KR101319312B1 - Method for billing electric charge for a wireless charging vehicle and apparatus thereof - Google Patents

Abstract

Provided are a method for charging an electric charge for an electric drive mobile body which is transmitted in a contactless manner, and an apparatus for performing the method. If the vehicle user wants to start using the electric vehicle while driving the electric vehicle, a power usage approval request is sent from the electric vehicle to the billing data center. The billing data center queries the billing details and the billing details to determine whether to approve the vehicle user's use of power. The electric vehicle determines whether the current collector is driven based on information received from the charging data center. When the use of electric power is approved, the vehicle user may receive electric power from the power supply device through the current collector while driving the electric vehicle. The charging device transmits information on the amount of power used to the charging data center at predetermined intervals. The billing data center calculates and stores a billing history for the vehicle user based on the received information on the amount of power used. In addition, the billing data center transmits the billing details calculated at predetermined intervals to the billing service provider so that the billing service provider can guide the fee to be paid to the vehicle user. It is convenient because the vehicle user can postpaid pay for the amount of power used.

Description

Method and device for billing electric charge for a wireless charging vehicle and apparatus

The present invention relates to a method and apparatus for charging an electric charge for an electric drive mobile body that receives electric power in a non-contact manner, and more specifically, an electric drive mobile body which receives power from a power feeding device installed on a road and operates using the non-contact method. It relates to a method and apparatus for charging according to the amount of power used for.

Recently, due to problems of global warming and resource depletion, renewable energy and industries using the same have been in the spotlight. In particular, in relation to the depletion of petroleum resources and air pollution, research on electric vehicles driven using electricity has been widely conducted.

The most representative electric vehicle as an electric driving vehicle is classified into a stop type that is charged only during a stop and a non-stop type that is charged even while driving according to a charging method, and is in contact with a power source and without a contact with a power source. It is classified as a contactless type in which charging takes place. The stop type is easy to be combined with the contact type mainly because the electric vehicle is stopped when charging, and the non stop type is mainly easy to be combined with the contactless type because the electric vehicle uses electric power while driving.

In the case of stationary and contact charging, the charging method can be used in the same way since the existing method of using electricity is the same. However, in the case of non-stop and non-contact electric vehicles, power is used during driving, and it is difficult to perform proper charging with existing charging methods and devices.

In this regard, the present applicant has described in the patent application 10-2009-0116455 a billing system and a billing method for charging and collecting the electric charge for the electric drive vehicle. This is a prepaid billing method that pays for electricity to be used before the electric vehicle runs.

However, as a method of charging for electric power use, a method and apparatus for paying a fee after use in postpaid manner have not yet been provided. In the case of postpaid billing, it is convenient for vehicle users because currently widely used payment methods such as credit card payment or other payment combined with other payments can be applied.

The present invention is to provide a method and apparatus for realizing the above-mentioned problem, and post-paid billing for the amount of power used for the non-stationary and contactless electric drive mobile.

Another object of the present invention is to be able to prevent the use of power for a user who does not pay for the electric energy used from the perspective of the power supplier.

In order to solve the above-described problems, according to one embodiment of the present invention, an electric vehicle for communicating with a billing data center and having a current collector and receiving electric power in a non-contact manner from a power feeding device installed along a road while driving An apparatus for charging a fee, comprising: a vehicle information management unit for managing an identification number of an electric vehicle and an identification number of a current collector of an electric vehicle; A payment processing unit which manages the identification number of the vehicle user and provides the charging state information to the vehicle user and transmits the charge data to the charging data center; A current collector control unit controlling a driving state of a current collector of an electric vehicle according to a power usage approval signal received from a charging data center; And, a charging device for a non-contact electric vehicle is provided, including an energy management unit for calculating the estimated charge according to the amount of power supplied from the power supply device the electric current collector of the electric vehicle and providing it to the payment processing unit.

According to another aspect of the present invention, there is provided a charging apparatus for an electric vehicle described above; A current collector receiving power in a non-contact manner from a power feeding device installed along the road; A power amount measuring device for measuring the amount of power received by the current collector from the power feeding device, and transmitting information on the amount of power measured by the energy management unit of the charging device; And a communication processor configured to process communication between the payment processor and the vehicle information manager and the charging data center.

According to yet another aspect of the present invention, a billing data processing server provided in a billing data center to communicate with a non-contact electric vehicle, and managing billing information for the electric vehicle, the communication processing unit for processing communication between the electric vehicle and the like. ; A payment status determination unit for determining a payment status of a corresponding vehicle user based on the vehicle user identification number included in the power use approval request received from the electric vehicle; A driving method determination unit determining whether the current collector of the electric vehicle to be driven by the corresponding vehicle user is driven according to the vehicle user's fee payment state; And a database for storing and managing the identification number of the electric vehicle, the identification number of the current collector of the electric vehicle, the identification number of the vehicle user, and the charging information for the vehicle user.

According to still another aspect of the present invention, there is provided a method for collecting charging information in a non-contact electric vehicle charging apparatus, the method comprising: (a) transmitting a power usage approval request including an identification number of a vehicle user to a charging data center; (b) determining whether the current collector is driven according to a power usage approval signal received from the charging data center; (c) collecting information on the amount of power received from the power feeding device while the electric vehicle is in operation; And (d) transmitting information including the information on the amount of power of the electric vehicle in operation and information including an identification number of the vehicle user to a charging data center.

According to still another aspect of the present invention, there is provided a method of processing charging according to power consumption for a non-contact electric vehicle in a charging data processing server, the method comprising: (a) requesting a power usage approval request including an identification number of a vehicle user from an electric vehicle; Receiving; (b) determining whether the vehicle user is overdue based on the identification number of the vehicle user received in step (a); (c) transmitting a power disapproval signal to the electric vehicle when the vehicle user is in a delinquent state; (d) transmitting a power usage approval signal to the electric vehicle when the vehicle user is not in a delinquent state; And, (e) there is provided a charging processing method for a non-contact electric vehicle comprising the step of receiving information including the information on the amount of power used during operation and the vehicle user from the electric vehicle.

According to the present invention, there is provided an efficient method and an apparatus for performing the method which postpaidly charges a fee for the amount of power used for non-stationary and contactless electric drive mobiles.

In addition, the power provider can, in accordance with the present invention, prevent additional power usage for fraudulent users who do not pay for used electrical energy.

1 conceptually illustrates a charging device installed in an electric vehicle according to the present invention.
2 schematically illustrates a user interface for allowing a user to select a payment method in a charging device according to the present invention.
3 is a diagram conceptually showing a billing data processing server installed in a billing data center according to the present invention.
4 is a pseudo-qu diagram illustrating a charging method according to the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the present invention will be described in detail.

1 shows a charging device for a non-contact electric vehicle according to an embodiment of the present invention. The charging device 100 is a device for charging an electric charge for an electric vehicle that communicates with a charging data center and has a current collector and receives electric power in a non-contact manner from a power supply device installed along a road while driving. 110, a payment processor 120, an energy manager 130, and a current collector controller 140.

The vehicle information management unit 110 manages the identification number of the electric vehicle and the identification number of the current collector of the electric vehicle. The vehicle information management unit 110 transmits the identification number of the electric vehicle and the identification number of the current collector to the charging data center when starting the engine of the electric vehicle. Communication with the charging data center may be made by a communication processing unit described later. Vehicle information management unit 110 may be provided with means for storing the above-described identification numbers. Such means may be a recordable nonvolatile memory, a hard disk, or the like. The identification number of the electric vehicle and the identification number of the current collector are generally assigned at the factory of the electric vehicle and will not be changed until the vehicle is decommissioned unless the main device is replaced by repair.

The payment processing unit 120 manages the identification number of the vehicle user, provides the charging status information to the vehicle user and transmits to the charging data center. When the vehicle user intends to start driving the electric vehicle, the payment processing unit 120 transmits a power usage approval request including the identification number of the vehicle user to the billing data center. The vehicle user is burdened to pay a fee for the amount of power used during the operation of the electric vehicle. Therefore, when the vehicle user to be charged during the operation is changed, the payment processing unit 120 transmits the approval request including the changed vehicle user identification number to the billing data center again. As the identification number of the vehicle user, any one that can identify the user such as a payment card number, a social security number, a driver's license number, and a mobile phone number may be applied. The billing data center manages the identification number of the vehicle user together with the identification number of the electric vehicle and the identification number of the current collector. Even in the same electric vehicle, there may be a plurality of vehicle users, that is, users who are responsible for paying a fee for the amount of power used.

2 illustrates an example of a user interface provided to the vehicle user by the payment processing unit 120. As shown, the payment processing unit 120 allows a vehicle user to select a payment method, a payment method, a payment cycle, and the like. As a payment method, there may be a confirmation payment for payment when the vehicle user approves the payment and an automatic payment for automatic payment according to the prior approval of the vehicle user. As a payment method, a credit card payment or a payment method that can be added to an electric bill or a telephone bill can be selected. The payment cycle may be selected in various ways depending on the circumstances of the vehicle user, such as hourly, daily, weekly, monthly.

As will be described later, the payment processing unit 120 receives information about the amount of power supplied from the power supply device and the estimated rate accordingly from the energy management unit 130 while the electric vehicle is running. The payment processor 120 transmits this information to the billing data center at predetermined intervals. In addition, the same information is provided to the vehicle user so that the fee to be paid can be estimated.

On the other hand, the billing data center determines whether there is an unpaid fee based on the identification number of the vehicle user included in the received approval request, and if there is an unpaid fee, controls the electric vehicle not to receive power from the power supply device. Can be. Therefore, the payment processing unit 120 may be provided with a means for making an immediate payment, such as payment through a mobile phone bill sum or a credit card terminal. Upon receiving a notice from the billing data center that there is an unpaid fee, the vehicle user can immediately use the payment method to pay the unpaid fee and re-request authorization for power usage.

The energy management unit 130 calculates an estimated fee according to the amount of power supplied from the power supply device of the current collector of the electric vehicle and provides it to the payment processing unit 120. The amount of power supplied by the current collector may be provided through a power amount measuring device 20 such as a power meter. In order to calculate the expected rate, the energy management unit 130 may store a rate card according to the amount of power.

The current collector control unit 140 controls whether the electric vehicle receives power from the power supply device according to whether the power use is received from the charging data center. For example, as in the present embodiment, the current collector control unit 140 may control the driving state of the current collector. That is, when the power usage disapproval signal is received from the charging data center, the current collector control unit 140 may deactivate the current collector 10 so as not to receive power from the power supply device. In this case, the electric vehicle runs on electric power charged in a battery. When receiving the power usage approval signal from the charging data center, the current collector control unit 140 may enable the current collector 10 to receive power from the power supply device. The electric vehicle may receive power from the power supply device through the current collector 10 in a non-contact manner and operate by using the same.

According to another form of this invention, the electric vehicle provided with the above-mentioned charging apparatus for electric vehicles is provided. The electric vehicle includes a current collector, a power amount measuring device, and a communication processor.

The current collector 10 receives electric power in a non-contact manner from a power feeding device installed along a road while the electric vehicle is running. The supplied power may be used to drive the electric vehicle or to charge the battery of the electric vehicle. The current collector 10 is determined by the current collector control unit 140 to be activated. In a deactivated state, power cannot be transmitted from the feeder, and only in the activated state.

The power amount measuring device 20 measures the amount of power received by the current collector 10 from the power feeding device, and transmits information on the amount of power measured by the energy management unit 130 of the charging device 100.

The communication processor 30 processes communication between the payment processor 120, the vehicle information manager 110, and the charging data center. The communication processor 30 may use remote wireless communication (eg, CDMA, mobile communication, etc.).

The billing data center manages the billing details of each car user and approves or disapproves the use of the car user according to the nonpayment. To this end, the billing data center communicates with a non-contact electric vehicle and includes a billing data processing server 200 that manages billing information. The billing data processing server 200 includes a payment state determination unit 210, a driving method determination unit 220, a communication processing unit 230, and a database 240.

The payment status determination unit 210 determines the payment status of the vehicle user based on the vehicle user identification number included in the approval request received from the electric vehicle. When the electric vehicle is about to start operation, when the electric vehicle runs on a road without a feeder and enters a road where a feeder is installed, or when the vehicle user is changed while driving, the charging device of the electric vehicle may be used. The authorization request including the identification number and the identification number of the vehicle user is transmitted to the billing data processing server. The payment status determination unit 210 queries the billing and payment details regarding the corresponding vehicle user in the database 240 to determine the payment status of the fee and provides the corresponding information to the driving method determination unit 220.

The driving method determination unit 220 approves or disapproves whether the corresponding vehicle user uses electric power while driving the electric vehicle according to the information on the vehicle user's fee payment state provided from the payment state determination unit 210. As described above, when the use of power is approved, the charging device of the electric vehicle activates the current collector to receive power from the power supply device, and in the case of disapproval, deactivates the current collector to prevent power transmission from the power supply device. .

The communication processing unit 230 processes communication between the electric vehicle and the vehicle. That is, the power usage approval request including the identification numbers transmitted from the electric vehicle is received and provided to the other modules 210 and 220, and the driving method determination unit 220 receives the approval for the power usage and receives the corresponding electricity. Transfer to the car.

The database 240 stores and manages the identification number of the electric vehicle, the identification number of the current collector of the electric vehicle, the identification number of the vehicle user, the billing and payment history information of the vehicle user. Payment details information is provided from a payment service provider. That is, according to the payment service selected by the vehicle user, the payment service provider provides the payment details to the billing data center, and this information is stored in the database 240. The payment service provider may be a credit card company, a bank, a power company, or a telecommunication company. On the other hand, when the payment is directly processed in the billing data center, the payment details are generated by itself. Communication with the payment service provider is also made through the communication processor 230.

Hereinafter, a method of managing charging information on electric power used in an electric vehicle according to the present invention and controlling the driving of the electric vehicle based on the charging information will be described. FIG. 4 is a schematic diagram of steps for performing charging for power usage and controlling whether or not to operate between an electric vehicle, a billing data center and a payment service provider.

When the engine of the electric vehicle is started, the electric vehicle enters a road where a power supply device is installed while the vehicle is in operation, or when the vehicle user wants to start using electric power while driving the electric vehicle, such as when the vehicle user is changed. The power use approval request including the user's identification number, the identification number of the electric vehicle, and the identification number of the current collector is transmitted from the electric vehicle to the charging data center (S102).

The billing data center inquires the billing details and the billing details based on the identification number of the vehicle user included in the approval request (S103). Payment information is received in advance from the payment service provider at a predetermined interval and stored in the database (S100).

As a result of the inquiry, it is determined whether to approve the use of power of the corresponding vehicle user (S104). For example, if there is an unpaid fee related to the vehicle user, the use of power is denied (S105), otherwise it is approved (S106).

The electric vehicle determines whether the current collector is driven based on information received from the charging data center. That is, when receiving a power disapproval signal from the charging data center, the current collector is deactivated, and when the approval signal is received, the current collector is activated. When the current collector is activated, the electric vehicle can receive power from the power supply device and use the electric vehicle. When the electric vehicle is deactivated, the electric vehicle runs using the power charged in the battery.

On the other hand, when the charging device of the electric vehicle receives a signal that the power usage is disapproved because of the unpaid charges, the vehicle user may provide a means for making a payment immediately to pay the unpaid charges. For example, the billing device displays a list of unpaid charges to a vehicle user and provides a payment method or a credit card payment method through the sum of mobile phone bills. After checking the non-payment details, the vehicle user may immediately pay the unpaid charges through a payment through a mobile phone bill or a credit card payment means (S106), and then transmit a power use approval request to the billing data center (S107). The billing data center transmits a signal for approving the use of power to the electric vehicle after receiving information on whether payment of the unpaid fee is made from the payment service provider (S108).

When the use of electric power is approved, the vehicle user may receive electric power from the power supply device through the current collector while driving the electric vehicle. The electric power measuring device of the electric vehicle measures information on the electric power amount transmitted from the power feeding device during the operation of the electric vehicle and provides it to the charging device. The charging device provides the vehicle user with information about the amount of power used and the estimated fee.

In addition, the charging device transmits information on the amount of power used to the charging data center at predetermined intervals (S110). The billing data center calculates and stores a billing history for the vehicle user based on the received information on the amount of power used. When the electric vehicle stops running (S111), the charging device notifies the charging data center that the electric vehicle has stopped running (S112). For example, when the electric vehicle is turned off, the charging device notifies the charging data center of the suspension.

The billing data center transmits the billing details calculated at predetermined intervals to the payment service provider so that the payment service provider can guide the fee to be paid to the vehicle user (S113).

Meanwhile, the charging device of the electric vehicle may receive information about a payment method from a vehicle user and provide the information to a charging data center. That is, as shown in FIG. 2, when a vehicle user inputs information on a payment method, a payment method, a payment cycle, and the like, the information is transmitted to a billing data center, and the billing data center receives a billing method received with respect to the corresponding vehicle user. Information about the data is stored in the database and managed. The payment service provider may vary according to a payment method selected by the vehicle user. For example, a credit card company, a bank, a power company, a telecommunications company, etc. may be a payment service provider.

Hereinafter, a scenario in which billing is performed according to a payment method selected by a vehicle user will be described.

When the vehicle user selects the confirmation and payment method, payment information is received from the billing data center at a predetermined interval according to the amount of power used during the driving and the payment is performed. The received information may be displayed on the charging device. When the automatic payment method is selected, payment processing result information is received at regular intervals. As shown in FIG. 2, the payment cycle may be a time unit, a daily unit, a week unit, a monthly unit, or the like.

In the case of a verification payment method using a credit card, payment may be made as follows according to a payment cycle. First, when the payment cycle is selected on a weekly basis, electric power is used in the feeding section during the operation of the electric vehicle, and the amount of power used is transmitted to the billing data center. The billing data center calculates billing details based on the amount of power used. After one week, the billing data center transmits the billing details to the charging device of the electric vehicle for the vehicle user to check. The vehicle user uses the credit card to settle the charge. The same process can be repeated if there is a problem with the payment process such as credit card disapproval, and if the payment is finally failed, the billing data center will reflect this in the billing details of the vehicle user and induce other payment methods or restrict the use of electricity. You may.

Although the invention has been described in detail based on the embodiments shown in the accompanying drawings, it is apparent that various modifications are possible without departing from the scope of the invention. Nothing described herein is intended to narrow the scope of the invention to the scope of the appended claims. The foregoing examples are for illustrative purposes only and are not intended to exclude those having other embodiments.

10: current collector
20: power measuring device
30: communication processing unit
100: charging device
110: vehicle information management unit
120: payment processing unit
130: Energy Management Department
140: current collector control unit
200: billing data processing server
210: payment status determination unit
220: operation method determination unit
230: communication processing unit
240: Database

Claims (14)

A device for charging an electric bill for an electric vehicle that communicates with a charging data center and is provided with a current collector and receives power in a non-contact manner from a power supply installed along a road while driving.
A vehicle information management unit managing an identification number of the electric vehicle and an identification number of the current collector of the electric vehicle;
A payment processing unit which manages an identification number of a vehicle user and transmits billing state information to the billing data center;
A current collector control unit controlling a driving state of a current collector of an electric vehicle according to a power usage approval signal received from the charging data center; And
The current collector of the electric vehicle includes an energy management unit for calculating an estimated rate according to the amount of power supplied from the power supply device and providing it to the payment processing unit,
And the payment processing unit receives the information on the amount of power supplied from the power supply device while the electric vehicle is in operation and the estimated fee accordingly, and transmits the information to the charging data center to the billing data center.
The method according to claim 1,
The vehicle information management unit transmits the identification number of the electric vehicle and the identification number of the current collector to the charging data center when the electric vehicle starts up.
Charging device for a non-contact electric vehicle, characterized in that.
The method according to claim 1,
The payment processing unit includes means for enabling the vehicle user to process the overdue electricity bill.
Charging device for a non-contact electric vehicle, characterized in that.
The method according to claim 1,
In the case where power usage is to be started or when the vehicle user is changed, the payment processing unit transmits a power usage approval request including the identification number of the vehicle user to the billing data center.
Charging device for a non-contact electric vehicle, characterized in that.
delete The method according to claim 1,
When the power usage is to be started or when the vehicle user is changed, the current collector control unit controls whether the current collector is driven according to the power usage approval signal received from the charging data center.
Charging device for a non-contact electric vehicle, characterized in that.
A charging device for an electric vehicle according to claim 1;
A current collector receiving power in a non-contact manner from a power feeding device installed along the road;
A power amount measuring device for measuring the amount of power received by the current collector from the power feeding device, and transmitting information on the amount of power measured by the energy management unit of the charging device; And
Communication processing unit for processing communication between the payment processing unit and the vehicle information management unit and the billing data center
Non-contact electric vehicle comprising a.
delete Claim 9 has been abandoned due to the setting registration fee. A method for collecting charging information in a charging device for a non-contact electric vehicle according to claim 1,
(a) the payment processing unit transmitting a power usage approval request including the identification number of the vehicle user to the charging data center;
(b) determining, by the current collector control unit, whether the current collector is driven according to a power usage approval signal received from the charging data center;
(c) the energy management unit collecting information on the amount of power received from the power feeding device while the electric vehicle is in operation; And
(d) the billing processing unit may include information on the amount of power supplied from the power supply device during operation of the electric vehicle transmitted from the energy management unit, information on the estimated charge, and information including the identification number of the vehicle user. To send to
Billing information collection method for a non-contact electric vehicle comprising a.
delete Claim 11 was abandoned when the registration fee was paid. The method according to claim 9,
The step (d) is made at a predetermined interval
Billing information collection method for a non-contact electric vehicle, characterized in that.
delete delete delete

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