CN115009076A - Charging method and device for charging pile, server and storage medium - Google Patents

Abstract

The application discloses a charging method and device for a charging pile, a server and a storage medium, wherein the method comprises the following steps: in response to receiving a charging request instruction sent by a user side, determining identification information of a target charging pile and account information of the user; responding to the fact that the target charging pile is a private charging pile, checking account information, and generating an appointed charging plan of the private charging pile based on the charging request instruction; responding to the fact that the target charging pile is a public charging pile, and sending a charging confirmation instruction to the user side based on the state information and the account information of the public charging pile; and responding to the received charging feedback instruction sent by the user side, and sending a charging instruction to the target charging pile so as to charge the target charging pile. According to the scheme, the charging piles are divided into the private charging piles and the public charging piles, the server can generate the reservation charging plan based on the private charging pile request, the public charging piles and the private charging piles need to be charged according to the feedback of the user side, and the charging safety and convenience are greatly improved.

Description

Charging method and device for charging pile, server and storage medium

Technical Field

The embodiment of the application relates to the technical field of charging, in particular to a charging method and device for a charging pile, a server and a storage medium.

Background

With continuous development and popularization of new energy electric vehicles and alternating current charging piles, various charging technology piles and charging technologies are applied to daily life. When the user needs to charge the car, the charging can be started only by inserting the front charging gun into the charging port of the car body and paying.

In the related art, most charging piles are started for code scanning payment or card swiping charging, and a server only needs to receive an instruction of an application program to start a timing program of the charging pile to finish charging. The charging method does not consider the types of the user and the charging pile, charging can be carried out as long as the charging pile is idle, different charging authority controls cannot be realized for different charging piles and users, the phenomena of queuing, queue-inserting, charging and the like exist, the safety and the convenience are poor, and the user experience is influenced.

Disclosure of Invention

The embodiment of the application provides a charging method and device for a charging pile, a server and a storage medium, a user can reserve charging time according to time arrangement, and charging convenience is improved. The technical scheme is as follows:

in one aspect, the present application provides a charging method for a charging pile, where the method is used for a server, and the method includes:

in response to receiving a charging request instruction sent by a user side, determining identification information of a target charging pile and account information of the user;

responding to the fact that the target charging pile is a private charging pile, verifying the account information, and generating an appointed charging plan of the private charging pile based on the charging request instruction; the reservation charging plan is used for sending a charging confirmation instruction to the user side after the reservation time is reached;

responding to the target charging pile is a public charging pile, and sending the charging confirmation instruction to the user side based on the state information of the public charging pile and the account information;

and sending a charging instruction to the target charging pile in response to the received charging feedback instruction sent by the user side so as to facilitate charging of the target charging pile.

In another aspect, the present application provides a charging device for a charging pile, the device being used for a server, the device including:

the determining module is used for responding to a charging request instruction sent by a user side and determining the identification information of the target charging pile and the account information of the user;

the generation module is used for responding to the fact that the target charging pile is a private charging pile, verifying the account information and generating an appointed charging plan of the private charging pile based on the charging request instruction; the reservation charging plan is used for sending a charging confirmation instruction to the user side after the reservation time is reached;

the first sending module is used for responding to the fact that the target charging pile is a public charging pile and sending the charging confirmation instruction to the user side based on the state information and the account information of the public charging pile;

and the second sending module is used for sending a charging instruction to the target charging pile in response to receiving the charging feedback instruction sent by the user side so as to facilitate charging of the target charging pile.

In another aspect, a server is provided, which includes a processor and a memory, where at least one instruction, at least one program, a set of codes, or a set of instructions is stored in the memory, and the at least one instruction, the at least one program, the set of codes, or the set of instructions is loaded and executed by the processor to implement the charging pile charging method according to the above aspect.

In another aspect, a computer-readable storage medium is provided, which includes a processor and a memory, where at least one instruction, at least one program, a set of codes, or a set of instructions is stored in the memory, and the at least one instruction, the at least one program, the set of codes, or the set of instructions is loaded and executed by the processor to implement the charging pile charging method according to the above aspect.

The beneficial effects that technical scheme that this application embodiment brought include at least: the server obtains the working state of the target charging pile by receiving a remote reservation instruction sent by the user side, and generates a reservation charging plan based on the reservation charging time and the charging duration of the target charging pile. When the target charging pile detects that the charging gun is inserted into the vehicle body within the preset charging time, the ready state is indicated, a state instruction is sent to the server, the server can send a charging confirmation instruction to the user side conveniently when receiving the state instruction, and then the charging instruction is sent to the target charging pile after receiving charging feedback. Compared with the related art, the charging method and the charging system have the advantages that the reserved charging plan can be set for the charging pile in the remote state, the dual confirmation mode is set, the charging is guaranteed after the user confirms in the remote state, the charging accuracy and the charging safety are guaranteed, the charging queuing time is saved, and the charging convenience is improved.

Drawings

Fig. 1 is a scene schematic diagram of a charging method of a charging pile according to an embodiment of the present application;

fig. 2 is a flowchart of a charging method of a charging pile provided in an embodiment of the present application;

fig. 3 is a flowchart of a charging method for a charging pile according to another embodiment of the present disclosure;

fig. 4 is a block diagram of a charging device of a charging pile according to an embodiment of the present application.

Detailed Description

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

Reference herein to "a plurality" means two or more. "and/or" describes the association relationship of the associated objects, meaning that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship.

Fig. 1 is a scene schematic diagram of a charging method of a charging pile provided in an embodiment of the present application. Remote Control Systems (RCS) are installed in the charging piles, and a Cluster Monitoring Management System (CMMS) runs on a server. The two realize data communication through OTA protocol. The user side is any mobile terminal or PC side with network communication, and is internally provided with an application program for establishing data interaction with the cluster monitoring and management system, or can access the cluster monitoring and management system through a small program or a webpage. The user side can remotely send a reservation request to the server, receive feedback and complete reservation charging. The server in the scheme can receive the charging request commands of the private charging pile and the public charging pile and issue corresponding feedback commands.

Fig. 2 is a flowchart of a charging method of a charging pile according to an embodiment of the present application. The method is applied to the server in fig. 1, and specifically comprises the following steps:

step 201, in response to receiving a charging request instruction sent by a user terminal, determining identification information of a target charging pile and account information of the user.

The target charging pile can send a message to the server through an OTA protocol at regular time, or report the message after receiving an instruction issued when the server needs to acquire the working state of the server. And the user side can check the states through the APP or the small program, or check the states through scanning codes in the charging pile. When the user side sends a charging request instruction to the server, the charging request instruction indicates that the user needs to use the charging pile, and the identification information of the target charging pile and the account information of the user are extracted from the charging request instruction. Because the authorities of the private charging pile and the public charging pile are different, the server needs to judge the charging pile and then executes subsequent various authority operations.

And 202, responding to the fact that the target charging pile is the private charging pile, checking account information, and generating a reserved charging plan of the private charging pile based on the charging request instruction.

The private charging pile is a charging pile type set by a merchant or a manufacturer, and the charging authority is determined according to the user identity. For example, various private charging piles are divided according to companies in a garden, or are divided according to building numbers in a community, or are charging piles for users to establish a binding relationship by purchasing or transacting use authorities. The aim is to standardize the use authority and facilitate management.

And after the server determines that the target charging pile is the private charging pile type, further confirming the identity information of the user, namely verifying the account information. And on the premise of passing the verification, generating an appointed charging plan of the private charging pile according to the charging request instruction. The reservation charging plan is the charging time set by the user through the user terminal and is used for sending a charging confirmation instruction to the user terminal after the reservation time is reached. The process does not need to be set on site by a user, but can be remotely controlled and set, and the management and charging modes are more convenient. For example, it is set that the vehicle of the a user is charged at 4 pm to 10 pm. The server executes the charging plan when reaching 4 o' clock, and sends the relevant information to the user terminal for confirmation.

And step 203, responding to that the target charging pile is a public charging pile, and sending a charging confirmation instruction to the user side based on the state information and the account information of the public charging pile.

Except the private charging pile, the private charging pile also comprises a public charging pile, and the public charging pile can be directly used after certain user permission is obtained without binding in advance and limiting the use permission of the user. And when the target charging pile is detected to be a public charging pile, further sending a charging confirmation instruction to the user side according to the state information and account information of the charging pile so as to further execute the charging operation.

And 204, responding to the received charging feedback instruction sent by the user side, and sending a charging instruction to the target charging pile so as to charge the target charging pile.

And when the user side receives and confirms the charging confirmation instruction, the vehicle is ready to be charged, and the server sends a corresponding charging instruction to the private charging pile or the public charging pile based on the received charging feedback instruction. Further, after the private charging pile or the public charging pile receives the instruction issued by the server, the power supply of the charging gun is switched on for charging.

In conclusion, the charging pile is divided into the private charging pile and the public charging pile, and the server can determine the specific charging pile type according to the charging request instruction. Aiming at the private charging pile, a charging reservation plan can be generated according to the reservation time of the user, a charging confirmation instruction is sent to the user after the preset corresponding time is reached, the private charging pile is controlled to remotely charge according to the charging feedback instruction of the user, the charging queuing time is saved, and the charging convenience is improved. And aiming at the public charging pile, the charging pile is sent to the user side according to the state information and the account information, and charging is carried out after a charging feedback instruction is obtained, and the accuracy and the safety of charging are ensured by the mode of receiving the feedback re-instruction.

Fig. 3 is a flowchart of a remote reservation charging method according to an embodiment of the present application. The method is applied to the server in fig. 1, and specifically comprises the following steps:

step 301, obtaining the identification information of the target charging pile and the account information of the user in the charging request instruction.

And 302, matching the IMEI number and the equipment number with a database, and determining the type of the charging pile in the registration state of the target charging pile.

The identification information of the target charging pile comprises an IMEI number, an equipment number and the like, the server can store the charging pile in a database for network access, and matching query can be performed after a subsequent receiving instruction. The match may determine the registration status from the device number and the IMEI number. Because the IMEI number is the only identification of factory setting, can divide through the IMEI number and fill electric pile type, also can regard equipment number or both as the judgement standard jointly in addition.

It should be noted that, when the charging pile is powered on again each time, the charging pile needs to communicate with the server to verify the network access state, and when the target charging pile is in the unregistered state, the server needs to register and initialize the target charging pile. Once the registration is successful, the server needs to generate corresponding initial information. During initialization, the target charging pile is encrypted by using a public key of the server. The symmetric encryption uses an AES-ECB-128bit encryption mode; asymmetric encryption uses the RSA-1024bit mode. Padding uses PKCS #1v1.5, so the maximum encrypted plaintext length at a time is 117 bytes of data. If the encrypted data is larger than 117 bytes, encryption or decryption is performed in two times. And after encryption, generating a private key of the target charging pile, distributing and issuing the equipment number, and meanwhile, the server also needs to update the equipment numbers in the database and each list. The method is also suitable for the access of the charging piles among different brands, the server is equivalent to a sharing platform, and the charging pile type is set as the charging pile type required after each type of charging pile is registered.

And 303, matching the account information with the private account list when the target charging pile is a private charging pile.

For the private charging pile, as the charging authority needs to be set, the private account list needs to be set for independent matching. The private account list stores binding relations between all private charging piles and account information, and account information in the request instruction needs to be matched with the private account list one by one to be confirmed.

And 304, when the account information is matched and the account information and the private charging pile are in a binding relationship, acquiring a reserved charging list of the private charging pile and reserved charging time in the charging request instruction.

When the account information is matched and the account information and the private charging pile are in a binding relationship, it is indicated that the target charging pile and the user are in the binding relationship, and then the reserved charging list of the private charging pile and the reserved charging time in the charging request instruction can be obtained. The reserved charging list contains all reserved charging plans of the charging pile. And the corresponding account information is the account which is in binding relation with the private charging pile.

However, when the charging pile is not matched or the charging pile matched with the account binding is not the current private charging pile, the reserved charging cannot be carried out.

It should be noted that the private charging pile can also directly send a charging instruction, and after the matching is successful, the private charging pile is directly charged instead of making an appointment.

And 305, generating a reserved charging plan based on the reserved charging time, and adding the reserved charging plan into a reserved charging list of the private charging pile.

When the charging time is reserved, the user generates the charging reservation list according to the private charging pile, and selects the charging reservation time according to the idle time. The server generates a reserved charging plan based on the reserved charging time and the account information on the premise of successful verification, adds the reserved charging plan into a reserved charging list of the private charging pile, sorts the charging plans in the reserved charging list according to time, and sets a certain interval time between the plans so that a user can arrive in advance and insert a charging gun and other operations.

And step 306, when the reserved charging plan is not executed, sending a charging prohibition instruction to the private charging pile, and setting the private charging pile in a locked state.

After the reserved charging plan is set, the server monitors the private charging pile in real time, and when the reserved charging plan is not executed, a charging prohibition instruction is sent to the private charging pile, and the private charging pile is set to be in a locking state. The private under the locking state fills electric pile and can't charge to other vehicles, so can avoid appearing inserting the team and occupy the phenomenon of filling electric pile.

And 307, when the charging reservation time is reached, sending a state detection instruction to the private charging pile.

For example, the charging time is reserved from 5 to 10 points, and when the charging time is reserved, the server sends a state detection instruction to the private charging pile. The state detection instruction is used for detecting the pile state of the private charging pile in the current state, namely whether the charging gun is pulled up to be inserted into a charging interface of a vehicle or not. This is whether to appear short circuit or other unusual in order to make things convenient for charging stake detection circuitry before the circular telegram, avoids appearing the electric shock accident.

The process for the public charging post is as follows from step 308 to step 310.

And 308, when the target charging pile is a public charging pile, acquiring the state information of the current public charging pile.

The public charging pile does not have the reservation function, so that the account authority does not need to be verified, but the state information of the charging pile needs to be acquired. The state information comprises an idle state and a charging state, the state of the private charging pile further comprises a reservation state, charging can be carried out only in the idle state, charging cannot be carried out in the charging state, and therefore a busy prompt needs to be fed back to the user side.

And 309, when the state information indicates that the public charging pile is in an idle state, sending a state detection instruction to the public charging pile.

And 310, when a state instruction for the state detection instruction is received and the state instruction indicates that the charging gun and the vehicle body are in a connection state, sending a charging confirmation instruction to the user side.

The step is that the public charging pile detects a state instruction of the state detection instruction sent after the vehicle pile is connected, and the state instruction is sent to the user side so that the user can determine the charging state, can start charging, and can ensure the charging safety and accuracy.

And 311, in response to receiving the feedback instruction within the preset time, generating a charging confirmation instruction directly based on the reserved charging time and the charging duration, and sending the charging confirmation instruction to the user side.

When the user connects the vehicle piles at the reserved time point or before the reserved charging time is not reached, and the private charging pile immediately determines that the connection of the vehicle piles is finished after receiving the state detection instruction sent by the server, and sends a feedback instruction to the server. That is, the server receives the feedback instruction within the preset time, directly generates a charging confirmation instruction based on the reserved charging time and the charging duration, and sends the charging confirmation instruction to the user side, so that the successful reservation in a remote state is ensured, and the charging safety and accuracy are improved.

In step 312, in response to the status instruction not being received within the preset time, the charging countdown is started based on the reserved charging time, and a charging reminder is sent to the user side.

The preset time is the preparation time of the buffering stage set by the server, and the purpose of the preset time is to prevent the previous user from leaving the parking space in time after charging is completed, or prevent the parking space from being occupied, or prevent the user from connecting the vehicle piles in time.

But when the preset time is up, the charging gun is still not inserted into the charging port, and the private charging pile sends a feedback instruction that the vehicle pile is not connected to the server. And after receiving the feedback instruction, the server starts charging countdown based on the reserved charging time and sends a charging prompt to the user side. For example, the preset charging time is 4 to 10 points, the server still does not receive a state instruction of the pile connection at 4 points by half, and the server directly performs timing according to the reserved 4 points as the charging starting time, so as to avoid the influence of excessive occupation of charging resources and the use of other users.

It should be noted that, when the user feels and connects the stub within the preset time, that is, the server receives the state instruction within the preset time, at this time, the server also sends the charging confirmation instruction by directly generating the charging confirmation instruction. In contrast, the time from the issuance of the command to the status command will result in an extension of the time for which the end of charging is expected, and therefore, the two adjacent charging schedules set by the server will have to be separated by at least the preset time.

And step 313, in response to receiving the status instruction when the charging countdown is not stopped, generating a charging confirmation instruction based on the remaining charging time indicated by the charging countdown, and sending the charging confirmation instruction to the user terminal.

When the user exceeds the preset time and receives the state instruction when the charging countdown is not finished, the server needs to generate a charging confirmation instruction according to the remaining charging time indicated by the charging countdown. For example, the server does not receive the status command at four points or a half, calculates directly according to 4 points as the starting time (at this time, the remaining charging time is directly reduced by 30 minutes), then receives the status command at 5 points, at this time, the remaining charging time is reduced by 60 minutes, and on this basis, the server generates a charging confirmation command according to the remaining charging time and sends the charging confirmation command to the user terminal. The charging confirmation instruction can double confirm the accuracy and the safety of charging, and can also be used as a voucher for user charging, and the user can settle accounts according to the actual timed time under the condition of refusing.

And step 314, in response to receiving the charging feedback instruction sent by the user side, sending a charging instruction to the target charging pile so as to charge the target charging pile.

In addition, when the server generates the charging schedule reserved by the user and needs to cancel the reserved charging schedule due to special situations, a detection mechanism should be set to fully exert the charging authority in the interrupted time after cancellation in order to consider the reasonable application of resources. And when the server receives the charging request instruction, generates a reservation charging plan and adds the reservation charging plan into the reservation charging list, and then receives the instruction of canceling the reservation again. At this time, the server should determine the ranking value of the scheduled charging plan in the scheduled charging list, that is, the charging execution sequence. When the reserved charging plan number is the maximum value among all the plan numbers, it is described that the reserved charging plan is generated recently and thereafter, another reserved plan has not been received. The server can then cancel the subscription plan directly and no deductions are made, since this does not affect the subscriptions of the other subsequent users.

When the reserved charging plan number is not the maximum value among all the plan numbers, the plan is not generated recently, and other users reserve the reservation. The server further determines whether the scheduled charging schedule has started to be executed. When the plan is not executed, the server cancels the reservation plan, deducts a certain proportion of commission charge, and releases the reservation permission of the reservation time period, other users can reserve the time period preferentially and generate a charging plan without changing the reservation number, namely the charging sequence is not required to be changed.

When the server judges that the reservation plan is executed, the remaining charging time of the server may not meet the charging requirements of other users, and the server deducts and cancels the execution plan according to the full amount.

In another possible implementation manner, for the time period for canceling the reservation, the user is determined not to be used any more, the charging mode of the public charging pile can be set, that is, the user binding authority is not detected any more, and when the charging request instruction is received, the charging confirmation instruction is directly sent to the user side for charging, so that the resource utilization maximization is realized.

To sum up, in this scheme expert will fill electric pile and set up to the private electric pile and fill electric pile with public, fill electric pile's binding relation and judge the charging form according to user and private. For the private charging pile, a charging plan can be generated according to the appointment time of the user, and remote appointment charging is realized; when the time is up, the connection state of the vehicle piles is judged by sending related instructions to the private charging pile; meanwhile, in order to facilitate management and full utilization of resources, preset time is set, and the residual charging time is calculated according to the feedback instruction and the time of the private charging pile.

And for the public charging pile, whether charging is carried out or not is judged according to the state information of the charging pile, and the charging modes of the public charging pile and the private charging pile need to send confirmation instructions to the user side after the connection state of the vehicle piles is determined, and charging is carried out after feedback of the user side is received. This dual mode of confirming is in order to ensure that fill electric pile not occupied by other people and the security and the accuracy of charging. Compared with the public code scanning charging mode in the related technology, the charging queuing time is saved in the remote reservation mode, and the safety, accuracy and convenience of charging detection are improved.

Fig. 4 is a block diagram of a charging device of a charging pile according to an embodiment of the present application. The device is used for a server, and the device comprises:

the determining module 401 is configured to determine, in response to receiving a charging request instruction sent by a user, identification information of a target charging pile and account information of the user;

a generating module 402, configured to, in response to that the target charging pile is a private charging pile, verify the account information, and generate an appointment charging plan of the private charging pile based on the charging request instruction; the reservation charging plan is used for sending a charging confirmation instruction to the user side after the reservation time is reached;

a first sending module 403, configured to send, in response to that the target charging pile is a public charging pile, the charging confirmation instruction to the user terminal based on the state information of the public charging pile and the account information;

a second sending module 404, configured to send a charging instruction to the target charging pile in response to receiving the charging feedback instruction sent by the user end, so that the target charging pile is charged.

The embodiment of the application also provides a server, which comprises a processor and a memory; the memory stores at least one instruction, and the at least one instruction is used for being executed by the processor to implement the charging pile charging method provided by the above embodiments.

The charging pile is stored with at least one instruction, at least one section of program, a code set or an instruction set, and the at least one instruction, the at least one section of program, the code set or the instruction set are loaded and executed by the processor to realize the charging pile charging method provided by each embodiment.

Embodiments of the present application also provide a computer program product or computer program comprising computer instructions stored in a computer-readable storage medium. The processor of the computer device reads the computer instructions from the computer-readable storage medium, and executes the computer instructions, so that the computer device executes the charging pile charging method of any one of the above aspects.

The above description is of the preferred embodiment of the invention; it is to be understood that the invention is not limited to the particular embodiments described above, in that devices and structures not described in detail are understood to be implemented in a manner common in the art; any person skilled in the art can make many possible variations and modifications, or modify equivalent embodiments, without departing from the technical solution of the invention, without affecting the essence of the invention; therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the present invention are still within the scope of the protection of the technical solution of the present invention, unless the contents of the technical solution of the present invention are departed.

Claims (10)

1. A charging method of a charging pile is used for a server, and the method comprises the following steps:

in response to receiving a charging request instruction sent by a user side, determining identification information of a target charging pile and account information of the user;

responding to the fact that the target charging pile is a private charging pile, verifying the account information, and generating an appointed charging plan of the private charging pile based on the charging request instruction; the reservation charging plan is used for sending a charging confirmation instruction to the user side after the reservation time is reached;

responding to the target charging pile is a public charging pile, and sending the charging confirmation instruction to the user side based on the state information of the public charging pile and the account information;

and sending a charging instruction to the target charging pile in response to the received charging feedback instruction sent by the user side so as to facilitate charging of the target charging pile.

2. The method of claim 1, wherein the responding to the target charging pile being a private charging pile, verifying the account information, and generating an appointment charging plan for the private charging pile based on the charging request command comprises:

when the target charging pile is a private charging pile, matching the account information with a private account list; the account list comprises account lists of all bound private charging piles;

when the account information is matched and the account information and the private charging pile are in a binding relationship, acquiring a charging reservation list of the private charging pile and charging reservation time in the charging request instruction;

and generating a reserved charging plan based on the reserved charging time, and adding the reserved charging plan into the reserved charging list of the private charging pile.

3. The method of claim 2, wherein after the joining to the reserved charging list of the private charging pile, the method further comprises:

when the reserved charging plan is not executed, a charging prohibition instruction is sent to the private charging pile, and the private charging pile is set to be in a locked state;

when the reserved charging time is reached, sending a state detection instruction to the private charging pile, wherein the state detection instruction is used for detecting the connection relation between a charging gun on the charging pile and a vehicle body;

in response to the state instruction of the private charging pile for the state detection instruction received within the preset time, generating the charging confirmation instruction directly based on the reserved charging time and the charging duration, and sending the charging confirmation instruction to a user side; the state instruction is used for indicating that the charging gun and the vehicle body are in a connection state.

4. The method of claim 1, wherein the sending the charging confirmation instruction to the user side based on the state information of the public charging pile and the account information in response to the target charging pile being a public charging pile comprises:

when the target charging pile is the public charging pile, acquiring the state information of the current public charging pile;

when the state information indicates that the public charging pile is in an idle state, sending the state detection instruction to the public charging pile;

and when a feedback instruction of the state detection instruction is received and the feedback instruction indicates that the charging gun and the vehicle body are in a connection state, sending the charging confirmation instruction to the user side.

5. The method of claim 3, wherein in response to not receiving the status instruction within a preset time, starting a charge countdown based on the scheduled charging time and sending a charge reminder to the user end;

and in response to receiving the state instruction sent by the target charging pile when the charging countdown is not stopped, generating the charging confirmation instruction based on the remaining charging time indicated by the charging countdown, and sending the charging confirmation instruction to the user side.

6. The method according to claim 2, wherein when the account information is not matched or the account information and the private charging pile are in a non-binding relationship, the number of the bound accounts of the private charging pile is obtained;

and when the number of the bound accounts does not exceed the number of the charging guns, sending a binding instruction to the user terminal so that the user can bind the private charging pile.

7. The method of claim 1, wherein the determining the identification information of the target charging pile and the account information of the user in response to receiving a charging request instruction sent by a user side comprises:

acquiring the identification information of the target charging pile and the account information of a user in the charging request instruction; the identification information at least comprises an IMEI number and an equipment number;

matching the IMEI number and the equipment number with a database, and determining the charging pile type of the registration state of the target charging pile; and when the target charging pile is in an unregistered state, registering and initializing the target charging pile, and issuing an encryption key.

8. A charging apparatus for a charging pile, the apparatus being used for a server, the apparatus comprising:

the determining module is used for responding to a charging request instruction sent by a user side and determining the identification information of the target charging pile and the account information of the user;

the generation module is used for responding to the fact that the target charging pile is a private charging pile, verifying the account information and generating an appointed charging plan of the private charging pile based on the charging request instruction; the reservation charging plan is used for sending a charging confirmation instruction to the user side after the reservation time is reached;

the first sending module is used for responding to the fact that the target charging pile is a public charging pile and sending the charging confirmation instruction to the user side based on the state information and the account information of the public charging pile;

and the second sending module is used for sending a charging instruction to the target charging pile in response to the received charging feedback instruction sent by the user side, so that the target charging pile can be charged.

9. A server, characterized in that the server comprises a processor and a memory, wherein the memory has stored therein at least one instruction, at least one program, a set of codes, or a set of instructions, which is loaded and executed by the processor to implement the charging post charging method according to any one of claims 1 to 7.

10. A computer-readable storage medium, comprising a processor and a memory, wherein the memory has stored therein at least one instruction, at least one program, a set of codes, or a set of instructions, which is loaded and executed by the processor to implement the charging pole charging method according to any one of claims 1 to 7.

Images