WO2018019015A1 - Wireless charging method and device with intelligent monitoring - Google Patents

Abstract

A wireless charging device (110) with intelligent monitoring, comprising: a receiving module (111) for receiving a charging message sent by the charging device (110), the charging message comprising identifier information and charging information of the charging device (110); an acquisition module (112) for acquiring, by means of the identifier information of the charging device (110), a communication account corresponding to a vehicle currently charged by the charging device (110); and a sending module (113) for sending the charging information to a user terminal (106) which logs in to the communication account. Also disclosed is a charging method that uses the wireless charging device (110) with intelligent monitoring. In such a way, a user can view a charging process in real time and perform operations in real time by means of the user terminal (106), thereby making it easy for the user to operate. By deploying a management system in a cloud management system (1031) having flexibly configurable processing capability, the construction and maintenance costs of the management system can be greatly reduced.

Description

Method and device for intelligently monitoring wireless charging Technical field

The present invention relates to the field of wireless charging and network management, and in particular, to a method and apparatus for intelligently monitoring wireless charging.

Background technique

With the development of science and technology, the application of wireless charging technology for electric vehicles will become more and more extensive. In the process of charging electric vehicles, when the wireless charging device and the charging car send abnormalities (such as excessive voltage, high temperature, etc.), abnormal information It will be sent to the management system first, and will be parsed by the alarm analysis processing module of the management system, and corresponding processing will be made according to different levels. The user can view the charging status and alarm information in the vehicle terminal, or manually start or stop the charging operation through the vehicle terminal. The vehicle terminal is fixed on the electric vehicle, and the user needs to check whether there is charging alarm information on the electric vehicle so that it can be processed in time. This requires the user to stay on the electric car to check the progress of the charging, to see if there is any alarm information, resulting in poor user ease of operation, and the construction and maintenance cost of the wireless charging management system is high.

Summary of the invention

The purpose of the embodiments of the present invention is to provide a method and apparatus for intelligently monitoring wireless charging, which solves the problem of poor user ease of operation and high construction and maintenance cost of the wireless charging management system.

In order to achieve the above objective, an embodiment of the present invention provides a method for intelligently monitoring wireless charging, including:

Receiving a charging message sent by the charging device, the charging message including identification information and charging information of the charging device;

Acquiring, by using the identification information of the charging device, a communication account corresponding to the car currently charged by the charging device;

Sending the charging information to a terminal that logs in to the communication account.

The embodiment of the invention further provides an apparatus for intelligently monitoring wireless charging, comprising:

a receiving module, configured to receive a charging message sent by the charging device, where the charging message includes identification information and charging information of the charging device;

Obtaining a module, configured to acquire, by using the identification information of the charging device, a communication account corresponding to the car currently charged by the charging device;

The sending module is configured to send the charging information to a terminal that logs in to the communication account.

The embodiment of the present invention further provides a computer storage medium, where the computer storage medium stores one or more programs executable by a computer, and when the one or more programs are executed by the computer, the computer is executed as described above. A method of intelligently monitoring wireless charging is provided.

According to still another embodiment of the present invention, a storage medium is also provided. The storage medium is arranged to store program code for performing the following steps:

Receiving a charging message sent by the charging device, the charging message includes identification information of the charging device and charging information; acquiring, by using the identification information of the charging device, a communication account corresponding to the car currently charged by the charging device; The terminal of the communication account sends the charging information.

One of the above technical solutions has the following advantages or benefits:

Receiving a charging message sent by the charging device, wherein the charging message includes identification information of the charging device and charging information; acquiring, by using the identification information of the charging device, a communication account corresponding to the car currently charged by the charging device; The terminal of the communication account sends the charging information. In this way, the user can view and operate the charging process in real time, which improves the user's operation and ease of use. By deploying the management system to the cloud management system with flexible processing capability, the construction and maintenance cost of the management system can be greatly reduced. .

DRAWINGS

The drawings described herein are intended to provide a further understanding of the invention, and are intended to be a part of the invention. In the drawing:

1 is a schematic flowchart of a method for intelligently monitoring wireless charging according to an embodiment of the present invention;

2 is a schematic flowchart of another intelligent monitoring wireless charging method according to an embodiment of the present invention;

3 is a schematic flowchart of another method for intelligently monitoring wireless charging according to an embodiment of the present invention;

4 is a schematic flowchart of another method for intelligently monitoring wireless charging according to an embodiment of the present invention;

FIG. 5 is a block diagram of a cloud management system according to an embodiment of the present invention;

FIG. 6 is a schematic flowchart of user information registration according to an embodiment of the present disclosure;

FIG. 7 is a schematic flowchart of another intelligent monitoring wireless charging method according to an embodiment of the present invention;

FIG. 8 is a schematic structural diagram of another intelligent monitoring wireless charging method according to an embodiment of the present disclosure;

FIG. 9 is a schematic structural diagram of another intelligent monitoring wireless charging method according to an embodiment of the present invention;

10 is a system block diagram of an intelligent monitoring wireless charging method according to an embodiment of the present invention;

FIG. 11 is a schematic structural diagram of an intelligent monitoring wireless charging apparatus according to an embodiment of the present invention;

FIG. 12 is a schematic structural diagram of another intelligent monitoring wireless charging apparatus according to an embodiment of the present invention;

FIG. 13 is a schematic structural diagram of another intelligent monitoring wireless charging apparatus according to an embodiment of the present invention;

FIG. 14 is a schematic structural diagram of another intelligent monitoring wireless charging apparatus according to an embodiment of the present invention;

FIG. 15 is a schematic structural diagram of another intelligent monitoring wireless charging apparatus according to an embodiment of the present invention.

detailed description

The technical problems, the technical solutions, and the advantages of the present invention will be more clearly described in the following description.

As shown in FIG. 1 , an embodiment of the present invention provides a method for intelligently monitoring wireless charging, including the following steps:

Step S101: Receive a charging message sent by the charging device, where the charging message includes identification information and charging information of the charging device.

In this step, the charging information sent by the charging device is received, and the identification information of the charging device and the charging information are obtained from the charging message, wherein the identification information of the charging device may be a number of the charging device, and the charging information may be It is an alarm message or a charging progress information.

Step S102: Obtain a communication account corresponding to the car currently charged by the charging device by using the identification information of the charging device.

In this step, the above communication account may be a mobile phone number, an application account, or the like.

Step S103: Send the charging information to a terminal that logs in to the communication account.

In this step, the user can monitor the entire charging process in real time on the terminal that has logged in the communication account, so the user does not need to stay in the car all the time, and the charging status and the alarm information are viewed through the vehicle terminal, thereby improving the user's operation and ease of use.

In the embodiment of the present invention, the foregoing method can be applied to a cloud server, and can log in to the cloud server through a terminal such as a mobile phone, a tablet, a notebook computer, or a smart watch.

The above method can realize real-time viewing and operation of the charging process by the user, thereby improving the user's operation and ease of use; by deploying the management system to the cloud management system with flexible processing capability, the construction and maintenance of the management system can be greatly reduced. cost.

As shown in FIG. 2, the embodiment of the present invention provides another method for intelligently monitoring wireless charging, including the following steps:

Step S201: Receive a charging message sent by a charging device, where the charging message includes the Identification information and charging information of the charging device.

Step S202: Receive identification information of the automobile and identification information of the charging device, wherein the identification information of the automobile is read by the charging device when the automobile enters the charging device.

In this step, the identification information of the automobile includes a license plate number of the automobile and a number of the vehicle-side charging device. When the automobile enters the charging device and triggers charging, the charging device reads the license plate number of the automobile and the vehicle side. The number of the charging device is reported to the cloud server.

Step S203: Generate a mapping relationship between the identification information of the automobile and the identification information of the charging device.

In this step, by establishing the mapping relationship between the identification information of the above-described automobile and the above charging device, the user information can be accurately found.

Step S204: Determine the automobile in the mapping relationship by using the identification information of the charging device, and obtain the communication account corresponding to the automobile by using the identification information of the automobile.

Step S205: Send the charging information to a terminal that logs in to the communication account.

In the embodiment, by establishing the mapping relationship between the identification information of the automobile and the charging device, the user information can be accurately found.

As shown in FIG. 3, the embodiment of the present invention provides another method for intelligently monitoring wireless charging, including the following steps:

Step S301: Obtain a distance between the automobile and the charging device.

In this step, the distance between the above-mentioned car and the above-mentioned charging device can be obtained by the global positioning system.

Step S302: When the distance between the automobile and the charging device is less than the first value, the identification information of the automobile and the communication account corresponding to the automobile are moved into the user information group of the charging device.

In this step, the communication account number may be a mobile phone number or an application login account, and the identification information of the car includes a license plate number of the car and a number of the car side charging device. The identification information of the charging device may be a number of the charging device. When the distance is less than the first value, the first value may preferably be 1 kilometer, and the identification information of the automobile and the communication account corresponding to the automobile are moved into the charging station. Under the user information group. The following table shows an example of a user information group.

Step S303: Receive a charging message sent by the charging device, where the charging message includes identification information and charging information of the charging device.

Step S304: Acquire the user information group by using the identification information of the charging device.

Step S305: Obtain a communication account corresponding to the car in the user information group.

In this step, through the above user information group, the management system can obtain the target communication account, that is, the communication account corresponding to the above-mentioned car, more quickly.

Step S306: Send the charging information to a terminal that logs in to the communication account.

Optionally, when the distance between the automobile and the charging device is greater than a sum of the first value and the second value, moving the identification information of the automobile and the communication account corresponding to the automobile out of the User information group of the charging device.

In the present embodiment, the second value may preferably be 300 meters, and the vehicle information may be frequently moved in and out of the vehicle by setting the distance between the first value and the second value.

In this embodiment, by establishing a user information group with a specific charging device as a target, the packet granularity of the user information can be reduced, the management efficiency of the cloud server can be improved, the retrieval speed of the automobile information is faster, and the charging state can be realized. And the alarm information is sent to the user terminal faster. In practical applications, only the cars and users grouped by this charging station need to receive the notice of the station. As the police information, most users do not need to receive alarm information. Therefore, the smaller the first value is set, the less data in the user information group is, and the management efficiency is higher.

As shown in FIG. 4, the embodiment of the present invention provides another method for intelligently monitoring wireless charging, and further includes the following steps:

Step S401: Receive the communication account number sent by the user terminal and the identification information of the car, and bind the communication account with the identification information of the car.

Step S402: Receive a charging message sent by the charging device, where the charging message includes identification information and charging information of the charging device.

Step S403: Acquire, by using the identification information of the charging device, a communication account corresponding to the car currently charged by the charging device.

Step S404: Send the charging information to a terminal that logs in to the communication account.

In this embodiment, the cloud server receives the charging message sent by the charging device, and the charging message may include the identification information of the charging device and the charging information, where the charging information may carry the alarm information and/or the charging progress information. Obtaining, according to the identification information of the charging device, the communication account of the car currently charged by the charging device, and then transmitting the charging message to the terminal that logs in to the communication account. By binding the above communication account with the identification information of the car, when an alarm message occurs during charging or when charging progress information needs to be viewed, the cloud server can accurately find the target communication account and launch the terminal to the terminal that logs in to the communication account. The charging message is above, so that the user can view the charging progress or the alarm information through the terminal. It should be noted that, in this embodiment, the processes that can be implemented by the cloud server in the method embodiments of FIG. 2 and FIG. 3 can be implemented, and the same beneficial effects can be achieved. To avoid repetition, details are not described herein again.

As shown in FIG. 5, the embodiment of the present invention provides a cloud management system, which includes: a user information registration module 51, an alarm analysis processing module 52, a user information packet maintenance module 53, and a message sending module 54, wherein:

The user information registration module 51 is configured to complete the registration of the user information, input the user name, password, binding the license plate number of the automobile, and bind the mobile phone number. After the registration is completed, the user information is stored in the system database 55.

The alarm analysis processing module 52 is configured to parse the alarm information 521 from the charging device, quickly find the corresponding user mobile phone number according to the device number of the alarm occurrence; convert the alarm code information into the user language, and finally pass the alarm information 521 through the message sending module. 54 is sent to the user's mobile phone.

The user information packet maintenance module 53 is configured to generate and update a charging station-based user information packet 531, and to move the user information into the mobile station-based user information packet according to the distance between the charging car and the charging station. When the distance is smaller than the first value, the distance is shifted, and when the distance is greater than the sum of the first value and the second value, the distance is shifted out.

The message sending module 54 is configured to transmit the alarm information 521 to the mobile terminal and the in-vehicle terminal of the designated user.

In the system running preparation period, the user information registration needs to be performed first, and is completed by the user information registration module 51. In this embodiment, the communication account number is a mobile phone number, and the specific process is as shown in FIG. 6:

Step S601, the user information registration entry.

Step S602, input personal information such as a user name and password of the user.

Step S603, input the mobile phone number of the user.

Step S604: It is detected whether the input user number has been registered. If it has been registered, step S605 is performed to prompt the user to re-enter; otherwise, step S606 is performed.

Step S605, prompting the user to input the mobile phone number has been registered, please input another mobile phone number, and after the user determines, return to step S603 to re-enter the mobile phone number.

Step S606: Bind the mobile phone number of the user.

Step S607, input and bind identification information of the automobile, and the identification information of the automobile includes a license plate number and a number of the car side charging receiving device.

Embodiments of the present invention will be further described in detail below with reference to the accompanying drawings. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

During the charging process, the charging device or the charging car is abnormal, and the fault information needs to be sent to the relevant personnel in time. To this end, the embodiment of the present invention further provides another intelligent monitoring wireless charging. The method, as shown in Figure 7, includes the following steps:

Step S701: The user drives the charging car into the charging station, which is also the entrance of the alarm processing flow.

Step S702: The charging device system accesses the cloud management server through the wireless near field communication technology, and then reports the license plate number of the automobile, the number of the charging receiving device, and the number of the wireless charging pile.

Step S703: The cloud management system retrieves whether the information of the car exists in the grouping information of the charging station. If not, the step S704 is performed to move the user information into the group; otherwise, step S705 is performed to detect whether there is a new alarm.

Step S704, the user information is moved into the current charging station group information table, and the corresponding charging pile device number is set, and the following table is an example of the user grouping information representation.

In step S705, it is detected whether there is a new alarm. If there is a new alarm, step S706 is performed to parse the alarm; if there is no new alarm, step S709 is performed to detect whether the charging of the vehicle is completed.

Step S706: Analyze the alarm information, and read the location of the generated alarm and the alarm details. The alarm location may be a car that is being charged, or it may be a charging post.

Step S707: Retrieve the user information table in the group, and quickly find the user's name and mobile phone number according to the number of the charging device.

Step S708: Convert the alarm details into user information, and then send the alarm information to the user's mobile phone retrieved in step S707.

Step S709, detecting whether the charging of the car is completed, and if the charging is not completed, returning Step S705 waits for a new alarm to be generated; if it is detected that the vehicle charging has ended, step S709 is performed.

Step S710, deleting current user information from the group information table.

In the process of charging, in addition to the need to obtain the alarm information in time, the user can also obtain the charging progress information through the terminal, wherein the charging progress information includes the charged power, how long it takes to complete the charging, and so on, so that the user can know in time. The progress of charging and the condition of the car, thereby increasing user satisfaction. To this end, the embodiment of the present invention further provides another method for intelligently monitoring wireless charging, as shown in FIG. 8 , including the following steps:

Step S801: The car enters the charging position, the management system reads the number of the charging bit, charges the license plate number of the automobile, and searches for information of the user from the database, and establishes a mapping relationship between the charging position, the charging car, and the user.

Step S802: Start a wireless charging operation, and the management system reads information such as the charged power, the charging time, and the current voltage of the battery on the charging vehicle from the charging device.

Step S803, combining the historical charging data, analyzing and calculating the charging progress, the percentage of the current battery power, and estimating the charging completion time.

Step S804: Combine the charging bit established in step S801 with the mapping data of the user, generate a corresponding receiving message of the user's mobile phone, put it into the message sending queue, and complete the message sending by the message sending module.

Step S805: The user mobile phone APP receives the progress message sent by the management system, and displays information such as the charging power, the progress, the waiting time, and the like on the mobile phone. The charging progress information is refreshed at intervals, and the refresh rate can be set on the system.

During the wireless charging process of the car, when there is a serious abnormality of the charging device or other reasons, the operator needs to temporarily suspend the charging process. To this end, the embodiment of the present invention further provides another method for intelligently monitoring wireless charging, as shown in FIG. 9, including the following steps:

Step S901: The user drives the to-be-charged car into the wireless charging position. After the car enters the charging position, the car authentication is first performed, and then the self-checking of the charging device and the charging car is performed. After passing the authentication and self-test, the user can manually start the charging operation of the car.

Step S902, after the charging starts, the management system periodically reads the operating state of the charging device, the charging power, the charging voltage current value, the charging battery voltage on the vehicle side, and the change situation.

In step S903, the management system determines whether there is an abnormality in each charging device. The determining method is to compare the device operating parameter collected in step S902 with the parameter threshold preset by the management system. When the collecting parameter value exceeds the preset threshold range, the system considers that there is an abnormality. When a serious abnormal time occurs, the charging process needs to be aborted.

If the aborting charging operation is started, step S906 is performed; otherwise, step S904 is performed.

Step S904, determining whether there is an operation of manually suspending wireless charging. The manual abort operation can be initiated by the system administrator from the client of the management system or by the user from the mobile APP.

If the charging operation is manually suspended, step S906 is performed; otherwise, step S905 is performed.

In step S905, it is determined whether the charging is completed, and whether the battery of the car is full. If all the batteries are already full, the charging operation is ended; otherwise, step S902 is performed to continue collecting and monitoring the operating state of the charging device.

Step S906: The management system sends an instruction to suspend the wireless charging to the wireless charging device and the charging car, starts the suspension charging operation, and cuts off the charging power; the management system saves the operation record of abnormally aborting the charging.

Step S907: The management system sends a charging suspension message to the user mobile APP client and the vehicle terminal. After receiving the stop charging command sent by the management system, the user mobile APP displays an abnormal suspension charging information on the mobile phone and displays the running status of the current charging device.

As shown in FIG. 10, the embodiment of the present invention uses the cloud server 103 to replace the traditional computer server, and uses the Internet technology to realize that the wireless charging device 101 and the charging car 102 directly communicate with the cloud server 103. The cloud server 103 has the capability of being flexible and scalable. The user can configure the service according to the needs of the service. No additional installation and maintenance operations are required. Only the cloud management system 1031 needs to be configured to upgrade all the deployed charging stations. Significantly save users' operation and maintenance costs.

During the charging process, when the wireless charging device 101 or the charging car 102 is abnormal, the alarm letter The information is sent to the cloud management system 1031 via the Internet 104, and is analyzed by the alarm analysis processing module 10311 in the cloud management system 1031 to read the alarm location and the alarm details. If the user registers his/her own communication account on the cloud management system 1031, when a charging alarm occurs, the alarm information is displayed not only on the management terminal 105 and the in-vehicle terminal 1021, but also on the user terminal 106 (for example, a mobile phone). Therefore, during the charging process, the user does not have to sit in the car all the time, and the alarm information displayed on the vehicle terminal 1021 can also be seen and operated on the user terminal 106 such as the mobile phone, thereby improving the user's ease of operation.

As shown in FIG. 11, an embodiment of the present invention provides an apparatus for intelligently monitoring wireless charging, and the apparatus 110 includes:

The receiving module 111 is configured to receive a charging message sent by the charging device, where the charging message includes identification information and charging information of the charging device;

The obtaining module 112 is configured to obtain, by using the identification information of the charging device, a communication account corresponding to the car currently charged by the charging device;

The sending module 113 is configured to send the charging information to a terminal that logs in to the communication account.

Optionally, as shown in FIG. 12, the method further includes:

The first receiving unit 1111 is configured to receive the identification information of the automobile and the identification information of the charging device, wherein the identification information of the automobile is when the automobile enters the charging device, and the charging device reads of;

The generating module 114 is configured to generate a mapping relationship between the identification information of the automobile and the identification information of the charging device;

The obtaining module 112 includes:

The first obtaining unit 1121 is configured to determine the automobile in the mapping relationship by using the identification information of the charging device, and acquire the communication account corresponding to the automobile by using the identification information of the automobile.

Optionally, as shown in FIG. 13, the method further includes:

The operation module 115 is configured to acquire a distance between the automobile and the charging device;

The moving in module 116 is configured to move the identification information of the automobile and the communication account corresponding to the automobile into the user information group of the charging device when the distance between the automobile and the charging device is less than the first value;

The obtaining module 112 includes:

The second obtaining unit 1122 is configured to acquire the user information group by using the identification information of the charging device;

The third obtaining unit 1123 is configured to acquire a communication account corresponding to the car in the user information group.

Optionally, as shown in FIG. 14, the method further includes:

The removal module 117 is configured to remove the identification information of the automobile and the communication account corresponding to the automobile when the distance between the automobile and the charging device is greater than a sum of the first value and the second value User information group of the charging device.

Optionally, as shown in FIG. 15, the method further includes:

The receiving binding module 118 is configured to receive the communication account number sent by the user terminal and the identification information of the car, and bind the communication account with the identification information of the car.

Optionally, the charging information includes alarm information and/or charging progress information.

The device 110 can implement the various processes implemented in the method embodiments of FIG. 1 to FIG. 10, and can achieve the same beneficial effects. To avoid repetition, details are not described herein again.

It will be understood by those skilled in the art that all or part of the steps of implementing the above embodiments may be performed by hardware associated with program instructions, which may be stored in a computer readable medium, including when executed, including The following steps:

Receiving a charging message sent by the charging device, the charging message including identification information and charging information of the charging device;

Acquiring, by using the identification information of the charging device, a communication account corresponding to the car currently charged by the charging device;

Sending the charging information to a terminal that logs in to the communication account.

Optionally, before the obtaining, by using the identifier information of the charging device, the communication account corresponding to the car currently charged by the charging device, the method further includes:

Receiving identification information of the automobile and identification information of the charging device, wherein the identification information of the automobile is read by the charging device when the automobile enters the charging device;

Generating a mapping relationship between the identification information of the automobile and the identification information of the charging device;

And obtaining, by using the identifier information of the charging device, a communication account corresponding to the car currently charged by the charging device, including:

Determining the automobile in the mapping relationship using the identification information of the charging device, and acquiring the communication account corresponding to the automobile using the identification information of the automobile.

Optionally, the charging message sent by the charging device, before the charging message includes the identification information and the charging information of the charging device, further includes:

Obtaining a distance between the automobile and the charging device;

When the distance between the automobile and the charging device is less than the first value, the identification information of the automobile and the communication account corresponding to the automobile are moved into the user information group of the charging device;

And obtaining, by using the identifier information of the charging device, a communication account corresponding to the car currently charged by the charging device, including:

Acquiring the user information group by using the identification information of the charging device;

Obtaining a communication account corresponding to the car in the user information group.

Optionally, it also includes:

When the distance between the automobile and the charging device is greater than a sum of the first value and the second value, moving the identification information of the automobile and the communication account corresponding to the automobile out of the user of the charging device Information group.

Optionally, the charging message sent by the charging device, before the charging message includes the identification information and the charging information of the charging device, further includes:

Receiving the communication account number sent by the user terminal and the identification information of the car, and binding the communication account with the identification information of the car.

Optionally, the charging information includes alarm information and/or charging progress information.

The storage medium is, for example, a read-only memory (ROM), a random access memory (RAM), a magnetic disk, or an optical disk.

The above is a preferred embodiment of the present invention, and it should be noted that those skilled in the art can also make several improvements and retouchings without departing from the principles of the present invention. It should be considered as the scope of protection of the present invention.

Industrial applicability

Receiving a charging message sent by the charging device, wherein the charging message includes identification information of the charging device and charging information; acquiring, by using the identification information of the charging device, a communication account corresponding to the car currently charged by the charging device; The terminal of the communication account sends the charging information. In this way, the user can view and operate the charging process in real time, which improves the user's operation and ease of use. By deploying the management system to the cloud management system with flexible processing capability, the construction and maintenance cost of the management system can be greatly reduced. .

Claims (12)

1. A method for intelligently monitoring wireless charging, comprising:

   Receiving a charging message sent by the charging device, the charging message including identification information and charging information of the charging device;

   Acquiring, by using the identification information of the charging device, a communication account corresponding to the car currently charged by the charging device;

   Sending the charging information to a terminal that logs in to the communication account.
2. The method of claim 1, wherein the obtaining, by using the identification information of the charging device, the communication account corresponding to the car currently being charged by the charging device, further comprises:

   Receiving identification information of the automobile and identification information of the charging device, wherein the identification information of the automobile is read by the charging device when the automobile enters the charging device;

   Generating a mapping relationship between the identification information of the automobile and the identification information of the charging device;

   And obtaining, by using the identifier information of the charging device, a communication account corresponding to the car currently charged by the charging device, including:

   Determining the automobile in the mapping relationship using the identification information of the charging device, and acquiring the communication account corresponding to the automobile using the identification information of the automobile.
3. The method of claim 1, wherein the receiving the charging message sent by the charging device, before the charging message includes the identification information of the charging device and the charging information, further comprising:

   Obtaining a distance between the automobile and the charging device;

   When the distance between the automobile and the charging device is less than the first value, the identification information of the automobile and the communication account corresponding to the automobile are moved into the user information group of the charging device;

   And obtaining, by using the identifier information of the charging device, a communication account corresponding to the car currently charged by the charging device, including:

   Acquiring the user information group by using the identification information of the charging device;

   Obtaining a communication account corresponding to the car in the user information group.
4. The method of claim 3, further comprising:

   When the distance between the automobile and the charging device is greater than a sum of the first value and the second value, moving the identification information of the automobile and the communication account corresponding to the automobile out of the user of the charging device Information group.
5. The method according to any one of claims 1 to 4, wherein the charging message sent by the charging device, before the charging message includes the identification information and the charging information of the charging device, further includes:

   Receiving the communication account number sent by the user terminal and the identification information of the car, and binding the communication account with the identification information of the car.
6. The method of any of claims 1-4, wherein the charging information comprises alarm information and/or charging progress information.
7. A device for intelligently monitoring wireless charging, comprising:

   a receiving module, configured to receive a charging message sent by the charging device, where the charging message includes identification information and charging information of the charging device;

   Obtaining a module, configured to obtain the charging device by using identification information of the charging device Set the communication account corresponding to the currently charged car;

   The sending module is configured to send the charging information to a terminal that logs in to the communication account.
8. The apparatus according to claim 7, further comprising:

   a first receiving unit, configured to receive identification information of the automobile and identification information of the charging device, wherein the identification information of the automobile is read by the charging device when the automobile enters the charging device ;

   a generating module, configured to generate a mapping relationship between the identification information of the automobile and the identification information of the charging device;

   The obtaining module includes:

   The first obtaining unit is configured to determine the automobile in the mapping relationship by using the identification information of the charging device, and acquire the communication account corresponding to the automobile by using the identification information of the automobile.
9. The apparatus according to claim 7, further comprising:

   An arithmetic module configured to obtain a distance between the automobile and the charging device;

   Moving into the module, configured to move the identification information of the automobile and the communication account corresponding to the automobile into the user information group of the charging device when the distance between the automobile and the charging device is less than the first value;

   The obtaining module includes:

   a second obtaining unit, configured to acquire the user information group by using identifier information of the charging device;

   The third obtaining unit is configured to acquire a communication account corresponding to the car in the user information group.
10. The apparatus according to claim 9, further comprising:

    And removing the module, configured to remove the identification information of the automobile and the communication account corresponding to the automobile when the distance between the automobile and the charging device is greater than a sum of the first value and the second value A user information group of the charging device.
11. The apparatus according to any one of claims 7 to 10, further comprising:

    The receiving binding module is configured to receive the communication account number sent by the user terminal and the identification information of the car, and bind the communication account to the identification information of the car.
12. The apparatus of any of claims 7-10, wherein the charging information comprises alarm information and/or charging progress information.

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