JP6733676B2 - Charging control device, charging time carrying method, and program - Google Patents

Description

The present invention relates to a charging control device used in charging equipment, a charging time carryover method executed by the charging device, and a program.

In recent years, the number of facilities having charging equipment for electric devices has increased. For example, charging facilities for charging the batteries of electric vehicles (EVs) and plug-in hybrid vehicles (PHVs) are installed in parking lots of large commercial facilities and in coin parking lots in towns. May have been

An example of a technique relating to charging equipment is disclosed in Patent Document 1 below, for example. Patent Document 1 below discloses a system that manages the usage charge of charging equipment for an electric vehicle installed in a shared parking lot. The system disclosed in Patent Document 1 includes a power generation facility that uses natural energy in addition to a commercial power source. In Patent Document 1, when the surplus power of the power generation facility is sold, the amount of money calculated according to the profit obtained from the power sale is cashed back to the member (regular user) of the shared parking lot. Is disclosed.

JP, 2011-186875, A

In the charging facility as described above, when the usage fee is settled on the spot for each use, if the usage fee is deferred, the malicious user may steal the power. Therefore, in such a case, it is desirable to pay the charge in advance, but it is difficult for the user to accurately grasp the timing when charging is completed, and therefore the actual charging time does not balance with the prepaid charge. Can occur. In this case, the user has overpaid the usage fee, and depending on the payment method of the usage fee, the refund of the overpaid fee cannot be received, or there is a further procedure for converting the overpaid fee. There is a possibility that the user will suffer from the disadvantage that the operation is required.

An object of the present invention is to provide a technique for eliminating a user's disadvantage that may occur when the usage fee of the charging facility is prepaid.

According to the invention,
An input receiving means for receiving an input of the charging time desired by the user,
A charge adjusting means for adjusting the charge according to the input charging time before starting charging,
An actual charging time acquisition means for acquiring the actual charging time,
A carry-over time calculating means for calculating a difference between the input charge time and the actual charge time as a carry-over time,
User information acquisition means for acquiring user identification information for identifying the user,
A transmitting unit that transmits the acquired user identification information and the carry-over time in association with each other to an external device,
A charging control device is provided.

According to the invention,
Computer
Accept the input of charging time desired by the user,
The charge according to the input charging time is performed before charging,
Get the actual charging time,
Calculate the difference between the input charging time and the actual charging time as a carry-over time,
Obtaining user identification information for identifying the user,
The acquired user identification information and the carry-over time are associated and transmitted to an external device,
There is provided a charging time carry-over method including:

According to the invention,
Computer,
An input receiving means for receiving the input of the charging time desired by the user,
A charge adjusting means for adjusting the charge according to the input charging time before starting charging,
An actual charging time acquisition means for acquiring the actual charging time,
Carrying time calculation means for calculating the difference between the input charging time and the actual charging time as a carryover time,
User information acquisition means for acquiring user identification information for identifying the user,
Transmitting means for associating the acquired user identification information and the carry-over time with each other and transmitting them to an external device,
A program is provided to make it function as.

ADVANTAGE OF THE INVENTION According to this invention, the disadvantage of the user which may arise when the charge of the charging facility is paid in advance can be eliminated.

The above-described object, other objects, features and advantages will be further clarified by the preferred embodiments described below and the accompanying drawings.

It is a figure which shows notionally the structure of the charging system in 1st Embodiment. It is a block diagram which shows notionally the processing structure of the charge control apparatus in 1st Embodiment. It is a figure which shows notionally the hardware constitutions of the charge control apparatus of 1st Embodiment. It is a flowchart which shows the flow of a process of the charge control apparatus in 1st Embodiment. It is a figure which shows an example of the information which the management server in 1st Embodiment manages. It is a figure which shows notionally the processing structure of the charge control apparatus in 2nd Embodiment. It is a flowchart which shows the flow of a process of the charge control apparatus in 2nd Embodiment. It is a flow chart which shows a flow of processing in the 1st modification of a 2nd embodiment. It is a figure which shows an example of the screen displayed on a display device in the 1st modification of 2nd Embodiment. It is a figure which shows an example of the screen displayed on a display device in the 1st modification of 2nd Embodiment. It is a flow chart which shows a flow of processing in the 2nd modification of a 2nd embodiment. It is a figure which shows an example of the screen displayed on a display device in the 2nd modification of 2nd Embodiment. It is a figure which shows notionally the process structure of the charge control apparatus in 3rd Embodiment. It is a figure which shows an example of the information which the management server in 3rd Embodiment memorize|stores.

Embodiments of the present invention will be described below with reference to the drawings. In all the drawings, the same constituents will be referred to with the same numerals, and the description thereof will not be repeated.

[First Embodiment]
[System overview]
FIG. 1 is a diagram conceptually showing the configuration of a charging system 1 in the first embodiment. The charging system 1 includes a charging control device 10, a charger 20, and a management server 30. The charging control device 10 is connected to at least one or more chargers 20 and controls the charging operation of the chargers 20. Although not shown, a plurality of charging control devices 10 may be provided in the charging facility. The charger 20 is connected to the electronic device 40 to be charged through various connectors, and charges the electronic device 40 using electric power from a commercial system or a power storage device (not shown). Here, in the present specification, “electronic device” means all devices including a rechargeable battery, and includes EVs, PHVs, and mobile terminals such as smartphones and tablet terminals. Further, the charging control device 10 is connected to the management server 30 via a network 50 including wired or wireless. As will be described later in detail, the management server 30 receives, from the charging control device 10, the remaining time, which has not been used up in actual charging, of the charging time according to the fee prepaid by the user, as the carry-over time of the user. to manage.

[Processing configuration]
FIG. 2 is a block diagram conceptually showing the processing configuration of the charging control device 10 in the first embodiment. As shown in FIG. 2, the charging control device 10 includes an input reception unit 110, a charge settlement unit 120, an actual charging time acquisition unit 130, a carryover time calculation unit 140, a user information acquisition unit 150, and a transmission unit 160. ..

The input receiving unit 110 receives an input of a charging time desired by the user (hereinafter, also referred to as a desired charging time). The input accepting unit 110 displays, for example, a screen for inputting a desired charging time on a display device (not shown) of the charging control device 10 and displays a touch panel, a keyboard, a voice input microphone provided on the charging control device 10. An input of a charging time desired by the user is accepted via an input device (not shown).

The charge settlement unit 120 performs charge settlement according to the charging time input in the input reception unit 110 before starting charging. The charge settlement unit 120 presents a charge obtained by multiplying the input charging time by the amount of money per unit time to the user through a display device (not shown) of the charging control device 10 or the like, and pays the usage charge. The payment of the fee is accepted from the user through the fee adjusting device (not shown) for performing the above.

The actual charging time acquisition unit 130 acquires the actual charging time (hereinafter also referred to as the actual charging time). The actual charging time acquisition unit 130, for example, may be the time when the charger 20 starts charging (the time when the charger 20 is controlled to start charging) and the time when the charger 20 finishes charging (to end charging). And the time when the charger 20 is controlled) and the actual charging time is calculated from the difference between them. Also, without being limited to this, the actual charging time acquisition unit 130 may, for example, start a timer that counts elapsed time with the start of charging and acquire the value of the timer at the time when charging is completed as the actual charging time. Good. In addition, the actual charging time acquisition unit 130 inquires at predetermined intervals (for example, every several seconds to several tens of seconds) whether or not current is flowing through the charger 20, and acquires the actual charging time from the inquiry result at each interval. You can also For example, assume that a current is flowing through the charger 20 as a result of inquiring the charger 20 at a certain timing. In this case, the actual charging time acquisition unit 130 determines that the electronic device 40 has been charged between the timing of the last inquiry and the timing of the present inquiry, and adds the time during that time as the actual charging time. .. By repeating this processing until the timing of completion of charging, the actual charging time acquisition unit 130 acquires a more accurate actual charging time excluding the time when charging was not performed due to processing such as battery protection and deterioration prevention. be able to.

The carry-over time calculation unit 140 acquires the desired charging time from the input reception unit 110 and the actual charging time from the actual charging time acquisition unit 130, and calculates the difference between the desired charging time and the actual charging time as the carried-over time. It can be said that the carry-over time is the time left over without being used up during actual charging, out of the charging time according to the fee prepaid by the user.

The user information acquisition unit 150 acquires user identification information that identifies a user. The user information acquisition unit 150 acquires, for example, the card ID of the card used by the user for payment of the fee or the user ID input via an input device (not shown) as the user identification information.

The transmission unit 160 associates the user identification information acquired by the user information acquisition unit 150 with the carry-over time calculated by the carry-over time calculation unit 140, and transmits the user-identified information to the external device (for example, the management server 30).

[Hardware configuration]
FIG. 3 is a diagram conceptually showing the hardware configuration of the charging control device 10 of the first embodiment. As shown in FIG. 3, the charging control device 10 includes a processor 101, a memory 102, a storage 103, an input/output interface (input/output I/F) 104, a communication unit 105, and the like. The processor 101, the memory 102, the storage 103, the input/output interface 104, and the communication unit 105 are connected to each other via a data transmission path for transmitting/receiving data.

The processor 101 is an arithmetic processing unit such as a CPU (Central Processing Unit) or a GPU (Graphics Processing Unit).

The memory 102 is a memory such as a RAM (Random Access Memory) or a ROM (Read Only Memory). The storage 103 is a storage device such as an HDD (Hard Disk Drive), an SSD (Solid State Drive), or a memory card.

The storage 103 functions of each processing unit including the input reception unit 110, the charge settlement unit 120, the actual charging time acquisition unit 130, the carry-over time calculation unit 140, the user information acquisition unit 150, and the transmission unit 160 of the charging control device 10. It stores a program for realizing. The processor 101 realizes the function of each processing unit by executing each of these programs. When executing the above programs, the processor 101 may read these programs into the memory 102 and execute them, or may execute them without reading them into the memory 102.

The input/output interface 104 is connected to the display device 1041, the input device 1042, the card reader/writer 1043, and the like.

The display device 1041 is a device such as an LCD (Liquid Crystal Display) or a CRT (Cathode Ray Tube) display that displays a screen corresponding to drawing data processed by a CPU, a GPU, or the like. One or more display devices 1041 may be connected to the input/output interface 104. The input device 1042 is a device that receives an input by a user operation, and is, for example, a keyboard, a touch sensor, a voice input microphone, or the like. The functions of the input reception unit 110 described above are realized by the cooperation of the display device 1041, the program of the input reception unit 110, and the input device 1042. The display device 1041 and the input device 1042 may be integrated and realized as a touch panel. Further, the user ID or password of the user can be acquired via the input device 1042 by a screen or a voice guide prompting the user to input information for specifying the user such as the user ID or password. In this case, the function of the user information acquisition unit 150 is realized by the cooperation of the input device 1042 and the program of the user information acquisition unit 150.

The card reader/writer 1043 reads and writes information in the card by bringing a card such as an electronic money card close to it. The function of the above-mentioned charge adjustment unit 120 is realized by the cooperation of the program of the charge adjustment unit 120 and the card reader/writer 1043. In addition, the card reader/writer 1043 can read information that can identify the user, such as a card ID unique to each card and other personal information, from the swiped card. In this case, the functions of the user information acquisition unit 150 are realized by the card reader/writer 1043 and the program of the user information acquisition unit 150 cooperating.

The communication unit 105 transmits/receives data to/from one or more chargers 20 connected to the charging control device 10 and other external devices. A control signal from the charging control device 10 is transmitted to each charger 20 via the communication unit 105, and the charging operation of each charger 20 is controlled. There are various methods for connecting the charging control device 10 and an external device via the communication unit 105. For example, this connection is a network connection via a network line or a bus connection via a bus line (for example, a USB (Universal Serial Bus) line). The network line may be a wireless line or a wired line. The communication unit 105 can also communicate with a user's mobile terminal or the like to acquire information unique to the user's mobile terminal. In this case, the communication unit 105 and the program of the user information acquisition unit 150 cooperate to realize the function of the user information acquisition unit 150.

Further, the processor 101 executes the program of the actual charge time acquisition unit 130 by using the transmission time of the control signal to the charger 20 or the reception time of the response signal from the charger 20 as input information, and thus the actual charge time acquisition unit The functions of 130 are realized. Further, the processor 101 executes the program of the carry-over time calculation unit 140 using the desired input time received via the input device 1042 and the actual charging time calculated by the function of the actual charging time acquisition unit 130 as input information. As a result, the function of the carry-over time calculation unit 140 is realized.

The hardware configuration of charging control device 10 is not limited to the configuration shown in FIG. For example, in FIG. 3, the charging control device 10 and the charger 20 are provided as separate devices, and the charging control device 10 is connected to the charger 20 via the network using the communication unit 105. Not limited to this, the charging control device 10 and the charger 20 may be integrally provided. In this case, the charging control device 10 is connected to the charger 20 via the input/output interface 104, for example. Further, the charging control device 10 may include a money processing device that receives cash from a user and pays out change.

[Operation example]
An operation example of the charging control device 10 according to the present embodiment will be described with reference to FIG. FIG. 4 is a flowchart showing a processing flow of the charge control device 10 in the first embodiment.

When the user connects the electronic device 40 to be charged to the charger 20 (S101), the user information acquisition unit 150 uses the screen or the voice guide that prompts the user to input the user information, and the user identification information. Is acquired (S102). For example, the user information acquisition unit 150 causes the card reader/writer 1043 or the like to present the card possessed by the user, and acquires the information (card ID or the like) unique to the card as the user information. The acquisition unit 150 may acquire, as the user identification information, an ID that is input via the input device 1042 and is assigned to each user. Alternatively, the acquisition unit 150 may use the mobile terminal of the user received via the communication unit 105. Unique information may be acquired.

Next, the input receiving unit 110 receives the input of the desired charging time (S103). For example, the input receiving unit 110 causes the user to input the desired charging time via the input device 1042 using a screen or a voice guide that prompts the user to input the desired charging time. Here, when there are a plurality of chargers 20 controlled by the charging control device 10, the input accepting unit 110 also accepts an input designating the charger 20 to be controlled (the charger 20 to which the charging device is connected). ..

Upon receiving the input of the desired charging time, the charge settlement unit 120 calculates the usage charge by multiplying the desired charging time by the power charge per unit time, and displays the usage charge on the display device 1041 (S104). Then, the charge settlement unit 120 uses the screen for prompting the payment of the use fee and the voice guide to settle the use fee (S105). For example, the charge settlement unit 120 reads electronic money balance information from the electronic money card of the user via the card reader/writer 1043. Then, the charge settlement unit 120 subtracts the usage charge according to the desired charging time from the balance indicated by the acquired balance information of the electronic money, and updates the information of the electronic money card using the balance information after the subtraction. This completes the settlement of the usage fee.

After the settlement of the usage fee is completed, the charging control device 10 transmits a charging start instruction to the charger 20 to which the device to be charged is connected in S101. As a result, the charging of the device to be charged is started (S106). The charging process basically ends after the desired charging time elapses, but even before the desired charging time elapses, for example, when the battery of the device to be charged reaches a full charge or reaches a predetermined charge capacity, If the charging fails due to an unexpected power transmission failure or the like, the process is terminated (S107).

When charging is completed, the actual charging time acquisition unit 130 calculates the actual charging time (S108). Then, the carry-over time calculation unit 140 calculates the carry-over time by subtracting the actual charging time calculated in S108 from the desired charging time input in S102 (S109). Then, the transmission unit 160 associates the user identification information acquired in S104 with the carry-over time calculated in S109, and manages the external device (for example, the management server 30 that manages the user identification information and the carry-over time in association with each other). ) Is transmitted (S110). For example, as illustrated in FIG. 5, the management server 30 manages the user identification information transmitted from the charging control device 10 and the carry-over time in association with each other. FIG. 5 is a diagram showing an example of information managed by the management server 30 in the first embodiment. In the example of FIG. 5, user identification information (card ID) for identifying each user and carryover time are stored in association with each other. The user identification information managed by the management server 30 may change according to the user identification information acquired in S102 described above.

As described above, in the present embodiment, after the charge corresponding to the charging time desired by the user is received before the charging is started, the carry-over time which is the difference between the desired charging time and the actual charging time is calculated, and the carry-over time is calculated. Is transmitted to an external device (for example, the management server 30) in association with the user identification information for identifying the user. That is, when the charging time corresponding to the paid fee is not used up and the charging time is surplus, the surplus time is associated with the user as a carry-over time and managed by the external device. Then, by managing the carry-over time in association with the user, the remaining time can be used at the next charging, or the amount of money corresponding to the remaining time can be returned to the user as electronic money or some point. It becomes possible to do. As a result, the user can use the electric power corresponding to the paid fee without any shortage, or the administrator of the charging facility can refund the fee to the user. As a result, according to the present embodiment, it is possible to eliminate the user's disadvantage that may occur when the usage fee of the charging facility is prepaid.

[Second Embodiment]
In the present embodiment, a configuration will be described in which the carry-over time managed in the first embodiment can be used in the next charging.

[Processing configuration]
FIG. 6 is a diagram conceptually showing the processing configuration of the charge control device 10 in the second embodiment. As shown in FIG. 6, the charging control device 10 of the present embodiment further includes a carry-over time acquisition unit 170.

The carry-over time acquisition unit 170 acquires the carry-over time associated with the user identification information from the carry-over time storage unit 310 of the management server 30. The carry-over time storage unit 310 is a storage such as an SSD or an HDD provided in the management server 30, for example, and as shown in FIG. 5, associates user carry-out time with user identification information for identifying each user. Remember. The carry-over time acquisition unit 170 uses the user identification information such as the card ID acquired via the card reader/writer 1043 from the carry-over time storage unit 310 to carry over the carry-over associated with the acquired user identification information. Get the time.

The charge settlement unit 120 of the present embodiment further uses the carry-over time acquired by the carry-over time acquisition unit 170 to settle the charge. Specifically, when the carry-over time acquired by the carry-over time acquisition unit 170 is less than the charging time input by the input reception unit 110, the charge settlement unit 120 determines the input charging time and the acquired carry-over time. Settle the charge according to the difference. When the carry-over time acquired by the carry-over time acquisition unit 170 is equal to or longer than the charging time input by the input reception unit 110, the charge settlement unit 120 does not settle the charge.

The operation of the carryover time acquisition unit 170 will be described with a specific example. Information as shown in FIG. 5 is stored in the carry-over time storage unit 310, the desired charging time of “180 minutes” is input in the input reception unit 110, and the user identification information of “ID001” is input from the card reader/writer 1043. Suppose that it is acquired. In this case, the carry-over time acquisition unit 170 acquires the carry-over time “105 minutes” associated with “ID001”. Since the desired charging time exceeds the acquired carry-over time, the charge settlement unit 120 calculates the charge according to the difference (180-105=75 minutes) of the charging time and notifies the user via the display device 1041. Present. Then, the charge adjustment unit 120 adjusts the charge according to the charging time of "75 minutes" from the balance of the electronic money card held over the card reader/writer 1043. In this case, the user pays a charge corresponding to the charging time of 180 minutes together with the previous carry-over time, and when the charge of 180 minutes is newly calculated after the current charging is completed, It will be the base.

As another example, the carry-over time storage unit 310 stores information as shown in FIG. 5, the input charging unit 110 inputs a desired charging time of “90 minutes”, and the card reader/writer 1043 displays “ID001”. It is assumed that the user identification information of “” has been acquired. In this case, the carry-over time acquisition unit 170 acquires the carry-over time “90 minutes” associated with “ID001”. Since the desired charging time is less than or equal to the acquired carry-over time, the charge settlement unit 120 does not settle the charge. In this case, the user has paid the charge corresponding to 90 minutes of the carry-over time at the present time, and the 90 minutes becomes the base for newly calculating the carry-over time after the end of the current charging.

[Hardware configuration]
The charging control device 10 of the present embodiment also has the same hardware configuration as that of the first embodiment, as shown in FIG. Then, the carry-over time acquisition unit 170 of the present embodiment is realized by the processor 101 executing the program of the carry-over time acquisition unit 170 stored in the storage 103, as in the first embodiment. Specifically, the communication unit 105 and the program of the carryover time acquisition unit 170 cooperate to acquire the carryover time of each user from the carryover time storage unit 310 of the management server 30.

[Operation example]
An operation example of the charging control device 10 according to the present embodiment will be described with reference to FIG. 7. FIG. 7 is a flowchart showing the flow of processing of the charging control device 10 in the second embodiment. In the following, processing different from that of the first embodiment will be mainly described. Note that the same processing as that of the first embodiment is denoted by the same reference numeral.

First, when the use identification information is acquired in S102, the carryover time acquisition unit 170 accesses the carryover time storage unit 310 of the management server 30 to acquire the carryover time associated with the user identification information (S201). ). Then, when the input receiving unit 110 receives the desired charging time (S103), the charge settlement unit 120 determines whether the carry-over time acquired in S201 is equal to or longer than the desired charging time input in S103 (S202). If the carry-over time is equal to or longer than the desired charging time (S202: YES), there is no additional charge to be paid, and therefore the charge adjustment unit 120 does not settle the usage charge. On the other hand, if the carry-over time is less than the desired charging time (S202: NO), the charge settlement unit 120 calculates a charge (differential charge) for the desired charging time exceeding the carry-over time, and a screen prompting payment of the charge is displayed. Using the voice guide, the user is made to settle the difference charge (S203). After that, the process proceeds similarly to the first embodiment (S106 to S110). In S109, if the carry-over time is less than the desired charging time and the difference charge is settled, the carry-over time calculation unit 140 calculates the desired charging time input in S103 and the actual charging time calculated in S108. The difference is calculated as a new carry-over time. Further, when the carry-over time is equal to or longer than the desired charging time and the difference charge is not settled, the carry-over time calculation unit 140 calculates the difference between the carry-over time acquired in S201 and the actual charging time calculated in S108. Calculate as a new carryover time. Then, in S110, the new carry-over time calculated in S109 is transmitted in association with the user identification information.

As described above, in the present embodiment, by using the user identification information, the remaining charging time that has not been used up last time (carrying time) is acquired at the time of the next charging, and based on the carrying time and the desired charging time at the current charging. Whether or not to settle the charge is judged. Thus, according to the present embodiment, the user can carry over and use the remaining charging time that has not been used up last time for the next charging, so that the user does not have to pay the charge paid the previous charging time. It is possible to prevent giving unfairness to.

[First Modification of Second Embodiment]
In this modified example, a mode in which a part of the carry-over time is used for settlement will be described.

In the present modification, the carry-over time acquisition unit 170 further receives an input for setting the usage amount of the carry-over time acquired in S201 via, for example, the input device 1042. Hereinafter, a specific operation example in this modification will be described with reference to FIGS. 8 to 10.

FIG. 8 is a flowchart showing the flow of processing in the first modification of the second embodiment. This flowchart is executed subsequent to the process of S103 of FIG. The carry-over time acquisition unit 170 receives an input of the usage amount of the carry-over time acquired in S201 via the input device 1042 (S211). Then, the charge settlement unit 120 determines whether or not the carry-over time input in S211 is equal to or longer than the desired charging time acquired in S103 (S212). If the carry-over time input in S211 is equal to or longer than the desired charging time input in S103, there is no additional charge. Therefore, the charge settlement unit 120 starts charging the device to be charged without paying the usage charge (S106). On the other hand, when the carry-over time input in S211 is less than the desired charging time input in S103 (S202: NO), the charge settlement unit 120 pays the charge (differential charge) for the desired charging time exceeding the carry-over time. The user is made to settle the difference charge by using a screen and a voice guide that calculate and prompt payment of the charge (S203). After the adjustment of the difference charge is completed, charging of the device to be charged is started (S106).

9 and 10 show examples of screens displayed on the display device 1041 of the charging control device 10. 9 and 10 are diagrams showing an example of a screen displayed on the display device 1041 in the first modification of the second embodiment.

First, the input receiving unit 110 displays a screen as shown in FIG. 9 on the touch panel 1042A and receives the input of the desired charging time. By pressing each button on the screen illustrated in FIG. 9, the desired charging time is input. Then, the carry-over time acquisition unit 170 displays a screen as shown in FIG. 10 on the touch panel 1042A and receives the input of the amount of use of the carry-over time. The amount of use of the carry-over time is input by pressing each button on the screen illustrated in FIG. 10 or pressing the number key 1042B provided in the charging control device 10. The screens shown in FIGS. 9 and 10 are merely examples, and do not limit the embodiments of the present invention.

As described above, in the first modified example, it is possible to determine the usage amount of the carry-over time stored in the carry-over time storage unit 310. As a result, the user of the charging facility can combine the carry-over time with cash or electronic money to perform more flexible payment.

[Second Modification of Second Embodiment]
In the present modified example, a mode in which the desired charging time can be input based on the carry-over time acquired by the carry-over time acquisition unit 170 will be described. Hereinafter, a specific operation example in this modification will be described with reference to FIGS. 11 and 12.

FIG. 11 is a flowchart showing the flow of processing in the second modification of the second embodiment. This flowchart is executed subsequent to the process of S201 of FIG. The input receiving unit 110 receives the input of the desired charging time (S221). At this time, the input receiving unit 110 can receive an input for determining the desired charging time within the carry-over time range acquired in S201. For example, the input reception unit 110 displays a screen as shown in FIG. 12 and receives an input for determining the desired charging time within the range of the carry-over time acquired in S201. FIG. 12 is a diagram showing an example of a screen displayed on the display device 1041 in the second modification of the second embodiment. As illustrated in FIG. 12, the input receiving unit 110 sets a button for setting all of the carry-over time (here, 110 minutes) acquired in S201 as a desired charging time, and half of the carry-over time acquired in S201 for desired charging. A screen including a button for setting the time and a button for inputting a desired charging time using the numeric keys is displayed on the touch panel 1042. As illustrated in FIG. 12, the screen displayed on touch panel 1042 may include a button for inputting a desired charging time that is equal to or longer than the carry-over time. By pressing each button on the screen illustrated in FIG. 12 or pressing the numeric key 1042B provided in the charging control device 10, the desired charging time is input. Next, the charge settlement unit 120 determines whether or not the desired charging time input in S221 is input within the carry-over time range (S221). In the example of the screen of FIG. 12, when the “all carry-over time” or “half carry-over time” button is selected, or the “manual carry-over time” is selected, the charge settlement unit 120 carries forward with the numeric key 1042B. When the time in the time range is input, it is determined that the desired charging time input in S221 has been input within the carry-over time range.

When it is determined that the desired charging time input in S221 is input within the carry-over time range (S222: YES), there is no additional charge to be paid. Therefore, the charge settlement unit 120 starts charging the device to be charged without paying the usage charge (S106). On the other hand, when it is determined that the desired charging time input in S221 is outside the range of the carry-over time (S222: NO), the charge settlement unit 120 charges the charge for the desired charging time exceeding the carry-over time (different charge). ) Is calculated, and the user is made to settle the difference charge by using a screen or a voice guide prompting payment of the charge (S203). After the adjustment of the difference charge is completed, charging of the device to be charged is started (S106). Note that the screen shown in FIG. 12 is merely an example, and does not limit the embodiments of the present invention.

As described above, in the second modification, it is possible to input the desired charging time within the range of the carry-over time stored in the carry-over time storage unit 310. Thereby, the user of the charging facility can easily select the charging time that does not require the settlement of the differential charge. Also, the user of the charging facility can use up the carry-over time without waste.

[Third Embodiment]
In the present embodiment, a configuration will be described in which the carried time is corrected using various correction coefficients.

[Processing configuration]
FIG. 13 is a diagram conceptually showing the processing configuration of the charging control device 10 in the third embodiment. As shown in FIG. 13, the charging control device 10 of the present embodiment further includes a correction unit 180.

The correction unit 180 corrects the carry-over time acquired by the carry-over time acquisition unit 170 using the coefficient.

<Correction Example 1 by Correction Unit 180>
As an example, the correction unit 180 corrects the carry-over time using the coefficient for each charging capacity of the charger 20 used for charging the electronic device 40. Here, the charging current is different between the rapid charging and the normal charging. In addition, the appropriate charging current may differ for each electronic device to be charged. In this case, the charger 20 is configured to be able to select an appropriate charging current, and the charge per unit time is usually set according to the magnitude of the charging current. In such a case, when the carry-over time managed by the management server 30 is used and the charge capacity of the previous charge is different from the charge capacity of the current charge, the user may suffer the following disadvantages. There is a nature. For example, as a result of charging the electronic device with the charge capacity of the previous rapid charge (charge per unit time is 20.0 yen/min), 1 hour carry-over time occurs, and this time normal charge (charge per unit time Is 2.0 yen/min.) Consider the case of charging an electronic device with a charging capacity of 2.0 yen/min. If the carry-over time of 1 hour is used without any correction, the charge settlement unit 120 handles the current carry-over time as 120 yen (2.0 yen/minute×60 minutes). However, this carry-over time is based on the charge (20.0 yen/minute) per unit time at the time of the previous rapid charging, and is originally 1200 yen (20.0 yen/minute x 60 minutes). It should be converted considerably. In other words, if the carry-over time is not corrected, the user will incur a loss of 1080 yen. In the opposite pattern, the user can earn a profit of 1080 yen.

In order to eliminate this, the correction unit 180 uses, for example, a value (10) obtained by dividing the previous charging capacity (20.0 yen/minute) by the current charging capacity (2.0 yen/minute) as the correction coefficient. calculate. Then, the correction unit 180 corrects the carry-over time to 10 hours (equivalent to 1200 yen at 2.0 yen/minute) by multiplying the carry-over time of 1 hour by this coefficient (10). This makes it possible to eliminate disadvantages that may occur due to differences in charging ability.

In this case, the management server 30 stores the information as shown in FIG. 14 in the carryover time storage unit 310. FIG. 14 is a diagram showing an example of information stored in the management server 30 according to the third embodiment. In the example of FIG. 14, the carry-over time storage unit 310 stores, in addition to the user identification information and the carry-over time, the charging capacity at the time of the previous charge, which is further associated. The carry-over time acquisition unit 170 acquires the previous charging capacity (charge per unit time) together with the carry-over time, and the correction unit 180 calculates the previous charging capacity (charge per unit time) this charging capacity (per unit time). The carry-over time is corrected using a coefficient calculated based on

<Correction Example 2 by Correction Unit 180>
Further, as another example, the correction unit 180 corrects the carry-over time using a coefficient determined for each store. Different charging charges may be set for each store, and in such a case, the user may suffer the following disadvantages when charging the electronic device 40 at different stores. For example, as a result of charging the electronic device at store A (the charge per unit time is 2.5 yen/min) last time, a carry-over time of 1 hour occurs, and this time, store B (the charge per unit time is Consider the case of charging the electronic device at 2.0 yen/minute. If the carry-over time of 1 hour is used without any correction, the charge settlement unit 120 handles the current carry-over time as 120 yen (2.0 yen/minute×60 minutes). However, this carry-over time is based on the charge per unit time of the previous store A (2.5 yen/minute), which is equivalent to 150 yen (2.5 yen/minute x 60 minutes) Should be converted to. In other words, if the carry-over time is not corrected, the user will incur a loss of 30 yen. In the opposite pattern, the user can earn a profit of 30 yen.

In order to eliminate this, the correction unit 180 uses, for example, a correction coefficient set for each store based on a predetermined charge per unit time (for example, 2.5 yen/minute). In this example, the correction coefficient “1” is set in the correction unit 180 of the charging control device 10 provided in the store A, and the correction coefficient “1. 25 (2.5 yen/minute/2.0 yen/minute)" is set. The correction coefficient for each store is not limited to this, and may be set in consideration of various conditions such as the contract system between the store and the power supply company. Then, the correction unit 180 corrects the carry-over time to 1.25 hours (equivalent to 150 yen at 2.0 yen/minute) by multiplying the carry-over time of 1 hour by this coefficient (1.25). This makes it possible to eliminate disadvantages that may occur due to differences in charging ability.

[Hardware configuration]
The charging control device 10 of the present embodiment also has the same hardware configuration as that of the first embodiment, as shown in FIG. The correction unit 180 of the present embodiment is realized by the processor 101 executing the program of the correction unit 180 stored in the storage 103, as in the first embodiment.

As described above, according to the present embodiment, the carry-over time is corrected using various coefficients based on information that determines the value of the carry-over time, such as the charging capacity of the charger 20. As a result, according to the present embodiment, the value of the carry-over time can be treated equally even under different charging conditions.

Although the embodiments of the present invention have been described above with reference to the drawings, these are merely examples of the present invention, and various configurations other than the above may be adopted.

For example, the present invention is not limited to the electronic money settlement illustrated in each of the above-described embodiments, and can be applied to various prepaid payment methods. In addition, for example, a fee according to various rate plans (for example, "monthly fixed rate plan" or "monthly basic rate + pay-as-you-go plan") is deducted from a pre-registered payment account at a predetermined payment date and time, or via the It does not prevent combination of post-payment type operations such as temporarily signing a usage contract by telephone and paying a charge according to the actual charging time at a later date with a credit card.

Although the correction unit 180 has been described in the third embodiment, the correction unit 180 may change the correction coefficient depending on the type of the electronic money card used for settlement, other than the example of the third embodiment. For example, the correction unit 180 uses a coefficient so that the carry-over time acquired by the carry-over time acquisition unit 170 is added when the settlement is performed using electronic money of a group that manages a certain commercial facility. You may make it correct. By doing so, it is possible to increase the possibility that the user will make a payment using a specific card.

Further, in the plurality of flowcharts used in the above description, a plurality of steps (processes) are described in order, but the execution order of the steps executed in each embodiment is not limited to the order described. In each embodiment, the order of the illustrated steps can be changed within a range that does not hinder the contents. Further, the above-described respective embodiments can be combined within a range in which the contents do not conflict.

Hereinafter, an example of the reference mode will be additionally described.
1.
An input receiving means for receiving an input of the charging time desired by the user,
A charge adjusting means for adjusting the charge according to the input charging time before starting charging,
An actual charging time acquisition means for acquiring the actual charging time,
A carry-over time calculating means for calculating a difference between the input charge time and the actual charge time as a carry-over time,
User information acquisition means for acquiring user identification information for identifying the user,
A transmitting unit that transmits the acquired user identification information and the carry-over time in association with each other to an external device,
A charging control device.
2.
Further comprising a carry-over time acquisition means for acquiring a carry-over time associated with the acquired user identification information from the external device,
The charge settlement means,
When the acquired carry-over time is less than the input charging time, the charge is adjusted according to the difference between the input charging time and the acquired carry-over time,
If the acquired carry-over time is equal to or longer than the input charging time, the charge is not settled,
1. The charging control device according to.
3.
The carry-over time calculation means,
If the acquired carry-over time is less than the input charging time, the difference between the input charging time and the actual charging time is calculated as a new carry-over time,
When the acquired carry-over time is equal to or more than the input charging time, the difference between the carry-over time and the actual charging time is calculated as a new carry-over time,
The transmitting means is
The acquired user identification information and the new carryover time are associated with each other and transmitted to the external device,
2. The charging control device according to.
4.
Further comprising a correction means for correcting the carry-over time using a coefficient,
2. Or 3. The charging control device according to.
5.
The correction means corrects the carry-over time using a coefficient for each charging capacity of the charger used for charging,
4. The charging control device according to.
6.
The correction unit corrects the carry-over time using a coefficient determined for each store.
4. Or 5. The charging control device according to.
7.
Computer
Accept the input of charging time desired by the user,
The charge according to the input charging time is performed before charging,
Get the actual charging time,
Calculate the difference between the input charging time and the actual charging time as a carry-over time,
Obtaining user identification information for identifying the user,
The acquired user identification information and the carry-over time are associated and transmitted to an external device,
Charging time carry-over method including that.
8.
The computer is
Acquiring a carry-over time associated with the acquired user identification information from the external device,
When the acquired carry-over time is less than the input charging time, the charge is adjusted according to the difference between the input charging time and the acquired carry-over time,
If the acquired carry-over time is equal to or longer than the input charging time, the charge is not settled,
Including 7. The charging time carryover method described in.
9.
The computer is
If the acquired carry-over time is less than the input charging time, the difference between the input charging time and the actual charging time is calculated as a new carry-over time,
When the acquired carry-over time is equal to or more than the input charging time, the difference between the carry-over time and the actual charging time is calculated as a new carry-over time,
The acquired user identification information and the new carryover time are associated with each other and transmitted to the external device,
Including 8. The charging time carryover method described in.
10.
The computer corrects the carry-over time using a coefficient,
Including 8. Or 9. The charging time carryover method described in.
11.
The computer corrects the carry-over time using a coefficient for each charging capacity of a charger used for charging.
Including 10. The charging time carryover method described in.
12.
The computer corrects the carry-over time using a coefficient determined for each store.
Including 10. Or 11. The charging time carryover method described in.
13.
Computer,
An input receiving means for receiving the input of the charging time desired by the user,
A charge adjusting means for adjusting the charge according to the input charging time before starting charging,
An actual charging time acquisition means for acquiring the actual charging time,
Carrying time calculation means for calculating the difference between the input charging time and the actual charging time as a carryover time,
User information acquisition means for acquiring user identification information for identifying the user,
Transmitting means for associating the acquired user identification information and the carry-over time with each other and transmitting them to an external device,
Program to function as.
14.
The computer,
A carry-over time acquiring means for acquiring a carry-over time associated with the acquired user identification information from the external device,
If the acquired carry-over time is less than the input charging time, means for adjusting the charge according to the difference between the input charging time and the acquired carry-over time,
If the acquired carry-over time is greater than or equal to the input charging time, means for not performing charge settlement
For further functioning as 13. The program described in.
15.
The computer,
If the acquired carry-over time is less than the input charging time, means for calculating a difference between the input charging time and the actual charging time as a new carry-over time,
If the acquired carry-over time is equal to or more than the input charging time, a means for calculating a difference between the carry-over time and the actual charging time as a new carry-over time,
Means for associating the acquired user identification information with the new carry-over time and transmitting it to the external device,
For further functioning as 14. The program described in.
16.
The computer,
Correction means for correcting the carry-over time using a coefficient,
For further functioning as 14. Or 15. The charging control device according to.
17.
A means for correcting the carry-over time by using a coefficient for each charging capacity of a charger used for charging the computer;
To function as 16. The program described in.
18.
The computer, means for correcting the carry-over time using a coefficient determined for each store,
To function as 16. Or 17. The program described in.

This application claims the priority on the basis of Japanese application Japanese Patent Application No. 2015-195452 for which it applied on September 30, 2015, and takes in those the indications of all here.

Claims (8)

An input receiving means for receiving an input of the charging time desired by the user,
A charge adjusting means for adjusting the charge according to the input charging time before starting charging,
An actual charging time acquisition means for acquiring the actual charging time,
A carry-over time calculating means for calculating a difference between the input charge time and the actual charge time as a carry-over time,
User information acquisition means for acquiring user identification information for identifying the user,
A transmitting unit that transmits the acquired user identification information and the carry-over time in association with each other to an external device,
A charging control device. Further comprising a carry-over time acquisition means for acquiring a carry-over time associated with the acquired user identification information from the external device,
The charge settlement means,
When the acquired carry-over time is less than the input charging time, the charge is adjusted according to the difference between the input charging time and the acquired carry-over time,
If the acquired carry-over time is equal to or longer than the input charging time, the charge is not settled,
The charge control device according to claim 1. The carry-over time calculation means,
If the acquired carry-over time is less than the input charging time, the difference between the input charging time and the actual charging time is calculated as a new carry-over time,
When the acquired carry-over time is equal to or more than the input charging time, the difference between the carry-over time and the actual charging time is calculated as a new carry-over time,
The transmitting means is
The acquired user identification information and the new carryover time are associated with each other and transmitted to the external device,
The charge control device according to claim 2. Further comprising a correction means for correcting the carry-over time using a coefficient,
The charge control device according to claim 2. The correction means corrects the carry-over time using a coefficient for each charging capacity of the charger used for charging,
The charge control device according to claim 4. The correction unit corrects the carry-over time using a coefficient determined for each store.
The charge control device according to claim 4 or 5. Computer
Accept the input of charging time desired by the user,
The charge according to the input charging time is performed before charging,
Get the actual charging time,
Calculate the difference between the input charging time and the actual charging time as a carry-over time,
Obtaining user identification information for identifying the user,
The acquired user identification information and the carry-over time are associated and transmitted to an external device,
Charging time carry-over method including that. Computer,
An input receiving means for receiving the input of the charging time desired by the user,
A charge adjusting means for adjusting the charge according to the input charging time before starting charging,
An actual charging time acquisition means for acquiring the actual charging time,
Carrying time calculation means for calculating the difference between the input charging time and the actual charging time as a carryover time,
User information acquisition means for acquiring user identification information for identifying the user,
Transmitting means for associating the acquired user identification information and the carry-over time with each other and transmitting them to an external device,
Program to function as.

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