WO2019065386A1 - Système et procédé de facturation d'alimentation électrique - Google Patents

Système et procédé de facturation d'alimentation électrique Download PDF

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Publication number
WO2019065386A1
WO2019065386A1 PCT/JP2018/034556 JP2018034556W WO2019065386A1 WO 2019065386 A1 WO2019065386 A1 WO 2019065386A1 JP 2018034556 W JP2018034556 W JP 2018034556W WO 2019065386 A1 WO2019065386 A1 WO 2019065386A1
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charging
power
user
battery
charge
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PCT/JP2018/034556
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English (en)
Japanese (ja)
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曽根崇史
岩本淳
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本田技研工業株式会社
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Publication of WO2019065386A1 publication Critical patent/WO2019065386A1/fr

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q50/00Information and communication technology [ICT] specially adapted for implementation of business processes of specific business sectors, e.g. utilities or tourism
    • G06Q50/10Services

Definitions

  • the present invention relates to a power charging system and a power charging method for charging a user who uses a charging station.
  • Japanese Patent Laid-Open No. 2001-057711 describes that when renting a removable battery from a battery supply company, the monthly rental fee is assessed taking into consideration the charging time, the number of times of charging, and the maintenance cost.
  • the present invention has been made to solve the above-described problems, and it is an object of the present invention to provide a power charging system and a power charging method capable of securing the fairness of a removable battery share service.
  • a power charging system comprising: one or more removable batteries detachably mounted to a power utilization device; and a charging station for storing and charging the one or more removable batteries.
  • Charging processing means for specifying a user who has returned the removable battery to the charging station and performing charging processing for charging the user an amount according to the amount of power consumption of the removable battery;
  • the charging processing means determines a method of calculating a charging amount based on the degree of deterioration of the removable battery, and performs the charging process.
  • the method of calculating the charge amount is determined based on the degree of deterioration of the removable battery, it becomes possible to calculate the charge amount commensurate with the actual performance of the removable battery, and the fairness of the share service of the removable battery is secured. can do.
  • each of the removable batteries is configured to be capable of storing usage history information indicating a history of usage environment or usage condition in a state of being attached to the power utilization apparatus
  • the charging processing means is configured to The degree of deterioration may be evaluated using the use history information of the removable battery, and the calculation method may be determined based on the obtained degree of deterioration.
  • the charging processing means relatively increases the charging amount when the deterioration degree evaluated using the use history information is relatively large, while the deterioration degree evaluated using the use history information is If it is small, the charge amount may be relatively small. As a result, it is possible to provide the user with an incentive for promoting proper use of the removable battery through some of the charge amount, and the operation cost is reduced along with the extension of the life of the removable battery.
  • the electric power utilization device is an electric vehicle which can travel at least by electric power
  • the charge processing means calculates the reachable distance of the electric vehicle based on the state of the removable battery stored in the charging station.
  • output information indicating the reachable distance may be output to the user via the charging station or an external device. This allows the user to select a removable battery to be removed from the charging station, while taking into consideration the range of the electric vehicle.
  • the charge processing means can set a usage policy for each user, and the charging station presents the user with the removable battery that matches the use policy set by the charge processing means. It is also good. This allows the user to make a decision that appropriately reflects his usage policy while saving the time and effort of selecting the removable battery each time.
  • a power charging method is a method using a charging station for storing and charging one or more removable batteries that are detachably mounted to a power utilization apparatus, A specific step of specifying the user who returned the removable battery, and a charging step of charging the specified user for an amount according to the power consumption of the removable battery
  • a plurality of computers execute, and in the charging step, a method of calculating a charging amount is determined based on the degree of deterioration of the removable battery, and the charging process is performed.
  • the power charging system and the power charging method according to the present invention it is possible to secure the fairness of the share service of the removable battery.
  • FIG. 5 is a first flowchart provided to explain the operation of the power charging system shown in FIGS. 1 and 2;
  • FIG. 3 is a second flowchart provided to explain the operation of the power charging system shown in FIG. 1 and FIG. 2;
  • FIG. 7A is a diagram showing an example of the charging unit price table.
  • FIG. 7B is a diagram showing an example of a premium discount rate table. It is a block diagram of the electric power charging system in a modification.
  • FIG. 1 is an overall configuration diagram of a power charging system 10 in an embodiment of the present invention.
  • FIG. 2 is a block diagram of the power charging system 10 shown in FIG.
  • the power charging system 10 is a system capable of providing a share service in which a plurality of users share the removable battery 14 which is a driving source of a saddle-ride type motorcycle 12 (electric vehicle). is there.
  • the power charging system 10 basically comprises one or more removable batteries 14, one or more charging stations 16, and a management server 18.
  • the removable battery 14 is a cassette-type power storage device that is detachably mounted to the motorcycle 12 that can travel at least by electric power.
  • the detachable battery 14 that needs to be charged may be distinguished from the “used battery 14 u”, and the detachable battery 14 that has been charged may be distinguished from the “charged battery 14 c”.
  • the charging station 16 is a facility for storing and charging one or more removable batteries 14 and is installed at a plurality of locations.
  • the housing 20 of the charging station 16 is provided with a slot portion 21 composed of a plurality of (12 in the example shown in the drawing) slots, a display 22, and an authentication device 24.
  • a battery charger 26 (see FIG. 2) capable of charging the removable battery 14 is provided on the back side of the slot portion 21.
  • the charging station 16 is communicably connected to the management server 18 via the network NW.
  • the portable terminal 28 carried by the user is communicably connected to the management server 18 via the network NW. Thereby, the charging station 16 (or the portable terminal 28) can transmit / receive communication data to / from the management server 18 via the network NW.
  • the removable battery 14 includes a power storage unit 30, a measurement sensor 32, a battery management unit (hereinafter, BMU 34), and a connection unit 36.
  • BMU 34 battery management unit
  • Power storage unit 30 is a battery core pack configured to be capable of charging and discharging electric power, including a secondary battery (lithium ion battery or lead storage battery).
  • the configuration of power storage unit 30 may be other than this, and may be another type of secondary battery, capacitor, or a composite battery combining these.
  • the measurement sensor 32 is composed of various sensors that measure the voltage, current, or temperature of the power storage unit 30. Thereby, the measurement sensor 32 can acquire information indicating the history of the use environment or the use state in a state of being mounted on the motorcycle 12 (hereinafter referred to as use history information).
  • the BMU 34 includes, for example, a central processing unit (CPU) and a random access memory (RAM), and is a device that controls charge and discharge control of the power storage unit 30.
  • the BMU 34 can store identification information of the removable battery 14 (hereinafter, battery ID), identification information of a user (hereinafter, user ID), usage history information from the measurement sensor 32, and deterioration estimation information from the charging station 16. It is.
  • usage history information time-series data of internal temperature at the time of charge or discharge, voltage at the time of discharge, charge rate (SOC; State Of Charge), used capacity from rental to return, usage period, traveling distance Or, total usage capacity, usage period, mileage may be mentioned.
  • SOC State Of Charge
  • degradation estimation information a capacity maintenance rate, an internal resistance increase rate, SOC when left, battery temperature when left, elapsed time from manufacturing point in time, and total charge count can be mentioned.
  • the charging station 16 includes a display 22, an authentication unit 24, a charger 26, a communication module 40, a memory 42, and a control device 44.
  • the display 22 is a device having at least a display function, and includes, for example, a touch panel (display panel with a touch sensor). Thus, it is possible to input necessary information in accordance with the user's operation, and to provide various visual information to the user.
  • a touch panel display panel with a touch sensor
  • the authentication unit 24 is a device that reads recording information of an NFC card (not shown) carried by the user using, for example, near field communication (NFC). As a result, the charging station 16 authenticates the user having the sharing service usage right using the user ID included in the recorded information.
  • NFC near field communication
  • the charger 26 is a device for charging the removable battery 14 in a state in which the connection portions 36 and 54 are connected to each other.
  • the charger 26 is connected to a power supply (not shown) for supplying power to the removable battery 14.
  • the communication module 40 is a module that can communicate with an external device by wire or wirelessly. As a result, the charging station 16 can exchange various data related to the share service with the management server 18.
  • the memory 42 is, for example, a non-volatile memory composed of an EEPROM (Electrically Erasable Programmable Read-Only Memory) and a flash memory. Thereby, information on each removable battery 14 stored in the charging station 16 can be stored.
  • EEPROM Electrically Erasable Programmable Read-Only Memory
  • the control device 44 includes, for example, a CPU or an MPU.
  • the control device 44 functions as the charge control unit 46, the information acquisition unit 48, the calculation method determination unit 50, and the charge amount calculation unit 52 by reading and executing the program stored in the memory 42.
  • the management server 18 is a computer including a server communication unit 60, a server control unit 62, and a server storage unit 64.
  • the server side communication unit 60 is an interface that transmits and receives electrical signals to and from an external device. Thereby, the management server 18 can exchange various data (for example, a part of the service usage information 66) related to the share service with the charging station 16.
  • the server-side control unit 62 includes a CPU or an MPU, and functions as the deterioration degree estimation unit 68 and the data processing unit 70 by reading and executing a program stored in the server-side storage unit 64.
  • control device 44 and server-side control unit 62 specify the user who returned the removable battery 14 to the charging station 16, and charge the user the amount according to the amount of power consumption of the removable battery 14. It corresponds to the charging processing means 72 which performs charging processing.
  • the server-side storage unit 64 includes, for example, a storage device such as a hard disk built in or externally attached to a computer system. As a result, inside the server-side storage unit 64, a database is built on information (hereinafter, service use information 66) indicating the use status of the share service.
  • service use information 66 information indicating the use status of the share service.
  • FIG. 3 is a view showing an example of the data structure of the service usage information 66.
  • the service usage information 66 includes user information, battery rental information, battery return information, and charging detail information.
  • the "user information” is information on the user of the share service.
  • This user information includes, for example, user ID, personal information (for example, name and address, payment method), vehicle type (type of motorcycle 12), and usage policy (for example, service plan).
  • the “battery lending information” is information on the removable battery 14 (that is, the charged battery 14c that has been lent out) taken out of the charging station 16.
  • the battery lending information includes, for example, a lending date and time, a slot ID, and a battery ID.
  • the “battery return information” is information on the removable battery 14 (that is, the returned used battery 14 u) loaded in the charging station 16.
  • the battery return information includes, for example, return date and time, slot ID, battery ID, deterioration estimation information, and usage history information.
  • the “charging detail information” is information indicating charging details for each user.
  • the charging detail information includes, for example, charging date and time, charging charge, power consumption, extra discount charge, and charging amount.
  • the power charging system 10 in the present embodiment is configured as described above. Subsequently, the operation of the power charging system 10 shown in FIGS. 1 and 2 will be described with reference to the flowcharts of FIGS. 4 and 5 and FIGS. 6 to 7B. More specifically, the exchange operation of the removable battery 14 will be described with reference to FIG. 4, and the charging operation for the user will be described with reference to FIG.
  • step S1 of FIG. 4 the control device 44 (that is, the charge control unit 46) of the charging station 16 confirms whether or not the used battery 14u has been loaded into the charger 26 which has an empty space.
  • the charge control unit 46 confirms whether or not communication with the removable battery 14 has become possible by connection between the connection units 36 and 54.
  • step S1: NO If the loading is not confirmed (step S1: NO), the process remains at step S1 until the used battery 14u is loaded. On the other hand, if the loading is confirmed (step S1: YES), the process proceeds to the next step S2.
  • step S2 the control device 44 (that is, the information acquisition unit 48) reads out and acquires various information from the used battery 14u loaded in step S2. Specifically, the information acquisition unit 48 acquires necessary information including the battery ID and the usage history information from the BMU 34 via the connection units 36 and 54.
  • step S3 the control device 44 performs user authentication processing using an NFC card (not shown), and determines whether or not the user has the right to use the share service. Specifically, after acquiring the user ID through the authentication unit 24, the control device 44 requests the management server 18 to collate the user. Thereby, a user who requests replacement of the removable battery 14 is identified.
  • NFC card not shown
  • control device 44 may perform user authentication processing without using the authentication device 24.
  • the control device 44 associates the user ID and the battery ID in advance, and when the used battery 14 u is loaded to the charging station 16, authenticates the user from the user ID associated with the battery ID. It is also good.
  • control device 44 cancels the association between the user ID and the battery ID of the used battery 14 u. Then, the control device 44 newly associates the user ID with the battery ID of the charged battery 14c to be lent. Thus, user authentication can be repeated.
  • control device 44 transmits the acquired information (for example, battery ID / use history information) to the management server 18 via the communication module 40 and the network NW in a state where the user ID is associated.
  • acquired information for example, battery ID / use history information
  • step S4 the server-side control unit 62 of the management server 18 estimates the degree of deterioration of the used battery 14u based on the various information acquired in step S2.
  • the "deterioration degree” is a broad concept including not only the degree of actual deterioration with reference to the performance at the time of a new product, but also the degree of deterioration expected due to the use that deviates from the recommended environment or recommended state.
  • degradation degree estimation unit 68 divides the measured value at the time of new product from the latest measured value to calculate the capacity maintenance rate (unit:%).
  • the deterioration degree estimation unit 68 calculates an internal resistance increase rate (unit:%) by dividing the measurement value at the time of the new product from the latest measurement value regarding the internal resistance of the power storage unit 30.
  • the deterioration degree estimation unit 68 detects a state in which the period during which the removable battery 14 is not being used continuously exceeds a threshold (for example, 5 to 10 days) as the “leaving state of the removable battery 14”. In this case, the deterioration degree estimation unit 68 calculates the statistical value of the SOC in the left state as the "left SOC”, and calculates the statistical value of the environmental temperature in the left state as the "left battery temperature”.
  • a threshold for example, 5 to 10 days
  • step S5 the charging station 16 performs update processing of the deterioration estimation information obtained by the estimation of step S4.
  • the management server 18 transmits the degradation estimation information indicating the degradation degree to the charging station 16 in a state where the battery ID and the user ID are associated with each other.
  • the control device 44 transmits necessary information to the used battery 14 u, whereby the usage history information and the deterioration estimation information in the BMU 34 are updated.
  • step S6 the controller 44 of the charging station 16 starts the charging operation of the removable battery 14 (that is, the used battery 14u). After the charging is completed, the control device 44 stores the charging time of the removable battery 14 (that is, the charged battery 14c) in the memory 42. This is for use in calculating the charge amount.
  • step S7 the charging station 16 (that is, the control device 44) uses the display 22 to provide information to the user.
  • the control device 44 acquires necessary information from the management server 18 and generates display data indicating desired visual information.
  • This visible information may include, for example, a selectable chargeable battery 14c, a chargeable battery 14c recommended to be used (hereinafter referred to as a recommendation battery), and a range covered by the recommendation battery.
  • the management server 18 can set the service usage policy for each user according to the input operation of the mobile terminal 28 (see FIG. 1).
  • This usage policy is, for example, "maximum capacity”, “minimum charge amount”, “do not exceed the monthly limit set”, “set charge unit price or closest to this unit price”, etc. Selection policy.
  • the server-side control unit 62 extracts the “use policy” corresponding to the “user ID” from the database regarding the service use information 66 and transmits the use policy to the charging station 16.
  • the controller 44 selects one of the plurality of charged batteries 14 c stored in the charging station 16 that is most preferable to the user (recommended battery).
  • the management server 18 can accumulate use history information having high correlation with the range in which the motorcycle 12 can travel for each user.
  • the server-side control unit 62 extracts “battery return information” corresponding to the “user ID” from the database related to the service usage information 66, and transmits the battery return information to the charging station 16.
  • the control device 44 divides the total travel distance from the total usage capacity included in the battery return information to calculate the average power consumption of the user. Further, the control device 44 calculates the following distance of the motorcycle 12 by dividing the above-mentioned average electricity cost from the capacity of each charged battery 14c.
  • the cruising distance of the charged battery 14c is calculated to be 25 km for 1000 Wh, 20 km for 800 Wh, and 15 km for 600 Wh.
  • FIG. 6 is a view showing visible information displayed on the display 22 of FIG. In the display area 80 of the display 22, a selection button 82 simulating the shape of the slot portion 21, recommended information 84 indicating the position of the recommended battery, and distance information 86 indicating the possible distance by the recommended battery are provided. It is done.
  • the “active display” button is a button that is disposed at a position corresponding to the removable battery 14 that can be selected by the user, and that can accept a selection operation by the user.
  • the “passive display” button of the selection buttons 82 is a button that is disposed at a position corresponding to the removable battery 14 that can not be selected by the user, and can not accept the selection operation by the user.
  • the recommendation information 84 indicates the position of the charged battery 14c (the recommended battery is the “05th”) that matches the usage policy set for each user.
  • the distance information 86 indicates the possible range of the motorcycle 12 when the recommended battery is mounted.
  • the user performs an operation of selecting the charged battery 14 c to be taken out from the charging station 16 while visually recognizing the content of the display 22. Then, the user takes out the charged battery 14 c which can be taken out by the selection operation from the slot portion 21 of the charging station 16.
  • step S8 the charging station 16 checks whether the charged battery 14c has been taken out. If the removal is not confirmed (step S8: NO), the process remains at step S8 until the charged battery 14c is removed. On the other hand, if the removal is confirmed (step S8: YES), the process proceeds to the next step S9.
  • step S9 the server-side control unit 62 of the management server 18 updates the database in order to reflect the series of processing contents executed in steps S1 to S8. Specifically, the data processing unit 70 adds the battery lending information, the battery return information, and a part of the charging statement information acquired through the series of operations of steps S1 to S8, thereby providing service usage information for each user. Update 66
  • step S11 of FIG. 5 the control device 44 acquires information (here, power consumption and deterioration estimation information) necessary for charging processing to be described later.
  • the control device 44 (that is, the information acquisition unit 48) acquires the power consumption amount of the used battery 14u loaded in step S1 and the deterioration estimation information of the charged battery 14c extracted in step S8.
  • step S12 the control device 44 (that is, the calculation method determination unit 50) evaluates the degree of deterioration using the deterioration estimation information acquired in step S11, and calculates the charge amount based on the obtained evaluation result. decide.
  • the calculation method determination unit 50 determines a combination of the charge unit price and the premium discount charge, using two types of look-up tables (LUT; Look-Up Table).
  • FIG. 7A is a diagram showing an example of the charging unit price table.
  • the vertical direction of the table indicates the internal resistance increase rate (unit:%), and the horizontal direction of the table indicates the capacity retention ratio (unit:%).
  • the rate of increase in internal resistance tends to gradually increase from the ideal value of 100% as deterioration of power storage unit 30 (that is, performance decrease) proceeds. Further, the capacity retention rate tends to gradually decrease from the ideal value of 100% as the deterioration of power storage unit 30 progresses.
  • “high charge unit price”, “basic charge unit price” and “low charge unit price” are divided in order from the one closer to the ideal state of power storage unit 30. That is, when the actual performance of power storage unit 30 is relatively high, the unit price is increased, and when the actual performance of power storage unit 30 is relatively low, the unit price is decreased.
  • FIG. 7B is a diagram showing an example of a premium discount rate table.
  • the vertical direction of the table indicates the battery temperature (unit: ° C.) during standing, and the horizontal direction of the table indicates the SOC (unit:%) when standing.
  • Deterioration (that is, performance degradation) of power storage unit 30 is promoted as the battery temperature at standstill is higher, while deterioration tends to be suppressed as the battery temperature at standstill is lower. Further, the deterioration of power storage unit 30 is promoted as the SOC at the time of leaving is larger, while the deterioration tends to be suppressed as the SOC at the time of leaving is smaller.
  • step S13 the control device 44 (that is, the charge amount calculation unit 52) performs the charging process according to the calculation method determined in step S12. Specifically, the charge amount calculation unit 52 multiplies the power consumption of the charged battery 14c by the charge unit price and adds the additional charge (or subtracts the discount charge) as necessary to charge the user. Calculate
  • control device 44 transmits the calculated charging statement information (including the charging amount) and the user ID to the management server 18 via the communication module 40 and the network NW in a state in which the user ID is associated.
  • step S14 the server-side control unit 62 of the management server 18 updates the database to reflect the charging process performed in step S13. Specifically, the data processing unit 70 updates the service usage information 66 for each user by adding a part of the charging statement information acquired through the series of operations of steps S11 to S13.
  • the power charging system 10 includes one or more removable batteries 14 detachably mounted on the motorcycle 12 (power utilization device), and a charging station 16 for storing and charging the one or more removable batteries 14.
  • the control device 44 (charging processing means) that performs charging processing for specifying the user who returned the removable battery 14 to the charging station 16 and charging the user an amount according to the power consumption of the removable battery 14 Equipped with The control device 44 determines a method of calculating the charge amount based on the degree of deterioration of the removable battery 14 and performs charge processing.
  • this electric power charging method is a method using a charging station 16 for storing and charging one or more detachable batteries 14 detachably mounted on the motorcycle 12 (electric power utilizing device), A identification step (S3) of identifying the user who removed the removable battery 14 from the charging station 16, and a charging step of charging the specified user for an amount according to the power consumption of the removable battery 14
  • One or more computers execute (S13), and in the charging step, a method of calculating the charging amount is determined based on the degree of deterioration of the removable battery 14, and this charging process is performed.
  • the method of calculating the charge amount is determined based on the degree of deterioration of the removable battery 14, it becomes possible to calculate the charge amount commensurate with the actual performance of the removable battery 14, and the share service of the removable battery 14 is fair. It is possible to secure sex.
  • Each removable battery 14 is configured to be capable of storing use history information indicating a history of use environment or use condition in a state of being mounted on the motorcycle 12, and the control device 44 is a removable battery
  • the degree of deterioration may be evaluated using the 14 pieces of usage history information, and the calculation method may be determined based on the obtained degree of deterioration. As a result, it is possible to reflect the use environment or the use condition in a state of being mounted on the motorcycle 12 in the calculation of the charge amount.
  • control device 44 relatively increases the billing amount when the degree of deterioration evaluated using the use history information is large, while when the degree of deterioration evaluated using the use history information is small.
  • the amount of money may be relatively small.
  • the electric power utilization device is an electric vehicle (motorcycle 12) capable of traveling by at least electric power
  • the control device 44 is capable of traveling the motorcycle 12 based on the state of the removable battery 14 stored in the charging station 16.
  • the distance may be calculated, and output information indicating the reachable distance may be output to the user via the charging station 16 or an external device (e.g., the portable terminal 28).
  • the user can select the removable battery 14 to be taken out of the charging station 16 while considering the cruising distance of the motorcycle 12.
  • control device 44 can set the usage policy for each user, and the charging station 16 may present the user with the removable battery 14 that matches the usage policy set by the control device 44.
  • the user can make a decision in which the user's usage policy is appropriately reflected, while saving the time and effort of selecting the removable battery 14 each time it is taken out.
  • FIG. 8 is a block diagram of a power charging system 100 according to a modification.
  • the power charging system 100 basically includes one or more removable batteries 14, a charging station 102, and a management server 104.
  • the charging station 102 includes a display 22, an authentication unit 24, a charger 26, a communication module 40, a memory 42, and a control device 106. That is, in this modification, the function of the control device 106 is different from that of the present embodiment (see the control device 44 in FIG. 2).
  • the controller 106 is configured to include a CPU or an MPU, as with the controller 44 (see FIG. 2).
  • the control device 106 functions as the charge control unit 46 and the information acquisition unit 48 by reading and executing the program stored in the memory 42.
  • the management server 104 is a computer including a server communication unit 60, a server control unit 108, and a server storage unit 64. That is, in this modification, the function of the server-side control unit 108 is different from that of the present embodiment (see the server-side control unit 62 in FIG. 2).
  • the server-side control unit 108 includes a CPU or an MPU, and reads and executes a program stored in the server-side storage unit 64 to estimate the degree of deterioration. It functions as unit 68, data processing unit 70, calculation method determination unit 110, and charge amount calculation unit 112.
  • the calculation method determination unit 110 acquires the power consumption of the used battery 14 u and the deterioration estimation information of the charged battery 14 c together with the user ID via the information acquisition unit 48 of the control device 106, and based on this deterioration estimation information Determine how to calculate the billed amount.
  • the calculation method determination unit 50 determines the combination of the charging unit price and the premium discount rate using the reference tables shown in FIGS. 7A and 7B. Good.
  • Charge calculation unit 112 performs a charging process according to the calculation method determined by calculation method determination unit 110. Specifically, the charge amount calculation unit 112 multiplies the power consumption of the used battery 14 u by the charge unit price and adds the additional charge (or the discount charge as in the charge amount calculation unit 52 (see FIG. 2). The charge amount for the user is calculated by subtracting.
  • the server-side control unit 108 specifies a user who has returned the removable battery 14 to the charging station 102, and performs charging for charging the user for the amount according to the power consumption of the removable battery 14 It corresponds to the processing means 114.
  • the charging processing means 114 may be incorporated in the management server 104 which is a separate device from the charging station 102 (see FIG. 8). . Even with this configuration, the same effects as those of the power charging system 10 can be obtained.
  • the server-side control unit 108 as the charging processing means 114 determines the calculation method of the charging amount based on the degree of deterioration of the removable battery 14, so the actual performance of the removable battery 14 It is possible to calculate the amount of charge corresponding to the above, and to ensure the fairness of the share service of the removable battery 14.
  • the power charging system 10 operates according to the replacement procedure (return ⁇ lending) for taking out the charged battery 14c after loading the used battery 14u, but the reverse replacement procedure (rental ⁇ return) It may operate according to Further, the power charging system 10 may be configured not only to replace the removable batteries 14 one by one, but also to replace a plurality of removable batteries 14 simultaneously.
  • the power charging system 10 performs the charging process each time the removable battery 14 is replaced, but the execution timing is not limited to this.
  • the power charging system 10 may perform charging processing collectively at a predetermined time interval (for example, a fixed time every day).
  • the power charging system 10 is applied to the motorcycle 12 (electric vehicle) in the embodiment described above, the application target may be a mobile including a four-wheeled vehicle.
  • the device power utilization device
  • the type or purpose of use of the device does not matter.

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Abstract

L'invention concerne des systèmes de facturation d'alimentation électrique (10, 100) comprenant : au moins une batterie amovible (14) ; des stations de charge (16, 102) destinées à stocker et charger la batterie amovible (14) ; et des moyens de traitement de facturation (72, 114) destinés à réaliser un processus de facturation pour un utilisateur rapportant la batterie amovible (14), en fonction de la quantité d'énergie consommée par la batterie amovible (14). Les moyens de traitement de facturation (72, 114) déterminent la méthode de calcul de la somme à facturer en fonction du niveau de dégradation de la batterie amovible (14) et réalisent le processus de facturation.
PCT/JP2018/034556 2017-09-29 2018-09-19 Système et procédé de facturation d'alimentation électrique WO2019065386A1 (fr)

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WO2024010017A1 (fr) * 2022-07-07 2024-01-11 パナソニック インテレクチュアル プロパティ コーポレーション オブ アメリカ Procédé de traitement d'informations, dispositif de traitement d'informations, et programme de traitement d'informations
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