KR20220050736A - System and method of certifying genuine product of battery for vehicle - Google Patents

Abstract

The present invention relates to a genuine product certification system of a battery for a vehicle and a method thereof and, more specifically, to a genuine product certification system of a battery for a vehicle and a method thereof which charge a battery for a vehicle having a correct right by performing genuine product certification of the battery for a vehicle provided by a user when receiving the discharged battery for a vehicle from the user, who performs battery swapping in a charging station, and performing charging, thereby preventing accidents of the charging station such as malfunction, a defect, a fire and the like due to charging of an inadequate battery for a vehicle.

Description

Vehicle battery activation system and method

The present invention relates to a vehicle battery activation system and method, and more particularly, to a vehicle battery activation provided by a user when charging a discharged vehicle battery from a user performing battery swapping at a charging station. A vehicle battery activation system and method for preventing safety accidents such as failure, defect, fire, etc. of the charging station due to inappropriate charging of the vehicle battery by charging the vehicle battery with the correct authority will be.

Although automobiles have enriched human life and become an indispensable consumer product in daily life, they cannot be free from environmental pollution caused by exhaust gas and the limitations of fossil fuels.

The automobile industry is focusing on developing and popularizing electric vehicles as a new revenue model based on the national energy policy, and the electric vehicle industry is a solution for environmental protection and vehicle technology development.

However, the infrastructure, such as electric vehicle charging stations, which is an essential condition directly related to the performance and utilization efficiency of electric vehicles, is insufficient. In addition, the electric vehicle charging station lacks an independent charging space, and since the electric vehicle must be charged for a long time, the user must wait for a long time.

In order to solve this problem, a charging station that can be used by exchanging a discharged battery with a charged battery has been developed, and the charging station is installed and used in various public places.

However, when charging a discharged battery in the charging station, it does not check whether the battery is genuine, so if an unsuitable battery is used that does not meet the specifications or is not properly authorized, it may cause malfunction of the charging station and cause a fire There was a problem that caused accidents such as

Therefore, in the present invention, when charging a discharged vehicle battery from a user performing battery swapping at the charging station, by performing the activation of the vehicle battery provided by the user, only the vehicle battery for which the activation has been performed is charged and the charging is performed. The purpose of this study is to suggest a way to prevent the occurrence of safety accidents such as station failures, defects, and fires.

In particular, the present invention recognizes the QR code (or barcode, serial number) attached to the vehicle battery when performing activation of the vehicle battery at the charging station, and the information recorded in the QR code at the charging station It is intended to propose a method of requesting whether the vehicle battery is genuine through the genuine authentication server and receiving the authentication result from the genuine authentication server to perform genuine product authentication.

Next, the prior inventions existing in the technical field of the present invention will be briefly described, and then the technical matters that the present invention intends to achieve differently from the prior inventions will be described.

First, Korean Patent Application Laid-Open No. 2016-0050976 (2016.05.11.) relates to a battery authentication system and method for an electric vehicle using a battery exchange station, and includes a battery management system (BMS) having battery authentication information. At least one battery exchange unit for transmitting a battery authentication request signal including the battery authentication information when a battery authentication event occurs by connection, and authenticating whether the battery is a genuine battery according to the received authentication result information; and battery authentication information for genuine batteries, detecting battery authentication information included when receiving a battery authentication request signal from the battery exchange unit, and determining the detected battery authentication information based on the previously held battery authentication information. It is a prior invention including a battery authentication server unit that provides authentication result information to the battery exchange unit after performing authentication on the battery.

That is, the prior invention provides a battery exchange station for charging the verified genuine battery after verifying that the battery to be charged is a certified genuine battery when the battery to be charged is connected in the battery exchange station for charging the battery of the electric vehicle. It describes the used electric vehicle battery authentication system and method.

However, the present invention recognizes the QR code attached to the discharged vehicle battery provided by the user in the charging station, and transmits information on the recognized QR code to the genuine authentication server to confirm whether the product is genuine. and the present invention have significant structural differences.

In addition, Korean Patent No. 1502252 (2015.03.12.) relates to a countermeasure device for unauthorized battery replacement of an electric vehicle, including a power source driven by electric power from an exchangeable battery, and the battery after replacement is applied to the electric vehicle. When it is determined whether the battery is an approved battery or not, and when it is determined that the battery after replacement is an unlicensed battery for the electric vehicle, the countermeasure device for unauthorized battery replacement of the electric vehicle that limits the output of the power source while permitting the driving of the power source It is a prior invention about

That is, the above-mentioned prior invention relates to an electric vehicle using only an electric motor as a power source, a hybrid vehicle running using energy from an engine and an electric motor, etc., when replacing the battery of an electric vehicle in which the electric motor is at least a part of the power source, the battery A countermeasure technique in the case of an unlicensed thing that is not authorized for this electric vehicle is described.

On the other hand, the present invention is to charge a vehicle battery having a standard or correct authority by performing activation of a vehicle battery provided by a user who performs battery swapping at a charging station. This is clear.

The present invention was created to solve the above problems, and when charging a discharged vehicle battery from a user performing battery swapping at a charging station, by performing activation of the vehicle battery provided by the user, the standard An object of the present invention is to provide a vehicle battery activation system and method for charging a vehicle battery with correct authority and compliance.

In addition, the present invention performs charging only for the vehicle battery for which activation is performed at the charging station, thereby preventing failure or defects of the charging station that may occur due to an unsuitable vehicle battery, and not causing accidents such as fire. Another object is to provide a vehicle battery activation system and a method that prevent it from happening.

In addition, the present invention recognizes the QR code (or barcode, serial number) attached to the vehicle battery in the charging station, and transmits the recognized QR code to the activation server to request whether the vehicle battery is genuine, Another object of the present invention is to provide a vehicle battery activation system and method for authenticating the vehicle battery based on an authentication result received from the activation server.

In addition, the present invention prevents counterfeiting of the QR code by checking whether the QR code is being used in another charging station when the activation server performs activation of the vehicle battery through the QR code provided from the charging station. Another object of the present invention is to provide a vehicle battery activation system and a method to prevent it.

In addition, the present invention provides the charging station with specification information on the physical size and electrical characteristics of the vehicle battery together with the activation result in the genuine product authentication server performing genuine product activation of the vehicle battery to the charging station. Another object of the present invention is to provide a vehicle battery activation system and method that allow normal charging only when the specification information provided from the authentication server matches the specification information of the vehicle battery inserted for charging.

In addition, the present invention checks the state of charge of the vehicle battery that has completed activation at the charging station, and returns it if it is fully charged according to the confirmed state of charge, and when charging is required, it is charged according to the amount of charge of the vehicle battery Another object of the present invention is to provide a vehicle battery activation system and method for differentially paying costs.

In addition, the present invention provides the battery state information (charging amount, number of times, etc.) acquired through NFC, etc. from the vehicle battery inserted into the battery slot in the charging station to the management server, and the battery state information of the vehicle battery in the management server to update and manage the battery, and when it is determined that the number of times of charging related to the battery life exceeds a preset standard as a result of checking the battery status information and it is determined that the lifespan has expired, the vehicle battery that collects and replenishes the corresponding vehicle battery It is another object to provide an activation system and a method therefor.

In addition, the present invention manages the vehicle information owned by the user in the activation server, the vehicle battery and user information swapped through the charging station, and authenticates whether the vehicle battery is owned by the rightful owner and used in a suitable vehicle. Another object of the present invention is to provide a vehicle battery activation system and method to prevent theft or loss of vehicles and vehicle batteries, and to enhance security.

A vehicle battery activation system according to an embodiment of the present invention includes: a genuine product authentication unit for performing activation of the vehicle battery; and a control unit for controlling the charging of the vehicle battery according to the result of the activation of the genuine product; to prevent it.

In addition, the genuine authentication unit, QR code recognition unit for recognizing the QR code attached to the vehicle battery; a genuine authentication confirmation request unit for requesting genuine authentication of the vehicle battery from the genuine authentication server through the recognized QR code; a genuine product authentication result and specification information receiving unit for receiving the genuine product authentication result and specification information of the vehicle battery certified as genuine product from the genuine product authentication server; a genuine authentication confirmation unit for confirming whether the vehicle battery is genuine through the received genuine authentication result; and a specification confirmation unit that checks whether specification information including physical size and electrical characteristics received from the vehicle battery mounted in the battery slot matches the specification information of the vehicle battery received from the genuine product authentication server; The controller permits charging of the vehicle battery only when the vehicle battery is genuine and the specification information received from the vehicle battery matches the specification information provided from the genuine product authentication server.

At this time, the genuine authentication server checks whether the vehicle battery to which the QR code is attached is being charged by being inserted into another charging station when performing genuine authentication through the QR code provided from the genuine authentication confirmation request unit, It is characterized in that the vehicle battery is authenticated as genuine only when it is the only QR code as a result of checking.

In addition, the activation server stores and manages vehicle information owned by the user, vehicle battery swapped through the charging station, and user information in a database, and based on whether the vehicle information, vehicle battery and user information match and authenticating that the vehicle battery is owned by the rightful owner and used in a suitable vehicle.

In addition, the charging station provides the management server with battery status information including the amount of charge or the number of times of charging acquired through wireless communication including NFC from the vehicle battery mounted in the battery slot to update and manage the battery status information of the vehicle battery. And, the management server, as a result of checking the battery state information of the vehicle battery received from the charging station, if the number of charging times related to the battery life deviates from a preset standard, collects and replenishes the vehicle battery that has expired It is characterized in that it is carried out.

In addition, the method for authenticating a vehicle battery according to an embodiment of the present invention includes, in a charging station, an activation step of performing activation of the vehicle battery; and a control step of controlling the charging of the vehicle battery according to the result of the activation of the genuine product. It is characterized in that to prevent.

In addition, the activation step may include, in the charging station, a QR code recognition step of recognizing a QR code attached to the vehicle battery; a genuine authentication confirmation request step of requesting genuine authentication of the vehicle battery to a genuine authentication server through the recognized QR code; a genuine product authentication result and specification information receiving step of receiving the genuine product authentication result and specification information of the vehicle battery certified as genuine from the genuine product authentication server; a genuine authentication confirmation step of confirming whether the vehicle battery is genuine through the received genuine authentication result; and a specification checking step of confirming whether the specification information including the physical size and electrical characteristics received from the vehicle battery mounted in the battery slot matches the specification information of the vehicle battery received from the genuine product authentication server; In the controlling step, charging of the vehicle battery is permitted only when the vehicle battery is genuine and the specification information received from the vehicle battery matches the specification information provided from the genuine product authentication server.

At this time, the method is, in the activation server, when performing activation through the QR code provided from the charging station, confirming whether the vehicle battery to which the QR code is attached is inserted into another charging station and being charged, It characterized in that it further comprises; authenticating the battery for the vehicle as a genuine product only when it is the only QR code as a result of the check.

The method may further include, in the activation server, storing and managing vehicle information owned by the user, a vehicle battery swapped through the charging station, and user information in a database; and authenticating, in the activation server, whether the vehicle battery is owned by a legitimate owner and used in a suitable vehicle based on whether the vehicle information, vehicle battery, and user information match. do.

Also, in the method, in the charging station, the battery status information of the vehicle battery by providing the battery status information including the amount of charge or the number of times of charging obtained through wireless communication including NFC from the vehicle battery mounted in the battery slot to the management server updating and managing; and when the management server checks the battery status information of the vehicle battery received from the charging station, if the number of charging times related to the battery life exceeds a preset standard, collect and replenish the expired vehicle battery It is characterized in that it further comprises;

As described above, according to the vehicle battery activation system and method of the present invention, by performing the charging of the vehicle battery having the correct authority through the vehicle battery activation provided by the user at the charging station, it meets the electrical specification standard. It has the effect of preventing the charging station from breaking down or having defects due to an unsuitable vehicle battery and not causing accidents such as fire.

In addition, the present invention has the effect of preventing the counterfeiting of the QR code by performing activation by checking whether the QR code provided from the charging station is being used in another charging station in the activation server.

In addition, the present invention confirms the specifications of the vehicle battery to be charged in the charging station, and performs charging only when it matches the specification information provided along with the activation result from the activation server, so that the use of an inappropriate vehicle battery has a deterrent effect.

1 is a view showing the overall configuration of a system for authenticating a vehicle battery according to an embodiment of the present invention.
2 is a diagram illustrating in detail the configuration of a charging station according to an embodiment of the present invention.
3 is a view showing in detail the configuration of the genuine product authentication unit according to an embodiment of the present invention.
4 is a diagram showing in detail the configuration of a genuine product authentication server according to an embodiment of the present invention.
5 is a flowchart illustrating in detail an operation process of a method for authenticating a vehicle battery according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the vehicle battery activation system and method of the present invention will be described in detail. Like reference numerals in each figure indicate like elements. In addition, specific structural or functional descriptions of the embodiments of the present invention are only exemplified for the purpose of describing the embodiments according to the present invention, and unless otherwise defined, all terms used herein, including technical or scientific terms They have the same meaning as commonly understood by those of ordinary skill in the art to which the present invention pertains. Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present specification. It is preferable not to

In the present invention, a battery for a vehicle will be described as an example, but the present invention is not limited thereto, and may be applied to any battery that meets a predetermined standard used in an electric motorcycle, an electric bicycle, an electric kickboard, and the like.

1 is a view showing the overall configuration of a system for authenticating a vehicle battery according to an embodiment of the present invention.

1, the present invention is configured to include at least one charging station 100, a user terminal 200, a payment server 300, a management server 400, an activation server 500, etc. .

The charging station 100 is provided with a plurality of battery slots 180 and is a device in which a user using an electric vehicle can replace a discharged vehicle battery with a charged vehicle battery through battery swapping.

That is, the charging station 100 inserts the vehicle battery discharged according to the operation of the electric vehicle into the empty battery slot 180 without the user needing to wait for the vehicle battery to be charged, and then is mounted in another battery slot 180. It is intended to be used immediately by replacing it with a charged vehicle battery. At this time, the user first discharges the charged vehicle battery from the battery slot 180 , and then inserts the discharged vehicle battery into the corresponding battery slot 180 , unlike the wire insertion and discharge method described above. may be applied.

In this process, the charging station 100 recognizes the QR code attached to the discharged vehicle battery inserted into the battery slot 180 by the user performing battery swapping through the camera, and uses the recognized QR code Through the communication connection with the genuine authentication server 500, the genuine authentication of the vehicle battery is performed. The QR code may include access information of the genuine product authentication server 500, an authentication code for genuine product authentication, and the like.

At this time, genuine authentication using the QR code is performed by recognizing the QR code attached to the vehicle battery using a camera provided on the outside of the charging station 100 before the vehicle battery is inserted into the battery slot 180. Activation can also be performed.

At the same time as performing the activation, the charging station 100 is provided with specification information of the vehicle battery (eg, specification information such as physical size and electrical capacity) from the activation server 500, The received specification information is compared with the specification information received through wireless communication such as NFC from the vehicle battery inserted into the battery slot 180, and if the comparison result matches the specification information, the vehicle battery is charged to allow charging to be performed.

That is, the charging station 100 performs activation of the vehicle battery to be charged through the activation server 500 , and at the same time, the battery slot 180 for charging and specification information provided from the activation server 500 . By controlling to allow charging of the vehicle battery only when the specification information of the vehicle battery inserted in the This is to prevent accidents such as

Here, in the present invention, activation of the vehicle battery to be charged is described as an example using a QR code, but the present invention is not limited thereto. make it clear that

In addition, the charging station 100, in addition to performing the activation of the vehicle battery through the activation server 500, is periodically provided and updated from the activation server 500 QR code for each vehicle battery, Activation of the vehicle battery inserted into the battery slot 180 may be performed by itself using barcode or serial number information.

In addition, the QR code attached to the vehicle battery and used for activation may be illegally used by hacking, copying, forgery, etc., and the present invention provides a method for preventing such illegal use.

That is, the activation server 500 stores and manages information on the authentication code for activation included in the QR code set for each vehicle battery in advance in the database, and the charging station 100 activates the specific vehicle battery. When information on the QR code for Activation (for example, the verification code for activation included in the QR code) is provided, it is checked whether the QR code is being used by another charging station, and as a result of the check, it is not used in another charging station. If it is confirmed by the only QR code that has not been identified, the vehicle battery is authenticated as a genuine product.

If it is confirmed that the QR code is already being used by the other charging station, the activation server 500 informs the management server 400 or the manager that the QR code is being used illegally, promptly responding to the illegal use. action can be taken. In addition, when the QR code is used illegally, the charging station 100 may lock the corresponding vehicle battery inserted into the battery slot 180 to prevent it from being discharged to the outside.

On the other hand, after completing the activation of the vehicle battery inserted into the battery slot 180 for charging, the charging station 100 checks the state of charge of the vehicle battery, and returns if the vehicle battery is fully charged as a result of the check handle That is, this is to prepare for a case where the user does not know that the vehicle battery is fully charged and uses the charging station 100 for charging.

In addition, as a result of checking the charging state, the charging station 100 differentiates the charging cost according to the amount of charge of the vehicle battery when charging is required so that payment can be made. That is, the payment is made by the amount to be charged, rather than a lump sum charging cost as in the prior art.

In this case, the payment for charging the vehicle battery is not performed directly at the charging station 100 , but the payment can be conveniently performed through the QR code for payment pre-stored in the user terminal 200 . For example, the charging station 100 recognizes a QR code pre-stored in the user terminal 200 through a camera, and pays a cost for charging a vehicle battery based on information recorded in the recognized QR code . Here, the QR code for payment is the cost for charging the vehicle battery according to the control of the payment server 300 after performing a communication connection from the user terminal 200 to the payment server 300 through the network. It is paid, provided and stored.

In addition, when the charging station 100 starts charging through the activation of the vehicle battery mounted in the empty battery slot, any one of the battery slots in which the charged vehicle battery is installed is opened and the user is charged. Have a new vehicle battery available for replacement. In this case, the charging station 100 may be configured to allow the user to first receive a charged new vehicle battery, and then install the discharged vehicle battery in the battery slot to charge it through activation.

In addition, the charging station 100 provides the battery status information including the amount of charge or the number of times of charging obtained through wireless communication including NFC from the vehicle battery mounted in the battery slot 180 to the management server 400 through the network. Thus, the management server 400 updates and manages the battery state information of the vehicle battery. That is, the management server 400 checks the battery status information of the vehicle battery received from the charging station 100, and as a result of the check, if the number of times of charging related to the battery life deviates from the preset standard, the lifespan is over. It is determined, and information on the exhausted vehicle battery is provided to the manager so that the vehicle battery located in the specific charging station 100 can be recovered and replenished.

At this time, the management server 400 may manage the usage time of the vehicle battery for each user based on the battery state information provided from the charging station 100, and based on the usage time of the vehicle battery for each user managed in this way, the A user who spends a lot of time using the vehicle battery may be required to additionally charge a cost for consumption of the vehicle battery.

The user terminal 200 is a portable communication device such as a smartphone or tablet, and is connected to the payment server 300 through an application program or directly to the payment server 300 through the Internet, and the payment server According to the payment request of 300, the cost of charging the vehicle battery is paid in advance, and the QR code including the payment information and the user information is provided from the payment server 300 and stored.

In addition, the user terminal 200 allows the charging station 100 to recognize a pre-stored QR code when using the charging station 100, and guides the charging station 100 that has recognized the QR code. Through this, a discharged vehicle battery can be exchanged with a charged vehicle battery.

The payment server 300 pays in advance the cost according to the use of the charging station 100 with the user terminal 200 communicatively connected through a network, and generates the paid information as a QR code together with user information, , and provides the generated QR code to the user terminal 200 .

The management server 400 receives payment information and usage information for each user from the charging station 100 through a network, and updates and manages the received payment information and usage information for each user in real time.

Meanwhile, in the present invention, the payment server 300 and the management server 400 have been described as an example in which the payment server 300 and the management server 400 are used independently.

When the information on the QR code for activation (that is, the authentication code for activation) is received from the charging station 100, the activation server 500 is included in the QR code set for each battery for each vehicle built in advance. It is compared with the authentication code for activation to confirm whether the battery for the vehicle is genuine, and a genuine product authentication result generated according to the confirmation result is transmitted to the charging station 100 .

At this time, the activation server 500 checks whether the authentication code for activation included in the QR code received from the charging station 100 is being used in another charging station, and as a result of the check, it is not used in another charging station. Otherwise, the vehicle battery is certified as genuine.

In addition, the genuine authentication server 500 includes the specification information of the vehicle battery (for example, the physical size of the vehicle battery, and the electrical characteristics of the battery capacity, charging current, charging voltage, etc.) along with the activation result. information) to the charging station 100 .

In addition, the genuine authentication server 500 periodically provides and updates information on a QR code, barcode, or serial number for each vehicle battery to each charging station 100, so that the activation is performed at each charging station ( 100) can be performed directly.

In addition, the activation server 500 accumulates, stores and manages vehicle information owned by the user, vehicle battery and user information swapped through the charging station 100 in a database, and the vehicle information, vehicle battery and user information It can be verified whether the vehicle battery is in the possession of the rightful owner and is used in a suitable vehicle based on whether .

That is, by additionally authenticating whether the vehicle battery is owned by a legitimate owner and used in a suitable vehicle, theft or loss of the vehicle and vehicle battery can be prevented, and security can be strengthened.

On the other hand, in the present invention, the user pays in advance the cost according to the use of the charging station 100 through the payment server 300 , and receives a QR code including user information and payment information, and sends it to the user terminal 200 . After storing, when using the charging station 100, it has been described as an example of easily replacing and using a vehicle battery through battery swapping only by checking a simple QR code, but it is not limited thereto, and the process of using the charging station 100 It may also be possible to perform payment according to the charging.

FIG. 2 is a view showing in detail the configuration of a charging station according to an embodiment of the present invention, and FIG. 3 is a diagram showing in detail the configuration of a genuine product authentication unit according to an embodiment of the present invention.

As shown in FIG. 2 , the charging station 100 according to an embodiment of the present invention includes an activation unit 110 , a payment confirmation unit 120 , a control unit 130 , a display unit 140 , and a log collection unit. 150 , a communication interface unit 160 , a charging control unit 170 , a battery slot 180 , and an adapter 190 .

In addition, although not shown in the drawing, the charging station 100 includes a processor, a memory, a bus connecting them, and various interface cards in terms of hardware, and programs to be driven through the processor are stored in the memory in terms of software. It is stored, and may further include a user interface to perform an operation according to a command from a user or a network, an update management unit for managing updates of various operating programs, and an interface unit for transmitting and receiving data with an external device such as a database.

The activation unit 110 performs activation of a vehicle battery inserted into the battery slot 180 for charging.

At this time, as shown in FIG. 3 , the genuine authentication unit 100 includes a QR code recognition unit 111 , a genuine authentication confirmation request unit 112 , a genuine product authentication result and specification information receiving unit 113 , and a genuine product authentication confirmation unit ( 114), and a specification confirmation unit 115, and the like.

The QR code recognition unit 111 is a camera, which is provided outside the charging station 100, inside each battery slot 180, etc., and is coupled to the battery slot 180 for charging. Recognizes the QR code attached to the, and outputs the recognized QR information to the genuine authentication confirmation request unit (112). In this case, the QR code includes access information of the genuine product authentication server 500, an authentication code for genuine product authentication, and the like.

The genuine authentication confirmation request unit 112 requests the genuine authentication server 500 to confirm whether the corresponding vehicle battery is genuine through the QR code information recognized by the QR code recognition unit 111 . That is, the genuine authentication code for genuine product authentication is transmitted to the genuine product authentication server 500 to request genuine product authentication of the vehicle battery.

The genuine product authentication result and specification information receiving unit 113 receives the genuine product authentication result and the specification information of the vehicle battery certified as genuine from the genuine product authentication server 500, and the received genuine product authentication result confirms the genuine product authentication It is output to the unit 114 , and the specification information of the vehicle battery certified as the received genuine product is output to the specification confirmation unit 115 .

The genuine authentication confirmation unit 114 finally confirms whether the vehicle battery is genuine according to the genuine product authentication result and the genuine product authentication result provided from the specification information receiving unit 113, and returns the result to the control unit 130 output as

The specification confirmation unit 115 includes specification information including physical size and electrical characteristics received from the vehicle battery mounted in the battery slot 180 and the product authentication result and the vehicle battery provided from the specification information receiving unit 113 . By comparing the specification information of , it is checked whether the specifications are identical, and the result is output to the control unit 130 .

On the other hand, it is most preferable that the genuine product authentication unit 110 perform genuine product authentication through a QR code as described above, but other than that, it is also possible to perform genuine product authentication of the vehicle battery through a barcode or serial number.

In addition, the genuine product authentication unit 110 may perform the activation of the vehicle battery inserted into the battery slot 180 by itself, not through the activation server 500 . In this case, the genuine product authentication unit 110 periodically receives information on a QR code, barcode, or serial number for each vehicle battery from the genuine product authentication server 500 and stores it in a memory, and controls the control unit 130 . Accordingly, activation of the vehicle battery inserted into the battery slot 180 is performed using the information stored in the memory.

The payment confirmation unit 120 recognizes the QR code for payment stored in the user terminal 200, and whether the user has paid in advance the cost required for charging the vehicle battery through the charging station 100 check, and output the result to the control unit 130 .

At this time, the payment confirmation unit 120 may check whether the vehicle battery charging service is available by checking the current remaining amount information of the user who provided the QR code through the management server 400 . If the amount required for the use of the charging service of the vehicle battery is insufficient, payment of the cost for using the charging service may be guided through the display unit 140 , and the payment may be performed directly through the charging station 100 . .

The control unit 130 controls the opening and closing of the shutter 181 provided in any one of the plurality of battery slots 180 to exchange a charged vehicle battery with a discharged vehicle battery possessed by the user. Control swapping.

In addition, when the discharged vehicle battery is installed in the battery slot 180, the control unit 130 controls whether or not the genuine product certification and specifications of the vehicle battery in the genuine product authentication unit 110 match, The charging of the vehicle battery is controlled according to whether the authentication result and the specification match, and the payment of the cost according to the charging of the vehicle battery for which the activation is performed in the cost payment confirmation unit 120 is controlled. At this time, the control unit 130 controls the confirmation of the state of charge of the battery for the vehicle that has completed the activation, and controls to return it when the battery is fully charged according to the confirmed state of charge. It is possible to control the payment by differentiating the charging cost.

In addition, the control unit 130 controls the generation of a log for payment information and usage information for each user performing the swapping of the vehicle battery in the log collection unit 150, and a log for activation of the vehicle battery, and the generation It controls the provision of payment information for each user, usage information, and a log for genuine product authentication to the management server 400 through the communication interface unit 160 .

Through this, the management server 400 stores and manages the information on the activation of the vehicle battery, and updates by deducting the cost due to swapping the battery currently used by the user from the cost paid in advance, and together with each user It is to update the location, time, number of times of use, and battery information (eg, date of manufacture, number of times of charging, etc.) where each battery swap was performed. Accordingly, the management server 400 easily manages each charging station 100 and each vehicle battery based on the information according to the activation and swapping use of the vehicle battery for each user, as well as the usage pattern of each user. Accordingly, it is possible to provide targeted customized services (eg, guidance on when the vehicle battery needs charging, driving habits guidance according to battery consumption, etc.).

In addition, the control unit 130 controls charging of each vehicle battery connected by wire to the adapter 190 provided in the battery slot 180 through the charging control unit 170 , and is charged through the display unit 140 . It is possible to control the display of status information, payment confirmation for charging service use, and information on swapping the vehicle battery.

On the other hand, when the user performs the swapping of the vehicle battery, the control unit 130 closes the shutter 181 while the hand is positioned in the battery slot 180 through a sensor (not shown) to prevent the hand from being pinched. prevention can be controlled.

The display unit 140 is composed of LED, LCD, etc. and may be provided on the front side of the charging station 100 or for each battery slot 180 , and results of activation of the vehicle battery through the control of the control unit 130 . , charge status, payment confirmation for charging service use, information on swapping guidance of the vehicle battery, and the like are displayed.

Also, the display unit 140 may display a fully charged state or a charging state of the vehicle battery mounted in the battery slot 180 in different colors or may be displayed in stages. For example, by displaying in green when fully charged, red when charging, or dividing the charging stage into 10 stages, the user swaps through the color change or stage change displayed through the display unit 140 . It makes it possible to intuitively check whether a possible vehicle battery exists.

The log collection unit 150 generates a log of payment information and usage information for each user performing the swapping of the vehicle battery as a result of authenticating the vehicle battery under the control of the controller 130 .

The communication interface unit 160 transmits the log information generated by the log collection unit 150 to the management server 400 through a network. In addition, the communication interface unit 160 requests information about the current remaining amount for each user's charging service being managed in real time from the management server 400 based on the control of the control unit 130, and receives it It may be provided to the payment confirmation unit 120 .

The charging control unit 170 controls charging of each vehicle battery connected by wire through the adapter 190 provided in each of the plurality of battery slots 180 .

At this time, the charging control unit 170 is a power supply unit 171 for supplying commercial power for charging the vehicle battery through the adapter 190, when a power outage occurs or the voltage rises or falls rapidly to the adapter 190. An uninterruptible power supply (UPS) 172 for stably supplying power, whether a vehicle battery is correctly connected to the adapter 190, and adapter status recognition for checking whether the adapter 190 operates normally By performing wireless communication including NFC, Bluetooth, Zigbee and Beacon with each vehicle battery mounted in the unit 173 and the battery slot 180, the charge amount (SoC: State of Charge) for each vehicle battery, the number of times of charge ( SoH: State of Health), battery state information including battery failure or a combination thereof, as well as battery state information confirmation unit 174 for confirming specification information including the physical size and electrical characteristics of each vehicle battery; When overcurrent, overvoltage, or overcharging occurs, the battery protection unit 175 is configured to block the connection with the corresponding adapter 190 to protect the vehicle battery. Here, the battery state information check unit 174 may provide specification information including the physical size and electrical characteristics received and confirmed from the vehicle battery according to the request of the genuine product authentication unit 110 .

The battery slot 180 is a space in which the vehicle battery is accommodated, and a plurality of slots are provided, and a shutter 181 is provided on the front side. In this case, a display unit 140 for displaying the state of charge of the stored vehicle battery may be provided on the front or outside of the battery slot 180 .

The adapter 190 is provided in the battery slot 180, respectively, and electrically connects the vehicle battery and the charging control unit 170 to charge the vehicle battery through commercial power supply.

4 is a diagram illustrating in detail the configuration of a genuine product authentication server according to an embodiment of the present invention.

As shown in FIG. 4 , the genuine product authentication server 500 includes a genuine product authentication processing unit 510 , a forgery verification unit 520 , a specification information verification unit 530 , a genuine product authentication result and specification information providing unit 540 , etc. is comprised of

The genuine product authentication processing unit 510 authenticates whether the vehicle battery is genuine according to the request of the charging station 100 connected through the network, and sends the genuine product authentication result to the genuine product authentication result and specification information providing unit 540 . print out

The forgery confirmation unit 520 checks whether the authentication code for activation included in the QR code provided from the charging station 100 is being used in another charging station according to the request of the genuine product authentication processing unit 510, and the A result of whether the authentication code for genuine product authentication included in the QR code is being used in another place is provided to the genuine product authentication processing unit 510 .

Accordingly, if the genuine authentication code included in the QR code is the only QR code that is not used in other charging stations, the genuine product authentication processing unit 510 authenticates the vehicle battery to which the QR code is attached as a genuine product. However, if it is confirmed that the authentication code for activation included in the QR code is already being used by the other charging station, the activation processing unit 510 indicates that the QR code is being used illegally at the charging station 100 or It is possible to warn against forgery by notifying the administrator's terminal immediately. In addition, the charging station 100 may lock the corresponding vehicle battery inserted into the battery slot 180 so that it is no longer illegally used.

When the vehicle battery is authenticated as a genuine product through the QR code provided from the charging station 100 in the genuine product authentication processing unit 510, the specification information confirmation unit 530 is configured to match each of the QR codes certified as genuine products. The specification information of the vehicle battery is extracted from the database, and the extracted specification information is output to the genuine product authentication result and specification information providing unit 540 .

The genuine product authentication result and specification information providing unit 540 includes the genuine product authentication result of the vehicle battery input from the genuine product authentication processing unit 510 and the vehicle battery certified as genuine product input from the specification information confirmation unit 530 . The specification information is compressed and converted and transmitted to the charging station 100 through the network.

Next, an embodiment of a method for authenticating a vehicle battery according to the present invention configured as described above will be described in detail with reference to FIG. 5 . At this time, the order of each step according to the method of the present invention may be changed by the environment of use or by those skilled in the art.

5 is a flowchart illustrating in detail an operation process of a method for authenticating a vehicle battery according to an embodiment of the present invention.

As shown in FIG. 5 , when the vehicle battery is discharged according to the operation of the electric vehicle, the user visits the place where the charging station 100 is installed with the discharged vehicle battery, and then the input means provided in the charging station 100 . Operate (eg touchpad) to select to use the vehicle battery charging service.

Then, the charging station 100 guides to insert the vehicle battery to be charged into the battery slot 180, and the user according to the guide is attached to the discharged vehicle battery inserted into the battery slot 180. Recognizes the QR code (S100).

After recognizing the QR code through the step S100, the charging station 100 transmits the authentication code for activation included in the recognized QR code to the activation server 500 through the network, Authenticity is requested (S200).

The genuine authentication server 500, which has been requested to activate the vehicle battery through the step S200, checks whether the QR code received from the charging station 100 is used for forgery or not, and performs genuine activation (S300). That is, by checking whether the authentication code for activation included in the QR code received from the charging station 100 is being used by another charging station, it is checked whether the QR code is forged or altered and used illegally, and based on this Activation is performed only when the authentication code for activation included in the QR code is the only QR code that is not being used in any place.

In addition, the genuine authentication server 500 performs genuine authentication of the vehicle battery using the authentication code included in the QR code through the step S300, and at the same time, stores the specification information of the vehicle battery on which the activation is performed. extracted from (S400). In this case, the specification information is information including the physical size of the vehicle battery as opposed to the authentication code included in each QR code, and the electrical characteristics of the battery capacity, charging current, charging voltage, and the like.

Then, the genuine product authentication server 500 transmits the product activation result of the vehicle battery performed in step S300 and the specification information extracted in step S400 to the charging station 100 (S500).

Then, the charging station 100 checks whether the vehicle battery is genuine based on the activation result received from the activation server 500 (S600), and then from the vehicle battery installed in the battery slot 180 It is checked whether the specification information including the physical size and electrical characteristics received through wireless communication such as NFC matches the specification information of the vehicle battery received from the genuine product authentication server 500 through the step S500 (S700).

As a result of checking in steps S600 and S700, if the vehicle battery is genuine and the specification information received from the vehicle battery mounted in the battery slot 180 matches the specification information received from the genuine product authentication server 500 , the charging station 100 allows charging of the vehicle battery and proceeds with charging (S800).

On the other hand, although not shown in the drawing, the charging station 100 checks the state of charge of the vehicle battery in which the genuine product and the specification information match are confirmed, and when charging is required, the charging cost is adjusted according to the amount of charge of the vehicle battery. Differential payments can be made.

As such, the present invention performs charging of the vehicle battery with the correct authority through the activation of the vehicle battery provided by the user at the charging station, so that the charging station is not broken or defective due to an inappropriate vehicle battery. This can be done so as not to cause an accident.

In addition, the present invention can prevent counterfeiting of the QR code because the genuine authentication server performs genuine activation by checking whether the QR code provided from the charging station is being used in another charging station.

In addition, the present invention checks the specifications of the vehicle battery to be charged in the charging station, and performs charging only when it matches the specification information provided along with the activation result from the activation server, so use of an inappropriate vehicle battery can be suppressed.

As described above, the present invention has been described with reference to the embodiments shown in the drawings, which are merely exemplary, and those of ordinary skill in the art can make various modifications and equivalent other embodiments therefrom. You will understand that it is possible. Therefore, the technical protection scope of the present invention should be determined by the following claims.

100: charging station 110: genuine authentication unit
111: QR code recognition unit 112: genuine authentication confirmation request unit
113: Receiver of product authentication result and specification information
114: authenticity verification unit 114: specification verification unit
120: payment confirmation unit 130: control unit
140: display unit 150: log collection unit
160: communication interface unit 170: charging control unit
171: power supply 172: UPS
173: adapter status recognition unit 174: battery status information check unit
175: battery protection unit 180: battery slot
181: shutter 190: adapter
200: user terminal 300: payment server
400: management server 500: activation server
510: genuine authentication processing unit 520: forgery verification unit
530: specification information confirmation unit 540: genuine authentication result and specification information receiving unit

Claims (10)

Activation unit for authenticating the vehicle battery; and
a control unit for controlling charging of the vehicle battery according to the result of the genuine product authentication performed;
By charging only the vehicle battery certified as genuine, the vehicle battery activation system, characterized in that the failure of the charging station and the occurrence of safety accidents due to the non-conforming vehicle battery are prevented. The method according to claim 1,
The authenticity authentication unit,
a QR code recognition unit for recognizing a QR code attached to the vehicle battery;
a genuine authentication confirmation request unit for requesting genuine authentication of the vehicle battery to the genuine authentication server through the recognized QR code;
a genuine product authentication result and specification information receiving unit for receiving the genuine product authentication result and specification information of the vehicle battery certified as genuine product from the genuine product authentication server;
a genuine product verification unit for confirming whether the vehicle battery is genuine through the received genuine product verification result; and
It includes; a specification confirmation unit that confirms whether the specification information including the physical size and electrical characteristics received from the vehicle battery mounted in the battery slot matches the specification information of the vehicle battery received from the genuine product authentication server;
The control unit, the vehicle battery, characterized in that permitting the charging of the vehicle battery only when the vehicle battery is genuine and the specification information received from the vehicle battery matches the specification information provided from the genuine product authentication server authentication system. 3. The method according to claim 2,
The genuine authentication server,
When authenticating the product through the QR code provided by the activation confirmation request unit, check whether the vehicle battery to which the QR code is attached is being charged by being inserted into another charging station, and if it is the only QR code as a result of checking Vehicle battery activation system, characterized in that only the vehicle battery is authenticated as a genuine product. 3. The method according to claim 2,
The genuine authentication server,
The vehicle information owned by the user, the vehicle battery swapped through the charging station, and user information are stored and managed in a database, and based on whether the vehicle information, the vehicle battery, and the user information match, the vehicle battery is determined by the rightful owner. Activation system for a vehicle battery, characterized in that it further comprises authenticating whether it is owned and used in a suitable vehicle. The method according to claim 1,
The charging station is
To update and manage the battery status information of the vehicle battery by providing the battery status information including the amount of charge or the number of times of charge obtained through wireless communication including NFC from the vehicle battery mounted in the battery slot to the management server,
The management server,
As a result of checking the battery status information of the vehicle battery received from the charging station, if the number of times of charging related to battery life deviates from a preset standard, collecting and replenishing the vehicle battery that has expired is characterized in that Vehicle battery activation system. Activation step of performing activation of the vehicle battery in the charging station; and
a control step of controlling the charging of the vehicle battery according to the result of the activation of the product;
A method for authenticating a vehicle battery, characterized in that by performing charging only on a vehicle battery certified as genuine, to prevent failure of a charging station and a safety accident due to an unsuitable vehicle battery. 7. The method of claim 6,
The activation step is
a QR code recognition step of recognizing, in the charging station, a QR code attached to the vehicle battery;
a genuine authentication confirmation request step of requesting genuine authentication of the vehicle battery to a genuine authentication server through the recognized QR code;
a genuine product authentication result and specification information receiving step of receiving the genuine product authentication result and specification information of the vehicle battery certified as genuine product from the genuine product authentication server;
a genuine authentication confirmation step of confirming whether the vehicle battery is genuine through the received genuine authentication result; and
a specification checking step of confirming whether the specification information including the physical size and electrical characteristics received from the vehicle battery mounted in the battery slot matches the specification information of the vehicle battery received from the genuine product authentication server;
In the control step, the vehicle battery is allowed to be charged only when the vehicle battery is genuine and the specification information received from the vehicle battery matches the specification information provided from the genuine product authentication server. How to Authenticate. 8. The method of claim 7,
The method is
In the activation server, when performing activation through the QR code provided from the charging station, it is checked whether the vehicle battery to which the QR code is attached is being charged and inserted into another charging station, and as a result of the confirmation, the only QR Activating the vehicle battery as a genuine product only in case of a code; the vehicle battery activation method further comprising the. 8. The method of claim 7,
The method is
storing and managing, in the activation server, vehicle information owned by the user, a vehicle battery swapped through the charging station, and user information in a database; and
Authenticating, in the activation server, whether the vehicle battery is owned by a legitimate owner and used in a suitable vehicle based on whether the vehicle information, vehicle battery, and user information match A method of authenticating a vehicle battery. 7. The method of claim 6,
The method is
In the charging station, to update and manage the battery state information of the vehicle battery by providing the battery state information including the amount of charge or the number of times of charge obtained through wireless communication including NFC from the vehicle battery mounted in the battery slot to the management server step; and
As a result of checking the battery status information of the vehicle battery received from the charging station in the management server, if the number of times of charging related to the battery life deviates from a preset standard, collect and replenish the expired vehicle battery Activation method of a vehicle battery, characterized in that it further comprises;

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