JP4859636B2 - Power usage management system, power usage management method - Google Patents

Description

  The present invention relates to a system and method for managing the amount of power used to charge a person who uses power even when an electric device is used using an outlet such as a place where the user is away.

  Usually, an electric power company calculates a power usage fee for the contractor based on the power consumption measured by a watt hour meter provided for each contractor. For this reason, even when a person other than the contractor uses an electrical device using an outlet managed by the contractor, the contractor who manages the outlet is charged for the power usage fee instead of the user. End up.

On the other hand, for example, in Patent Document 1, a power supply side control device capable of permitting and prohibiting power supply from an outlet is provided on the outlet side, and the power supply side control device is connected to the outlet. The user information for identifying the user is acquired, and authentication is performed by determining whether the acquired user information matches the user information registered in advance. If the authentication is successful, power is supplied from the outlet. And a power supply system that measures power usage and transmits user information and billing information to a power company server. According to this system, even when an electrical device is used by using an outside place or an outdoor outlet, the user who uses the electrical device can be charged.
JP 2006-94655 A

  However, in the system described in Patent Document 1, it is necessary to provide a power supply side control device having a function of measuring power usage on the outlet side and a function of transmitting user information and billing information to the power company server. For this reason, construction for installing the power supply side control device on the outlet side has to be performed, and there is a problem that costs and labor are required.

  The present invention has been made in view of the above-described problems, and its purpose is to use an electrical device using an external outlet without performing construction work for newly installing facilities or the like in the outlet. It is another object of the present invention to provide a system for allowing the user of the electric equipment to be charged a power usage fee.

  The power usage management system of the present invention is capable of communicating with the authentication adapter by being connected to the authentication adapter that can be connected to an outlet, and the authentication from the outlet. A power supply unit that receives power from the power adapter and supplies the power to the electrical device, and manages the power usage of the electrical device, wherein the authentication adapter is a power source of the outlet. Supply means for supplying power to the power supply section, and outlet ID transmission means for transmitting an outlet ID for identifying the outlet to the power supply section, wherein the power supply section supplies the power from the authentication adapter. A power usage amount measuring unit for measuring the power usage amount supplied to the electrical equipment via the unit, the measured power usage amount, Power usage information that enables transmission of the received outlet ID and the user ID for identifying the user of the electric device to a management server including a database in which the power usage information including the power usage for each user is recorded. And a transmission means.

In addition, the power usage management system of the present invention is capable of communicating with the authentication adapter by connecting to the authentication adapter that can be connected to an outlet and the authentication adapter, and from the outlet. A power supply unit that receives power from the authentication adapter and supplies the power to the electrical device, and a management server including a database in which power usage information including power usage for each user is recorded, A system for managing power consumption of the electrical device, wherein the authentication adapter includes a supply means for supplying power from the outlet to the power supply unit, and an outlet ID for identifying the outlet in the power supply unit. Outlet ID transmission means for transmitting, the power supply unit from the authentication adapter via the power supply unit, The power management unit that measures the power consumption supplied to the electrical device, the measured power usage, the received outlet ID, and the user ID for identifying the user of the electrical device are managed. A power usage information transmitting unit that enables transmission to a server, wherein the management server receives power usage information of a user corresponding to the received user ID and a user corresponding to an outlet ID, from the received power. It is characterized by comprising database updating means for updating based on the usage amount.
In the power usage management system, the management server may include a charge calculation unit that calculates a power usage charge based on the power usage information recorded in the database.

  The authentication adapter includes an authentication unit that performs authentication of the power supply unit, and the power supply unit supplies power to the electrical device when authentication is successful by the authentication unit, and authentication fails. In such a case, supply of electric power to the electric device may be prohibited.

The power supply unit receives an outlet ID for identifying an outlet, an authentication information storage unit in which a password corresponding to the outlet ID is recorded in advance, and an outlet ID from the outlet ID transmission unit. A password transmission unit that reads a corresponding password from the authentication information storage unit and returns the password to the authentication adapter, and the authentication unit records an authentication password corresponding to the outlet ID, and transmits the password. Authentication may be performed based on a comparison between the password returned from the means and the authentication password.
The power supply unit may be incorporated in the electric device.
In the power supply unit, communication between the authentication adapter and the power supply unit may be performed by PLC (Power Line Communication).

  The power usage information transmitting means is a non-contact IC card reader / writer mounted on the power supply unit, and the non-contact IC card compatible portable terminal held over the non-contact IC card reader / writer. You may communicate the measured electric power consumption, the said received outlet ID, and user ID which identifies the user of the said electric equipment.

  The power usage management method of the present invention includes an authentication adapter that can be connected to an outlet, and the authentication adapter that can communicate with the authentication adapter by being connected to the authentication adapter. A power supply unit that receives power from the authentication adapter and supplies the power to the electrical device, and manages the power consumption of the electrical device by a system comprising: The power of the outlet is supplied to a power supply unit, and the authentication adapter transmits an outlet ID for identifying the outlet to the power supply unit, and the power supply unit is supplied from the authentication adapter to the power supply unit. The power consumption supplied to the electrical device is measured via the power supply unit, and the power supply unit measures the measured power usage and the received power consumption. The ID and the user ID for identifying the user of the electrical device recorded in advance are transmitted to a management server including a database in which power usage information including power usage for each user is recorded. .

  According to the present invention, when another user uses the outlet simply by attaching the authentication adapter to the external outlet, the power usage amount of the user can be managed. For this reason, it is not necessary to carry out construction work such as installing new equipment on the outlet side, and it is possible to charge a power usage fee to a true user at low cost without taking time and effort.

Hereinafter, an embodiment of a power usage management system of the present invention will be described with reference to the drawings.
FIG. 1 is a diagram illustrating a configuration of a power usage management system 10 according to the present embodiment. The power usage management system 10 according to the present embodiment uses power when the user of the electric device 400 uses the electric device 400 by using the existing outlet 200 such as a place where the user is away. This is a system for charging a fee. As shown in the figure, the power usage management system 10 includes an authentication adapter 300 connected to an outlet 200, an electric device 400, power supplied from the authentication adapter 300, and the authentication adapter 300. A power supply unit 450 capable of communicating by PLC (Power Line Communication) and a management server 100 including a power usage information database 110 provided in an electric power company or the like are included.
Further, the power supply unit 450 is equipped with a non-contact IC card reader / writer 414, and the management server 100 can be accessed by the portable terminal 500 that supports non-contact IC cards. Note that the mobile terminal 500 stores user IDs allocated in advance for each user.

  FIG. 2 is a diagram illustrating a configuration of the authentication adapter 300. As shown in the figure, the authentication adapter 300 includes a connection plug 310 for connecting to the outlet 200, a power supply control unit 311, a PLC modem 312, an outlet 313, an electrical device connection detection unit 314, and a CPU 315. A RAM 316, a ROM 317, and an authentication unit 318.

  The power supply control unit 311 can permit or prohibit power supply to the outlet 313 by switching between electrical connection and disconnection between the connection plug 310 and the outlet 313. In the initial state, it is assumed that power supply to the outlet 313 is prohibited.

The outlet 313 can connect the connection plug 410 of the power supply unit 450.
The PLC modem 312 superimposes the signal output from the CPU 315 on the power supplied to the electric device 400 as an electric signal, and transmits the signal transmitted from the electric device 400 via the power line. be able to.
The electrical device connection detection unit 314 determines whether or not the connection plug 410 of the electrical device 400 is connected to the outlet 313.

The authentication unit 318 records in advance an outlet ID for identifying the outlet 200 into which the connection plug 310 is inserted and an authentication password corresponding to the outlet ID, and the electric device connection detection unit 314 connects to the outlet 313. When it is detected that the plug 410 is connected, a password request signal including an outlet ID is transmitted to the electric device 400 by the PLC via the PLC modem 312. Then, authentication is performed by comparing the password returned from the electric device 400 with the authentication password.
The electrical device connection detection unit 314 and the authentication unit 318 are realized by the CPU 315 executing a predetermined program stored in the RAM 316 and the ROM 317.

FIG. 3 is a diagram illustrating a configuration of the electric device 400. As shown in the figure, the electric device 400 includes an electric device function unit 413 that realizes a function as the electric device 400 and a power supply unit 450 that supplies power to the electric device function unit 413. Includes a connection plug 410, a PLC modem 411, an electric energy measuring unit 412, a non-contact IC card reader / writer 414, a CPU 415, a RAM 416, a ROM 417, a clock unit 418, an authentication information storage unit 419, a password A transmission unit 420.
The electric device function unit 413 realizes a function as an electric device such as a portable computer or an in-vehicle charger, for example, when electric power is supplied from the power supply unit 450.

The electric energy measuring unit 412 measures the electric energy supplied from the connection plug 410 and used by the electric device 400. The measured power consumption is recorded in the RAM 416 together with the time when the power acquired from the clock unit 418 is used.
In the authentication information storage unit 419, a plurality of outlet IDs (hereinafter referred to as outlet IDs) set in advance to outlets to which the electric device 400 may be connected are associated with passwords corresponding to the outlet IDs. Are recorded.
When receiving the password request signal including the outlet ID from the authentication unit 318 of the authentication adapter 300 via the PLC modem 411, the password transmission unit 420 reads the password of the corresponding outlet ID from the authentication information storage unit 419 and performs authentication. A reply is sent to the adapter 300 via the PLC modem 411.
The RAM 416 records the power usage measured by the power measurement unit 412 and the power usage start time and end time detected by the clock unit 418 as will be described later.
The power amount measurement unit 412 and the password transmission unit 420 are realized by the CPU 415 executing a predetermined program stored in the ROM 417 in advance.

  Returning to FIG. 1, the management server 100 includes a power usage information database 110. As shown in FIG. 4, in the power usage information database 110, for each user, the user ID, the outlet ID of the outlet that the user should bear the power usage amount, the contract form of the power company, the power The power usage information such as the usage amount and the usage start / end time is recorded in association with each other. The management server 100 can calculate a power usage fee for each user ID based on the information recorded in the power usage information database 110.

  The outlet 200 is supplied with electric power sent from an electric power company, and is connected to an electric energy meter 210 for measuring the amount of electric power used at the outlet 200. The power usage measured by the watt-hour meter 210 is checked by a method such as online or by a worker patrol and recorded in the power usage information database 110 of the management server 100.

Hereinafter, the flow of processing when the power usage fee management system 10 charges a power usage fee will be described.
FIG. 5 is a flowchart showing the flow of the power usage fee billing process. As shown in the figure, first, in step 100, the authentication adapter 300 determines whether or not the connection plug 410 is connected to the outlet 313 by the electrical device connection detection unit 314. As a result, when it is determined that the connection plug 410 is not connected, the processing of step 100 is repeated until the connection of the connection plug 410 is detected. When it is determined in step 100 that the connection plug 410 is connected, in step 110, the authentication unit 318 transmits a password request signal including the outlet ID to the power supply unit 450 via the PLC modem 312.

  In step 120, when power supply unit 450 receives the password request signal transmitted from authentication adapter 300, in step 130, password transmission unit 420 sends the password corresponding to the outlet ID included in the password request signal to the PLC modem. 411 to the authentication adapter 300.

  In step 140, when the authentication adapter 300 receives the password from the power supply unit 450, in step 150, the authentication unit 318 compares the pre-recorded authentication password with the received password, and these match. In this case, it is determined that the authentication has succeeded, and when they do not match, it is determined that the authentication has failed.

  If the authentication unit 318 determines in step 150 that the authentication is successful, then in step 160, the authentication adapter 300 permits the power supply control unit 311 to supply power to the outlet 313. As a result, power is supplied from the outlet 313 to the electrical device 400. If the authentication unit 318 determines that the authentication has failed, in step 240, the authentication adapter 300 ends the process while the power supply control unit 311 prohibits the power supply to the outlet 313.

  When power is supplied from authentication adapter 300, power supply unit 450 starts measuring the amount of power used by electrical device function unit 413 by power amount measurement unit 412 in step 170. In step 180, power supply to the electric device function unit 413 is started.

  The power supply unit 450 constantly monitors the voltage of the connection plug 410. When this voltage becomes zero, it is determined that the connection plug 410 has been removed from the outlet 313 (that is, the use of the electric device function unit 413 has ended). In step 190, the measurement of the electric energy measuring unit 412 is terminated. The power usage measured by the power measuring unit 412 is stored in the RAM 416 together with the start time when the power measured by the clock unit 418 is started and the end time when the use is finished.

  Next, in step 200, the power supply unit 450 reads power usage information including the outlet ID, the power usage amount, and the usage time from the RAM 416, and supplies the power usage information to the non-contact IC card reader / writer 414. To do. In this state, when the portable terminal 500 is held over the IC card reader / writer 414, the portable terminal 500 reads the outlet ID and power usage information from the IC card reader / writer 414, and when a predetermined transmission operation is performed, the outlet ID and power The usage information is transmitted to the management server 100 together with the user ID recorded in advance.

In step 210, when the management server 100 receives the user ID, the outlet ID, and the power usage information, in step 220, the power usage information database 110 records the power usage information in association with the received user ID. At the same time, the power usage information received in association with the user ID corresponding to the received outlet ID is recorded as information (referred to as power deduction information) to be subtracted when calculating the fee. In step 230, the management server 100 calculates a power usage fee based on the power usage information and power deduction information of each user ID recorded in the power usage information database 110. That is, the power usage amount included in the power usage information is added, and the power usage amount included in the power deduction information is subtracted to calculate the power usage amount to be charged, and the power usage is based on the power usage amount. Calculate usage fees.
As a result, the power usage fee can be charged to the user corresponding to the user ID, that is, the user who uses the power from the outlet 200, and the power usage fee is charged to the contractor of the outlet 200. Can be prevented.

  In the case of a contract form in which a discount is applied depending on the power usage time zone, the power usage fee can be calculated in consideration of the power usage start time and end time included in the power usage information. In such a case, in steps 170 to 190, the power amount measuring unit 412 measures the power usage amount for each predetermined time zone, and the management server 100 uses the measured power usage amount for each time zone. Information and power deduction information may be recorded in the power usage information database 110, and a power usage fee may be calculated based on the recorded power usage for each time period.

According to the power usage management system 10 of the present embodiment, the following effects can be obtained.
By simply connecting the simple authentication adapter 300 to the outlet 200, the user using the outlet 200 can be charged for the power usage fee. For this reason, it is not necessary to install new equipment, and it is possible to construct a system that can charge a power usage fee to a person who has used it at low cost.
In addition, the management server 100 updates the power usage information database 110 based on the user ID recorded in the mobile terminal 500 and charges the user, so that the user's electric device 400 is used. Even if it exists, the user of the electric device 400 can be charged.

In the above-described embodiment, the authentication adapter 300 and the power supply unit 450 are connected by the PLC line. However, the configuration is not limited thereto, and an electric line for supplying power and a communication line are provided. It is good.
In the present embodiment, the power supply unit 450 is incorporated in the electric device 400. However, the configuration is not limited to this, and the power supply unit 450 may be an independent device.
In the present embodiment, the power supply control unit 311 is configured to permit the supply of electricity when the authentication unit 318 and the password transmission unit 420 succeed in authentication. However, when authentication is not required, the authentication unit The power supply control unit 311, the authentication information storage unit 419, and the password transmission unit 420 may be omitted. In such a case, the authentication adapter 300 is provided with means for transmitting the outlet ID to the power supply unit 450, and the power supply unit 450 manages the received outlet ID together with the user ID, the power usage amount, and the usage time. What is necessary is just to transmit to the server 100.

It is a figure which shows the structure of the electric power usage-amount management system of this embodiment. It is a figure which shows the structure of the adapter for authentication. It is a figure which shows the structure of an electric equipment. It is a figure which shows the structure of the information recorded on the electric power usage information database. It is a flowchart which shows the flow of an electric power usage fee charge process.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Power usage management system 100 Management server 110 Power usage information database 200 Outlet 210 Electricity meter 300 Adapter for authentication 310 Connection plug 311 Power supply control part 312, 411 PLC modem 313 Outlet 314 Electric equipment connection detection part 315,415 CPU
316, 416 RAM
317, 417 ROM
318 Authentication Unit 400 Electrical Device 410 Connection Plug 412 Power Amount Measurement Unit 413 Power Device Function Unit 414 Non-contact IC Card Reader / Writer 418 Clock Unit 419 Authentication Information Storage Unit 420 Password Transmission Unit 450 Power Supply Unit 500 Mobile Terminal

Claims (9)

An authentication adapter that can be connected to an outlet,
By being connected to the authentication adapter, the power supply unit can communicate with the authentication adapter and receive power from the authentication adapter from the outlet and supply the power to the electrical device. And a system for managing the power consumption of the electrical equipment,
The authentication adapter is
Supply means for supplying power from the outlet to the power supply unit;
An outlet ID transmitting means for transmitting an outlet ID for identifying the outlet to the power supply unit;
The power supply unit
A power usage measuring unit that measures the power usage supplied to the electrical device from the authentication adapter via the power supply unit;
The measured power usage amount, the received outlet ID, and a user ID for identifying a user of the electrical device, and a database in which power usage information including the power usage amount for each user is recorded. And a power usage information transmitting unit capable of transmitting to the management server. An authentication adapter that can be connected to an outlet,
By being connected to the authentication adapter, the power supply unit can communicate with the authentication adapter and receive power from the authentication adapter from the outlet and supply the power to the electrical device. When,
A management server comprising a database in which power usage information including power usage for each user is recorded, and a system for managing the power usage of the electrical equipment,
The authentication adapter is
Supply means for supplying power from the outlet to the power supply unit;
An outlet ID transmitting means for transmitting an outlet ID for identifying the outlet to the power supply unit;
The power supply unit
A power usage measuring unit that measures the power usage supplied to the electrical device from the authentication adapter via the power supply unit;
A power usage information transmitting unit that enables transmission of the measured power usage, the received outlet ID, and a user ID for identifying a user of the electrical device to the management server;
The management server
A power usage management system comprising database updating means for updating power usage information of a user corresponding to the received user ID and a user corresponding to the outlet ID based on the received power usage. . The management server
The power usage management system according to claim 2, further comprising a charge calculation unit that calculates a power usage charge based on the power usage information recorded in the database. A power usage management system according to any one of claims 1 to 3,
The authentication adapter is
An authentication unit for authenticating the power supply unit;
The power supply unit supplies power to the electrical device when authentication by the authentication unit is successful, and prohibits power supply to the electrical device when authentication fails. Usage management system. The power usage management system according to claim 4,
The power supply unit
An outlet ID for identifying the outlet, and an authentication information storage unit in which a password corresponding to the outlet ID is recorded in advance;
When receiving the outlet ID from the outlet ID transmission means, a password transmission unit that reads a password corresponding to the received outlet ID from the authentication information storage unit and returns it to the authentication adapter,
The authentication unit records an authentication password corresponding to the outlet ID, and performs authentication based on a comparison between the password returned from the password transmission unit and the authentication password. Usage management system.   The power usage management system according to claim 1, wherein the power supply unit is incorporated in the electric device.   The power usage management system according to claim 1, wherein communication between the authentication adapter and the power supply unit is performed by PLC (Power Line Communication).   The power usage information transmitting means is a non-contact IC card reader / writer mounted on the power supply unit, and the measurement is performed via a non-contact IC card compatible portable terminal held over the non-contact IC card reader / writer. The power usage management system according to any one of claims 1 to 7, wherein a power usage, the received outlet ID, and a user ID for identifying a user of the electric device are communicated. An authentication adapter that can be connected to an outlet,
By being connected to the authentication adapter, the power supply unit can communicate with the authentication adapter and receive power from the authentication adapter from the outlet and supply the power to the electrical device. And a method for managing the power usage of the electrical equipment by a system comprising:
The authentication adapter supplies power from the outlet to a power supply unit,
The authentication adapter transmits an outlet ID for identifying the outlet to the power supply unit,
The power supply unit measures the amount of power used supplied from the authentication adapter to the electrical device via the power supply unit,
The power supply unit uses the measured power usage, the received outlet ID, and a user ID for identifying a user of the electrical device recorded in advance, including the power usage for each user. A power usage management method, comprising: transmitting to a management server including a database in which information is recorded.

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