JP2018200644A - Power feeding system, control method therefor, and power transmission device - Google Patents

Abstract

To provide an improved power feeding system and a control method therefor.SOLUTION: The power feeding system includes: a power transmission device which transmits electric power in a wireless manner; a power reception device which receives electric power in a wireless manner; a first reader; and a management device. The power transmission device is disposed in a predetermined region. The first reader is arranged at an entrance of the predetermined region and acquires an identifier of the power reception device passing through the entrance. The management device manages the power reception device existing in the predetermined region. The management device registers, in a management list, the identifier of the power reception device passing through the entrance and going into the predetermined region. The power transmission device transmits electric power to the power reception device with the identifier registered in the management list in a wireless manner.SELECTED DRAWING: Figure 1

Description

  The present disclosure relates to a power feeding system and a control method thereof.

  2. Description of the Related Art Conventionally, a system that supplies power to an electronic device wirelessly is known (for example, Patent Document 1).

JP2015-159720A

  However, there is room for improvement in the conventional system.

  An object of the present disclosure made in view of the above point is to provide an improved power feeding system and a control method thereof.

  A power supply system according to an embodiment of the present disclosure includes a power transmission device that wirelessly transmits power, a power reception device that wirelessly receives power, a first reading device, and a management device. The power transmission device is disposed in a predetermined area. The first reading device is installed at an entrance of the predetermined area and acquires an identifier of the power receiving device that passes through the entrance. The management device manages the power receiving device existing in the predetermined area. The management device registers, in a management list, the identifier of the power receiving device that passes through the entrance and enters the predetermined area. The power transmitting device wirelessly transmits power to the power receiving device having the identifier registered in the management list.

  A method for controlling a power feeding system according to an embodiment of the present disclosure controls a power feeding system including a power transmission device that wirelessly transmits power, a power receiving device that wirelessly receives power, a first reading device, and a management device. Is the method. The power transmission device is arranged in a predetermined area. The first reading device is installed at the entrance of the predetermined area. The control method of the power feeding system includes a step in which the first reading device acquires an identifier of the power receiving device that passes through the entrance, and the management device enters the predetermined region through the entrance. Registering the identifier in the management list. Furthermore, the method for controlling the power feeding system includes a step in which the power transmitting device wirelessly transmits power to the power receiving device having the identifier registered in the management list.

  According to an embodiment of the present disclosure, an improved power supply system and a control method thereof can be provided.

It is a figure showing the schematic structure of the electric supply system concerning a 1st embodiment of this indication. It is a functional block diagram showing the composition of the electric supply system concerning a 1st embodiment of this indication. FIG. 3 is a diagram showing an example of a management list according to the first embodiment of the present disclosure. FIG. 6 is a sequence diagram illustrating an example of a power transmission procedure of the power feeding system according to the first embodiment of the present disclosure. 6 is a flowchart illustrating an example of an operation of the reading apparatus according to the first embodiment of the present disclosure. 6 is a flowchart illustrating an example of an operation of the management device according to the first embodiment of the present disclosure. 5 is a flowchart illustrating an example of an operation of the power receiving device according to the first embodiment of the present disclosure. 5 is a flowchart illustrating an example of an operation of the power transmission device according to the first embodiment of the present disclosure. It is a functional block diagram which shows the structure of the electric power feeding system which concerns on 2nd Embodiment of this indication.

  Hereinafter, an embodiment of the present disclosure will be described with reference to the drawings.

(First embodiment)
FIG. 1 is a diagram illustrating a schematic configuration of a power feeding system 1 according to the first embodiment of the present disclosure. In FIG. 1, a solid line indicates a power path, and a broken line indicates a communication path. The power feeding system 1 includes a first reading device 10A, a second reading device 10B, a management device 20, a power receiving device 30, and power transmission devices 40A, 40B, and 40C. The first reading device 10A, the second reading device 10B, the power transmission devices 40A to 40C, and the management device 20 communicate with each other via the network 2. The power receiving device 30 and each of the power transmitting devices 40A to 40C directly wirelessly communicate with each other.

  1 includes the first reading device 10A and the second reading device 10B, the number of reading devices included in the power supply system 1 is not limited to this. The number of reading devices included in the power supply system 1 may be one of the first reading devices 10A, or may be three or more including the first reading device 10A and the second reading device 10B. Similarly, the power feeding system 1 illustrated in FIG. 1 includes one of the power receiving devices 30, but the number of power receiving devices included in the power feeding system 1 is not limited thereto. The number of power receiving devices included in the power feeding system 1 may be two or more. Similarly, although the power feeding system 1 illustrated in FIG. 1 includes three power transmission devices 40A to 40C, the number of power transmission devices included in the power feeding system 1 is not limited to this. The number of power transmission devices included in the power feeding system 1 may be two or less, or may be four or more.

  The power feeding system 1 is realized in the predetermined area 3. The predetermined area 3 is, for example, an area under the jurisdiction of a railway company that can be entered only by passengers who have already had ticket gates (hereinafter referred to as “inside ticket gates”). The inside of the ticket gate includes, for example, a platform provided in contact with the track, a waiting room used while a passenger waits for a train, a space provided with a commercial facility, and a train.

  The predetermined area 3 has an inlet 4A and an outlet 4B. The entrance 4A and the exit 4B are so-called ticket gates. An automatic ticket gate 5A is disposed at the entrance 4A, and an automatic ticket gate 5B is disposed at the exit 4B. In the present embodiment, the power receiving device 30 passes through the inlet 4 </ b> A and enters the predetermined area 3 and is inherent in the predetermined area 3 as indicated by an arrow.

  The predetermined area 3 shown in FIG. 1 has one each of the inlet 4A and the outlet 4B, but the number of the entrances / exits included in the predetermined area 3 is not limited to this. The number of entrances / exits that the predetermined area 3 has may be one of the entrances 4A. In this case, the inlet 4A is also an outlet, and the power receiving device 30 existing in the predetermined area 3 passes through the inlet 4A which is also an outlet and exits from the predetermined area 3. Moreover, the number of the entrance / exit which the predetermined area | region 3 has may be three or more.

  The first reading device 10A is incorporated in, for example, the automatic ticket gate 5A and installed at the entrance 4A. The first reading device 10A acquires the identifier of the power receiving device that passes through the entrance 4A. For example, the first reading device 10A acquires the identifier of the power receiving device 30 when the power receiving device 30 enters the predetermined area 3 through the entrance 4A. The first reading device 10 </ b> A transmits the acquired identifier of the power receiving device 30 to the management device 20 via the network 2.

  The second reading device 10B is installed in, for example, the automatic ticket gate 5B and installed at the exit 4B. The reading device 10B acquires the identifier of the power receiving device that passes through the outlet 4B. The second reading device 10 </ b> B transmits the acquired identifier of the power receiving device 30 to the management device 20 via the network 2.

  The management device 20 is, for example, a server managed by a railway company. The management device 20 stores a management list 20A in an internal storage device or the like.

  The management device 20 acquires the identifier of the power receiving device from each of the reading devices 10A and 10B. The management device 20 manages the power reception devices existing in the predetermined area 3 based on the acquired identifier of the power reception device and the management list 20A. For example, when the power receiving device 30 passes through the entrance 4A and enters the predetermined area 3, the management device 20 acquires the identifier ID 30 of the power receiving device 30 from the first reading device 10A. As illustrated in FIG. 1, the management device 20 registers the acquired identifier ID 30 of the power receiving device 30 in the management list 20A. By such processing, the identifier of the power receiving device 30 existing in the predetermined area 3 is registered in the management list 20A.

  The power receiving device 30 is, for example, an IC card owned by a passenger. The IC card provides a passenger with a ticket function and an electronic money function. The power receiving device 30 has an identifier. The identifier of the power receiving device 30 is, for example, an identification number uniquely assigned to the IC card.

  The power receiving device 30 periodically transmits a notification signal indicating the presence of the own device when it enters the power transmission area of the power transmission device after passing through the entrance 4A and entering the predetermined area 3. The notification signal is, for example, a beacon signal or a pilot signal. Further, as illustrated in FIG. 1, the power receiving device 30 wirelessly receives power from the power transmitting device 40 </ b> C that has received the notification signal among the power transmitting devices 40 </ b> A to 40 </ b> C installed in the predetermined region 3.

  The power transmission devices 40 </ b> A to 40 </ b> C are arranged in the predetermined area 3. For example, the power transmission device 40A is disposed at the entrance 4A. Further, for example, the power transmission devices 40B and 40C are respectively disposed in a pillar provided on the platform, a waiting room, a space provided with a commercial facility, a train, or the like.

  The power transmission devices 40A to 40C transmit power wirelessly to the power reception device 30 having the identifier ID30 registered in the management list 20A. In FIG. 1, the power transmission device 40C that has received the notification signal from the power reception device 30 transmits power wirelessly to the power reception device 30 having the identifier ID30 registered in the management list 20A.

  As described above, in the power supply system 1, the identifier ID30 of the power receiving device 30 existing in the predetermined area 3 is registered in the management list 20A. Further, in the power supply system 1, the power transmission devices 40A to 40C transmit power wirelessly to the power reception device 30 having the identifier ID30 registered in the management list 20A.

  Next, details of functions of the power feeding system 1 will be described. Hereinafter, the first reading device 10 </ b> A and the second reading device 10 </ b> B are referred to as the reading device 10 when they are not particularly distinguished. In addition, when there is no particular distinction between the inlet 4A and the outlet 4B, they are referred to as the inlet / outlet 4. When the automatic ticket gates 5A and 5B are not particularly distinguished, they are referred to as the automatic ticket gates 5. Moreover, when not distinguishing especially power transmission apparatus 40A-40C, it describes with the power transmission apparatus 40. FIG.

  FIG. 2 is a functional block diagram illustrating a configuration of the power feeding system 1 according to the first embodiment of the present disclosure. In FIG. 2, the solid line indicates the power path, and the broken line indicates the communication path. The power supply system 1 includes a reading device 10, a management device 20, a power reception device 30, and a power transmission device 40.

  The reading device 10 is disposed at the doorway 4 and acquires an identifier of a power receiving device that passes through the doorway 4. The reading device 10 includes a reader / writer unit 11, a communication unit 12, a storage unit 13, and a control unit 14.

  The reader / writer unit 11 communicates with the power receiving device 30 passing through the doorway 4 in a contactless manner. The reader / writer unit 11 may employ, for example, an electromagnetic induction method or a radio wave method.

  The reader / writer unit 11 acquires information on the power receiving device 30 from the power receiving device 30 that passes through the doorway 4 based on the control of the control unit 14. The information on the power receiving device 30 includes, for example, information on the boarding station (when the power receiving device 30 leaves the predetermined area 3), the balance of electronic money, and the identifier of the power receiving device 30.

  The reader / writer unit 11 writes data to the power receiving device 30 that passes through the doorway 4 based on the control of the control unit 14. The data to be written includes, for example, the updated electronic money balance (when the power receiving device 30 leaves the predetermined area 3).

  The communication unit 12 communicates with an external device based on the control of the control unit 14. In the present embodiment, the communication unit 12 communicates with the management device 20 via the network 2. Note that the antenna 11 </ b> A may function as a part of the communication unit 12.

  The storage unit 13 is configured by, for example, a semiconductor memory or a magnetic memory. The storage unit 13 stores various information and a program for operating the reading device 10.

  The control unit 14 is a processor that controls and manages the entire reading device 10. The control unit 14 includes, for example, a processor such as a CPU that executes a program that defines a control procedure, or a dedicated processor specialized for processing each function.

  The control unit 14 has different processing depending on whether the entrance 4 where the reading apparatus 10 is installed is an entrance or an exit. Hereinafter, when distinguishing whether the entrance / exit 4 is an entrance or an exit, when the entrance / exit 4 where the reader 10 is installed is an entrance, the reader 10 is described as an “entrance reader 10”. . In addition, when the entrance 4 where the reading device 10 is installed is an exit, the reading device 10 is described as “reading device 10 for exit”. Hereinafter, the process of the control unit 14 will be described by dividing it into <entrance process> and <exit process>.

<Processing for admission>
The control unit 14 uses the reader / writer unit 11 to acquire information on the power receiving device 30 that passes through the entrance 4 (entrance) and enters the predetermined region 3. The control unit 14 transmits the identifier of the power receiving device 30 among the acquired information of the power receiving device 30 to the management device 20 via the communication unit 12 and the network 2. At this time, the control unit 14 may transmit a signal indicating that the power receiving device 30 enters the predetermined area 3 together with the identifier of the power receiving device 30 to the management device 20 via the communication unit 12 and the network 2.

<Exit processing>
The control unit 14 uses the reader / writer unit 11 to acquire information on the power receiving device 30 that passes through the entrance 4 (exit) and exits from the predetermined area 3. The control unit 14 transmits the identifier of the power receiving device 30 among the acquired information of the power receiving device 30 to the management device 20 via the communication unit 12 and the network 2. At this time, the control unit 14 may transmit, together with the identifier of the power receiving device 30, a signal indicating that the power receiving device 30 leaves the predetermined area 3 to the management device 20 via the communication unit 12 and the network 2.

  The management device 20 is a server, for example. The management device 20 manages the power receiving device existing in the predetermined area 3. The management device 20 includes a communication unit 21, a storage unit 22, and a control unit 23.

  The communication unit 21 communicates with an external device based on the control of the control unit 23. In the present embodiment, the communication unit 21 communicates with the reading device 10 and the power transmission device 40 via the network 2.

  The storage unit 22 is configured by, for example, a semiconductor memory or a magnetic memory. The storage unit 22 stores various information and a program for operating the management device 20. The storage unit 22 stores, for example, a management list 20A (see FIG. 3).

  The control unit 23 is a processor that controls and manages the entire management apparatus 20. The control unit 23 includes, for example, a processor such as a CPU that executes a program that defines a control procedure, or a dedicated processor specialized for processing of each function.

  The control unit 23 receives the identifier of the power receiving device 30 that passes through the gateway 4 (entrance) and enters the predetermined area 3 from the reader 10 for entrance via the network 2 and the communication unit 21. The control unit 23 registers the acquired identifier of the power receiving device 30 in the management list 20A. This process will be described with reference to FIG.

  FIG. 3A is a diagram illustrating an example of the management list 20 </ b> A when the power receiving device 30 enters the predetermined area 3. As shown in FIG. 3A, the control unit 23 registers the identifier ID30 of the power receiving device 30 entering the predetermined area 3 in the management list 20A. Further, in the management list 20A shown in FIG. 3A, the identifier 23 of the other power receiving device existing in the predetermined area 3 is also registered by the control unit 23.

  The control unit 23 illustrated in FIG. 2 periodically transmits identifiers registered in the management list 20A (in the example of FIG. 3A, identifiers ID30 and ID31) via the communication unit 21 and the network 2. Send to. The control unit 23 may transmit the identifier registered in the management list 20A to the power transmission device 40 every time a new identifier is registered in the management list 20A. In addition, the control unit 23 may transmit the identifier registered in the management list 20A to the power transmission device 40 every time the identifier is deleted from the management list 20A by a process described later.

  The control unit 23 receives the identifier of the power reception target device from the power transmission device 40 that is transmitting power via the network 2 and the communication unit 21. In the management list 20A, the control unit 23 sets a flag indicating that power transmission is being performed on the acquired identifier of the power reception device in association with the power transmission device 40 during power transmission. An example of this process will be described with reference to FIG.

  FIG. 3B is a diagram illustrating an example of the management list 20A when the power transmission device is transmitting power. In FIG. 3B, it is assumed that the power transmission device 40A illustrated in FIG. In this case, the control unit 23 receives the identifier ID30 of the power receiving device 30 that is a power transmission target from the power transmission device 40A during power transmission. As illustrated in FIG. 3B, the control unit 23 sets a flag “power transmission” indicating that power transmission is being performed in the identifier ID 30 of the power reception device 30 in association with the power transmission device 40 </ b> A during power transmission.

  The control unit 23 illustrated in FIG. 2 receives, from the power transmission device 40 via the network 2 and the communication unit 21, information related to the power transmission together with the identifier of the power receiving device 30 that has finished power transmission. The information regarding power transmission includes, for example, a start time at which the power transmission device 40 starts transmitting power to the power receiving device 30, an end time at which the power transmission device 40 ends power transmission to the power receiving device 30, and the power transmission device 40 at the power receiving device. 30 includes the amount of power transmitted. The control unit 23 updates the management list 20A based on the received information regarding power transmission. An example of this process will be described with reference to FIG.

  FIG. 3C is a diagram illustrating an example of the management list 20 </ b> A when the power transmission apparatus finishes power transmission. In FIG. 3C, it is assumed that the power transmission device 40A illustrated in FIG. 1 finishes power transmission to the power receiving device 30, and then the power transmission device 40C illustrated in FIG. In this case, the control unit 23 receives information related to power transmission (start time 13:00, end time 13:30, and electric energy 1 Wh) together with the identifier ID30 of the power receiving device 30 from the power transmitting device 40A. Furthermore, the control part 23 receives the information regarding transmission (start time 13:30, end time 14:00, and electric energy 1Wh) with identifier ID30 of the power receiving apparatus 30 from the power transmission apparatus 40C. Based on the received information, the control unit 23 updates the management list 20A as shown in FIG.

  The control unit 23 illustrated in FIG. 2 receives the identifier of the power receiving device 30 that passes through the entrance 4 (exit) and exits from the predetermined area 3 from the reader 10 for exit via the network 2 and the communication unit 21. The control unit 23 deletes the received identifier of the power receiving device 30 from the management list 20A. At this time, the control unit 23 may delete the identifier of the power receiving device 30 from the management list 20 </ b> A after the information on power transmission is transferred to another database or the like together with the identifier of the power receiving device 30. Furthermore, the control unit 23 may calculate a charge related to the power received by the power receiving device 30 based on the management list 20A.

  The power receiving device 30 receives power wirelessly. The power receiving device 30 can be driven by the received power. The power receiving device 30 includes a power receiving unit 31, a communication unit 32, a storage unit 33, and a control unit 34.

  The power receiving unit 31 receives power from the power transmission device 40 wirelessly. Specifically, power is generated based on electromagnetic waves received from the outside based on the control of the control unit 34. The power receiving unit 31 supplies the generated power (that is, the received power) to the components of the power receiving device 30.

  The power receiving unit 31 includes an antenna 31A and a rectifier circuit 31B. The antenna 31 </ b> A receives electromagnetic waves from the power transmission device 40. The rectifier circuit 31B converts the electromagnetic wave received by the antenna 31A into DC power. The rectifier circuit 31 </ b> B supplies the converted DC power to the components of the power receiving device 30.

  The communication unit 32 communicates with an external device based on the control of the control unit 34. In the present embodiment, the communication unit 32 performs wireless communication with the reading device 10 and the power transmission device 40. The antenna 31A may function as a part of the communication unit 32.

  The storage unit 33 is configured by, for example, a semiconductor memory or a magnetic memory. The storage unit 33 stores various information and a program for operating the power receiving device 30. The storage unit 33 stores, for example, a boarding history, an identifier of the power receiving device 30, and a balance of electronic money.

  The control unit 34 is a processor that controls and manages the entire power receiving apparatus 30. The control unit 34 includes, for example, a processor such as a CPU that executes a processor that defines a control procedure, or a dedicated processor specialized for processing each function.

  When the power receiving device 30 passes through the doorway 4 and enters the predetermined region 3, the control unit 34 transmits information on the power receiving device 30 to the entrance reading device 10 via the communication unit 32. In addition, when the power receiving device 30 passes through the entrance 4 and exits the predetermined area 3, the control unit 34 transmits information on the power receiving device 30 to the reading device 10 for leaving via the communication unit 32.

  When the power receiving device 30 enters the predetermined area 3 and then enters the power transmission area of the power transmission device 40, the control unit 34 periodically transmits a notification signal indicating the presence of the own device by the communication unit 32. This notification signal is, for example, a beacon signal or a pilot signal, and includes an identifier of the power receiving device 30. Thereafter, the control unit 34 wirelessly receives power from the power transmission device 40 that has received the notification signal.

  The power transmission device 40 transmits power wirelessly. The power transmission device 40 includes a power transmission unit 41, a communication unit 42, a storage unit 43, and a control unit 44.

  The power transmission unit 41 transmits power to the power receiving device 30 wirelessly. Specifically, the power transmission unit 41 outputs, for example, power supplied from a commercial power system as an electromagnetic wave based on the control of the control unit 44.

  The power transmission unit 41 includes an antenna 41A and an oscillator 41B. The oscillator 41B transmits electromagnetic waves from the antenna 41A based on, for example, power supplied from a commercial power system.

  The communication unit 42 communicates with an external device based on the control of the control unit 44. In the present embodiment, the communication unit 42 communicates with the management device 20 via the network 2. In addition, the communication unit 42 performs wireless communication directly with the power receiving device 30.

  The storage unit 43 is configured by, for example, a semiconductor memory or a magnetic memory. The storage unit 43 stores various information, a program for operating the power transmission device 40, and the like.

  The control unit 44 is a processor that controls and manages the entire power transmission device 40. The control unit 44 includes, for example, a processor such as a CPU that executes a processor that defines a control procedure, or a dedicated processor specialized for processing each function.

  For example, among the power receiving devices existing within the power transmission range of the power transmitting device 40, the control unit 44 selects power receiving devices having identifiers registered in the management list 20A (identifier ID30, ID31 in the example of FIG. 3A) as power transmission targets. And The control unit 44 wirelessly transmits power to the power receiving device to be transmitted by the power transmission unit 41. An example of this process will be described in detail in <Power transmission start process> below.

  For example, when the power receiving device to be transmitted moves outside the power transmission area of the power transmitting device 40, the control unit 44 ends the power transmission to the power receiving device. An example of this process will be described in detail in <Power transmission end process> below.

<Power transmission start processing>
The control unit 44 periodically receives the identifier registered in the management list 20 </ b> A from the management device 20 via the network 2 and the communication unit 12. The control unit 44 causes the storage unit 43 to store the identifier registered in the acquired management list 20A.

  For example, the control unit 44 receives a notification signal from the power receiving device 30 existing within the power transmission area of the power transmitting device 40 via the communication unit 42. When receiving the notification signal, the control unit 44 determines whether the identifier of the power receiving device 30 included in the notification signal is included in the identifier registered in the management list 20A. When it is determined that the identifier of the power receiving device 30 is included in the identifier registered in the management list 20A, the control unit 44 sets the power receiving device 30 as a power transmission target. The control unit 44 starts power transmission by the power transmission unit 41 to the power transmission device to be transmitted.

<Processing during power transmission>
The controller 44 may transmit the identifier of the power receiving device 30 to be transmitted to the management device 20 via the communication unit 42 and the network 2 during power transmission to the power receiving device 30.

<Power transmission end processing>
For example, when the power receiving device 30 to be transmitted moves outside the power transmission area, the control unit 44 cannot receive the notification signal from the power receiving device 30 via the communication unit 42. When it is determined that the notification signal from the power receiving device 30 to be transmitted is not received, the control unit 44 ends the power transmission to the power receiving device 30. Further, the control unit 44 may transmit information on the power transmission to the management device 20 via the communication unit 42 and the network 2 together with the identifier of the power receiving device 30 that the power transmission device 40 has finished transmitting.

[Power supply system operation]
FIG. 4 is a sequence diagram illustrating an example of a power transmission procedure of the power feeding system 1 according to the first embodiment of the present disclosure.

  When the power receiving device 30 passes through the doorway 4 (entrance) and enters the predetermined area 3, the power receiving device 30 transmits information on the power receiving device 30 to the reading device 10 for entrance (step S1A). The entrance reader 10 acquires information on the power receiving device 30 that passes through the doorway 4 and enters the predetermined area 3 (step S1B). The reading device 10 transmits the identifier of the power receiving device 30 among the acquired information of the power receiving device 30 to the management device 20 via the network 2 (step S1C).

  The management device 20 receives the identifier of the power receiving device 30 that enters the predetermined area 3 from the entrance reading device 10 via the network 2. Then, the management device 20 registers the received identifier of the power receiving device 30 in the management list 20A (step S2A). Further, the management device 20 periodically transmits the identifier registered in the management list 20A to the power transmission device 40 via the network 2 (step S2B). The power transmission device 40 periodically receives the identifier registered in the management list 20 </ b> A from the management device 20 via the network 2.

  When the power receiving apparatus 30 enters the predetermined area 3 and then enters the power transmission area of the power transmitting apparatus 40, the power receiving apparatus 30 periodically transmits a notification signal indicating the presence of the own device (step S3A). When receiving the notification signal from the power receiving device 30, the power transmitting device 40 determines whether or not the identifier of the power receiving device 30 included in the notification signal is included in the identifier registered in the management list 20A (step S3B). When determining that the identifier of the power receiving device 30 is not included in the identifier registered in the management list 20A (step S3B: No), the power transmitting device 40 ends the process. On the other hand, when it is determined that the identifier of the power receiving device 30 is included in the identifier registered in the management list 20A (step S3B: Yes), the power transmitting device 40 starts power transmission with the power receiving device 30 as a power transmission target (step S3B). S4).

  For example, when the power receiving device 30 to be transmitted moves outside the power transmission area of the power transmitting device 40, the power transmitting device 40 ends the power transmission to the power receiving device 30 (step S5A). The power transmission device 40 transmits information related to power transmission to the management device 20 via the network 2 together with the identifier of the power receiving device 30 that has finished power transmission by the power transmission device 40 (step S5B). When the management apparatus 20 receives information on power transmission from the power transmission apparatus 40 via the network 2 together with the identifier of the power reception apparatus 30, the management apparatus 20 updates the management list 20A based on the received information (step S5C).

  When the power receiving device 30 passes through the doorway 4 (exit) and exits from the predetermined area 3, the power receiving device 30 transmits information on the power receiving device 30 to the exit reading device 10 (step S6A). The exit reading device 10 acquires information of the power receiving device 30 that passes through the doorway 4 and exits from the predetermined area 3 (step S6B). The leaving reading device 10 transmits the identifier of the power receiving device 30 among the acquired information of the power receiving device 30 to the management device 20 via the network 2 (step S6C).

  The management device 20 receives the identifier of the power receiving device 30 that leaves the predetermined area 3 from the reader 10 for leaving via the network 2. Then, the management device 20 deletes the received identifier of the power receiving device 30 from the management list 20A (step S7).

[Operation of reading device]
FIG. 5 is a flowchart illustrating an example of the operation of the reading apparatus 10 according to the first embodiment of the present disclosure.

  The processes of steps S10 and S11 are processes of the reading device 10 for entrance. In the process of step S <b> 10, the control unit 14 uses the reader / writer unit 11 to acquire information on the power receiving device 30 that passes through the entrance 4 (entrance) and enters the predetermined region 3. In the process of step S <b> 11, the control unit 14 transmits the identifier of the power receiving device 30 among the acquired information of the power receiving device 30 to the management device 20 via the communication unit 12 and the network 2.

  The processes of steps S12 and S13 are processes of the reader 10 for exit. In the process of step S <b> 12, the control unit 14 uses the reader / writer unit 11 to acquire information on the power receiving device 30 that passes through the entrance 4 (exit) and exits from the predetermined area 3. In the process of step S13, the control unit 14 transmits the identifier of the power receiving device 30 among the acquired information of the power receiving device 30 to the management device 20 via the communication unit 12 and the network 2 (step S13).

[Operation of management device]
FIG. 6 is a flowchart illustrating an example of the operation of the management apparatus 20 according to the first embodiment of the present disclosure.

  The control unit 23 receives the identifier of the power receiving device 30 that passes through the gateway 4 (entrance) and enters the predetermined region 3 from the entrance reader 10 via the network 2 and the communication unit 21 (step S20). The control unit 23 registers the received identifier of the power receiving device 30 in the management list 20A (step S21).

  The control unit 23 periodically transmits the identifier registered in the management list 20A to the power transmission device 40 via the communication unit 21 and the network 2 (step S22).

  The control unit 23 receives the identifier of the power receiving device to be transmitted from the power transmitting device 40 that is transmitting power via the network 2 and the communication unit 21 (step S23). In the management list 20A, the control unit 23 sets a flag indicating that power transmission is being performed on the identifier of the received power reception device in association with the power transmission device 40 that is currently transmitting power (step S24).

  The control part 23 receives the information regarding the said power transmission from the power transmission apparatus 40 via the network 2 and the communication part 21 with the identifier of the power receiving apparatus 30 which the power transmission apparatus 40 complete | finished power transmission (step S25). The control unit 23 updates the management list 20A based on the received information regarding power transmission (step S26).

  The control unit 23 receives the identifier of the power receiving device 30 that passes through the entrance 4 (exit) and exits the predetermined region 3 from the reader 10 for exit via the network 2 and the communication unit 21 (step S27). The control unit 23 deletes the received identifier of the power receiving device 30 from the management list 20A (step S28).

[Operation of the power receiving device]
FIG. 7 is a flowchart illustrating an example of the operation of the power receiving device 30 according to the first embodiment of the present disclosure.

  When the power receiving device 30 passes through the entrance 4 (entrance) and enters the predetermined area 3, the control unit 34 transmits information on the power receiving device 30 to the entrance reading device 10 via the communication unit 32 (step S30). ).

  When the power receiving device 30 enters the power transmission area of the power transmission device 40 after the power receiving device 30 enters the predetermined area 3, the control unit 34 periodically transmits a notification signal indicating the presence of the own device by the communication unit 32 (step S31). . The control unit 34 wirelessly receives power from the power transmission device 40 that has received the notification signal by the power reception unit 31 (step S32).

  When the power receiving device 30 passes through the entrance 4 (exit) and exits from the predetermined area 3, the control unit 34 transmits information on the power receiving device 30 to the exit reading device 10 via the communication unit 32 (step S33). ).

[Operation of power transmission equipment]
FIG. 8 is a flowchart illustrating an example of the operation of the power transmission device 40 according to the first embodiment of the present disclosure.

  The control unit 44 periodically receives the identifier registered in the management list 20A from the management device 20 via the network 2 and the communication unit 42 (step S40).

  The control unit 44 determines whether or not the notification signal transmitted by the power receiving device 30 has been received via the communication unit 42 (step S41). When it is determined that the notification signal transmitted by the power receiving device 30 has been received (step S41: Yes), the control unit 44 proceeds to the process of step S42. On the other hand, when it determines with the control part 44 not receiving the notification signal which the power receiving apparatus 30 transmits (step S41: No), it performs the process of step S41 again.

  In the process of step S42, the control unit 44 determines whether or not the identifier of the power receiving device 30 included in the notification signal received in the process of step S41 is included in the identifier registered in the management list 20A acquired in the process of step S40. To determine. When it is determined that the identifier of the power receiving device 30 is included in the identifier registered in the management list 20A (step S42: Yes), the control unit 44 proceeds to the process of step S43. On the other hand, when the control unit 44 determines that the identifier of the power receiving device 30 is not included in the identifier registered in the management list 20A (step S42: No), the process ends.

  In the process of step S43, the control unit 44 starts power transmission by the power transmission unit 41 with the power receiving device 30 as a power transmission target.

  In the process of step S <b> 44, the control unit 44 determines whether or not the notification signal from the power receiving device 30 to be transmitted has been received via the communication unit 42. When the control unit 44 determines that the notification signal from the power receiving device 30 to be transmitted is received (step S44: Yes), the control unit 44 proceeds to the process of step S45. On the other hand, when it determines with the control part 44 not receiving the notification signal from the power receiving apparatus 30 of electric power transmission object (step S44: No), it progresses to the process of step S46.

  In the process of step S <b> 45, the control unit 44 transmits the identifier of the power receiving device 30 to be transmitted to the management device 20 via the communication unit 42 and the network 2 during power transmission to the power receiving device 30. Thereafter, the control unit 44 performs the process of step S44.

  In the process of step S <b> 46, the control unit 44 ends power transmission to the power receiving device 30. In the process of step S <b> 47, the control unit 44 transmits information related to the power transmission to the management device 20 via the communication unit 42 and the network 2 together with the identifier of the power receiving device 30 that has finished transmitting power.

  As described above, in the power feeding system 1 according to the first embodiment, the management device 20 registers the identifier of the power receiving device existing in the predetermined area 3 in the management list 20A. Further, in the power supply system 1, the power transmission device 40 wirelessly transmits power to the power reception devices having identifiers registered in the management list 20A among the power reception devices existing near the power transmission device. By such control, in the power supply system 1 according to the first embodiment, in order to start power transmission from the power transmission device 40 to the power reception device 30, a connection is established between the power transmission device 40 and the power reception device 30. It is not necessary to authenticate. Therefore, according to the first embodiment, an improved power supply system 1 can be provided.

  Furthermore, in the power feeding system 1 according to the first embodiment, the power transmission device 40 transmits the identifier of the power reception device 30 to the management device 20 during power transmission to the power reception device 30. Furthermore, in the management list 20A, the management device 20 sets a flag indicating that power transmission is being performed in the identifier of the power reception device 30 that is a power transmission target in association with the power transmission device 40 that is currently transmitting power. By using such a management list 20A, it is possible to quickly grasp the number of power receiving devices receiving power transmission in the predetermined area 3 shown in FIG. Furthermore, by associating the flag with the power transmission device, the position of the power receiving device receiving power transmission can be quickly grasped from the position of the power transmission device, for example.

  In the power supply system 1 according to the first embodiment, the management device 20 updates the management list 20 </ b> A with information related to power transmission acquired from the power transmission device 40. By using such a management list 20A, it is possible to grasp the travel route of a passenger who owns the power receiving device 30 from, for example, a record of the position and time of the power transmitting device that the power receiving device 30 received power. Become.

  Moreover, in the electric power feeding system 1 which concerns on 1st Embodiment, as shown in FIG. 1, 40 A of power transmission apparatuses can be arrange | positioned at the inlet 4A. Even if it is difficult for the power receiving device 30 to store electric power such as an IC card by such an arrangement, the power receiving device 30 passes through the entrance 4A and enters the predetermined region 3 to transmit the power transmitting device 40A. It is possible to receive electric power without power from. By receiving power when entering the predetermined area 3, the power receiving device 30 can transmit a notification signal after entering the predetermined area 3.

(Second Embodiment)
Next, a power feeding system according to the second embodiment of the present disclosure will be described. Below, it demonstrates centering on difference with 1st Embodiment.

  FIG. 9 is a functional block diagram illustrating a configuration of a power feeding system 1A according to the second embodiment of the present disclosure. In the components shown in FIG. 9, the same components as those shown in FIG. A power feeding system 1A according to the second embodiment includes a reading device 10, a management device 20, a power receiving device 30A, and a power transmitting device 40.

  The power receiving device 30A according to the second embodiment is, for example, a mobile phone in which a dedicated application that provides a ticket function and an electronic money function is installed. The power receiving device 30 </ b> A includes a power receiving unit 31, a communication unit 32, a storage unit 33, a control unit 34, and a power storage unit 35.

  Power storage unit 35 includes a battery 35A. The battery 35A is, for example, a thium ion battery or a nickel cadmium battery. The battery 35 </ b> A is charged with power that is not consumed by the power receiving device 30 among power received by the power receiving device 30.

  As described above, in the power feeding system 1A according to the second embodiment, the power storage unit 35 of the power receiving device 30A can be charged with the power transmitted by the power transmitting device 40. By such control, in the second embodiment, it is possible to provide a power supply service to a user who uses the predetermined area 3.

  In the power feeding system 1A according to the second embodiment, other effects and configurations are the same as those of the power feeding system 1 according to the first embodiment.

  Although one embodiment of the present disclosure has been described based on the drawings and examples, it should be noted that those skilled in the art can easily make various variations and modifications based on the present disclosure. Accordingly, it should be noted that these variations and modifications are included in the scope of the present disclosure. Functions included in each component, each step, etc. can be rearranged so as not to be logically contradictory, and a plurality of components, steps, etc. can be combined into one or divided. . Also, an embodiment of the present disclosure has been described centering on an apparatus. However, the present disclosure can also be realized as a method, a program, or a storage medium recording the program, which is executed by a processor included in the apparatus. Accordingly, it should be understood that these are also included in the scope of the present disclosure.

  For example, in the above embodiment, the power receiving device 30 periodically transmits a notification signal indicating the presence of the own device. However, even if the power transmission device 40 periodically transmits a notification signal indicating the presence of the own device. Good. In this case, when receiving the notification signal from the power transmission device 40, the power reception device 30 may transmit the identifier of the power reception device 30 to the power transmission device 40.

  For example, the predetermined area 3 shown in FIG. 1 may be a toll road that charges a toll for the user. When the predetermined area 3 is a toll road, the entrance / exit 4 where the reading device 10 is installed corresponds to a toll gate dedicated to ETC, and the power receiving device 30 corresponds to an electric vehicle.

  For example, the predetermined area 3 shown in FIG. 1 may be a building in which entry / exit of a user is managed. When the predetermined area 3 is such a building, the entrance / exit 4 where the reading device 10 is installed corresponds to an entrance / exit gate, and the power receiving device 30 corresponds to an IC card for identification. Here, when there is one entrance / exit gate corresponding to the entrance / exit 4 (when there is one reading device 10), the management device 20 passes through the entrance / exit 4 as an entrance and enters the building. 30 identifiers are acquired from the reader 10. Furthermore, the management device 20 registers the acquired identifier of the power receiving device 30 entering the building in the management list 20A. In addition, when the management apparatus 20 acquires the identifier of the power receiving apparatus 30 that passes through the entrance 4 that is also an exit and exits from the building, the management apparatus 20 deletes the identifier from the management list 20A.

1, 1A Power supply system 2 Network 3 Predetermined area 4 Entrance / exit 4A Inlet 4B Exit 5, 5A, 5B Automatic ticket gate 10
DESCRIPTION OF SYMBOLS 10A 1st reading apparatus 10B 2nd reading apparatus 11 Reader / writer part 12 Communication part 13 Storage part 14 Control part 20 Management apparatus 20A Management list 21 Communication part 22 Storage part 23 Control part 30, 30A Power receiving apparatus 31 Power receiving part 31A Antenna 31B Rectification Circuit 32 Communication unit 33 Storage unit 34 Control unit 35 Power storage unit 35A Battery 40, 40A, 40B, 40C Power transmission device 41 Power transmission unit 42 Communication unit 43 Storage unit 44 Control unit

Power supply system according to an embodiment of the present disclosure includes a power transmission device for transmitting power wirelessly, the first reading device. The power transmission device is disposed in a predetermined area. The first reading device, wherein are installed at an entrance of the predetermined area, the wireless power receiving capable receiving apparatus power is when passing through the inlet, obtaining a first identifier of the receiving device. The first reading device transmits the first identifier to a management device. The power transmission device receives the first identifier from the management device, then receives an identifier of the other device from a device different from the management device as a second identifier, and receives the second identifier and the first identifier. When is matched , power is transmitted wirelessly.

The method of the power supply system according to an embodiment of the present disclosure is a method of controlling a power supply system comprising a power transmitting device for transmitting power wirelessly, the first reading device. The power transmission device is arranged in a predetermined area. The first reading device is installed at the entrance of the predetermined area. The method of the power supply system, the first reading device, when the wireless power receiving enabling power receiving apparatus power passes through the inlet, obtaining a first identifier of the receiving device, the first reading And a device transmitting the first identifier . Further, in the method for controlling the power supply system, after the power transmission device receives the first identifier from the management device , the power transmission device receives the identifier of the other device from a device different from the management device as a second identifier, When the said 2nd identifier and the said 1st identifier correspond, the step which transmits electric power by radio | wireless is included.
A power transmission device according to an embodiment of the present disclosure is a power transmission device that is arranged in a predetermined area where a reading device is installed at an entrance and wirelessly transmits power. The reading device acquires an identifier of the power receiving device as a first identifier when a power receiving device capable of receiving power passes through the entrance. The power transmission device includes a power transmission unit, a communication unit that receives the first identifier from a management device, and a control unit. After the control unit receives the first identifier by the communication unit, the control unit receives the identifier of the other device as a second identifier from a device different from the management device by the communication unit, and the second identifier and When the first identifier matches, the power transmission unit is caused to transmit power wirelessly.

Claims (8)

A power transmission device disposed in a predetermined area and transmitting power wirelessly;
A power receiving device for receiving power wirelessly;
A first reading device installed at an entrance of the predetermined area and acquiring an identifier of the power receiving device passing through the entrance;
A management device that manages the power receiving device existing in the predetermined area,
The management device registers the identifier of the power receiving device that passes through the entrance and enters the predetermined area in a management list,
The power transmission system, wherein the power transmission device wirelessly transmits power to the power reception device having the identifier registered in the management list. The power feeding system according to claim 1,
The entrance is also the exit,
The power management system, wherein the management device deletes the identifier of the power receiving device that exits the predetermined area through the entrance that is also the exit from the management list. The power feeding system according to claim 1,
A second reading device installed at an outlet of the predetermined area and acquiring an identifier of the power receiving device passing through the outlet;
The power management system, wherein the management device deletes the identifier of the power receiving device that passes through the exit and exits the predetermined area from the management list. In the electric power feeding system as described in any one of Claim 1 to 3,
The power receiving device has a battery,
The power supply system, wherein the battery is charged by electric power received by the power receiving device. In the electric power feeding system as described in any one of Claim 1 to 4,
The power transmission device transmits the identifier of the power reception device to be transmitted to the management device during power transmission to the power reception device,
The power management system, wherein the management device sets a flag indicating that power transmission is in progress in an identifier of the power transmission target power receiving device in the management list. In the electric power feeding system as described in any one of Claim 1 to 5,
The power transmission system transmits information related to the power transmission together with the identifier of the power receiving device to the management device after power transmission to the power receiving device. The power feeding system according to claim 6,
The information regarding the power transmission is a power feeding system including at least one of a time at which power transmission is started, a time at which power transmission is terminated, and an amount of power transmitted from the power transmission device to a power reception device. A power transmission device that wirelessly transmits power, a power reception device that wirelessly receives power, a first reading device, and a management device, wherein the power transmission device is disposed in a predetermined area, and the first reading device is A method of controlling a power supply system installed at an entrance of a predetermined area,
The first reading device obtaining an identifier of the power receiving device passing through the entrance;
The management device registering the identifier of the power receiving device that passes through the entrance and enters the predetermined area in a management list;
A method of controlling a power feeding system, comprising: a step of wirelessly transmitting power to the power receiving device having the identifier registered in the management list.

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