WO2017170614A1 - Battery, battery control system, battery control device, and program - Google Patents

Battery, battery control system, battery control device, and program Download PDF

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Publication number
WO2017170614A1
WO2017170614A1 PCT/JP2017/012766 JP2017012766W WO2017170614A1 WO 2017170614 A1 WO2017170614 A1 WO 2017170614A1 JP 2017012766 W JP2017012766 W JP 2017012766W WO 2017170614 A1 WO2017170614 A1 WO 2017170614A1
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WO
WIPO (PCT)
Prior art keywords
battery
unit
substation
information
movement instruction
Prior art date
Application number
PCT/JP2017/012766
Other languages
French (fr)
Japanese (ja)
Inventor
孫 正義
筒井 多圭志
康介 朝長
Original Assignee
ソフトバンク株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from JP2016069749A external-priority patent/JP6576869B2/en
Priority claimed from JP2016085478A external-priority patent/JP6050909B1/en
Application filed by ソフトバンク株式会社 filed Critical ソフトバンク株式会社
Publication of WO2017170614A1 publication Critical patent/WO2017170614A1/en

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60LPROPULSION OF ELECTRICALLY-PROPELLED VEHICLES; SUPPLYING ELECTRIC POWER FOR AUXILIARY EQUIPMENT OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRODYNAMIC BRAKE SYSTEMS FOR VEHICLES IN GENERAL; MAGNETIC SUSPENSION OR LEVITATION FOR VEHICLES; MONITORING OPERATING VARIABLES OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRIC SAFETY DEVICES FOR ELECTRICALLY-PROPELLED VEHICLES
    • B60L3/00Electric devices on electrically-propelled vehicles for safety purposes; Monitoring operating variables, e.g. speed, deceleration or energy consumption
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60LPROPULSION OF ELECTRICALLY-PROPELLED VEHICLES; SUPPLYING ELECTRIC POWER FOR AUXILIARY EQUIPMENT OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRODYNAMIC BRAKE SYSTEMS FOR VEHICLES IN GENERAL; MAGNETIC SUSPENSION OR LEVITATION FOR VEHICLES; MONITORING OPERATING VARIABLES OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRIC SAFETY DEVICES FOR ELECTRICALLY-PROPELLED VEHICLES
    • B60L58/00Methods or circuit arrangements for monitoring or controlling batteries or fuel cells, specially adapted for electric vehicles
    • B60L58/10Methods or circuit arrangements for monitoring or controlling batteries or fuel cells, specially adapted for electric vehicles for monitoring or controlling batteries
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01MPROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
    • H01M50/00Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
    • H01M50/20Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders
    • H01M50/204Racks, modules or packs for multiple batteries or multiple cells
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J13/00Circuit arrangements for providing remote indication of network conditions, e.g. an instantaneous record of the open or closed condition of each circuitbreaker in the network; Circuit arrangements for providing remote control of switching means in a power distribution network, e.g. switching in and out of current consumers by using a pulse code signal carried by the network
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J7/00Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/10Energy storage using batteries
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T10/00Road transport of goods or passengers
    • Y02T10/60Other road transportation technologies with climate change mitigation effect
    • Y02T10/70Energy storage systems for electromobility, e.g. batteries
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T90/00Enabling technologies or technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02T90/10Technologies relating to charging of electric vehicles
    • Y02T90/16Information or communication technologies improving the operation of electric vehicles

Definitions

  • the present invention relates to a battery, a battery control system, a battery control device, and a program.
  • Patent Document 1 JP-A-2015-146162
  • a battery may include a housing.
  • the battery may include a battery cell built in the housing.
  • the battery may include a connector unit that detachably holds the SIM.
  • the battery may include a position acquisition unit that acquires the position of the battery.
  • the battery may include a wireless communication unit that transmits position information indicating the position of the battery by wireless communication using information recorded in the SIM.
  • the battery may further include a notification data output unit that outputs notification data when the remaining battery level of the battery cell is lower than a predetermined threshold.
  • the wireless communication unit may receive position information of the charging station, and the notification data output unit may output notification data including the position information of the charging station received by the wireless communication unit.
  • the wireless communication unit may receive battery location information that can be charged to the battery, and the notification data output unit may output notification data including the battery location information received by the wireless communication unit.
  • the battery may be mounted on an electric vehicle, and the electric power of the battery cell may be supplied to the electric vehicle.
  • the battery control system may include a battery and a battery control device.
  • the battery includes a battery cell built in the housing, a connector unit that detachably holds a SIM (Subscriber Identity Module), a position acquisition unit that acquires a position, and wireless communication using information recorded in the SIM
  • SIM Subscriber Identity Module
  • the battery control device may include a battery information receiving unit that receives battery remaining amount and position information from the battery.
  • the battery control device may include a demand status deriving unit that derives a power demand status based on the remaining battery levels and positions of a plurality of batteries.
  • the battery control device may include a movement instruction transmission unit that transmits a movement instruction to a battery that can move autonomously among the plurality of batteries based on the demand situation.
  • the autonomously movable battery may be a battery in which a plurality of batteries can move together.
  • the demand situation deriving unit may derive a position where power supply is required, and the movement instruction transmitting unit is configured to determine whether the remaining battery level is a predetermined threshold value among the autonomously movable batteries. You may transmit the movement instruction
  • the demand situation deriving unit may derive a position where power can be supplied, and the movement instruction transmitting unit has a remaining battery level less than a predetermined threshold among the autonomously movable batteries. You may transmit the movement instruction
  • the battery control system is configured to derive a deterioration degree of the battery cell based on a remaining battery level at the first position and a remaining battery level at the second position of the battery that moves using the power of the battery cell.
  • a degree deriving unit may be further provided, wherein the movement instruction transmitting unit transmits a movement instruction to move to an exchange station capable of replacing the battery cell, to the battery having the deterioration degree higher than a predetermined threshold. Good.
  • the battery control device may further include a substation position acquisition unit that acquires a position of the substation, and the movement instruction transmission unit is a battery that can supply power to the substation among the plurality of batteries. In addition, an instruction to move to the position acquired by the substation position acquisition unit may be transmitted.
  • a battery control device includes a battery cell built in a housing, a connector unit that removably holds a SIM, a position acquisition unit that acquires a position, and wireless communication using information recorded in the SIM, You may provide the battery information receiving part which receives battery remaining amount and a positional infomation from the battery which has a wireless communication part which transmits the battery residual amount of a cell, and the positional information which shows a position.
  • the battery control device may include a demand status deriving unit that derives a power demand status based on the remaining battery levels and positions of a plurality of batteries.
  • the battery control device may include a movement instruction transmission unit that transmits a movement instruction to a battery that can move autonomously among a plurality of batteries based on the demand situation.
  • a program for causing a computer to function as the battery control device is provided.
  • the battery control system may include a battery that can move autonomously and a battery control device.
  • the battery includes a battery cell built in the housing, a connector unit that removably holds the SIM, a battery position acquisition unit that acquires the position, and wireless communication that uses information recorded in the SIM. And a wireless communication unit that transmits position information indicating the position.
  • the battery control device may include a battery information receiving unit that receives the remaining battery capacity and position from the battery.
  • the battery control device may include a substation position acquisition unit that acquires the position of the substation where power supply is interrupted due to the occurrence of a failure.
  • the battery control device may include a movement instruction transmission unit that transmits a movement instruction to the position acquired by the substation position acquisition unit to a battery that can supply power to the substation among the plurality of batteries.
  • the battery control device may further include a standard voltage acquisition unit that acquires a standard voltage of the substation, and the movement instruction transmission unit includes a standard voltage of the plurality of batteries, and a standard voltage acquisition unit of the plurality of batteries. You may transmit the movement instruction
  • the battery may further include a connector for connecting the battery cell to a battery cell of another battery, and the movement instruction transmission unit is connected to the standard voltage acquired by the standard voltage acquisition unit. You may transmit the movement instruction
  • the battery may further include a power supply plug that supplies power of the battery cell, and the substation includes a charging plug that is connected to the power supply plug and receives the power supply of the battery cell.
  • the movement instruction transmission unit may instruct the battery to supply power to the charging plug by the power supply plug.
  • the battery may further include a radiation measuring unit that measures radiation, and the battery information receiving unit includes the amount of radiation measured by the radiation measuring unit and position information of the battery that measures the radiation.
  • the battery control device may further include a radiation information transmitting unit that transmits the radiation amount and the position information received by the battery information receiving unit to another device.
  • a battery control device includes a battery cell built in the housing, a connector unit that removably holds the SIM, a battery position acquisition unit that acquires a position, and wireless communication using information recorded in the SIM.
  • a wireless communication unit that transmits the remaining battery level of the battery cell and position information indicating the position, and a battery information receiving unit that receives the remaining battery level and position of the battery cell from a battery that can move autonomously. It's okay.
  • the battery control device may include a substation position acquisition unit that acquires the position of the substation.
  • the battery control device may include a movement instruction transmission unit that transmits a movement instruction to the position acquired by the substation position acquisition unit to a battery that can supply power to the substation among the plurality of batteries.
  • a program for causing a computer to function as the battery control device for causing a computer to function as the battery control device.
  • An example of battery 100 is shown roughly.
  • An example of a functional composition of communication unit 120 is shown roughly.
  • An example of the electric vehicle 300 carrying the battery 100 is shown schematically.
  • An example of display data 400 is shown roughly.
  • Another example of the battery 100 is shown schematically.
  • An example of battery control system 600 is shown roughly.
  • An example of functional composition of information management server 500 is shown roughly.
  • 1 schematically illustrates an example of a battery control system 700.
  • An example of functional composition of information management server 500 is shown roughly.
  • An example of the computer 1000 which functions as the information management server 500 is schematically shown.
  • FIG. 1 schematically shows an example of a battery 100.
  • the battery 100 may supply power to an arbitrary device.
  • the battery 100 is mounted on an electric vehicle and supplies power to the electric vehicle.
  • the battery 100 may be mounted on an electric motorcycle, an electric bicycle, a drone, or the like to supply electric power thereto.
  • the battery 100 is mounted on, for example, a robot and supplies power to the robot.
  • the battery 100 includes a battery cell 110 and a communication unit 120.
  • the communication unit 120 includes a connector unit 122, a wireless communication unit 124, and a position acquisition unit 126.
  • the connector unit 122 holds a SIM (Subscriber Identity Module) in a detachable manner.
  • the connector unit 122 holds, for example, a SIM card so as to be detachable.
  • the wireless communication unit 124 performs wireless communication using information recorded in the SIM held by the connector unit 122.
  • the wireless communication unit 124 is, for example, a 3G (3rd Generation) communication system such as WCDMA (registered trademark) (Wideband Code Division Multiple Access) and CDMA2000 (Code Division Multiple Access 2000), LTE (Long 3), etc. Wireless communication is performed according to a 9G communication system and a mobile communication system such as a 4G communication system such as Advanced LTE.
  • the wireless communication unit 124 may further include an antenna for WiFi communication, and may execute WiFi (registered trademark) (Wireless Fidelity) communication.
  • the wireless communication unit 124 may execute communication via the network 10.
  • the network 10 includes, for example, the Internet and a telephone network.
  • the wireless communication unit 124 communicates with the communication terminal 210 and the information management server 500 via the network 10.
  • the communication terminal 210 may be any terminal as long as it is a communicable terminal, such as a mobile phone such as a smartphone, a tablet terminal, and a PC (Personal Computer).
  • the information management server 500 manages information transmitted by the battery 100. Further, the information management server 500 may manage information transmitted to the battery 100.
  • the wireless communication unit 124 transmits the remaining battery level of the battery cell 110, for example.
  • the wireless communication unit 124 may transmit the remaining battery level of the battery cell 110 to the communication terminal 210. Thereby, the user of the communication terminal 210 can grasp the remaining battery level of the battery 100. Further, the wireless communication unit 124 may transmit the remaining battery level of the battery cell 110 to the information management server 500. As a result, the remaining battery level of the battery 100 can be managed by the information management server 500.
  • the position acquisition unit 126 acquires the position of the battery 100.
  • the position acquisition unit 126 is, for example, a GPS (Global Positioning System) unit, and acquires GPS data as the position of the battery 100.
  • the position acquisition unit 126 may acquire the position of the WiFi access point with which the wireless communication unit 124 has established communication as the position of the battery 100.
  • the position acquisition unit 126 may acquire both the position of the WiFi access point with which the wireless communication unit 124 has established communication and the GPS data as the position of the battery 100.
  • the wireless communication unit 124 may transmit position information indicating the position of the battery 100 together with the remaining battery level of the battery 100.
  • the wireless communication unit 124 transmits the remaining battery level of the battery 100 and the position information of the battery 100 to the communication terminal 210, for example.
  • the communication terminal 210 informs the user of the position of the rechargeable point closest to the position indicated by the position information of the battery 100.
  • the chargeable portion is, for example, a charging stand that is fixedly installed. Further, the rechargeable portion may be a charging station that can charge the battery 100 and can move autonomously. Thereby, when the battery remaining amount of the battery 100 is low, the user can be made aware of the position of the chargeable portion.
  • the wireless communication unit 124 transmits the remaining battery capacity of the battery 100 and the position information of the battery 100 to the information management server 500, for example. For example, when the remaining battery level of the battery 100 received from the battery 100 is lower than a predetermined threshold, the information management server 500 determines the position of the chargeable location closest to the position indicated by the position information of the battery 100 as a communication terminal. To 210. The communication terminal 210 may notify the user of the position of the received chargeable location.
  • the wireless communication unit 124 may transmit position information indicating the position of the battery 100 when the remaining battery level of the battery 100 is lower than a predetermined threshold.
  • the wireless communication unit 124 transmits the position information of the battery 100 to the communication terminal 210.
  • the communication terminal 210 may notify the user of the position of the rechargeable point closest to the position indicated by the position information of the battery 100.
  • the wireless communication unit 124 transmits the position information of the battery 100 to the information management server 500.
  • the information management server 500 transmits to the communication terminal 210 the position of the rechargeable point closest to the position indicated by the position information of the battery 100.
  • the communication terminal 210 may notify the user of the position of the received chargeable location.
  • the information management server 500 transmits, for example, the position of the rechargeable location closest to the position indicated by the position information of the battery 100 to the battery 100.
  • the battery 100 may notify the position of the rechargeable location received from the information management server 500.
  • the battery 100 when the battery 100 is mounted on an electric vehicle, the battery 100 notifies the passenger of the electric vehicle of the position of the rechargeable location by displaying the position of the rechargeable location on a display included in the electric vehicle. You can do it.
  • the wireless communication unit 124 may transmit the position information of the battery 100 to the communication terminal 210 in response to a request from the communication terminal 210. For example, when the battery 100 is stolen, the user of the communication terminal 210 can confirm the position of the battery 100 by transmitting a request to the battery 100 using the communication terminal 210.
  • FIG. 2 schematically shows an example of the functional configuration of the communication unit 120.
  • the communication unit 120 includes a wireless communication unit 124, a position acquisition unit 126, a remaining amount acquisition unit 134, a notification data output unit 136, a battery information storage unit 138, and a history storage unit 140. Note that it is not essential that the communication unit 120 has all these configurations. For example, at least one of the wireless communication unit 124 and the battery information storage unit 138 may be included in the battery 100 without the communication unit 120.
  • the remaining amount acquisition unit 134 acquires the remaining battery level of the battery cell 110.
  • the remaining amount acquisition unit 134 may periodically acquire the remaining battery level of the battery cell 110.
  • the notification data output unit 136 outputs notification data.
  • the notification data output unit 136 causes the wireless communication unit 124 to transmit notification data for notifying the remaining battery level of the battery cell 110.
  • the notification data output unit 136 may cause the wireless communication unit 124 to transmit notification data that notifies the remaining battery level of the battery cell 110 and the position information of the battery 100 acquired by the position acquisition unit 126.
  • the notification data output unit 136 causes the wireless communication unit 124 to transmit notification data to that effect.
  • the notification data output unit 136 wirelessly communicates notification data for notifying that fact and the position information of the battery 100 acquired by the position acquisition unit 126. You may make it transmit to the part 124.
  • the battery information storage unit 138 stores information on the battery cell 110.
  • the battery information storage unit 138 may store the characteristics of the battery cell 110.
  • the battery information storage unit 138 stores, for example, charge / discharge characteristics of the battery cell 110.
  • the notification data output unit 136 may also transmit the characteristics of the battery cell 110 stored in the battery information storage unit 138 when transmitting the remaining battery level of the battery cell 110 to the wireless communication unit 124.
  • the battery information storage unit 138 may store manufacturer information regarding the manufacturer of the battery cell 110.
  • the battery information storage unit 138 may store type information indicating the types of other battery cells that can charge the battery cell 110.
  • the notification data output unit 136 may transmit at least one of these pieces of information together when the wireless communication unit 124 transmits the remaining battery level of the battery cell 110.
  • the history storage unit 140 stores the history of notification data output from the notification data output unit 136.
  • the notification data output unit 136 may cause the wireless communication unit 124 to transmit a history of notification data stored in the history storage unit 140.
  • the history storage unit 140 stores the history of the remaining battery level of the battery cell 110 acquired by the remaining amount acquisition unit 134 and the position information of the battery 100 when the remaining amount acquisition unit 134 acquires the remaining battery level. May be.
  • FIG. 3 schematically shows an example of an electric vehicle 300 on which the battery 100 is mounted.
  • the electric vehicle 300 includes a drive unit 310 and a display 320.
  • the drive unit 310 drives the electric vehicle 300 with the electric power supplied from the battery cell 110.
  • the display 320 executes display based on the notification data received from the notification data output unit 136.
  • the display 320 may be, for example, a display included in a car navigation system.
  • the notification data output unit 136 transmits, for example, notification data including position information indicating the position of the rechargeable portion received by the wireless communication unit 124 from the information management server 500 to the display 320.
  • Display 320 displays the position indicated by the received position information of the chargeable location.
  • the display 320 displays, for example, map data highlighting the position indicated by the position information of the chargeable location.
  • the notification data output unit 136 transmits the notification data including the position information of the battery that can be charged to the battery 100 received by the wireless communication unit 124 from the information management server 500 to the display 320.
  • the notification data output unit 136 receives, from the information management server 500, battery position information that can charge the battery 100 as follows, for example.
  • the notification data output unit 136 first stores the position information of the battery 100 acquired by the position acquisition unit 126 and the battery information storage unit 138 when the remaining battery level of the battery cell 110 is lower than a predetermined threshold.
  • the wireless communication unit 124 is made to transmit to the information management server 500 the type information indicating the type of the other battery cell 110 that can charge the battery cell 110 being charged.
  • the information management server 500 transmits, to the wireless communication unit, position information indicating the position of the electric vehicle that is closer to the position indicated by the position information of the received battery 100 among the electric vehicles that include the battery cell 110 indicated by the type of the received battery cell 110. 124.
  • the notification data output unit 136 includes the position information of the electric vehicle received by the wireless communication unit 124 in the notification data as the position information of the battery that can be charged in the battery 100, and transmits the notification data to the display 320.
  • the display 320 displays the map data which emphasized the position which the received positional information shows, for example. Thereby, when the battery remaining amount of the battery cell 110 is low, the passenger of the electric vehicle 300 can grasp the position of the electric vehicle on which the battery cell 110 capable of charging the battery cell 110 is mounted.
  • the battery 100 may be mounted on an autonomously movable electric vehicle capable of automatic driving.
  • the battery 100 may be mounted on a robot that can move autonomously.
  • the battery 100 may be mounted on each of the plurality of robots, and each of the plurality of batteries 100 mounted on the plurality of robots transmits the remaining battery level and position information of each battery cell 110 to the information management server 500. You can do it.
  • Each of the plurality of batteries 100 may receive the remaining battery capacity and position information of the other batteries 100 from the information management server 500. When it is determined that the remaining battery level of the other battery 100 received is less than its own battery level and can be moved to the position indicated by the position information, the battery 100 moves to the position indicated by the position information. The other battery 100 may be charged.
  • any of the plurality of batteries 100 may be a battery 100 dedicated to charging.
  • the battery 100 dedicated to charging receives the remaining battery capacity and position information of the other battery 100 from the information management server 500, and the position information of the battery 100 in which the remaining battery capacity is lower than a predetermined threshold is indicated by the position information. It may move and charge the battery 100.
  • FIG. 4 schematically shows an example of the display data 400.
  • the display data 400 may be data generated based on the notification data output from the notification data output unit 136.
  • the display data 400 is generated by the display 320 that has received the notification data, for example.
  • the display data 400 is generated by the communication terminal 210 that has received the notification data, for example.
  • the display data 400 may be generated by the notification data output unit 136 and transmitted to the display 320, the communication terminal 210, etc., and displayed.
  • Display data 400 includes map data 402, own vehicle object 410, charging station object 420, and corresponding vehicle object 430.
  • the own vehicle object 410 is arranged at the position of the battery 100 acquired by the position acquisition unit 126 on the map data 402.
  • the charging station object 420 is arranged on the map data 402 at a position indicated by the charging station position information received from the information management server 500.
  • the corresponding vehicle object 430 is disposed at the position of the electric vehicle on which the battery cell 110 capable of charging the battery cell 110 received from the information management server 500 is mounted.
  • Display 320 or communication terminal 210 causes display data 400 to be displayed so that a viewer can easily find the location of a charging station where battery 100 can be charged and the location of an electric vehicle equipped with battery cell 110 capable of charging battery 100. It can be grasped.
  • FIG. 5 schematically shows another example of the battery 100.
  • 5 includes a battery cell 110, a wireless communication unit 124, a position acquisition unit 126, a remaining amount acquisition unit 134, a notification data output unit 136, a battery information storage unit 138, and a history storage unit 140.
  • Unit 152 and supply connector 154 The battery 100 illustrated in FIG. 5 can be moved by the wheel unit 152, and a plurality of other batteries can be charged by the plurality of supply connectors 154.
  • the battery 100 moves to the position indicated by the instruction data according to the instruction data received from the communication terminal 210, for example. For example, the battery 100 moves to a place where a plurality of batteries that require charging are present.
  • the battery 100 transmits the remaining battery level of the battery cell 110 to the communication terminal 210 while supplying power to the plurality of batteries.
  • the battery 100 may further transmit the position information of the battery 100 acquired by the position acquisition unit 126.
  • the user of the communication terminal 210 transmits a feedback instruction to the battery 100 using the communication terminal 210 when, for example, the remaining battery level of the battery cell 110 is lower than a predetermined threshold.
  • the battery 100 returns in response to receiving the feedback instruction.
  • the battery 100 may be capable of storing the wheel portion 152.
  • the battery 100 stores the wheel unit 152 after moving to the position indicated by the instruction data in accordance with the instruction data received from the communication terminal 210. Thereby, the unexpected movement by the wheel part 152 can be prevented, and electric power can be stably supplied to a plurality of batteries.
  • the battery 100 may include an outrigger (not shown). For example, the battery 100 moves to the position indicated by the instruction data according to the instruction data received from the communication terminal 210, and then fixes the vehicle body to the ground by the outrigger. Thereby, the unexpected movement by the wheel part 152 can be prevented, and electric power can be stably supplied to a plurality of batteries.
  • the battery 100 in the above embodiment may further include an emotion management unit (not shown) that manages the emotion of the battery 100.
  • the battery 100 receives position information indicating the position of an electric vehicle on which a battery cell that can be charged to the battery cell 110 of the battery 100 is mounted from the information management server 500.
  • the emotion management unit may manage the emotion of the battery 100 such that the greater the distance between the battery 100 and the electric vehicle equipped with a battery cell that can be charged in the battery cell 110, the higher the degree of scissors.
  • the emotion management unit has a greater degree of scissors as the number of electric vehicles equipped with battery cells that can be charged in the battery cells 110 is within a predetermined range based on the position of the battery 100.
  • the emotion of battery 100 may be managed so as to increase.
  • the notification data output unit 136 causes the wireless communication unit 124 to transmit notification data indicating a warning when the degree of saliency of the battery 100 managed by the emotion management unit is higher than a predetermined threshold. It may be displayed.
  • the battery 100 may receive position information indicating the position of the charging stand from the information management server 500, and the emotion management unit increases the degree of scissors as the distance between the battery 100 and the charging stand increases.
  • the emotion of the battery 100 may be managed.
  • the emotion management unit may manage the emotion of the battery 100 such that the smaller the number of charging stations that are within a predetermined range based on the position of the battery 100, the higher the degree of mischief. .
  • FIG. 6 schematically shows an example of the battery control system 600.
  • the battery control system 600 includes an information management server 500 and a plurality of charging stations 610.
  • the information management server 500 may be an example of a battery control device.
  • the charging station 610 is equipped with at least one battery 100.
  • the charging station 610 may be equipped with a plurality of batteries 100.
  • the charging station 610 includes a wheel portion 612 and a supply connector 614.
  • the charging station 610 can be moved by the wheel portion 612, and a plurality of other batteries can be charged by the plurality of supply connectors 614.
  • Charging station 610 may be an example of a battery that can move autonomously.
  • the charging station 610 can charge the battery 100 by receiving the supply of power from the charging station 30.
  • the charging station 30 may receive power from any power system such as a thermal power generation system and a nuclear power generation system.
  • the charging station 30 receives power from the solar power generation system 22 and the wind power generation system 24.
  • the charging station 610 may be able to charge the battery 100 by receiving the supply of power from the other charging station 610.
  • the charging station 610 may supply power to an arbitrary device on which the battery 100 is mounted.
  • the charging station 610 supplies power to the battery-equipped vehicle 42 on which the battery 100 is mounted, the battery-equipped vehicle 44, and the like.
  • the charging station 610 supplies power to the battery-equipped vehicle 42, the battery-equipped vehicle 44, and the like, so that the charging station 610 is charged when the remaining battery level of the mounted battery 100 becomes lower than a predetermined threshold value.
  • the battery 100 may be charged by moving to 30.
  • the remaining battery level 616 schematically represents the remaining battery level of the battery 100 installed in the charging station 610.
  • the charging station 610 may perform movement, charging, and power supply in accordance with instructions from the information management server 500.
  • the information management server 500 receives and stores battery remaining amount and position information from a plurality of charging stations 610.
  • the information management server 500 receiving the battery remaining amount and position information from the charging station 610 may be receiving the battery remaining amount and position information from the battery 100 mounted on the charging station 610.
  • the information management server 500 may receive the remaining battery capacity and position information from each of the plurality of batteries 100.
  • the information management server 500 may receive the remaining battery capacity and position information of the plurality of batteries 100 from any one of the plurality of batteries 100. Note that only the position information of any of the plurality of batteries 100 may be received as the position information.
  • the information management server 500 receives and stores battery remaining amount and position information from any device on which the battery 100 is mounted, such as the battery mounted vehicle 42 and the battery mounted vehicle 44.
  • the information management server 500 derives the power demand status based on the stored battery remaining capacity and location information.
  • the power demand situation indicates, for example, a position where power supply is required.
  • the position where the power supply is required is, for example, a position indicated by the position information of the battery 100 in which the remaining battery level is less than a predetermined threshold.
  • the position where power supply is required may be a position where the number of batteries 100 that require power supply is larger than a predetermined threshold.
  • the position where power supply is required is an area in which a predetermined number or more of batteries 100 whose remaining battery capacity is smaller than a predetermined threshold exist in an area of a predetermined size. Is one of the positions.
  • the power demand situation indicates, for example, a position where power can be supplied.
  • the position where the power can be supplied is, for example, a position indicated by the position information of the charging station 610 in which the remaining battery level is greater than a predetermined threshold.
  • the position where the power can be supplied may be a position where the number of charging stations 610 in which the remaining battery level is greater than a predetermined threshold is greater than the predetermined threshold.
  • the position where power can be supplied is an area in which a predetermined number or more of charging stations 610 having a remaining battery capacity greater than a predetermined threshold exist in an area of a predetermined size. Is one of the positions.
  • the information management server 500 transmits a movement instruction to the autonomously movable battery 100 among the plurality of batteries 100 based on the derived power demand situation. For example, the information management server 500 transmits a movement instruction to any one of the plurality of charging stations 610.
  • the information management server 500 transmitting the movement instruction to the charging station 610 may be transmitting the movement instruction to any of the batteries 100 installed in the charging station 610.
  • the information management server 500 is, for example, a charge that is located near a position where the remaining amount of the battery is more than a predetermined threshold among the plurality of charging stations 610 and needs to be supplied with power more than the other charging stations 610.
  • a movement instruction to move to a position where the power supply is required is transmitted to the station 610.
  • the information management server 500 transmits a movement instruction to move to a position where power can be supplied, for example, among the batteries 100 that can move autonomously, with the remaining battery level being less than a predetermined threshold. To do. For example, when the remaining battery level of the battery 100 of the battery-equipped vehicle 42 is less than a predetermined threshold, the information management server 500 transmits a movement instruction to move to a position where power can be supplied to the battery 100. .
  • the information management server 500 may transmit a movement instruction to the charging station 610 according to the degree of deterioration of the battery cell of the battery 100 installed in the charging station 610. For example, the information management server 500 determines the degree of deterioration of the battery cell based on the degree of decrease in the remaining battery level with respect to the moving distance of the charging station 610. As a specific example, the information management server 500 calculates the difference between the remaining battery level of the charging station 610 at the first location and the remaining battery level of the charging station 610 at the second location from the first location to the second location. When the value divided by the moving distance to is higher than a predetermined threshold value, it is determined that the battery 100 mounted on the charging station 610 needs to be replaced. The information management server 500 may transmit a movement instruction to move the battery 100 or the battery cell to the exchange station where the battery 100 or the battery cell can be exchanged, to the charging station 610 determined to be exchanged. The movement instruction may include position information of the exchange station.
  • FIG. 7 schematically shows an example of the functional configuration of the information management server 500.
  • the information management server 500 includes a battery information receiving unit 502, a battery information storage unit 504, a demand situation deriving unit 506, a movement instruction transmitting unit 508, and a deterioration degree deriving unit 510. Note that it is not essential that the information management server 500 has all these configurations.
  • the battery information receiving unit 502 receives battery remaining amount and position information from each of the plurality of batteries 100.
  • the battery information receiving unit 502 may periodically receive the remaining battery capacity and position information.
  • the battery information storage unit 504 stores the remaining battery level and position information received by the battery information reception unit 502.
  • the demand status deriving unit 506 derives the power demand status based on the remaining battery capacity and location information stored in the battery information storage unit 504.
  • the movement instruction transmission unit 508 transmits a movement instruction to the battery 100 based on the power demand situation derived by the demand situation deriving unit 506.
  • the movement instruction transmission unit 508 may transmit a movement instruction to a plurality of batteries 100 that can move autonomously. For example, the movement instruction transmission unit 508 transmits a movement instruction to the battery 100 mounted on the charging station 610.
  • the deterioration degree deriving unit 510 derives the deterioration degree of the battery 100.
  • the degree of deterioration of the battery 100 may be the degree of deterioration of the battery cell of the battery 100.
  • Deterioration degree deriving unit 510 derives the deterioration degree of battery 100 based on the remaining battery level at the first position and the remaining battery level at the second position of battery 100 that moves using the power of the battery cell of battery 100. To do.
  • the movement instruction transmission unit 508 may transmit a movement instruction to move to the exchange station to the battery 100 whose deterioration degree derived by the deterioration degree deriving unit 510 is higher than a predetermined threshold.
  • FIG. 8 schematically shows an example of the battery control system 700.
  • the battery control system 700 includes an information management server 500 and a plurality of charging stations 710.
  • Charging station 710 may have the same configuration as charging station 610.
  • the plurality of charging stations 710 include charging stations 710 having different standard voltages.
  • the plurality of charging stations 710 include a charging station with a standard voltage that can supply power to the nuclear power plant 50, a charging station with a standard voltage that can supply power to the ultra-high voltage substation 52, and charging with a standard voltage that can supply power to the primary substation 54.
  • the charging station 710 capable of supplying power to the nuclear power plant 50 includes a power supply plug 712 that is connected to the charging plug 51 of the nuclear power plant 50 in order to supply power to the nuclear power plant 50.
  • the charging station 710 capable of supplying power to the ultrahigh voltage substation 52 has a power supply plug 712 that is connected to the charging plug 53 of the ultrahigh voltage substation 52 in order to supply power to the ultrahigh voltage substation 52.
  • the charging station 710 that can supply power to the primary substation 54 has a power supply plug 712 that is connected to the charging plug 55 of the primary substation 54 in order to supply power to the primary substation 54.
  • the charging station 710 that can supply power to the intermediate substation 56 includes a power supply plug 712 that is connected to the charging plug 57 of the intermediate substation 56 in order to supply power to the intermediate substation 56.
  • the charging station 710 that can supply power to the distribution substation 58 has a power supply plug 712 that is connected to the charging plug 59 of the distribution substation 58 in order to supply power to the distribution substation 58.
  • the power network including the ultra-high voltage substation 52, the primary substation 54, the intermediate substation 56, and the distribution substation 58 supplies the power generated by the nuclear power plant 50, the solar power generation system 22, and the like hierarchically. However, if a failure occurs in the middle of a hierarchy, power supply to a hierarchy below the hierarchy in which the failure has occurred may stop. For example, when the power supply to the primary substation 54 is interrupted due to a failure occurring between the ultrahigh voltage substation 52 and the primary substation 54, the nuclear power plant 50, the solar power generation system 22, and the ultrahigh voltage substation Even if the station 52 is in operation and the primary substation 54 can be operated, the power supply to the intermediate substation 56 and the distribution substation 58 and lower layers will be stopped.
  • the information management server 500 acquires the position of a substation where power supply is interrupted due to the occurrence of a failure when a failure occurs in the power network, and charging that can supply power to the substation An instruction to move to the substation is transmitted to the station 710.
  • the charging station 710 that can supply power to the substation where the power supply is interrupted due to the occurrence of a failure may be a charging station 710 that matches the standard voltage of the substation. When the standard voltage of the substation and the standard voltage of the charging station 710 do not match, power cannot be supplied from the charging station 710 to the substation.
  • the substation in which a failure has occurred.
  • the charging station 710 having the same voltage as that of the station can be moved to the substation where the power supply is cut off, the power supply from the charging station 710 to the substation can be realized. And thereby, the power supply to the hierarchy below the primary substation 54 can be restarted.
  • the information management server 500 moves the charging station 710 to the position of the charging station 30 that realizes charging using the power generated by the solar power generation system 22 or the nuclear power plant 50, and then the power supply is performed. It may be moved to the location of the blocked substation. Thereby, a part of the power network can be assigned to the charging station 710, which can contribute to the temporary resumption of the power network when a failure occurs.
  • the charging station 710 may further include a connector connected to another charging station 710.
  • the information management server 500 connects a plurality of charging stations 710 to a plurality of charging stations 710 capable of supplying power at a standard voltage of a substation where power supply is cut off by connecting to another charging station 710.
  • a movement instruction to move to the position of the substation may be transmitted.
  • a plurality of charging stations 710 having a standard voltage lower than the standard voltage of the substation are provided. It is possible to supply power to the substation by moving the base to the substation and connecting them.
  • the charging station 710 may have a function of measuring radiation.
  • the function of measuring radiation may be included in the charging station 710 or the battery 100 mounted on the charging station 710.
  • the information management server 500 may receive, from the battery 100 of the charging station 710, the measured amount of radiation and position information indicating the position when the radiation is measured.
  • the information management server 500 may transmit the received radiation amount and position information to another device such as the communication terminal 210. As a result, it is possible to collect and provide information on radiation at substations and power plants while realizing the replacement of the power network by the charging station 710.
  • FIG. 9 schematically shows an example of the functional configuration of the information management server 500.
  • the information management server 500 includes a battery information reception unit 502, a battery information storage unit 504, a movement instruction transmission unit 508, a substation position acquisition unit 512, a standard voltage acquisition unit 514, and a radiation information transmission unit 516. Note that it is not essential that the information management server 500 has all these configurations.
  • the information management server 500 may further include other functions.
  • the information management server 500 may further include at least one of a demand situation deriving unit 506 and a deterioration degree deriving unit 510.
  • the battery information receiving unit 502 receives battery remaining amount and position information from each of the plurality of batteries 100.
  • the battery information receiving unit 502 may periodically receive the remaining battery capacity and position information.
  • the battery information storage unit 504 stores the remaining battery level and position information received by the battery information reception unit 502.
  • the battery information receiving unit 502 may receive from each of the plurality of batteries 100 the measured radiation amount and position information indicating the position when the radiation is measured.
  • the battery information storage unit 504 may store the radiation amount and position information received by the battery information reception unit 502.
  • the substation position acquisition unit 512 acquires the position of the substation.
  • the substation position acquisition unit 512 acquires, for example, the position of the substation where the supply of power is interrupted due to the occurrence of a failure.
  • the substation location acquisition unit 512 may receive the location of the substation via the network 10.
  • the substation location acquisition unit 512 is connected to the network 10 from a substation management server that manages the status of the substation, and the location of the substation where the supply of power is interrupted due to the occurrence of a fault and the location of the substation. Receive identification information.
  • the standard voltage acquisition unit 514 acquires the standard voltage of the substation from which the substation position acquisition unit 512 has acquired the position.
  • the standard voltage acquisition unit 514 may receive the standard voltage via the network 10.
  • the standard voltage acquisition unit 514 receives a standard voltage from a substation management server.
  • the standard voltage acquisition unit 514 stores information on each standard voltage in advance in association with the identification information of the plurality of substations, and corresponds to the identification information of the substation received from the substation management server.
  • the standard voltage to be read may be read out.
  • the movement instruction transmission unit 508 has acquired the substation position acquisition unit 512 in the charging station 710 that can supply power to the substation from which the substation position acquisition unit 512 has acquired the position among the plurality of charging stations 710. An instruction to move to the position may be transmitted.
  • the movement instruction transmission unit 508 moves the charging station 710 to the position acquired by the substation position acquisition unit 512 to the charging station 710 whose standard voltage matches the standard voltage acquired by the standard voltage acquisition unit 514 among the plurality of charging stations 710. Instructions may be sent.
  • the movement instruction transmission unit 508 acquires the substation position from the charging stations 710 out of other charging stations 710 out of the charging stations 710 whose standard voltage matches the standard voltage acquired by the standard voltage acquisition unit 514 among the plurality of charging stations 710.
  • the movement instruction may be transmitted to the charging station 710 close to the position acquired by the unit 512.
  • the movement instruction transmission unit 508 displays route information from the current position of the charging station 710 whose standard voltage matches the standard voltage acquired by the standard voltage acquisition unit 514 to the position acquired by the substation position acquisition unit 512.
  • the charging station 710 that is received via the network 10 and can reach the position acquired by the substation position acquisition unit 512 may be determined, and a movement instruction may be transmitted to the charging station 710.
  • the position acquired by the substation position acquisition unit 512 depends on the road conditions. You may not be able to move.
  • the information management server 500 confirms the route information from each charging station 710 to the position acquired by the substation position acquisition unit 512, the substation position acquisition unit 512 The movement instruction can be transmitted to the charging station 710 having a higher possibility of reaching the acquired position.
  • the radiation information transmission unit 516 transmits the amount of radiation stored in the battery information storage unit 504 and position information indicating the position where the radiation is measured to another device such as the communication terminal 210.
  • FIG. 10 schematically shows an example of a computer 1000 that functions as the information management server 500.
  • the computer 1000 includes a CPU peripheral unit including a CPU 1010, a RAM 1030, and a graphic controller 1085 connected to each other by a host controller 1092; a communication I / F 1040 connected to the host controller 1092 by an input / output controller 1094; An input / output unit having a hard disk drive 1050 and a DVD drive 1070, and a legacy input / output unit having a ROM 1020, an FD drive 1060, and an input / output chip 1080 connected to the input / output controller 1094 are provided.
  • the CPU 1010 operates based on programs stored in the ROM 1020 and the RAM 1030 and controls each unit.
  • the graphic controller 1085 acquires image data generated by the CPU 1010 or the like on a frame buffer provided in the RAM 1030 and displays the image data on the display 1090.
  • the graphic controller 1085 may include a frame buffer that stores image data generated by the CPU 1010 or the like.
  • the communication I / F 1040 communicates with another device via a wired or wireless network.
  • the communication I / F 1040 functions as hardware that performs communication.
  • the hard disk drive 1050 stores programs and data used by the CPU 1010.
  • the DVD drive 1070 reads a program or data from the DVD-ROM 1072 and provides it to the hard disk drive 1050 via the RAM 1030.
  • the ROM 1020 stores a boot program executed when the computer 1000 is started up, a program depending on the hardware of the computer 1000, and the like.
  • the FD drive 1060 reads a program or data from the flexible disk 1062 and provides it to the hard disk drive 1050 via the RAM 1030.
  • the input / output chip 1080 connects the FD drive 1060 to the input / output controller 1094, and connects various input / output devices to the input / output controller 1094 via, for example, a parallel port, a serial port, a keyboard port, and a mouse port. Connect to.
  • the program provided to the hard disk drive 1050 via the RAM 1030 is stored in a recording medium such as the flexible disk 1062, the DVD-ROM 1072, or an IC card and provided by the user.
  • the program is read from the recording medium, installed in the hard disk drive 1050 via the RAM 1030, and executed by the CPU 1010.
  • a program that is installed in the computer 1000 and causes the computer 1000 to function as the information management server 500 may work on the CPU 1010 or the like to cause the computer 1000 to function as each unit of the information management server 500.
  • the information processing described in these programs is read by the computer 1000, so that the battery information receiving unit 502, the battery information storing unit, which are specific means in which the software and the various hardware resources described above cooperate with each other. 504, a demand status deriving unit 506, a movement instruction transmitting unit 508, a deterioration degree deriving unit 510, a substation position acquiring unit 512, a standard voltage acquiring unit 514, and a radiation information transmitting unit 516.
  • the specific information management server 500 according to the purpose of use is constructed
  • each unit of the communication unit 120 may be realized by hardware or may be realized by software. Further, it may be realized by a combination of hardware and software. Further, the computer may function as the communication unit 120 by executing the program. The program may be installed in a computer constituting at least a part of the communication unit 120 from a computer-readable medium or a storage device connected to a network.
  • a program that is installed in a computer and causes the computer to function as the communication unit 120 according to the present embodiment works on a CPU or the like to cause the computer to function as each unit of the communication unit 120.
  • Information processing described in these programs functions as a specific means in which software and hardware resources of the communication unit 120 cooperate with each other by being read by a computer.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Sustainable Energy (AREA)
  • Sustainable Development (AREA)
  • Transportation (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Electrochemistry (AREA)
  • General Chemical & Material Sciences (AREA)
  • Electric Propulsion And Braking For Vehicles (AREA)
  • Charge And Discharge Circuits For Batteries Or The Like (AREA)

Abstract

With regard to batteries installed in electric automobiles and the like it is desirable that a highly convenient battery be provided. Therefore, provided is a battery equipped with: a case; a battery cell housed inside the case; a connector unit holding a subscriber identity module (SIM) in a detachable manner; a position acquisition unit that acquires the position of the battery; and a wireless communication unit that transmits position information indicating the position of the battery by means of wireless communication using information recorded in the SIM.

Description

バッテリ、バッテリ制御システム、バッテリ制御装置及びプログラムBattery, battery control system, battery control device, and program
 本発明は、バッテリ、バッテリ制御システム、バッテリ制御装置及びプログラムに関する。 The present invention relates to a battery, a battery control system, a battery control device, and a program.
 電気自動車等に搭載されるバッテリ(例えば、特許文献1参照)の重要性が高まっている。
 [先行技術文献]
 [特許文献]
 [特許文献1]特開2015-146162号公報 The importance of a battery (see, for example, Patent Document 1) mounted on an electric vehicle or the like is increasing.
[Prior art documents]
[Patent Literature]
[Patent Document 1] JP-A-2015-146162
解決しようとする課題Challenges to be solved
 バッテリによる電力供給をシステマチックに実現できることが望ましい。 It is desirable to be able to systematically realize battery power supply.
一般的開示General disclosure
 本発明の第1の態様によれば、バッテリが提供される。バッテリは、筐体を備えてよい。バッテリは、筐体に内蔵された電池セルを備えてよい。バッテリは、SIMを着脱可能に保持するコネクタ部を備えてよい。バッテリは、バッテリの位置を取得する位置取得部を備えてよい。バッテリは、SIMに記録されている情報を用いた無線通信により、バッテリの位置を示す位置情報を送信する無線通信部と備えてよい。 According to the first aspect of the present invention, a battery is provided. The battery may include a housing. The battery may include a battery cell built in the housing. The battery may include a connector unit that detachably holds the SIM. The battery may include a position acquisition unit that acquires the position of the battery. The battery may include a wireless communication unit that transmits position information indicating the position of the battery by wireless communication using information recorded in the SIM.
 上記バッテリは、上記電池セルの電池残量が予め定められた閾値よりも低い場合に通知データを出力する通知データ出力部をさらに備えてよい。上記無線通信部は、充電ステーションの位置情報を受信してよく、上記通知データ出力部は、上記無線通信部が受信した上記充電ステーションの位置情報を含む通知データを出力してよい。上記無線通信部は、上記バッテリに充電可能なバッテリの位置情報を受信してよく、上記通知データ出力部は、上記無線通信部が受信した上記バッテリの位置情報を含む通知データを出力してよい。上記バッテリは電気自動車に搭載されてよく、上記電気自動車に上記電池セルの電力を供給してよい。 The battery may further include a notification data output unit that outputs notification data when the remaining battery level of the battery cell is lower than a predetermined threshold. The wireless communication unit may receive position information of the charging station, and the notification data output unit may output notification data including the position information of the charging station received by the wireless communication unit. The wireless communication unit may receive battery location information that can be charged to the battery, and the notification data output unit may output notification data including the battery location information received by the wireless communication unit. . The battery may be mounted on an electric vehicle, and the electric power of the battery cell may be supplied to the electric vehicle.
 本発明の第2の態様によれば、バッテリ制御システムが提供される。バッテリ制御システムは、バッテリと、バッテリ制御装置とを備えてよい。バッテリは、筐体に内蔵された電池セルと、SIM(Subscriber Identity Module)を着脱可能に保持するコネクタ部と、位置を取得する位置取得部と、SIMに記録されている情報を用いた無線通信により、電池セルの電池残量と、位置を示す位置情報とを送信する無線通信部とを有するバッテリを有してよい。バッテリ制御装置は、バッテリから、電池残量及び位置情報を受信するバッテリ情報受信部を有してよい。バッテリ制御装置は、複数のバッテリの電池残量及び位置に基づいて、電力の需要状況を導出する需要状況導出部を有してよい。バッテリ制御装置は、需要状況に基づいて、複数のバッテリのうち、自律的に移動可能なバッテリに移動指示を送信する移動指示送信部を有してよい。 According to the second aspect of the present invention, a battery control system is provided. The battery control system may include a battery and a battery control device. The battery includes a battery cell built in the housing, a connector unit that detachably holds a SIM (Subscriber Identity Module), a position acquisition unit that acquires a position, and wireless communication using information recorded in the SIM Thus, a battery having a battery remaining amount of the battery cell and a wireless communication unit that transmits position information indicating the position may be included. The battery control device may include a battery information receiving unit that receives battery remaining amount and position information from the battery. The battery control device may include a demand status deriving unit that derives a power demand status based on the remaining battery levels and positions of a plurality of batteries. The battery control device may include a movement instruction transmission unit that transmits a movement instruction to a battery that can move autonomously among the plurality of batteries based on the demand situation.
 上記自律的に移動可能なバッテリは、複数のバッテリが一体となって移動可能なバッテリであってよい。上記需要状況導出部は、電力の供給を必要とする位置を導出してよく、上記移動指示送信部は、上記自律的に移動可能なバッテリのうち、上記電池残量が予め定められた閾値より多いバッテリに、上記電力の供給を必要とする位置に移動する移動指示を送信してよい。上記需要状況導出部は、電力の供給が可能な位置を導出してよく、上記移動指示送信部は、上記自律的に移動可能なバッテリのうち、上記電池残量が予め定められた閾値より少ないバッテリに、上記電力の供給が可能な位置に移動する移動指示を送信してよい。上記バッテリ制御システムは、上記電池セルの電力を用いて移動する上記バッテリの第1の位置における電池残量及び第2の位置における電池残量に基づいて、上記電池セルの劣化度合を導出する劣化度合導出部をさらに備えてよく、上記移動指示送信部は、上記劣化度合が予め定められた閾値より高い上記バッテリに、上記電池セルの交換が可能な交換ステーションへ移動する移動指示を送信してよい。上記バッテリ制御装置は、変電所の位置を取得する変電所位置取得部をさらに有してよく、上記移動指示送信部は、複数の上記バッテリのうち、上記変電所に対して電力供給可能なバッテリに、上記変電所位置取得部が取得した位置への移動指示を送信してよい。 The autonomously movable battery may be a battery in which a plurality of batteries can move together. The demand situation deriving unit may derive a position where power supply is required, and the movement instruction transmitting unit is configured to determine whether the remaining battery level is a predetermined threshold value among the autonomously movable batteries. You may transmit the movement instruction | indication which moves to the position which needs supply of the said electric power to many batteries. The demand situation deriving unit may derive a position where power can be supplied, and the movement instruction transmitting unit has a remaining battery level less than a predetermined threshold among the autonomously movable batteries. You may transmit the movement instruction | indication which moves to the position which can supply the said electric power to a battery. The battery control system is configured to derive a deterioration degree of the battery cell based on a remaining battery level at the first position and a remaining battery level at the second position of the battery that moves using the power of the battery cell. A degree deriving unit may be further provided, wherein the movement instruction transmitting unit transmits a movement instruction to move to an exchange station capable of replacing the battery cell, to the battery having the deterioration degree higher than a predetermined threshold. Good. The battery control device may further include a substation position acquisition unit that acquires a position of the substation, and the movement instruction transmission unit is a battery that can supply power to the substation among the plurality of batteries. In addition, an instruction to move to the position acquired by the substation position acquisition unit may be transmitted.
 本発明の第3の態様によれば、バッテリ制御装置が提供される。バッテリ制御装置は、筐体に内蔵された電池セルと、SIMを着脱可能に保持するコネクタ部と、位置を取得する位置取得部と、SIMに記録されている情報を用いた無線通信により、電池セルの電池残量と、位置を示す位置情報とを送信する無線通信部とを有するバッテリから、電池残量及び位置情報を受信するバッテリ情報受信部を備えてよい。バッテリ制御装置は、複数のバッテリの電池残量及び位置に基づいて、電力の需要状況を導出する需要状況導出部を備えてよい。バッテリ制御装置は、需要状況に基づいて、複数のバッテリのうち、自律的に移動可能なバッテリに移動指示を送信する移動指示送信部を備えてよい。 According to the third aspect of the present invention, a battery control device is provided. A battery control device includes a battery cell built in a housing, a connector unit that removably holds a SIM, a position acquisition unit that acquires a position, and wireless communication using information recorded in the SIM, You may provide the battery information receiving part which receives battery remaining amount and a positional infomation from the battery which has a wireless communication part which transmits the battery residual amount of a cell, and the positional information which shows a position. The battery control device may include a demand status deriving unit that derives a power demand status based on the remaining battery levels and positions of a plurality of batteries. The battery control device may include a movement instruction transmission unit that transmits a movement instruction to a battery that can move autonomously among a plurality of batteries based on the demand situation.
 本発明の第4の態様によれば、コンピュータを、上記バッテリ制御装置として機能させるためのプログラムが提供される。 According to the fourth aspect of the present invention, a program for causing a computer to function as the battery control device is provided.
 本発明の第5の態様によれば、バッテリ制御システムが提供される。バッテリ制御システムは、自律的に移動可能なバッテリと、バッテリ制御装置とを備えてよい。バッテリは、筐体に内蔵された電池セルと、SIMを着脱可能に保持するコネクタ部と、位置を取得するバッテリ位置取得部と、SIMに記録されている情報を用いた無線通信により、電池セルの電池残量と、位置を示す位置情報とを送信する無線通信部とを有してよい。バッテリ制御装置は、バッテリから電池残量及び位置を受信するバッテリ情報受信部を有してよい。バッテリ制御装置は、障害の発生により電力供給が遮断された変電所の位置を取得する変電所位置取得部を有してよい。バッテリ制御装置は、複数のバッテリのうち、変電所に対して電力供給可能なバッテリに、変電所位置取得部が取得した位置への移動指示を送信する移動指示送信部を有してよい。 According to the fifth aspect of the present invention, a battery control system is provided. The battery control system may include a battery that can move autonomously and a battery control device. The battery includes a battery cell built in the housing, a connector unit that removably holds the SIM, a battery position acquisition unit that acquires the position, and wireless communication that uses information recorded in the SIM. And a wireless communication unit that transmits position information indicating the position. The battery control device may include a battery information receiving unit that receives the remaining battery capacity and position from the battery. The battery control device may include a substation position acquisition unit that acquires the position of the substation where power supply is interrupted due to the occurrence of a failure. The battery control device may include a movement instruction transmission unit that transmits a movement instruction to the position acquired by the substation position acquisition unit to a battery that can supply power to the substation among the plurality of batteries.
 上記バッテリ制御装置は、上記変電所の規格電圧を取得する規格電圧取得部をさらに有してよく、上記移動指示送信部は、上記複数のバッテリのうち、規格電圧が、上記規格電圧取得部が取得した上記規格電圧と一致するバッテリに、上記変電所位置取得部が取得した位置への移動指示を送信してよい。上記バッテリは、上記電池セルを、他のバッテリの電池セルと連結するコネクタをさらに有してよく、上記移動指示送信部は、連結することによって、上記規格電圧取得部が取得した上記規格電圧の電力を供給可能な複数の上記バッテリに、上記変電所位置取得部が取得した位置への移動指示を送信してよい。上記バッテリは、上記電池セルの電力を供給する電力供給プラグをさらに有してよく、上記変電所は、上記電力供給プラグと連結して、上記電池セルの電力の供給を受け付ける充電用プラグを有してよく、上記移動指示送信部は、上記バッテリに、上記電力供給プラグによる上記充電用プラグへの電力の供給を指示してよい。上記バッテリは、放射線を測定する放射線測定部をさらに有してよく、上記バッテリ情報受信部は、上記放射線測定部によって測定された放射線の量と、上記放射線を測定した上記バッテリの位置情報とを、上記バッテリから受信してよく、上記バッテリ制御装置は、上記バッテリ情報受信部が受信した上記放射線の量及び上記位置情報を他の装置に送信する放射線情報送信部をさらに有してよい。 The battery control device may further include a standard voltage acquisition unit that acquires a standard voltage of the substation, and the movement instruction transmission unit includes a standard voltage of the plurality of batteries, and a standard voltage acquisition unit of the plurality of batteries. You may transmit the movement instruction | indication to the position which the said substation position acquisition part acquired to the battery which corresponds with the acquired said standard voltage. The battery may further include a connector for connecting the battery cell to a battery cell of another battery, and the movement instruction transmission unit is connected to the standard voltage acquired by the standard voltage acquisition unit. You may transmit the movement instruction | indication to the position which the said substation position acquisition part acquired to the said some battery which can supply electric power. The battery may further include a power supply plug that supplies power of the battery cell, and the substation includes a charging plug that is connected to the power supply plug and receives the power supply of the battery cell. The movement instruction transmission unit may instruct the battery to supply power to the charging plug by the power supply plug. The battery may further include a radiation measuring unit that measures radiation, and the battery information receiving unit includes the amount of radiation measured by the radiation measuring unit and position information of the battery that measures the radiation. The battery control device may further include a radiation information transmitting unit that transmits the radiation amount and the position information received by the battery information receiving unit to another device.
 本発明の第6の態様によれば、バッテリ制御装置が提供される。バッテリ制御装置は、筐体に内蔵された電池セルと、SIMを着脱可能に保持するコネクタ部と、位置を取得するバッテリ位置取得部と、SIMに記録されている情報を用いた無線通信により、電池セルの電池残量と、位置を示す位置情報とを送信する無線通信部を有し、自律的に移動可能なバッテリから、電池セルの電池残量及び位置を受信するバッテリ情報受信部を備えてよい。バッテリ制御装置は、変電所の位置を取得する変電所位置取得部を備えてよい。バッテリ制御装置は、複数のバッテリのうち、変電所に対して電力供給可能なバッテリに、変電所位置取得部が取得した位置への移動指示を送信する移動指示送信部を備えてよい。 According to the sixth aspect of the present invention, a battery control device is provided. The battery control device includes a battery cell built in the housing, a connector unit that removably holds the SIM, a battery position acquisition unit that acquires a position, and wireless communication using information recorded in the SIM. A wireless communication unit that transmits the remaining battery level of the battery cell and position information indicating the position, and a battery information receiving unit that receives the remaining battery level and position of the battery cell from a battery that can move autonomously. It's okay. The battery control device may include a substation position acquisition unit that acquires the position of the substation. The battery control device may include a movement instruction transmission unit that transmits a movement instruction to the position acquired by the substation position acquisition unit to a battery that can supply power to the substation among the plurality of batteries.
 本発明の第7の態様によれば、コンピュータを、上記バッテリ制御装置として機能させるためのプログラムが提供される。 According to the seventh aspect of the present invention, there is provided a program for causing a computer to function as the battery control device.
 なお、上記の発明の概要は、本発明の必要な特徴の全てを列挙したものではない。また、これらの特徴群のサブコンビネーションもまた、発明となりうる。 Note that the above summary of the invention does not enumerate all the necessary features of the present invention. In addition, a sub-combination of these feature groups can also be an invention.
バッテリ100の一例を概略的に示す。An example of battery 100 is shown roughly. 通信ユニット120の機能構成の一例を概略的に示す。An example of a functional composition of communication unit 120 is shown roughly. バッテリ100を搭載した電気自動車300の一例を概略的に示す。An example of the electric vehicle 300 carrying the battery 100 is shown schematically. 表示データ400の一例を概略的に示す。An example of display data 400 is shown roughly. バッテリ100の他の一例を概略的に示す。Another example of the battery 100 is shown schematically. バッテリ制御システム600の一例を概略的に示す。An example of battery control system 600 is shown roughly. 情報管理サーバ500の機能構成の一例を概略的に示す。An example of functional composition of information management server 500 is shown roughly. バッテリ制御システム700の一例を概略的に示す。1 schematically illustrates an example of a battery control system 700. 情報管理サーバ500の機能構成の一例を概略的に示す。An example of functional composition of information management server 500 is shown roughly. 情報管理サーバ500として機能するコンピュータ1000の一例を概略的に示す。An example of the computer 1000 which functions as the information management server 500 is schematically shown.
 以下、発明の実施の形態を通じて本発明を説明するが、以下の実施形態は請求の範囲にかかる発明を限定するものではない。また、実施形態の中で説明されている特徴の組み合わせの全てが発明の解決手段に必須であるとは限らない。 Hereinafter, the present invention will be described through embodiments of the invention. However, the following embodiments do not limit the invention according to the claims. In addition, not all the combinations of features described in the embodiments are essential for the solving means of the invention.
 図1は、バッテリ100の一例を概略的に示す。本実施形態に係るバッテリ100は、任意の装置に電力を供給してよい。例えば、バッテリ100は、電気自動車に搭載されて、電気自動車に電力を供給する。バッテリ100は、電動バイク、電動自転車及びドローン等に搭載されて、これらに電力を供給してもよい。また、バッテリ100は、例えば、ロボットに搭載されて、ロボットに電力を供給する。 FIG. 1 schematically shows an example of a battery 100. The battery 100 according to the present embodiment may supply power to an arbitrary device. For example, the battery 100 is mounted on an electric vehicle and supplies power to the electric vehicle. The battery 100 may be mounted on an electric motorcycle, an electric bicycle, a drone, or the like to supply electric power thereto. The battery 100 is mounted on, for example, a robot and supplies power to the robot.
 バッテリ100は、電池セル110及び通信ユニット120を備える。通信ユニット120は、コネクタ部122、無線通信部124、及び位置取得部126を有する。 The battery 100 includes a battery cell 110 and a communication unit 120. The communication unit 120 includes a connector unit 122, a wireless communication unit 124, and a position acquisition unit 126.
 コネクタ部122は、SIM(Subscriber Identity Module)を着脱可能に保持する。コネクタ部122は、例えば、SIMカードを着脱可能に保持する。 The connector unit 122 holds a SIM (Subscriber Identity Module) in a detachable manner. The connector unit 122 holds, for example, a SIM card so as to be detachable.
 無線通信部124は、コネクタ部122が保持するSIMに記録されている情報を用いて無線通信を実行する。無線通信部124は、例えば、WCDMA(登録商標)(Wideband Code Division Multiple Access)及びCDMA2000(Code Division Multiple Access 2000)等の、3G(3rd Generation)通信方式、LTE(Long Term Evolution)等の3.9G通信方式、及びAdvanced LTE等の4G通信方式等のモバイル通信方式に従って無線通信を実行する。無線通信部124は、WiFi通信用のアンテナをさらに備えて、WiFi(登録商標)(Wireless Fidelity)通信を実行してもよい。 The wireless communication unit 124 performs wireless communication using information recorded in the SIM held by the connector unit 122. The wireless communication unit 124 is, for example, a 3G (3rd Generation) communication system such as WCDMA (registered trademark) (Wideband Code Division Multiple Access) and CDMA2000 (Code Division Multiple Access 2000), LTE (Long 3), etc. Wireless communication is performed according to a 9G communication system and a mobile communication system such as a 4G communication system such as Advanced LTE. The wireless communication unit 124 may further include an antenna for WiFi communication, and may execute WiFi (registered trademark) (Wireless Fidelity) communication.
 無線通信部124は、ネットワーク10を介した通信を実行してよい。ネットワーク10は、例えばインターネット及び電話網を含む。無線通信部124は、例えば、ネットワーク10を介して、通信端末210及び情報管理サーバ500等と通信する。 The wireless communication unit 124 may execute communication via the network 10. The network 10 includes, for example, the Internet and a telephone network. For example, the wireless communication unit 124 communicates with the communication terminal 210 and the information management server 500 via the network 10.
 通信端末210は、通信可能な端末であればどのような端末であってもよく、例えば、スマートフォン等の携帯電話、タブレット端末、及びPC(Personal Computer)等である。情報管理サーバ500は、バッテリ100によって送信された情報を管理する。また、情報管理サーバ500は、バッテリ100に送信する情報を管理してよい。 The communication terminal 210 may be any terminal as long as it is a communicable terminal, such as a mobile phone such as a smartphone, a tablet terminal, and a PC (Personal Computer). The information management server 500 manages information transmitted by the battery 100. Further, the information management server 500 may manage information transmitted to the battery 100.
 無線通信部124は、例えば、電池セル110の電池残量を送信する。無線通信部124は、電池セル110の電池残量を通信端末210に送信してよい。これにより、通信端末210の使用者に、バッテリ100の電池残量を把握させることができる。また、無線通信部124は、電池セル110の電池残量を情報管理サーバ500に送信してよい。これにより、情報管理サーバ500によってバッテリ100の電池残量を管理することができる。 The wireless communication unit 124 transmits the remaining battery level of the battery cell 110, for example. The wireless communication unit 124 may transmit the remaining battery level of the battery cell 110 to the communication terminal 210. Thereby, the user of the communication terminal 210 can grasp the remaining battery level of the battery 100. Further, the wireless communication unit 124 may transmit the remaining battery level of the battery cell 110 to the information management server 500. As a result, the remaining battery level of the battery 100 can be managed by the information management server 500.
 位置取得部126は、バッテリ100の位置を取得する。位置取得部126は、例えば、GPS(Global Positioning System)ユニットであり、バッテリ100の位置として、GPSデータを取得する。位置取得部126は、無線通信部124がWiFi通信を実行できる場合、無線通信部124が通信を確立しているWiFiアクセスポイントの位置を、バッテリ100の位置として取得してもよい。位置取得部126は、無線通信部124が通信を確立しているWiFiアクセスポイントの位置と、GPSデータとの両方をバッテリ100の位置として取得してもよい。 The position acquisition unit 126 acquires the position of the battery 100. The position acquisition unit 126 is, for example, a GPS (Global Positioning System) unit, and acquires GPS data as the position of the battery 100. When the wireless communication unit 124 can execute WiFi communication, the position acquisition unit 126 may acquire the position of the WiFi access point with which the wireless communication unit 124 has established communication as the position of the battery 100. The position acquisition unit 126 may acquire both the position of the WiFi access point with which the wireless communication unit 124 has established communication and the GPS data as the position of the battery 100.
 無線通信部124は、バッテリ100の電池残量とともに、バッテリ100の位置を示す位置情報を送信してよい。 The wireless communication unit 124 may transmit position information indicating the position of the battery 100 together with the remaining battery level of the battery 100.
 無線通信部124は、例えば、バッテリ100の電池残量及びバッテリ100の位置情報を通信端末210に送信する。通信端末210は、例えば、バッテリ100から受信したバッテリ100の電池残量が予め定められた閾値よりも低い場合に、バッテリ100の位置情報が示す位置から最も近い充電可能箇所の位置を使用者に通知する。充電可能箇所は、例えば、固定設置されている充電スタンドである。また、充電可能箇所は、バッテリ100に対して充電を行える、自律的に移動可能な充電ステーションであってもよい。これにより、バッテリ100の電池残量が少ない場合に、充電可能箇所の位置を使用者に把握させることができる。 The wireless communication unit 124 transmits the remaining battery level of the battery 100 and the position information of the battery 100 to the communication terminal 210, for example. For example, when the remaining battery level of the battery 100 received from the battery 100 is lower than a predetermined threshold value, the communication terminal 210 informs the user of the position of the rechargeable point closest to the position indicated by the position information of the battery 100. Notice. The chargeable portion is, for example, a charging stand that is fixedly installed. Further, the rechargeable portion may be a charging station that can charge the battery 100 and can move autonomously. Thereby, when the battery remaining amount of the battery 100 is low, the user can be made aware of the position of the chargeable portion.
 また、無線通信部124は、例えば、バッテリ100の電池残量及びバッテリ100の位置情報を情報管理サーバ500に送信する。情報管理サーバ500は、例えば、バッテリ100から受信したバッテリ100の電池残量が予め定められた閾値よりも低い場合に、バッテリ100の位置情報が示す位置から最も近い充電可能箇所の位置を通信端末210に送信する。通信端末210は、受信した充電可能箇所の位置を使用者に通知してよい。 Further, the wireless communication unit 124 transmits the remaining battery capacity of the battery 100 and the position information of the battery 100 to the information management server 500, for example. For example, when the remaining battery level of the battery 100 received from the battery 100 is lower than a predetermined threshold, the information management server 500 determines the position of the chargeable location closest to the position indicated by the position information of the battery 100 as a communication terminal. To 210. The communication terminal 210 may notify the user of the position of the received chargeable location.
 無線通信部124は、バッテリ100の電池残量が予め定められた閾値よりも低い場合に、バッテリ100の位置を示す位置情報を送信してもよい。 The wireless communication unit 124 may transmit position information indicating the position of the battery 100 when the remaining battery level of the battery 100 is lower than a predetermined threshold.
 無線通信部124は、例えば、バッテリ100の電池残量が予め定められた閾値よりも低い場合に、バッテリ100の位置情報を通信端末210に送信する。通信端末210は、例えば、バッテリ100の位置情報が示す位置から最も近い充電可能箇所の位置を使用者に通知してよい。 For example, when the remaining battery level of the battery 100 is lower than a predetermined threshold, the wireless communication unit 124 transmits the position information of the battery 100 to the communication terminal 210. For example, the communication terminal 210 may notify the user of the position of the rechargeable point closest to the position indicated by the position information of the battery 100.
 また、無線通信部124は、例えば、バッテリ100の電池残量が予め定められた閾値よりも低い場合に、バッテリ100の位置情報を情報管理サーバ500に送信する。情報管理サーバ500は、例えば、バッテリ100の位置情報が示す位置から最も近い充電可能箇所の位置を通信端末210に送信する。通信端末210は、受信した充電可能箇所の位置を使用者に通知してよい。また、情報管理サーバ500は、例えば、バッテリ100の位置情報が示す位置から最も近い充電可能箇所の位置をバッテリ100に送信する。バッテリ100は、情報管理サーバ500から受信した充電可能箇所の位置を通知してよい。例えば、バッテリ100が電気自動車に搭載されている場合、バッテリ100は、電気自動車が備えるディスプレイに充電可能箇所の位置を表示させることによって、電気自動車の搭乗者に対して充電可能箇所の位置を通知してよい。 In addition, for example, when the remaining battery level of the battery 100 is lower than a predetermined threshold, the wireless communication unit 124 transmits the position information of the battery 100 to the information management server 500. For example, the information management server 500 transmits to the communication terminal 210 the position of the rechargeable point closest to the position indicated by the position information of the battery 100. The communication terminal 210 may notify the user of the position of the received chargeable location. Further, the information management server 500 transmits, for example, the position of the rechargeable location closest to the position indicated by the position information of the battery 100 to the battery 100. The battery 100 may notify the position of the rechargeable location received from the information management server 500. For example, when the battery 100 is mounted on an electric vehicle, the battery 100 notifies the passenger of the electric vehicle of the position of the rechargeable location by displaying the position of the rechargeable location on a display included in the electric vehicle. You can do it.
 無線通信部124は、通信端末210からの要求に応じて、バッテリ100の位置情報を通信端末210に送信してもよい。例えば、バッテリ100が盗難された場合、通信端末210の使用者は、通信端末210を用いてバッテリ100に要求を送信することによって、バッテリ100の位置を確認することができる。 The wireless communication unit 124 may transmit the position information of the battery 100 to the communication terminal 210 in response to a request from the communication terminal 210. For example, when the battery 100 is stolen, the user of the communication terminal 210 can confirm the position of the battery 100 by transmitting a request to the battery 100 using the communication terminal 210.
 図2は、通信ユニット120の機能構成の一例を概略的に示す。通信ユニット120は、無線通信部124、位置取得部126、残量取得部134、通知データ出力部136、電池情報格納部138及び履歴格納部140を有する。なお、通信ユニット120がこれらのすべての構成を有することは必須とは限らない。例えば、無線通信部124及び電池情報格納部138の少なくともいずれかは、通信ユニット120が有さずに、バッテリ100が備えてもよい。 FIG. 2 schematically shows an example of the functional configuration of the communication unit 120. The communication unit 120 includes a wireless communication unit 124, a position acquisition unit 126, a remaining amount acquisition unit 134, a notification data output unit 136, a battery information storage unit 138, and a history storage unit 140. Note that it is not essential that the communication unit 120 has all these configurations. For example, at least one of the wireless communication unit 124 and the battery information storage unit 138 may be included in the battery 100 without the communication unit 120.
 残量取得部134は、電池セル110の電池残量を取得する。残量取得部134は、電池セル110の電池残量を定期的に取得してよい。 The remaining amount acquisition unit 134 acquires the remaining battery level of the battery cell 110. The remaining amount acquisition unit 134 may periodically acquire the remaining battery level of the battery cell 110.
 通知データ出力部136は、通知データを出力する。通知データ出力部136は、例えば、電池セル110の電池残量を通知する通知データを無線通信部124に送信させる。通知データ出力部136は、電池セル110の電池残量と、位置取得部126が取得したバッテリ100の位置情報とを通知する通知データを無線通信部124に送信させてもよい。 The notification data output unit 136 outputs notification data. For example, the notification data output unit 136 causes the wireless communication unit 124 to transmit notification data for notifying the remaining battery level of the battery cell 110. The notification data output unit 136 may cause the wireless communication unit 124 to transmit notification data that notifies the remaining battery level of the battery cell 110 and the position information of the battery 100 acquired by the position acquisition unit 126.
 また、通知データ出力部136は、例えば、電池セル110の電池残量が予め定められた閾値よりも低い場合に、その旨を通知する通知データを無線通信部124に送信させる。通知データ出力部136は、電池セル110の電池残量が予め定められた閾値よりも低い場合、その旨と、位置取得部126が取得したバッテリ100の位置情報とを通知する通知データを無線通信部124に送信させてもよい。 In addition, for example, when the remaining battery level of the battery cell 110 is lower than a predetermined threshold, the notification data output unit 136 causes the wireless communication unit 124 to transmit notification data to that effect. When the remaining battery level of the battery cell 110 is lower than a predetermined threshold, the notification data output unit 136 wirelessly communicates notification data for notifying that fact and the position information of the battery 100 acquired by the position acquisition unit 126. You may make it transmit to the part 124.
 電池情報格納部138は、電池セル110の情報を格納する。電池情報格納部138は、電池セル110の特性を格納してよい。電池情報格納部138は、例えば、電池セル110の充放電特性を格納する。通知データ出力部136は、電池セル110の電池残量を無線通信部124に送信させる場合に、電池情報格納部138が格納する電池セル110の特性を併せて送信させてよい。 The battery information storage unit 138 stores information on the battery cell 110. The battery information storage unit 138 may store the characteristics of the battery cell 110. The battery information storage unit 138 stores, for example, charge / discharge characteristics of the battery cell 110. The notification data output unit 136 may also transmit the characteristics of the battery cell 110 stored in the battery information storage unit 138 when transmitting the remaining battery level of the battery cell 110 to the wireless communication unit 124.
 また、電池情報格納部138は、電池セル110の製造者に関する製造者情報を格納してもよい。また、電池情報格納部138は、電池セル110を充電可能な他の電池セルの種類を示す種類情報を格納してもよい。通知データ出力部136は、電池セル110の電池残量を無線通信部124に送信させる場合に、これらの情報の少なくともいずれかを併せて送信させてよい。 Also, the battery information storage unit 138 may store manufacturer information regarding the manufacturer of the battery cell 110. The battery information storage unit 138 may store type information indicating the types of other battery cells that can charge the battery cell 110. The notification data output unit 136 may transmit at least one of these pieces of information together when the wireless communication unit 124 transmits the remaining battery level of the battery cell 110.
 履歴格納部140は、通知データ出力部136が出力した通知データの履歴を格納する。通知データ出力部136は、履歴格納部140に格納されている通知データの履歴を無線通信部124に送信させてもよい。なお、履歴格納部140は、残量取得部134が取得した電池セル110の電池残量と、残量取得部134が当該電池残量を取得したときのバッテリ100の位置情報との履歴を格納してもよい。 The history storage unit 140 stores the history of notification data output from the notification data output unit 136. The notification data output unit 136 may cause the wireless communication unit 124 to transmit a history of notification data stored in the history storage unit 140. The history storage unit 140 stores the history of the remaining battery level of the battery cell 110 acquired by the remaining amount acquisition unit 134 and the position information of the battery 100 when the remaining amount acquisition unit 134 acquires the remaining battery level. May be.
 図3は、バッテリ100を搭載した電気自動車300の一例を概略的に示す。電気自動車300は、駆動部310及びディスプレイ320を備える。駆動部310は、電池セル110から供給された電力によって電気自動車300を駆動させる。 FIG. 3 schematically shows an example of an electric vehicle 300 on which the battery 100 is mounted. The electric vehicle 300 includes a drive unit 310 and a display 320. The drive unit 310 drives the electric vehicle 300 with the electric power supplied from the battery cell 110.
 ディスプレイ320は、通知データ出力部136から受信した通知データに基づく表示を実行する。ディスプレイ320は、例えば、カーナビゲーションシステムが有するディスプレイであってよい。 The display 320 executes display based on the notification data received from the notification data output unit 136. The display 320 may be, for example, a display included in a car navigation system.
 通知データ出力部136は、例えば、無線通信部124が情報管理サーバ500から受信した、充電可能箇所の位置を示す位置情報を含む通知データをディスプレイ320に送信する。ディスプレイ320は、受信した充電可能箇所の位置情報が示す位置を表示する。ディスプレイ320は、例えば、充電可能箇所の位置情報が示す位置を強調した地図データを表示する。 The notification data output unit 136 transmits, for example, notification data including position information indicating the position of the rechargeable portion received by the wireless communication unit 124 from the information management server 500 to the display 320. Display 320 displays the position indicated by the received position information of the chargeable location. The display 320 displays, for example, map data highlighting the position indicated by the position information of the chargeable location.
 通知データ出力部136は、無線通信部124が情報管理サーバ500から受信した、バッテリ100に充電可能なバッテリの位置情報を含む通知データをディスプレイ320に送信する。通知データ出力部136は、例えば、次のように、バッテリ100に充電可能なバッテリの位置情報を情報管理サーバ500から受信する。通知データ出力部136は、まず、電池セル110の電池残量が予め定められた閾値よりも低い場合に、位置取得部126が取得したバッテリ100の位置情報と、電池情報格納部138に格納されている電池セル110を充電可能な他の電池セル110の種類を示す種類情報とを、無線通信部124に、情報管理サーバ500に対して送信させる。情報管理サーバ500は、受信した電池セル110の種類が示す電池セル110を搭載した電気自動車のうち、受信したバッテリ100の位置情報が示す位置により近い電気自動車の位置を示す位置情報を無線通信部124に送信する。通知データ出力部136は、無線通信部124が受信した電気自動車の位置情報を、バッテリ100に充電可能なバッテリの位置情報として通知データに含めて、ディスプレイ320に送信する。 The notification data output unit 136 transmits the notification data including the position information of the battery that can be charged to the battery 100 received by the wireless communication unit 124 from the information management server 500 to the display 320. The notification data output unit 136 receives, from the information management server 500, battery position information that can charge the battery 100 as follows, for example. The notification data output unit 136 first stores the position information of the battery 100 acquired by the position acquisition unit 126 and the battery information storage unit 138 when the remaining battery level of the battery cell 110 is lower than a predetermined threshold. The wireless communication unit 124 is made to transmit to the information management server 500 the type information indicating the type of the other battery cell 110 that can charge the battery cell 110 being charged. The information management server 500 transmits, to the wireless communication unit, position information indicating the position of the electric vehicle that is closer to the position indicated by the position information of the received battery 100 among the electric vehicles that include the battery cell 110 indicated by the type of the received battery cell 110. 124. The notification data output unit 136 includes the position information of the electric vehicle received by the wireless communication unit 124 in the notification data as the position information of the battery that can be charged in the battery 100, and transmits the notification data to the display 320.
 そして、ディスプレイ320は、例えば、受信した位置情報が示す位置を強調した地図データを表示する。これにより、電池セル110の電池残量が少ない場合に、電池セル110を充電可能な電池セル110を搭載している電気自動車の位置を、電気自動車300の搭乗者に把握させることができる。 And the display 320 displays the map data which emphasized the position which the received positional information shows, for example. Thereby, when the battery remaining amount of the battery cell 110 is low, the passenger of the electric vehicle 300 can grasp the position of the electric vehicle on which the battery cell 110 capable of charging the battery cell 110 is mounted.
 バッテリ100は、自律的に移動可能な、自動運転可能な電気自動車に搭載されてもよい。また、バッテリ100は、自律的に移動可能なロボットに搭載されてもよい。バッテリ100は、複数のロボットのそれぞれに搭載されてよく、複数のロボットに搭載された複数のバッテリ100のそれぞれは、それぞれの電池セル110の電池残量と位置情報とを情報管理サーバ500に送信してよい。複数のバッテリ100のそれぞれは、情報管理サーバ500から、他のバッテリ100の電池残量及び位置情報を受信してよい。バッテリ100は、受信した他のバッテリ100の電池残量が、自らの電池残量よりも少なく、位置情報が示す位置に移動可能であると判定した場合、当該位置情報該示す位置に移動して、当該他のバッテリ100を充電してもよい。ここで、複数のバッテリ100のうちのいずれかは、充電専用のバッテリ100であってもよい。充電専用のバッテリ100は、情報管理サーバ500から、他のバッテリ100の電池残量及び位置情報を受信して、電池残量が予め定められた閾値よりも低いバッテリ100の位置情報が示す位置に移動して、当該バッテリ100を充電してよい。 The battery 100 may be mounted on an autonomously movable electric vehicle capable of automatic driving. The battery 100 may be mounted on a robot that can move autonomously. The battery 100 may be mounted on each of the plurality of robots, and each of the plurality of batteries 100 mounted on the plurality of robots transmits the remaining battery level and position information of each battery cell 110 to the information management server 500. You can do it. Each of the plurality of batteries 100 may receive the remaining battery capacity and position information of the other batteries 100 from the information management server 500. When it is determined that the remaining battery level of the other battery 100 received is less than its own battery level and can be moved to the position indicated by the position information, the battery 100 moves to the position indicated by the position information. The other battery 100 may be charged. Here, any of the plurality of batteries 100 may be a battery 100 dedicated to charging. The battery 100 dedicated to charging receives the remaining battery capacity and position information of the other battery 100 from the information management server 500, and the position information of the battery 100 in which the remaining battery capacity is lower than a predetermined threshold is indicated by the position information. It may move and charge the battery 100.
 図4は、表示データ400の一例を概略的に示す。表示データ400は、通知データ出力部136が出力した通知データに基づいて生成されるデータであってよい。表示データ400は、例えば、通知データを受信したディスプレイ320によって生成される。また、表示データ400は、例えば、通知データを受信した通信端末210によって生成される。また、表示データ400は、通知データ出力部136によって生成されて、ディスプレイ320及び通信端末210等に送信され、表示されてもよい。 FIG. 4 schematically shows an example of the display data 400. The display data 400 may be data generated based on the notification data output from the notification data output unit 136. The display data 400 is generated by the display 320 that has received the notification data, for example. The display data 400 is generated by the communication terminal 210 that has received the notification data, for example. The display data 400 may be generated by the notification data output unit 136 and transmitted to the display 320, the communication terminal 210, etc., and displayed.
 表示データ400は、地図データ402、自車オブジェクト410、充電スタンドオブジェクト420、及び対応車両オブジェクト430を含む。自車オブジェクト410は、地図データ402上における、位置取得部126によって取得されたバッテリ100の位置に配置されている。充電スタンドオブジェクト420は、地図データ402上における、情報管理サーバ500から受信した充電ススタンドの位置情報が示す位置に配置されている。対応車両オブジェクト430は、情報管理サーバ500から受信した、電池セル110を充電可能な電池セル110を搭載している電気自動車の位置に配置されている。 Display data 400 includes map data 402, own vehicle object 410, charging station object 420, and corresponding vehicle object 430. The own vehicle object 410 is arranged at the position of the battery 100 acquired by the position acquisition unit 126 on the map data 402. The charging station object 420 is arranged on the map data 402 at a position indicated by the charging station position information received from the information management server 500. The corresponding vehicle object 430 is disposed at the position of the electric vehicle on which the battery cell 110 capable of charging the battery cell 110 received from the information management server 500 is mounted.
 ディスプレイ320又は通信端末210が表示データ400を表示させることによって、閲覧者に、バッテリ100を充電できる充電スタンドの場所と、バッテリ100を充電できる電池セル110を搭載した電気自動車の位置とを容易に把握させることができる。 Display 320 or communication terminal 210 causes display data 400 to be displayed so that a viewer can easily find the location of a charging station where battery 100 can be charged and the location of an electric vehicle equipped with battery cell 110 capable of charging battery 100. It can be grasped.
 図5は、バッテリ100の他の一例を概略的に示す。図5に示すバッテリ100は、電池セル110、無線通信部124、位置取得部126、残量取得部134、通知データ出力部136、電池情報格納部138、及び履歴格納部140に加えて、車輪部152及び供給コネクタ154を備える。図5に示すバッテリ100は、車輪部152によって移動可能であり、複数の供給コネクタ154によって、複数の他のバッテリを充電可能である。 FIG. 5 schematically shows another example of the battery 100. 5 includes a battery cell 110, a wireless communication unit 124, a position acquisition unit 126, a remaining amount acquisition unit 134, a notification data output unit 136, a battery information storage unit 138, and a history storage unit 140. Unit 152 and supply connector 154. The battery 100 illustrated in FIG. 5 can be moved by the wheel unit 152, and a plurality of other batteries can be charged by the plurality of supply connectors 154.
 バッテリ100は、例えば、通信端末210から受信した指示データに従って、当該指示データが示す位置に移動する。バッテリ100は、例えば、充電を必要とする複数のバッテリが存在する場所に移動する。バッテリ100は、複数のバッテリに対して電力を供給しつつ、電池セル110の電池残量を通信端末210に送信する。バッテリ100は、位置取得部126が取得したバッテリ100の位置情報をさらに送信してもよい。 The battery 100 moves to the position indicated by the instruction data according to the instruction data received from the communication terminal 210, for example. For example, the battery 100 moves to a place where a plurality of batteries that require charging are present. The battery 100 transmits the remaining battery level of the battery cell 110 to the communication terminal 210 while supplying power to the plurality of batteries. The battery 100 may further transmit the position information of the battery 100 acquired by the position acquisition unit 126.
 通信端末210の使用者は、例えば、電池セル110の電池残量が予め定められた閾値よりも低い場合に、通信端末210を用いて帰還指示をバッテリ100に送信する。バッテリ100は、帰還指示の受信に応じて帰還する。 The user of the communication terminal 210 transmits a feedback instruction to the battery 100 using the communication terminal 210 when, for example, the remaining battery level of the battery cell 110 is lower than a predetermined threshold. The battery 100 returns in response to receiving the feedback instruction.
 バッテリ100は、車輪部152を収納可能であってよい。例えば、バッテリ100は、通信端末210から受信した指示データに従って、当該指示データが示す位置に移動した後、車輪部152を収納する。これにより、車輪部152による予期せぬ移動を防止することができ、安定的に電力を複数のバッテリに供給することができる。 The battery 100 may be capable of storing the wheel portion 152. For example, the battery 100 stores the wheel unit 152 after moving to the position indicated by the instruction data in accordance with the instruction data received from the communication terminal 210. Thereby, the unexpected movement by the wheel part 152 can be prevented, and electric power can be stably supplied to a plurality of batteries.
 また、バッテリ100は、不図示のアウトリガーを備えてもよい。例えば、バッテリ100は、通信端末210から受信した指示データに従って、当該指示データが示す位置に移動した後、アウトリガーによって車体を地面に固定する。これにより、車輪部152による予期せぬ移動を防止することができ、安定的に電力を複数のバッテリに供給することができる。 Further, the battery 100 may include an outrigger (not shown). For example, the battery 100 moves to the position indicated by the instruction data according to the instruction data received from the communication terminal 210, and then fixes the vehicle body to the ground by the outrigger. Thereby, the unexpected movement by the wheel part 152 can be prevented, and electric power can be stably supplied to a plurality of batteries.
 上記実施形態におけるバッテリ100は、バッテリ100の感情を管理する不図示の感情管理部をさらに備えてもよい。バッテリ100は、例えば、バッテリ100の電池セル110に充電可能な電池セルを搭載した電気自動車の位置を示す位置情報を、情報管理サーバ500から受信する。感情管理部は、バッテリ100と電池セル110に充電可能な電池セルを搭載した電気自動車との距離が遠いほど、さみしさの度合いが高くなるようにバッテリ100の感情を管理してよい。また、感情管理部は、バッテリ100の位置を基準とした予め定められた範囲内に存在する、電池セル110に充電可能な電池セルを搭載した電気自動車の数が少ないほど、さみしさの度合いが高くなるようにバッテリ100の感情を管理してよい。通知データ出力部136は、感情管理部が管理するバッテリ100のさみしさの度合いが、予め定められた閾値より高い場合、警告を示す通知データを、無線通信部124に送信させたり、ディスプレイ320に表示させたりしてよい。 The battery 100 in the above embodiment may further include an emotion management unit (not shown) that manages the emotion of the battery 100. For example, the battery 100 receives position information indicating the position of an electric vehicle on which a battery cell that can be charged to the battery cell 110 of the battery 100 is mounted from the information management server 500. The emotion management unit may manage the emotion of the battery 100 such that the greater the distance between the battery 100 and the electric vehicle equipped with a battery cell that can be charged in the battery cell 110, the higher the degree of scissors. In addition, the emotion management unit has a greater degree of scissors as the number of electric vehicles equipped with battery cells that can be charged in the battery cells 110 is within a predetermined range based on the position of the battery 100. The emotion of battery 100 may be managed so as to increase. The notification data output unit 136 causes the wireless communication unit 124 to transmit notification data indicating a warning when the degree of saliency of the battery 100 managed by the emotion management unit is higher than a predetermined threshold. It may be displayed.
 また、バッテリ100は、充電スタンドの位置を示す位置情報を情報管理サーバ500から受信してよく、感情管理部は、バッテリ100と、充電スタンドとの距離が遠いほど、さみしさの度合いが高くなるようにバッテリ100の感情を管理してもよい。感情管理部は、バッテリ100の位置を基準とした予め定められた範囲内に存在する、充電スタンドの数が少ないほど、さみしさの度合いが高くなるようにバッテリ100の感情を管理してもよい。 Further, the battery 100 may receive position information indicating the position of the charging stand from the information management server 500, and the emotion management unit increases the degree of scissors as the distance between the battery 100 and the charging stand increases. Thus, the emotion of the battery 100 may be managed. The emotion management unit may manage the emotion of the battery 100 such that the smaller the number of charging stations that are within a predetermined range based on the position of the battery 100, the higher the degree of mischief. .
 図6は、バッテリ制御システム600の一例を概略的に示す。バッテリ制御システム600は、情報管理サーバ500と、複数の充電ステーション610とを備える。情報管理サーバ500は、バッテリ制御装置の一例であってよい。 FIG. 6 schematically shows an example of the battery control system 600. The battery control system 600 includes an information management server 500 and a plurality of charging stations 610. The information management server 500 may be an example of a battery control device.
 充電ステーション610は、少なくとも1つのバッテリ100を搭載する。充電ステーション610は、複数のバッテリ100を搭載してよい。充電ステーション610は、車輪部612及び供給コネクタ614を有する。充電ステーション610は、車輪部612によって移動可能であり、複数の供給コネクタ614によって複数の他のバッテリを充電可能である。充電ステーション610は、自律的に移動可能なバッテリの一例であってよい。 The charging station 610 is equipped with at least one battery 100. The charging station 610 may be equipped with a plurality of batteries 100. The charging station 610 includes a wheel portion 612 and a supply connector 614. The charging station 610 can be moved by the wheel portion 612, and a plurality of other batteries can be charged by the plurality of supply connectors 614. Charging station 610 may be an example of a battery that can move autonomously.
 充電ステーション610は、充電スタンド30から電力の供給を受け付けることによって、バッテリ100を充電可能である。充電スタンド30は、火力発電システム及び原子力発電システム等の任意の電力システムから電力を受給してよい。例えば、充電スタンド30は、太陽光発電システム22及び風力発電システム24から電力を受給する。また、充電ステーション610は、他の充電ステーション610から電力の供給を受け付けることによって、バッテリ100を充電可能であってもよい。 The charging station 610 can charge the battery 100 by receiving the supply of power from the charging station 30. The charging station 30 may receive power from any power system such as a thermal power generation system and a nuclear power generation system. For example, the charging station 30 receives power from the solar power generation system 22 and the wind power generation system 24. Further, the charging station 610 may be able to charge the battery 100 by receiving the supply of power from the other charging station 610.
 充電ステーション610は、バッテリ100を搭載した任意の装置に対して電力を供給してよい。例えば、充電ステーション610は、バッテリ100を搭載したバッテリ搭載車42及びバッテリ搭載車44等に電力を供給する。 The charging station 610 may supply power to an arbitrary device on which the battery 100 is mounted. For example, the charging station 610 supplies power to the battery-equipped vehicle 42 on which the battery 100 is mounted, the battery-equipped vehicle 44, and the like.
 充電ステーション610は、例えば、バッテリ搭載車42及びバッテリ搭載車44等に電力を供給することによって、搭載しているバッテリ100の電池残量が予め定められた閾値より低くなった場合に、充電スタンド30に移動してバッテリ100を充電してよい。電池残量616は、充電ステーション610が搭載するバッテリ100の電池残量を模式的に表す。充電ステーション610は、情報管理サーバ500の指示に従って、移動、充電、及び電力供給を実行してよい。 The charging station 610, for example, supplies power to the battery-equipped vehicle 42, the battery-equipped vehicle 44, and the like, so that the charging station 610 is charged when the remaining battery level of the mounted battery 100 becomes lower than a predetermined threshold value. The battery 100 may be charged by moving to 30. The remaining battery level 616 schematically represents the remaining battery level of the battery 100 installed in the charging station 610. The charging station 610 may perform movement, charging, and power supply in accordance with instructions from the information management server 500.
 情報管理サーバ500は、複数の充電ステーション610から、電池残量及び位置情報を受信して格納する。情報管理サーバ500が、充電ステーション610から電池残量及び位置情報を受信するとは、充電ステーション610に搭載されたバッテリ100から電池残量及び位置情報を受信することであってよい。充電ステーション610が複数のバッテリ100を搭載している場合、情報管理サーバ500は、複数のバッテリ100のそれぞれから電池残量及び位置情報を受信してよい。また、情報管理サーバ500は、複数のバッテリ100のいずれかから、当該複数のバッテリ100の電池残量及び位置情報を受信してもよい。なお、位置情報について、当該複数のバッテリ100のうちのいずれかの位置情報のみを受信することとしてもよい。また、情報管理サーバ500は、バッテリ搭載車42及びバッテリ搭載車44等の、バッテリ100を搭載した任意の装置から、電池残量及び位置情報を受信して格納する。 The information management server 500 receives and stores battery remaining amount and position information from a plurality of charging stations 610. The information management server 500 receiving the battery remaining amount and position information from the charging station 610 may be receiving the battery remaining amount and position information from the battery 100 mounted on the charging station 610. When the charging station 610 is equipped with a plurality of batteries 100, the information management server 500 may receive the remaining battery capacity and position information from each of the plurality of batteries 100. Further, the information management server 500 may receive the remaining battery capacity and position information of the plurality of batteries 100 from any one of the plurality of batteries 100. Note that only the position information of any of the plurality of batteries 100 may be received as the position information. In addition, the information management server 500 receives and stores battery remaining amount and position information from any device on which the battery 100 is mounted, such as the battery mounted vehicle 42 and the battery mounted vehicle 44.
 情報管理サーバ500は、格納した電池残量及び位置情報に基づいて、電力の需要状況を導出する。電力の需要状況は、例えば、電力の供給を必要とする位置を示す。電力の供給を必要とする位置は、例えば、電池残量が予め定められた閾値より少ないバッテリ100の位置情報が示す位置である。 The information management server 500 derives the power demand status based on the stored battery remaining capacity and location information. The power demand situation indicates, for example, a position where power supply is required. The position where the power supply is required is, for example, a position indicated by the position information of the battery 100 in which the remaining battery level is less than a predetermined threshold.
 また、電力の供給を必要とする位置は、電力の供給を必要とするバッテリ100の数が予め定められた閾値より大きい位置であってよい。例えば、電力の供給を必要とする位置は、予め定められた大きさの領域内に、電池残量が予め定められた閾値より少ないバッテリ100が予め定められた数以上存在する場合の、当該領域内のいずれかの位置である。 Further, the position where power supply is required may be a position where the number of batteries 100 that require power supply is larger than a predetermined threshold. For example, the position where power supply is required is an area in which a predetermined number or more of batteries 100 whose remaining battery capacity is smaller than a predetermined threshold exist in an area of a predetermined size. Is one of the positions.
 また、電力の需要状況は、例えば、電力の供給が可能な位置を示す。電力の供給が可能な位置は、例えば、電池残量が予め定められた閾値より多い充電ステーション610の位置情報が示す位置である。 Also, the power demand situation indicates, for example, a position where power can be supplied. The position where the power can be supplied is, for example, a position indicated by the position information of the charging station 610 in which the remaining battery level is greater than a predetermined threshold.
 また、電力の供給が可能な位置は、電池残量が予め定められた閾値より多い充電ステーション610の数が予め定められた閾値より大きい位置であってよい。例えば、電力の供給が可能な位置は、予め定められた大きさの領域内に、電池残量が予め定められた閾値より多い充電ステーション610が予め定められた数以上存在する場合の、当該領域内のいずれかの位置である。 Also, the position where the power can be supplied may be a position where the number of charging stations 610 in which the remaining battery level is greater than a predetermined threshold is greater than the predetermined threshold. For example, the position where power can be supplied is an area in which a predetermined number or more of charging stations 610 having a remaining battery capacity greater than a predetermined threshold exist in an area of a predetermined size. Is one of the positions.
 情報管理サーバ500は、導出した電力の需要状況に基づいて、複数のバッテリ100のうち、自律的に移動可能なバッテリ100に移動指示を送信する。情報管理サーバ500は、例えば、複数の充電ステーション610のうちのいずれかの充電ステーション610に移動指示を送信する。情報管理サーバ500が充電ステーション610に移動指示を送信するとは、充電ステーション610が搭載するいずれかのバッテリ100に移動指示を送信することであってよい。情報管理サーバ500は、例えば、複数の充電ステーション610のうち、電池残量が予め定められた閾値より多く、他の充電ステーション610よりも、電力の供給を必要とする位置の近くに位置する充電ステーション610に、当該電力の供給を必要とする位置に移動する移動指示を送信する。 The information management server 500 transmits a movement instruction to the autonomously movable battery 100 among the plurality of batteries 100 based on the derived power demand situation. For example, the information management server 500 transmits a movement instruction to any one of the plurality of charging stations 610. The information management server 500 transmitting the movement instruction to the charging station 610 may be transmitting the movement instruction to any of the batteries 100 installed in the charging station 610. The information management server 500 is, for example, a charge that is located near a position where the remaining amount of the battery is more than a predetermined threshold among the plurality of charging stations 610 and needs to be supplied with power more than the other charging stations 610. A movement instruction to move to a position where the power supply is required is transmitted to the station 610.
 また、情報管理サーバ500は、例えば、自律的に移動可能なバッテリ100のうち、電池残量が予め定められた閾値より少ないバッテリ100に、電力の供給が可能な位置に移動する移動指示を送信する。例えば、情報管理サーバ500は、バッテリ搭載車42のバッテリ100の電池残量が予め定められた閾値より少ない場合に、当該バッテリ100に、電力の供給が可能な位置に移動する移動指示を送信する。 In addition, the information management server 500 transmits a movement instruction to move to a position where power can be supplied, for example, among the batteries 100 that can move autonomously, with the remaining battery level being less than a predetermined threshold. To do. For example, when the remaining battery level of the battery 100 of the battery-equipped vehicle 42 is less than a predetermined threshold, the information management server 500 transmits a movement instruction to move to a position where power can be supplied to the battery 100. .
 情報管理サーバ500は、充電ステーション610が搭載するバッテリ100の電池セルの劣化度合に応じて、当該充電ステーション610に移動指示を送信してもよい。情報管理サーバ500は、例えば、充電ステーション610の移動距離に対する電池残量の減少度合に基づいて、電池セルの劣化度合を判定する。具体例として、情報管理サーバ500は、第1の位置における充電ステーション610の電池残量と、第2の位置における充電ステーション610の電池残量との差分を、第1の位置から第2の位置への移動距離で除算した値が、予め定められた閾値より高い場合、充電ステーション610が搭載するバッテリ100の交換が必要と判定する。情報管理サーバ500は、交換が必要と判定した充電ステーション610に、バッテリ100又は電池セルを交換可能な交換ステーションへ移動する移動指示を送信してよい。当該移動指示には、交換ステーションの位置情報が含まれてよい。 The information management server 500 may transmit a movement instruction to the charging station 610 according to the degree of deterioration of the battery cell of the battery 100 installed in the charging station 610. For example, the information management server 500 determines the degree of deterioration of the battery cell based on the degree of decrease in the remaining battery level with respect to the moving distance of the charging station 610. As a specific example, the information management server 500 calculates the difference between the remaining battery level of the charging station 610 at the first location and the remaining battery level of the charging station 610 at the second location from the first location to the second location. When the value divided by the moving distance to is higher than a predetermined threshold value, it is determined that the battery 100 mounted on the charging station 610 needs to be replaced. The information management server 500 may transmit a movement instruction to move the battery 100 or the battery cell to the exchange station where the battery 100 or the battery cell can be exchanged, to the charging station 610 determined to be exchanged. The movement instruction may include position information of the exchange station.
 図7は、情報管理サーバ500の機能構成の一例を概略的に示す。情報管理サーバ500は、バッテリ情報受信部502、バッテリ情報格納部504、需要状況導出部506、移動指示送信部508、および劣化度合導出部510を有する。なお、情報管理サーバ500がこれらのすべての構成を有することは必須とは限らない。 FIG. 7 schematically shows an example of the functional configuration of the information management server 500. The information management server 500 includes a battery information receiving unit 502, a battery information storage unit 504, a demand situation deriving unit 506, a movement instruction transmitting unit 508, and a deterioration degree deriving unit 510. Note that it is not essential that the information management server 500 has all these configurations.
 バッテリ情報受信部502は、複数のバッテリ100のそれぞれから、電池残量及び位置情報を受信する。バッテリ情報受信部502は、電池残量及び位置情報を定期的に受信してよい。バッテリ情報格納部504は、バッテリ情報受信部502が受信した電池残量及び位置情報を格納する。 The battery information receiving unit 502 receives battery remaining amount and position information from each of the plurality of batteries 100. The battery information receiving unit 502 may periodically receive the remaining battery capacity and position information. The battery information storage unit 504 stores the remaining battery level and position information received by the battery information reception unit 502.
 需要状況導出部506は、バッテリ情報格納部504に格納されている電池残量及び位置情報に基づいて、電力の需要状況を導出する。移動指示送信部508は、需要状況導出部506が導出した電力の需要状況に基づいて、バッテリ100に移動指示を送信する。移動指示送信部508は、複数のバッテリ100のうち、自律的に移動可能な100に移動指示を送信してよい。例えば、移動指示送信部508は、充電ステーション610が搭載するバッテリ100に移動指示を送信する。 The demand status deriving unit 506 derives the power demand status based on the remaining battery capacity and location information stored in the battery information storage unit 504. The movement instruction transmission unit 508 transmits a movement instruction to the battery 100 based on the power demand situation derived by the demand situation deriving unit 506. The movement instruction transmission unit 508 may transmit a movement instruction to a plurality of batteries 100 that can move autonomously. For example, the movement instruction transmission unit 508 transmits a movement instruction to the battery 100 mounted on the charging station 610.
 劣化度合導出部510は、バッテリ100の劣化度合を導出する。バッテリ100の劣化度合は、バッテリ100の電池セルの劣化度合であってよい。劣化度合導出部510は、バッテリ100の電池セルの電力を用いて移動するバッテリ100の第1の位置における電池残量及び第2の位置における電池残量に基づいて、バッテリ100の劣化度合を導出する。移動指示送信部508は、劣化度合導出部510によって導出された劣化度合が予め定められた閾値より高いバッテリ100に、交換ステーションへ移動する移動指示を送信してよい。 The deterioration degree deriving unit 510 derives the deterioration degree of the battery 100. The degree of deterioration of the battery 100 may be the degree of deterioration of the battery cell of the battery 100. Deterioration degree deriving unit 510 derives the deterioration degree of battery 100 based on the remaining battery level at the first position and the remaining battery level at the second position of battery 100 that moves using the power of the battery cell of battery 100. To do. The movement instruction transmission unit 508 may transmit a movement instruction to move to the exchange station to the battery 100 whose deterioration degree derived by the deterioration degree deriving unit 510 is higher than a predetermined threshold.
 図8は、バッテリ制御システム700の一例を概略的に示す。バッテリ制御システム700は、情報管理サーバ500と、複数の充電ステーション710とを備える。充電ステーション710は、充電ステーション610と同一の構成を有してよい。 FIG. 8 schematically shows an example of the battery control system 700. The battery control system 700 includes an information management server 500 and a plurality of charging stations 710. Charging station 710 may have the same configuration as charging station 610.
 複数の充電ステーション710は、規格電圧の異なる充電ステーション710を含む。例えば、複数の充電ステーション710は、原子力発電所50に給電可能な規格電圧の充電ステーション、超高圧変電所52に給電可能な規格電圧の充電ステーション、一次変電所54に給電可能な規格電圧の充電ステーション、中間変電所56に給電可能な規格電圧の充電ステーション、及び配電用変電所58に給電可能な規格電圧の充電ステーションを含む。 The plurality of charging stations 710 include charging stations 710 having different standard voltages. For example, the plurality of charging stations 710 include a charging station with a standard voltage that can supply power to the nuclear power plant 50, a charging station with a standard voltage that can supply power to the ultra-high voltage substation 52, and charging with a standard voltage that can supply power to the primary substation 54. A standard voltage charging station capable of supplying power to the intermediate substation 56, and a standard voltage charging station capable of supplying power to the distribution substation 58.
 原子力発電所50に給電可能な充電ステーション710は、原子力発電所50に電力を供給するべく、原子力発電所50の充電用プラグ51と連結する電力供給プラグ712を有する。超高圧変電所52に給電可能な充電ステーション710は、超高圧変電所52に電力を供給するべく、超高圧変電所52の充電用プラグ53と連結する電力供給プラグ712を有する。一次変電所54に給電可能な充電ステーション710は、一次変電所54に電力を供給するべく、一次変電所54の充電用プラグ55と連結する電力供給プラグ712を有する。中間変電所56に給電可能な充電ステーション710は、中間変電所56に電力を供給するべく、中間変電所56の充電用プラグ57と連結する電力供給プラグ712を有する。配電用変電所58に給電可能な充電ステーション710は、配電用変電所58に電力を供給するべく、配電用変電所58の充電用プラグ59と連結する電力供給プラグ712を有する。 The charging station 710 capable of supplying power to the nuclear power plant 50 includes a power supply plug 712 that is connected to the charging plug 51 of the nuclear power plant 50 in order to supply power to the nuclear power plant 50. The charging station 710 capable of supplying power to the ultrahigh voltage substation 52 has a power supply plug 712 that is connected to the charging plug 53 of the ultrahigh voltage substation 52 in order to supply power to the ultrahigh voltage substation 52. The charging station 710 that can supply power to the primary substation 54 has a power supply plug 712 that is connected to the charging plug 55 of the primary substation 54 in order to supply power to the primary substation 54. The charging station 710 that can supply power to the intermediate substation 56 includes a power supply plug 712 that is connected to the charging plug 57 of the intermediate substation 56 in order to supply power to the intermediate substation 56. The charging station 710 that can supply power to the distribution substation 58 has a power supply plug 712 that is connected to the charging plug 59 of the distribution substation 58 in order to supply power to the distribution substation 58.
 超高圧変電所52、一次変電所54、中間変電所56、及び配電用変電所58を含む電力網は、原子力発電所50及び太陽光発電システム22等で発電された電力を階層的に供給することができるが、階層の途中で障害が発生すると、障害が発生した階層以下の階層への電力供給が停止してしまう場合がある。例えば、超高圧変電所52から一次変電所54までの間で発生した障害によって、一次変電所54への電力供給が遮断された場合、原子力発電所50、太陽光発電システム22、及び超高圧変電所52が稼働しており、一次変電所54が稼働可能であっても、中間変電所56及び配電用変電所58と、それ以下の階層への電力供給が停止してしまう。 The power network including the ultra-high voltage substation 52, the primary substation 54, the intermediate substation 56, and the distribution substation 58 supplies the power generated by the nuclear power plant 50, the solar power generation system 22, and the like hierarchically. However, if a failure occurs in the middle of a hierarchy, power supply to a hierarchy below the hierarchy in which the failure has occurred may stop. For example, when the power supply to the primary substation 54 is interrupted due to a failure occurring between the ultrahigh voltage substation 52 and the primary substation 54, the nuclear power plant 50, the solar power generation system 22, and the ultrahigh voltage substation Even if the station 52 is in operation and the primary substation 54 can be operated, the power supply to the intermediate substation 56 and the distribution substation 58 and lower layers will be stopped.
 本実施形態に係る情報管理サーバ500は、電力網内に障害が発生した場合に、障害の発生により電力供給が遮断された変電所の位置を取得し、当該変電所に対して電力供給可能な充電ステーション710に、当該変電所への移動指示を送信する。障害の発生により電力供給が遮断された変電所に対して電力供給可能な充電ステーション710とは、当該変電所と規格電圧が一致する充電ステーション710であってよい。変電所の規格電圧と充電ステーション710の規格電圧とが一致しない場合、充電ステーション710から変電所へ給電することができないが、本実施形態に係る情報管理サーバ500によれば、障害が発生した変電所と規格電圧が一致する充電ステーション710を、電力供給が遮断された変電所に移動させることができるので、充電ステーション710から変電所への給電を実現できる。そして、これにより、一次変電所54以下の階層への電力供給を再開させることができる。 The information management server 500 according to the present embodiment acquires the position of a substation where power supply is interrupted due to the occurrence of a failure when a failure occurs in the power network, and charging that can supply power to the substation An instruction to move to the substation is transmitted to the station 710. The charging station 710 that can supply power to the substation where the power supply is interrupted due to the occurrence of a failure may be a charging station 710 that matches the standard voltage of the substation. When the standard voltage of the substation and the standard voltage of the charging station 710 do not match, power cannot be supplied from the charging station 710 to the substation. However, according to the information management server 500 according to the present embodiment, the substation in which a failure has occurred. Since the charging station 710 having the same voltage as that of the station can be moved to the substation where the power supply is cut off, the power supply from the charging station 710 to the substation can be realized. And thereby, the power supply to the hierarchy below the primary substation 54 can be restarted.
 情報管理サーバ500は、充電ステーション710を、太陽光発電システム22又は原子力発電所50によって発電された電力を用いた充電を実現する充電スタンド30の位置に移動させて充電させ、その後、電力供給が遮断された変電所の位置に移動させてよい。これにより、電力網の一部を充電ステーション710に担わせることができ、障害発生時の電力網の一時的な再開に寄与することができる。 The information management server 500 moves the charging station 710 to the position of the charging station 30 that realizes charging using the power generated by the solar power generation system 22 or the nuclear power plant 50, and then the power supply is performed. It may be moved to the location of the blocked substation. Thereby, a part of the power network can be assigned to the charging station 710, which can contribute to the temporary resumption of the power network when a failure occurs.
 充電ステーション710は、他の充電ステーション710と連結するコネクタをさらに備えてもよい。情報管理サーバ500は、複数の充電ステーション710のうち、他の充電ステーション710と連結することによって、電力供給が遮断された変電所の規格電圧の電力を供給可能な複数の充電ステーション710に、当該変電所の位置に移動する移動指示を送信してよい。これにより、例えば、電力供給が遮断された変電所の近傍に当該変電所に電力供給可能な充電ステーション710が存在しない場合に、当該変電所の規格電圧よりも低い規格電圧の充電ステーション710を複数台、当該変電所に移動させて、連結させることによって、当該変電所への給電を可能とすることができる。 The charging station 710 may further include a connector connected to another charging station 710. The information management server 500 connects a plurality of charging stations 710 to a plurality of charging stations 710 capable of supplying power at a standard voltage of a substation where power supply is cut off by connecting to another charging station 710. A movement instruction to move to the position of the substation may be transmitted. Thereby, for example, when there is no charging station 710 capable of supplying power to the substation in the vicinity of the substation where the power supply is cut off, a plurality of charging stations 710 having a standard voltage lower than the standard voltage of the substation are provided. It is possible to supply power to the substation by moving the base to the substation and connecting them.
 充電ステーション710は、放射線を測定する機能を有してもよい。放射線を測定する機能は、充電ステーション710が有しても、充電ステーション710が搭載するバッテリ100が有してもよい。情報管理サーバ500は、充電ステーション710のバッテリ100から、測定された放射線の量と、放射線を測定したときの位置を示す位置情報とを受信してよい。情報管理サーバ500は、受信した放射線の量及び位置情報を通信端末210等の他の装置に送信してよい。これにより、充電ステーション710による電力網の代替を実現しつつ、変電所及び発電所の放射線の情報を収集し、提供することを可能とする。 The charging station 710 may have a function of measuring radiation. The function of measuring radiation may be included in the charging station 710 or the battery 100 mounted on the charging station 710. The information management server 500 may receive, from the battery 100 of the charging station 710, the measured amount of radiation and position information indicating the position when the radiation is measured. The information management server 500 may transmit the received radiation amount and position information to another device such as the communication terminal 210. As a result, it is possible to collect and provide information on radiation at substations and power plants while realizing the replacement of the power network by the charging station 710.
 図9は、情報管理サーバ500の機能構成の一例を概略的に示す。情報管理サーバ500は、バッテリ情報受信部502、バッテリ情報格納部504、移動指示送信部508、変電所位置取得部512、規格電圧取得部514、及び放射線情報送信部516を有する。なお、情報管理サーバ500がこれらのすべての構成を有することは必須とは限らない。また、情報管理サーバ500は、他の機能をさらに備えてもよい。例えば、情報管理サーバ500は、需要状況導出部506及び劣化度合導出部510の少なくともいずれかをさらに備えてもよい。 FIG. 9 schematically shows an example of the functional configuration of the information management server 500. The information management server 500 includes a battery information reception unit 502, a battery information storage unit 504, a movement instruction transmission unit 508, a substation position acquisition unit 512, a standard voltage acquisition unit 514, and a radiation information transmission unit 516. Note that it is not essential that the information management server 500 has all these configurations. The information management server 500 may further include other functions. For example, the information management server 500 may further include at least one of a demand situation deriving unit 506 and a deterioration degree deriving unit 510.
 バッテリ情報受信部502は、複数のバッテリ100のそれぞれから、電池残量及び位置情報を受信する。バッテリ情報受信部502は、電池残量及び位置情報を定期的に受信してよい。バッテリ情報格納部504は、バッテリ情報受信部502が受信した電池残量及び位置情報を格納する。バッテリ情報受信部502は、複数のバッテリ100のそれぞれから、測定した放射線の量と、放射線を測定した時の位置を示す位置情報とを受信してもよい。バッテリ情報格納部504は、バッテリ情報受信部502が受信した放射線の量と位置情報とを格納してよい。 The battery information receiving unit 502 receives battery remaining amount and position information from each of the plurality of batteries 100. The battery information receiving unit 502 may periodically receive the remaining battery capacity and position information. The battery information storage unit 504 stores the remaining battery level and position information received by the battery information reception unit 502. The battery information receiving unit 502 may receive from each of the plurality of batteries 100 the measured radiation amount and position information indicating the position when the radiation is measured. The battery information storage unit 504 may store the radiation amount and position information received by the battery information reception unit 502.
 変電所位置取得部512は、変電所の位置を取得する。変電所位置取得部512は、例えば、障害の発生により電力の供給が遮断された変電所の位置を取得する。変電所位置取得部512は、ネットワーク10を介して、変電所の位置を受信してよい。例えば、変電所位置取得部512は、ネットワーク10に接続された、変電所の状態を管理する変電所管理サーバから、障害の発生により電力の供給が遮断された変電所の位置及び当該変電所の識別情報を受信する。 The substation position acquisition unit 512 acquires the position of the substation. The substation position acquisition unit 512 acquires, for example, the position of the substation where the supply of power is interrupted due to the occurrence of a failure. The substation location acquisition unit 512 may receive the location of the substation via the network 10. For example, the substation location acquisition unit 512 is connected to the network 10 from a substation management server that manages the status of the substation, and the location of the substation where the supply of power is interrupted due to the occurrence of a fault and the location of the substation. Receive identification information.
 規格電圧取得部514は、変電所位置取得部512がその位置を取得した変電所の規格電圧を取得する。規格電圧取得部514は、ネットワーク10を介して、規格電圧を受信してよい。例えば、規格電圧取得部514は、変電所管理サーバから規格電圧を受信する。また、規格電圧取得部514は、複数の変電所のそれぞれの識別情報に対応付けて、それぞれの規格電圧の情報を予め格納しておき、変電所管理サーバから受信した変電所の識別情報に対応する規格電圧を読み出してもよい。 The standard voltage acquisition unit 514 acquires the standard voltage of the substation from which the substation position acquisition unit 512 has acquired the position. The standard voltage acquisition unit 514 may receive the standard voltage via the network 10. For example, the standard voltage acquisition unit 514 receives a standard voltage from a substation management server. In addition, the standard voltage acquisition unit 514 stores information on each standard voltage in advance in association with the identification information of the plurality of substations, and corresponds to the identification information of the substation received from the substation management server. The standard voltage to be read may be read out.
 移動指示送信部508は、複数の充電ステーション710のうち、変電所位置取得部512がその位置を取得した変電所に対して電力供給可能な充電ステーション710に、変電所位置取得部512が取得した位置への移動指示を送信してよい。移動指示送信部508は、複数の充電ステーション710のうち、規格電圧が、規格電圧取得部514が取得した規格電圧に一致する充電ステーション710に、変電所位置取得部512が取得した位置への移動指示を送信してよい。 The movement instruction transmission unit 508 has acquired the substation position acquisition unit 512 in the charging station 710 that can supply power to the substation from which the substation position acquisition unit 512 has acquired the position among the plurality of charging stations 710. An instruction to move to the position may be transmitted. The movement instruction transmission unit 508 moves the charging station 710 to the position acquired by the substation position acquisition unit 512 to the charging station 710 whose standard voltage matches the standard voltage acquired by the standard voltage acquisition unit 514 among the plurality of charging stations 710. Instructions may be sent.
 移動指示送信部508は、複数の充電ステーション710のうち、規格電圧が、規格電圧取得部514が取得した規格電圧に一致する充電ステーション710のうち、他の充電ステーション710よりも、変電所位置取得部512が取得した位置に近い充電ステーション710に移動指示を送信してもよい。また、移動指示送信部508は、規格電圧が、規格電圧取得部514が取得した規格電圧に一致する充電ステーション710の、現在位置から、変電所位置取得部512が取得した位置までの経路情報を、例えば、ネットワーク10を介して受信して、変電所位置取得部512が取得した位置に到達可能な充電ステーション710を判定し、当該充電ステーション710に対して移動指示を送信してもよい。例えば、地震などの災害が発生した場合、変電所位置取得部512が取得した位置の近傍に位置する充電ステーション710であっても、道路の状況によって、変電所位置取得部512が取得した位置に移動できない場合がある。それに対して、本実施形態によれば、情報管理サーバ500によって、各充電ステーション710から、変電所位置取得部512が取得した位置までの経路情報が確認されるので、変電所位置取得部512が取得した位置に到達する可能性がより高い充電ステーション710に対して移動指示を送信することができる。 The movement instruction transmission unit 508 acquires the substation position from the charging stations 710 out of other charging stations 710 out of the charging stations 710 whose standard voltage matches the standard voltage acquired by the standard voltage acquisition unit 514 among the plurality of charging stations 710. The movement instruction may be transmitted to the charging station 710 close to the position acquired by the unit 512. In addition, the movement instruction transmission unit 508 displays route information from the current position of the charging station 710 whose standard voltage matches the standard voltage acquired by the standard voltage acquisition unit 514 to the position acquired by the substation position acquisition unit 512. For example, the charging station 710 that is received via the network 10 and can reach the position acquired by the substation position acquisition unit 512 may be determined, and a movement instruction may be transmitted to the charging station 710. For example, when a disaster such as an earthquake occurs, even if the charging station 710 is located in the vicinity of the position acquired by the substation position acquisition unit 512, the position acquired by the substation position acquisition unit 512 depends on the road conditions. You may not be able to move. On the other hand, according to this embodiment, since the information management server 500 confirms the route information from each charging station 710 to the position acquired by the substation position acquisition unit 512, the substation position acquisition unit 512 The movement instruction can be transmitted to the charging station 710 having a higher possibility of reaching the acquired position.
 放射線情報送信部516は、バッテリ情報格納部504に格納されている放射線の量と、当該放射線が測定された位置を示す位置情報とを、通信端末210等の他の装置に送信する。 The radiation information transmission unit 516 transmits the amount of radiation stored in the battery information storage unit 504 and position information indicating the position where the radiation is measured to another device such as the communication terminal 210.
 図10は、情報管理サーバ500として機能するコンピュータ1000の一例を概略的に示す。本実施形態に係るコンピュータ1000は、ホストコントローラ1092により相互に接続されるCPU1010、RAM1030、及びグラフィックコントローラ1085を有するCPU周辺部と、入出力コントローラ1094によりホストコントローラ1092に接続される通信I/F1040、ハードディスクドライブ1050、及びDVDドライブ1070を有する入出力部と、入出力コントローラ1094に接続されるROM1020、FDドライブ1060、及び入出力チップ1080を有するレガシー入出力部とを備える。 FIG. 10 schematically shows an example of a computer 1000 that functions as the information management server 500. The computer 1000 according to this embodiment includes a CPU peripheral unit including a CPU 1010, a RAM 1030, and a graphic controller 1085 connected to each other by a host controller 1092; a communication I / F 1040 connected to the host controller 1092 by an input / output controller 1094; An input / output unit having a hard disk drive 1050 and a DVD drive 1070, and a legacy input / output unit having a ROM 1020, an FD drive 1060, and an input / output chip 1080 connected to the input / output controller 1094 are provided.
 CPU1010は、ROM1020及びRAM1030に格納されたプログラムに基づいて動作し、各部の制御を行う。グラフィックコントローラ1085は、CPU1010などがRAM1030内に設けたフレーム・バッファ上に生成する画像データを取得し、ディスプレイ1090上に表示させる。これに代えて、グラフィックコントローラ1085は、CPU1010などが生成する画像データを格納するフレーム・バッファを、内部に含んでもよい。 The CPU 1010 operates based on programs stored in the ROM 1020 and the RAM 1030 and controls each unit. The graphic controller 1085 acquires image data generated by the CPU 1010 or the like on a frame buffer provided in the RAM 1030 and displays the image data on the display 1090. Alternatively, the graphic controller 1085 may include a frame buffer that stores image data generated by the CPU 1010 or the like.
 通信I/F1040は、有線又は無線によりネットワークを介して他の装置と通信する。また、通信I/F1040は、通信を行うハードウエアとして機能する。ハードディスクドライブ1050は、CPU1010が使用するプログラム及びデータを格納する。DVDドライブ1070は、DVD-ROM1072からプログラム又はデータを読み取り、RAM1030を介してハードディスクドライブ1050に提供する。 The communication I / F 1040 communicates with another device via a wired or wireless network. The communication I / F 1040 functions as hardware that performs communication. The hard disk drive 1050 stores programs and data used by the CPU 1010. The DVD drive 1070 reads a program or data from the DVD-ROM 1072 and provides it to the hard disk drive 1050 via the RAM 1030.
 ROM1020は、コンピュータ1000が起動時に実行するブート・プログラム、及びコンピュータ1000のハードウエアに依存するプログラムなどを格納する。FDドライブ1060は、フレキシブルディスク1062からプログラム又はデータを読み取り、RAM1030を介してハードディスクドライブ1050に提供する。入出力チップ1080は、FDドライブ1060を入出力コントローラ1094へと接続するとともに、例えばパラレル・ポート、シリアル・ポート、キーボード・ポート、マウス・ポートなどを介して各種の入出力装置を入出力コントローラ1094へと接続する。 The ROM 1020 stores a boot program executed when the computer 1000 is started up, a program depending on the hardware of the computer 1000, and the like. The FD drive 1060 reads a program or data from the flexible disk 1062 and provides it to the hard disk drive 1050 via the RAM 1030. The input / output chip 1080 connects the FD drive 1060 to the input / output controller 1094, and connects various input / output devices to the input / output controller 1094 via, for example, a parallel port, a serial port, a keyboard port, and a mouse port. Connect to.
 RAM1030を介してハードディスクドライブ1050に提供されるプログラムは、フレキシブルディスク1062、DVD-ROM1072、又はICカードなどの記録媒体に格納されて利用者によって提供される。プログラムは、記録媒体から読み出され、RAM1030を介してハードディスクドライブ1050にインストールされ、CPU1010において実行される。 The program provided to the hard disk drive 1050 via the RAM 1030 is stored in a recording medium such as the flexible disk 1062, the DVD-ROM 1072, or an IC card and provided by the user. The program is read from the recording medium, installed in the hard disk drive 1050 via the RAM 1030, and executed by the CPU 1010.
 コンピュータ1000にインストールされ、コンピュータ1000を情報管理サーバ500として機能させるプログラムは、CPU1010などに働きかけて、コンピュータ1000を、情報管理サーバ500の各部としてそれぞれ機能させてよい。これらのプログラムに記述された情報処理は、コンピュータ1000に読込まれることにより、ソフトウエアと上述した各種のハードウエア資源とが協働した具体的手段であるバッテリ情報受信部502、バッテリ情報格納部504、需要状況導出部506、移動指示送信部508、劣化度合導出部510、変電所位置取得部512、規格電圧取得部514、及び放射線情報送信部516として機能する。そして、これらの具体的手段によって、本実施形態におけるコンピュータ1000の使用目的に応じた情報の演算又は加工を実現することにより、使用目的に応じた特有の情報管理サーバ500が構築される。 A program that is installed in the computer 1000 and causes the computer 1000 to function as the information management server 500 may work on the CPU 1010 or the like to cause the computer 1000 to function as each unit of the information management server 500. The information processing described in these programs is read by the computer 1000, so that the battery information receiving unit 502, the battery information storing unit, which are specific means in which the software and the various hardware resources described above cooperate with each other. 504, a demand status deriving unit 506, a movement instruction transmitting unit 508, a deterioration degree deriving unit 510, a substation position acquiring unit 512, a standard voltage acquiring unit 514, and a radiation information transmitting unit 516. And the specific information management server 500 according to the purpose of use is constructed | assembled by implement | achieving the calculation or processing of the information according to the purpose of use of the computer 1000 in this embodiment by these concrete means.
 以上の説明において、通信ユニット120の各部は、ハードウエアにより実現されてもよく、ソフトウエアにより実現されてもよい。また、ハードウエアとソフトウエアとの組み合わせにより実現されてもよい。また、プログラムが実行されることにより、コンピュータが、通信ユニット120として機能してもよい。プログラムは、コンピュータ読み取り可能な媒体又はネットワークに接続された記憶装置から、通信ユニット120の少なくとも一部を構成するコンピュータにインストールされてよい。 In the above description, each unit of the communication unit 120 may be realized by hardware or may be realized by software. Further, it may be realized by a combination of hardware and software. Further, the computer may function as the communication unit 120 by executing the program. The program may be installed in a computer constituting at least a part of the communication unit 120 from a computer-readable medium or a storage device connected to a network.
 コンピュータにインストールされ、コンピュータを本実施形態に係る通信ユニット120として機能させるプログラムは、CPU等に働きかけて、コンピュータを、通信ユニット120の各部としてそれぞれ機能させる。これらのプログラムに記述された情報処理は、コンピュータに読込まれることにより、ソフトウエアと通信ユニット120のハードウエア資源とが協働した具体的手段として機能する。 A program that is installed in a computer and causes the computer to function as the communication unit 120 according to the present embodiment works on a CPU or the like to cause the computer to function as each unit of the communication unit 120. Information processing described in these programs functions as a specific means in which software and hardware resources of the communication unit 120 cooperate with each other by being read by a computer.
 以上、本発明を実施の形態を用いて説明したが、本発明の技術的範囲は上記実施の形態に記載の範囲には限定されない。上記実施の形態に、多様な変更または改良を加えることが可能であることが当業者に明らかである。その様な変更または改良を加えた形態も本発明の技術的範囲に含まれ得ることが、請求の範囲の記載から明らかである。 As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be added to the above-described embodiment. It is apparent from the scope of the claims that the embodiments added with such changes or improvements can be included in the technical scope of the present invention.
 請求の範囲、明細書、および図面中において示した装置、システム、プログラム、および方法における動作、手順、ステップ、および段階などの各処理の実行順序は、特段「より前に」、「先立って」などと明示しておらず、また、前の処理の出力を後の処理で用いるのでない限り、任意の順序で実現しうることに留意すべきである。請求の範囲、明細書、および図面中の動作フローに関して、便宜上「まず、」、「次に、」などを用いて説明したとしても、この順で実施することが必須であることを意味するものではない。 The execution order of each process such as operations, procedures, steps, and stages in the apparatus, system, program, and method shown in the claims, the description, and the drawings is particularly “before” or “prior”. It should be noted that it can be realized in any order unless the output of the previous process is used in the subsequent process. Regarding the operation flow in the claims, the description, and the drawings, even if it is described using “first”, “next”, etc. for the sake of convenience, it means that it is essential to carry out in this order. is not.
10 ネットワーク、22 太陽光発電システム、24 風力発電システム、30 充電スタンド、42 バッテリ搭載車、44 バッテリ搭載車、50 原子力発電所、51 充電用プラグ、52 超高圧変電所、53 充電用プラグ、54 一次変電所、55 充電用プラグ、56 中間変電所、57 充電用プラグ、58 配電用変電所、59 充電用プラグ、100 バッテリ、110 電池セル、120 通信ユニット、122 コネクタ部、124 無線通信部、126 位置取得部、134 残量取得部、136 通知データ出力部、138 電池情報格納部、140 履歴格納部、152 車輪部、154 供給コネクタ、210 通信端末、300 電気自動車、310 駆動部、320 ディスプレイ、400 表示データ、402 地図データ、410 自車オブジェクト、420 充電スタンドオブジェクト、430 対応車両オブジェクト、500 情報管理サーバ、502 バッテリ情報受信部、504 バッテリ情報格納部、506 需要状況導出部、508 移動指示送信部、510 劣化度合導出部、512 変電所位置取得部、514 規格電圧取得部、516 放射線情報送信部、600 バッテリ制御システム、610 充電ステーション、612 車輪部、614 供給コネクタ、616 電池残量、700 バッテリ制御システム、710 充電ステーション、712 電力供給プラグ、1000 コンピュータ、1010 CPU、1020 ROM、1030 RAM、1040 通信I/F、1050 ハードディスクドライブ、1060 FDドライブ、1062 フレキシブルディスク、1070 DVDドライブ、1072 DVD-ROM、1080 入出力チップ、1085 グラフィックコントローラ、1090 ディスプレイ、1092 ホストコントローラ、1094 入出力コントローラ 10 network, 22 solar power generation system, 24 wind power generation system, 30 charging stand, 42 battery-equipped vehicle, 44 battery-equipped vehicle, 50 nuclear power plant, 51 charging plug, 52 ultra high voltage substation, 53 charging plug, 54 Primary substation, 55 charging plug, 56 intermediate substation, 57 charging plug, 58 distribution substation, 59 charging plug, 100 battery, 110 battery cell, 120 communication unit, 122 connector unit, 124 wireless communication unit, 126 position acquisition unit, 134 remaining amount acquisition unit, 136 notification data output unit, 138 battery information storage unit, 140 history storage unit, 152 wheel unit, 154 supply connector, 210 communication terminal, 300 electric vehicle, 310 drive unit, 320 display 400 display data 402, map data, 410 own vehicle object, 420 charging station object, 430 compatible vehicle object, 500 information management server, 502 battery information receiving unit, 504 battery information storing unit, 506 demand status deriving unit, 508 movement instruction transmitting unit, 510 Degradation Degree Deriving Unit, 512 Substation Location Acquisition Unit, 514 Standard Voltage Acquisition Unit, 516 Radiation Information Transmission Unit, 600 Battery Control System, 610 Charging Station, 612 Wheel Unit, 614 Supply Connector, 616 Battery Remaining, 700 Battery Control System, 710 charging station, 712 power supply plug, 1000 computer, 1010 CPU, 1020 ROM, 1030 RAM, 1040 communication I / F, 1050 hard disk drive , 1060 FD drive, 1062 flexible disk, 1070 DVD drive, 1072 DVD-ROM, 1080 output chip 1085 graphics controller, 1090 a display, 1092 host controller, 1094 output controller

Claims (19)

  1.  バッテリであって、
     筐体と、
     前記筐体に内蔵された電池セルと、
     SIM(Subscriber Identity Module)を着脱可能に保持するコネクタ部と、
     前記バッテリの位置を取得する位置取得部と
     前記SIMに記録されている情報を用いた無線通信により、前記バッテリの位置を示す位置情報を送信する無線通信部と、
     を備えるバッテリ。     A battery,
    A housing,
    A battery cell built in the housing;
    A connector unit that removably holds a SIM (Subscriber Identity Module);
    A position acquisition unit that acquires the position of the battery, and a wireless communication unit that transmits position information indicating the position of the battery by wireless communication using information recorded in the SIM;
    With battery.
  2.  前記電池セルの電池残量が予め定められた閾値よりも低い場合に通知データを出力する通知データ出力部
     をさらに備える、請求項1に記載のバッテリ。     The battery according to claim 1, further comprising a notification data output unit that outputs notification data when a remaining battery level of the battery cell is lower than a predetermined threshold.
  3.  前記無線通信部は、充電ステーションの位置情報を受信し、
     前記通知データ出力部は、前記無線通信部が受信した前記充電ステーションの位置情報を含む通知データを出力する、請求項2に記載のバッテリ。     The wireless communication unit receives the location information of the charging station,
    The battery according to claim 2, wherein the notification data output unit outputs notification data including position information of the charging station received by the wireless communication unit.
  4.  前記無線通信部は、前記バッテリに充電可能なバッテリの位置情報を受信し、
     前記通知データ出力部は、前記無線通信部が受信した前記バッテリの位置情報を含む通知データを出力する、請求項2に記載のバッテリ。     The wireless communication unit receives battery position information that can be charged to the battery,
    The battery according to claim 2, wherein the notification data output unit outputs notification data including position information of the battery received by the wireless communication unit.
  5.  前記バッテリは電気自動車に搭載され、前記電気自動車に前記電池セルの電力を供給する、請求項1から4のいずれか一項に記載のバッテリ。 The battery according to any one of claims 1 to 4, wherein the battery is mounted on an electric vehicle and supplies electric power of the battery cell to the electric vehicle.
  6.  請求項1から5のいずれか一項に記載のバッテリと、
     前記バッテリから、前記電池セルの電池残量及び前記位置情報を受信するバッテリ情報受信部と、
     複数の前記バッテリの前記電池残量及び前記位置に基づいて、電力の需要状況を導出する需要状況導出部と、
     前記需要状況に基づいて、前記複数のバッテリのうち、自律的に移動可能なバッテリに移動指示を送信する移動指示送信部と
     を有するバッテリ制御装置と
     を備える、バッテリ制御システム。     A battery according to any one of claims 1 to 5;
    From the battery, a battery information receiving unit for receiving the remaining battery capacity and the position information of the battery cell;
    A demand situation deriving unit for deriving a demand situation of electric power based on the remaining battery capacity and the position of a plurality of the batteries;
    A battery control system comprising: a battery control device having a movement instruction transmission unit that transmits a movement instruction to a battery that can move autonomously among the plurality of batteries based on the demand situation.
  7.  前記自律的に移動可能なバッテリは、複数のバッテリが一体となって移動可能なバッテリである、請求項6に記載のバッテリ制御システム。 The battery control system according to claim 6, wherein the autonomously movable battery is a battery in which a plurality of batteries can move together.
  8.  前記需要状況導出部は、電力の供給を必要とする位置を導出し、
     前記移動指示送信部は、前記自律的に移動可能なバッテリのうち、前記電池残量が予め定められた閾値より多いバッテリに、前記電力の供給を必要とする位置に移動する移動指示を送信する、請求項6又は7に記載のバッテリ制御システム。     The demand situation deriving unit derives a position where power supply is required,
    The movement instruction transmission unit transmits a movement instruction to move to a position where the power needs to be supplied to a battery whose remaining battery capacity is greater than a predetermined threshold among the autonomously movable batteries. The battery control system according to claim 6 or 7.
  9.  前記需要状況導出部は、電力の供給が可能な位置を導出し、
     前記移動指示送信部は、前記自律的に移動可能なバッテリのうち、前記電池残量が予め定められた閾値より少ないバッテリに、前記電力の供給が可能な位置に移動する移動指示を送信する、請求項6から8のいずれか一項に記載のバッテリ制御システム。     The demand situation deriving unit derives a position where power can be supplied,
    The movement instruction transmission unit transmits a movement instruction to move to a position where the power can be supplied to a battery whose remaining battery capacity is less than a predetermined threshold among the autonomously movable batteries. The battery control system according to any one of claims 6 to 8.
  10.  前記電池セルの電力を用いて移動する前記バッテリの第1の位置における電池残量及び第2の位置における電池残量に基づいて、前記電池セルの劣化度合を導出する劣化度合導出部
     をさらに備え、
     前記移動指示送信部は、前記劣化度合が予め定められた閾値より高い前記バッテリに、前記電池セルの交換が可能な交換ステーションへ移動する移動指示を送信する、請求項6から9のいずれか一項に記載のバッテリ制御システム。     A deterioration degree deriving unit for deriving the deterioration degree of the battery cell based on the remaining battery level at the first position and the remaining battery level at the second position of the battery that moves using the power of the battery cell; ,
    The movement instruction transmission unit transmits a movement instruction to move to an exchange station capable of exchanging the battery cells, to the battery having the deterioration degree higher than a predetermined threshold value. The battery control system according to item.
  11.  前記バッテリ制御装置は、
     変電所の位置を取得する変電所位置取得部
     をさらに有し、
     前記移動指示送信部は、複数の前記バッテリのうち、前記変電所に対して電力供給可能なバッテリに、前記変電所位置取得部が取得した位置への移動指示を送信する、請求項6から10のいずれか一項に記載のバッテリ制御システム。     The battery control device
    It further has a substation location acquisition unit that acquires the location of the substation,
    The said movement instruction | indication transmission part transmits the movement instruction | indication to the position which the said substation position acquisition part acquired to the battery which can supply electric power with respect to the said substation among several said batteries. The battery control system according to any one of the above.
  12.  請求項1から5のいずれか一項に記載のバッテリと、
     バッテリ制御装置と
     を備えるバッテリ制御システムであって、
     前記バッテリは自律的に移動可能であり、
     前記バッテリ制御装置は、
     前記バッテリから前記電池セルの電池残量及び前記位置情報を受信するバッテリ情報受信部と、
     変電所の位置を取得する変電所位置取得部と、
     複数の前記バッテリのうち、前記変電所に対して電力供給可能なバッテリに、前記変電所位置取得部が取得した位置への移動指示を送信する移動指示送信部と
     を有する、バッテリ制御システム。     A battery according to any one of claims 1 to 5;
    A battery control system comprising: a battery control device;
    The battery is autonomously movable;
    The battery control device includes:
    A battery information receiving unit that receives the remaining battery capacity and the position information of the battery cell from the battery;
    A substation position acquisition unit for acquiring the position of the substation;
    A battery control system comprising: a movement instruction transmission unit that transmits a movement instruction to a position acquired by the substation position acquisition unit to a battery that can supply power to the substation among the plurality of batteries.
  13.  前記バッテリ制御装置は、
     前記変電所の規格電圧を取得する規格電圧取得部
     をさらに有し、
     前記移動指示送信部は、前記複数のバッテリのうち、規格電圧が、前記規格電圧取得部が取得した前記規格電圧と一致するバッテリに、前記変電所位置取得部が取得した位置への移動指示を送信する、請求項12に記載のバッテリ制御システム。     The battery control device
    A standard voltage acquisition unit for acquiring a standard voltage of the substation;
    The movement instruction transmission unit sends a movement instruction to a position acquired by the substation position acquisition unit to a battery whose standard voltage matches the standard voltage acquired by the standard voltage acquisition unit among the plurality of batteries. The battery control system according to claim 12, wherein the battery control system transmits.
  14.  前記バッテリは、前記電池セルを、他のバッテリの電池セルと連結するコネクタをさらに有し、
     前記移動指示送信部は、連結することによって、前記規格電圧取得部が取得した前記規格電圧の電力を供給可能な複数の前記バッテリに、前記変電所位置取得部が取得した位置への移動指示を送信する、請求項13に記載のバッテリ制御システム。     The battery further includes a connector for connecting the battery cell to a battery cell of another battery,
    The movement instruction transmission unit is configured to connect the plurality of batteries capable of supplying power of the standard voltage acquired by the standard voltage acquisition unit to the position acquired by the substation position acquisition unit. The battery control system according to claim 13, wherein the battery control system transmits.
  15.  前記バッテリは、前記電池セルの電力を供給する電力供給プラグをさらに有し、
     前記変電所は、前記電力供給プラグと連結して、前記電池セルの電力の供給を受け付ける充電用プラグを有し、
     前記移動指示送信部は、前記バッテリに、前記電力供給プラグによる前記充電用プラグへの電力の供給を指示する、請求項12から14のいずれか一項に記載のバッテリ制御システム。     The battery further includes a power supply plug for supplying power of the battery cell,
    The substation has a charging plug that is connected to the power supply plug and receives the power supply of the battery cell,
    The battery control system according to any one of claims 12 to 14, wherein the movement instruction transmitting unit instructs the battery to supply power to the charging plug by the power supply plug.
  16.  前記バッテリは、放射線を測定する放射線測定部をさらに有し、
     前記バッテリ情報受信部は、前記放射線測定部によって測定された放射線の量と、前記放射線を測定した前記バッテリの位置情報とを、前記バッテリから受信し、
     前記バッテリ制御装置は、前記バッテリ情報受信部が受信した前記放射線の量及び前記位置情報を他の装置に送信する放射線情報送信部をさらに有する、請求項12から15のいずれか一項に記載のバッテリ制御システム。     The battery further includes a radiation measurement unit that measures radiation,
    The battery information receiving unit receives the amount of radiation measured by the radiation measuring unit and the position information of the battery from which the radiation has been measured, from the battery,
    16. The battery control device according to claim 12, further comprising a radiation information transmission unit that transmits the amount of radiation and the position information received by the battery information reception unit to another device. 17. Battery control system.
  17.  筐体に内蔵された電池セルと、SIM(Subscriber Identity Module)を着脱可能に保持するコネクタ部と、位置を取得する位置取得部と、前記SIMに記録されている情報を用いた無線通信により、前記電池セルの電池残量と、前記位置を示す位置情報とを送信する無線通信部とを有するバッテリから、前記電池残量及び前記位置情報を受信するバッテリ情報受信部と、
     複数の前記バッテリの前記電池残量及び前記位置に基づいて、電力の需要状況を導出する需要状況導出部と、
     前記需要状況に基づいて、前記複数のバッテリのうち、自律的に移動可能なバッテリに移動指示を送信する移動指示送信部と
     を備えるバッテリ制御装置。     By wireless communication using a battery cell built in the case, a connector unit that detachably holds a SIM (Subscriber Identity Module), a position acquisition unit that acquires a position, and information recorded in the SIM, A battery information receiving unit for receiving the remaining battery level and the position information from a battery having a battery remaining amount of the battery cell and a wireless communication unit for transmitting the position information indicating the position;
    A demand situation deriving unit for deriving a demand situation of electric power based on the remaining battery capacity and the position of a plurality of the batteries;
    A battery control device comprising: a movement instruction transmission unit that transmits a movement instruction to a battery that can move autonomously among the plurality of batteries based on the demand situation.
  18.  筐体に内蔵された電池セルと、SIM(Subscriber Identity Module)を着脱可能に保持するコネクタ部と、位置を取得するバッテリ位置取得部と、前記SIMに記録されている情報を用いた無線通信により、前記電池セルの電池残量と、前記位置を示す位置情報とを送信する無線通信部を有し、自律的に移動可能なバッテリから、前記電池セルの電池残量及び前記位置を受信するバッテリ情報受信部と、
     変電所の位置を取得する変電所位置取得部と、
     複数の前記バッテリのうち、前記変電所に対して電力供給可能なバッテリに、前記変電所位置取得部が取得した位置への移動指示を送信する移動指示送信部と
     を備えるバッテリ制御装置。     By wireless communication using a battery cell built in the housing, a connector unit that removably holds a SIM (Subscriber Identity Module), a battery position acquisition unit that acquires a position, and information recorded in the SIM A battery that has a wireless communication unit that transmits the battery remaining amount of the battery cell and position information indicating the position, and that receives the battery remaining amount and the position of the battery cell from a battery that can move autonomously An information receiver;
    A substation position acquisition unit for acquiring the position of the substation;
    A battery control apparatus comprising: a movement instruction transmission unit that transmits a movement instruction to a position acquired by the substation position acquisition unit to a battery that can supply power to the substation among the plurality of batteries.
  19.  コンピュータを、請求項17又は18に記載のバッテリ制御装置として機能させるためのプログラム。 A program for causing a computer to function as the battery control device according to claim 17 or 18.
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