KR20180110531A - Charging System for Electric Vehicle - Google Patents

Abstract

The present invention relates to an electric vehicle charging system and, more specifically, to an electric vehicle charging system employing a method for detecting power attribute information of power supply equipment by a portable charger so as to prevent a failure of building electrical installations, and paying the power usage rate. The electric vehicle charging system according to an aspect of the present invention comprises: power supply equipment which can provide electricity; an indication tag disposed in a portion of the power supply equipment and containing power attribute information and information on a power provider who provides the electricity; a charger main body including a reader unit which can read the indication tag and a display unit on which the power attribute information and power usage information are displayed; and a terminal device application which can read information displayed on the display unit, can calculate the power rate according to the power attribute information and the power usage information, and can be connected to an external payment system so as to pay the power rate.

Description

[0001] Charging System for Electric Vehicle [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric vehicle charging system, and more particularly, to an electric vehicle charging system that includes a method of preventing a failure of a building electric facility by grasping electric power property information of a power facility in a portable charger, Charging system.

Generally, an electric vehicle uses a charger to charge the battery. The charger includes a fixed charger fixed to a vehicle charging station and a portable charger (also referred to as a cordet or a coupler) provided for use at home or on the move.

Fig. 1 shows a concept of charging an electric vehicle using a portable charger. The plug 4 of the portable charger 3 is inserted into the wall power socket 2 of the vehicle charging station 1 and the connector 6 of the portable charger 3 is inserted into the charging inlet 9 of the electric car 8 ). The portable charger 3 is provided with a charger main body 5 between the plug 4 and the connector 6 to perform various monitoring and control such as control of current, monitoring of leakage current, overcurrent protection, and the like. The charger main body 5 is provided with a plurality of display lamps 5a for displaying various states. A cable 7 is connected between the plug 4 and the charger main body 5 and between the charger main body 5 and the connector 5, respectively.

A charging method using a portable charger according to the related art is as follows. The plug 4 is first connected to the receptacle 2 and the power indicator 5a is confirmed and then the connector 6 is connected to the charging inlet 9 of the electric vehicle 8 for charging. When the charging is completed, disconnect the connector 6 from the electric vehicle 8 and disconnect the plug 4 from the receptacle 2.

However, in the portable charger according to the related art, the power property information such as the maximum allowable current, voltage, and frequency of the electric equipment of the charging station 1 can not be known, so there is a risk of causing fire in the electric facility or automobile when charging with the maximum current . In addition, since the owner of the electric facility can not be known, electricity can be stolen.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a portable charger that can prevent a failure of a building electric facility by grasping power attribute information of a power supply facility, To provide a car charging system.

An electric vehicle charging system according to an aspect of the present invention includes a power supply facility capable of providing electricity; A display tag provided in a part of the power supply facility and containing power property information and power provider information for providing the electricity; A reader unit for reading the display tag, a charger main body having the power attribute information and a display unit for displaying electricity usage information; And a terminal device application capable of reading information displayed on the display unit and calculating an electricity rate according to the power attribute information and the electricity usage information and connecting the terminal to an external payment system to pay the electricity rate .

Here, the power attribute information includes a maximum allowable current, a voltage, a frequency, and an electricity rate table.

The display tag may be a bar code or an RFID tag.

Further, the display tag is provided in a part of an outlet of the power supply facility.

The charging unit may further include a control unit for determining whether to perform current charging according to the power attribute information, adjusting the amount of charging current, determining whether the charging current is abnormal, and calculating an electricity charge according to the amount of electricity used .

In addition, the charger main body may further include a lock portion capable of opening and closing the flow of electricity.

In addition, the control unit determines opening and closing of the locking unit according to the power attribute information.

In addition, the charger main body includes an ID unit in which information of the charger main body and user information are displayed.

The display unit or the ID unit may include a one-dimensional barcode or a two-dimensional barcode.

In addition, the charger main body further includes a wireless communication unit capable of wirelessly transmitting / receiving information to / from an external device.

Further, the charger main body further includes a storage unit for storing the information and the charging history.

The terminal device application may include a user application and a power provider application.

The settlement system may include a settlement system operated by the power provider or a third party.

According to another aspect of the present invention, there is provided a portable charger for an electric vehicle including an electric charger body, wherein the charger body is provided in a part of a power supply facility capable of providing electric power, A reader unit capable of reading a display tag containing power supplier information for providing electricity; And a display unit for displaying the power attribute information and the electricity usage amount information.

Here, the power attribute information includes a maximum allowable current, a voltage, a frequency, and an electricity rate table.

The display tag may be a bar code or an RFID tag.

The charging unit may further include a control unit for determining whether to perform current charging according to the power attribute information, adjusting the amount of charging current, determining whether the charging current is abnormal, and calculating an electricity charge according to the amount of electricity used .

In addition, the charger main body may further include a lock portion capable of opening and closing the flow of electricity.

In addition, the control unit determines opening and closing of the locking unit according to the power attribute information.

In addition, the charger main body includes an ID unit in which information of the charger main body and user information are displayed.

The display unit or the ID unit may include a one-dimensional barcode or a two-dimensional barcode.

In addition, the charger main body further includes a wireless communication unit capable of wirelessly transmitting / receiving information to / from an external device.

The charger main body further includes a storage unit for storing the information and the charging history.

According to the electric vehicle charging system according to an embodiment of the present invention, when electric car portable charger is used, power property information such as the maximum allowable current, voltage and frequency of the electric power facility is grasped and charged, Failure can be prevented.

In addition, charging is performed according to the power attribute information, and the charge is transmitted to the payment system, thereby making it possible to prevent the risk of the challenge and to perform the automated settlement.

1 is a conceptual diagram of the use of an electric vehicle portable charger according to the prior art.
2 is a conceptual diagram of an electric vehicle charging system according to an embodiment of the present invention.
3 is a block diagram of an electric vehicle charging system according to an embodiment of the present invention.
4 is a flowchart illustrating a method of using an electric vehicle charging system according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, which are intended to illustrate the present invention in a manner that allows a person skilled in the art to easily carry out the invention. And does not mean that the technical idea and scope of the invention are limited.

FIG. 2 is a conceptual diagram of an electric vehicle charging system according to an embodiment of the present invention, and FIG. 3 is a block diagram of an electric vehicle charging system according to an embodiment of the present invention. The electric vehicle charging system according to each embodiment of the present invention will be described in detail with reference to the drawings.

An electric vehicle charging system according to an embodiment of the present invention includes a power supply facility 10 capable of providing electricity; A display tag (13) provided in a part of the power supply facility (10) and containing power property information and power provider information for providing the electricity; A reader unit 31 that can read the display tag 13, a charger main body 31 having a display unit 36 on which the power attribute information and the electricity usage information are displayed; The display unit 36 is capable of reading the information displayed on the display unit 36 and calculates the electricity rate according to the electric power property information and the electricity usage amount information, And a device application (61).

The power supply facility 10 or the charging station includes a facility capable of providing electric power. Such a power supply facility 10 includes a car charging station and a domestic power supply facility. The power supply facility 10 may typically be a wall power source facility.

The power supply facility 10 provides the electric power received from the electric power supplier (or the electric power seller) 20 via the electric power transmission line 21 and the electric distribution line 22.

The power supply system 10 is provided with a receptacle 11 for electric charging. The receptacle 11 may be provided with a socket 12, which can be used by plugging an electric plug 39.

The power provider 15 provides a display tag 13 to provide information about the nature of the power provided by the power facility 10 and the power provider. Here, the power provider 15 refers to the owner of the power facility 10, the owner of the building or the entity providing the power of the power facility 10. [

The display tag 13 contains power attribute information and power provider information provided by the power supply facility 10. Here, the power attribute information includes a maximum allowable current or a maximum current, a voltage, a frequency, an electricity rate table or an electric rate. Also, the power provider information may include an ID of the power provider, account information, and the like. The user can determine whether to use the power attribute information by grasping such power attribute information. The user can calculate the electricity usage amount (charge electric power amount) by using the electric power property information. The user can utilize the electric power provider information to pay electric bill.

The display tag 13 may be composed of a bar code or a radio frequency identification (RFID) tag.

The barcode includes a linear barcode (one-dimensional barcode) or a two-dimensional barcode. Linear barcodes include various types of barcodes, including numbers and letters, such as the popular 'Code 39' barcode. The two-dimensional bar code includes a bar code including a character, a number, a picture, a sound, etc. such as a QR code (Quick Response code). In the case of a 2D barcode, a link function is provided so that an application can be operated or linked to a web site.

An RFID tag is also called an electronic tag, which is used in RFID, a technique for identifying an ID using the frequency of a radio wave. An RFID tag includes an antenna and an integrated circuit, and can record information in an integrated circuit and transmit information to a reader (reader) via an antenna.

The display tag 13 may be provided to be attached to a part of the power supply facility 10. The display tag 13 may be provided attached to a part of the receptacle 11. [ Further, the display tag 13 may be provided in a part of the socket 12 of the receptacle 11. [ Accordingly, when the plug 39 is inserted into the socket 12, the power attribute information and the power provider information can be immediately transmitted to the charger main body 31.

The portable charger 30 includes a charger main body 31, a plug 39, and a connector 40.

The plug 39 can be coupled to the socket 12 of the receptacle 11 so that the plug pin 39b can receive electricity from the power supply 10. A plug cable 39a is connected between the plug 39 and the charger main body 31.

The connector 40 is provided with a plurality of connector pins that can be connected to the electric vehicle. A coupler cable 40a is connected between the connector 40 and the main body 31 of the charger.

The connector 40 is connected to the charging inlet 51 of the electric vehicle 50 to supply electric power to the electric vehicle 50. (In this specification, electricity and electric power can be used in combination, but the same concept is used unless otherwise specified.)

The charger main body 31 is provided with a control unit 32. The control unit 32 may be an IC chip, a microprocessor, a PCB (Printed Circuit Board), or the like. A program or a set of instructions for calculation, judgment, and control may be input or installed in the control unit. The control unit 32 determines whether or not the plug 39 is normally connected to the socket 12, determines whether or not to perform current charging according to the power attribute information, controls the amount of charging current, determines whether the charging current is abnormal, Charge power amount), and electric bill calculation, and the like.

The charger main body 31 is provided with a locking portion 33. The lock portion 33 is provided in a part of a cable (power line or electric circuit) so as to be capable of opening and closing the flow of current flowing in the cable. The locking portion 33 may be constituted by an opening / closing mechanism such as a switch.

When the plug 39 is normally connected to the socket 12, the locking portion 33 can be released. The locking portion 33 can be released manually or automatically.

The control unit 32 may check whether the plug 39 is normally connected to the socket 12. [ The control unit 32 can release the lock unit 33 and connect the cable so that current can be supplied when the plug 39 is confirmed to be normally connected to the socket 12. [

The release of the locking portion 33 may be dependent on the power attribute information. For example, the control unit 32 may determine to release the lock unit 33 according to the power attribute information.

The lock portion 33 may be associated with the payment information. For example, the control unit 32 may not allow the lock unit 33 to be released if there is an undischarged item.

The charger main body 31 may be provided with an AC / DC converter 41. The AC / DC converter 41 can convert the AC current received from the power supply facility 10 into a DC current.

The charging unit main body 31 is provided with an ID unit 34. [ The ID unit 34 may store and display information on the charger main body and user information. The ID unit 34 may be composed of a bar code or an RFID tag. The user information may include a user ID. In another embodiment, the ID portion 34 can be used as a part of the display portion 36. [ In addition, the ID unit 34 may be included in the display unit 36. At this time, the form displayed on the ID unit 34 may be displayed in a 1D or 2D bar code form.

A reader unit (35) is provided in the charger main body (31). The reader unit 35 may be constituted by a barcode reader or an RFID reader. The reader unit 35 reads the display tag 13 of the power supply facility 10 and can transmit it to the display unit 36, the control unit 32, the wireless communication unit 37, or the like. That is, the reader unit 35 can read and transmit the power attribute information and the power provider information. In another embodiment, the reader unit 35 may be installed in a part of the plug 39. [

The charger main body 31 is provided with a display portion 36. [ The display unit 36 may include any one of a liquid crystal display (LCD), a light emitting diode (LED), and an organic light emitting diode (OLED). The display unit 36 may display power attribute information, power provider information, electricity usage amount information, charging status information, payment information, and the like. At this time, the form displayed on the display unit 36 includes a bar code form of 1D or 2D.

The charger main body 31 is provided with a status indicator 36a. The status indicator 36a may be provided as any one of a lamp, an LED, and an OLED. The status indicator 36a can display power attribute information, power provider information, electricity usage information, charge status information, payment information, etc. in a simple form. The status indicator 36a may be applied together with the display unit 36. [ The status indicator 36a can assist the display unit 36. FIG.

The display unit 36 or the status indicator 36a may display various error conditions occurring during charging.

The charger main body 31 may be provided with a wireless communication unit 37. The wireless communication unit 37 may be configured to use a short-range wireless communication technology such as wireless fidelity (WiFi), Bluetooth, and near field communication (NFC). The wireless communication unit 37 receives information from the control unit 32, the reader unit 35 or the ID unit 34 and can transmit information to the user terminal device 60 or the external device.

The charger main body 31 is provided with a storage unit 38 for storing the above information and managing the history. The storage unit 38 may be connected to the control unit 32, the reader unit 35, the wireless communication unit 37, and the like.

The user, the power provider 15, and the electric supplier 20 can use the terminal device application or the server application, respectively. Here, the application may include a program, software, a set of instructions, and the like.

The user application can display the power attribute information, the power provider information, the user information, the charger main body information, the charging status information, the electricity usage amount information, and the like. In addition, the electricity bill can be calculated according to the electric power usage information and the electricity usage amount. In addition, the charging current can be remotely controlled. Also, it can connect to the payment system and pay the calculated electricity bill. In addition, payment information can be transmitted to the charger main body. Also, charge history management of the charger main body or the electric vehicle can be performed.

The power provider application may perform some of the functions of the user application. Also, user history management and charge history management of power facilities can be performed.

The electricity supplier application may perform some of the functions of the user application and the power provider application. Also, power usage management and the like can be performed.

The user application, the power provider application, and the electricity supplier application may be separately configured. Alternatively, the user application, the power provider application, and the electricity supplier application may be configured as sub-menus of one application. That is, each user, the power provider 15, and the electric supplier 20 use the same charge management application, and can use a menu suitable for each application.

The payment system 65 is provided so as to be able to pay for electricity usage. The payment system 65 includes devices, systems, and applications that are payable. The payment system 65 may include a system operated by the power provider 15 or a system operated by a third party such as a financial institute, a financial institution, or an electronic settlement certification institution.

An example of a method of using the electric vehicle charging system according to an embodiment of the present invention will be described as follows. FIG. 4 shows an example of a method of using an electric vehicle charging system according to an embodiment of the present invention.

The use of the electric vehicle charging system according to an embodiment of the present invention includes a connecting step S1, a charging step S2, and a paying step S3.

The connection step S1 may include a plug connection step S11, a display tag reading step S12, an unlocking step S13, and a power attribute information display step S14.

The plug connection step S11 may include a plug connection step S111 and a connection state confirmation step S112.

The plug connection step S111 includes an operation in which the user connects the plug 39 of the portable charger 30 to the receptacle 12 of the power supply facility 10. [

The connection state checking step S112 is a process of checking whether the plug 39 is normally connected to the socket 12 of the receptacle 11. [ The charger main body 31 informs the user when the plug 39 is normally connected to the socket 12. The control unit 32 may perform such notification or display action. Such notification or display may be displayed on the display unit 36. [ Such notification or display may be displayed on the status indicator 36a. These notifications or indications can be color-coded in the status indicator 36a. In another embodiment, such notification or indication may be immediately displayed on the display 36 or the status indicator 36a connected to the plug by way of the controller 32. [

The display tag reading step S12 may include the display tag reading step S121, the power attribute information and the power provider information transmission step S122, the power attribute information, and the power provider information storage step S123.

The display tag reading step S121 includes an operation of the portable charger 30 to read the display tag 13 of the power supply facility 10. [ The reader unit 35 can read the display tag 13.

In the power attribute information and power provider information transmission step S122, the power attribute information and the power provider information read by the reader unit 35 are transmitted to the control unit 32, the display unit 36, or the wireless communication unit 37. The control unit 32 can perform calculation, determination, and control using the transmitted power attribute information and the power provider information.

In the power attribute information and power provider information storage step S123, the power attribute information and the power provider information are stored in the storage unit 38. [ The control unit 32 may store the power attribute information and the power provider information received from the reader unit 35 in the storage unit 38. [

The unlocking step S13 includes an operation in which the control section 32 releases or holds the lock section 33 in accordance with the power attribute information and the power provider information. The control unit 32 controls the locking unit 33 in accordance with the information of the power attribute information of the power supply facility 10, that is, the voltage, the maximum current, the frequency, the electric rate table, So that the charging can be performed. The upper limit value or the lower limit value of this use range can be set in advance. If the control unit 32 is out of the usable voltage, current, frequency state, or electric rate of the set range, the control unit 32 can stop without further progress. That is, charging is not performed. When the progress is stopped, the stop factor may be displayed on the display unit 36 or the status indicator 36a.

The power attribute information display step S14 displays the power attribute information and the power provider information on the display unit 36. [ Of these pieces of information, the portion displayed on the display unit 36 may be selectively made. This information may be displayed on the status indicator 36a.

Each sub-step in the connection step S1 can be changed in order as necessary, and some steps can be made simultaneously. Also, some steps may be omitted.

The charging step S2 includes a connector connecting step S21, a charging performing step S22, and a charging state displaying step S23.

The connector connecting step S21 includes an operation of connecting the connector 40 of the portable charger 30 to the charging inlet 51 of the electric vehicle 50. [ The connector connection step S21 includes checking whether the connector 40 is normally connected to the charging inlet 51 and displaying the connection state on the display unit 36 or the status indicator 36a . According to an embodiment, the connector connection step S21 may be included as a sub-element of the connection step S1.

The charging performing step S22 includes an operation in which the portable charger 30 receives electric power from the power supply facility 10 and transmits electric power to the charging inlet 51 of the electric vehicle 50. [ The charging execution step S22 may include a step of converting the AC current received from the power supply facility 10 to an AC current by the AC / DC converter 40 and transmitting the DC current to the electric vehicle 50.

The charging status display step S23 includes an operation of displaying the amount of electricity used (charging power amount) on the display unit 36 or the status indicator light 36a. At this time, the charging progress state and the charging completion state can be displayed. Whether or not an error occurred during the charging state can also be displayed. (It should be understood that the notation or indication in this specification includes what is displayed in the status indicator 36a, even if it is described only for the display portion 36).

In the payment step S3, the display part reading step S31, the electricity price calculation step S32, and the electricity bill payment step S33 are included.

The display pre-reading step S31 includes reading the ID unit 34 and / or the display unit 36 of the charger main body 31 with the user terminal device 60. [ The charger information, user information, power attribute information, electricity rate table information, and power user information that the user has read from the ID unit 34 or the display unit 36 using the user terminal device 60 are stored in the user application 61, Management application.

In another embodiment, the display part reading step S31 may be replaced with the wireless communication part transmitting step S311. The wireless communication unit transmission step S311 includes an operation of transmitting the information to the user terminal 60 in the wireless communication unit 37. [

The electricity bill calculation step S32 may include an electricity bill calculation step S321 and an electricity bill display step S333 according to the electricity rate table of the electric power property information and the electricity consumption amount.

The electricity bill calculation step S321 includes an operation in which the user application 61 calculates the electricity bill according to the rate table and the electricity consumption amount of the power attribute information.

In another embodiment, the calculation of the electricity bill may be made in the control unit 32. [ In this case, the electricity bill information calculated by the control unit 32 may be transmitted to the user terminal device 60 through the display unit 36 or the wireless communication unit 37. [

The electricity bill display step S333 includes an operation in which the electricity bill calculated by the user terminal device 60 or the control unit 32 is displayed on the display unit 36 or the user terminal device 60. [ This display step may include display of electricity usage amount information, electricity rate table information, and the like.

The electricity bill payment step S33 includes the payment system connection step S331, the electricity bill information transmission step S332, the electricity bill payment step S333, and the payment information transmission and display step S334.

The payment system connection step (S331) includes an operation in which the user application (61) connects to the payment system (65).

The electricity bill information transmission step S332 includes an operation in which the user application 61 transmits user information, electricity usage amount information, electricity bill information, and the like to the payment system 65. [

The electricity bill settlement step (S333) includes an operation to settle the electricity bill through the settlement system (65). Such payment means may include various payment means such as a card, cash, electronic money, and the like.

The payment information transmission and display step S334 includes an operation for the payment system 65 to transmit the payment information to the user terminal device 60 and the power provider terminal device 17. [ The payment information may include a payment amount, a payment method, user information, power provider information, settlement institution information, electricity usage amount information, and the like.

The payment information is transmitted to the wireless communication unit 37 via the user terminal device 60 and this information can also be stored in the storage unit 38 via the control unit 32. [ The payment information can be used for charge history management.

According to the electric vehicle charging system according to an embodiment of the present invention, when electric car portable charger is used, power property information such as the maximum allowable current, voltage and frequency of the electric power facility is grasped and charged, Failure can be prevented.

In addition, charging is performed according to the power attribute information, and the charge is transmitted to the payment system, thereby making it possible to prevent the risk of the challenge and to perform the automated settlement.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the technical idea of the present invention. That is, the scope of protection of the present invention should be construed according to the following claims, and all technical ideas which are within the scope of the same should be interpreted as being included in the scope of the present invention.

10 Power supply 11 Outlet
12 Socket 13 display tag
15 Power provider 20 Electric supplier
21 Transmission line 22 Transmission line
30 Portable Charger 31 Charger Body
32 control part 33 locking part
34 ID Unit 35 Reader Unit
36 Display part 36a Status indicator
37 wireless communication unit 38 storage unit
39 Plug 40 connector
41 AC / DC converters 50 electric cars
51 charging inlet 60 terminal device
65 Payment System

Claims (22)

A power plant capable of providing electricity;
A display tag provided in a part of the power supply facility and containing power property information and power provider information for providing the electricity;
A reader unit for reading the display tag, a charger main body having the power attribute information and a display unit for displaying electricity usage information;
And a terminal device application capable of reading information displayed on the display unit and calculating an electricity rate according to the power attribute information and the electricity usage information and connecting the terminal to an external payment system to pay the electricity rate Electric vehicle charging system. 2. The electric vehicle charging system of claim 1, wherein the power attribute information includes a maximum allowable current, a voltage, a frequency, and an electricity rate table. The electric vehicle charging system according to claim 1, wherein the display tag is a barcode or an RFID tag. [2] The apparatus of claim 1, wherein the charger main body has a control unit for determining whether to perform current charging according to the power attribute information, adjusting the amount of charging current, determining whether the charging current is abnormal, Further comprising the step of: 5. The electric vehicle charging system according to claim 4, wherein the charger main body further includes a lock portion capable of opening and closing the flow of electricity. 6. The electric vehicle charging system according to claim 5, wherein the control unit determines opening and closing of the locking unit according to the power attribute information. The electric vehicle charging system according to claim 1, wherein the charger main body includes an ID unit for displaying information on the charger main body and user information. 8. The electric vehicle charging system according to claim 7, wherein the form displayed on the display unit or the ID unit includes a one-dimensional bar code or a two-dimensional bar code. The electric vehicle charging system according to claim 1, wherein the charger body further comprises a wireless communication unit capable of wirelessly transmitting / receiving information to / from an external device. The electric vehicle charging system according to claim 1, wherein the charger main body further comprises a storage unit for storing the information and the charging history. The electric vehicle charging system according to claim 1, wherein the terminal device application includes a user application and a power provider application. 2. The electric vehicle charging system according to claim 1, wherein the settlement system includes a settlement system operated by the electric power provider or a third party.
1. A portable charger for an electric car comprising a charger main body,
In the charger main body,
A reader unit provided in a part of a power supply capable of providing electricity and capable of reading a display tag containing power attribute information and power provider information providing the electricity; And
And a display unit for displaying the power attribute information and the electricity usage amount information. 14. The portable charger of claim 13, wherein the power attribute information comprises a maximum allowable current, voltage, frequency, and electrical rate table. 14. The portable charger of claim 13, wherein the display tag is a bar code or an RFID tag. 14. The battery charger according to claim 13, wherein the charger main body is provided with a control unit for determining whether to perform current charging according to the power attribute information, adjusting the amount of charging current, determining whether the charging current is abnormal, Wherein the battery charger further comprises a battery charger. 17. The portable charger for an electric vehicle according to claim 16, wherein the charger body further comprises a lock portion capable of opening and closing the flow of electricity. 18. The portable charger for an electric vehicle according to claim 17, wherein the control unit determines opening and closing of the locking unit according to the power attribute information. 14. The portable charger for an electric vehicle according to claim 13, wherein the charger main body includes an ID unit for displaying information on the charger main body and user information. 20. The portable charger of claim 19, wherein the display unit or the ID unit includes a one-dimensional bar code or a two-dimensional bar code. 14. The portable charger for an electric vehicle according to claim 13, wherein the charger body further comprises a wireless communication unit capable of wirelessly transmitting / receiving information to / from an external device. 14. The portable charger for an electric vehicle according to claim 13, wherein the charger main body further comprises a storage unit for storing the information and the charging history.

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