KR102396445B1 - EV charging service method - Google Patents

Abstract

The present invention provides an electric vehicle charging service method for charging an electric vehicle using a smart phone that communicates with an electric vehicle charger and a server, respectively, comprising the steps of: an electric vehicle user searching for and connecting to an electric vehicle charger installed in the vicinity based on a smartphone app; It provides an electric vehicle charging service method comprising the step of requesting approval for use of the connected electric vehicle charger from a charging service server and the charging service server operating the electric vehicle charger.

Description

Electric vehicle charging service method {EV charging service method}

The present invention relates to an electric vehicle charging service method, and more particularly, an electric vehicle capable of providing various charging services to electric vehicle users by connecting to a charger through Bluetooth communication of a smart phone and connecting to a charging service server through a communication network such as LTE It relates to a charging service method.

In general, electric vehicles have not been put to practical use for a long period of time due to problems such as a heavier weight of a battery installed in a vehicle than a gasoline or diesel vehicle, and a time taken for charging. However, as interest in electric vehicles using electric energy rather than fossil energy has been recently increased due to depletion of fossil energy and environmental pollution, research and development have been actively conducted on this.

Meanwhile, it is known that the biggest obstacle to the dissemination of electric vehicles is the lack of charging infrastructure. In other words, as the demand for electric vehicles increases and the number of electric vehicle users increases, the number of chargers must also increase, but the electric vehicle charging infrastructure is still insufficient, which is the biggest impediment to the spread of electric vehicles.

Therefore, there is a need for a new charging infrastructure expansion plan that can replace the existing electric vehicle charging infrastructure.

The present invention has been devised to solve the above problems, and it is to provide an electric vehicle charging service method for expanding the charging infrastructure by enabling various charging services to be provided to electric vehicle users using Bluetooth communication of a smartphone. There is a purpose.

In order to achieve the object of the present invention, the present invention provides an electric vehicle charging service method for charging an electric vehicle using a smart phone that communicates with an electric vehicle charger and a server, respectively. An electric vehicle charging service method comprising the steps of searching for and accessing an electric vehicle charger, requesting approval for use of the connected electric vehicle charger from a charging service server, and operating the electric vehicle charger by the charging service server do.

Here, the step of searching for and connecting to the electric vehicle charger includes: transmitting, by a smart phone, a scan signal to a Bluetooth module of an electric vehicle charger; and transmitting, by the electric vehicle charger, a scan signal of the Bluetooth module to the smart phone; A step of requesting, by a smart phone, a password of the scanned Bluetooth module of the electric vehicle charger to a server, the server searching for the scanned Bluetooth password of the electric vehicle charger and transmitting the searched Bluetooth password to the smart phone; Pairing by the smart phone with the electric vehicle charger using the Bluetooth password, the smart phone notifying the server of the success of the pairing step, and the last use of the last use log of the electric vehicle charger paired with the server making a request to the electric vehicle charger using a first password; and transmitting, by the electric vehicle charger, the last use log and the log not updated to the server as the first password to the server; 1 Storing the logs encrypted with a password and checking whether hacking is attempted on the log, generating a new password, and the server encrypts the new password with the first password and transmits it to the electric vehicle charger receiving, by the electric vehicle charger, a new password encrypted with the first password, updating it with a second password, and storing the second password; and transmitting the second password stored by the electric vehicle charger to the server and the server receiving the second password, completing the update, and completing the preparation for charging the electric vehicle charger.

In addition, the step of requesting approval for use of the electric vehicle charger and operating step includes the step of requesting approval for use of the electric vehicle charger by sending, by the smart phone, predetermined charging time information together with a charging start command to the server; Checking the charging balance held by the user of the charger and requesting power operation of the electric vehicle charger, the electric vehicle charger checking the request information of the server and responding to the power operation request information to the server, the server Deducting an amount corresponding to a predetermined charging time from the user balance stored in the server according to the response to the power operation request information, and displaying in the DB that the charger is charging for a predetermined charging time do.

Meanwhile, the present invention may further include the step of requesting a refund after the user of the electric vehicle charger stops charging during charging.

The step of requesting a refund after stopping during charging includes: the smartphone requesting a current status check from the server; the server requesting a last use log from the electric vehicle charger; and sending the electric vehicle charger to the server Transmitting a log that has not been updated together with the last usage log; checking, by the server, the remaining amount of unused amount during the predetermined charging time after updating and storing all of the logs; and the server using the smart phone transmitting details of the remaining amount; the smart phone requesting a refund of the amount for the details of the unused remaining amount to the server; and the server checking whether there is a charging operation in progress for the electric vehicle charger; requesting, by the server to cancel the remaining charging operation for the electric vehicle charger; sending, by the electric vehicle floor electrician, a success signal in response to the cancellation request; and the server receiving the success signal and waiting for online use It characterized in that it comprises the step of switching to the state, and the server transmitting a refund success signal to the smart phone.

According to the present invention, it is possible to expand the charging infrastructure by providing various convenient charging services to electric vehicle users, such as searching for and connecting to a charger, requesting and approving a charger operation, and requesting a refund after stopping charging using Bluetooth communication of a smartphone. has an excellent effect on

1 is a block diagram showing the configuration of an electric vehicle charging service system.
2 is a diagram illustrating an electric vehicle charger search and connection step in the electric vehicle charging service method according to an embodiment of the present invention.
3 is a view showing an electric vehicle charger use approval request and operation steps of the electric vehicle charging service method according to an embodiment of the present invention.
4 is a diagram illustrating a refund request step after stopping during charging in an electric vehicle charging service method according to an embodiment of the present invention.

An embodiment according to the present invention will be described in detail with reference to the drawings.

1 is a block diagram showing the configuration of an electric vehicle charging service system.

Referring to FIG. 1 , an electric vehicle charging service system is configured to include a charger 10 , a server 20 , and a smart phone 30 .

The charger 10 serves to supply electricity to the electric vehicle. Although one charger is shown in FIG. 1, it is of course also applied to a plurality of chargers. In addition, a slow charger or a fast charger may be applied as the charger.

The charger 10 includes a first Bluetooth module 11 for short-range communication with the smart phone 30 .

The server 20 provides a charging service to an electric vehicle user by managing information on the charger 10 .

The smart phone 30 includes an app 31 that provides charging service information to an electric vehicle user between the charger 10 and the server 20 .

To this end, the smart phone 30 includes a second Bluetooth module 32 to apply a Bluetooth communication method, which is a short-range communication method, as a communication method with the charger 30 . In addition, the smart phone 30 may preferably apply an LTE communication network as a communication network with the server 20 . Of course, the present invention can be applied to various other communication networks other than the LTE communication network.

In addition, the charging service system produces and/or supplies power as shown in FIG. 1 and supplies power produced by at least one power provider 40 having its own power transmission, substation and distribution facilities to the charger 10 . It further includes a power grid 41 that is, the power grid 41 is connected to the server 20 to support the intelligent power grid 42 to the server 20.

The electric vehicle charging service method according to the present invention includes the steps of: an electric vehicle user searching for and accessing an electric vehicle charger 10 installed in the vicinity based on an app 31 of a smart phone 30; It consists of a configuration including the step of requesting use approval from the charging service server 20 and the charging service server 20 operating the electric vehicle charger 10 .

2 is a diagram illustrating an electric vehicle charger search and connection step in the electric vehicle charging service method according to an embodiment of the present invention. A search and connection step for an electric vehicle charger according to the present invention will be described with reference to FIG. 2 .

After the electric vehicle user searches for and finds the location of the electric vehicle charger 10 in the vicinity using the app 31 of the smart phone 30 and approaches the electric vehicle charger 10, when the electric vehicle user's smart phone ( 30) transmits a scan signal to the first Bluetooth module 11 of the electric vehicle charger 10 (S1). At the same time, the electric vehicle charger 10 transmits the scan response signal of the first Bluetooth module 11 back to the smart phone 30 (S2).

Next, the smart phone 30 requests the scanned Bluetooth password of the electric vehicle charger 10 from the server 20 (S3). At this time, the server 20 retrieves the scanned Bluetooth password of the electric vehicle charger 10 and transmits the searched Bluetooth password to the smart phone 30 (S4).

The smart phone 30 uses the Bluetooth encryption to pair with the electric vehicle charger 10 (S5). Next, the smart phone 30 notifies the server 10 of the success of the pairing step (S6).

The server 20 makes a request to the electric vehicle charger 10 by using the last use log of the paired electric vehicle charger 10 as the last used first password (S7). The electric vehicle charger 10 transmits the last use log and the log not updated in the server 10 to the server 20 as the first password (S8).

Next, the server 20 stores the logs encrypted with the first password, checks whether a hacking attempt has been made on the log, and then generates a new password (S9). Then, the server 20 encrypts the new password with the first password and transmits it to the electric vehicle charger 20 (S10).

The electric vehicle charger 10 receives the new password encrypted with the first password, updates it with the second password, and stores the second password (S11). Thereafter, the electric vehicle charger 10 transmits the stored second password to the server 20 (S12).

Finally, the server 20 receives the second password, completes the update, and completes the preparation for charging the electric vehicle charger 10 (S13).

In step S13, the step of searching for and connecting to an electric vehicle charger in the electric vehicle charging service method according to an embodiment of the present invention is completed.

3 is a diagram illustrating a request for approval for use of an electric vehicle charger and operation steps of the electric vehicle charging service method according to an embodiment of the present invention. A request for approval for use of an electric vehicle charger and operation steps according to the present invention will be described with reference to FIG. 3 .

After step S13, when the electric vehicle user operates the app 31 of the smart phone 30 to give a charging start command, the smart phone 30 sends a charging start command and predetermined charging time information to the server 20, Approval for use of the electric vehicle charger 10 is requested (S21).

Next, the server 20 checks the remaining charge held by the user of the electric vehicle charger 10 and requests the electric vehicle charger 10 to power on (S22).

At this time, the electric vehicle charger 10 checks the request information of the server 20 and responds to the power operation request information to the server 20 (S23).

At this time, when a success response signal is input, the server 20 deducts an amount corresponding to a predetermined charging time from the balance of the electric vehicle user according to the success response signal of the power-on request information. Then, the server 20 displays in the built-in database DB that the charger 10 is charging for the predetermined charging time (S24).

Meanwhile, the electric vehicle charging service method according to the present invention may further include the step of requesting a refund after the electric vehicle charger user stops charging during charging.

4 is a diagram illustrating a refund request step after stopping during charging in an electric vehicle charging service method according to an embodiment of the present invention. A refund request step after stopping during charging according to the present invention will be described with reference to FIG. 4 .

That is, when the user wants to stop charging the electric vehicle for personal business or the like while charging the electric vehicle, the electric vehicle user operates the app 31 of the smart phone 30 to request a refund.

At this time, the smartphone 30 requests the server 20 to check the current state (S30).

Then, the server 20 requests the last use log from the electric vehicle charger 10 (S31). In contrast, the electric vehicle charger 10 transmits the log that is not updated together with the last use log to the server 20 (S32).

The server 20 updates and stores all of the logs, and then checks the unused remaining amount during the predetermined charging time (S33). Then, the server 20 transmits the details of the unused remaining amount to the smart phone 30 (S34).

When the electric vehicle user confirms the details transmitted to the smart phone 30, the smart phone 30 requests a refund of the amount for the details of the unused remaining amount to the server 20 (S35).

Next, the server 20 checks whether there is a charging operation in progress with respect to the electric vehicle charger 10 (S36). Then, the server 20 requests cancellation of the remaining charging operation for the electric vehicle charger 10 (S37).

In contrast, the electric vehicle floor electric 10 transmits a success signal in response to the cancellation request (S38).

The server 20 receives the success signal and switches to an online use standby state (S39). Then, the server 20 transmits a refund success signal to the smart phone 30 (S40).

According to the present invention described above, it is possible to expand the charging infrastructure by providing various and convenient charging services to electric vehicle users, such as searching for and connecting to a charger, requesting and approving a charger operation, and requesting a refund after stopping charging using Bluetooth communication of a smart phone. There is one effect.

The present invention described above is not limited to the described embodiments, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Accordingly, it should be said that such variations or modifications fall within the scope of the claims of the present invention.

10 : charger
20 : Server
30: Smartphone

Claims (5)

In the electric vehicle charging service method for charging an electric vehicle using a smart phone that communicates with an electric vehicle charger and server, respectively,
An electric vehicle user searching for and accessing an electric vehicle charger installed in the vicinity based on a smartphone app; and,
Including; requesting approval for use of the connected electric vehicle charger to a charging service server and operating the electric vehicle charger by the charging service server;
The step of searching for and connecting to the charger is
A step of sending a scan signal to the Bluetooth module of the electric vehicle charger by the smart phone;
transmitting, by the electric vehicle charger, a scan signal of the Bluetooth module to the smart phone;
requesting the password of the Bluetooth module of the electric vehicle charger scanned by the smart phone to the server;
retrieving the scanned Bluetooth password of the electric vehicle charger by the server and transmitting the searched Bluetooth password to the smart phone;
Pairing the smart phone with the electric vehicle charger using the Bluetooth password;
the smart phone notifying the server of the success of the pairing step;
requesting, by the server, to the electric vehicle charger using the last use log of the paired electric vehicle charger as the last used first password;
transmitting, by the electric vehicle charger, the last use log and the log not updated to the server as the first password to the server;
generating a new password after the server stores the logs encrypted with the first password and checks whether hacking is attempted on the log;
The server encrypts the new password with the first password and transmits it to the electric vehicle charger;
receiving, by the electric vehicle charger, a new password encrypted with the first password, updating it with a second password, and storing the second password;
transmitting the second password stored in the electric vehicle charger to the server;
and the server receiving the second password, completing the update, and completing the preparation for charging the electric vehicle charger. delete The method of claim 1, wherein the requesting for approval for use of the electric vehicle charger and operating step comprises:
sending, by the smart phone, predetermined charging time information together with a charging start command to the server to request approval for use of the electric vehicle charger;
checking, by the server, the remaining amount for charging held by the user of the electric vehicle charger and requesting power operation of the electric vehicle charger;
checking, by the electric vehicle charger, request information of the server and responding to the request information for power on to the server;
The server deducts an amount corresponding to a predetermined charging time from the user balance stored in the server according to the response of the power-on request information, and displaying in the DB that the charger is charging for a predetermined charging time Electric vehicle charging service method characterized. The method of claim 1, further comprising the step of requesting a refund after the user of the electric vehicle charger stops charging during charging. According to claim 4, wherein the refund request step after stopping during the charging,
The step of the smartphone requesting the server to check the current status;
requesting, by the server, the last use log to the electric vehicle charger;
transmitting, by the electric vehicle charger, a log that is not updated together with the last use log to the server;
After the server updates and stores all the logs, checking the unused remaining amount during the predetermined charging time;
transmitting, by the server, details of the unused remaining amount to the smart phone;
requesting, by the smart phone, a refund of the amount for the details of the unused remaining amount to the server;
checking, by the server, whether there is a charging operation in progress for the electric vehicle charger;
requesting, by the server, to cancel the remaining charging operation for the electric vehicle charger;
transmitting, by the electric vehicle charger, a success signal in response to the cancellation request;
receiving the success signal by the server and switching to an online use standby state;
Electric vehicle charging service method comprising the step of sending, by the server, a refund success signal to the smart phone.

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