used by the user, excluding the power used by the user, the user can appropriately balance self-consumption and transfer. It is possible to effectively use the generated green power.

<Embodiment 3>
The power management system of the present embodiment is based on the first or second embodiment, and differs in the following points. First, an example of the outline of the present embodiment will be described.

  In the management server 1 of the present embodiment, the power manager arbitrarily purchases the right to use the surplus power remaining after subtracting a predetermined amount of the power stored in the power storage devices (3A, 3B) from the user. Transfer under the condition that can be accepted, and accept the application of the predetermined amount. In this case, the power manager can freely purchase the power usage right of surplus power stored in the power storage devices (3A, 3B) managed by the user at an arbitrary timing. In addition, the user can freely use a predetermined amount of power set by the user stored in the power storage devices (3A, 3B).

  Hereinafter, the configuration of each device constituting the power management system of the present embodiment will be described.

<Control device 2>
The control device 2 of the present embodiment is based on the control device 2 of the first or second embodiment. An example of a functional block diagram of the control device 2 of the present embodiment is the same as the functional block diagram (see FIG. 7) of the control device 2 of the second embodiment. As illustrated in FIG. 7, the control device 2 of the present embodiment includes a control device-side discharge control unit 31, a management server I / F 32, a power storage device I / F 33, a user I / F 34, and a power storage amount acquisition unit 35. And a storage amount transmission unit 36. In addition, you may have the connection state transmission part 45 and / or the power transfer application part 46 further. Hereinafter, the configuration of each unit will be described. Note that the control device-side discharge control unit 31, the management server I / F 32, the power storage device I / F 33, the user I / F 34, the power storage amount acquisition unit 35, the power storage amount transmission unit 36, and the connection state transmission unit 45 are embodiments. Since it is the same as the description in 1 or 2, the description is omitted.

  The power transfer application unit 46 is based on the configuration of the first or second embodiment, and includes the power stored in the power storage device (3A, 3B) managed by the user who applied for the application together with the application for power transfer from the user. Transfer of the surplus power remaining after subtracting a predetermined amount of power in the condition under which the power manager can arbitrarily purchase the power (hereinafter referred to as “condition transfer”) and a predetermined amount of application are accepted. The predetermined amount is an amount that can be arbitrarily determined by the user. For example, the predetermined amount may be an amount of power that the user intends to use to drive the EV or other electrical appliance. The power transfer application unit 46 transmits information indicating that the application for condition transfer has been received and information indicating the predetermined amount to the management server 1 together with the received user identification information and the like.

<Management server 1>
The management server 1 of this embodiment is based on the management server 1 of the first or second embodiment. FIG. 10 is a functional block diagram illustrating an example of the configuration of the management server 1. As illustrated, the management server 1 includes a user management information holding unit 10, a connection state management information holding unit 11, a power transfer acceptance unit 12, a power purchase determination unit 13, a server-side discharge control unit 14, and a control. The device I / F 15, the storage amount receiving unit 16, the condition transfer receiving unit 20, and the condition information holding unit 21 are included. Furthermore, a connection state management information update unit 29 may be provided. In addition to or instead of the connection state management information updating unit 29, although not shown, the transfer amount receiving unit 17 may be included. In addition to or instead of this, the dischargeable power amount information holding unit 18 and You may have the dischargeable electric energy information update part 19. FIG. Hereinafter, the configuration of each unit will be described. In addition, the user management information holding unit 10, the connection state management information holding unit 11, the power transfer receiving unit 12, the control device I / F 15, the storage amount receiving unit 16, the transfer amount receiving unit 17, the dischargeable power amount information holding unit 18, The dischargeable power amount information update unit 19 and the connection state management information update unit 29 are the same as those described in the first or second embodiment, and thus description thereof is omitted.

  The condition transfer acceptance unit 20 surplus remaining after subtracting a predetermined amount of power stored in the power storage device (3A, 3B) managed by the user who applied for the application, together with the application for power transfer, from the user Transfers under the condition that the power manager can arbitrarily purchase the power usage right of power (hereinafter referred to as “condition transfer”) and a predetermined amount of application are accepted. The means by which the condition transfer acceptance unit 20 accepts the application for condition assignment and the predetermined amount of application are not particularly limited, and the power transfer acceptance unit 12 described in the first embodiment is a means for accepting the user identification information and the application for power transfer. It can be realized accordingly.

  The condition information holding unit 21 holds the user identification information, the condition transfer received by the condition transfer receiving unit 20 and the condition information indicating the predetermined amount of content in association with each other.

  Here, FIG. 11 schematically shows an example of the condition information held by the condition information holding unit 21. In the example shown in FIG. 11, it can be seen that the power manager accepts two conditions transfer applications from the user of the user identification information “a0001”. Further, the power manager subtracts 10 kW from the power stored in the power storage device (storage battery 3B) specified by the identification information of “stationary type 1” managed by the user of the user identification information “a0001”. It can be seen that the right to use the surplus power remaining afterward can be purchased arbitrarily. Note that conditions other than the predetermined amount may be attached to the condition information. For example, as in the example illustrated in FIG. 11, the power storage device (EV3A) specified by the identification information “EV1” managed by the user having the user identification information “a0001” is specified by the identification information “000002”. Only when connected to the power storage unit (EV1) under the condition that the power manager can arbitrarily purchase the right to use the surplus power remaining after subtracting 5 kw from the power stored in the power storage measure (EV1) There may be. This is merely an example, and other conditions may be added to the condition information.

  The power purchase determination unit 13 is based on the configuration of the first or second embodiment, and indicates condition information (see FIG. 11), connection state management information (see FIG. 5), and the amount of electricity stored in the power storage devices (3A, 3B). After specifying the power storage devices (3A, 3B) that can purchase the power usage right based on the condition information using the stored power amount information, the power of the power stored in the specified power storage devices (3A, 3B) Decide to purchase usage rights.

  For example, the power purchase determination unit 13 first uses the condition information (see FIG. 11) to identify the power storage devices (3A, 3B) that can purchase the power usage right based on the condition information. Thereafter, the power purchase determination unit 13 uses the connection state management information (see FIG. 5), and the power storage connected to any of the control devices 2 at that time among the specified power storage devices (3A, 3B). The device (3A, 3B) is extracted. Next, the power purchase determination unit 13 has surplus power that can be used to purchase a right to use power at that time, using the amount of power stored in each of the extracted power storage devices (3A, 3B) and the condition information. The power storage device (3A, 3B) is specified, and it is determined to purchase a predetermined amount of power usage right from the specified power storage device (3A, 3B). The flow of the above process is merely an example, and the power purchase determination unit 13 may determine to purchase the right to use the power according to the flow of other processes. In addition, even when other conditions other than the predetermined amount are attached to the condition information, the power purchase determination unit 13 can determine to purchase the right to use power in accordance with the above processing example.

  The server-side discharge control unit 14 is based on the configuration of the first or second embodiment, and within the range of the amount of power that the power purchase determination unit 13 has purchased the power usage right based on the condition information, the power storage devices (3A, 3B) The discharge of the electric power stored in the is controlled.

  Next, an example of the processing flow of the management server 1 of the present embodiment will be described using the flowchart of FIG.

  First, when purchasing the power usage right based on the condition information, the management server 1 uses the condition information (refer to FIG. 11) and can purchase the power usage right based on the condition information (3A, 3A, 3B) is specified (step S1: power purchase determination unit 13).

  Thereafter, the management server 1 uses the connection state management information (see FIG. 5) and is connected to one of the control devices 2 at that time among the power storage devices (3A, 3B) identified in step S1. The power storage devices (3A, 3B) are extracted (step S2: power purchase determination unit 13).

  Next, the management server 1 has surplus power that can be used to purchase a right to use power at that time, using the amount of power stored in each power storage device (3A, 3B) extracted in step S2 and the condition information. The power storage devices (3A, 3B) that are present are specified (step S3: power purchase determination unit 13).

  Thereafter, the management server 1 purchases a predetermined amount of power usage right in the power stored in any one of the power storage devices (3A, 3B) specified in step S3. (Step S4: power purchase determination unit 13).

  Next, the management server 1 controls the control device 2 connected to the power storage device (3A, 3B) that has decided to purchase the power usage right, thereby discharging power from the power storage device (3A, 3B). (Step S5: server-side discharge control unit 14).

  Thereafter, the management server 1 discharges power from the power storage devices (3A, 3B) whose discharge has been controlled in Step S5 at an arbitrary timing (Step S6: server-side discharge control unit 14).

  According to such a power management system of the present embodiment, the power manager can set the power usage right of the surplus power in the green power stored in the power storage device (EV3A, storage battery 3B, etc.) from the user at an arbitrary timing. Thus, it is possible to purchase an arbitrary amount and to discharge the electric power purchased at an arbitrary timing.

  In other words, the power manager has not purchased the right to use power, but can secure auxiliary green power that can be treated as potentially purchased, resulting in stabilization of the grid, Increase in the amount of renewable energy introduced.

  In addition, if the user applies for the transfer under the above-mentioned conditions, after that, the surplus power excluding the power used by the self-generated green power will be transferred to the power manager without troublesome procedures. Can be transferred. That is, each time surplus power is generated, the user need not make an application to transfer the surplus power to the power manager. For this reason, it is possible to avoid the inconvenience that the surplus power is stored for a long time in the power storage device managed by the user as it is without applying for transfer due to the troublesome application of surplus power in each case. As a result, green power can be used efficiently.

<Embodiment 4>
The power management system of the present embodiment is based on any one of the first to third embodiments, and differs in the following points. First, an example of the outline of the present embodiment will be described.

  The management server 1 of this embodiment holds the position information of the control device 2. And when discharging electric power from any of the power storage devices (3A, 3B), it is connected to the control device 2 installed in the area where the power is supplied or to the control device 2 installed in the vicinity thereof. Electric power is discharged from the power storage devices (3A, 3B).

  According to such a configuration, the transport distance of power can be minimized, and as a result, power loss due to power transport can be suppressed.

  Hereinafter, the configuration of each device constituting the power management system of the present embodiment will be described.

<Control device 2>
The control device 2 of the present embodiment can have the same configuration as that of any one of the first to third embodiments. Therefore, the description here is omitted.

<Management server 1>
The management server 1 of the present embodiment is based on any one of the first to third embodiments, and further includes a position information holding unit 30. FIG. 13 is a functional block diagram showing an example of the configuration of the management server 1. As illustrated, the management server 1 includes a user management information holding unit 10, a connection state management information holding unit 11, a power transfer acceptance unit 12, a power purchase determination unit 13, a server-side discharge control unit 14, and a control. Device I / F 15, storage amount receiving unit 16, transfer amount receiving unit 17, dischargeable power amount information holding unit 18, dischargeable power amount information updating unit 19, condition transfer receiving unit 20, and condition information holding The unit 21, the connection state management information updating unit 29, and the position information holding unit 30 can be used. Hereinafter, the configuration of each unit will be described. In addition, about all parts other than the positional information holding | maintenance part 30 and the server side discharge control part 14, since it is the same as that of description in any one of Embodiment 1 thru | or 3, description is abbreviate | omitted.

  The position information holding unit 30 holds information indicating the position where the control device 2 is installed (hereinafter referred to as “position information”). Here, FIG. 14 schematically shows an example of position information. According to the example shown in FIG. 14, the control device 2 identified by the identification information “000001” is installed in the “α region”, and the identification of the control device 2 identified by the identification information “000002” and “000003”. It can be seen that the control device 2 specified by the information is installed in the “β region”, and the control device 2 specified by the identification information “000003” is installed in the “γ region”. The position information may be information indicating an area occupying a certain range as in this example, or may be information specifying the position where each control device 2 is installed by latitude / longitude. Good. The information indicating the area occupying a certain range may be, for example, the prefecture name, city name, ward name, town name or village name of the address, or the postal code. This is merely an example, and the information indicating a region having a certain range may be other information.

  The server-side discharge control unit 14 determines a power storage device (3A, 3B) that discharges electric power in consideration of a position where the control device 2 is installed. That is, the server-side discharge control unit 14 uses the position information (see FIG. 14) to determine the power storage devices (3A, 3B) that discharge power. For example, the server-side discharge control unit 14 may perform the following process.

  First, the server-side discharge control unit 14 acquires information indicating a region where power is supplied. The means for acquiring this information is not particularly limited. For example, it may be realized by acquiring information input by the power manager, or it may be implemented in a program that operates to supply power to consumers. You may implement | achieve by acquiring the information which shows the area which supplies the electric power determined based on. For example, it is assumed that the server-side discharge control unit 14 acquires “α region” as information indicating a region where power is supplied.

  Thereafter, the server-side discharge control unit 14 searches the position information (see FIG. 14) and identifies the control device 2 installed in the area where power is supplied. For example, the server-side discharge control unit 14 searches for the control device 2 installed in “α region”, and specifies the control device 2 specified by the identification information “000001”.

  Next, the server-side discharge control unit 14 searches the connection state management information (see FIG. 5) and extracts the power storage devices (3A, 3B) connected to the specified control device 2. For example, the server-side discharge control unit 14 includes the power storage device (storage battery 3B) specified by the identification information of “stationary type 1” connected to the control device 2 specified by the identification information “000001” and “EV1”. The power storage device (EV3A) identified by the identification information is extracted.

  Thereafter, the server-side discharge control unit 14 searches the dischargeable power amount information (see FIG. 9), for example, and uses the extracted power storage devices (3A, 3B) to obtain the dischargeable power obtained by purchasing the power usage right. The power storage device (3A, 3B) storing power is specified. For example, the server-side discharge control unit 14 specifies a power storage device (storage battery 3B) specified by the identification information of “stationary type 1” that stores 3 kw of dischargeable power. Then, the server-side discharge control unit 14 discharges a predetermined amount of power from the specified power storage device (storage battery 3B). Thereafter, the dischargeable power amount information (see FIG. 9) is updated by the dischargeable power amount information update unit 19.

  In addition, the server-side discharge control unit 14 retrieves the connection state management information (see FIG. 5), extracts the power storage devices (3A, 3B) connected to the identified control device 2, and then selects the condition from the condition. Based on the information (see FIG. 11), the power storage devices (3A, 3B) that can purchase the right to use power may be specified, and a predetermined amount of power may be discharged from the specified power storage devices (3A, 3B).

  Next, an example of the processing flow of the management server 1 of the present embodiment will be described with reference to the flowchart of FIG. The following process is realized by the server-side discharge control unit 14.

  First, the management server 1 specifies an area where power is supplied (step S1). Thereafter, the management server 1 searches the position information (see FIG. 14), and specifies the control device 2 installed in the area specified in step S1 (step S2).

  Next, the management server 1 searches the connection state management information (see FIG. 5), and extracts the power storage devices (3A, 3B) connected to the control device 2 identified in step S2 (step S3).

  Thereafter, the management server 1 searches for the dischargeable electric energy information (see FIG. 9) and / or uses the condition information (see FIG. 11), and the power storage devices (3A, 3B) extracted in step S3. From among them, the power storage devices (3A, 3B) for discharging power are determined (step S4).

  And the management server 1 controls the control apparatus 2 connected to the electrical storage apparatus (3A, 3B) determined by step S4, and discharges electric power (step S5).

  According to such a power management system of the present embodiment, the power manager can supply green power obtained by purchasing power usage rights from the user to other consumers while minimizing the transport distance. For this reason, the electric power loss by electric power transport can be suppressed.

  That is, the power manager can efficiently use the green power obtained by purchasing the power usage right from the user without waste.

<Embodiment 5>
The power management system of the present embodiment is based on any one of the first to fourth embodiments, and differs in the following points. First, an example of the outline of the present embodiment will be described.

  The control device 2 according to the present embodiment can manage information related to the transfer of power usage rights performed by any one or more users. For example, in the case of the example shown in FIG. 1, the control device 2 installed at the user's home can manage information related to the transfer of the power usage right performed by the user.

  According to such a configuration, the user can easily grasp the information related to the transfer of the power usage right performed by the user, and as a result, the power stored in the power storage devices (3A, 3B) managed by the user. Can be appropriately managed (self-consumption / transfer).

  Hereinafter, the configuration of each device constituting the power management system of the present embodiment will be described.

<Management server 1>
The management server 1 according to the present embodiment is based on any one of the first to fourth embodiments, and further includes a server-side management user information holding unit 23 and a determination content transmission unit 24. Furthermore, you may have the discharge information transmission part 25. FIG. FIG. 16 is a functional block diagram showing an example of the configuration of the management server 1 in the present embodiment. As illustrated, the management server 1 includes a user management information holding unit 10, a connection state management information holding unit 11, a power transfer acceptance unit 12, a power purchase determination unit 13, a server-side discharge control unit 14, and a control. Device I / F 15, storage amount receiving unit 16, transfer amount receiving unit 17, dischargeable power amount information holding unit 18, dischargeable power amount information updating unit 19, condition transfer receiving unit 20, and condition information holding Unit 21, server-side management user information holding unit 23, determination content transmission unit 24, discharge information transmission unit 25, connection state management information update unit 29, and position information holding unit 30. Can do. Hereinafter, the configuration of each unit will be described. Since all the units other than the server-side management user information holding unit 23, the determination content transmission unit 24, and the discharge information transmission unit 25 are the same as those described in any one of the first to fourth embodiments, Description is omitted.

  The server-side management user information holding unit 23 holds information for identifying the control device 2 and user identification information of a user whose control device 2 should manage information related to transfer of power usage rights in association with each other. “Information on transfer of power usage right” refers to information indicating the amount of transfer of the power usage right by the user or the management server 1 in the power stored in the power storage devices (3A, 3B) managed by the user. Information indicating the amount of electric power whose discharge is controlled, information indicating a bond obtained by transferring a right to use power by the user, and the like can be considered. In addition, the information which shows the credit obtained by the user transferring the right to use power will be described in the following embodiment.

  Here, FIG. 17 schematically shows an example of information held by the server-side management user information holding unit 23. In the example illustrated in FIG. 17, the control device 2 identified by the identification information “000001” includes the user identified by the user identification information “a0001”, the user identified by the user identification information “a0002”, and It can be seen that information related to the transfer of the power usage right of the user specified by the user identification information “a0003” is managed. As described above, the control device 2 may manage information related to the transfer of power usage rights of a plurality of users, or may manage information related to the transfer of power usage rights of only one user. In addition, the control device 2 may not manage any information related to the transfer of the user's power usage right.

  The means for generating information as shown in FIG. 17 is not particularly limited, but may be as follows. For example, the control apparatus 2 manages information related to the transfer of the power usage right, triggered by receiving a predetermined input (user identification information and an instruction input for managing information related to the transfer of the power usage right) from the user. Start. When the control device 2 starts managing information related to the transfer of the power usage right, the control device 2 transmits to the management server 1 the user identification information of the user to be managed. And the management server 1 may create the information (refer FIG. 17) which the server side management user information holding part 23 hold | maintains based on the received information. The means by which the control device 2 starts managing information related to the transfer of the power usage right of a predetermined user is not limited to the above example, and may be other means.

  When the power purchase determination unit 13 determines to purchase the power usage right, the determination content transmission unit 24 transmits the determination content to the control device 2 associated with the user who has transferred the power usage right. “The control device 2 associated with the user who has transferred the power usage right” is associated with the user who has transferred the power usage right in the information held by the server-side management user information holding unit 23 (see FIG. 17). It is the control device 2 that is present. That is, the control device 2 manages information related to the transfer of the power usage right of the user who has transferred the power usage right. Note that the “determination content” here includes the user identification information of the user to whom the power usage right has been transferred, the amount of power to which the power usage right has been transferred, and the power storage device (3A, 3B) in which the transferred power is stored. The information for identifying is included.

  The discharge information transmission part 25 transmits the discharge information which shows the discharge of the electric power by the server side discharge control part 14 to the control apparatus 2 with which the user who manages the electrical storage apparatus (3A, 3B) which discharged electric power is linked | related. “Control device 2 associated with a user who manages power storage devices (3A, 3B) that have discharged power” refers to the information stored in server-side management user information holding unit 23 (see FIG. 17). It is the control apparatus 2 with which the user who manages the stored electrical storage apparatus (3A, 3B) is associated. Here, the “discharge information” includes information for identifying the power storage devices (3A, 3B) that have discharged power, and information indicating the amount of discharge.

<Control device 2>
The control device 2 according to the present embodiment is based on any one of the first to fourth embodiments, and further includes a control device-side management user information holding unit 37, a transferred power amount management unit 38, a determination content receiving unit 39, and a power amount. The update unit 40 and the management power storage device information holding unit 47 are included. In addition, you may have the discharge information receiving part 41 further. FIG. 18 is a functional block diagram illustrating an example of the configuration of the control device 2. As illustrated, the control device 2 includes a control device-side discharge control unit 31, a management server I / F 32, a power storage device I / F 33, a user I / F 34, a power storage amount acquisition unit 35, and a power storage amount transmission unit. 36, control device side management user information holding unit 37, transferred power amount management unit 38, determination content reception unit 39, power amount update unit 40, discharge information reception unit 41, connection state transmission unit 45, The power transfer application unit 46 and the management power storage device information holding unit 47 may be included. Hereinafter, the configuration of each unit will be described. It should be noted that all but the control device-side management user information holding unit 37, the transferred power amount management unit 38, the determination content receiving unit 39, the power amount updating unit 40, the discharge information receiving unit 41, and the management power storage device information holding unit 47. About the part, since it is the same as the description in any one of Embodiments 1 to 4, the description is omitted.

  The control device side management user information holding unit 37 holds user identification information of a user who should manage information related to the transfer of power usage rights. Since “information regarding the transfer of the right to use power” is as described above, the description thereof is omitted here. For example, when the control device 2 receives a predetermined input from the user (an instruction input for managing information relating to transfer of user identification information and power usage right), the control device 2 receives the input to the control device side management user information holding unit 37. You may comprise so that user identification information may be hold | maintained and the management of the information regarding transfer of the user's power usage right specified by the user identification information may be started.

  The management power storage device information holding unit 47 is information that identifies power storage devices (3A, 3B) managed by the user specified by the user identification information in association with the user identification information held by the control device side management user information holding unit 37. Hold.

  Here, FIG. 19 schematically shows an example of information held by the management power storage device information holding unit 47. In the example shown in FIG. 19, the control device 2 is specified by a user specified by user identification information “a0001”, a user specified by user identification information “a0002”, and user identification information “a0003”. It can be seen that the information regarding the transfer of the power usage right of the user is managed. The user specified by the user identification information “a0001” is the power storage device (storage battery 3B) specified by the identification information “stationary type 1” and the power storage device (EV3A) specified by the identification information “EV1”. ), And the user specified by the user identification information “a0002” and the user specified by the user identification information “a0003” are identified by the identification information “stationary type 1”. It turns out that (storage battery 3B) is managed. That is, the power storage device (storage battery 3B) specified by the identification information “stationary type 1” is a user specified by the user identification information “a0001”, a user specified by the user identification information “a0002”, and It can be seen that sharing management is performed by the user specified by the user identification information “a0003”.

  The transferred power amount management unit 38 is associated with the information for identifying the power storage device (3A, 3B) held by the management power storage device information holding unit 47, and is included in the power stored in the power storage device (3A, 3B). Manage the amount of power for which power usage rights have been transferred. The amount of power to which the right to use power is transferred is a concept that decreases when power is discharged from the power storage devices (3A, 3B) under the control of the management server 1 (server-side discharge control unit 14).

  Here, the transferred power amount management unit 38 may realize the management using information as shown in FIG. 20, for example. In the example shown in FIG. 20, it can be seen that the discharge of 3 kW in the electric power stored in the power storage device (storage battery 3B) specified by the identification information of “stationary type 1” is controlled. The power for 3 kw is the amount (1 kw) transferred by the user of the user identification information “a0002” managing the power storage device (storage battery 3B) specified by the identification information of “stationary type 1”, and the user identification information It can be seen that this is the total value (2 kW) transferred by the user “a0003”. It can be seen that the electric power stored in the power storage device (EV3A) specified by the identification information “EV1” is not controlled to discharge at all.

  The transferred power amount management unit 38 may output information as shown in FIG. 20 in accordance with an instruction input from the user. The output means is not particularly limited, and can be realized using any output device such as a display, a speaker, and a printing device.

  The determination content reception unit 39 receives the determination content by the power purchase determination unit 13 transmitted from the determination content transmission unit 24 of the management server 1. Since “determination content” is as described above, description thereof is omitted here.

  The discharge information receiving unit 41 receives the discharge information transmitted from the discharge information transmitting unit 25 of the management server 1. Since the “discharge information” is as described above, a description thereof is omitted here.

  The power amount update unit 40 updates the power amount managed by the transferred power amount management unit 38 based on the determination content received by the determination content reception unit 39. The power amount update unit 40 may update the power amount managed by the transferred power amount management unit 38 based on the discharge information received by the discharge information receiving unit 41. For example, the power amount update unit 40 updates information as shown in FIG. 20 that is used by the transferred power amount management unit 38 for power management based on the determination content and the discharge information.

  According to the present embodiment, the user can easily grasp the information related to the transfer of the power usage right performed by the user. That is, the user can easily grasp how much of the power stored in the power storage devices (3A, 3B) managed by the user can be discharged freely. As a result, the surplus power in the power stored in the power storage devices (3A, 3B) managed by the self can be easily grasped, and the surplus power can be transferred to the power manager or self-consumed. Can be used efficiently.

<Embodiment 6>
The power management system of the present embodiment is based on the fifth embodiment and is different in the following points. First, an example of the outline of the present embodiment will be described.

  The control device 2 according to the present embodiment holds information indicating a bond for which the user is charged a price corresponding to the amount of power to which the user has transferred the power usage right. And a user can utilize this receivable in every scene.

  For example, the user may be able to charge money to the power manager using this bond. In addition, when the user purchases power from a power seller as shown in FIG. 1, the user may be able to pay the price using this bond. In such a case, the power seller uses the bond acquired from the user to charge the power manager for money. In addition, the user may be able to convert this bond into a predetermined point that can be used for shopping or travel.

  According to such a configuration, the user can improve the convenience of daily life using green power. As a result, the number of users who use the system is expected to increase, and the power manager can purchase many power usage rights and stably operate green power.

  Hereinafter, the configuration of each device constituting the power management system of the present embodiment will be described.

<Management server 1>
The management server 1 of the present embodiment can have the same configuration as that of any one of the first to fifth embodiments. Therefore, the description here is omitted.

<Control device 2>
The control device 2 according to the present embodiment is based on the control device according to the fifth embodiment, and further includes a bond information holding unit 42, a control device side bond use information acquisition unit 43, and a bond information update unit 44. FIG. 21 is a functional block diagram illustrating an example of the configuration of the control device 2. As illustrated, the control device 2 includes a control device-side discharge control unit 31, a management server I / F 32, a power storage device I / F 33, a user I / F 34, a power storage amount acquisition unit 35, and a power storage amount transmission unit. 36, control device side management user information holding unit 37, transferred power amount management unit 38, determination content receiving unit 39, power amount updating unit 40, discharge information receiving unit 41, bond information holding unit 42, The control device-side bond usage information acquisition unit 43, bond information update unit 44, connection state transmission unit 45, power transfer application unit 46, and management power storage device information holding unit 47 can be used. Hereinafter, the configuration of each unit will be described. Note that all the units other than the claim information holding unit 42, the control device side claim use information acquisition unit 43, and the claim information update unit 44 are the same as those described in any one of the first to fifth embodiments. The description is omitted.

  The bond information holding unit 42 holds the bond information indicating the bond acquired by the user by transferring the power usage right in association with the user identification information held by the control device side management user information holding unit 37. The claim here is a claim that charges the power manager for a price corresponding to the amount of power to which the user has transferred the right to use power. The bond information includes information indicating the amount of power to which the user has transferred the power usage right.

  Here, FIG. 22 schematically shows an example of bond information held by the bond information holding unit 42. In the example shown in FIG. 22, the user specified by the user identification information “a0001” is acquired by assigning a power of 4 kW (refer to the second embodiment) to which the right to use the power is designated and transferring the condition. It can be seen that 7 kw of receivables (see Embodiment 3) are held. In addition, the user specified by the user identification information “a0002” holds a 1 kW bond (see Embodiment 2) to which the right to use the power is assigned by specifying the quantity, and is specified by the user identification information “a0003”. It can be seen that the user who holds the credit of 2 kW (see the second embodiment) who has designated the quantity and transferred the right to use the power.

  The control device-side credit usage information acquisition unit 43 acquires credit usage information indicating the content of the user using the credit.

  Here, all aspects of the use of the bond by the user can be considered, but the following may be used. For example, the user may receive money corresponding to the amount of power transferred from the power manager to the power usage right using the bond. In addition, the user may be able to offset the price of the power purchased from the power manager by using the bond. In addition, when the user purchases electric power from an electric power seller as shown in FIG. 1, the user may be able to pay for the purchased electric power by transferring a bond. In such a case, the power seller can claim money from the power manager using the acquired receivable. In addition, the user may be able to purchase points that can be used for shopping or travel by using the bond.

  In order to realize use of the above-described bond by the user, the power management system of the present embodiment may include a conversion device 4 connected to the management server 1 and the control device 2 via a communication network.

  FIG. 23 is a functional block diagram showing an example of the configuration of the conversion device 4. As illustrated, the conversion device 4 includes a conversion receiving unit 48, a conversion rule holding unit 49, a conversion unit 50, and a converted value output unit 51.

  The conversion receiving unit 48 receives an application for converting the amount of power held as a bond into another unit from the user. Specifically, the conversion receiving unit 48 receives input such as user identification information, designation of other units to be converted (yen, predetermined points, etc.), and electric energy to be converted into other units. The means by which the conversion receiving unit 48 receives the input is not particularly limited. For example, the conversion receiving unit 48 may receive the input from the user via the control device 2 or may use a communication device such as a PC or a portable device, The above input may be accepted from the web page.

  The conversion rule holding unit 49 holds a conversion rule for converting the electric energy into another unit. For example, the conversion rule holding unit 49 holds a conversion rate for converting the electric energy into another unit for every other unit.

  The conversion unit 50 converts the electric energy into a predetermined unit in accordance with a conversion rule held by the conversion rule holding unit 49 in accordance with an application from the user. The conversion unit 50 uses the debt information held by the debt information holding unit 26 of the management server 1 described in the following embodiment, and after confirming that the user holds the bond, performs a predetermined conversion. Also good.

  The converted value output unit 51 outputs information for using the converted value. For example, the converted value output unit 51 may output a value obtained by converting the amount of power into a yen to a money payment apparatus managed by the power manager in association with the user identification information. Thereafter, the money payment apparatus performs a process of paying the money of the value received from the converted value output unit 51 to the user specified by the user identification information (transfer to a predetermined account or the like). In addition, for example, the conversion value output unit 51 requests the user to present a predetermined electronic recording medium (electronic card, mobile phone, etc.) and communicates with the presented electronic recording medium (electronic card, mobile phone, etc.). A value obtained by converting the amount of power into a predetermined point may be recorded on the electronic card. Alternatively, when the converted value output unit 51 communicates with the management server 1 and specifies the control device 2 that manages information related to the transfer of the power usage right of the user, the conversion value output unit 51 sets a predetermined amount of power to the control device 2. A bar code or a QR code in which a value converted into the points is recorded may be output. Or the conversion value output part 51 may output the barcode and QR code which recorded the value which converted the electric energy into the predetermined point to the mail address which a user designates.

  The control device-side credit usage information acquisition unit 43 of the control device 2 of the present embodiment may acquire the credit usage information indicating the content of the usage of the credit by the user from the conversion device 4 as described above. The bond usage information includes user identification information of a user who uses the bond and information indicating the amount of power used.

  The receivable information update unit 44 uses the receivable information held by the receivable information holding unit 42 based on the determined content acquired by the determined content receiving unit 39 and the receivable usage information acquired by the control device side receivable usage information acquiring unit 43 ( (See FIG. 22). Since “determination content” and “bond receivable information” are as described above, description thereof is omitted here.

  According to this embodiment, the user can improve the convenience of daily life by using the green power stored in the power storage device owned by the user.

  For example, the user can pay for the power purchased from the power seller as shown in FIG. 1 by using the receivable acquired by transferring the right to use green power. When there is no claim for the purchased power, the shortage may be paid by other means (such as money).

  In addition, at the timing when the user purchases power from the power seller as shown in FIG. 1, the user transfers the power stored in the power storage device (storage battery 3 </ b> B) placed at home to the power manager to obtain a claim. Can be used to pay for the purchased power. In such a case, apparently, the user cancels out the purchased power with the power generated in-house.

  In addition, the user can convert a bond acquired by transferring the right to use green power into points, and can use the points to perform shopping or travel.

  According to the present embodiment, it is possible to sufficiently realize the user merit by transferring the right to use green power, so it is expected that the number of users to transfer the right to use green power will increase. . As a result, the power manager can purchase many power usage rights, and can stably operate green power.

<Embodiment 7>
The power management system of this embodiment is based on any one of Embodiments 1 to 6, and is different in the following points. First, an example of the outline of the present embodiment will be described.

  The management server 1 according to the present embodiment holds information indicating the obligation to pay the user a price corresponding to the amount of power purchased from the user. According to such a configuration, the power manager can manage the use of the bond corresponding to the debt by the user.

  Hereinafter, the configuration of each device constituting the power management system of the present embodiment will be described.

<Control device 2>
The control device 2 of the present embodiment can have the same configuration as that of any one of the first to sixth embodiments. Therefore, the description here is omitted.

<Management server 1>
The management server 1 of the present embodiment is based on any one of the first to sixth embodiments, and further includes a debt information holding unit 26, a server-side bond usage information acquisition unit 27, and a debt information update unit 28. FIG. 24 is a functional block diagram showing an example of the configuration of the management server 1. As illustrated, the management server 1 includes a user management information holding unit 10, a connection state management information holding unit 11, a power transfer acceptance unit 12, a power purchase determination unit 13, a server-side discharge control unit 14, and a control. Device I / F 15, storage amount receiving unit 16, transfer amount receiving unit 17, dischargeable power amount information holding unit 18, dischargeable power amount information updating unit 19, condition transfer receiving unit 20, and condition information holding Unit 21, server-side management user information holding unit 23, determination content transmission unit 24, discharge information transmission unit 25, debt information holding unit 26, server-side bond usage information acquisition unit 27, debt information update unit 28 And a connection state management information updating unit 29 and a location information holding unit 30. Hereinafter, the configuration of each unit will be described. Since all the units other than the debt information holding unit 26, the server-side bond usage information acquisition unit 27, and the debt information update unit 28 are the same as those described in any one of the first to sixth embodiments, Description is omitted.

  The debt information holding unit 26 holds debt information indicating the debt assumed by the power manager who manages the management server 1 by purchasing the power usage right in association with the user identification information. The debt here is a debt that pays the user a price corresponding to the amount of power purchased from the user. The debt information includes information indicating the amount of power purchased for the power usage right from the user.

  Here, FIG. 25 schematically shows an example of debt information held by the debt information holding unit 26. In the example illustrated in FIG. 25, the power manager purchases a power usage right for the amount specified by the user from the user specified by the user identification information “a0001” for 4 kW (see Embodiment 2). ) And 7 kw of debt (see Embodiment 3) purchased by the condition transfer. In addition, the power manager assumes a debt of 1 kW (see Embodiment 2) for purchasing the power usage right specified by the user with respect to the user specified by the user identification information “a0002”. The user specified by the user identification information “a0003” bears a debt of 2 kW (see Embodiment 2) for purchasing the power usage right for the quantity specified by the user, and the user identification information “b0001” It can be seen that the user specified in (1) has a debt of 3 kW (see Embodiment 2) for purchasing the power usage right for the quantity specified by the user.

  The server-side credit usage information acquisition unit 27 acquires credit usage information indicating the content of the user using the credit corresponding to the debt. Debts and receivables in “Receivables corresponding to debts” are receivables and debts arising from the same assignment (transfer of power usage rights). The configuration of the server-side bond usage information acquisition unit 27 can be the same as that of the control device-side bond usage information acquisition unit 43 described in the sixth embodiment. Therefore, the description here is omitted.

  The debt information update unit 28 updates the debt information (see FIG. 25) based on the content determined by the power purchase determination unit 13 and the credit usage information. Since “determination content” and “bond receivable information” are as described above, description thereof is omitted here.

  According to the present embodiment, the power manager can manage the use of a bond by a user who has acquired a bond by transferring green power. As a result, the power manager can increase the usage scenes of the receivables with peace of mind, and can further improve user convenience.

For this reason, it is expected that the number of users who transfer the right to use green power will increase. As a result, power managers can purchase a lot of right to use green power and operate green power stably. Can be done.
Hereinafter, examples of the reference form will be added.
1. A plurality of power storage devices that store power;
A plurality of control devices communicably connected to any of the plurality of power storage devices;
A management server connected to each of the plurality of control devices via a network and controlling the plurality of control devices;
A power management system comprising:
The control device includes:
A controller-side discharge control means for controlling discharge of the connected power storage device;
The management server
User management information holding means for holding user management information, which is information associated with user identification information and information for identifying the power storage device managed by the user specified by the user identification information;
Connection state management information holding means for holding connection state management information, which is information associated with each of the control devices, for identifying the power storage device connected to each of the plurality of control devices;
Power transfer acceptance means for accepting an application for power transfer from the user to transfer the user identification information and a power usage right that is a right to use the power stored in the power storage device managed by the user;
A power purchase decision means for deciding to purchase the right to use the power from the user in response to an application for the power transfer;
When the power purchase decision means decides to purchase, the control device connected to the power storage device managed by the user who applied for the power transfer is controlled, and the power stored in the power storage device is discharged. Server-side discharge control means for controlling
Having a power management system.
2. In the power management system according to 1,
The control device includes:
A storage amount acquisition means for acquiring information indicating the storage amount of the connected storage device from the storage device;
A storage amount transmission means for transmitting storage amount information indicating the storage amount of the storage device to the management server;
The management server
A storage amount receiving means for receiving the storage amount information;
In addition to the application for transferring power from the user, the transfer amount receiving means for receiving the amount of power to be transferred is further included.
The power purchase determination means is
The power storage device managed by the user by searching the user management information and the connection state management information using the user identification information received by the power transfer acceptance unit as a key, and connected to any of the control devices A power management system that, after identifying one or more power storage devices, determines to purchase the right to use the power in consideration of a power storage amount of the identified one or more power storage devices.
3. In the power management system according to 2,
The management server
Dischargeable power amount information holding means for holding dischargeable power amount information, which is information indicating the amount of power that the server-side discharge control means can perform discharge control by purchasing the power usage right;
Dischargeable energy information update for acquiring discharge information indicating the discharge of power by the server-side discharge control means and updating the dischargeable energy information based on the discharge information and the content determined by the power purchase determination means And further comprising means
The server-side discharge control means is a power management system that controls discharge of power stored in the power storage device based on the dischargeable power amount information.
4). In the power management system according to any one of 1 to 3,
The control device includes:
A storage amount acquisition means for acquiring information indicating the storage amount of the connected storage device from the storage device;
A storage amount transmission means for transmitting storage amount information indicating the storage amount of the storage device to the management server;
The management server
A storage amount receiving means for receiving the storage amount information;
The power usage right for surplus power remaining after subtracting a predetermined amount of power stored in the power storage device managed by the user who has applied for, in addition to the application for power transfer, from the user A condition transfer accepting means for accepting a transfer under conditions that can be purchased by the company and an application for the predetermined amount;
Further comprising: condition information holding means for holding the user identification information and the condition information indicating the condition and the content of the predetermined amount in association with each other;
The power purchase determination means is
Using the condition information, the connection state management information, and the storage amount information, the storage device that can purchase the power usage right under the condition is specified, and then stored in the specified storage device. Decides to purchase the right to use the electricity
The server-side discharge control means is a power management system that controls the discharge of the power stored in the power storage device within a range of the amount of power purchased for the power usage right.
5. In the power management system according to any one of 2 to 4,
The management server
Server-side management user information holding means for holding information for identifying the control device and the user identification information of the user for which the control device should manage information related to the transfer of the power usage right;
When the power purchase determination unit determines to purchase the power usage right, a determination content transmission unit that transmits the determination content to the control device associated with the user who has transferred the power usage right. Have
The control device includes:
Control device side management user information holding means for holding the user identification information of the user who should manage information on the transfer of the power usage right;
Management power storage device information holding means for holding information identifying the power storage device managed by the user specified by the user identification information in association with the user identification information held by the control device side management user information holding means; ,
In association with information for identifying the power storage device held by the management power storage device information holding means, the amount of transferred power for managing the amount of power to which the right to use the power among the power stored in the power storage device is transferred Management means;
Determination content receiving means for receiving the determination content by the power purchase determination means from the determination content transmission means,
Based on the content of the determination, a power amount updating unit that updates a power amount managed by the transferred power amount management unit;
Having a power management system.
6). In the power management system according to 5,
The management server
Discharge information transmission means for transmitting discharge information indicating discharge of power by the server-side discharge control means to the control device associated with the user managing the power storage device that has discharged power,
The control device includes:
Having discharge information receiving means for receiving the discharge information from the discharge information transmitting means;
The power amount updating means updates the power amount managed by the transferred power amount management means based on the discharge information.
7). In the power management system according to 5 or 6,
The control device includes:
Claim information holding means for holding claim information indicating a claim acquired by the user by transferring the power usage right in association with the user identification information held by the control device side management user information holding means;
A control device-side credit usage information acquisition means for acquiring credit usage information indicating the content of the user using the credit;
A power management system further comprising: a credit information update unit that updates the bond information based on the determination content by the power purchase determination unit and the bond usage information.
8). In the power management system according to any one of 2 to 7,
The management server
Debt information holding means for holding debt information indicating a debt assumed by a power manager managing the management server by purchasing the power usage right in association with the user identification information;
A server-side credit usage information acquisition means for acquiring credit usage information indicating the content of the user using the credit corresponding to the debt;
A power management system further comprising: debt information update means for updating the debt information based on the content determined by the power purchase determination means and the credit usage information.
9. In the power management system according to 7 or 8,
Conversion accepting means for accepting an application for converting the amount of power held as the bond from the user into another unit;
Conversion rule holding means for holding a conversion rule for converting electric energy into other units;
According to the application from the user, according to the conversion rule, conversion means for converting the amount of power into a predetermined unit;
A converted value output means for outputting information for using the converted value;
A conversion device having
The use of receivables by the user is
A power management system which is conversion to another unit using the conversion device or offset by purchasing power from another user.
10. In the power management system according to any one of 1 to 9,
The control device includes:
When connected to the power storage device, information for identifying the power storage device is acquired from the power storage device and transmitted to the management server. When the connection with the power storage device is canceled, information indicating that is stored in the management A connection state transmitting means for transmitting to the server;
The management server
A power management system further comprising connection state management information updating means for updating the connection state management information based on the received information when the information transmitted by the connection state transmission means is received.
11. In the power management system according to any one of 1 to 10,
The management server
It further includes position information holding means for holding information indicating positions where a plurality of the control devices are installed,
The server-side discharge control unit is a power management system that determines the power storage device that discharges power in consideration of a position where the control device is installed.
12 In the power management system according to any one of 1 to 11,
The power storage device
A power management system including a stationary power storage device and a mobile power storage device.
13. In the power management system according to any one of 1 to 12,
The power storage device is a power management system that receives power from a solar power generation device or a fuel cell and stores the power.
14 The control device according to any one of 1 to 13.
15. The management server according to any one of 1 to 13.
16. A plurality of power storage devices that store power;
A plurality of control devices communicably connected to any of the plurality of power storage devices;
A management server connected to each of the plurality of control devices via a network and controlling the plurality of control devices;
A program for causing the control device of the power management system to execute
A program for causing a computer to execute a function of controlling discharge of the connected power storage device according to control by the management server.
17. A plurality of power storage devices that store power;
A plurality of control devices communicably connected to any of the plurality of power storage devices;
User management information, which is information associating user identification information and information for identifying the power storage device managed by the user specified by the user identification information, and the power storage device connected to each of the plurality of control devices A management server that holds connection state management information that is information associated with each of the control devices, and that controls the control devices by connecting to each of the control devices via a network; ,
A program for causing the management server of the power management system to execute
A power transfer acceptance step of accepting an application for power transfer from the user to transfer the user identification information and a power usage right that is a right to use the power stored in the power storage device managed by the user;
A power purchase decision step for deciding to purchase the power usage right from the user in response to an application for the power transfer;
When the purchase is determined in the power purchase determination step, the control device connected to the power storage device managed by the user who applied for the power transfer is controlled, and the power stored in the power storage device is discharged. A discharge control step for controlling,
A program that causes a computer to execute.
18. A plurality of power storage devices that store power;
A plurality of control devices communicably connected to any of the plurality of power storage devices;
User management information, which is information associating user identification information and information for identifying the power storage device managed by the user specified by the user identification information, and the power storage device connected to each of the plurality of control devices A management server that holds connection state management information that is information associated with each of the control devices, and that controls the control devices by connecting to each of the control devices via a network; ,
A power management method for a power management system comprising:
The management server accepts an application for power transfer from the user to transfer the user identification information and a power usage right that is a right to use the power stored in the power storage device managed by the user. Reception process,
The management server determines to purchase the right to use the power from the user in response to the application for the power transfer;
When the management server determines the purchase in the power purchase determination step, the control server controls the control device connected to the power storage device managed by the user who applied for the power transfer, and is stored in the power storage device. A server-side discharge control process for controlling the discharge of the electric power,
The control device side discharge control step for controlling the discharge of the connected power storage device according to the control in the server side discharge control step,
A power management method.

1 management server 2 control device 3A EV (power storage device)
3B storage battery (power storage device)
DESCRIPTION OF SYMBOLS 4 Conversion apparatus 10 User management information holding part 11 Connection state management information holding part 12 Power transfer acceptance part 13 Electric power purchase determination part 14 Server side discharge control part 15 Control apparatus I / F
DESCRIPTION OF SYMBOLS 16 Storage amount reception part 17 Transfer amount reception part 18 Dischargeable electric energy information holding part 19 Dischargeable electric energy information update part 20 Condition transfer reception part 21 Condition information holding part 23 Server side management user information holding part 24 Decision content transmission part 25 Discharge information transmission unit 26 Debt information holding unit 27 Server side bond usage information acquisition unit 28 Debt information update unit 29 Connection state management information update unit 30 Location information holding unit 31 Control device side discharge control unit 32 Management server I / F
33 Power storage device I / F
34 User I / F
35 Power storage amount acquisition unit 36 Power storage amount transmission unit 37 Control device side management user information holding unit 38 Transfer power amount management unit 39 Determination content reception unit 40 Power amount update unit 41 Discharge information reception unit 42 Claim information holding unit 43 Control device side bond Usage information acquisition unit 44 Bond information update unit 45 Connection state transmission unit 46 Power transfer application unit 47 Management power storage device information holding unit 48 Conversion reception unit 49 Conversion rule holding unit 50 Conversion unit 51 Conversion value output unit

Claims (17)

A plurality of power storage devices that store power;
A plurality of control devices communicably connected to any of the plurality of power storage devices;
A management server connected to each of the plurality of control devices via a network and controlling the plurality of control devices;
A power management system comprising:
The controller is
A controller-side discharge control means for controlling discharge of the connected power storage device;
The management server
User management information holding means for holding user management information, which is information associated with user identification information and information for identifying the power storage device managed by the user specified by the user identification information;
Connection state management information holding means for holding connection state management information, which is information associated with each of the control devices, for identifying the power storage device connected to each of the plurality of control devices;
Power that is the right to use the user identification information transmitted by the user via a predetermined terminal device different from the control device and the power storage device , and the power stored in the power storage device managed by the user A power transfer acceptance means for accepting an application for power transfer to transfer the right of use at that time;
A power purchase decision means for deciding to purchase the right to use the power from the user in response to an application for the power transfer;
When the power purchase decision means decides to purchase, the control device connected to the power storage device managed by the user who applied for the power transfer is controlled, and the power stored in the power storage device is discharged. Server-side discharge control means for controlling
Having a power management system. The power management system according to claim 1,
The controller is
A storage amount acquisition means for acquiring information indicating the storage amount of the connected storage device from the storage device;
A storage amount transmission means for transmitting storage amount information indicating the storage amount of the storage device to the management server;
The management server
A storage amount receiving means for receiving the storage amount information;
In addition to the application for transferring power from the user, the transfer amount receiving means for receiving the amount of power to be transferred is further included.
The power purchase determination means is
The power storage device managed by the user by searching the user management information and the connection state management information using the user identification information received by the power transfer acceptance unit as a key, and connected to any of the control devices A power management system that, after identifying one or more power storage devices, determines to purchase the right to use the power in consideration of a power storage amount of the identified one or more power storage devices. The power management system according to claim 2,
The management server
Dischargeable power amount information holding means for holding dischargeable power amount information, which is information indicating the amount of power that the server-side discharge control means can perform discharge control by purchasing the power usage right;
Dischargeable energy information update for acquiring discharge information indicating the discharge of power by the server-side discharge control means and updating the dischargeable energy information based on the discharge information and the content determined by the power purchase determination means And further comprising means
The server-side discharge control means is a power management system that controls discharge of power stored in the power storage device based on the dischargeable power amount information. In the power management system according to any one of claims 1 to 3,
The controller is
A storage amount acquisition means for acquiring information indicating the storage amount of the connected storage device from the storage device;
A storage amount transmission means for transmitting storage amount information indicating the storage amount of the storage device to the management server;
The management server
A storage amount receiving means for receiving the storage amount information;
The power usage right for surplus power remaining after subtracting a predetermined amount of power stored in the power storage device managed by the user who has applied for, in addition to the application for power transfer, from the user A condition transfer accepting means for accepting a transfer under conditions that can be purchased by the company and an application for the predetermined amount;
Further comprising: condition information holding means for holding the user identification information and the condition information indicating the condition and the content of the predetermined amount in association with each other;
The power purchase determination means is
Using the condition information, the connection state management information, and the storage amount information, the storage device that can purchase the power usage right under the condition is specified, and then stored in the specified storage device. Decides to purchase the right to use the electricity
The server-side discharge control means is a power management system that controls the discharge of the power stored in the power storage device within a range of the amount of power purchased for the power usage right. In the power management system according to any one of claims 2 to 4,
The management server
Server-side management user information holding means for holding information for identifying the control device and the user identification information of the user for which the control device should manage information related to the transfer of the power usage right;
When the power purchase determination unit determines to purchase the power usage right, a determination content transmission unit that transmits the determination content to the control device associated with the user who has transferred the power usage right. Have
The controller is
Control device side management user information holding means for holding the user identification information of the user who should manage information on the transfer of the power usage right;
Management power storage device information holding means for holding information identifying the power storage device managed by the user specified by the user identification information in association with the user identification information held by the control device side management user information holding means; ,
In association with information for identifying the power storage device held by the management power storage device information holding means, the amount of transferred power for managing the amount of power to which the right to use the power among the power stored in the power storage device is transferred Management means;
Determination content receiving means for receiving the determination content by the power purchase determination means from the determination content transmission means,
Based on the content of the determination, a power amount updating unit that updates a power amount managed by the transferred power amount management unit;
Having a power management system. The power management system according to claim 5, wherein
The management server
Discharge information transmission means for transmitting discharge information indicating discharge of power by the server-side discharge control means to the control device associated with the user managing the power storage device that has discharged power,
The controller is
Having discharge information receiving means for receiving the discharge information from the discharge information transmitting means;
The power amount updating means updates the power amount managed by the transferred power amount management means based on the discharge information. The power management system according to claim 5 or 6,
The controller is
Claim information holding means for holding claim information indicating a claim acquired by the user by transferring the power usage right in association with the user identification information held by the control device side management user information holding means;
A control device-side credit usage information acquisition means for acquiring credit usage information indicating the content of the user using the credit;
A power management system further comprising: a credit information update unit that updates the bond information based on the determination content by the power purchase determination unit and the bond usage information. In the power management system according to any one of claims 2 to 7,
The management server
Debt information holding means for holding debt information indicating a debt assumed by a power manager managing the management server by purchasing the power usage right in association with the user identification information;
A server-side credit usage information acquisition means for acquiring credit usage information indicating the content of the user using the credit corresponding to the debt;
A power management system further comprising: debt information update means for updating the debt information based on the content determined by the power purchase determination means and the credit usage information. The power management system according to claim 7 or 8,
Conversion accepting means for accepting an application for converting the amount of power held as the bond from the user into another unit;
Conversion rule holding means for holding a conversion rule for converting electric energy into other units;
According to the application from the user, according to the conversion rule, conversion means for converting the amount of power into a predetermined unit;
A converted value output means for outputting information for using the converted value;
A conversion device having
The use of receivables by the user is
A power management system which is conversion to another unit using the conversion device or offset by purchasing power from another user. In the power management system according to any one of claims 1 to 9,
The controller is
When connected to the power storage device, information for identifying the power storage device is acquired from the power storage device and transmitted to the management server. When the connection with the power storage device is canceled, information indicating that is stored in the management A connection state transmitting means for transmitting to the server;
The management server
A power management system further comprising connection state management information updating means for updating the connection state management information based on the received information when the information transmitted by the connection state transmission means is received. In the power management system according to any one of claims 1 to 10,
The management server
It further includes position information holding means for holding information indicating positions where a plurality of the control devices are installed,
The server-side discharge control unit is a power management system that determines the power storage device that discharges power in consideration of a position where the control device is installed. The power management system according to any one of claims 1 to 11,
The power storage device
A power management system including a stationary power storage device and a mobile power storage device. The power management system according to any one of claims 1 to 12,
The power storage device is a power management system that receives power from a solar power generation device or a fuel cell and stores the power.   The control device according to any one of claims 1 to 13.   The management server according to any one of claims 1 to 13. A plurality of power storage devices that store power;
A plurality of control devices communicably connected to any of the plurality of power storage devices;
User management information, which is information associating user identification information and information for identifying the power storage device managed by the user specified by the user identification information, and the power storage device connected to each of the plurality of control devices A management server that holds connection state management information that is information associated with each of the control devices, and that controls the control devices by connecting to each of the control devices via a network; ,
A program for causing the management server of the power management system to execute
Power that is the right to use the user identification information transmitted by the user via a predetermined terminal device different from the control device and the power storage device , and the power stored in the power storage device managed by the user A power transfer acceptance step for accepting an application for power transfer to transfer the right of use at that time;
A power purchase decision step for deciding to purchase the power usage right from the user in response to an application for the power transfer;
When the purchase is determined in the power purchase determination step, the control device connected to the power storage device managed by the user who applied for the power transfer is controlled, and the power stored in the power storage device is discharged. A discharge control step for controlling,
A program that causes a computer to execute. A plurality of power storage devices that store power;
A plurality of control devices communicably connected to any of the plurality of power storage devices;
User management information, which is information associating user identification information and information for identifying the power storage device managed by the user specified by the user identification information, and the power storage device connected to each of the plurality of control devices A management server that holds connection state management information that is information associated with each of the control devices, and that controls the control devices by connecting to each of the control devices via a network; ,
A power management method for a power management system comprising:
The management server uses the user identification information transmitted by the user via a predetermined terminal device different from the control device and the power storage device , and the power stored in the power storage device managed by the user A power transfer acceptance process for accepting an application for power transfer that transfers the right to use the right to use the power at that time,
The management server determines to purchase the right to use the power from the user in response to the application for the power transfer;
When the management server determines the purchase in the power purchase determination step, the control server controls the control device connected to the power storage device managed by the user who applied for the power transfer, and is stored in the power storage device. A server-side discharge control process for controlling the discharge of the electric power,
The control device side discharge control step for controlling the discharge of the connected power storage device according to the control in the server side discharge control step,
A power management method.

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