JP2010079456A - Electricity bill charging system for mobile object - Google Patents

Abstract

Provided is a mobile power billing system capable of directly charging a mobile body owner even when receiving power from an outlet installed in a house, a store or an office.
Information on the amount of electric power supplied to an automobile EM from an outlet 2 at an electric power supply location H is notified from a center device S to an electric power supplier contracted by the owner of the automobile EM. Therefore, the power amount is charged directly to the owner, and the manager of the power supply location H is charged a difference power amount obtained by subtracting the power amount supplied to the automobile EM. As a result, when charging the secondary battery 20 mounted on the vehicle EM at an arbitrary power supply location H, a power charge is directly exchanged between the administrator of the power supply location H and the owner of the vehicle EM. Therefore, convenience and safety are improved.
[Selection] Figure 1

Description

  The present invention relates to a mobile power billing system for billing a power charge of power used to charge a secondary battery mounted on a mobile.

In recent years, with the increase of mobile bodies equipped with secondary batteries such as electric cars, electric bicycles, and mobile phones, for example, coin-type mobile phones that charge secondary batteries of mobile phones for a certain period of time by inserting coins Chargers, or hybrid vehicles that use an internal combustion engine (such as a gasoline engine) and an electric motor (motor) as power sources, or electric vehicles that use only an electric motor as a power source (hereinafter, both are referred to as "electric vehicles"). Charging stations (power supply stands) for charging secondary batteries installed in are starting to be installed throughout the country. In this type of charging station, the user's ID information is obtained from the electric vehicle by data communication via a power supply cable, and the ID information and the pre-registered ID information are authenticated, and authentication is possible. Only when it is determined, the electric vehicle is supplied with power through the power cable, and the user is charged with an electricity charge corresponding to the amount of power supplied (see, for example, Patent Document 1).
JP 2008-77267 A

  By the way, in areas where the above-described coin-type mobile phone chargers and charging stations are not installed, they are installed in houses, stores, offices, etc. to charge secondary batteries mounted on mobile objects. It is necessary to receive power from the outlet. In this case, the charge of electricity required for charging the secondary battery (electricity charge) is paid to the owner from the power company with which the owner of the house, store or office where the outlet is installed is contracted. You will be charged, and you will not be charged directly to the owner of the mobile that actually used the power. For this reason, when receiving power from an outlet installed in a house, store, or office, the owner of the house, store, or office must obtain consent for the use of the outlet, and is installed in a mobile unit. There is a problem that the rechargeable battery cannot be easily charged.

  The present invention has been made in view of the above circumstances, and its purpose is to directly charge the owner of a moving object even when receiving power from an outlet installed in a house, store, office, or the like. It is an object of the present invention to provide a mobile power billing system that can perform such operations.

  In order to achieve the above-mentioned object, the invention according to claim 1, when a secondary battery mounted on a mobile body is charged with power supplied from an outlet installed at an arbitrary power supply location A mobile power billing system for charging a power charge corresponding to the amount of power used for charging a secondary battery to a body owner, wherein the mobile is equipped with a secondary battery Storage means storing identification information for identifying the owner of the body, a charging cord set that forms a power feeding path from the outlet installed in the power supply place to the moving body, and the charging cord set A first power amount measuring means for measuring the amount of power supplied from the outlet, identification information stored in the storage means, and a first power amount measurement value measured by the first power amount measuring means are transmitted. Through the medium Data transmission means for transmitting to the center device, and the power supply location includes a second power amount measurement means for measuring the amount of power supplied from a power supplier contracted by an administrator of the power supply location. And a notifying means for notifying the center device of the second power amount measurement value measured by the second power amount measuring means, and the center device moves based on the first power amount measurement value. A calculation means for calculating a power amount to be charged to the owner of the body and calculating a differential power amount obtained by subtracting the first power amount measurement value from the second power amount measurement value; and identification of the owner A storage unit storing a correspondence relationship between the information and a power supplier contracted by the owner, and a power supplier corresponding to the identification information stored in the storage unit, the power charge calculated by the calculation unit As well as computing means The administrator said power difference amount computed is characterized in that it comprises a contact means to contact the power supplier to contract.

  According to the first aspect of the present invention, the information on the amount of power supplied to the mobile body from the outlet of the power supply location is notified from the center device to the power supplier contracted by the owner of the mobile body, so that the power amount Is charged directly to the owner, and the manager of the power supply location is charged according to the difference power amount obtained by subtracting the amount of power supplied to the mobile body. As a result, when a secondary battery mounted on a mobile unit is charged at an arbitrary power supply location, a power charge is directly exchanged between the manager of the power supply location and the owner of the mobile unit. Therefore, convenience and safety are improved.

  The invention of claim 2 is characterized in that, in the invention of claim 1, a first power amount measuring means is provided in the charging cord set.

  According to a third aspect of the present invention, in the first or second aspect of the present invention, communication means for performing communication via the charging cord set is provided in the mobile body and the power supply place. The notifying means for notifying the center device of the identification information received from the mobile body by the communication means, and the power supply control means for turning on / off the power supply from the outlet via the charging cord set are provided. The apparatus collates the identification information notified from the notification means of the power supply location with the identification information stored in the storage means, and determines whether or not the verification is possible at the power supply location. The power supply control means at the power supply location receives the communication that can be verified from the contact means of the center device. The power supply via the charging cable set is turned on from Toretto, when receiving the communication matching not is characterized by turning off the power supply through the charging cable set from the outlet.

  According to the invention of claim 3, since only the person who has registered the identification information in the center device in advance can charge the secondary battery of the mobile body using the power supply place, the power charge can be moved reliably. You can charge the body owner.

  The invention according to claim 4 is the invention according to claim 3, wherein the communication means on the mobile body side transmits and receives a transmission signal via a communication line different from the power supply path, and the communication means on the power supply place side is for the charging. Power line communication for transmitting and receiving transmission signals via a power supply path of a cord set is performed, and the charging cord set is provided between an opening / closing means for opening and closing a contact portion inserted in the power supply path and the power line communication means. And a second power line communication means for performing power line communication and an interface means for interfacing between the communication line and the second power line communication means.

  According to the invention of claim 4, even when the contact portion of the charging cord set is open, communication can be performed between the communication means of the mobile unit and the communication means of the power supply location.

  According to a fifth aspect of the present invention, in the third aspect of the present invention, the communication means performs power line communication for transmitting and receiving a transmission signal via a feeding path of the charging cord set. An opening / closing means for opening and closing a contact portion inserted in the road, and a transmission means for transmitting a transmission signal transmitted and received by the power line communication means across the contact portion.

  According to the fifth aspect of the present invention, communication can be performed between the communication unit of the mobile unit and the communication unit of the power supply place even when the contact portion of the charging cord set is open.

  According to a sixth aspect of the present invention, in the first aspect of the present invention, the movable body is an electric vehicle or an electric motorcycle, and an electronic toll collection system is mounted on the vehicle as the data transmission means. And an IC card used in combination with the on-vehicle device as the storage means, and a wireless communication means for performing wireless communication with the on-vehicle device at the power supply location, and the wireless communication Transfer means for transferring the identification information received from the vehicle-mounted device and the first measured electric energy to the center device is provided.

  According to the invention of claim 6, the cost can be reduced by using the existing electronic tall collection system.

  According to a seventh aspect of the present invention, in the third aspect of the present invention, the outlet retains an electrical connection state of the charging cord set by a magnetic force, and the power supply control means invalidates the magnetic force. The power supply from the outlet through the charging cord set is turned off.

  The invention according to claim 8 is the invention according to any one of claims 1 to 7, wherein the power supply location generates private power generation equipment such as a photovoltaic power generation system or a fuel cell power generation system, and the private power generation equipment generates power. A storage battery for storing electric power, an electric power system of an electric power supplier that supplies electric power to the electric power supply place, and an electric grid interconnection device that performs an electric grid interconnection operation with the private power generation facility are provided. The electric power of the private power generation facility or the storage battery is preferentially supplied to the outlet.

  The invention according to claim 9 is the invention according to any one of claims 1 to 8, wherein the mobile body and the grid interconnection device have second data transmission means for performing data transmission with each other, and the grid The interconnection device obtains data on the amount of power necessary for charging the secondary battery mounted on the mobile body by the second data transmission means, and supplies the data from the private power generation facility or the storage battery. The amount of power that can be calculated is calculated, and the amount of power is notified from the notification means to the center device.

  According to invention of Claim 9, the electric power generated with the private power generation equipment can be sold to the owner of a mobile body.

  ADVANTAGE OF THE INVENTION According to this invention, even when receiving electric power supply from the outlet installed in a house, a store, an office, etc., it can charge directly with respect to the owner of a mobile body.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. However, in the following embodiments, an electric vehicle (including a plug-in hybrid vehicle) is exemplified as a moving body, but the moving body to which the technical idea of the present invention is applied is not limited to an electric vehicle, and an electric vehicle In addition to a vehicle such as a motorcycle (so-called electric scooter) or an electric bicycle, a mobile phone or a notebook personal computer may be used.

(Embodiment 1)
FIG. 1 shows a system configuration diagram of the present embodiment. An electric vehicle (hereinafter abbreviated as an automobile) EM is a secondary battery 20 that supplies power to an electric motor (motor) (not shown), and AC power supplied from the outside is converted into DC power to charge the secondary battery 20. A charging device 21, a control device 22 to be described later, an in-vehicle device 23 of an electronic tall collection (ETC) system, and a receptacle connector 25 detachably connected to a plug connector 41 of a charging cord set 40 to be described later Is installed. The vehicle-mounted device 23 reads identification information for identifying the owner of the automobile EM from the IC card (so-called ETC card) 24 and transmits the identification information to the communication device 30 by wireless communication. However, since the vehicle-mounted device 23, the IC card 24, and the communication device 30 are well known in the art, a detailed description thereof will be omitted.

  The control device 22 includes a control unit 22a having a microcomputer as a main component, and a power amount measurement unit (first unit) that measures the amount of AC power supplied from the outside to the charging device 21 via the charging cord set 40. Power amount measuring means) 22b and a power line communication unit 22c for performing power line communication (PLC) via the charging cord set 40. The control unit 22a has interface means for performing wired data transmission with the vehicle-mounted device 23, and can acquire the identification information read from the IC card 24 by the vehicle-mounted device 23.

  In an electric power supply place (for example, a house, a store, or an office) H, an outlet (outlet) 2 into which the plug 42 of the charging cord set 40 is pluggably inserted and connected, the control device 1, and power A watt hour meter (second power amount measuring means) 3 installed by a power supplier (for example, a power company) that supplies power (AC power) to the supply place H, and provided at the subsequent stage of the watt hour meter 3 A distribution board 4 and an internet connection device 5 for connecting the control device 1 to the internet via a signal transmission medium Ls such as a telephone line, a coaxial cable or an optical cable are installed. The Internet connection device 5 is a conventionally known ADSL modem, cable modem, or ONU (optical line termination device), and is connected to the control device 1 via a twisted pair cable (LAN cable). The watt-hour meter 3 measures all the power consumed at the power supply location H at a time, and a power charge is charged from the power supplier based on the measured value.

  The control device 1 includes a control unit 10 including a microcomputer as a main component, a storage unit 11 including a magnetic storage device and a nonvolatile semiconductor memory, and a power line Lp connecting the distribution board 4 and the outlet 2. A power line communication unit 12 that performs power line communication and a power supply control unit 13 that turns on / off power supply to the outlet 2 via the power line Lp are provided. The control unit 10 is connected to the Internet connection device 5 via a LAN cable, and is connected to the Internet via the Internet connection device 5.

  The charging cord set 40 includes a plug receptacle 41, an insertion plug 42, a power supply control device 43, a power supply cable 44 that forms a power supply path from the power supply control device 43 to the plug receptacle 41, and a power supply from the insertion plug 42. And a power supply cable 45 that forms a power supply path to the control device 43. The power supply control device 43 includes a switch SW that opens and closes a power supply path provided between the power supply cables 44 and 45, a leakage detection function that detects leakage on the power supply cable 44 side (vehicle EM side) from the switch SW, and the power supply cable 44. Having a power line communication function for performing power line communication via the switch, and turning off the switch SW when a leakage is detected by the leakage detection function, and a switch based on a control command given by the power line communication from the control device 22 of the automobile EM A control unit 43a for turning on / off the SW and a signal coupler 43b for enabling power line communication via the power feeding cables 44, 45 when the switch SW is off are provided. However, data communication between the control device 22 of the automobile EM and the power supply control device 43 is performed via a dedicated communication line, and only data communication between the control device 1 at the power supply location H and the power supply control device 43 is performed. You may make it carry out by power line communication. In this case, if the control unit 43a of the power supply control device 43 has an interface function for data communication and power line communication via a communication line, the control device 22 of the automobile EM and the control of the power supply location H can be provided without providing the signal coupler 43b. Data communication can be performed with the device 1 regardless of whether the switch SW is on or off.

  The center device S includes a communication unit 50 that performs data communication through the Internet, a control unit 51 that includes a microcomputer as a main component, and a storage unit 52 that includes a magnetic storage device, a nonvolatile semiconductor memory, and the like. The storage unit 52 identifies the correspondence between the identification information (owner identification information) of the owner of the automobile EM and the power supplier (electric power company) with which the owner contracts, and the manager of the power supply location H. And the correspondence relationship between the identification information (manager identification information) and the power supplier (electric power company) with which the manager contracts, and the contact information of each power supplier (the servers X1 and X2 managed by each power supplier) IP address) and the like are stored.

  Next, the accounting process of the present embodiment configured as described above will be described. In the following description, it is assumed that the owner of the automobile EM charges at a power supply location H other than the home (for example, another person's house, store, office, etc.).

  First, the owner of the automobile EM connects the plug connector 41 and the plug 42 of the charging cord set 40 to the receptacle connector 25 of the automobile EM and the outlet 2 of the power supply place H, respectively. The control unit 22a of the control device 22 of the automobile EM acquires owner identification information read by the vehicle-mounted device 23 from the IC card 24, and transmits the owner identification information from the power line communication unit 22c to the control device 1 at the power supply location H. Send it.

  In the control device 1 at the power supply location H, when the owner identification information transmitted from the control device 22 of the automobile EM is received by the power line communication unit 12, the control unit 10 stores the owner identification information together with the owner identification information in the storage unit 11. The manager identification information of the power supply location H is transmitted from the Internet connection device 5 to the center device S. In the center device S, whether or not the owner identification information received from the control device 1 at the power supply location H is stored (registered) in the storage unit 52, that is, the owner received from the control device 1 at the power supply location H. The control unit 51 collates the identification information with the owner identification information stored in the storage unit 52. If the identification information is stored in the storage unit 52, it is determined that “verification is possible” and is stored in the storage unit 51. It is determined that “verification is impossible”. Then, the control unit 51 causes the control unit 1 at the power supply location H, which is a transmission source, to transmit the determination result of owner identification information (whether collation is possible) from the communication unit 50.

  Based on the determination result sent from the center device S, the control unit 10 of the control device 1 at the power supply location H instructs the power supply control unit 13 if the determination result cannot be verified, and the outlet via the power line Lp. The power supply to 2 is turned off and the accounting process is terminated. On the other hand, if the determination result can be verified, the power supply control unit 13 is instructed to keep the power supply to the outlet 2 via the power line Lp on and information (power supply possible information) indicating that the power supply is possible is the power line communication. The data is transmitted from the unit 12 to the control device 22 of the automobile EM.

  In the control device 22 of the automobile EM, when the power line communication unit 22 c receives the power supply possible information transmitted from the control device 1 at the power supply location H, the control unit 22 a switches the power supply control device 43 of the charging cord set 40. A control command for turning on the SW is transmitted from the power line communication unit 22c. When the control unit 43a of the power supply control device 43 turns on the switch SW based on the control command, power is supplied from the outlet 2 to the charging device 21 of the automobile EM via the charging cord set 40. The secondary battery 20 is charged. At this time, in the control device 22 of the automobile EM, the amount of power supplied from the outlet 2 to the charging device 21 is measured by the power amount measuring unit 22b. When the secondary battery 20 is fully charged, a charging completion signal is output from the charging device 21 to the control unit 22a. When the control unit 22a receives the charge completion signal from the charging device 21, the control unit 22a transmits a control command for turning off the switch SW to the power supply control device 43 of the charging cord set 40 from the power line communication unit 22c and also supplies the power supply place H. To notify the control device 1 of the end of power supply from the power line communication unit 22c. In addition, the control unit 22a causes the power amount measurement unit 22b to finish measuring the power amount, and acquires the measurement value (first power amount measurement value) from the power amount measurement unit 22b. And the control part 43a of the electric power feeding control apparatus 43 turns off switch SW based on the said control command, and electric power feeding through the cord set 40 for charging from the outlet 2 stops.

  In the control device 1 at the power supply location H, when the power line communication unit 12 receives the information for notifying the end of power supply transmitted from the control device 22 of the automobile EM, the control unit 10 measures the measured power amount from the wattmeter 3. (Second electric energy measurement value) is acquired, and the second electric energy measurement value is notified to the center device S through the Internet connection device 5.

  On the other hand, in the control device 22 of the automobile EM, the first electric energy measurement value acquired from the electric energy measurement unit 22b is transmitted from the vehicle-mounted device 23 by a radio signal. And the 1st electric energy measurement value transmitted from the onboard equipment 23 is received by the communication apparatus 30, and is transferred to the center apparatus S from the communication apparatus 30 through the internet.

  In the center device S, when the communication unit 50 receives the second power amount measurement value transmitted from the control device 1 at the power supply location H and the first power amount measurement value transmitted from the control device 22 of the automobile EM, Based on the first measured electric energy value, the control unit 51, which is a calculation means, calculates a power charge to be charged for the owner of the car EM, and the first measured electric energy from the second measured electric energy value. The difference electric energy obtained by subtracting the value is calculated. Further, the control unit 51, based on the correspondence stored in the storage unit 52, the contact information of the power supplier corresponding to the owner identification information of the owner of the automobile EM (the IP address of the server X2 of the power supplier) And the calculated power rate information is transmitted from the communication unit 50 to the IP address of the server X2. Furthermore, based on the correspondence relationship stored in the storage unit 52, the control unit 51 has contact information (the IP address of the server X1 of the power supplier) corresponding to the manager identification information of the manager of the power supply location H. Address) and the calculated difference power information is transmitted from the communication unit 50 to the IP address of the server X1.

  Then, in the server X2 of the power supplier with which the owner of the automobile EM is contracted, the information (power charge) received from the center device S is used as another power charge (for example, power used at the owner's home). To charge the owner together with the amount of power charge). In addition, the server X1 of the power supplier contracted by the manager of the power supply location H receives from the center device S, not the amount of power measured by the watt-hour meter 3 installed in the power supply location H. A process of charging the administrator with a power charge calculated based on the difference power amount is performed. However, if the power supplier with whom the owner has a contract and the power supplier with which the manager has a contract are the same, there is no problem with the above-mentioned process. It is necessary to pay a power charge corresponding to the amount of power supplied at the power supply location H of the administrator from the power supplier with whom the owner has contracted to the power supplier with which the manager has contracted.

  Thus, according to the present embodiment, information on the amount of power supplied from the outlet 2 of the power supply location H to the automobile EM is notified from the center device S to the power supplier contracted by the owner of the automobile EM. Therefore, the power amount is charged directly to the owner, and the manager of the power supply location H is charged a difference power amount obtained by subtracting the power amount supplied to the automobile EM. As a result, when charging the secondary battery 20 mounted on the vehicle EM at an arbitrary power supply location H, a power charge is directly exchanged between the administrator of the power supply location H and the owner of the vehicle EM. Therefore, convenience and safety are improved. However, when the owner of the automobile EM and the manager of the power supply location H are the same, for example, when the owner of the automobile EM charges at home, the center apparatus S owns the owner based on the owner identification information and the manager identification information. If it is determined that the manager and the manager are the same person, the above-described charging process may be stopped.

  In this embodiment, the power amount measurement unit 22b is provided in the control device 22 mounted on the automobile EM. However, the power amount measurement unit is provided in the power supply control device 43 of the charging cord set 40, and power line communication or dedicated It is also possible to transmit information on the first measured electric energy from the power supply control device 43 to the control device 22 of the automobile EM using data communication via the communication line.

  Further, in the present embodiment, only a person who has registered identification information (owner identification information) in the center device S in advance can charge the secondary battery 20 of the automobile EM using the power supply location H. The electric power charge can be reliably charged to the owner of the automobile EM. Furthermore, in this embodiment, the identification information (owner identification information) of the owner of the automobile EM is acquired by the control device 22 using the existing electronic tall collection system, and is notified to the center device S. Therefore, there is an advantage that the cost can be reduced.

  By the way, when a magnetic outlet is used as an outlet of the power supply place H, and verification is possible by controlling the energization and power failure or the direction of energization of the electromagnet of the magnet outlet with the control unit 10 of the control device 1. When the plug 42 of the charging cord set 40 is held in the connected state by the magnetic attractive force of the electromagnet, and the collation is impossible, the magnetic force of the electromagnet is lost or the magnetic repulsive force is generated in the electromagnet. The plug 42 may not be held in a connected state.

(Embodiment 2)
FIG. 2 shows a system configuration diagram of the present embodiment. However, since the basic configuration of this embodiment is the same as that of the first embodiment, the same components as those of the first embodiment are denoted by the same reference numerals, and illustration and description thereof are partially omitted.

  The present embodiment is different from the first embodiment in that a solar battery 6 as a private power generation facility, a storage battery 7 that stores electric power generated by the solar battery 6, and a grid interconnection operation between the power system AC and the solar battery 6. The grid connection device (power conditioner) 8 to be performed is provided in the power supply place H. However, it is also possible to use a fuel cell instead of the solar cell 6 as a private power generation facility.

  The power conditioner 8 is well known in the art, and is a boost chopper circuit (not shown) that boosts the DC output of the solar cell 6, and a sine that synchronizes the DC output boosted by the boost chopper circuit with the phase of the power system AC. It has an inverter (not shown) that converts the AC output to a wave, an inverter control circuit (not shown) that adjusts the AC output by controlling the inverter, an interconnection protection device, and the like. The output is output to the distribution board 4 through the linkage protection device. However, in the present embodiment, a data communication device that performs data communication with the control device 1 is provided in the power conditioner 8.

  Next, the charging process of this embodiment will be described with a focus on the operation of the control device 1 with reference to the flowchart of FIG.

  The control unit 10 of the control device 1 is on standby until the owner identification information is sent from the control device 22 of the automobile EM (step S1). When the owner identification information is received from the control device 22 of the automobile EM, It is determined whether or not the received owner identification information matches the administrator identification information stored in the storage unit 11 (step S2). When they match (for example, when the owner of the automobile EM charges at home), the control unit 10 has a charge amount required for the secondary battery 20 mounted on the automobile EM with respect to the controller 22 of the automobile EM. A command for requesting notification is transmitted from the power line communication unit 12, and the charge amount (power amount) required for the secondary battery 20 is confirmed by information returned from the control device 22 in response to the command (step S3).

  Further, the control unit 10 confirms the current power generation amount of the solar cell 6 and the remaining capacity of the storage battery 7 with respect to the power conditioner 8, and whether or not the secondary battery 20 can be charged with the power generation amount and the remaining capacity. (Step S4), and only when the charging is impossible, the power conditioner 8 is instructed to start the grid interconnection operation (step S5), and then the power supply control unit 13 is instructed to supply the power line Lp. The power supply to the outlet 2 is turned on to start energization (step S6), and the power supply enable information is transmitted from the power line communication unit 12 to the control device 22 of the automobile EM.

  In the control device 22 of the automobile EM, when the power line communication unit 22 c receives the power supply possible information transmitted from the control device 1 at the power supply location H, the control unit 22 a switches the power supply control device 43 of the charging cord set 40. A control command for turning on the SW is transmitted from the power line communication unit 22c. When the control unit 43a of the power supply control device 43 turns on the switch SW based on the control command, power is supplied from the outlet 2 to the charging device 21 of the automobile EM via the charging cord set 40. The secondary battery 20 is charged. When the secondary battery 20 is fully charged, a charging completion signal is output from the charging device 21 to the control unit 22a. When the control unit 22a receives the charge completion signal from the charging device 21, the control unit 22a transmits a control command for turning off the switch SW to the power supply control device 43 of the charging cord set 40 from the power line communication unit 22c and also supplies the power supply place H. Information for notifying the end of power supply to the control device 1 is transmitted from the power line communication unit 22c. When the control unit 43a of the power supply control device 43 turns off the switch SW based on the control command, power supply from the outlet 2 via the charging cord set 40 is stopped. When the control unit 10 of the control device 1 receives a charge completion signal from the control device 22 of the automobile EM (step S7), the control unit 10 returns to step S1 and enters a state of waiting for reception of owner identification information (standby).

  On the other hand, when the owner identification information received from the control device 22 of the automobile EM does not match the administrator identification information stored in the storage unit 11 in step S2, the control unit 10 performs the ownership as in the first embodiment. The person identification information is transmitted from the Internet connection device 5 to the center device S (step S8). The control unit 51 of the center device S collates the owner identification information received from the control device 1 of the power supply location H with the owner identification information stored in the storage unit 52, and the power supply location that is the transmission source The control unit 1 of H is transmitted from the communication unit 50 the determination result of owner identification information (whether or not collation is possible).

  Based on the determination result sent from the center device S, the control unit 10 of the control device 1 instructs the power supply control unit 13 to supply power to the outlet 2 via the power line Lp if the determination result cannot be verified. The billing process is terminated by turning it off, and the process returns to step S1 to enter a state of waiting for reception of owner identification information (standby).

  On the other hand, if the determination result can be verified, the control unit 10 sends a command for requesting a notification of the amount of charge required for the secondary battery 20 mounted in the vehicle EM to the control device 22 of the vehicle EM. 12 and the amount of charge (power amount) required for the secondary battery 20 is confirmed by information returned from the control device 22 in response to the command (step S10). Further, the control unit 10 confirms the current power generation amount of the solar cell 6 and the remaining capacity of the storage battery 7 with respect to the power conditioner 8, and whether or not the secondary battery 20 can be charged with the power generation amount and the remaining capacity. (Step S11), and only when the charging is impossible, the power conditioner 8 is instructed to start the grid interconnection operation (step S12), and then the power supply control unit 13 is instructed to supply the power line Lp. The power supply to the outlet 2 is turned on to start energization and the power conditioner 8 starts to measure the amount of power (step S13), and the power supply communication unit 12 sends power supply information to the vehicle EM. Transmit to device 22.

  When the control unit 22a of the control device 22 of the automobile EM receives the power supply possible information transmitted from the control device 1 at the power supply location H by the power line communication unit 22c, the control unit 22a switches the switch SW to the power supply control device 43 of the charging cord set 40. A control command to turn on is transmitted from the power line communication unit 22c. When the control unit 43a of the power supply control device 43 turns on the switch SW based on the control command, power is supplied from the outlet 2 to the charging device 21 of the automobile EM via the charging cord set 40. The secondary battery 20 is charged. At this time, in the control device 22 of the automobile EM, the amount of power supplied from the outlet 2 to the charging device 21 is measured by the power amount measuring unit 22b. When the secondary battery 20 is fully charged, a charging completion signal is output from the charging device 21 to the control unit 22a. When the control unit 22a receives the charge completion signal from the charging device 21, the control unit 22a transmits a control command for turning off the switch SW to the power supply control device 43 of the charging cord set 40 from the power line communication unit 22c and also supplies the power supply place H. To notify the control device 1 of the end of power supply from the power line communication unit 22c. In addition, the control unit 22a causes the power amount measurement unit 22b to finish measuring the power amount, acquires the measurement value (first power amount measurement value) from the power amount measurement unit 22b, and further includes the power amount measurement unit. The 1st electric energy measurement value acquired from 22b is transmitted from the onboard equipment 23 by a radio signal. And the 1st electric energy measurement value transmitted from the onboard equipment 23 is received by the communication apparatus 30, and is transferred to the center apparatus S from the communication apparatus 30 through the internet. In addition, when the control unit 43a of the power supply control device 43 turns off the switch SW based on the control command, power supply from the outlet 2 via the charging cord set 40 is stopped.

  When the control unit 10 of the control device 1 receives a charge completion signal from the control device 22 of the automobile EM (step S14), the control unit 10 acquires a measurement value of the electric energy (second electric energy measurement value) from the watt-hour meter 3. A measured value (third measured electric energy value) of the electric energy supplied during charging of the secondary battery 20 from the power conditioner 8 is acquired (step S15), and the second and third measured electric energy values are obtained. The center device S is notified through the Internet connection device 5.

  In the center device S, the communication unit 50 receives the second and third power amount measurement values transmitted from the control device 1 at the power supply location H and the first power amount measurement value transmitted from the control device 22 of the automobile EM. Upon receipt, the control unit 51 pays the power fee to be paid from the owner of the car EM to the manager of the power supply location H and the power supplier contracted by the manager from the owner. Calculate the electricity charge to be paid. The former power charge is calculated based on the unit price of charge and the third measured electric energy value determined by the administrator of the power supply location H. In addition, the latter electric power charge is zero if the first electric energy measurement value and the third electric energy measurement value are equal, and if the first electric energy measurement value is larger than the third electric energy measurement value, It is calculated based on the electric energy obtained by subtracting the third electric energy measurement value from the first electric energy measurement value and the unit price of charge determined by the electric power supplier.

  Further, the control unit 51, based on the correspondence stored in the storage unit 52, the contact information of the power supplier corresponding to the owner identification information of the owner of the automobile EM (the IP address of the server X2 of the power supplier) The information of the latter power charge (the power charge to be paid to the power supplier contracted by the manager from the owner) is transmitted from the communication unit 50 to the IP address of the server X2 Let Furthermore, based on the correspondence relationship stored in the storage unit 52, the control unit 51 has contact information (the IP address of the server X1 of the power supplier) corresponding to the manager identification information of the manager of the power supply location H. Address), and the difference power amount information obtained by subtracting the difference between the first power amount measurement value and the third power amount measurement value from the second power amount measurement value is addressed to the IP address of the server X1, and the communication unit 50 is transmitted.

  Then, in the server X2 of the power supplier with which the owner of the automobile EM is contracted, the information (power charge) received from the center device S is used as another power charge (for example, power used at the owner's home). To charge the owner together with the amount of power charge). In addition, the server X1 of the power supplier contracted by the manager of the power supply location H receives from the center device S, not the amount of power measured by the watt-hour meter 3 installed in the power supply location H. A process of charging the administrator with a power charge calculated based on the difference power amount is performed.

  Furthermore, the power charge to be paid from the owner of the automobile EM to the manager of the power supply location H is notified from the center device S to the credit sales company to which the owner contracts, for example. What is necessary is just to make it pay to the said manager.

  Thus, according to the present embodiment, the power generated by the manager of the power supply location H using the private power generation facility can be sold to the owner of the automobile EM. In addition, it is also possible to incorporate the control device 1 in the present embodiment into the grid interconnection device (power conditioner 8).

1 is a system configuration diagram showing Embodiment 1 of the present invention. It is a system block diagram which shows Embodiment 2 of this invention. It is a flowchart for operation | movement description same as the above.

Explanation of symbols

EM electric vehicle (mobile)
H Power supply place S Center device 1 Control device 2 Outlet
3 Electricity meter 22 Control device 40 Charging cord set

Claims (9)

When the secondary battery mounted on the mobile unit was charged with power supplied from an outlet installed at an arbitrary power supply location, the secondary battery was charged to the owner of the mobile unit A mobile power billing system for billing a power bill corresponding to the amount of power,
The mobile unit includes a storage unit that stores identification information for identifying an owner of the mobile unit equipped with a secondary battery, and a charging unit that forms a power feeding path from an outlet installed at a power supply location to the mobile unit. A cord set, a first power amount measuring means for measuring the amount of power supplied from the outlet via the charging cord set, identification information stored in the storage means, and the first power amount measuring means. Data transmission means for transmitting the measured first electric energy measurement value to the center device through the transmission medium;
The power supply location includes a second power amount measuring means for measuring the amount of power supplied from a power supplier contracted by an administrator of the power supply location, and a second power amount measuring means measured by the second power amount measuring means. Notification means for notifying the center device of the measured electric energy amount of 2;
The center device calculates a power charge to be charged for the owner of the mobile body based on the first power amount measurement value, and obtains the first power amount measurement value from the second power amount measurement value. The calculation means for calculating the subtracted difference power amount, the storage means for storing the correspondence between the owner identification information and the power supplier with whom the owner contracts, and the power charge calculated by the calculation means, And a contact means for contacting the power supplier corresponding to the identification information stored in the storage means and for contacting the power supplier contracted by the manager for the difference power amount calculated by the computing means. A power charge billing system for mobiles.   The mobile power billing system according to claim 1, wherein a first power amount measuring means is provided in the charging cord set. Communication means for performing communication via the charging cord set is provided in the mobile body and the power supply place,
In the power supply place, the notification means for notifying the center device of the identification information received from the mobile body by the communication means, and the power supply control for turning on / off the power supply from the outlet via the charging cord set Means are provided,
The center device collates the identification information notified from the power supply location notification means and the identification information stored in the storage means, and determines whether the verification is possible or not at the power supply location. The communication means for contacting the control means,
When the power supply control means at the power supply location receives a communication that can be verified from the communication means of the center device, the power supply via the charging cord set is turned on from the outlet and a communication that cannot be verified is received. 3. The mobile power billing system according to claim 1 or 2, wherein power supply from the outlet through the charging cord set is turned off. The communication means on the mobile body side transmits and receives transmission signals via a communication line different from the power supply path, and the communication means on the power supply location side transmits and receives transmission signals via the power supply path of the charging cord set. To communicate,
The charging cord set includes: an opening / closing unit that opens and closes a contact portion inserted in a power feeding path; a second power line communication unit that performs power line communication with the power line communication unit; and the communication line and the second power line. 4. The mobile power billing system according to claim 3, further comprising interface means for interfacing with the communication means. The communication means performs power line communication for transmitting and receiving a transmission signal via a feeding path of the charging cord set,
The charging cord set includes an opening / closing means for opening / closing a contact portion inserted in a power supply path, and a transmission means for transmitting a transmission signal transmitted / received by the power line communication means across the contact portion. The mobile power billing system according to claim 3. The mobile body is an electric vehicle or an electric motorcycle, and an on-board device of an electronic tall collection system is mounted as the data transmission means, and an IC card used in combination with the on-vehicle device as the storage means Is used,
At the power supply location, wireless communication means for performing wireless communication with the vehicle-mounted device, and the identification information received by the wireless communication device from the vehicle-mounted device and the first power amount measurement value are transferred to the center device. The mobile power billing system according to claim 1, further comprising: a transfer unit configured to perform transfer. The outlet retains the electrical connection state of the charging cord set by magnetic force,
4. The mobile power billing system according to claim 3, wherein the power supply control means turns off power supply from the outlet through the charging cord set by invalidating the magnetic force. The power supply location includes a private power generation facility such as a solar power generation system or a fuel cell power generation system, a storage battery that stores power generated by the private power generation facility, and power of a power supplier that supplies power to the power supply location. A grid interconnection device for performing grid interconnection operation between the grid and the private power generation facility,
8. The mobile power billing system according to claim 1, wherein the grid interconnection device preferentially supplies power from the private power generation facility or storage battery to the outlet. 9. The mobile body and the grid interconnection device have second data transmission means for performing data transmission with each other,
The grid interconnection device acquires data on the amount of power necessary for charging a secondary battery mounted on the mobile body by a second data transmission unit, and the private power generation facility or the storage battery among the amount of power. The mobile power billing system according to claim 1, wherein a power amount that can be supplied from the mobile device is calculated, and the power amount is notified from the notification means to the center device. .

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