JP2018067089A - Power feeding system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress consumption of stored power and prevent an electronic apparatus and a mobile device from not operating or moving.SOLUTION: A power feeding system comprises: a first acquisition part 35 acquiring power feeding request data from a data carrier 41; a switch 34 switching between feeding and stopping of power from a power feeding part 33 to a connector 32; and a signal processing circuit 143 in which the power feeding request data is input from the first acquisition part 35. The signal processing circuit 143 supplies, in a free of charge feed mode, power without charging before brought into a prescribed state. After being brought into the prescribed state, the switch 34 stops supply of the power. On the other hand, in a charged feed mode a billing amount is calculated based on the supplied power. Further, the signal processing circuit operates in the charged feed mode when an apparatus ID is included in the power feeding request data. This allows power only for temporarily operating an electronic apparatus and a mobile device to be supplied to the power supply part without installing a first communication device.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a power supply system installed in a store or the like.

  Hereinafter, a conventional power supply system will be described. A conventional power supply system includes an electronic device and a power supply system. The power supply system includes a power supply facility and a cable. The electronic device may be mounted on a mobile device such as an electric vehicle. The electronic device includes a power supply unit and a transmission unit. The power supply unit includes a secondary power source. And an electronic device and a mobile device are driven with the electric power from a power supply part. On the other hand, the power supply facility includes a power supply unit and a reception unit. The power supply unit and the power supply unit are electrically connected by a cable. And the electric power output from the electric power feeding part is supplied to the power supply part via the cable. Further, the transmission unit and the reception unit communicate via a cable. Then, the transmission unit transmits user information and the like to the reception unit. With this configuration, the power supply facility permits the supply of power from the power supply unit to the power supply unit when the user information is authenticated by the reception unit. Furthermore, the power supply facility charges according to the amount of power supplied. Is included.

  As prior art document information related to the invention of this application, for example, Patent Document 1 is known.

JP 2006-262570 A

  However, in the conventional power supply system, when the electronic device or the mobile device does not have a transmission function, power cannot be supplied to the power supply unit. That is, such an electronic device cannot be charged unless it is a power supply facility that can be charged without authentication, such as a home or a free charge stand.

  The power supply system of the present invention includes a data carrier, a cable, a first acquisition unit, a connector, a power supply unit, a switch, and a signal processing circuit. The data carrier has power supply request data including a device ID. The first acquisition unit acquires power supply request data from the data carrier. The power feeding unit supplies power to the connector. The cable electrically connects the connector and the power feeding unit. The switch is provided between the power feeding unit and the connector. The switch switches between supply and stop of power from the power feeding unit to the connector. The power supply request data is input from the first acquisition unit to the signal processing circuit. The signal processing circuit stores a device ID. The signal processing circuit operates in the free power supply mode and the pay power supply mode. Note that the signal processing circuit supplies power without charging until it reaches a specified state in the free power supply mode. Further, the signal processing circuit stops the supply of electric power with the switch after the specified state is reached. The signal processing circuit operates in the paid power supply mode when it is determined that the power supply request data includes the device ID. The signal processing circuit calculates a charge amount based on the supply of power in the pay power supply mode. With this configuration, the initial purpose can be achieved.

  The power supply system according to the present invention operates in the pay power supply mode and the free power supply mode. In the free power supply mode, even if the electronic device or the mobile device does not have a communication function, at least power sufficient to temporarily operate the electronic device or the mobile device can be supplied to the power supply unit. As a result, it is possible to suppress consumption of the electric power stored in the secondary battery before the user arrives at the power supply facility that can be charged without authentication. In other words, it is possible to suppress the operation of the electronic device and the movement of the mobile device by using up the stored power.

Schematic diagram of power supply system in an embodiment of the present invention Schematic diagram of mobile device 12 equipped with an electronic device according to an embodiment of the present invention Conceptual diagram of a communication device in an embodiment of the present invention Conceptual diagram of a communication device in a state where the communication device of the embodiment of the present invention is mounted on a cable The circuit block diagram of the communication apparatus of the state which mounted | wore the cable with the communication apparatus of embodiment of this invention Side view of a communication device according to an embodiment of the present invention Side view of a communication device according to an embodiment of the present invention The conceptual diagram of the communication apparatus of the state which opened the case in embodiment of this invention

  Hereinafter, embodiments of a power feeding system and the like will be described with reference to the drawings. In addition, since the component which attached | subjected the same code | symbol in embodiment performs the same operation | movement, it may abbreviate | omit description again. Prior to the description of the power supply system and the like of the present embodiment, a description will be given of a demand for a recent electronic device that operates by charging, a charging facility for charging the electronic device, and the like. The electronic device includes a power supply unit. That is, the electronic device operates with electric power supplied from the power supply unit. Further, the power supply unit is charged from the outside. For this purpose, the power supply unit includes a secondary battery and the like. Hereinafter, an automobile will be described as an example of an electronic device.

  In recent years, electric vehicles driven by motors, plug-in hybrid cars (hereinafter referred to as EV cars), and the like have appeared in order to promote global environmental protection. These automobiles run on electric power charged in a rechargeable battery. In addition, these EV cars can charge a charging battery from the exterior of an EV car.

  Therefore, in recent years, power supply facilities for charging and charging these EV vehicles have been installed. In general, when an electric vehicle is charged by a power feeding device, for example, the following method is used to charge and collect a fee. As an example, an authentication card or the like issued by the administrator of the power supply apparatus to the contractor is authenticated by the power supply apparatus, so that a charge is collected from the contractor by charging according to the amount of charge.

  For this reason, the introduction of a power feeding system that can charge according to the amount of charge or collect a fee by communication between the EV car and the power feeding device is being studied. However, existing EV vehicles (hereinafter referred to as existing vehicles), existing power supply devices and general household power lines (hereinafter referred to as existing facilities) do not have such a communication function. Therefore, when such functions are to be added to these existing vehicles and existing facilities, it is necessary to add a communication system or the like later. However, these existing vehicles and existing equipment do not consider adding a communication function in advance.

On the other hand, the number of EV cars that are excellent in terms of the environment is expected to increase in the future. Therefore, with the increase in EV cars, it is desired that anyone can easily charge anywhere. For this purpose, it is necessary that such charging facilities are provided as a social infrastructure and installed in large numbers like a gas station. However, since the number of EV cars is still small at present, it is difficult to recover the equipment cost with the charge even if a large-scale power supply facility that collects the charge and the charge is installed as described above. On the other hand, if the power supply device does not collect a fee, the facility cost can be relatively suppressed. In this case, complicated authentication as described above is unnecessary, and introduction of a charging system is also unnecessary. However, if EV cars increase in the future, it will be difficult to continue such free charge. Therefore, it is considered that power supply that does not require authentication in the future is limited to a method of using a power line installed at the user's home as a power supply facility.

  In this way, it is undesirable for the user that free charging is limited to homes and that charging cannot be performed by a power supply apparatus other than the contracted company. Therefore, it is desired that the battery can be easily charged at a place other than the home or a charging facility that is not contracted. Therefore, the present application is not limited to EV vehicles and portable communication systems that are designed in advance so that such communication functions can be installed, but to existing vehicles, existing facilities, and existing electronic devices that do not have communication functions. The aim is to be able to easily add a communication function. In addition, the company aims to increase the number of power supply facilities at an early stage by controlling the introduction cost when introducing a power supply system and enabling it to be easily installed in small stores such as convenience stores and private stores.

  Hereinafter, the power supply system will be described with reference to the drawings.

(Embodiment 1)
FIG. 1 is a conceptual diagram of the power feeding system 11. Hereinafter, the power supply system 11 will be described with reference to FIG. The power supply system 11 includes an electronic device 21 and a power supply system 15.

  First, the electronic device 21 charged by the power supply system 15 will be described. The electronic device 21 includes a connector 22, a power supply unit 23, and a cable 42A. The connector 22 and the power supply unit 23 are electrically connected by a cable 42A. The power supply unit 23 includes a secondary battery. That is, the power supply unit 23 charges the power supply unit 23 by supplying the power supplied to the connector 22 to the power supply unit 23 via the cable 42A. The electronic device 21 is driven by the power from the power supply unit 23.

  The power supply system 15 includes a power supply device 31, a connector 32, a data carrier 41, and a signal processing circuit 143. In addition, the electric power feeder 31 is provided with the electric power feeding part 33, the switch 34, the 1st acquisition part 35, and the cable 42B. The power feeding unit 33 supplies power to the connector 32. The switch 34 is provided between the power feeding unit 33 and the connector 32. The switch 34 switches between supply and stop of power from the power supply unit 33 to the connector 32. The data carrier 41 has power supply request data including a device ID. The first acquisition unit 35 acquires power supply request data from the data carrier 41. The power supply request data is input from the first acquisition unit 35 to the signal processing circuit 143.

  Then, by connecting the connector 22 and the connector 32, the cable 42A and the cable 42B are electrically connected. That is, the power supply unit 23 and the power supply unit 33 are electrically connected by the cable 42 (a general term for the cable 42A and the cable 42B). Therefore, the power output from the power supply unit 33 can be supplied to the power supply unit 23. That is, the cable 42 constitutes a power supply path from the power supply unit 33 to the power supply unit 23.

The signal processing circuit 143 operates in the free power supply mode and the pay power supply mode. In the free power supply mode, power is supplied without charging until the specified state is reached. And after it will be in a regulation state, supply of electric power is stopped with switch 34. The prescribed state is, for example, a state where the time from the start of power supply has become a prescribed time, or a case where the power supply amount has become a prescribed amount. The signal processing circuit 143 operates in the paid power supply mode when it is determined that the device ID is included in the power supply request data. Note that the signal processing circuit 143 calculates a charge amount based on the supply of power in the paid power supply mode.

  With the above configuration, authentication work or the like is not required in the free power supply mode. Therefore, even if the electronic device 21 does not have a communication function, the electronic device 21 is turned off by power supply to the power supply unit 23. In addition, since the signal processing circuit 143 stops the power supply after being in a specified state, the signal processing circuit 143 can supply power sufficient to temporarily operate. As a result, it is possible to suppress the occurrence of exhausting the electric power stored in the secondary battery. That is, it is possible to prevent the electronic device 21 from operating or moving.

  Next, the operation of the power supply system 15 configured as described above and the flow when power is supplied using the power supply system 15 will be described. Customer X connects connector 32 with connector 22. As a result, the power supply apparatus 31 starts to supply power to the electronic device 21 in the free power supply mode. In addition, it is preferable that the electric power feeder 31 contains the operation part (not shown) for starting electric power feeding. In this case, the customer X opens the switch 34 by operating the operation unit. And the electric power feeder 31 starts electric power feeding in free electric power feeding mode. The power supply device 31 that does not have an operation unit may be configured to start power supply in the free power supply mode to the electronic device 21 by connecting the connector 22 and the connector 32. Then, after starting the power supply in this way, the power supply device 31 ends the power supply in the free mode when the specified state is reached. Then, the customer X makes a purchase in the store 13 and waits for completion of power supply to the electronic device 21.

  Next, power supply in the pay power supply mode will be described. That is, when the customer X wants to charge the electronic device 21 to a specified state or higher, the customer X supplies power in the pay power supply mode. In this case, the power supply device 31 may supply power to the electronic device 21 in the free power supply mode until the specified state is reached. In this case, the power supply device 31 switches from the free power supply mode to the pay power supply mode after entering the specified state. Alternatively, the power supply device 31 may switch the power supply mode from the free power supply mode to the paid power supply mode as soon as the following procedure is completed.

  If the customer X wants to supply power in the paid power supply mode, the customer X can operate the power supply apparatus 31 in the paid power supply mode by the data carrier 41. For this purpose, the customer X obtains the data carrier 41 by requesting the salesperson Y or operating the terminal itself. At this time, the device ID is stored in the signal processing circuit 143 by the operation of the customer X or the salesperson Y. In this way, the customer X who has acquired the data carrier 41 causes the first acquisition unit 35 to acquire power supply request data from the data carrier 41. When the signal processing circuit 143 determines that the power supply request data includes the device ID, the signal processing circuit 143 operates in the pay power supply mode.

In this case, when the signal processing circuit 143 determines that the device ID is included in the power supply request data, if it is before entering the specified state, the signal processing circuit 143 supplies power in the free power supply mode until the specified state is reached. After that, it is preferable to switch to the paid power supply mode. With this configuration, the customer X who supplies power for a fee can also receive a free power supply service. Alternatively, even if the signal processing circuit 143 determines that the device ID is included in the power supply request data before the specified state, the power supply may be performed in the pay power supply mode after the determination. In this case, when the signal processing circuit 143 determines that the power supply request data includes the device ID, the signal processing circuit 143 calculates the charge amount by subtracting the charge required until the power supply request data reaches the specified state from the calculated charge. You may do it. Further, the customer X may be allowed to select which of the above states to switch. Further, the signal processing circuit 143 may determine that the power supply request data includes the device ID before the free power supply starts. Also in this case, the billing amount is calculated by any one of the above methods.

  Hereinafter, the specific configuration of the power supply system 15 will be described in more detail. FIG. 2 is a conceptual diagram of the mobile device 12 on which the electronic device 21 is mounted. Hereinafter, an example in which the electronic device 21 is mounted on the mobile device 12 will be described with reference to FIG. In this case, the mobile device 12 is driven by the power of the power supply unit 23. The mobile device 12 is an automobile such as an electric car or a plug-in hybrid car. The mobile device 12 is not limited to an automobile, and may be a multicopter type small unmanned aircraft, a ship, a bicycle, a motorcycle, various construction machines, various transport machines, or the like.

  The mobile device 12 includes a body 121, a drive unit 122, and an electronic device 21. The drive unit 122 and the electronic device 21 are mounted on the body 121. The drive unit 122 includes a motor. The power supply unit 23 includes, for example, a charging circuit and a secondary battery. The mobile device 12 is driven by operating a motor with electric power supplied from the secondary battery. The drive unit 122 may include a speed change mechanism, a propulsion unit such as a tire, a steering mechanism such as a steering wheel, and the like. Further, the drive unit 122 may include an engine. Moreover, the mobile device 12 does not need to be driven only by a motor, and may include a state where it is driven by other power including human power.

  The power supply system 15 is preferably installed in the store 13. The store 13 is, for example, a small store such as a convenience store or a privately managed retail store. The store 13 includes a store building 132 and a parking lot 162 where the mobile device 12 is parked. For the manager of such a small store, by allowing the mobile device 12 to be charged at the parking lot 162, it is possible to expect an increase in new customer visit opportunities for the purpose of charging. However, the number of cars that can be parked in the parking lot 162 of the store 13 is small. In addition, the time required for a customer to purchase a product or the like is relatively short. On the other hand, it takes a long time to fill the secondary battery of the mobile device 12. Therefore, when only customers who intend to charge the mobile device 12 visit the store, there is a possibility that a customer who wants to purchase an important product or the like cannot park the mobile device 12 in the parking lot 162. As a result, there is a possibility that a customer who wants to purchase a product will lose the opportunity to visit the store and the sales of the product will decrease. Therefore, it is possible to achieve both an increase in customer visit opportunities (desired) for the purpose of charging the electronic device 21 and the mobile device 12 shown in FIG. 1 and not impairing the customer visit opportunities for purchasing products and the like. A power supply system 15 is desired.

  In addition, such small stores have less financial power than large stores such as supermarkets. Therefore, it is difficult to introduce a power supply system that requires a large construction cost into a small-scale store. That is, in order to collect the charge for charging the electronic device 21 shown in FIG. 1, it is not possible to install a device that automatically settles and pays cash. Therefore, it is desirable that part or all of the existing equipment can be used as part of the power supply system 15. And the electric power supply system 15 of this application aims at enabling it to respond to such a desire.

  As shown in FIG. 2, the connector 32 is preferably disposed outside the store building 132. In this case, a part or all of the power feeding device 31 illustrated in FIG. 1 is installed outside the store building 132. Further, the connector 22 is not limited to the configuration arranged outside the store building 132, and may be installed on the wall 1611 facing the outside of the store building 132. A part or all of the power feeding device 31 may be installed in the store building 132 or in the wall 1611 of the store building 132. When the power supply system 15 is used for charging the portable electronic device 21 or the like, the connector 32 and the power feeding device 31 may be provided in the store building 132.

  The cable 42B includes an internal cable 423A and an external cable 423B. The internal cable 423A is accommodated in the power feeding device 31. On the other hand, the external cable 423B is a portion of the cable 42B that extends from the power feeding device 31 to the outside. The internal cable 423A and the external cable 423B may be connected via the connector 36A and the connector 36B. The internal cable 423A and the external cable 423B are connected by the connector 36A and the connector 36B, but are not limited to this configuration, and may be directly connected as appropriate.

  In this case, the power feeding device 31 preferably includes a lock portion (not shown). The lock portion prevents the connector 36B from being detached from the connector 36A. Note that the lock unit preferably locks the connector 36 </ b> B before starting the power supply from the power supply unit 33. In this case, the power feeding device 31 preferably detects the lock of the connector 36B. When the power feeding device 31 detects that the connector 36B is locked, the power feeding unit 33 starts power feeding. Furthermore, it is preferable that the lock portion is released from the connector 36 </ b> B after finishing the power supply of the power supply portion 33. With this configuration, it is possible to suppress the occurrence of the connector 36B being disconnected from the connector 36A during power feeding or the removal of the connector 36B by someone intentionally or accidentally during power feeding. Furthermore, it is possible to suppress the occurrence of acts such as the customer X removing the connector 36B and leaving during power supply in the pay mode.

  Further, in the pay mode, the lock unit is preferably released after the settlement. In the case of K, a signal indicating that payment processing has been completed at a POS terminal 141 described later is supplied to the lock unit. With this configuration, it is possible to suppress the occurrence of an action such as leaving the customer X without paying a fee when the customer X supplies power in the pay mode. Further, when the data carrier 41 is a loan from a store, the salesperson Y can collect the data carrier 41 from the customer X when the fee is settled. Therefore, the occurrence of the customer X taking back the data carrier 41 can be suppressed.

  The lock unit may be configured to lock both the data carrier 41 and the connector 36B. In this case, the lock part releases the lock of the data carrier 41 after the completion of the power supply. In this state, the lock portion maintains the lock of the connector 36B. When the data carrier 41 is returned to the salesperson Y and the payment of the power supply fee is completed, the lock unit opens the connector 36B. With this configuration, it is possible to suppress the occurrence of the customer X leaving without paying the fee when the power is supplied in the pay mode. The locking unit is not limited to the configuration for locking the connector 36B, and may be configured to lock the data carrier 41 instead of the connector 36B.

  In recent years, the POS system 14 and the POS terminal 141 have been introduced in many small stores. The power supply system 15 includes a point-of-sale information management system (hereinafter referred to as a POS system 14). Further, the POS system 14 preferably includes a POS terminal 141. That is, a part of the existing POS system 14 or the POS terminal 141 can be used as a part of the power supply system 15. Therefore, the amount of capital investment when introducing the power supply system 15 into the store 13 can be suppressed.

  The POS system 14 includes a signal processing circuit 143. The signal processing circuit 143 is a server installed in the store building 132, for example. The signal processing circuit 143 is not limited to the configuration installed in the store building 132, and may be a server installed away from the store 13, such as a management company that manages the store 13. Furthermore, the signal processing circuit 143 is not limited to a server, and may be a personal computer. Further, the signal processing circuit 143 may be provided in the POS terminal 141. Alternatively, the signal processing circuit 143 may be provided in the power feeding device 31.

The POS terminal 141 is installed in the store building 132. Then, the POS terminal 141
Is operated by a salesperson Y of the store 13 or the like. For this purpose, the POS terminal 141 is installed at a fee payment counter in the store 13. The POS terminal 141 includes a register unit 1411, a display 1412, and the like. That is, the register unit 1411 has a function related to payment for purchase of goods. The display 1412 displays the price of the product purchased by the customer X at the store 13, the charge amount for charging, and the total amount thereof. With this configuration, the customer X can pay the salesperson Y the charge for charging the electronic device 21 and the mobile device 12 at the charge payment counter in the store 13. Therefore, when the customer purchases goods other than charging at the store 13, the customer can pay for the goods and the charging fee at the same time.

  The register unit 1411 includes a part for paying the price of the product with cash. For this purpose, the register unit 1411 includes a touch panel, a cash storage, a currency identification device, and the like. Therefore, the power supply fee can be settled with cash at the POS terminal 141 existing in the store 13. As a result, the power supply system 15 can perform cash settlement without installing an automatic cash payment apparatus. Furthermore, the register unit 1411 includes an IC card reader such as a credit card. Therefore, the customer X can also pay the power supply fee with the card. Further, the power supply system 15 can collect charges without newly introducing such a card approval system. The power supply system 15 may include an automatic cash payment apparatus or a card approval system dedicated to the power supply system 15.

  The POS system 14 may further include an information communication terminal 142 such as a multimedia station. In this case, the customer X can also operate the information communication terminal 142 to pay the charging fee. For example, the charging fee can be paid by causing the information communication terminal 142 to recognize a credit card or the like.

  If the information communication terminal 142 is installed outdoors, it is possible to collect a power charge even after the store 13 is closed. In this case, it is useful for stores that are not open 24 hours, such as convenience stores. During the opening of the store 13, the salesperson Y can confirm the customer X of free charge, and therefore, repeated charging in the free power supply mode by the same person can be prevented. However, after the store 13 is opened, the salesperson Y is absent and the customer X for free charge cannot be confirmed. Therefore, in order to prevent repeated charging in the free power supply mode by the same person, it is preferable to operate only in the pay power supply mode after the store 13 is opened.

  Next, the device ID of the data carrier 41 will be described. The data carrier 41 is preferably given a unique device ID in advance. The device ID is not limited to the configuration given in advance to the data carrier 41, and may be a configuration stored in advance in the signal processing circuit 143. In this case, an ID code stored in advance in the signal processing circuit 143 is given to the data carrier 41.

  The POS system 14 preferably further includes a second acquisition unit 1413. In this case, by the operation of the salesperson Y, the second acquisition unit 1413 acquires the ID code of the data carrier 41. Note that the POS terminal 141 may include the second acquisition unit 1413. In addition, the signal processing circuit 143 includes a storage unit 1431. Then, the signal processing circuit 143 writes the device ID acquired by the second acquisition unit 1413 into the storage unit 1431. With these configurations, the signal processing circuit 143 can determine whether or not the power supply request data includes a device ID.

When the salesperson Y accepts that the customer X wants to supply power for a fee, the salesperson Y passes the data carrier 41 to the customer X. At this time, the salesperson Y operates the POS terminal 141. For this purpose, for example, the salesperson Y presses a display button for paid power supply displayed on the display 1412. By this operation, the fact that the data carrier 41 is to be delivered to the customer X (to be charged for a fee) is input to the signal processing circuit 143 as a charging power supply signal. Alternatively, the signal processing circuit 143 may store the device ID and the charging power supply signal in association with each other by operating the information communication terminal 142 of the customer X. For this purpose, for example, the customer X presses a display such as paid power supply on the touch panel of the information communication terminal 142. By this operation, the fact that charging is charged is input to the signal processing circuit 143 as a charging power supply signal. That is, by storing the device ID and the charging power supply signal in association with each other, the signal processing circuit 143 determines that the data carrier 41 is rented (powered in the pay mode), and rents the signal (power supply). The middle signal is stored in association with the ID code.

  With the above-described configuration, the signal processing circuit 143 can detect that it is desired to pay power. Therefore, the signal processing circuit 143 can store the device ID and the charging power supply signal in association with each other. As a result, the signal processing circuit 143 can determine whether or not the device ID stored in the storage unit 1431 is associated with the charging power supply signal. When the signal processing circuit 143 determines that the charging power supply signal is associated with the device ID, the signal processing circuit 143 calculates the charging amount based on the supply of power.

  Then, the customer X passes the data carrier 41 to the salesperson Y for payment of the power supply fee. When the salesperson Y confirms the return of the data carrier 41 from the customer X, the salesperson Y operates the register unit 1411 to perform a settlement process. The salesperson Y instructs the signal processing circuit 143 to confirm the amount of power supply through this operation. At this time, the salesperson Y inputs the device ID of the data carrier 41 to the signal processing circuit 143 again. As a result, the signal processing circuit 143 determines the amount of power supply and outputs the determined charge amount to the display unit 1412. At this time, the signal processing circuit 143 resets the lending signal stored in the storage unit 1431 and changes it to a signal indicating that it has been returned.

  When the depositing process is completed by the register unit 1411, a signal indicating the completion of depositing is output from the POS terminal 141 to the signal processing circuit 143. Thereby, the signal processing circuit 143 can detect the completion of the deposit process. Then, the signal processing circuit 143 resets the charging power supply signal. At this time, the signal processing circuit 143 may delete the device ID.

  The device ID is, for example, a barcode. The device ID may be a two-dimensional barcode. Hereinafter, a case where the device ID is a barcode will be described. The data carrier 41 may be configured to include a barcode on which a device ID is printed. In this case, the data carrier 41 can be configured by sticking a paper or the like on which a barcode is printed to a mount, a resin card, an outer surface portion of a casing of the communication device 51 described later, or the like. The data carrier 41 may be directly printed on a mount, a resin card, or a communication device 51 described later. The data carrier 41 may be the paper itself on which a barcode is printed.

The POS terminal 141 has a printer for printing receipts and the like. Therefore, the salesperson Y can issue the data carrier 41 by operating the touch panel or the like and printing the ID code as a barcode on paper with a printer. The information communication terminal 142 also has a printer. Therefore, the customer X who wants to supply power for a fee may operate the information communication terminal 142 and request the issuance of the data carrier 41 by himself. In this case, the customer X issues the data carrier 41 by operating the information communication terminal 142 and printing the ID code stored in the signal processing circuit 143 as a barcode. As described above, the data carrier 41 can be issued by the printer of the POS terminal 141 or the information communication terminal 142. In this case, the signal processing circuit 143 can also store the device ID and the charging power supply signal in a memory or the like in association with the operation of issuing the data carrier 41 of the store clerk X or the customer X. With this configuration, the device ID and the charging power supply signal can be associated without using the second acquisition unit 1413.

  Further, the device ID may be stored as barcode data in a mobile communication terminal (not shown) such as a mobile phone or a smartphone. That is, these communication terminals are used as the data carrier 41. In this case, the customer X who desires charging transmits a signal requesting that power is supplied to the power supply system 11 from the communication terminal. The signal requesting that power supply is desired may be a charging power supply signal. Thus, the power supply system 11 may be configured to transmit barcode data including the device ID and the charging power supply signal to the mobile terminal. In this case, the mobile communication terminal displays the received barcode data as a barcode on the screen.

  When the ID code is a printed barcode, it is preferable that the charging power supply signal is printed as a barcode together with the ID code. Furthermore, when the ID code is barcode data, the charging power supply signal is also preferably barcode data. Also in this case, the first acquisition unit 35 can acquire the charging power supply signal and the ID code from the data carrier 41 as power supply request data.

  When the ID code is a bar code printed or displayed on the screen of the mobile communication terminal, the second acquisition unit 1413 is preferably a bar code reader 144. The POS terminal 141 generally has a bar code reader 144 for reading bar codes of products. Therefore, the second acquisition unit 1413 can use an existing barcode reader 144 in the POS terminal 141. With this configuration, the amount of capital investment can be suppressed. In this case, the salesperson Y may input the device ID from the register unit 1411 or the barcode reader 144. Further, the salesperson Y may operate the register unit 1411 and the like to input to the signal processing circuit 143 that power is supplied in the pay power supply mode, and associate the device ID with the charge power supply signal.

  When the ID code is a barcode, the first acquisition unit 35 is also a barcode reader. In this case, the customer X holds the data carrier 41 over the first acquisition unit 35. Thereby, the first acquisition unit 35 can acquire power supply request data. The first acquisition unit 35 is preferably installed in the power supply apparatus 31. The first acquisition unit 35 is not limited to the configuration arranged in the power supply apparatus 31, and is installed outside the power supply apparatus 31. May be. In this case, the first acquisition unit 35 may use a barcode reader 144. The customer X shows the bar code to the salesperson Y after connecting the electronic device 21 to the power feeding device 31. As a result, the salesperson Y inputs power supply request data from the barcode reader 144 already installed in the POS terminal 141 to the signal processing circuit 143.

  The device ID of the data carrier 41 is not limited to a barcode but may be electronic data. In this case, the device ID is stored in the memory of the data carrier 41. For example, in the case of the data carrier 41, an ID signal output unit 57 described later shown in FIG. In this case, the data carrier 41 is a communication device 51C. The first acquisition unit 35 includes a communication device 51B. Then, the communication device 51C transmits power supply request data to the communication device 51B by wire or wireless.

Furthermore, the POS terminal 141 preferably includes a communication device 51D. In this case, it is preferable that the communication device 51D also serves as the second acquisition unit 1413. That is, the communication device 51D communicates with the communication device 51C and acquires the device ID from the data carrier 41. Note that the communication device 51D may be configured to transmit the charging power supply signal to the communication device 51C. In this case, the communication device 51C receives the charging power supply signal and transmits the device ID and the charging power supply signal to the communication device 51B as power supply request data. Therefore, since the power supply request data includes the device ID and the charging power supply signal, the device ID and the charging power supply signal are associated with each other. The charging power supply signal is input to the signal processing circuit 143 via the first acquisition unit 35. Therefore, the signal processing circuit 143 can detect that the device ID and the charging power supply signal are associated with each other by inputting the power supply request data. Note that the signal processing circuit 143 may perform authentication by comparing the device ID, the charging power supply signal, and the power supply request data stored in the storage unit 1431.

  Further, the communication device 51D may transmit the device ID to the communication device 51C. In this case, the data carrier 41 stores the received device ID in the memory of the ID signal output unit 57 shown in FIG.

  The first acquisition unit 35 and the data carrier 41 may be configured to communicate directly by radio. The communication device 51C and the communication device 51B may communicate with each other by, for example, a wireless LAN or near field communication. In this case, the data carrier 41 may be a so-called RFID. The data carrier 41 may be a general-purpose mobile communication terminal such as a mobile phone, a smartphone, or a tablet terminal. Note that the communication device 51D and the communication device 51C also preferably communicate wirelessly. In this case, the data carrier 41 intermittently transmits power supply request data to the first acquisition unit 35. Then, when the data carrier 41 enters the range of the specified distance from the first acquisition unit 35, communication is started between the data carrier 41 and the first acquisition unit 35.

  In this case, it is preferable to include the antenna 111 at the entrance / exit 133 of the store 13. Furthermore, the power feeding system 11 preferably includes a warning unit 112. In this case, the antenna 111 receives the signal of the communication device 51C and outputs it to the signal processing circuit 143. At this time, the signal processing circuit 143 can detect that the payment has not been completed by detecting the charging power supply signal in the storage unit 1431. That is, the signal processing circuit 143 can detect that the customer X accidentally takes out the data carrier 41 or leaves the store 13 before payment. When the signal processing circuit 143 detects such a state, the warning unit 112 is activated to alert the customer X. The warning unit 112 warns the customer X with sound or light, for example.

  The communication device 51C and the communication device 51B and the communication device 51C and the communication device 51D are not limited to wireless connection, and may be connected by wire. The first acquisition unit 35 and the data carrier 41 may be connected by another cable (not shown) different from the cable 42. In this case, the data carrier 41 and the first acquisition unit 35 can transmit power supply request data to the first acquisition unit 35 via a connector such as a USB, for example. In this case, the first acquisition unit 35 can acquire the power supply request data from the data carrier 41 by connecting the data carrier 41 to the first acquisition unit 35.

  Alternatively, the communication device 51 (generic name from the communication device 51 </ b> A to the communication device 51 </ b> D) may transmit power supply request data to the first acquisition unit 35 via the cable 42. The cable 42 includes a signal transmission medium 421 and an insulating layer 422. Note that the insulating layer 422 covers the periphery of the signal transmission medium 421. The signal transmission medium 421 is a core wire of the cable 42. In this case, it is preferable that the communication device 51 is configured to transmit power supply request data to the first acquisition unit 35 in a state of being galvanically insulated from the signal transmission medium 421. With this configuration, the data carrier 41 can be easily attached to and detached from the cable 42. That is, the communication device 51 is attached to the insulating layer 422. The communication device 51 transmits a transmission signal to the signal transmission medium 421 through the insulating layer 422. Alternatively, the communication device 51 receives a reception signal from the signal transmission medium 421 via the insulating layer 422. In this case, the communication device 51 can receive the power supply request data via the signal transmission medium 421. In this case, the core wire of the cable 42 is a power supply wire and constitutes the signal transmission medium 421.

The data carrier 41 (communication device 51C) and the communication device 51B are attached to the cable 42B. The communication device 51B is preferably attached to the internal cable 423A. On the other hand, the communication device 51C is attached to the external cable 423B. However, the communication device 51 </ b> C is mounted between the communication device 51 </ b> B and the connector 32. In this case, the communication device 51 </ b> B is accommodated in the power feeding device 31. With this configuration, the communication device 51B can be prevented from being stolen or destroyed. The communication device 51B is not limited to the configuration attached to the internal cable 423A, and may be attached to the external cable 423B. In this case, the communication function can be retrofitted to the power supply device 31 even when there is no space for housing the communication device 51B in the power supply device 31.

  The POS system 14 generally includes a handy barcode reader that reads commodity barcodes. The handy barcode reader and the register unit 1411 are connected by a cable 42C. Therefore, the data carrier 41 may be configured to communicate with the communication device 51D via the cable 42C. In this case, the data carrier 41 is attached to the cable 42C. The thickness and shape of the cable 42C and the cable 42B are not necessarily the same. Therefore, the cable 42C or the cable 42B may be provided with a spacer at a position where the data carrier 41 is mounted. With this configuration, the data carrier 41 can be attached to and communicate with both the cable 42B and the cable 42C. It can also be removed easily. Of course, the cable 42C may be configured to attach the data carrier 41 and communicate exclusively with the communication device 51C.

  The electronic device 21 preferably includes a communication device 51A. The communication device 51A stores the unique ID of the electronic device 21 (or the mobile device 12 shown in FIG. 2). The communication device 51A is not limited to the configuration storing the ID of the electronic device 21, and may store the unique ID of the mobile device 12 shown in FIG. Of course, the communication device 51A may store both of them. Then, the communication device 51A transmits the unique ID of the device on which the communication device 51A is mounted to the communication device 51B. With this configuration, the signal processing circuit 143 can identify the electronic device 21 (or the mobile device 12 shown in FIG. 3) that is supplying power for free. Therefore, if the customer repeatedly supplies power for free, the signal processing circuit 143 stops the power supply for free while keeping the switch 34 closed. As a result, the customer can be prevented from repeatedly supplying power for free.

  The communication device 51 </ b> A is preferably built in the electronic device 21. Note that the communication device 51 </ b> A is not limited to the configuration built in the electronic device 21, and may be a configuration provided outside the electronic device 21. In this case, it is preferable that the cable 42A extends from the inside of the electronic device 21 to the outside. The communication device 51A is attached to the cable 42A outside the electronic device 21. When the power cord of the electronic device 21 is used as the cable 42A, the connector 22 can be a power plug. Further, a connector (not shown) may be included in the middle of the cable 42.

  The communication device 51A preferably includes a sensor (not shown) that detects the amount of electricity stored in the power supply unit 23. In this case, the communication device 51A can transmit, to the communication device 51B, the amount of electricity detected by the sensor or the amount of charge required from the detected amount to the full state. With such a configuration, the signal processing circuit 143 can detect the amount of charge until the full state. Therefore, the salesperson Y can also collect the fee required for charging to the full state by provisional prepayment (deposit). In this case, the sum of the prices of the products purchased by the customer X can be settled from the prepaid amount. When surplus is generated, the surplus is refunded to the customer X. Conversely, when a shortage occurs, the customer X is additionally billed for the shortage. Furthermore, it is preferable that the signal processing circuit 143 displays the amount of money required for charging to the full state on the display 1412. With such a configuration, the customer X confirms the cash possessed by the customer X, and if the possession money is insufficient, the customer X can pay the cash deficient with an ATM installed in the store 13 or the like. it can. Alternatively, the amount of charge can be changed so that the charged amount of money is less than or equal to the money held.

Next, details of the communication device 51 will be described with reference to the drawings. FIG. 3 shows the communication device 51.
FIG. FIG. 4 is a conceptual diagram of the communication device 51 with the communication device 51 attached to the cable 42. FIG. 5 is a circuit block diagram of the communication device 51 with the communication device 51 attached to the cable 42. As illustrated in FIG. 3, the communication device 51 includes a passage 53, a coupling unit 54, and a communication unit 56. The communication device 51 is attached to the cable 42 by inserting the cable 42 shown in FIG. In this state, the signal transmission medium 421 shown in FIG. As shown in FIG. 3, the coupling portion 54 is attached to the cable 42 so as to transmit a transmission signal to the signal transmission medium 421 by any one of electromagnetic induction, magnetic field coupling, and electric field coupling via a capacitive component. . Alternatively, the coupling unit 54 receives a signal passing through the signal transmission medium 421 by any one of electromagnetic induction, magnetic field coupling, and electric field coupling via a capacitive component (connected state via a dielectric capacitance). Is attached to the cable 42. That is, the signal transmission medium 421 constitutes a signal transmission line for communication signals while being insulated from the coupling portion 54. For this purpose, the coupling unit 54 and the communication unit 56 are electrically connected. With this configuration, the communication unit 56 transmits power supply request data to the first acquisition unit 35 illustrated in FIG. 1 via the cable 42.

With the above configuration, the coupling unit 54 and the signal transmission medium 421 can transmit or receive a communication signal in a state where they are galvanically insulated. That is, power can be supplied to the electronic device 21 via the cable 42 and communication with other communication devices can be performed. Further, wiring work for directly connecting the signal line to the cable 42 in order to supply the input / output signal of the communication device 51 can be eliminated. As a result, since the communication device 51 can be easily attached after the cable 42, the communication function can be easily attached even to an electronic device or a power supply apparatus that does not have the communication function.
The communication device 51 preferably includes a case 52. The case 52 preferably includes a first case portion 521 and a second case portion 522. The coupling portion 54 is accommodated in the case 52. In this case, the first passage wall 531, the second passage wall 532, and the passage 53 are also provided in the case 52. Further, the communication unit 56 may also be stored in the case 52.

  FIG. 6 is a side view of the communication device 51. FIG. 7 is a side view of the communication device 51. 7 is a side view when viewed from the opposite side of FIG. Two penetrating portions 523 are formed on both side surfaces of the case 52. The passage 53 is connected to the penetrating portion 523. The cable 42 passes through the through portion 523 and the passage 53. The through portion 523 is, for example, a through hole. The penetrating portion 523 may constitute the mounting portion 60. In this case, the shape of the penetrating portion 523 is preferably the same as the outer peripheral shape of the cable 42. The penetrating portion 523 is preferably in pressure contact with the insulating layer 422 of the cable 42. With this configuration, when the case 52 is attached to the cable 42, the occurrence of rattling of the communication device 51 can be suppressed.

  In this case, the first case portion 521 includes a first mounting portion 601, and the second case portion 522 includes a second mounting portion 602. Then, by combining the first case portion 521 and the second case portion 522, the mounting portion 60 is formed by the first mounting portion 601 and the second mounting portion 602. The penetrating portion 523 may have a gap between the cable 42 and the through portion 523. In this case, it is preferable to provide an inclusion (not shown) such as a spacer or an elastic member between the cable 42 and the mounting portion 60. With this configuration, the mounting portion 60 holds the cable 42 via the inclusion. The through portion 523 is a hole, but is not limited to this configuration and may be formed by a notch or the like.

As shown in FIG. 3, the communication device 51 includes at least one of the first passage wall 531, the second passage wall 532, and the mounting portion 60. The mounting portion 60 includes a first mounting portion 601 and a second mounting portion 602. In this case, the mounting portion 60 may also serve as part of the first passage wall 531 and the second passage wall 532. The first passage wall 531 may also serve as a part of the first passage wall 531. Further, the second passage wall 532 may also serve as a part of the second passage wall 532. The communication device 51 includes a communication unit 56, a coupling unit 54, and a passage 53. The communication unit 56 transmits or receives a communication signal. The coupling unit 54 is electrically connected to the communication unit 56. The coupling portion 54 is provided on at least one of the first passage wall 531 and the second passage wall 532. The coupling portion 54 is coupled to at least one of the first mounting portion 601 and the second mounting portion 602.

  FIG. 8 is a conceptual diagram of the communication device with the case 52 opened. The second passage wall 532 and the second mounting portion 602 are provided so as to be separable from the first passage wall 531 and the first mounting portion 601 or to be partially opened and closed. The first passage wall 531 (first mounting portion 601) and the second passage wall are closed with the first passage wall 531 (first mounting portion 601) and the second passage wall 532 (second mounting portion 602) closed. A passage 53 is formed in a gap surrounded by 532 (first mounting portion 602). That is, the first passage wall 531 (first attachment portion 601) and the second passage wall 532 (first attachment portion 602) are combined to form the passage 53. Then, the coupling unit 54 outputs an output based on the communication signal toward the passage 53. Alternatively, the coupling unit 54 inputs a signal passing through the passage from the passage 53 as a communication signal.

  When the coupling unit 54 and the cable 42 shown in FIG. 3 communicate by electric field coupling via a capacitive component, the coupling unit 54 outputs the communication signal as it is. In this case, the communication device 51 includes a first electrode (first coupling portion 541) and a second electrode (second coupling portion 542). The first mounting portion 601 and the second mounting portion 602 are combined and closed, so that the first connecting portion 541 and the second connecting portion 542 constitute the connecting portion 54.

  On the other hand, when the coupling part 54 and the cable 42 communicate by electromagnetic induction or magnetic field coupling, the coupling part 54 communicates a communication signal by magnetic force. Then, the first mounting portion 601 and the second mounting portion 602 are combined and closed to convert the communication signal into a magnetic flux and output it toward the passage. Alternatively, the first mounting portion 601 and the second mounting portion 602 are combined and closed to input a magnetic flux based on a signal passing through the passage as a communication signal from the passage.

  With the above configuration, the passage 53 into which the cable 42 is inserted is formed by combining the first passage wall 531 and the second passage wall 532. Therefore, the first passage wall 531 and the second passage wall 532 are separated or opened, and the cable 42 is disposed between the first passage wall 531 and the second passage wall 532. Then, the cable 42 passes through the passage 53 by mounting or closing the first passage wall 531 and the second passage wall 532. Thus, the communication device 51 can be attached to the cable 42 by wiring the cable 42. The coupling portion 54 can communicate a communication signal with the signal transmission medium 421 in an insulated state via the insulating layer 422 of the cable 42. Therefore, the wiring work for directly connecting the signal lines of the input / output signals of the communication device 51 to the cable 42 can be eliminated. As a result, since the communication device 51 can be easily attached to the cable 42, the communication function can be easily attached even to an electronic device having no communication function. Further, when it is necessary to authenticate the ID, the ID can be transmitted by inputting an ID signal to the communication unit 56.

  The communication device 51 preferably includes a restriction unit 55. The restriction part 55 restricts the separation and opening of the first passage wall 531 and the second passage wall 532. With this configuration, the state where the first passage wall 531 and the second passage wall 532 are combined can be maintained. When the coupling portion 54 is attached to the cable 42, the restricting portion 55 maintains the attachment state of the communication device 51 to the cable 42.

Further, by releasing the restriction on the first passage wall 531 and the second passage wall 532 by the restriction portion 55, the first passage wall 531 and the second passage wall 532 return to a state where they can be separated or opened and closed. It is preferable. With this configuration, the communication device 51 can be easily attached to and detached from the cable 42. Therefore, a communication function can be added whenever it becomes necessary to communicate with an electronic device that does not have a communication function.

  The first passage wall 531 is provided in the first case portion 521. The second passage wall 532 is provided in the second case portion 522. The second passage wall 532 is provided so as to be separable from the first passage wall 531. On the other hand, the 1st case part 521 and the 2nd case part 522 are connected so that opening and closing is possible. And the restriction | limiting part 55 is restrict | limiting that the 1st case part 521 and the 2nd case part 522 open. In that case, the restricting portion 55 is preferably formed in the case 52 (a general term for the first case portion 521 and the second case portion 522). With this configuration, the restriction portion 55 maintains a state in which the first passage wall 531 and the second passage wall are combined. In addition, the restricting portion 55 restricts the separation of the first passage wall 531 and the second passage wall 532. In addition, the 1st case part 521 and the 2nd case part 522 are not restricted to the structure connected so that opening and closing was possible, and you may be comprised so that isolation | separation is possible. In this case, the restricting portion 55 restricts the separation of the first case portion 521 and the second case portion 522. The communication device 51 can be easily attached to the cable 42 by separating or opening the first case portion 521 and the second case portion 522. Moreover, the holding state of the communication device 51 on the cable 42 can be maintained.

  In particular, it is preferable that the restriction portion 55 of the data carrier 41 (communication device 51C) can be easily removed. That is, it is preferable that the first case portion 521 and the second case portion 522 return to a state where they can be separated or opened / closed by releasing the restriction by the restriction portion 55. With this configuration, even if the communication device 51 is attached to the electronic device 21 or the power feeding device 31, it can be easily removed. Therefore, even for an electronic device that does not have a communication function, the communication function can be retrofitted by retrofitting the communication device whenever the communication function becomes necessary.

  Therefore, the restricting portion 55 can be constituted by, for example, an engaging portion 551 and an engaging protrusion 552. In this case, the engagement of the engaging portion 551 and the engaging protrusion 552 restricts the separation or opening of the first case portion 521 and the second case portion 522. The restricting portion 55 is not limited to being configured by the engaging portion 551 and the engaging protrusion 552. For example, the restriction portion 55 may be a band. The communication device 51A is housed in the electronic device 21. The communication device 51 </ b> B is accommodated in the power feeding device 31. Therefore, the communication device 51A and the communication device 51B remain attached to the cable 42. That is, the communication device 51A and the communication device 51B are less likely to be removed from the cable 42 except for repairs. Therefore, when it is not necessary to remove the communication device 51 from the cable 42 as described above, the restricting portion 55 may be an adhesive tape, an adhesive, or the like other than the above.

  The communication device 51 preferably includes an ID signal output unit 57. The ID signal output unit 57 is electrically connected to the communication circuit. Then, the ID signal output unit 57 outputs the ID signal to the communication unit 56. The ID signal output unit 57 is a memory that stores an ID signal, for example. The communication device 51 preferably incorporates an ID signal output unit 57. With this configuration, it is possible to realize the power supply system 15 capable of performing ID authentication without receiving the supply of an ID signal from the outside of the communication device 51 each time when authenticating the ID.

The ID signal output unit 57 may be provided outside the communication device 51. In this case, the communication device 51 preferably includes an external input connector (not shown). The ID signal is input from the outside through an external input connector. The ID signal output unit 57 is not limited to a memory, and may be an information carrier identification device, for example. An information carrier in this case is, for example, an IC card. With this configuration, it is possible to communicate a person-specific ID that an individual carries. Of course, such a unique ID may be stored in the memory of the ID signal output unit 57. Note that the communication device 51 may be configured to acquire an ID signal or a charging power supply signal by wireless or human body communication.

  The communication device 51 </ b> A and the communication device 51 </ b> B are not limited to the configuration including the power output unit 58, and may be configured to include the power output unit 58 outside the communication device 51. For example, when the communication device 51 </ b> A is built in the electronic device 21, the power supply unit 23 may be used as the power output unit 58. When the communication device 51 </ b> A is built in the power feeding device 31, the power feeding unit 33 may be used as the power output unit 58.

  The communication device 51C preferably includes both the ID signal output unit 57 and the power output unit 58. With this configuration, the communication device 51C includes an ID to be communicated, a circuit for transmitting the ID, and a power source for operating them. Therefore, the ID signal can be transmitted without supplying power to drive the communication unit 56 from the outside. That is, it is not necessary to separately prepare a line for supplying power to the communication device 51C. Further, when performing communication, an operation such as inputting an ID signal to the communication unit 56 each time can be made unnecessary. As a result, the communication function can be easily retrofitted simply by attaching the communication device 51C to the cable 42. That is, the communication device 51 </ b> C is in a state where it can communicate independently only by being attached to the cable 42.

  Further, the communication device 51 preferably includes a switch 59. The switch 59 is provided between the communication unit 56 and the power output unit 58. With this configuration, it is only necessary to turn on the switch 59 when using the communication function, so that power consumption of the power output unit 58 can be suppressed. Further, the switch 59 is preferably turned on by attaching the communication device 51 to the cable 42. Therefore, the switch 59 is configured to protrude into the passage 53. Then, by attaching the communication device 51 to the cable 42, the insulating layer 422 of the cable 42 pushes the switch 59. With this configuration, the switch 59 can be turned on by attaching the communication device 51 to the cable 42. Further, the communication unit 56 can be turned off by the operation of removing the communication device 51 from the cable 42. Therefore, when the communication unit 56 is attached to the cable 42 each time, the communication unit 56 does not need to be manually turned on or off. The switch 59 is not limited to a configuration that is turned on and off by being attached to the cable 42, and may be configured to be turned on and off by a human operation. Further, two switches 59 may be provided, one being turned on and off by being attached to the cable 42, and the other being turned on and off by human operation.

  Next, a procedure for supplying power from the power supply apparatus 31 to the electronic device 21 in the power supply system 15 including the communication device 51C will be described. As shown in FIG. 1, the communication device 51B is attached to the cable 42B. Further, the communication device 51D is attached to the cable 42C. The communication device 51A is attached to the cable 42A.

  The customer X parks the mobile device 12 in the parking lot of the store 13. Customer X connects connector 22 and connector 32. In this state, the customer X moves into the store. If the customer X wants to supply power to the electronic device 21, the customer moves to the store 13 with the electronic device 21. In the store 13, the customer X connects the connector 22 and the connector 32. As a result, the power supply system 11 starts to supply power to the mobile device 12 in the free power supply mode.

By connecting the connector 22 and the connector 32, the communication device 51A and the communication device 51B can communicate with each other. The communication device 51B periodically transmits a signal (hereinafter referred to as a transmission request signal) requesting transmission of the device ID and the like to the communication device 51A via the cable 42. Further, the communication device 51B may make a request to transmit the state information of the electronic device 21 (the mobile device 12) to the communication device 51A. The state information is, for example, the amount of power stored in the power supply unit 23. The device ID and status information of the electronic device 21 (mobile device 12) are transmitted from the communication device 51A that has received this request to the communication device 51B via the cable 42. With this configuration, the communication device 51B can obtain the device ID and status information. Then, the communication device 51B outputs the device ID and the status information to the signal processing circuit 143. Thereby, the signal processing circuit 143 can identify the electronic device 21 (the mobile device 12).

Note that the power supply unit 33 re-enters the power supply again when the power supply by the cable 42 is stopped for some reason before reaching the specified condition (specified time or specified power) from the start of power supply. Request the device ID and status information of the electronic device 21 (mobile device 12). This is the case, for example, when another customer removes the connector 32 from the connector 22 and the customer X reattaches the connector 32 to the connector 22. In this case, the device ID before and after the power supply is cut is the same. Therefore, the signal processing circuit 143 determines that the device IDs before and after the power supply is disconnected are the same. In such a case, the signal processing circuit 143 does not count the power supply time while power supply is stopped. That is, the signal processing circuit 143 does not count the power supply time while power supply is stopped. Alternatively, the signal processing circuit 143 sets the difference between the amount of power supplied before the power supply is stopped and the specified amount of power to the specified condition after starting the power supply again. Then, the power feeding unit 33 feeds power until the specified condition is reached from the start of re-power feeding.
Customer X who wants to supply more than the amount of power that can be supplied for free tells salesperson Y that he wants to supply electronic device 21 for a fee. Then, the salesperson Y attaches the communication device 51C to the cable 42C. In this state, the salesperson Y operates the POS terminal 141 so that the communication device 51C can supply power for a fee. Then, the salesperson Y lends the communication device 51C to the customer Y. To do. That is, the salesperson Y performs a procedure for inputting the device ID stored in the data carrier 41 to be delivered to the customer X to the signal processing circuit 143.

  In the case where a device ID based on a barcode is attached to the data carrier 41, the salesperson Y may acquire the device ID using a barcode reader of the POS terminal 141. That is, the barcode reader of the POS terminal 141 is used as the second acquisition unit 1413. In this case, D data can be input to the signal processing circuit 143 even if the communication device 51D is not installed. Alternatively, a procedure for storing the device ID in the data carrier 41 is performed by transmitting the device ID stored in the signal processing circuit 143 to the data carrier 41.

  In addition to this procedure, the salesperson Y operates the POS terminal 141, so that the signal processing circuit 143 also performs a procedure of storing the charging power supply signal in the storage unit 1431 in association with the device ID. Alternatively, the following procedure may be executed instead of the above procedure. The signal processing circuit 143 transmits the charging power supply signal to the communication device 51D. As a result, the communication device 51D transmits a charging power supply signal to the communication device 51C via the cable 42C. Then, the communication device 51C stores the device ID and the charging power supply signal as power supply request data in association with each other.

The salesperson Y lends the communication device 51C to the customer Y after the procedure for associating the charging power supply signal with the device ID. The customer Y moves to the place where the mobile device 12 is parked (or the place where the electronic device 21 is placed) with the communication device 51C. Then, the communication device 51C borrowed from the salesperson Y is attached to the external cable 423B. The connector 22 and the connector 32 are preferably connected before the communication device 51C is attached to the cable 42B. In this case, free power feeding can be started from the time when the connector 22 and the connector 32 are connected. Then, by attaching the communication device 51C to the cable 42B, the communication device 51C can communicate with the communication device 51B via the cable 42B. The connector 22 and the connector 32 may be connected after the communication device 51C is attached to the cable 42B. In this case, the communication device 51C is connected to the communication device 51B via the cable 42B by connecting the connector 22 and the connector 32.
It becomes a state where it can communicate with. The communication device 51B transmits power supply request data to the cable 42 as a communication signal. Therefore, by attaching the communication device 51C to the cable 42, the communication device 51C receives the communication signal and demodulates the power supply request data.

  The demodulated power supply request data is input to the signal processing circuit 143. The signal processing circuit 143 compares the power supply request data with the device ID stored in the storage unit 1431. The storage unit 1431 stores the device ID of the rented data carrier 41. Then, the signal processing circuit 143 searches for the device ID from the table data in the storage unit 1431. With this configuration, when it is determined that the power supply request data includes a device ID equal to the device ID included in the storage unit 1431, the signal processing circuit 143 uses the communication device 51C lent to the customer X to supply power for a fee. The attachment to the cable 42 can be determined. Therefore, the signal processing circuit 143 operates in the pay power supply mode.

  The signal processing circuit 143 may further determine the charged power supply mode and the free power supply mode based on the charge power supply signal. In this case, it is preferable to store in the storage unit 1431 table data in which the device ID of the lent data carrier 41 and the charging power supply signal are associated with each other. When the signal processing circuit 143 determines that the device ID and the charging power supply signal are associated with each other based on the table data stored in the storage unit 1431, the signal processing circuit 143 operates in the pay power supply mode.

  The communication device 51C is configured to lend to the customer X when supplying power for a fee, but is not limited to this configuration, and may be lent to the customer X even when supplying power for free. In this case, when the association between the device ID and the charging power supply signal cannot be found in the table data, the free power supply mode is operated. That is, when it is determined that only the device ID is stored in the table data, the signal processing circuit 143 operates in the free power supply mode.

  When the power supply request data in which the device ID and the charge power supply signal are associated is stored in the communication device 51C, the signal processing circuit 143 determines whether or not the power supply request data includes the charge power supply signal. . If the signal processing circuit 143 determines that the charge power supply signal is included in the power supply request data, the signal processing circuit 143 operates in the pay power supply mode. When the communication device 51C is lent to the customer X even when power is supplied free of charge, the signal processing circuit 143 operates in the free power supply mode by determining that the charge power supply signal is not included in the power supply request data.

  As described above, the signal processing circuit 143 determines whether it is a pay power supply mode or a free power supply mode. Then, the signal processing circuit 143 controls the switch 34 in accordance with the determination result, and starts, stops, or ends the power supply to the electronic device 21 (the mobile body unit 12). In the case of the paid power supply mode, the power supply is terminated when the power of the power supply unit 23 becomes full.

  The signal processing circuit 143 outputs a signal indicating that the authentication has been completed to the power supply device 31 after determining the device ID or determining whether the power supply mode is the paid power supply mode or the free power supply mode. The power supply apparatus 31 that has received this signal indicates to the customer X that communication authentication is completed. The power supply apparatus 31 notifies the customer X of the completion of authentication by displaying light, sound, or characters. . When the customer X confirms the completion of the authentication in this manner, the customer X removes the communication device 51C from the cable 42. Then, shopping or standby is performed in the store 13 or the like until the power supply of the electronic device 21 (mobile device 12) is completed. The customer X takes the communication device 51C to the checkout counter and returns the communication device 51C to the salesperson Y in anticipation of the completion of the power supply.

The salesperson Y inputs the return of the communication device 51 to the signal processing circuit 143 through the same work when lending the communication device 51C returned in this way. Thereby, the signal processing circuit 143 determines a charge amount for the charged power supply. The signal processing circuit 143 is connected to the display 1
At 412, the amount charged is displayed. Further, the signal processing circuit 143 deletes the device ID of the communication device 51 from the storage unit 1431. Alternatively, the signal processing circuit 143 rewrites the data table stored in the storage unit 1431. That is, the signal processing circuit 143 may store a signal indicating that it has been returned in association with the device ID in the data table. Alternatively, a signal associated with the device ID in the data table may be reset.

  The present invention is not limited to the above-described embodiments, and various modifications are possible, and it goes without saying that these are also included in the scope of the present invention.

  As described above, the power supply system according to the present invention has an effect that a device having no communication function can be charged for a fee or free of charge, and is useful when installed in a store or the like.

DESCRIPTION OF SYMBOLS 11 Power supply system 12 Mobile device 13 Store 14 POS system 15 Power supply system 21 Electronic device 22, 32, 36A, 36B Connector 23 Power supply part 31 Power supply apparatus 33 Power supply part 34 Switch 35 First acquisition part 41 Data carrier 42, 42A, 42B, 42C Cable 51, 51A, 51B, 51C, 51D Communication device 52 Case 53 Passage 54 Coupling unit 55 Control unit 56 Communication unit 57 ID signal output unit 58 Power output unit 59 Switch 60 Mounting unit 111 Antenna 112 Warning unit 121 Body 122 Drive unit 132 Store building 141 POS terminal 142 Information communication terminal 143 Signal processing circuit 144 Bar code reader 162 Parking lot 421 Signal transmission medium 422 Insulating layer 423A Internal cable 423B External cable 521 First case part 22 2nd case part 523 Penetration part 531 1st channel | path wall 532 2nd channel | path wall 541 1st coupling | bond part 551 Engagement part 552 Engagement protrusion 601 1st attachment part 602 2nd attachment part 1411 Register part 1412 Indicator 1413 2nd Acquisition unit 1431 Storage unit 1611 Wall

Claims (8)

A data carrier having power supply request data including a device ID;
A first acquisition unit for acquiring the power supply request data from the data carrier;
A connector;
A power supply unit for supplying power to the connector;
A cable for electrically connecting the connector and the power supply unit;
A switch that is provided between the power supply unit and the connector, and switches between supply and stop of power from the power supply unit to the connector;
A signal processing circuit in which the power supply request data is input from the first acquisition unit and the device ID is stored;
The signal processing circuit includes:
Free power supply mode and paid power supply mode
In the free power supply mode, the power is supplied without charging during the period from the start of power supply until the specified state is reached, and the supply of power is stopped by the switch after the specified state is reached. ,
In the paid power supply mode,
When it is determined that the device ID is included in the power supply request data, power is supplied in the pay power supply mode, and a charge amount is calculated based on the power supplied in the pay power supply mode.
Power supply system. The signal processing circuit includes:
When it is determined that the device ID is included in the power supply request data, switching from the free power supply mode to the pay power supply mode,
Power supply system. The signal processing circuit includes:
When it is determined that the device ID is included in the power supply request data and the device ID is associated with a charge power supply signal indicating power supply in the pay power supply mode, the charge power supply from the free power supply mode is performed. Switch to mode,
Power supply system. A second acquisition unit for acquiring the device ID from the data carrier;
The power supply system according to claim 1. The signal processing circuit includes a storage unit,
Associating the device ID acquired by the second acquisition unit with the charging power supply signal and writing to the storage unit;
The power supply system according to claim 4. The data carrier is a first communication device that transmits the power supply request data.
The power supply system according to claim 1. A second communicator that transmits the charging power supply signal to the first communicator;
Receiving the charging power supply signal, and transmitting the device ID and the charging power supply signal as the power supply request data.
The power supply system according to claim 6. A cable including a signal transmission medium that supplies the power from the switch to the connector;
The data carrier is configured to be detachable from the cable,
The first communication unit transmits the power supply request data to the signal transmission medium in a state of being galvanically insulated from the signal transmission medium when attached to the cable,
The first acquisition unit receives the power supply request data via the cable.
The power supply system according to claim 7.

Images