JP6664479B2 - Control device, power management system, charge / discharge control method and program - Google Patents

Description

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

  2. Description of the Related Art In recent years, as power storage devices such as storage batteries and electric vehicles have become widespread, the number of cases where power storage devices are used in power demand areas has increased. There is known a technique for controlling charging and discharging of a power storage device in such a power demanding area in consideration of an electricity bill, weather, a resident's life pattern, and the like.

  For example, Patent Literature 1 discloses a control device of an energy system that predicts a power generation amount of a solar cell using weather forecast information and creates an operation plan for charging and discharging a storage battery using the prediction result. The control device disclosed in Patent Literature 1 calculates, by simulation, the cost when the charge / discharge amount of the storage battery is increased or decreased by one step when the error between the predicted value of the power generation amount or the power demand amount and the measurement value is large, and Is decreased, the command value of the charge / discharge amount of the storage battery is changed. Thereby, even if the amount of power generation or the amount of power demand temporarily fluctuates, the charging and discharging of the storage battery can be optimally controlled.

JP 2005-143218 A

  The control device disclosed in Patent Literature 1 can correct the charge / discharge amount of the storage battery in real time so as to suppress the cost even when the power generation amount or the power demand amount is incorrectly predicted. However, Patent Document 1 does not disclose improving the accuracy of prediction. Therefore, it is desired to improve the accuracy of prediction and accurately control charging and discharging of the power storage device.

  SUMMARY An advantage of some aspects of the invention is to provide a control device and the like that can accurately control charging and discharging of a power storage device.

To achieve the above object, the control device according to the present invention includes:
A control device that controls charging and discharging of the power storage device in a power demand area,
Power generated in the power demanding area, or prediction information of an index relating to at least one of power consumed in the power demanding area, and first prediction information predicted at a first time; Prediction information storage means for storing second prediction information predicted at a second time point after the first time point;
At the first time, charging / discharging of the power storage device is controlled based on the first prediction information stored in the prediction information storage means. At the second time, the charge / discharge is stored in the prediction information storage means. Charge / discharge control means for controlling charging / discharging of the power storage device based on the obtained second prediction information;
A result information acquiring unit for acquiring the result information at the first time point of the index,
Prior to the second time point, based on a relationship between the first prediction information stored in the prediction information storage means and the performance information at the first time point acquired by the performance information acquisition means , Correction means for correcting the second prediction information stored in the prediction information storage means;
Prior to the second time point, based on a relationship between the first prediction information stored in the prediction information storage means and the performance information at the first time point acquired by the performance information acquisition means, charging and discharging of the electric storage device, or, Bei give a, an adjusting means for adjusting at least one of the power consumed in the power demand area,
The adjusting unit is configured to charge or discharge the power storage device, or at least one of power consumed in the power demand area, depending on which of the user prioritizes economy, comfort, and environment. Adjust one.

  In the present invention, the control device is the prediction information of the index related to at least one of the power generated in the power demand area and the power consumed in the power demand area, and is predicted at the first time point. A prediction information storage unit configured to store first prediction information and second prediction information predicted at a second point in time after the first point in time; The second prediction information stored in the prediction information storage unit is corrected based on the relationship between the prediction information and the actual information at the first time point. Therefore, according to the present invention, charging and discharging of the power storage device can be accurately controlled.

FIG. 1 is a diagram illustrating an overall configuration of a power management system according to a first embodiment. FIG. 3 is a block diagram illustrating a hardware configuration of a control device according to the first embodiment. FIG. 3 is a block diagram illustrating a functional configuration of a storage unit in the control device according to the first embodiment. FIG. 3 is a block diagram illustrating a functional configuration of a control unit in the control device according to Embodiment 1. FIG. 4 is a diagram illustrating a first example of a charge / discharge plan for a power storage device. FIG. 9 is a diagram illustrating a second example of a charge / discharge plan for a power storage device. FIG. 13 is a diagram illustrating a third example of a charge / discharge plan for the power storage device. It is a figure showing the example of the 1st information by an information part. It is a figure showing the example of the 2nd information by an information part. 5 is a flowchart showing a flow of a charge / discharge planning process executed by the control device according to the first embodiment. FIG. 7 is a block diagram illustrating a hardware configuration of a control device according to a second embodiment. FIG. 13 is a block diagram illustrating a functional configuration of a storage unit in the control device according to the second embodiment. FIG. 10 is a block diagram illustrating a functional configuration of a control unit in a control device according to Embodiment 2. 9 is a flowchart illustrating a flow of a charge / discharge planning process executed by the control device according to the second embodiment. It is a figure which shows roughly the whole structure of the power management system in a modification.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the drawings, the same or corresponding parts have the same reference characters allotted.

(Embodiment 1)
FIG. 1 shows an overall configuration of a power management system 1000 according to Embodiment 1 of the present invention. The power management system 1000 is a so-called HEMS (Home Energy Management System) that manages power consumed in the house H. The house H is a so-called general residential building, and is a demand place (power demand place) of the power supplied from the system power supply 4, the power generation device 5, and the power storage device 7. The house H receives power supply from the system power supply 4 via the distribution board 2. The system power supply 4 is a commercial power supply for exchanging electric power between the electric power company and the house H.

  As shown in FIG. 1, a power management system 1000 includes a plurality of devices 1A, 1B, 1C,... That consume power, a power measurement device 3 that measures power, a power generation device 5 that generates power using sunlight, A power conversion device 6 that converts power between AC and AC, a power storage device 7 that stores power, an input / output terminal 8 that is a user interface, and a control device 100 that comprehensively manages the power management system 1000. Is provided.

  Each of the plurality of devices 1A, 1B, 1C,... Is an electric device such as a television, an air conditioner, a water heater, a refrigerator, an illuminator, a floor heating system, or an induction heating (IH) cooker. Each of the plurality of devices 1A, 1B, 1C,... Is installed in a house H (including the site thereof), and has a system power supply 4, a power generation device 5, and a power storage device via power lines branched by a distribution board 2. 7 are electrically connected. Hereinafter, when each of the plurality of devices 1A, 1B, 1C,... Is referred to without distinction, it is generically referred to as the device 1.

  Each device 1 includes a wireless communication interface and communicates with the control device 100 via a wireless network built in the house H. This wireless network is, for example, a network based on ECHONET Lite. Each device 1 may be connected to this wireless network via an external communication adapter (not shown). Each device 1 changes an operation state according to a control command from the control device 100. In addition, each device 1 transmits data (operation state data) storing the device ID (Identification), information indicating the current time and the current operation state in response to the request from the control device 100, and transmits the data to the wireless network. To the control device 100 via the

  The power measuring device 3 measures the power transmitted through each of the power lines (power supply paths) arranged in the house H. More specifically, the power measuring device 3 includes a power line disposed between the system power supply 4 and the distribution panel 2, a power line disposed between the power conversion device 6 and the distribution panel 2, Power transmitted through a power line disposed between the conversion device 6 and the power storage device 7 and a power line disposed between the distribution board 2 and each of the plurality of devices 1A, 1B, 1C,. Is measured. The power measuring device 3 is connected via a communication line to each of CTs (Current Transformers) 1 to CT6 respectively connected to these power lines. CT1 to CT6 are sensors for measuring an alternating current.

  Although not shown, the power measurement device 3 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), a communication interface, a readable and writable nonvolatile semiconductor memory, and the like. Further, the power measuring device 3 includes a wireless communication interface, and communicates with the control device 100 via the above-described wireless network built in the house H. Note that the power measuring device 3 may be connected to the wireless network via an external communication adapter (not shown).

  In response to a request from the control device 100, the power measurement device 3 generates measurement data in which the value of power transmitted through each power line obtained by measurement is stored as a measurement value, and transmits the measurement data to the control device 100. The transmitted measurement data also stores the device address of the power measurement device 3, the ID of the power line, the measurement time, and the like. In addition, the power measurement device 3 may generate measurement data in which all measured values are stored collectively and transmit the measurement data to the control device 100 in response to a request from the control device 100.

  The power generation device 5 is a distributed power source installed in the house H and owned by a power consumer of the house H. The power generation device 5 generates power using any of natural energy, fossil fuel, fuel cell, and the like. The natural energy is, for example, sunlight or wind power. Hereinafter, the power generation device 5 will be described as an example of a photovoltaic (PV) device that generates power using sunlight.

  The power generation device 5 includes, for example, a PV panel which is a polycrystalline silicon type solar panel. The PV panel is installed on the roof of the house H, and generates solar power by converting solar energy into electric energy. The power generation device 5 supplies the power generated by the PV panel to each device 1 or the system power supply 4 via the power conversion device 6.

  When the amount of power generated by the power generation device 5 exceeds the total power consumption in the house H, surplus power is generated in the house H. When surplus power is generated, the power consumer of the house H can sell (sell) power to the electric power company by supplying the surplus power to the system power supply 4 as reverse tide power.

  The power converter 6 is, for example, a power conditioner, and performs at least one of conversion between DC current and AC current and conversion of voltage. The power converter 6 receives the power generated by the power generator 5 and the power discharged from the power storage device 7 and outputs the supplied power to the distribution board 2. At that time, the power conversion device 6 converts the power supplied from the power generation device 5 or the power storage device 7 from DC to AC and outputs the converted power so that the power can be used in the house H. The power conversion device 6 outputs the power supplied from the distribution board 2 to the power storage device 7 and charges the power storage device 7. At that time, the power converter 6 converts the power supplied from the distribution board 2 from AC to DC and outputs the converted power.

  Although not shown, the power converter 6 includes a CPU, a ROM, a RAM, a communication interface, a readable and writable nonvolatile semiconductor memory, and the like. Further, the power conversion device 6 communicates with the control device 100 via the above-described wireless network built in the house H. Note that the power conversion device 6 may be connected to the wireless network via an external communication adapter (not shown).

  The power storage device 7 is a device that stores power supplied from the power system 4 or the power generation device 5 on the site of the house H. The power storage device 7 is a stationary storage battery installed on the premises of the house H or an electric vehicle (EV), and includes, for example, a NiCd battery, a nickel-metal hydride battery, a lithium ion battery, a lead storage battery, or the like. The power storage device 7 discharges the power stored in advance as DC power, and supplies the device 1 via the power converter 6 as AC power.

  The power conversion device 6 includes an AC-DC converter that converts AC power on the distribution board 2 side and DC power on the power storage device 7 side, a transformer that converts a voltage of DC power, and a power conversion device. A switching element is provided. The power conversion device 6 converts power when a high-level signal is input to the switching element, and does not convert power when a low-level signal is input to the switching element.

  Power conversion device 6 acquires a control command for charging and discharging power storage device 7 from control device 100 via a wireless network. Then, power conversion device 6 determines whether or not to execute power conversion according to the obtained control command, and causes power storage device 7 to charge or discharge. When power conversion is performed, power storage device 7 is charged or discharged, and when power conversion is not performed, power storage device 7 is not charged or discharged. Further, power conversion device 6 monitors the charge amount of power storage device 7 and notifies control device 100 of the charge amount.

  The input / output terminal 8 is, for example, a mobile device such as a smartphone, a tablet terminal, a remote controller, a mobile phone, or a notebook computer. The input / output terminal 8 includes an input device such as a push button, a touch panel, or a touch pad, and a display device such as an organic EL (Electro-Luminescence) display or a liquid crystal display. The input / output terminal 8 has a communication interface, and communicates with the control device 100 according to a known communication standard such as Wi-Fi (registered trademark), Wi-SUN (registered trademark), or a wired LAN (Local Area Network). I do. The input / output terminal 8 receives an operation from the user, and transmits information indicating the content of the received operation to the control device 100. Further, the input / output terminal 8 receives the information to be presented to the user transmitted from the control device 100, and displays the received information. As described above, the input / output terminal 8 plays a role as a user interface.

  The control device 100 is an information collection unit that collects information transmitted from each device installed in the house H via a wireless network. The control device 100 is, for example, a HEMS controller that can integrally control each device installed in the house H. The control device 100 controls the plurality of devices 1A, 1B, 1C,... And monitors the operating state of the plurality of devices 1A, 1B, 1C,. Further, control device 100 controls charging and discharging of power storage device 7 via power conversion device 6. The control device 100 monitors the power consumed in the house H, and displays the power consumption status via the input / output terminal 8.

  Further, as shown in FIG. 1, the control device 100 is connected to a wide area network N. The wide area network N is, for example, the Internet or the like, and connects the server 10 and the control device 100 in at least one power consumer, and relays transmission and reception of information. The control device 100 communicates with the server 10 via the wide area network N.

  The server 10 is a server for causing the power management system 1000 to function in cooperation with the control device 100, for example, a server that provides resources in cloud computing. The server 10 stores data necessary for the operation of the control device 100. The server 10 acquires from the control device 100 and accumulates, for example, a measurement result by the power measuring device 3 and an operation state of the device 1 collected by the control device 100. In addition, the server 10 stores weather information such as a weather forecast, temperature, humidity, sunshine duration, or amount of solar radiation for each region. Further, the server 10 stores the price (trading unit price) of the electric power traded with the system power supply 4 for each time zone. The server 10 provides the stored data to the control device 100 in response to a request from the control device 100.

  FIG. 2 shows a hardware configuration of the control device 100. As shown in FIG. 2, the control device 100 includes a control unit 21, a storage unit 22, a clock unit 23, an in-home communication unit 24, and an out-of-home communication unit 25. These components are connected via a bus 29.

  Although not shown, the control unit 21 includes a CPU, a ROM, a RAM, and the like. The CPU is also called a central processing unit, a central processing unit, a processor, a microprocessor, a microcomputer, a DSP (Digital Signal Processor), or the like. In the control unit 21, the CPU reads out the programs and data stored in the ROM, and controls the control device 100 using the RAM as a work area.

  The storage unit 22 is a nonvolatile semiconductor memory such as a flash memory, an EPROM (Erasable Programmable ROM) or an EEPROM (Electrically Erasable Programmable ROM), and plays a role as a so-called secondary storage device (auxiliary storage device). . The storage unit 22 stores various programs and data used by the control unit 21 to perform various processes, and various data generated or obtained by the control unit 21 performing various processes.

  The clock unit 23 includes a real time clock (RTC), and is a clock device that continues clocking even when the power of the control device 100 is off.

  The in-home communication unit 24 is an interface for communicating via the above-described wireless network constructed in the house H. The home communication unit 24 communicates with each of the devices 1, the power measurement device 3, and the power conversion device 6 via the wireless network under the control of the control unit 21. The home communication unit 24 communicates with the input / output terminal 8 via Wi-Fi (registered trademark), Wi-SUN (registered trademark), a wired LAN, or the like under the control of the control unit 21.

  The external communication unit 25 is an interface for connecting to and communicating with the wide area network N. The external communication unit 25 communicates with the server 10 via the wide area network N. The out-of-home communication unit 25 acquires, for example, weather information and information about a unit price of power purchase from the server 10 via the wide area network N.

  Next, a functional configuration of the storage unit 22 will be described with reference to FIG. As illustrated in FIG. 3, the storage unit 22 functionally includes an equipment information storage unit 201, a prediction information storage unit 202, an alternative data storage unit 203, an actual information storage unit 204, a plan storage unit 205, Is provided. These are constructed in an appropriate storage area in the storage unit 22.

  The facility information storage unit 201 stores facility information. The equipment information is identification information and characteristic information of the equipment in the house H, such as each device 1, the power generation device 5, the power storage device 7, and the like. The facility information storage unit 201 stores, for example, the power consumption characteristics of each device 1, the storage capacity of the power storage device 7, the efficiency associated with charging / discharging, and the power generation efficiency of the power generation device 5 as the facility information. The facility information is acquired by either the wide area network N or a user input via the input / output terminal 8, and is stored in the facility information storage unit 201 in advance.

  The prediction information storage unit 202 stores prediction information of an index related to at least one of the power generated in the house H and the power consumed in the house H. The index related to the power generated in the house H is an element that affects the amount of power generated by the power generation device 5, and specifically, information on the power generation environment such as the weather, the sunshine hours, or the amount of solar radiation in the house H. including. The index related to the power consumed in the house H is an element that affects the power consumption in the house H, and specifically, information on the operation state of each device 1 in the house H and information such as temperature or humidity. Such information on the usage environment of each device 1 and information on the price of electric power traded with the system power supply 4 are included.

  The prediction information storage unit 202 stores prediction information of an index regarding power generated or consumed in the house H at a plurality of future times. More specifically, the prediction information storage unit 202 stores prediction information such as weather, temperature, humidity, sunshine duration, or solar radiation as prediction information regarding the power generation environment and the use environment. In addition, the prediction information storage unit 202 stores schedule information such as a use schedule of each device 1 or a user's schedule as prediction information regarding the operation state of each device 1. Further, the prediction information storage unit 202 stores, as the schedule information related to the price of the electric power, the schedule information of the trading unit price that fluctuates according to a time zone or a season.

  The prediction information is obtained by either the wide area network N or a user input via the input / output terminal 8 and is stored in the prediction information storage unit 202 in advance. Each time new prediction information is obtained, the prediction information stored in the prediction information storage unit 202 is updated. In addition, among the prediction information stored in the prediction information storage unit 202, prediction information predicted at a first time point at a plurality of future time points is referred to as first prediction information, and the first prediction information after the first time point. The prediction information predicted at the time point 2 is referred to as second prediction information.

  The substitute data storage unit 203 stores substitute data. The substitute data is data used as a substitute for the prediction information stored in the prediction information storage unit 202 when the prediction is incorrect. The substitute data storage unit 203 is, for example, as substitute data relating to the amount of solar radiation, of the result information stored in the result information storage unit 204, the data on a rainy day when the amount of solar radiation is the smallest and the data on a sunny day when the amount of solar radiation is the largest. Store the data. Further, the alternative data storage unit 203 stores data of the maximum value and the minimum value estimated at each time of each season as alternative data relating to temperature or humidity. Such alternative data is acquired by at least one of a user's input via the input / output terminal 8, generation from the performance information stored in the performance information storage unit 204, and the wide area network N, It is stored in the alternative data storage unit 203 in advance.

  The performance information storage unit 204 stores the performance information for the prediction information stored in the prediction information storage unit 202. The performance information is information actually obtained at each time when the prediction information is predicted with respect to the prediction information stored in the prediction information storage unit 202. In other words, the performance information includes, for example, weather, temperature, humidity, sunshine hours or solar radiation, such as the power generation environment and use environment, the price of power, and the operating state of each device 1. This is information indicating what actually happened at the time.

  The performance information storage unit 204 further stores accuracy information relating to the accuracy of the prediction information stored in the prediction information storage unit 202. The accuracy information is an arbitrary value related to the prediction accuracy, and includes, for example, a ratio in which the prediction information matches the actual information or is close to the actual information for each condition in the past year.

  The plan storage unit 205 stores a plan for charging and discharging by the power storage device 7. The charge / discharge plan is information that defines the timing of starting charging or discharging, the timing of ending charging or discharging, and the amount of charging or discharging when starting charging or discharging in a future period from the current time. . Control device 100 determines whether power storage device 7 is charged, discharged, or neither charged nor discharged, according to the plan stored in plan storage unit 205. Control device 100 controls charging and discharging of power storage device 7 by transmitting a control command to power conversion device 6.

  Next, a functional configuration of the control unit 21 will be described with reference to FIG. As shown in FIG. 4, the control unit 21 functionally includes a prediction unit 300, a plan generation unit 303, a charge / discharge control unit 304, a performance information acquisition unit 305, a correction unit 310, and a notification unit 320. , Is provided. Each of these functions is realized by software, firmware, or a combination of software and firmware. The software and firmware are described as programs and stored in the ROM or the storage unit 22 of each device. Then, in the control unit 21, the function of each unit is realized by the CPU executing the program stored in the ROM or the storage unit 22.

  The prediction unit 300 includes a plurality of predictions including a first time and a second time based on the prediction information of a plurality of times including the first prediction information and the second prediction information stored in the prediction information storage unit 202. At least one of the power generation amount and the power consumption amount in the house H at the time point is predicted. The prediction unit 300 includes functions of a power generation amount prediction unit 301 that predicts a power generation amount of the power generation device 5 and a power consumption amount prediction unit 302 that predicts a power consumption amount of the house H. The function of the prediction unit 300 is realized by the control unit 21 cooperating with the storage unit 22.

  The power generation amount prediction unit 301 predicts the power generation amount of the power generation device 5 based on the prediction information stored in the prediction information storage unit 202 and the facility information stored in the facility information storage unit 201. More specifically, the power generation amount prediction unit 301 refers to prediction information relating to at least one of weather, sunshine duration, and solar radiation amount among the prediction information stored in the prediction information storage unit 202. Further, the power generation amount prediction unit 301 refers to the power generation efficiency of the power generation device 5 in the facility information stored in the facility information storage unit 201. Based on the information obtained in this way, the power generation amount prediction unit 301 calculates a predicted value of the amount of power generated by the power generation device 5 in a certain period in the future. Here, the certain period is, for example, 30 minutes or 24 hours, and may be a period of any length.

  The power consumption prediction unit 302 predicts the power consumption of the house H based on the prediction information stored in the prediction information storage unit 202 and the facility information stored in the facility information storage unit 201. More specifically, the power consumption prediction unit 302 determines at least one of the user's schedule, the usage pattern of each device 1, the temperature, and the humidity in the prediction information stored in the prediction information storage unit 202. Refer to the prediction information on In addition, the power consumption prediction unit 302 refers to the power consumption characteristics of each device 1 in the facility information stored in the facility information storage unit 201. Based on the information obtained in such a manner, the power consumption prediction unit 302 calculates a predicted value of the amount consumed in the house H in a certain future period. Here, the certain period is, for example, 30 minutes or 24 hours, and may be a period of any length.

  The plan generation unit 303 generates a charge / discharge plan for the power storage device 7 based on the power generation amount predicted by the power generation amount prediction unit 301 and the power consumption amount predicted by the power consumption amount prediction unit 302. To be more specific, first, the plan generation unit 303 determines a power source to be consumed in the house H, a usage of the power generated by the power generation device 5, and a power storage device based on the prediction information of the power sale unit price. 7 and a power source for charging the battery. Second, the plan generation unit 303 compares the predicted value of the power generation amount with the predicted value of the power consumption amount under the restriction of the determined priority order, and determines whether to charge or discharge the power storage device 7. Or whether neither charging nor discharging is performed.

  FIG. 5, FIG. 6, and FIG. 7 show examples of priorities determined based on the power sale unit price. The plan shown in FIG. 5 is a plan for the purpose of suppressing the amount of power purchase in a time zone where the unit price of power purchase is relatively high. Under this plan, the priorities of power sources for consumption are: power generation, stored power, and purchased power, and the priority of use of generated power is consumption, charging, and power selling. , Power generation only. In other words, when the amount of power generation is smaller than the amount of power consumption, priority is given to discharging the power storage device 7 to make up for the difference, and power purchase from the system power supply 4 is avoided as much as possible. When the amount of power generation is larger than the amount of power consumption, that is, when the amount of generated power is excessive, the power storage device 7 is charged, but is not charged until power is purchased from the system power supply 4.

  On the other hand, the plan shown in FIG. 6 is a plan for the purpose of increasing the amount of power sold in a time zone where the unit price of power sale is relatively high. In this plan, unlike the plan shown in FIG. 5, the order of use of the generated power is specified in the order of consumption, power sale, and charging. In other words, when the amount of power generation is larger than the amount of power consumption, as a use of the surplus generated power, priority is given to selling the power to the system power supply 4 over charging the power storage device 7.

  The plan shown in FIG. 7 is a plan for the purpose of increasing the charge amount in a time zone in which the unit price of power purchase or the unit price of power sale is relatively low. In this plan, unlike the plan shown in FIG. 5, the priority order of the power sources for consumption is specified in the order of generated power, purchased power, and stored power. In other words, when the amount of power generation is smaller than the amount of power consumption, priority is given to purchasing power from the system power supply 4, and discharging from the power storage device 7 is avoided as much as possible. The power supply for charging is specified as generated power or purchased power. In other words, the power storage device 7 is charged not only by the power generated by the power generation device 5 but also by the power purchase from the system power supply 4.

  The plan generation unit 303 combines the plans shown in FIGS. 5 to 7 to generate a charge / discharge plan in a predetermined arbitrary time unit. As described above, by using a combination of a plurality of predetermined plans, the contents of the plan for each time zone can be simply expressed, and the user can easily recognize the contents.

  The plan generation unit 303 stores the charge / discharge plan generated as described above in the plan storage unit 205. The function of the plan generation unit 303 is realized by the control unit 21.

  Charge / discharge control section 304 controls charging / discharging of power storage device 7 according to the charge / discharge plan generated by plan generation section 303. To be more specific, the charge / discharge control unit 304 sets the first prediction information stored in the prediction information storage unit 202 at a first time point among a plurality of time points included in the plan generated by the plan generation unit 303. And charging / discharging of the power storage device 7 at a second point in time according to the plan generated based on the second prediction information stored in the prediction information storage unit 202. 7 is controlled.

  The charge / discharge control unit 304 controls charging / discharging of the power storage device 7 by communicating with the power conversion device 6 via the wireless network established in the house H by the home communication unit 24. More specifically, the charge / discharge control unit 304 refers to the plan stored in the plan storage unit 205 and, when the time to start charging or discharging comes, transmits a control command to that effect to the power conversion device 6. When the time to end charging or discharging comes, a control command to that effect is transmitted to the power conversion device 6. When power control device 6 receives the control command from charge / discharge control unit 304, it converts power according to the received control command and causes power storage device 7 to start or end charging or discharging. As described above, the function of the charge / discharge control unit 304 is realized by the control unit 21 cooperating with the clock unit 23, the home communication unit 24, and the like.

  Alternatively, charge / discharge control section 304 may control charging / discharging of power storage device 7 by notifying power conversion device 6 of the plan stored in plan storage portion 205. In this case, the charge / discharge control unit 304 sends the information indicating the contents of the plan stored in the plan storage unit 205 to the in-home communication unit by at least one of the inquiry from the power conversion device 6 and the arrival of the specified period. 24 to the power converter 6. Here, the prescribed period is, for example, 30 minutes or 3 hours, and may be any length. Power conversion device 6 causes power storage device 7 to start or end charging or discharging according to the plan received from charge / discharge control unit 304.

  The performance information acquisition unit 305 obtains performance information at a plurality of times included in the charge / discharge plan generated by the plan generation unit 303, of the above-described index regarding the power generated or consumed in the house H.

  More specifically, the performance information acquisition unit 305 obtains performance information on the power generation environment, the usage environment, and the price of power from the wide area network N via the external communication unit 25. In addition, the performance information acquisition unit 305 uses the measured value of the power consumption of each device 1 obtained by the power measurement device 3 as the performance information on the operation state of each device 1 from the power measurement device 3 via the home communication unit 24. To get. Alternatively, the result information acquisition unit 305 can also acquire these result information by user input via the input / output terminal 8.

  The result information acquiring unit 305 stores the acquired result information in the result information storage unit 204. As described above, the function of the performance information acquisition unit 305 is realized by the control unit 21 cooperating with the in-home communication unit 24, the out-of-home communication unit 25, and the like.

  The correction unit 310 corrects the prediction information stored in the prediction information storage unit 202 based on the relationship between the prediction information stored in the prediction information storage unit 202 and the performance information acquired by the performance information acquisition unit 305. I do. The correction unit 310 includes functions of a correction necessity determination unit 311, a deviation factor estimation unit 312, and a correction result evaluation unit 313. The function of the correction unit 310 is realized by the control unit 21 cooperating with the storage unit 22.

  The correction necessity determination unit 311 determines whether or not the prediction information stored in the prediction information storage unit 202 needs to be corrected. More specifically, when the performance information is acquired by the performance information acquisition unit 305, the correction necessity determination unit 311 obtains the acquired prediction information from the prediction information at a plurality of time points stored in the prediction information storage unit 202. The predicted information at the time corresponding to the actual information is compared with the actual information. As a result of the comparison, the correction necessity determination unit 311 determines whether correction is necessary based on the degree of deviation between the prediction information and the actual information. More specifically, the correction necessity determination unit 311 determines that the prediction information needs to be corrected when the degree of deviation between the prediction information and the actual information is larger than the threshold, and determines that the degree of deviation is smaller than the threshold. It is determined that the correction of the prediction information is unnecessary.

  For example, if the difference between the predicted value of the temperature, humidity, sunshine duration, insolation, or the power purchase price at a certain point in time and the actual value of the index at that point in time is larger than a predetermined threshold, correction is required. The rejection determination unit 311 determines that the prediction information of the index needs to be corrected. In addition, when the actual information that the weather at that time is actually rain is acquired with respect to the prediction information that the weather at a certain time is fine, the correction necessity determination unit 311 It is determined that the information needs to be corrected. Further, when the performance information indicating that the operation state of the device 1 at the time is different from the prediction information of the operation state of the device 1 at a certain time is acquired, the correction necessity determination unit 311 It is determined that the correction of the prediction information of the operating state of No. 1 is necessary. Here, the case where the operation state of the device 1 is in a state different from the prediction is that the device 1 is predicted to be operating, whereas the device 1 is actually stopped or waiting, and Not only the reverse, but also includes the case where the device 1 cannot operate with the expected capacity due to deterioration or failure.

  The divergence factor estimating unit 312 estimates a divergence factor between the prediction information and the actual information when the correction necessity determination unit 311 determines that the correction of the prediction information is necessary. For example, when it is determined that correction of prediction information such as weather, temperature, humidity, sunshine duration, or amount of solar radiation is necessary, the deviation factor estimation unit 312 estimates that deviation of the weather forecast is a factor of the deviation. I do. Further, when it is determined that the correction of the prediction information of the operation state of each device 1 is necessary, the divergence factor estimating unit 312 is a factor of the divergence that the schedule of the user or the usage pattern of each device 1 has been changed. It is estimated.

  The correction unit 310 corrects the prediction information stored in the prediction information storage unit 202 when the correction necessity determination unit 311 determines that the correction of the prediction information is necessary. For example, when it is determined that the correction is necessary based on the relationship between the first prediction information predicted at the first time and the actual information corresponding to the first prediction information, the correction unit 310 determines whether the correction is necessary after the first time. The second prediction information predicted at the second time point is corrected before the second time point. As described above, the correction unit 310 corrects the prediction information after the present time in the prediction information stored in the prediction information storage unit 202, thereby increasing the accuracy of the subsequent prediction information.

  As a correction method, the correction unit 310 performs two types of correction: correction of prediction information based on actual information and correction by replacing prediction information with alternative data stored in the alternative data storage unit 203. . More specifically, when the degree of deviation between the first prediction information and the actual information is larger than the threshold value and the correction necessity determination unit 311 determines that correction is necessary, the correction unit 310 stores the prediction information The prediction information after the current time including the second prediction information stored in the unit 202 is replaced with the substitute data stored in the substitute data storage unit 203. As described above, the alternative data storage unit 203 stores the alternative data used when the prediction is incorrect.

  After replacing the second prediction information stored in the prediction information storage unit 202 with substitute data, the correction necessity determination unit 311 determines whether correction is necessary again. More specifically, the correction necessity determination unit 311 needs to correct the prediction information again when the degree of deviation between the second prediction information after replacement with the substitute data and the actual information is larger than a threshold value. When the degree of deviation is smaller than the threshold value, it is determined that it is not necessary to correct the prediction information again.

  After replacing the second prediction information stored in the prediction information storage unit 202 with the substitute data, the correction unit 310 determines, when the correction necessity determination unit 311 determines that the prediction information needs to be corrected again, Based on the performance information, the prediction information after the current time including the second prediction information stored in the prediction information storage unit 202 is corrected. More specifically, the correction unit 310 corrects the prediction information stored in the prediction information storage unit 202 such that the degree of difference between the prediction information and the performance information is reduced. For example, when the actual value of the temperature, the humidity, the sunshine duration, or the amount of solar radiation is smaller than the predicted value, the correction unit 310 predicts the future temperature, humidity, sunshine duration, or the amount of solar radiation stored in the prediction information storage unit 202. When the actual values of these indices are larger than the predicted values, the predicted values stored in the predicted information storage unit 202 are increased.

  When the actual operation state of the device 1 is different from the predicted operation state, the operation pattern of the device 1 stored in the prediction information storage unit 202 is corrected. For example, when the device 1 is predicted not to be operating at a specific time, but the device 1 is actually operating, the correction unit 310 is stored in the prediction information storage unit 202. The future operation pattern of the device 1 is corrected so as to be expected to operate at that time. As described above, the correction unit 310 corrects the prediction information according to the divergence factor estimated by the divergence factor estimation unit 312 so that the difference between the prediction information and the actual information in the factor is reduced.

  When the prediction information is corrected, the prediction unit 300 newly predicts the amount of power generated by the power generator 5 and the amount of power consumption in the house H based on the corrected prediction information. Then, the plan generation unit 303 generates a new charge / discharge plan based on the prediction result, and updates the plan stored in the plan storage unit 205 with the generated plan. Thereby, the result of the correction is reflected in the plan. Thereafter, charge / discharge control section 304 controls charge / discharge of power storage device 7 according to the new plan.

  The correction result evaluation unit 313 determines the accuracy of the correction performed by the correction unit 310 based on the corrected prediction information stored in the prediction information storage unit 202 and the performance information stored in the performance information storage unit 204. To evaluate.

  The notification unit 320 includes at least one of the prediction information stored in the prediction information storage unit 202, the performance information acquired by the performance information acquisition unit 305, and the charge / discharge plan stored in the plan storage unit 205. Notify either.

  FIG. 8 shows an example of reporting predicted information and actual information on the amount of solar radiation. As illustrated in FIG. 8, the notification unit 320 generates a graph indicating the transition between the predicted value and the actual value of the amount of insolation as notification information, and transmits the graph to the input / output terminal 8 via the in-home communication unit 24. When receiving the notification information from the notification unit 320, the input / output terminal 8 displays the received notification information on the display unit. The notification unit 320 performs such notification processing in response to a request from the input / output terminal 8. The notification unit 320 is realized by the control unit 21 cooperating with the home communication unit 24.

  In addition, the notification unit 320 notifies the prediction information before being corrected by the correction unit 310 and the prediction information after being corrected by the correction unit 310. More specifically, when the prediction information is corrected by the correction unit 310, the notification unit 320, as shown in, for example, FIG. 9, is a graph showing the transition between the predicted value and the measured value of the amount of solar radiation shown in FIG. In addition, the predicted value after correction is further added and notified. As shown in FIG. 9, the predicted value after correction is closer to the actual value than the predicted value before correction.

  Further, when the correction necessity determination unit 311 determines that the correction of the prediction information is necessary, the notification unit 320 inputs the fact that the correction is necessary and the factor estimated by the deviation factor estimation unit 312. The output terminal 8 is notified. When reporting the charge / discharge plan, the reporting unit 320 may also report the economic effect obtained by the plan. As described above, the notification unit 320 performs the notification process via the input / output terminal 8, so that the user can easily recognize various information related to the control of charging and discharging of the power storage device 7.

  The flow of the charging / discharging planning process executed by the control device 100 according to Embodiment 1 configured as described above will be described with reference to the flowchart shown in FIG.

  The charge / discharge planning process shown in FIG. 10 is performed at regular intervals or when the equipment information is stored in the equipment information storage unit 201 in advance and the prediction information is stored in the prediction information storage unit 202 in advance. It is executed according to a user instruction received via the output terminal 8. Here, the fixed period is, for example, 6 hours or 24 hours, and may be an arbitrary period.

  Note that while the charge / discharge planning process illustrated in FIG. 10 is being performed, the control unit 21 functions as the charge / discharge control unit 304 and, via the power conversion device 6, according to the plan stored in the plan storage unit 205. The charge / discharge of the power storage device 7 is controlled. The notifying unit 320 transmits the prediction information stored in the prediction information storage unit 202, the performance information stored in the performance information storage unit 204, or the charge / discharge plan stored in the plan storage unit 205 to the input / output terminal. The information is transmitted to the input / output terminal 8 in response to a request from the input / output terminal 8, and is notified via the display unit of the input / output terminal 8.

  When the charge and discharge planning process illustrated in FIG. 10 starts, the control unit 21 of the control device 100 predicts the amount of power generated by the power generation device 5 and the amount of power consumption in the house H (step S101). More specifically, the control unit 21 refers to the prediction information stored in the prediction information storage unit 202 and the equipment information stored in the equipment information storage unit 201. Then, the control unit 21 calculates a predicted value of the amount generated by the power generation device 5 and a predicted value of the amount consumed in the house H in a certain period in the future from the present time. In step S101, the control unit 21 functions as the prediction unit 300.

  When the power generation amount and the power consumption amount are predicted, the control unit 21 generates a charging / discharging plan by the power storage device 7 based on the prediction result (Step S102). More specifically, the control unit 21 uses the power to be consumed in the house H, the use of the generated power by the power generation device 5, and the power storage device 7 to charge the power storage device 7 based on the prediction information of the power sale price. Determine the power and priorities. For example, the control unit 21 determines the order of priority as shown in FIGS. Then, the control unit 21 compares the predicted value of the power generation amount and the predicted value of the power consumption amount under the restriction of the priority order, and causes the power storage device 7 to be charged, discharged, or not charged or discharged. Is determined in a predetermined time unit.

  After generating the charge / discharge plan in this way, the control unit 21 stores the generated plan in the plan storage unit 205. In step S102, the control unit 21 functions as the plan generation unit 303.

  When the charge / discharge plan is generated, the control unit 21 acquires the result information (step S103). More specifically, the control unit 21 acquires the actual information for the prediction information at the time when the time has elapsed among the prediction information at the plurality of times stored in the prediction information storage unit 202. For example, the control unit 21 transmits the result information on the power generation environment and the use environment such as the weather, temperature, humidity, sunshine time, or the amount of solar radiation and the result information on the price of electric power to a wide area via the external communication unit 25. It is obtained from the network N or by a user input via the input / output terminal 8. In addition, the control unit 21 acquires the measured value of the power consumption of each device 1 obtained by the power measurement device 3 from the power measurement device 3 via the in-home communication unit 24 as the performance information regarding the operation state of each device 1. I do.

  When acquiring the result information in this way, the control unit 21 stores the acquired result information in the result information storage unit 204. In step S103, the control unit 21 functions as the performance information acquisition unit 305.

  When the performance information is obtained, the control unit 21 determines whether or not the prediction information stored in the prediction information storage unit 202 needs to be corrected based on the obtained performance information (step S104). More specifically, the control unit 21 compares the acquired performance information with the corresponding prediction information stored in the prediction information storage unit 202. As a result of the comparison, when the degree of deviation between the prediction information and the performance information is larger than the threshold, the control unit 21 determines that the correction of the prediction information is necessary. In step S104, the control unit 21 functions as the correction necessity determination unit 311.

  If it is determined that the correction is not necessary (Step S104; NO), the control unit 21 ends the charge / discharge planning process shown in FIG.

  On the other hand, if it is determined that correction is necessary (step S104; YES), the control unit 21 replaces the prediction information stored in the prediction information storage unit 202 with the replacement data stored in the replacement data storage unit 203. (Step S105). In other words, when the difference between the prediction information and the performance information is large, the control unit 21 uses the substitute data stored in the substitute data storage unit 203 as the subsequent prediction information.

  After replacing the prediction information with the substitute data, the control unit 21 determines again whether correction of the prediction information stored in the prediction information storage unit 202 is necessary (step S106). More specifically, the control unit 21 compares the predicted information replaced with the substitute data with the actual information, and determines whether or not the degree of deviation of the predicted information from the actual information is within a threshold. . The control unit 21 determines that the correction of the prediction information is necessary when the degree of deviation between the prediction information after replacement with the substitute data and the actual information is larger than the threshold. In step S106, the control unit 21 functions as the correction necessity determination unit 311.

  When it is determined that another correction is not necessary (step S106; NO), the control unit 21 ends the charge / discharge planning process shown in FIG.

  On the other hand, when it is determined that the correction needs to be performed again (step S106; YES), the control unit 21 estimates a factor of a difference between the prediction information and the actual information (step S107). In step S107, the control unit 21 functions as the deviation factor estimation unit 312.

  After estimating the divergence factor, the control unit 21 corrects the prediction information stored in the prediction information storage unit 202 according to the divergence factor estimated by the divergence factor estimation unit 312 (step S108). More specifically, the control unit 21 corrects the prediction information after the present time stored in the prediction information storage unit 202 so that the degree of the difference between the prediction information and the performance information becomes small. In step S108, the control unit 21 functions as the correction unit 310.

  When the prediction information is corrected, the control unit 21 updates the charge / discharge plan stored in the plan storage unit 205 based on the corrected prediction information (Step S109). More specifically, the control unit 21 newly predicts the amount of power generated by the power generation device 5 and the amount of power consumption in the house H based on the corrected prediction information. Then, a new charge / discharge plan is generated based on the new prediction result, and the generated plan is stored in the plan storage unit 205.

  After updating the charging / discharging plan, the control unit 21 evaluates the correction result and determines whether the correction result is normal (step S110). In step S110, the control unit 21 functions as the correction result evaluation unit 313. As a result of the evaluation, when it is determined that the correction result is not normal (Step S110; NO), the control unit 21 returns to the process of Step S107 and corrects the prediction information stored in the prediction information storage unit 202 again. On the other hand, when it is determined that the correction result is normal (Step S110; YES), the control unit 21 ends the charge / discharge planning process illustrated in FIG.

  As described above, the power management system 1000 and the control device 100 according to the first embodiment generate power in the house H, such as weather, temperature, humidity, sunshine hours, solar radiation, the operating state of the device 1 or the unit price of power purchase and sale. Or a prediction information storage unit 202 for storing prediction information of an index relating to consumed power, and before the second time, based on a relationship between the prediction information and the performance information at the first time. The prediction information stored at 202 and at a time point after the current time point is corrected. Thus, even if the prediction is uncertain, the prediction information can be corrected based on the actual information, and thus the accuracy of the prediction can be improved.

  As a result, charging and discharging of the power storage device 7 can be accurately controlled. By appropriately controlling the charging and discharging of the power storage device 7, for example, it is possible to suppress the influence on economic efficiency due to an unexpected increase in the electricity rate. Further, it is possible to suppress the influence on the convenience and the comfort of the user due to the shortage of the remaining amount of the power storage device 7.

(Embodiment 2)
Next, a second embodiment of the present invention will be described.

  The control device 100 according to the first embodiment determines whether correction of the prediction information stored in the prediction information storage unit 202 is necessary, and corrects the prediction information when it is determined that correction is necessary. The charging / discharging plan of the device 7 was generated again. On the other hand, the control device 100a according to the second embodiment corrects the prediction information in the same manner as in the first embodiment, and then adjusts the charge / discharge of the power storage device 7 or the power consumption of each device 1. The power in the power management system 1000 is more actively controlled. This will be described below.

  FIG. 11 shows a hardware configuration of a control device 100a according to the second embodiment. As shown in FIG. 2, the control device 100a includes a control unit 21a, a storage unit 22a, a clock unit 23, an in-home communication unit 24, and an out-of-home communication unit 25. These components are connected via a bus 29.

  The configuration of the power management system 1000 according to the second embodiment other than the control device 100a is the same as the configuration according to the first embodiment. Further, the functions of the clock unit 23, the in-home communication unit 24, and the out-of-home communication unit 25 are the same as those of the control device 100 according to the first embodiment. Therefore, a detailed description thereof will be omitted.

  Although not shown, the control unit 21a includes a CPU, a ROM, a RAM, and the like. In the control unit 21a, the CPU reads out the programs and data stored in the ROM, and controls the control device 100a by using the RAM as a work area.

  The storage unit 22a is, for example, a nonvolatile semiconductor memory such as a flash memory, an EPROM, or an EEPROM, and plays a role as a so-called secondary storage device (auxiliary storage device). The storage unit 22a stores various programs and data used by the control unit 21a to perform various processes, and various data generated or obtained by the control unit 21a performing various processes.

  The functional configuration of the storage unit 22a will be described with reference to FIG. As shown in FIG. 12, the storage unit 22a functionally includes an equipment information storage unit 201, a prediction information storage unit 202, an alternative data storage unit 203, an actual information storage unit 204, a plan storage unit 205, A characteristic storage unit 206 and a preference storage unit 207 are provided. These are constructed in an appropriate storage area in the storage unit 22a. Note that the configuration other than the characteristic storage unit 206 and the preference storage unit 207 is the same as that in the first embodiment, and thus the description is omitted.

  The characteristic storage unit 206 stores information on the power saving capability characteristics of each device 1 in the house H. The power saving capability characteristic is a characteristic when each device 1 performs power saving. To be more specific, the information on the power saving capability characteristics indicates that, for example, if the device 1 is an air conditioner, the power consumption of the air conditioner can be reduced by 20% by lowering the set temperature of the air conditioner by 3 ° C., or It is information that power consumption can be reduced by 15% by using the power saving function.

  The preference storage unit 207 stores information on the user's preference. The user's preference refers to which item of the economy, comfort, and environment is emphasized by the user when adjusting the power consumption of each device 1. The preference storage unit 207 stores, as an index indicating the preference of the user, a priority indicating which of the economy, the comfort, and the environment the user prefers.

  Also, the preference storage unit 207 recognizes the input / output terminal 8 held by the user and identifies the user using the device 1, and as an index indicating the user's preference, the device 1 And the tendency of use of the device 1 are stored. Thereby, even when an input regarding the user's preference is not obtained from the user, or even when there is a difference between the actual preference and the user's own preference recognized, it is possible to update based on the performance information, The quality of the adjustment can be improved.

  Next, a functional configuration of the control unit 21a will be described with reference to FIG. As illustrated in FIG. 13, the control unit 21a functionally includes a prediction unit 300, a plan generation unit 303, a charge / discharge control unit 304, a performance information acquisition unit 305, a correction unit 310, and a notification unit 320. , An adjustment unit 330. Note that the configuration other than the adjustment unit 330 is the same as that in the first embodiment, and thus the description is omitted.

  Adjustment section 330 charges / discharges power storage device 7 or consumes in house H based on the relationship between the prediction information stored in prediction information storage section 202 and the performance information acquired by performance information acquisition section 305. And / or adjust at least one of the applied powers. The adjustment unit 330 includes functions of an adjustment necessity determination unit 331 and an adjustment result evaluation unit 332. The function of the adjustment unit 330 is realized by the control unit 21a cooperating with the storage unit 22a, the clock unit 23, the home communication unit 24, and the like.

  The adjustment necessity determination unit 331 determines whether charging / discharging of the power storage device 7 or adjustment of power consumption of each device 1 is necessary. More specifically, when the performance information is acquired by the performance information acquisition unit 305, the adjustment necessity determination unit 331 obtains the acquired prediction information of the prediction information at a plurality of time points stored in the prediction information storage unit 202. The predicted information at the time corresponding to the actual information is compared with the actual information. As a result of the comparison, the adjustment necessity determination unit 331 determines that adjustment is necessary when the degree of deviation between the prediction information and the actual information is greater than the second threshold, and the degree of deviation is smaller than the second threshold. In this case, it is determined that adjustment is unnecessary.

  This second threshold value may be the same as or different from the threshold value (first threshold value) used by the correction necessity determination unit 311 to determine whether correction of prediction information is necessary. For example, when the second threshold is set to a value larger than the first threshold, the control device 100a corrects the prediction information when the degree of deviation between the prediction information and the performance information first exceeds the first threshold. Then, when the degree of deviation exceeds the second threshold, both the correction of the prediction information and the adjustment of the power are executed. By performing the correction and the adjustment in two stages in this manner, the charging and discharging of the power storage device 7 can be more accurately controlled.

  Adjustment unit 330 adjusts at least one of charging / discharging of power storage device 7 and power consumed in house H when the adjustment necessity determination unit 331 determines that adjustment is necessary. At this time, the adjustment unit 330 refers to the preference storage unit 207, and charges and discharges the power storage device 7 and consumes the power in the house H according to which of the economy, the comfort, and the environment is prioritized by the user. And adjust the power to be applied.

  Specifically, for example, when it is determined from the relationship between the predicted value of the sunshine duration or the amount of insolation and the actual value that the amount of power generated by the power generation device 5 is smaller than the predicted value, the adjusting unit 330 determines the amount of power generation shortage In order to compensate for this, the amount of discharge of the power storage device 7 is increased, or the amount of power consumption of each device 1 in the house H is reduced. Similarly, when it is determined that the power consumption in the house H is larger than the prediction based on the relationship between the prediction information and the performance information regarding the operation state of each device 1, the adjustment unit 330 compensates for the excess power consumption. Therefore, the discharge amount of the power storage device 7 is increased, or the power consumption amount of each device 1 in the house H is reduced.

  At this time, when the user gives priority to comfort, the adjustment unit 330 does not reduce the power consumption of each device 1 in the house H and avoids hindering the use of each device 1 without changing the power storage device 7. Increase the amount of discharge. When the power storage device 7 cannot be discharged, power is purchased from the system power supply 4. On the other hand, when the user gives priority to economy or environment, the adjustment unit 330 reduces the power consumption of each device 1 in the house H in order to avoid purchasing power. Specifically, the adjustment unit 330 reduces the power consumption of each device 1 by stopping the operation or changing the operation state to another state in which the power consumption is low. Note that when the power storage device 7 can discharge, the amount of discharge may be increased.

  When adjusting charging and discharging of power storage device 7, adjustment unit 330 communicates with power conversion device 6 via in-home communication unit 24 and transmits a control command for power storage device 7 to power conversion device 6. On the other hand, when adjusting the power consumed in the house H, the adjustment unit 330 refers to the power saving capability characteristic of each device 1 stored in the characteristic storage unit 206, and refers to the operating state and the load characteristic of each device 1. The necessary control content is determined from the relationship with Then, the adjustment unit 330 transmits a control command to the device 1 to be controlled via the in-home communication unit 24.

  The adjustment result evaluation unit 332 evaluates the charge / discharge of the power storage device 7 or the adjustment result of the power consumption of each device 1. More specifically, the adjustment result evaluation unit 332 evaluates whether or not the adjustment result matches the index indicating the user's preference stored in the preference storage unit 207. For example, when the user's preference places importance on economics, the adjustment result evaluation unit 332 evaluates whether the adjustment has reduced the purchased power, that is, obtained a result of reducing the electricity rate. Alternatively, when the user's preference places importance on comfort, the adjustment result evaluation unit 332 evaluates whether or not a result that does not reduce the power consumption of each device 1 is obtained by the adjustment. As a result of the evaluation, when it is evaluated that a result that matches the user's preference is not obtained, the adjustment unit 330 executes the adjustment again until a result that matches the user's preference is obtained.

  The flow of the charging / discharging planning process executed by the control device 100a according to the second embodiment configured as described above will be described with reference to the flowchart shown in FIG.

  In the charge / discharge planning process illustrated in FIG. 14, facility information is stored in the facility information storage unit 201 in advance, prediction information is stored in the prediction information storage unit 202 in advance, and information on the power saving capability characteristic is stored in the characteristic storage unit 206 in advance. In a state where the information on the user's preference is stored in the preference storage unit 207 in advance, the processing is executed at regular intervals or in accordance with a user instruction received via the input / output terminal 8. Here, the fixed period is, for example, 6 hours or 24 hours, and may be an arbitrary period.

  When the charge / discharge planning process illustrated in FIG. 14 starts, the control unit 21a executes the processes from step S101 to step S110. The processing from step S101 to step S110 is the same as the processing described with reference to FIG. 10 in the first embodiment, and a description thereof will not be repeated.

  When the processing from step S101 to step S110 is completed, the control unit 21a determines whether charging / discharging of the power storage device 7 or adjustment of power consumption of each device 1 is necessary (step S201). More specifically, the control unit 21a compares the performance information acquired in step S103 with the corresponding prediction information stored in the prediction information storage unit 202. As a result of the comparison, when the degree of deviation between the prediction information and the performance information is larger than the second threshold, the control unit 21a determines that adjustment is necessary. In step S201, the control unit 21a functions as an adjustment necessity determination unit 331.

  When it is determined that the adjustment is not necessary (Step S201; NO), the control unit 21a ends the charge / discharge planning process illustrated in FIG.

  On the other hand, when it is determined that the adjustment is necessary (Step S201; YES), the control unit 21a adjusts the charge / discharge of the power storage device 7 or the power consumption of the device 1 (Step S202). More specifically, the control unit 21a adjusts the amount of discharge of the power storage device 7 and the amount of power consumption of each device 1 in the house H according to the user's preference stored in the preference storage unit 207. Perform at least one of the following. In step S202, the control unit 21a functions as the adjustment unit 330.

  After adjusting the charge and discharge of the power storage device 7 or the power consumption of each device 1, the control unit 21a evaluates the adjustment result and determines whether or not the adjustment is necessary again (Step S203). More specifically, the control unit 21a refers to the preference storage unit 207 and evaluates whether or not the adjustment result matches the user's preference. If a result that matches the user's preference is not obtained, It is determined that another adjustment is necessary. In step S203, the control unit 21a functions as the adjustment result evaluation unit 332.

  As a result of the evaluation, when it is determined that the adjustment is necessary again (step S203; YES), the control unit 21a returns to the process of step S202, and again controls the charging / discharging of the power storage device 7 or the power consumption of each device 1. adjust. On the other hand, when it is determined that the adjustment is not necessary again (step S203; NO), the control unit 21a ends the charge / discharge planning process shown in FIG.

  As described above, the power management system 1000 and the control device 100a according to Embodiment 2 charge or discharge the power storage device 7 or are consumed in the house H when the prediction information and the result information are different. Adjust at least one of the powers. By positively controlling the power balance in this way, when the prediction is incorrect, a deviation that cannot be dealt with only by correcting the prediction information can be removed. As a result, charging and discharging of the power storage device 7 can be controlled more accurately.

(Modification)
Although the embodiments of the present invention have been described above, various modifications and applications are possible in practicing the present invention.

  For example, in the above-described embodiment, the prediction information storage unit 202 calculates the power generation amount by the power generation device 5, such as the weather, temperature, or solar radiation amount in the house H, as the prediction information of the index related to the power generated or consumed in the house H, or The prediction information of the factors affecting the power consumption in the house H is stored. However, in the present invention, the prediction information storage unit 202 stores prediction information of the power generation amount itself by the power generation device 5 as an index relating to the power generated in the house H, and predicts the index information regarding the power consumed in the house H. As such, prediction information of the power consumption itself in the house H may be stored. In this case, the plan generation unit 303 generates a plan for charging and discharging by the power storage device 7 based on the amount of power generation or the amount of power consumption stored in the prediction information storage unit 202. The performance information acquisition unit 305 obtains performance information of the power generation or power consumption, and the correction unit 310 obtains the power generation or power consumption stored in the prediction information storage unit 202 and the performance information acquisition unit 305. The power generation amount or power consumption amount is compared with the calculated power generation amount or power consumption amount, and the power generation amount or power consumption amount stored in the prediction information storage unit 202 is corrected.

  Further, the prediction information storage unit 202 may store only one of an index related to power generated in the house H and an index related to power consumed in the house H. In this case, the control device 100 includes only one of the power generation amount prediction unit 301 and the power consumption amount prediction unit 302, and predicts only one of the power generation amount and the power consumption amount. Then, the plan generation unit 303 generates a charge / discharge plan based on the predicted power generation or power consumption.

  In the above embodiment, the power measuring device 3 measures the power transmitted through each power line by CT1 to CT6, and transmits the measured value to the control device 100. However, the power measuring device 3 may be included in another device, or a device other than the power measuring device 3 may measure the power. For example, the power measuring device 3 is incorporated in some or all of the plurality of devices 1A, 1B, 1C,..., And the device 1 with the built-in power measuring device 3 measures the power consumption of its own device, 100. The power converter 6 may measure the power input to itself and the power output from itself, and transmit the measured power to the control device 100. The measured value of the electric power obtained in this manner is appropriately transmitted through a wireless network built in the house H, and can be shared between the devices.

  In FIG. 1, two facilities of the power generation device 5 and the power storage device 7 are connected to one power conversion device 6. However, one power conversion device may be installed for each of the power generation device 5 and the power storage device 7. Further, each of the power generation device 5 and the power storage device 7 may include a power conversion device.

  In the above embodiment, the power generation device 5 is installed in the house H. However, as long as the power generation device 5 is a power system different from the system power supply 4, the power generation device 5 may be installed on a site remote from the house H and supply power to the house H remotely. In this case, the area where the power generation device 5 is installed is referred to as a power demand area. Further, the power demanding area is not limited to a general house such as the house H described above, but may be an apartment house, a facility, a building, a factory, or the like as long as it is a place where power is supplied from the system power supply 4. good. In addition, the number of devices 1 that consume power in a power demanding area is not limited to a plurality, and may be at least one or more.

  In the above embodiment, the case where the control devices 100 and 100a are installed in the house H has been described. However, in the present invention, a device having the same function as the control devices 100 and 100a may be installed outside the house H. FIG. 15 shows an example of the power management system 1001 in this case. In the power management system 1001 shown in FIG. 15, a house 9 is provided with a router 9 instead of the control devices 100 and 100a. The router 9 is a device that communicates with the server 10 via the wide area network N, and is, for example, a broadband router. In this case, the router 9 and the server 10 cooperate to play the role of the control devices 100 and 100a.

  In the above embodiment, the input / output terminal 8 includes the display unit and the input unit, and the control devices 100 and 100a acquire the input information input to the input / output terminal 8 via wireless or wired communication. The display information was transmitted to the input / output terminal 8 and displayed. However, in the present invention, the control devices 100 and 100a may include a display unit and an input unit. That is, the functions of the input / output terminal 8 may be provided in the control devices 100 and 100a themselves.

  In the above-described embodiment, in the control units 21 and 21a of the control devices 100 and 100a, the CPU executes the program stored in the ROM or the storage units 22 and 22a, so that the prediction unit 300, the plan generation unit 303, It functions as each of the charge / discharge control unit 304, the result information acquisition unit 305, the correction unit 310, the notification unit 320, and the adjustment unit 330. However, in the present invention, the control units 21 and 21a may be dedicated hardware. The dedicated hardware is, for example, a single circuit, a composite circuit, a programmed processor, an ASIC (Application Specific Integrated Circuit), an FPGA (Field-Programmable Gate Array), or a combination thereof. When the control units 21 and 21a are dedicated hardware, each function of each unit may be realized by individual hardware, or the function of each unit may be realized by a single piece of hardware.

  In addition, a part of the function of each unit may be realized by dedicated hardware, and the other part may be realized by software or firmware. As described above, the control units 21 and 21a can realize the above-described functions by hardware, software, firmware, or a combination thereof.

  By applying an operation program that defines the operation of the control devices 100 and 100a according to the present invention to a computer such as an existing personal computer or an information terminal device, the computer can function as the control devices 100 and 100a according to the present invention. It is also possible.

  The distribution method of such a program is arbitrary. For example, a computer-readable recording medium such as a CD-ROM (Compact Disk ROM), a DVD (Digital Versatile Disk), an MO (Magneto Optical Disk), or a memory card. It may be stored in a medium and distributed, or may be distributed via a communication network such as the Internet.

  The present invention is capable of various embodiments and modifications without departing from the broad spirit and scope of the invention. Further, the above-described embodiment is for describing the present invention, and does not limit the scope of the present invention. That is, the scope of the present invention is shown not by the embodiments but by the claims. Various modifications made within the scope of the claims and equivalents thereof are considered to be within the scope of the present invention.

  INDUSTRIAL APPLICATION This invention can be employ | adopted suitably for the system etc. which manage electric power.

1, 1A, 1B, 1C equipment, 2 distribution boards, 3 power measurement devices, 4 system power supplies, 5 power generation devices, 6 power conversion devices, 7 power storage devices, 8 input / output terminals, 9 routers, 10 servers 100, 100a control Device, 21, 21a control unit, 22, 22a storage unit, 23 clock unit, 24 in-home communication unit, 25 out-of-home communication unit, 29 bus, 201 equipment information storage unit, 202 prediction information storage unit, 203 alternative data storage unit, 204 actual information storage unit, 205 plan storage unit, 206 characteristic storage unit, 207 preference storage unit, 300 prediction unit, 301 power generation amount prediction unit, 302 power consumption prediction unit, 303 plan generation unit, 304 charge / discharge control unit, 305 Performance information acquisition unit, 310 correction unit, 311 correction necessity determination unit, 312 deviation factor estimation unit, 313 correction result evaluation unit, 320 notification unit, 330 adjustment unit, 331 adjustment necessity Judgment unit, 332 Adjustment result evaluation unit, 1000, 1001 Power management system, H house, N wide area network

Claims (14)

A control device that controls charging and discharging of the power storage device in a power demand area,
Power generated in the power demanding area, or prediction information of an index relating to at least one of power consumed in the power demanding area, and first prediction information predicted at a first time; Prediction information storage means for storing second prediction information predicted at a second time point after the first time point;
At the first time, charging / discharging of the power storage device is controlled based on the first prediction information stored in the prediction information storage means. At the second time, the charge / discharge is stored in the prediction information storage means. Charge / discharge control means for controlling charging / discharging of the power storage device based on the obtained second prediction information;
A result information acquiring unit for acquiring the result information at the first time point of the index,
Prior to the second time point, based on a relationship between the first prediction information stored in the prediction information storage means and the performance information at the first time point acquired by the performance information acquisition means , Correction means for correcting the second prediction information stored in the prediction information storage means;
Prior to the second time point, based on a relationship between the first prediction information stored in the prediction information storage means and the performance information at the first time point acquired by the performance information acquisition means, charging and discharging of the electric storage device, or, Bei give a, an adjusting means for adjusting at least one of the power consumed in the power demand area,
The adjusting unit is configured to charge or discharge the power storage device, or at least one of power consumed in the power demand area, depending on which of the user prioritizes economy, comfort, and environment. Adjust one,
Control device. A control device that controls charging and discharging of the power storage device in a power demand area,
Power generated in the power demanding area, or prediction information of an index relating to at least one of power consumed in the power demanding area, and first prediction information predicted at a first time; Prediction information storage means for storing second prediction information predicted at a second time point after the first time point;
At the first time, charging / discharging of the power storage device is controlled based on the first prediction information stored in the prediction information storage means. At the second time, the charge / discharge is stored in the prediction information storage means. Charge / discharge control means for controlling charging / discharging of the power storage device based on the obtained second prediction information;
A result information acquiring unit for acquiring the result information at the first time point of the index,
When the performance information at the first point in time is obtained by the performance information obtaining means, the first prediction information stored in the prediction information storage means and the first prediction information obtained by the performance information obtaining means are obtained. If the degree of divergence between the record information at the time is greater than the first threshold value, before the second time point, and correcting means for correcting the second prediction information stored before Symbol prediction information storage means ,
When the performance information at the first point in time is obtained by the performance information obtaining means, the first prediction information stored in the prediction information storage means and the first prediction information obtained by the performance information obtaining means are obtained. If the degree of deviation from the performance information at the time is greater than a second threshold, at least of the power consumed or charged or discharged at the power demand location before the second time for example Bei and adjusting means for adjusting the one, the,
The second threshold is greater than the first threshold;
Control device. A plan generation unit configured to generate a charge / discharge plan by the power storage device based on the first prediction information and the second prediction information stored in the prediction information storage unit;
The charging and discharging control unit controls charging and discharging of the power storage device according to the plan generated by the plan generating unit,
When the second prediction information is corrected by the correction unit, the plan generation unit updates the plan based on the second prediction information corrected by the correction unit.
Control device according to claim 1 or 2. Based on the first prediction information and the second prediction information stored in the prediction information storage means, the power generation amount or the power consumption amount at the power demand area at the first time point and the second time point Prediction means for predicting at least one of:
The plan generation unit generates the plan based on the power generation amount or the power consumption amount predicted by the prediction unit,
The control device according to claim 3 . The correction unit is configured to determine whether a difference between the first prediction information stored in the prediction information storage unit and the performance information at the first time point acquired by the performance information acquisition unit is greater than a threshold value. Correcting the second prediction information stored in the prediction information storage means based on the performance information;
The control device according to claim 1 . The correction unit corrects the second prediction information stored in the prediction information storage unit by replacing the second prediction information stored in the prediction information storage unit with alternative data.
The control device according to claim 2 . A notification unit configured to notify at least one of the first prediction information stored in the prediction information storage unit and the performance information acquired by the performance information acquisition unit,
Control device according to any one of claims 1 to 6. The notifying unit notifies the second prediction information before being corrected by the correction unit, and the second prediction information after being corrected by the correction unit,
The control device according to claim 7 . The prediction information storage means stores prediction information of weather, sunshine hours, or insolation in the power demand area as prediction information of an index related to power generated in the power demand area, and is consumed in the power demand area. Storing prediction information of an operating state of at least one device in the power demand area, temperature, humidity, or power price as prediction information of an index regarding power.
Control device according to any one of claims 1 to 8. A control device according to any one of claims 1 to 9, the power storage device, and a power conversion device that charges or discharges the power storage device.
Power management system. A method for controlling charging and discharging of a power storage device in a power demand area,
At a first point in time, controlling charging / discharging of the power storage device based on prediction information of an index related to at least one of power generated in the power demand area or power consumed in the power demand area And
Acquiring actual information at the first time point of the index;
Based on the relationship between the prediction information and the record information in the first time point to correct the prediction information in the second time point later than said first time point,
Prior to the second point in time, based on the relationship between the prediction information and the result information at the first point in time, and whether the user prioritizes economy, comfort, or environment According to the charge and discharge of the power storage device, or adjust at least one of the power consumed in the power demand area,
Prior Symbol second time point, based on the corrected the prediction information, and controls the charging and discharging of the electric storage device,
How to control charging and discharging. A method for controlling charging and discharging of a power storage device in a power demand area,
At a first point in time, controlling charging / discharging of the power storage device based on prediction information of an index related to at least one of power generated in the power demand area or power consumed in the power demand area And
Acquiring actual information at the first time point of the index;
When the performance information at the first time is acquired, if the degree of deviation between the prediction information and the performance information at the first time is greater than a first threshold, the time after the first time is Correcting the prediction information at the second time point ,
When the performance information at the first time is acquired, if the degree of deviation between the prediction information and the performance information at the first time is greater than a second threshold, the performance information may be obtained before the second time. , Charge or discharge of the power storage device, or adjust at least one of the power consumed in the power demand area,
Prior Symbol second time point, based on the corrected the prediction information, and controls the charging and discharging of the electric storage device,
The second threshold is greater than the first threshold;
How to control charging and discharging. Power generated in a power demanding area, or prediction information of an index relating to at least one of power consumed in the power demanding area, and first prediction information predicted at a first time; A second prediction information predicted at a second time point after the first time point, and a prediction information storage means for storing the prediction information storage means, the computer controlling the charging and discharging of the power storage device in the power demand area,
At the first time, charging / discharging of the power storage device is controlled based on the first prediction information stored in the prediction information storage means. At the second time, the charge / discharge is stored in the prediction information storage means. Charge / discharge control means for controlling charge / discharge of the power storage device based on the second prediction information thus obtained;
A record information acquisition unit for acquiring record information at the first time point of the index,
Prior to the second time point, based on a relationship between the first prediction information stored in the prediction information storage means and the performance information at the first time point acquired by the performance information acquisition means , Correction means for correcting the second prediction information stored in the prediction information storage means;
Prior to the second time point, based on a relationship between the first prediction information stored in the prediction information storage means and the performance information at the first time point acquired by the performance information acquisition means, Charge / discharge of the power storage device, or adjusting means for adjusting at least one of power consumed in the power demand area ,
The adjusting unit is configured to charge or discharge the power storage device, or at least one of power consumed in the power demand area, depending on which of the user prioritizes economy, comfort, and environment. Adjust one,
program. Power generated in a power demanding area, or prediction information of an index relating to at least one of power consumed in the power demanding area, and first prediction information predicted at a first time; A second prediction information predicted at a second time point after the first time point, and a prediction information storage means for storing the prediction information storage means, the computer controlling the charging and discharging of the power storage device in the power demand area,
At the first time, charging / discharging of the power storage device is controlled based on the first prediction information stored in the prediction information storage means. At the second time, the charge / discharge is stored in the prediction information storage means. Charge / discharge control means for controlling charge / discharge of the power storage device based on the second prediction information thus obtained;
A record information acquisition unit for acquiring record information at the first time point of the index,
When the performance information at the first point in time is obtained by the performance information obtaining means, the first prediction information stored in the prediction information storage means and the first prediction information obtained by the performance information obtaining means are obtained. If the degree of divergence between the record information at the time is greater than the first threshold value, the prior second time, correction means for correcting the pre-Symbol the second prediction information stored in the prediction information storage means,
When the performance information at the first point in time is obtained by the performance information obtaining means, the first prediction information stored in the prediction information storage means and the first prediction information obtained by the performance information obtaining means are obtained. If the degree of deviation from the performance information at the time is greater than a second threshold, at least of the power consumed or charged or discharged at the power demand location before the second time Function as adjusting means for adjusting either ,
The second threshold is greater than the first threshold;
program.

Images