JP5501638B2 - Charger - Google Patents

Description

  The present invention relates to a charging device, and more particularly to a charging device that charges according to the amount of charge of various storage batteries.

  In recent years, storage batteries can be used any number of times as long as they are charged, so they are used in various devices such as mobile phones, home appliances, and automobiles, and require chargers for charging various storage batteries. It is said that.

  As a technique of a charger for charging a storage battery, for example, a technique described in Patent Document 1 has been proposed. In the technique described in Patent Document 1, a charging block suitable for a mobile phone held by the user of the apparatus is found from a plurality of charging blocks corresponding to a plurality of types of mobile phones and a plurality of types of secondary batteries, and the charging block is used as the charging block. Attach a mobile phone, insert an appropriate amount of coins from the coin slot, indicate the desired charging time from the selection button, lock the charging block door with the key, calculate the amount of accepted coins, It is proposed to control the quick charger provided in the charging block according to the calculated amount and the instructed charging time and charge the secondary battery of the mobile phone attached to the charging holder of the charging block. ing.

JP-A-10-162241

  However, in the technique described in Patent Document 1, it is proposed to charge when charging a storage battery of a mobile phone. However, since charging is performed for each individual and charged each time the battery is charged, There is room for improvement in terms of annoyance.

  The present invention has been made in consideration of the above-described facts, and an object thereof is to reduce the burden of paying a fee.

In order to achieve the above object, the invention described in claim 1 includes a charging unit that charges a plurality of types of storage batteries according to the purpose of use, an input unit that inputs the usage purpose and usage conditions of the storage battery, and the charging unit. Detection means for detecting an alternative storage battery corresponding to the purpose of use and usage conditions inputted by the input means from a plurality of charged storage batteries, and the alternative storage battery corresponding to a case where the alternative storage battery is detected by the detection means Storage means for displaying the battery, identification means for identifying the user who charges the storage battery by the charging means, and calculation means for calculating a charge to be charged according to the charge amount of the alternative storage battery displayed by the storage battery display means And a fee calculated by the calculating unit for each predetermined usage unit including the user identified by the identifying unit Is characterized by comprising a charging means for charging in a plurality of times, the.

According to the first aspect of the present invention, a plurality of types of storage batteries can be charged according to the purpose of use by the charging means. The charging means may be capable of charging various storage batteries such as a storage battery for automobiles, a storage battery for home appliances, and a storage battery for mobile phones.

In the input means, the usage purpose and usage conditions of the storage battery are input, and in the detection means, an alternative storage battery corresponding to the usage purpose and usage conditions input by the input means is detected from a plurality of types of storage batteries charged by the charging means, In the storage battery display means, the alternative storage battery corresponding to the case where the alternative storage battery is detected by the detection means is displayed. Moreover, in an identification means, the user who charges a storage battery by a charging means is identified. For example, the identification means can identify the user based on a personal identification number, a car key, a card, or a home card key.

In the calculation means, a charge to be charged is calculated according to the charge amount of the alternative storage battery displayed by the storage battery display means .

Then, the charging unit charges the charges calculated by the calculating unit a plurality of times for each predetermined usage unit including the user identified by the identifying unit. For example, the charging unit determines a usage unit based on information indicating that a plurality of individuals are a group, and charges the fees calculated by the calculation unit for each determined usage unit in a plurality of times.

  By charging in this way, you do not have to pay for each charge, and you can pay not only for individual units but also for each usage unit that you set in advance. Annoyance can be reduced.

Charging means is, for example, a personal or family unit as the user units, may be charged in a plurality of times.

Incidentally, a storage means for storing usage history of each unit for utilization, and output means for outputting for each predetermined period of the utilization history accumulated by said accumulating means, it may further include a. That is, by accumulating the usage history of the charging device and outputting it every predetermined period (for example, one month), the user can be charged or the usage status can be confirmed by the user. Can be.

Moreover, you may make it install a charging device in the housing complex in which several households live. In this case, there is further provided authentication means for judging whether or not the user identified by the identification means is a user living in the apartment house, and performing authentication for permitting the use of only the user living in the apartment house. You may make it prepare. Thereby, the use of the charging device can be limited only to the residents of the apartment house. In this case, the authentication means may perform authentication by determining whether or not the user lives in an apartment house based on a password, a car key, a card, or a home card key.
Also, if detecting means of the present invention, a server for storing various data including registration data and use history of the user of a Subscriber, there is data corresponding to the input purpose and use conditions by the input means determines whether, calculated as use conditions of power amount corresponding to the conditions inputted from the use history of the user stored in the server, it detect the substitute battery. The use condition may be the destination or the use time when the purpose of use is an automobile as in the invention described in claim 2 , or the purpose of use is cleaning as in the invention described in claim 4. In the case of a machine, it may be the usage time or the cleaning range. Moreover, in the case of Claim 2 , like the invention of Claim 3 , while communicating with the navigation apparatus provided in the motor vehicle, when the said use condition input by the said input means is a destination The communication device may further include communication means for transmitting the input destination to the navigation device and setting the destination.

  As described above, according to the present invention, by charging a plurality of charges collectively for each predetermined usage unit, it is not necessary to pay a charge each time charging, and not only charging by an individual unit, Since the charges can be paid collectively for each predetermined usage unit, there is an effect that the troublesomeness of the payment of the charges can be reduced.

It is a figure which shows the outline of the charging device concerning embodiment of this invention. It is a block diagram which shows the structure of the charging device concerning embodiment of this invention. It is a flowchart which shows an example of the flow of the process performed in the control part of the charging device concerning embodiment of this invention. It is a flowchart which shows an example of the flow of the storage battery selection process for every objective. It is a flowchart which shows an example of the flow of an accounting process. It is a flowchart which shows an example of the flow of a storage battery charging process. It is a flowchart which shows an example of the flow of a payment process.

  Hereinafter, an example of an embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 is a diagram showing an outline of a charging apparatus according to an embodiment of the present invention.

  The charging device 10 according to the embodiment of the present invention is installed in a shared space of an apartment house where a plurality of households live. The charging device 10 can be used only by residents of an apartment house, and charges various types of storage batteries for charging. Specifically, the charged power is charged by exchanging various charged batteries.

  Charging device 10 in the present embodiment charges storage batteries such as storage batteries used in automobiles such as hybrid cars and electric cars, storage batteries used in household appliances such as vacuum cleaners and audio equipment, and storage batteries for mobile phones as various storage batteries. To do. That is, the charging device 10 can charge a plurality of types of storage batteries having different sizes, applications, and capacities.

  The charging device 10 is provided with a plurality of storage battery storage portions 11 for storing a plurality of types of storage batteries having different sizes, uses, capacities, and the like, and each has a different size according to the size. The size of the storage battery stored in the storage battery storage unit 11 is, for example, a storage battery of 80 × 115 × 200, a storage battery of 40 × 115 × 200, a storage battery of 120 × 115 × 200, a storage battery of 120 × 115 × 200, and 20 × 40. For example, in FIG. 1, the storage battery storage units 11A to 11C store storage batteries such as automobiles, motorcycles, and wheelchairs, and the storage battery storage unit 11D is a mobile phone such as a mobile phone. Contains storage batteries for electrical appliances.

  In addition, each storage battery storage unit 11 is provided with a display lamp 28, and a light source is provided on the outer frame portion of the storage battery storage unit 11 so as to be lit to selectively display a storage battery according to the purpose and application. It has become.

  In addition, the charging device 10 is provided with a touch panel 32, which can display various input screens and input to the input screens.

  In addition, the charging device 10 is provided with an authentication panel 44 and can be used only when authentication of information read by the authentication panel 44 is permitted. As the authentication panel 44, for example, a card reader that can read an authentication card (for example, a home card key, a smart key of a car, or a dedicated authentication card made up of an IC card, etc.) may be applied. You may enter a number.

  Further, the charging device 10 is provided with a charging storage battery 22, and each storage battery stored in the storage battery storage unit 11 is charged using the power of the charging storage battery 22. In the present embodiment, the charging storage battery 22 can be charged using midnight power, or can be charged using an inexpensive power source by charging using natural energy such as a solar battery.

  Next, a detailed configuration of the charging apparatus 10 according to the embodiment of the present invention will be described. FIG. 2 is a block diagram showing the configuration of the charging apparatus 10 according to the embodiment of the present invention.

  The charging device 10 includes a control unit 20, a charge / discharge control unit 18, and a charge storage battery 22, and the charge / discharge of the charge storage battery 22 is controlled by the control unit 20 controlling the charge / discharge control unit 18. .

  The charging / discharging control unit 18 is connected to the charging storage battery 22 and a plurality of storage battery connection units 24 (only one is shown in FIG. 2) for electrically connecting to the storage battery stored in the storage battery storage unit 11. ), A lock mechanism unit 26 that operates a lock mechanism for locking the removal of the storage battery stored in the storage battery storage unit 11, and the above-described display lamp 28 are connected. A plurality of lock mechanisms 26 are also provided corresponding to the storage battery storage unit 11.

  In addition, the commercial power supply 12 is connected to the charge / discharge control unit 18 via the inverter converter 14, and the solar cell 16 is connected to the charging / discharging control unit 18. The electric power for operating each part is obtained from natural energy such as the commercial power supply 12 or the solar cell 16.

  Switching of the power source of the commercial power source 12 or the solar cell 16 is performed by the control unit 20 controlling the charge / discharge control unit 18. For example, the control unit 20 mainly uses the power from the solar battery 16 during the daytime, and charges the storage battery 22 for charging using the power supply from the commercial power supply 12 when the power from the solar battery 16 is insufficient. The charge / discharge control unit 18 is controlled. On the other hand, at night, the charging storage battery 22 is controlled to be charged using the late-night power of the commercial power supply 12. In addition, the control unit 20 controls the power stored in the charging storage battery 22 to be supplied to a portion required in the charging device 10, and when the power stored in the charging storage battery 22 is insufficient. Then, the charge / discharge control unit 18 is controlled so as to use the power from the commercial power supply 12 or the solar battery 16. Basically, the storage battery connected to the storage battery connection unit 24 is charged using the power of the storage battery 22 for charging, but when direct charging from the commercial power supply 12 or the solar battery 16 is instructed by the user. Charges the storage battery connected to the storage battery connection unit 24 using a power supply according to the instruction.

  The control unit 20 controls the charge / discharge control unit 18 to perform charge control of the storage battery stored in the storage battery storage unit 11 of the charging device 10, selection display of the storage battery according to the purpose, and the like. The storage battery selection display is performed by turning on the display lamp 28 described above.

  The accounting unit 30, the touch panel 32, the authentication panel 44, and the communication unit 34 are connected to the control unit 20.

  In the present embodiment, charging processing unit 30 charges according to the amount of power stored in the storage battery or the charging time of the storage battery. As a billing method, in this embodiment, billing is settled by debiting a bank, but various methods such as cash and card may be applied.

  The touch panel 32 is provided for displaying the condition setting screen for inputting the usage of the storage battery to be used, the usage time, the charging time, and the like and for inputting the displayed setting screen, and the input result is controlled. The control unit 20 controls the detection of an optimal capacity storage battery charged with necessary power, charging for the amount of power, and the like.

  As described above, the authentication panel 44 can be applied with a card reader that reads an authentication card (for example, an authentication card including a home card key, an automobile smart key, or an IC card). The information (information for identifying the user) is output to the control unit 20. As a result, the control unit 20 authenticates the user of the charging device 10 based on the information read by the authentication panel 44.

  The communication unit 34 is connected to a server 36 connected to a network 38. The server 36 stores various types of data such as registration data of the user of the charging apparatus 10 (for example, registration data including authentication data for authenticating the user) and registered user usage history as a database. By communicating with the communication unit 34, information about the user is exchanged between the charging device 10 and the server 36. As a database, a fee history and a total fee for each predetermined usage unit (for example, each room unit, family unit, or individual unit of an apartment house) are stored as a fee database. In the present embodiment, the database is stored in the server 36, but may be stored in the control unit 20.

  The network 38 is connected to a plurality (only one is shown in FIG. 2) of client computers 40 owned by the user (resident of the housing complex), and the usage history, the total amount of charges, etc. It can be viewed by authenticating.

  Furthermore, the communication unit 34 is provided to communicate with the navigation device 42 mounted on the automobile. For example, the destination set by the touch panel 32 of the charging device 10 is transmitted to the navigation device 42 by the communication unit 34. Thus, the destination setting of the navigation device 42 can be performed.

  The control unit 20 stores map data, and has a navigation function for searching for a route by inputting a destination using the touch panel 32 and calculating a required time to the destination. For example, when the destination is input through the touch panel 32, the control unit 20 searches for a route by the navigation function and calculates a distance, a required time, and the like. Then, the amount of electric power of the automobile required for the round trip of the destination is calculated, the storage battery storing the calculated power is searched, and the display lamp 28 corresponding to the storage battery storage unit 11 storing the searched storage battery is turned on. It has become. Note that the navigation function may be provided not in the charging device 10 but in the server 36 so as to calculate the required amount of power by communication with the server 36.

  Moreover, the control part 20 has memorize | stored the floor plan of the dweller of an apartment house, and calculates the electric energy required in order to clean the said cleaning range by inputting the range to clean using the touch panel 32, A storage battery in which the calculated amount of power is stored is searched, and the display lamp 28 corresponding to the storage battery storage unit 11 in which the searched storage battery is stored is turned on.

  In addition, when not using the storage battery 22 for charging connected to the charging apparatus 10 and the storage battery 11 stored in the storage battery storage unit 11, it may be used as a necessary amount of electricity in a shared space of an apartment house or the like.

  Then, an example of the process performed with the charging device 10 concerning embodiment of this invention comprised as mentioned above is demonstrated. FIG. 3 is a flowchart showing an example of the flow of processing performed by the control unit 20 of the charging apparatus 10 according to the embodiment of the present invention.

  First, in step 100, it is determined whether authentication has been performed. That is, the information on the authentication card is read by the authentication panel 44, and it is determined whether or not the read information is registered in the server 36 in advance. The process waits until the determination is affirmed and the process proceeds to step 102.

  In step 102, a storage battery usage purpose selection screen is displayed, and the routine proceeds to step 104. For example, a selection screen for selecting a car, a home appliance, a mobile phone, or the like as the storage battery usage purpose is displayed as the storage battery usage purpose selection screen.

  In step 104, it is determined whether there is a selection input. The determination is made as to whether or not the user has operated the touch panel 32 to input the storage battery usage purpose on the storage battery usage purpose selection screen, and waits until the determination is affirmed and proceeds to step 106. To do.

  In step 106, a storage battery selection process for each purpose is performed, and the routine proceeds to step 108. The storage battery selection process for each purpose is, for example, a process for searching for and displaying a storage battery corresponding to the purpose of use in a process for each purpose of use (storage battery for automobiles, storage battery for home appliances, storage battery for mobile phone, etc.). Here, the storage battery selection processing for each purpose will be described with reference to FIG. FIG. 4 is a flowchart illustrating an example of the flow of the storage battery selection process for each purpose.

  When the process proceeds to the storage battery selection process for each purpose, in step 200, the storage battery selection input screen is displayed on the touch panel 32, and the process proceeds to step 202. As the storage battery selection input screen, for example, when the purpose of use of the storage battery is an automobile, a selection input screen such as the use time or destination is displayed, and when the purpose of use of the storage battery is home appliances, etc. A screen for selection is displayed on the touch panel 32.

  In step 202, it is determined whether a condition has been input. In this determination, it is determined whether or not a condition is input by operating the touch panel 32 by the user on the displayed storage battery selection input screen, and the process waits until the determination is affirmed and the process proceeds to step 204.

  In step 204, it is determined whether data corresponding to the condition exists in the server 36. The determination is made, for example, by communicating with the server 36 via the communication unit 34, by inputting a condition (for example, car use) input from a history (database) used by an authenticated user stored in the server 36 in the past. It is determined whether or not there is data representing a required amount of power corresponding to the time, the destination, or the usage time of the home appliance, and if the determination is affirmed, the process proceeds to step 206 and is denied If so, the process proceeds to step 208.

  In step 206, data representing the amount of power required for the condition input from the database stored in the server 36 is read, and the process proceeds to step 212.

  On the other hand, in step 208, the amount of electric power necessary for the input condition is calculated, and the process proceeds to step 210. For example, by using predetermined power consumption of a car or power consumption of home appliances, the amount of power required for the input time of use of the car, destination, or time of use of home appliances is calculated.

  In step 210, the database of the electric energy corresponding to the condition is updated, and the process proceeds to step 212. For example, in the case of an automobile storage battery, the database is updated by storing a database of the amount of power necessary for traveling the calculated travel distance and travel time corresponding to the authenticated user. In addition, in the case of a storage battery for a vacuum cleaner, it is possible to accurately determine the area to be cleaned and its time by updating the database by storing the usage time and the cleaning range, etc. Can be selected and displayed.

  In step 212, the corresponding storage battery is detected, and the routine proceeds to step 214. That is, a storage battery suitable for the purpose of use charged for the amount of power obtained in step 206 or step 208 is detected, and the routine proceeds to step 214. In addition, when the charge amount of the storage battery with the optimum capacity is insufficient, the second best storage battery with a little capacity with a charge amount that satisfies the use condition is detected.

  In step 214, the display lamp 28 corresponding to the storage battery storage unit 11 in which the detected storage battery is stored is turned on, the storage battery selection process for each purpose is returned, and the process proceeds to step 108 in FIG.

  Returning to FIG. 3, in step 108, the accounting process is performed, and the process proceeds to step 110. The charging process is a process in which necessary power is exchanged for an alternative storage battery that has already been charged, and charging is performed according to the replaced alternative storage battery. Here, the charging process will be described with reference to FIG. FIG. 5 is a flowchart showing an example of the flow of the accounting process.

  When the process proceeds to the billing process, in step 300, a charge corresponding to the charge amount of the selected storage battery is calculated, and the process proceeds to step 302. That is, the charge according to the charge amount of the storage battery stored in the storage battery storage unit 11 whose display lamp 28 is turned on in the above-described step 214 is calculated. In this embodiment, the charge of the storage battery itself charged by the charging device 10 is charged only according to the charge amount without being added, but the charge of the storage battery itself may be added. .

  In step 302, the calculated fee is displayed on the touch panel 32, and the process proceeds to step 304.

  In step 304, it is determined whether or not the cancellation has been made. The determination is made as to whether or not an operation indicating cancellation has been performed on the touch panel 32 by the user. If the determination is affirmative, the process proceeds to step 306; A series of processing ends without returning to 110.

  In step 306, the charge database is updated for each predetermined usage unit (for example, each room unit, family unit, or individual unit of the apartment house), and the process proceeds to step 308. That is, it connects with the server 36 via the communication part 34, the charge used this time is added for every user unit, and a charge database is updated. Accordingly, it is possible to charge for using the charging device 10 a plurality of times for each predetermined time unit. At this time, the charging device 10 may be provided with a printer, and the fee displayed in step 302, the energy usage amount, and the like may be printed out.

  In step 308, the purpose, the energy amount of the selected storage battery, the fee, etc. are stored in the server 36 as a database corresponding to the user, and the process proceeds to step 310.

  In step 310, the lock mechanism unit 26 corresponding to the storage battery storage unit 11 whose display lamp 28 is lit is operated to release the lock, the accounting process is returned, and the process proceeds to step 110 in FIG. Thereby, the storage battery charged by the user with the charging device 10 can be used.

  On the other hand, if it transfers to step 110 of FIG. 3, it will be determined whether the storage battery was replaced. That is, it is determined whether or not the storage battery stored in the storage battery storage unit 11 whose display lamp 28 is lit in step 214 described above is taken out, and waits until the determination is affirmed, and the process proceeds to step 112. The determination as to whether or not the storage battery has been taken out from the storage battery storage unit 11 can be made by determining whether or not the connection of the storage battery connection unit 24 has been released. Further, not only whether or not the storage battery stored in the storage battery storage unit 11 whose display lamp 28 is lit is taken out, but whether or not the storage battery that has been taken out and used is newly stored is determined. Good.

  In step 112, the lit display lamp 28 is turned off, and the routine proceeds to step 114.

  In step 114, a storage battery charging process is performed and a series of processes are terminated. The storage battery charging process is a process of charging the storage battery stored in the storage battery storage unit 11 of the charging device 10, and the storage battery termination process is performed according to the flowchart of FIG. FIG. 6 is a flowchart showing an example of the flow of the storage battery charging process. In addition, the storage battery charging process may be performed at a predetermined timing (for example, a predetermined time).

  When the process proceeds to the storage battery charging process, in step 400, the remaining amount of the storage battery connected to the storage battery connection unit 24 is detected, and the process proceeds to step 402. That is, the remaining amount of all the storage batteries stored in the storage battery storage unit 11 and connected to the storage battery connection unit 24 is detected. As for the remaining amount of the storage battery, for example, the remaining amount of each storage battery can be detected by the storage battery connecting unit 24 detecting current, voltage, and the like.

  In step 402, it is determined whether or not all the batteries are fully charged. If the determination is affirmative, the storage battery charging process is terminated, and if the determination is negative, the process proceeds to step 404.

  In step 404, the type of storage battery that needs to be charged is detected, and the routine proceeds to step 406. As a method for detecting the type of storage battery, for example, by determining the type of storage battery for each storage battery storage unit 11 in advance, which storage battery storage unit 11 stores a storage battery with a small remaining amount is stored in the storage battery connection unit 24. The type of storage battery can be detected by detecting from the connected state.

  In step 406, the storage battery is charged with the current and voltage corresponding to the type of the detected storage battery, and the storage battery charging process is terminated. At this time, the rechargeable battery is charged by using the rechargeable storage battery 22 that is charged with cheap power such as midnight power or power using natural energy such as the solar battery 16, so that the electricity charge necessary for charging is charged. Can be cheaper. In the present embodiment, the storage battery connected to the charging device 10 is charged using the power from the charging storage battery 22 charged by midnight power or the power of the solar battery 16, but from the midnight power or the solar battery 16. You may make it charge the storage battery connected to the storage battery connection part 24 of the charging device 10 directly using this electric power.

  By performing the processing in the charging device 10 in this manner, it is possible to use the already charged storage battery without waiting for the storage battery to be charged, which is convenient. For example, when using an automobile, first, the touch panel 32 is operated to input the storage battery usage purpose. At this time, an automobile is selected as the purpose of using the storage battery. Subsequently, information relating to a required power amount such as a usage time or a destination is input using the touch panel 32. Thereby, the charging device 10 searches the storage battery with the optimum charge amount and turns on the display lamp 28 to inform the user which storage battery has already been charged. The user uses the vehicle by replacing the already charged storage battery that will wait until charging is complete by replacing the vehicle storage battery mounted on the vehicle and the storage battery charged by the charger 10. Can do. In addition, the vehicle storage battery mounted on the vehicle can be charged by using late-night power, natural energy, or the like by returning it to the charging device 10 instead of the storage battery used by the user. In the case where the travel distance or travel time is extended due to traffic jams during driving or change of destination, the remaining amount of the storage battery for the vehicle is monitored by the navigation device 42 of the vehicle, and when the charging becomes necessary, the navigation device A nearby charging station or the like may be searched by 42 to prompt the user to charge or replace the vehicle storage battery by voice or display.

  In another example, when a storage battery for a vacuum cleaner is required for cleaning, the cleaner is selected as the intended use of the storage battery by operating the touch panel 32. Subsequently, information related to a required power amount such as a usage time or a cleaning range is input using the touch panel 32. Thereby, the charging device 10 searches the storage battery with the optimum charge amount and turns on the display lamp 28 to inform the user which storage battery has already been charged. The user can start cleaning without having to wait until the charging is completed by replacing the storage battery of the vacuum cleaner with an already charged storage battery. Moreover, the storage battery mounted in the vacuum cleaner can be charged using late-night power, natural energy, or the like by returning it to the charging device 10 instead of the storage battery used by the user.

  Next, a settlement process performed by the control unit 20 will be described. The payment process is a process related to the payment performed using the fee database updated by being charged by the above-described charging process. FIG. 7 is a flowchart illustrating an example of the flow of the settlement process. The settlement process may be performed every predetermined period (for example, one month), or may be performed when an execution instruction is given by an apartment house manager or the like.

  First, in step 500, the charge database is read from the server 36 and the process proceeds to step 502.

  In step 502, a charge for each usage unit for a predetermined period is calculated, and the process proceeds to step 504. That is, the usage fee and the total amount for a predetermined period (for example, one month) for each usage unit are calculated from the fee database.

  In step 504, an invoice for a charge for each usage unit for a predetermined period is generated, and the process proceeds to step 506. For example, an invoice in a predetermined format including the date of use, breakdown, fee, etc. is generated as data.

  In step 506, an invoice for a charge for each usage unit for a predetermined period is output, and the process proceeds to step 508. As an output of the invoice, for example, it may be transmitted to the client computer 40 connected to the server 36 by e-mail or the like, or may be output on paper for delivery to each user.

  In step 508, a withdrawal process is performed, and a series of settlement processes is completed. With regard to the debiting process, by applying for debiting from a bank account in the present embodiment in advance, the charges charged a plurality of times for each usage unit are collectively deducted. As a result, it is possible to charge together and settle.

  By performing the processing with the charging device 10 as described above, it is possible to charge for charging various storage batteries or replacing the charged storage batteries. In addition, when billing, it is possible to settle multiple times for each predetermined usage unit, so there is no need to settle for each usage, reducing the burden of paying bills and increasing convenience Can be used.

  Moreover, since it can charge using the commercial power source 12 of the daytime, the commercial power source 12 (midnight power) at night, the solar cell 16 etc. as the electric power at the time of charging, it uses midnight electric power, the solar cell 16 etc. By charging the battery, the storage battery can be charged using cheap electric power.

  In the above embodiment, the solar cell 16 has been described as an example of electric power using natural energy. However, the present invention is not limited to this, and various natural energies such as hydroelectric power generation, wind power generation, and geothermal power generation are used. You may make it use the utilized electric power.

DESCRIPTION OF SYMBOLS 10 Charging apparatus 11 Storage battery storage part 12 Commercial power supply 14 Inverter converter 16 Solar battery 18 Charging / discharging control part 20 Control part 22 Charging storage battery 24 Storage battery connection part 30 Charging process part 32 Touch panel 34 Communication part 36 Server 44 Authentication panel

Claims (4)

Charging means for charging a plurality of types of storage batteries according to the purpose of use;
An input means for inputting the purpose and conditions of use of the storage battery;
Detecting means for detecting an alternative storage battery corresponding to the purpose of use and use conditions input by the input means from a plurality of types of storage batteries charged by the charging means;
Storage battery display means for displaying the alternative storage battery corresponding to the case where the alternative storage battery is detected by the detection means;
Identification means for identifying a user who charges the storage battery by the charging means;
Calculating means for calculating a charge to be charged according to the charge amount of the alternative storage battery displayed by the storage battery display means;
Charging means for charging the charges calculated by the calculating means a plurality of times for each predetermined usage unit including the user identified by the identifying means;
Equipped with a,
The detection means determines whether or not there is data corresponding to the purpose of use and use conditions input by the input means in a server that stores various data including user registration data and user usage history. A charging device that detects the alternative storage battery by calculating an amount of power corresponding to a condition input from the use history of the user stored in the server as the use condition . The charging device according to claim 1, wherein the use condition is a destination or a use time when the use purpose is an automobile . Communication means for communicating with a navigation device provided in an automobile and setting the destination by transmitting the input destination to the navigation device when the use condition input by the input means is a destination The charging device according to claim 2, further comprising: The charging device according to claim 1 , wherein the use condition is a use time or a cleaning range when the use purpose is a vacuum cleaner .

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