KR102158851B1 - Payment apparatus for electric vehicle charger with generality - Google Patents

Abstract

The present invention can support various payment methods for charging devices with different payment methods for each manufacturer, and a unified integrated communication protocol can be applied in transmitting data that can be used for management and maintenance of charging devices. It relates to a payment device for an electric vehicle charger having a general purpose, and in detail, it is mounted to be connected to a charging device for an electric vehicle to receive billing information calculated from the charging device, and to perform payment for the received billing information, and It is characterized by including a payment module that collects the generated and output output data and processes and transmits the output data in an integrated transmission protocol format.

Description

Payment apparatus for electric vehicle charger with generality

The present invention can support various payment methods for charging devices with different payment methods for each manufacturer, and a unified integrated communication protocol can be applied in transmitting data that can be used for management and maintenance of charging devices. It relates to a payment device for electric vehicle chargers having versatility.

In general, the electric vehicle industry is the most rapidly changing automobile industry in the world in recent years, and the demand for automobiles in the automobile market sensitive to the environment and rapid climate change in the future of automobiles is increasing very rapidly, and technology development accordingly is also a trend.

The electric vehicle industry is currently in the process of minimizing the problems in the general distribution of electric vehicles by providing various electric vehicle charging infrastructures prior to supplying them to the private sector beyond the commercialization stage.

Meanwhile, domestic common electric vehicle chargers sometimes require communication with a server for member management, use approval, and payment, and at this time, a predetermined communication protocol is used.

The communication protocol mainly uses the specifications required by charger manufacturers by charging infrastructure builders.

The domestic charger communication protocol was first established and used by the Korea Environment Corporation under the Ministry of Environment, but charging companies are using it after changing it to suit their environment.

In particular, as the charging infrastructure that was initially provided free of charge has been converted to a fee, a payment module is required for the usage fee, and since each business operator operates a system for its management, it is charged when the charging facility installed by a government agency is converted to a fee. And there is a need to connect not only the payment system, but also the finance and management system.

Korean Patent Application Publication No. 10-2010-0059641 (2010.06.04.)

Therefore, the present invention can support various payment methods for charging devices having different payment methods for each manufacturer, and applies a unified integrated communication protocol in transmitting data that can be used for management and maintenance of charging devices. It is intended to provide a payment device for electric vehicle chargers with universality.

As a means for achieving the above object, the payment device for an electric vehicle charger having the versatility of the present invention is mounted to be connected to a charging device for an electric vehicle to receive billing information calculated from the charging device, and to pay for the received billing information. And a payment module for collecting output data generated and output from a charging device and processing and transmitting the output data in an integrated transmission protocol format.

As an example, the payment module is connected to the charging device to collect output data including billing information according to a unique communication method for each charging device, and process the collected output data of the charging device into a set integrated transmission protocol format. A data collection unit; A communication unit for transmitting output data of the charging device processed by the data collection unit in an integrated transmission protocol format; A payment amount determination unit that analyzes data of the charging device collected by the data collection unit to determine a payment target amount according to the billing information; A payment processing unit that recognizes one payment method selected by a user and processes a payment target amount determined by the payment amount determination unit; And a display unit for displaying a payment target amount determined by the payment amount determining unit, a payment process processed by the payment processing unit, and result information.

As an example, the payment processing unit may include an RF/NFC card reader for recognizing a contactless prepaid transportation card; MSR card reader for recognizing a magnetic credit card; An IC card reader for recognizing an IC card; And a card information input unit that receives card information recognized from one of the RF/NFC card reader, MSR card reader, and IC card reader and processes payment with the input card information.

As an example, it may further include an input module attached to and detached from the payment module to input user settings and commands.

As described above, the payment device for electric vehicle chargers having the utility of the present invention can support various payment methods for charging devices having different payment methods for each manufacturer, and transmit data that can be used for management and maintenance of the charging device. In doing so, there is an effect that a unified and unified communication protocol can be applied.

1 is a view schematically illustrating a payment device for an electric vehicle charger having versatility according to an embodiment of the present invention.
Figure 2 is a block diagram showing the configuration of a payment device for an electric vehicle charger having versatility according to an embodiment of the present invention.
3 is a view showing the appearance of a payment module according to an embodiment of the present invention.
4 is a view showing the appearance of a payment processing unit according to an embodiment of the present invention.
5 is a view showing an external appearance of an input module according to an embodiment of the present invention.

Hereinafter, the configuration and operation of the present invention will be described in more detail based on the accompanying drawings. In describing the present invention, terms or words used in the present specification and claims are the present invention based on the principle that the inventor can appropriately define the concept of terms in order to explain his or her invention in the best way. It must be interpreted as a meaning and concept consistent with the technical idea of

1 is a diagram schematically illustrating a payment device for an electric vehicle charger having versatility according to an embodiment of the present invention, and FIG. 2 is a view illustrating a payment device for an electric vehicle charger having versatility according to an embodiment of the present invention. It is a block diagram showing the configuration. And Figure 3 is a view showing the appearance of a payment module according to an embodiment of the present invention, Figure 4 is a view showing the appearance of a payment processing unit according to an embodiment of the present invention, Figure 5 is an embodiment of the present invention It is a diagram showing the appearance of the input module according to.

The payment device 10 for an electric vehicle charger having versatility of the present invention is mounted to be connected to the charging device 20 for an electric vehicle as shown in FIG. 1 to receive billing information calculated from the charging device 20 And a payment module 100 that performs payment for the received billing information, collects output data generated and output from the charging device 20, and processes and transmits the output data in an integrated transmission protocol format.

Here, the output data of the charging device 10 may include not only billing information on the amount of charge used, but also failure status, communication error, and status information on whether to charge or not to determine maintenance timing and operation status.

The payment device 10 may transmit the output data of the charging device 20 to the control server 30 through a wired or wireless communication network.

The control server 30 may receive and store output data transmitted from a plurality of payment devices 10 installed for each area, classify and manage them, and monitor the stored output data for each payment device 10.

For example, the control server 30 is output data transmitted from the payment device 10 in connection with a maintenance system such as MMS (maintenance management system), CMMS (Computerized Maintenace Management System), ITSM (Information Technology Service Management), etc. It is possible to determine the periodic inspection and maintenance timing of the charging device 20 through monitoring of.

Looking at the payment module 100 of the payment device 10 according to an embodiment of the present invention with reference to FIG. 2, the payment module 100 includes a data collection unit 110, a communication unit 120, and a payment amount determination unit. It may be configured to include 130, a payment processing unit 140 and a display unit 150.

The data collection unit 110 is connected to the charging device 30 to collect output data including billing information according to a unique communication method for each charging device 20, and collect the output data of the charging device 30. It can be processed into the set integrated transport protocol format.

The data collection unit 110 temporarily stores the output data of the charging device 20 in an internal buffer and processes the output data in an integrated transmission protocol (RDEP, Realtime Data Exchange Protocol) format to the control server 30. Can be ordered to send.

However, the output data transmitted from the charging device 30 in which the integrated transmission protocol (RDEP) is embedded among the charging device 30 is not processed by the data collection unit 110, but the control server 30 ) Can be sent.

The integrated communication protocol does not affect the performance of the charging device 30, and it is preferable to use an encrypted packet to prevent data forgery/modulation and hacking.

In addition, it is preferable that the integrated communication protocol be developed in the form of http + XML in consideration of future extensibility. For example, the integrated communication protocol may be configured as an API (Application Programming Interface) so that HTTP 1.1 and XML methods can be applied in consideration of a situation in which the control system by the control server 30 is mainly operated in a web method.

The data collection unit 110 may include a driver unit having a communication driver for each charging device 20 that is different for each manufacturer, and forms a communication path with the charging device 20 in which the communication driver is installed, and the charging device 20 The output data of can be collected.

The driver unit may be equipped with a communication driver provided by a manufacturer of the charging device 20 required for data signal collection, but may be developed separately and provided in the data collecting unit 110 if necessary.

In addition, the driver unit may provide an interface so that the communication driver of the new charging device 20 can be installed, store the input communication driver information, and update the already installed communication driver according to a set cycle. (20) Communication driver can also be installed selectively.

The data collection unit 110 may check a connection state with the connected charging device 20 and check basic information and status of the charging device 20.

The communication unit 120 may transmit output data of the charging device processed in the form of an integrated transmission protocol by the data collection unit 110 in real time or in response to a request from the control server 30.

In addition, the communication unit 120 is provided with a communication interface for receiving an external command in addition to transmitting the output data of the charging device 20 to the control server 30, the control server 30 and data through a communication network. Can communicate.

At this time, the communication network is an IP network that provides large-capacity data transmission/reception service and data service without interruption through Internet Protocol (IP, Internet Protocol), which is an IP network structure that integrates different networks based on IP. IP) network, wired communication network, mobile communication network (CDMA, 2G, 3G, 4G, LTE), Wibro (Wireless Broadband) network, HSDPA (High Speed Downlink Packet Access) network, satellite communication network and Wi-Fi (WI-FI, Wireless Fidelity) Any suitable one of the networks can be used.

The payment amount determination unit 130 may analyze the output data of the charging device 30 collected by the data collection unit 110 to determine a payment target amount according to the charging information.

That is, the payment amount determination unit 130 may determine a billing amount calculated from the connected charging device 20 as a payment target amount.

The payment processing unit 140 may recognize one payment method selected by the user and process a payment target amount determined by the payment amount determination unit 130.

Although not shown in the drawing, the payment processing unit 140 may be connected to a VAN company or a card company server, and the Vensa or card company that is transacting the payment request message generated according to the payment processing performed by the payment processing unit 140 Can be delivered to the server.

In addition, the payment processing unit 140 may receive and output information on an approval result message from the Bansa server or card company server.

That is, the payment processing unit 140 may output the payment processing result, approval result information, etc., generated as a result of the process of performing the payment processing through the printing device and the display unit 150 to be described below. It may include a printing protocol and a driver for printing print information according to the printed form through a predetermined printing device.

The display unit 150 may display a payment target amount determined by the payment amount determining unit 130 and information on a payment process and result processed by the payment processing unit 140.

Meanwhile, the payment processing unit 140 is configured to support various payment methods.

For example, as shown in FIG. 4, the payment processing unit 140 includes an RF/NFC card reader 141 for recognizing a contactless prepaid transportation card, and an MSR card reader 142 for recognizing a magnetic credit card. Wow, it may include an IC card reader 143 for recognizing an IC card, and is recognized from one of the selected RF/NFC card reader 141, MSR card reader 142, and IC card reader 143 It may be configured to include a card information input unit for receiving the input card information and processing payment with the input card information.

Meanwhile, the payment device 10 for an electric vehicle charger having the versatility of the present invention further includes an input module 200 for inputting user settings and commands by being attached and detached to the payment module 100 as shown in FIG. 5. Can include.

The input module 200 may select and apply a suitable one of known input methods such as a keypad and a touch pad as an input method.

It will be appreciated by those skilled in the art through the above description that various changes and modifications can be made without departing from the technical idea of the present invention. Therefore, the technical scope of the present invention is not limited to the contents described in the detailed description of the specification, but should be determined by the claims.

10: payment device 20: charging device
30: control server
100: payment module 110: data collection unit
120: communication unit 130: payment amount determination unit
140: payment processing unit 141: RF/NFC card reader
142: MSR card reader 143: IC card reader
200: input module

Claims (4)

It is mounted to be connected to the charging device for electric vehicles, receives billing information calculated from the charging device, performs payment for the received billing information, and performs billing information on the amount of charge generated and output from the charging device, maintenance timing and operation Including a payment module that collects output data including status information of failure, communication error, and charging status for determining the status, and processes and transmits the output data in an integrated transmission protocol format,
The payment module,
It is connected to the charging device and collects output data including billing information according to the unique communication method of each charging device, and processes the collected output data of the charging device in a set integrated transmission protocol format. Provides an interface so that the driver is provided and the communication driver of the new charging device can be installed, the input communication driver information is saved and the installed communication driver can be updated according to a set cycle. Install the communication driver of the connected charging device including the driver to be installed, form a communication path with the charging device in which the communication driver is installed, and collect output data including billing information according to the communication method of the charging device in which the communication path is formed, A data collection unit for temporarily storing the output data of the charging device in an internal buffer and instructing to process and transmit the output data in the form of an integrated transmission protocol (RDEP);
A communication unit for transmitting output data of the charging device processed by the data collection unit in an integrated transmission protocol format;
A payment amount determination unit that analyzes data of the charging device collected by the data collection unit to determine a payment target amount according to the billing information;
A payment processing unit that recognizes one payment method selected by a user and processes a payment target amount determined by the payment amount determination unit; And
Including; a display unit for displaying the payment target amount determined by the payment amount determining unit, payment process and result information processed by the payment processing unit,
The payment processing unit,
RF/NFC card reader for recognizing contactless prepaid transportation cards, MSR card reader for recognizing magnetic credit cards, IC card reader for recognizing IC cards and the RF/NFC card reader, MSR card reader And a card information input unit for receiving card information recognized from one of the IC card readers and processing payment with the input card information.
delete delete The method of claim 1,
An input module that is attached to and detached from the payment module to input user settings and commands. A payment device for electric vehicle chargers having versatility, further comprising.

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