CN115277731A - Vehicle charging processing method and device - Google Patents

Abstract

The embodiment of the specification provides a vehicle charging processing method and device, wherein the vehicle charging processing method comprises the following steps: acquiring a service signaling of a vehicle synchronized with a charging platform, and performing signaling verification; the service signaling is generated by a vehicle terminal of the vehicle based on a signaling parameter containing a charging service identifier after the vehicle establishes charging connection with charging equipment; under the condition of passing the verification, synchronously verifying the passed verification result to the charging platform; and if the charging payment order and the service signaling synchronized with the charging platform are detected, performing payment processing on the charging payment order based on the service signaling.

Description

Vehicle charging processing method and device

Technical Field

The present disclosure relates to the field of data processing technologies, and in particular, to a method and an apparatus for processing vehicle charging.

Background

Along with the development of science and technology and the continuous improvement of user standard of living, the use amount of car is more and more, and automobile exhaust's emission has brought great influence for ecological environment, in order to improve the ecological environment that worsens day by day, satisfies the demand of user to the car simultaneously, and new forms of energy electric automobile takes place. Although new energy electric vehicles are rapidly developed, the problem of difficult charging of electric vehicles has not been effectively solved. Electric automobile fills electric pile equipment charging process in the use, and the operation flow is loaded down with trivial details easily makes mistakes, and is inefficient, and the user who is unskilled to the application instrument very easily leads to the failure of charging moreover, and user experience is poor.

Disclosure of Invention

One or more embodiments of the present specification provide a vehicle charging processing method. The vehicle charging processing method is applied to a server and comprises the following steps: acquiring service signaling of a vehicle synchronized with a charging platform, and performing signaling verification; and the service signaling is generated by the vehicle-mounted terminal of the vehicle based on the signaling parameter containing the charging service identifier after the vehicle establishes the charging connection with the charging equipment. And under the condition of passing the verification, synchronously verifying the passed verification result to the charging platform. And if the charging payment order and the service signaling synchronized with the charging platform are detected, performing payment processing on the charging payment order based on the service signaling.

One or more embodiments of the present specification provide another vehicle charging processing method, which is applied to a charging system, and includes: after the charging connection with the vehicle is detected, the charging equipment sends a signaling acquisition request to a vehicle terminal of the vehicle. The charging platform synchronizes a service signaling sent by the vehicle-mounted terminal and received by the charging equipment to a server; the service signaling is generated based on a signaling parameter containing a charging service identification. And the charging platform carries out discharge treatment according to the verification result of the synchronous verification passing of the server. And if the charging connection is detected to be disconnected, the charging platform generates a charging payment order of the vehicle, and synchronizes the charging payment order and the service signaling to the server.

One or more embodiments of the present specification provide a vehicle charging processing apparatus, operating on a server, including: the signaling verification module is configured to acquire service signaling of the vehicle with the synchronous charging platform and perform signaling verification; and the service signaling is generated by the vehicle terminal of the vehicle based on the signaling parameter containing the charging service identifier after the vehicle establishes the charging connection with the charging equipment. And under the condition of passing the verification, operating a verification result synchronization module, wherein the verification result synchronization module is configured to synchronize the verification result passing the verification to the charging platform. And if the charging payment order and the service signaling which are synchronized by the charging platform are detected, operating a payment processing module, wherein the payment processing module is configured to perform payment processing on the charging payment order based on the service signaling.

One or more embodiments of the present specification provide another vehicle charging processing apparatus, operating in a charging system, including: the method comprises the steps that after charging connection with a vehicle is detected, a request sending module is operated, and the request sending module is configured to enable charging equipment to send a signaling obtaining request to a vehicle terminal of the vehicle. The signaling synchronization module is configured to enable the charging platform to synchronize the service signaling, which is received by the charging equipment and sent by the vehicle-mounted terminal, to a server; the service signaling is generated based on a signaling parameter containing a charging service identification. And the discharging processing module is configured to perform discharging processing on the charging platform according to the verification result of the server synchronous verification pass. And if the charging connection is detected to be disconnected, operating an order generation module, wherein the order generation module is configured to be the charging platform, generate a charging payment order of the vehicle, and synchronize the charging payment order and the service signaling to the server.

One or more embodiments of the present specification provide a vehicle charge processing apparatus including: a processor; and a memory configured to store computer-executable instructions that, when executed, cause the processor to: acquiring service signaling of a vehicle synchronized with a charging platform, and performing signaling verification; and the service signaling is generated by the vehicle-mounted terminal of the vehicle based on the signaling parameter containing the charging service identifier after the vehicle establishes the charging connection with the charging equipment. And under the condition of passing the verification, synchronously verifying the passed verification result to the charging platform. And if the charging payment order and the service signaling synchronized with the charging platform are detected, performing payment processing on the charging payment order based on the service signaling.

One or more embodiments of the present specification provide another vehicle charge processing apparatus including: a processor; and a memory configured to store computer-executable instructions that, when executed, cause the processor to: after the charging connection with the vehicle is detected, the charging equipment sends a signaling acquisition request to a vehicle terminal of the vehicle. The charging platform synchronizes a service signaling sent by the vehicle-mounted terminal and received by the charging equipment to a server; the service signaling is generated based on signaling parameters including a charging service identification. And the charging platform carries out discharge treatment according to the verification result that the server passes the synchronous verification. And if the charging connection is detected to be disconnected, the charging platform generates a charging payment order of the vehicle, and synchronizes the charging payment order and the service signaling to the server.

One or more embodiments of the present specification provide a storage medium storing computer-executable instructions that, when executed by a processor, implement the following: acquiring a service signaling of a vehicle synchronized with a charging platform, and performing signaling verification; and the service signaling is generated by the vehicle-mounted terminal of the vehicle based on the signaling parameter containing the charging service identifier after the vehicle establishes the charging connection with the charging equipment. And under the condition of passing the verification, synchronously verifying the passed verification result to the charging platform. And if the charging payment order and the service signaling which are synchronous with the charging platform are detected, performing payment processing on the charging payment order based on the service signaling.

One or more embodiments of the present specification provide another storage medium storing computer-executable instructions that, when executed by a processor, implement the following: after the charging connection with the vehicle is detected, the charging equipment sends a signaling acquisition request to a vehicle terminal of the vehicle. The charging platform synchronizes a service signaling sent by the vehicle-mounted terminal and received by the charging equipment to a server; the service signaling is generated based on signaling parameters including a charging service identification. And the charging platform carries out discharge treatment according to the verification result of the synchronous verification passing of the server. And if the charging connection is detected to be disconnected, the charging platform generates a charging payment order of the vehicle and synchronizes the charging payment order and the service signaling to the server.

Drawings

In order to more clearly illustrate one or more embodiments or technical solutions in the prior art in the present specification, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present specification, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive exercise;

FIG. 1 is a flowchart of a first vehicle charging process method provided in one or more embodiments herein;

fig. 2 is a process flow diagram of a provisioning process provided in one or more embodiments of the present disclosure;

FIG. 3 is a process flow diagram of a service shutdown process in accordance with one or more embodiments of the disclosure;

FIG. 4 is a schematic diagram of a vehicle charging process provided in one or more embodiments herein;

fig. 5 is a flowchart of a vehicle charging processing method applied to a charging service scenario according to one or more embodiments of the present disclosure;

FIG. 6 is a flowchart of a second method for vehicle charging according to one or more embodiments of the disclosure;

FIG. 7 is a flowchart illustrating a third method for processing vehicle charging according to one or more embodiments of the present disclosure;

FIG. 8 is a flowchart illustrating a fourth method for processing vehicle charging according to one or more embodiments of the present disclosure;

fig. 9 is a schematic view of a vehicle charging processing apparatus according to one or more embodiments of the present disclosure;

FIG. 10 is a schematic view of another vehicle charge processing device provided in one or more embodiments of the present disclosure;

fig. 11 is a schematic structural diagram of a vehicle charging processing device according to one or more embodiments of the present disclosure;

fig. 12 is a schematic structural diagram of a vehicle charge processing device according to one or more embodiments of the present disclosure.

Detailed Description

In order to make those skilled in the art better understand the technical solutions in one or more embodiments of the present disclosure, the technical solutions in one or more embodiments of the present disclosure will be clearly and completely described below with reference to the drawings in one or more embodiments of the present disclosure, and it is obvious that the described embodiments are only a part of the embodiments of the present disclosure, and not all embodiments. All other embodiments that can be derived by a person skilled in the art from one or more of the embodiments described herein without making any inventive step shall fall within the scope of protection of this document.

The first vehicle charging processing method embodiment provided by the present specification:

according to the vehicle charging processing method provided by the embodiment, the charging processing and the payment processing are carried out on the vehicle through the service signaling, the vehicle identification mark of the vehicle does not need to be collected when the vehicle is charged, the leakage of the vehicle identification mark is avoided, and the charging service can be completed without the vehicle identification mark; and by setting the charging service identifier of the vehicle and generating the service signaling containing the charging service identifier during charging, the payment processing is further carried out on the charging payment order generated by charging the vehicle based on the service signaling, and the convenience and the safety of the charging and the payment of the vehicle are improved.

Referring to fig. 1, the vehicle charging processing method provided in this embodiment is applied to a server, and specifically includes steps S102 to S106.

And step S102, acquiring service signaling of the vehicle with the synchronous charging platform, and performing signaling verification.

In this embodiment, the service signaling is generated by the vehicle terminal of the vehicle based on a signaling parameter including a charging service identifier after the vehicle establishes a charging connection with the charging device; the charging service identification is generated by the server after the vehicle identification is verified by the vehicle service platform, and comprises an identification for representing that the vehicle opens the charging service, and an encrypted identification. The vehicle service platform comprises a platform corresponding to a vehicle provider of the vehicle. And after the charging service identifier is generated, issuing the charging service identifier to a vehicle terminal of the vehicle, wherein the vehicle terminal generates a service signaling based on the signaling parameter containing the charging service identifier when the vehicle is charged. The service signaling is used for verifying the charging authority of the vehicle and paying the charge generated by charging the vehicle in the charging process of the vehicle; such as a service token. Specifically, the service signaling is generated by the vehicle-mounted terminal, and after the charging device establishes charging connection with the vehicle, the vehicle-mounted terminal sends the generated service signaling to the charging device, and the service signaling is forwarded to the server by the charging device through the charging platform; the server comprises a third-party server; for example, a server corresponding to a third party payment service. The signaling parameters refer to parameters used by the vehicle terminal in the process of generating the service signaling; the charging service identification and/or the signaling generation time are/is included.

In specific implementation, charging authority and payment processing is carried out based on the service signaling, and a user (a vehicle owner) needs to open a charging service; after the charging service is opened for the vehicle, the server generates a charging service identifier of the vehicle based on the opening of the charging service, and sends the charging service identifier to the vehicle terminal through the vehicle service platform, so that the vehicle terminal generates a service signaling based on the charging service identifier, and further performs charging application and payment processing according to the service signaling. The charging service comprises a plug-and-play charging service; in an optional implementation manner provided by this embodiment, the following manner is adopted to open the charging service:

according to a service opening request submitted by the user terminal associated with the vehicle, reading a vehicle identification mark of the vehicle and synchronizing the vehicle identification mark to a vehicle service platform corresponding to the vehicle;

generating a charging service identifier of the vehicle and determining the validity period of the identifier according to a verification result that the vehicle identification identifier synchronized by the vehicle service platform passes the verification;

synchronizing the charging service identification and the identification expiration date to the vehicle service platform; and the vehicle service platform stores the charging service identifier and the identifier validity period and synchronizes the charging service identifier and the identifier validity period to the vehicle terminal.

Further, after the car machine terminal receives the charging service identifier and the identifier validity period, the following operations are executed:

storing the charging service identification and the identification validity period and carrying out service starting marking processing;

correspondingly, the service signaling is generated based on the instruction parameter under the condition that the service opening mark exists.

Specifically, as shown in fig. 2, the user applies for the vehicle to perform the service provisioning of the charging service through the user terminal, and specifically performs the provisioning of the charging service of the vehicle through steps S202 to S214.

Step S202, the server obtains a service opening request submitted by the user terminal associated with the vehicle, reads the vehicle identification mark in the vehicle information submitted during vehicle registration and synchronizes the vehicle identification mark with the vehicle service platform corresponding to the vehicle.

The vehicle identification mark comprises a mark representing the uniqueness of the vehicle; such as Vehicle Identification Number (VIN), number plate.

And step S204, the vehicle service platform performs identification verification on the vehicle identification mark.

The identification verification comprises verifying whether the vehicle identification is a real identification issued by the vehicle service platform; if yes, determining that the verification is passed; if not, determining that the verification fails, and returning a verification result that the verification fails to pass to the server; and the server sends a starting failure prompt to the user terminal based on the verification result that the verification fails.

For example, since the vehicle VIN number is generated by the vehicle service platform, the vehicle service platform checks whether the vehicle identification sent by the server is the vehicle identification generated by the vehicle service platform in the process of performing identification check.

And step S206, if the verification is passed, the vehicle service platform opens the charging service of the vehicle and synchronously opens the result to the server.

And step S208, after receiving the opening result, the server generates a charging service identifier of the vehicle and determines the validity period of the identifier.

In specific implementation, the generated charging service identifier is subsequently used by the vehicle-mounted terminal to generate a service signaling based on the charging service identifier, and charging and payment are performed based on the service signaling, so as to ensure the security of the charging service identifier, in an optional implementation manner provided in this embodiment, the charging service identifier is generated in the following manner:

inputting the user identification of the user to which the vehicle belongs into an identification generation algorithm to perform identification generation processing, and outputting a charging service identification associated with the user identification;

alternatively, the first and second electrodes may be,

and calling a random generation algorithm to generate the charging service identification and establishing an association relation between the charging service identification and the user identification.

Specifically, in the process of performing identifier generation processing, the identifier generation algorithm may generate a charging service identifier based on the generation time, the user identifier and the key value, and establish an association relationship between the charging service identifier and the user identifier; in addition, the identifier generation algorithm can also generate an identifier valid period according to the generation time and a preset time interval, and output the identifier valid period and the charging service identifier together; or after the server acquires the charging service identifier output by the identifier generation algorithm, determining the identifier validity period based on the generation time and the preset time interval.

Or, a random identifier may be generated based on a random generation algorithm, an association relationship between the random identifier and a user identifier is established, the random identifier is determined as a charging service identifier of a vehicle registered by the user based on the establishment of the association relationship, and an identifier validity period is determined based on the generation time and a preset time interval.

The above description of the process of generating the charging service identifier is merely exemplary, and other ways may also be used to generate the charging service identifier associated with the user identifier, which is not limited herein.

Step S210, the server synchronizes the charging service identifier and the identifier validity period to the vehicle service platform, and the vehicle service platform stores the charging service identifier and the identifier validity period.

In order to improve the perception degree of the server on the storage of the charging service identification and the identification validity period by the vehicle service platform, the vehicle service platform stores the charging service identification and the identification validity period and then synchronously stores the result to the server.

Step S212, the vehicle service platform sends the charging service identifier and the identifier valid period to the vehicle-mounted terminal, and the vehicle-mounted terminal stores the charging service identifier and the identifier valid period.

And step S214, the vehicle terminal performs service opening mark processing to obtain a service opening mark.

In order to further improve the perception degree of the server and the user on the vehicle terminal storage charging service identification and the identification validity period, the vehicle service platform sends the asynchronous storage result to the server after sending the charging service identification and the validity identification period to the vehicle terminal; and the server sends an identification sending prompt to the user terminal after receiving the asynchronous storage result.

The above-mentioned identifier validity period is provided to restrict the use of the charging service identifier by identifying the validity period, and if the charging service identifier has exceeded the identifier validity period, the charging service identifier is updated to ensure the safety of the charging service identifier. In an optional implementation manner provided by this embodiment, the charging service identifier is updated in the following manner:

if the condition that the updating of the charging service identifier is triggered is detected, updating the charging service identifier;

synchronizing the updated charging service identifier and the identifier validity period obtained by updating processing to the vehicle service platform for storage;

alternatively, the first and second electrodes may be,

if the updating condition is triggered, updating the validity period of the identifier of the charging service identifier, and synchronizing the validity period of the identifier after the updating of the validity period and the charging service identifier to the vehicle service platform;

wherein the update condition includes: the identifier expiration date of the charging service identifier is expired. In addition, the updating condition further includes acquiring an identifier updating request submitted by the user terminal.

Specifically, if the validity period of the identifier of the charging service identifier expires, the charging service identifier may be regenerated, or only the validity period of the identifier of the charging service identifier may be updated; in order to improve the perception degree of the vehicle service platform and the vehicle terminal on the updated charging service identifier and the identifier validity period and avoid the vehicle terminal from generating a service signaling based on the invalid charging service identifier, after the charging service identifier or the identifier validity period is updated, the updated charging service identifier and the updated identifier validity period are synchronized to the vehicle service platform, and the vehicle service platform stores and sends the updated charging service identifier and the updated identifier validity period to the vehicle terminal; or, synchronizing the charging service identifier and the updated identifier validity period to a vehicle service platform, and storing and sending the charging service identifier and the updated identifier validity period to the vehicle terminal by the vehicle service platform.

In addition, in this embodiment, the validity period of the identifier may not be set; specifically, step S208 may be replaced by the server generating the charging service identifier of the vehicle after receiving the activation result; correspondingly, step S210 may be replaced by the server synchronizing the charging service identifier with the vehicle service platform, and the vehicle service platform storing the charging service identifier; step S212 may be replaced by the vehicle service platform sending the charging service identifier to the vehicle-mounted terminal, and the vehicle-mounted terminal storing the charging service identifier. The steps after replacement and other steps provided above constitute a new technical solution.

In specific implementation, the vehicle is charged at the charging device, the charging device sends a signaling acquisition request to a vehicle terminal of the vehicle after detecting the charging connection with the vehicle, that is, the physical connection with the vehicle, and the vehicle terminal generates a service signaling based on a signaling parameter including the stored charging service identifier after receiving the signaling acquisition request. The charging equipment comprises a charging gun and a charging pile connected with the charging gun; and if the charging gun is inserted into the vehicle, determining that the charging equipment is in charging connection with the vehicle.

Optionally, the car-machine terminal generates the service signaling in the following manner:

determining signaling failure time according to request time and a preset time interval of a signaling acquisition request sent by the charging equipment based on the charging connection;

and generating service signaling containing the user identification of the user to which the vehicle belongs, the signaling failure time, the charging service identification and/or the signaling generation time.

Specifically, after detecting that a charging connection is established with a vehicle, the charging device sends a signaling acquisition request to a vehicle terminal of the vehicle; in order to improve charging efficiency, the vehicle-mounted terminal reads a stored charging service identifier according to a signaling acquisition request, determines signaling failure time according to request time of the signaling acquisition request and a preset time interval, reads a user identifier of a logged-in vehicle-mounted terminal, and generates a service signaling containing the user identifier, the signaling failure time, the charging service identifier and signaling generation time.

For example, after detecting that the charging gun is inserted into the vehicle, the charging pile sends a signaling acquisition request to a vehicle terminal of the vehicle through physical connection between the charging gun and the vehicle, after receiving the signaling acquisition request, the vehicle terminal reads a stored charging service identifier and a user identifier logged in the vehicle terminal, determines signaling failure time based on current time and a preset validity period x hours, and generates a service token by taking the charging service identifier, the user identifier, the current time and the signaling failure time as fields.

In order to avoid that a service signaling is generated to send further charging based on the service signaling to the charging device when the vehicle closes the charging service or the charging service identifier fails, but after the charging is finished, the server cannot pay based on the service signaling, so that the server cannot pay after the charging, and resource loss of a charging provider is caused, in this embodiment, the in-vehicle terminal performs the following operations after receiving the signaling acquisition request:

inquiring whether a service opening mark exists;

if not, an invalid prompt is sent to the charging equipment;

if yes, reading the stored charging service identification and the identification validity period;

and checking whether the validity period of the identifier is expired, if so, sending an invalid prompt to the charging equipment, and if not, generating a service signaling based on the signaling parameter.

It should be noted that, in the process of generating the service signaling, a service signaling that only includes one or more of a charging service identifier, a signaling expiration time, a user identifier, and a signaling generation time may also be generated; the charging service identifier is a necessary option, and may only include the charging service identifier, or may include at least one of the charging service identifier and other three identifiers.

In order to improve the safety of the generated service signaling and avoid the resource loss of a user caused by the leakage of the service signaling because the service signaling is not effectively stored; the service signaling has timeliness, the user can configure the use authority of the service signaling at the client corresponding to the server, and if the service signaling is configured to be in a failure state, payment can not be carried out based on the service signaling. Optionally, the service signaling includes a character string with a format definition, and is composed of a user identifier, signaling expiration time, a charging service identifier, and/or signaling generation time, and in a case that the service signaling is composed of the user identifier, the signaling expiration time, the charging service identifier, and the signaling generation time, the user identifier is plaintext data and is used for associating with a payment account of the user; the charging service identification is an identification which is generated by the server after the user opens the charging service and is associated with the user and the vehicle; and the vehicle-mounted terminal encrypts and generates a ciphertext block according to the charging service identifier, the signaling generation time and the signaling failure time, and takes the user identifier and the ciphertext block as a service signaling. The encryption process may be performed by the vehicle machine according to the configured key, and this embodiment is not limited herein. The above description of the service signaling is only exemplary, and the service signaling may also be in other forms, which is also not limited herein.

In specific implementation, after a vehicle-mounted terminal generates a service signaling, the service signaling is sent to charging equipment based on charging connection, the charging equipment sends the service signaling and an equipment identifier to a charging platform, and the charging platform verifies whether the charging equipment opens a charging service based on the equipment identifier of the charging equipment; if the service signaling sent by the charging equipment is synchronous with the server, the charging platform sends a service non-opening prompt to the charging equipment, and the charging equipment displays the service non-opening prompt.

And after receiving the service signaling of the vehicle synchronized with the charging platform, the server checks the signaling. In order to ensure the effectiveness of the service signaling, in an optional implementation manner provided by this embodiment, the signaling verification includes:

verifying whether the charging service identification carried in the service signaling is a charging service identification associated with the user identification of the user to which the vehicle belongs and whether the signaling failure time is reached;

if yes, determining that the verification is passed; if not, determining that the verification fails, and sending a verification failure prompt to a user terminal and/or a charging platform associated with the vehicle; the charging platform sends verification failure reminding to the charging equipment, and the charging equipment displays the verification failure reminding.

According to the above example, after the vehicle terminal generates the service token, the service token is sent to the charging pile based on physical connection with the charging gun, the charging pile sends the service token and the charging pile identification to the charging platform, and after the charging platform receives the service token and the charging pile identification, whether the charging pile identification is recorded in the service opening list is checked; if yes, synchronizing a service token to the server; if not, sending a service non-opening prompt to the charging pile, and displaying the service non-opening prompt by the charging pile; after receiving the service token, the server reads a charging service identifier and a user identifier in the service token, checks whether the charging service identifier has an association relationship with the user identifier, and checks whether the signaling failure time in the service token is reached; if yes, determining that the verification is passed; if not, determining that the verification fails.

Optionally, after receiving the verification failure prompt, the user terminal submits an identifier update request for the charging service identifier, and the server performs update processing based on the identifier update request, where a specific update processing process is similar to the update processing process triggered by the update condition, and details of this embodiment are not repeated here.

And step S104, synchronously checking the passed checking result to the charging platform under the condition that the checking is passed.

And in specific implementation, synchronously checking the passed checking result to the charging platform, and performing discharge treatment on the charging platform according to the synchronous passed checking result of the server. Specifically, in the process of discharging processing performed by the charging platform, the charging platform sends a discharging instruction to the charging device, and the charging device performs a discharging operation to charge the vehicle.

In order to effectively manage a charging process, the charging equipment sends the equipment state of the charging equipment to the charging platform according to a preset period; and if the equipment state is a charging state, the charging platform synchronizes the charging state to the server. In an optional implementation manner provided by this embodiment, if the server obtains the charging state of the charging device synchronized with the charging system, the server sends a charging state reminder to the user terminal associated with the vehicle according to the charging state of the charging device synchronized with the charging platform; wherein the charge status alert carries an access link for vehicle services and/or charging services.

Continuing to use the above example, under the condition that the verification is passed, the server synchronously verifies the passed verification result to the charging platform, the charging platform sends a discharging instruction to the charging pile after receiving the verification result, and the charging pile discharges based on the discharging instruction; in the discharging process, the charging pile sends a charging state to the charging platform every m minutes, the charging platform synchronizes the charging state to the server after receiving the charging state, the server reads URLs (uniform resource locators) of the charging service and the vehicle service according to the charging state, generates a charging state prompt containing the charging state, the URLs of the charging service and the URLs of the vehicle service, and sends the charging state prompt to a user terminal associated with the vehicle. In this embodiment, the user terminal associated with the vehicle is a user terminal of an owner of the vehicle.

And if the fact that the user terminal submits an access request aiming at the access link of the vehicle service is detected, sending a service access request to a vehicle service platform corresponding to the vehicle so as to perform access jump of the vehicle service at the user terminal, specifically, after the vehicle service platform receives the service access request, reading vehicle service data from the vehicle, rendering a service page of the vehicle service based on the vehicle information and the vehicle service data, and sending the service page to the user terminal so as to achieve access jump of the vehicle service.

In addition, if the fact that the user terminal submits the access request of the access link for the vehicle service is detected, the data acquisition request is sent to the charging platform, the charging platform determines charging data of the vehicle based on the data acquisition request and sends the charging data to the server, and the server renders a service page of the vehicle service based on the charging data and the vehicle data and sends the service page to the user terminal, so that access jumping of the vehicle service is achieved. In the process of determining the charging data of the vehicle, the charging platform can read the current charging data of the vehicle from the vehicle through the charging connection of the charging device and the vehicle, and can also predict the current charging data of the vehicle based on the discharging time.

And if the fact that the user terminal submits the access request aiming at the access link of the charging service is detected, sending a service access request to the charging platform so as to carry out access skip of the charging service at the user terminal. Specifically, after receiving the service access request, the charging platform determines charging data of the vehicle, renders a service page of the charging service based on the charging data, and sends the service page to the user terminal, so as to realize access skip of the charging service.

And step S106, if the charging payment order and the service signaling which are synchronized with the charging platform are detected, performing payment processing on the charging payment order based on the service signaling.

During specific implementation, if the charging device detects that the charging connection with the vehicle is disconnected, charging end information is sent to the charging platform, the charging platform determines the charging cost of the vehicle based on a preset price and/or charging time, a charging payment order of the vehicle is generated based on the charging cost and the charging information, the charging payment order and a service signaling are synchronized to the server, and if the server detects the charging payment order and the service signaling synchronized by the charging platform, the server carries out payment processing on the charging payment order based on the service signaling. The charging information includes information that the charging platform needs to use in the process of generating the charging payment order, for example, charging time, charging unit price, and the like, which is not limited herein.

In addition, if the charging platform detects that the device state sent by the charging device is an idle state (non-charging state), a charging payment order of the vehicle is generated, and the charging payment order and the service signaling are synchronized to the server.

In an optional implementation manner provided by this embodiment, the performing, based on the service signaling, payment processing on the charging payment order includes:

determining a user identifier associated with the charging service identifier carried in the service signaling;

and performing payment processing on the charging payment order based on the payment account associated with the user identification.

Specifically, the charging service identifier carried in the service signaling is read, the user identifier associated with the charging service identifier is inquired, and then the payment processing is performed on the charging payment order based on the payment account associated with the user identifier.

In addition, in the process of performing payment processing on the charging payment order based on the service signaling, the payment processing can be performed on the charging payment order based on a payment account associated with the user identifier carried in the service signaling.

Further, in order to enable the charging platform to timely sense the payment processing process, in an optional implementation manner provided by this embodiment, in the process of performing payment processing on the charging payment order based on the payment account associated with the user identifier, the following operations are performed:

sending a resource transfer request carrying a payment account identifier, the payment amount recorded in the charging payment order and a collection account identifier to a payment mechanism corresponding to the payment account;

synchronizing a payment result to the charging platform based on the sending of the resource transfer request;

and if the transfer success result sent by the payment mechanism is detected, carrying out asynchronous notification of the transfer success result on the charging platform.

Specifically, because there may be a delay in the process of transferring the resource, if the result of the synchronous payment to the charging platform is not timely sent, the charging platform may not trust the payment process, so that after the server sends the resource transfer request to the payment mechanism corresponding to the payment account, the server sends the resource transfer request to the charging platform based on the resource transfer request to synchronously pay the result, so that the charging platform senses the payment process, and if the transfer success result sent by the payment mechanism is detected, the charging platform is asynchronously notified.

If the transfer success result sent by the payment mechanism is received within the preset time period after the resource transfer request is sent to the payment mechanism, the payment result does not need to be synchronized, and the transfer success result is only sent to the charging platform.

In addition to sending the payment result and the transfer success result to the charging platform, as the resource transfer is to transfer the resource in the user account to the collection account corresponding to the collection account identifier, after the transfer success result sent by the payment mechanism is detected, a payment result prompt is sent to the user terminal associated with the vehicle based on the transfer success result; the payment result reminder carries an access link for vehicle service and/or charging service; and if the fact that the user terminal submits the access request aiming at the access link of the vehicle service is detected, sending a service access request to a vehicle service platform corresponding to the vehicle, so that the user terminal can carry out access jump of the vehicle service.

It should be noted that the service information displayed in the access jump process of the vehicle service or the charging service may be configured according to an actual application scenario, which is not described herein again in this embodiment.

In specific implementation, in order to further improve the perception degree of the charging service, the charging service can be closed. In an optional implementation manner provided by the present embodiment, the charging service of the vehicle is turned off in the following manner:

reading a vehicle identification identifier of the vehicle and synchronizing the vehicle identification identifier to a vehicle service platform corresponding to the vehicle according to a service closing request submitted by the user terminal associated with the vehicle;

the vehicle service platform conducts identification verification on the vehicle identification mark, closes the charging service of the vehicle after passing the verification, and synchronously closes reminding to the vehicle terminal;

and the vehicle-mounted terminal performs service closing marking processing based on the service closing reminding.

Further, in order to avoid that the user closes the charging service in the charging process so as not to pay for charging payment, in an optional implementation manner provided by this embodiment, after the service closing request is obtained, it is verified whether the vehicle is in the charging state according to the service closing request; if not, executing the vehicle identification reading of the vehicle and synchronous operation to a vehicle service platform corresponding to the vehicle; and if so, sending a closing failure prompt to the user terminal. That is, if the vehicle is in a charging state, the charging service cannot be turned off.

In the process of checking whether the vehicle is in the charging state, checking whether the equipment state of the charging equipment establishing charging connection with the vehicle is in the charging state, and if so, determining that the vehicle is in the charging state; if not, determining that the vehicle is not in the charging state.

Specifically, as shown in fig. 3, the process of turning off the charging service of the vehicle includes steps S302 to S312.

Step S302, the server obtains a service closing request submitted by the user terminal associated with the vehicle.

Step S304, checking whether the charging equipment establishing charging connection with the vehicle is in a charging state or not according to the service closing request;

if so, sending a closing failure prompt to the user terminal;

if not, go to step S306 to step S312.

And step S306, reading the vehicle identification mark of the vehicle and synchronizing the vehicle identification mark to the vehicle service platform corresponding to the vehicle.

And S308, the vehicle service platform conducts identification verification on the vehicle identification mark and closes the charging service of the vehicle after the vehicle identification mark passes the verification.

And step S310, the vehicle service platform synchronizes the closing result to the server and synchronizes the service closing prompt to the vehicle terminal.

Step S312, the vehicle-mounted terminal processes the service closing mark based on the service closing prompt.

Taking an application of the vehicle charging processing method provided in this embodiment in a charging service scenario as an example, the vehicle charging processing method provided in this embodiment is further described with reference to fig. 4 and 5, and the vehicle charging processing method applied in the charging service scenario specifically includes the following steps.

And after detecting that the charging connection is established with the vehicle, the charging equipment sends a signaling acquisition request to a vehicle terminal of the vehicle based on the charging connection.

And the vehicle-mounted terminal generates a service signaling containing the stored charging service identifier based on the signaling acquisition request and sends the service signaling to the charging equipment.

Optionally, after acquiring the signaling acquisition request, the vehicle-mounted terminal firstly queries whether a service start mark exists; if yes, reading the stored charging service identification; and checking whether the validity period of the identifier of the charging service identifier expires, and if not, generating a service signaling containing the stored charging service identifier and sending the service signaling to the charging equipment.

And if the service opening mark does not exist or the service closing mark exists or the validity period of the mark expires, generating an invalid prompt and sending the invalid prompt to the charging equipment.

And the charging equipment sends the equipment identifier and the service signaling sent by the vehicle-mounted terminal to the charging platform. And the charging platform verifies that the charging equipment opens the charging service based on the equipment identification, and then synchronizes a service signaling to the server.

Step S508, performing signaling verification on the service signaling.

Step S510, if the verification is passed, synchronously verifying the passed verification result to the charging platform.

And the charging platform issues a discharging instruction to the charging equipment based on the verification result. And the charging equipment sends the charging state to the charging platform according to a preset period. The charging platform synchronizes the charging state to the server, and the server generates a charging state prompt based on the charging state and sends the charging state prompt to the user terminal associated with the vehicle.

Optionally, the charge status alert carries an access link for the charging service and/or the vehicle service.

And the charging equipment sends a charging end prompt to the charging platform under the condition of detecting that the charging connection with the vehicle is disconnected. The charging platform generates a charging payment order for the vehicle based on the charging end reminder. And the charging platform sends the charging payment order and the service signaling to the server.

Step S524, performing payment processing on the charging payment order based on the service signaling.

And step S526, sending the payment result to the charging platform, generating a payment result prompt and sending the payment result prompt to the user terminal associated with the vehicle.

Optionally, the payment result reminder carries an access link for charging services and/or vehicle services.

In summary, the vehicle charging processing method provided in this embodiment charges and pays the vehicle based on the service signaling; specifically, a description of three phases of a charging service, such as a plug-and-play service, is included.

The first stage is a stage of opening the charging service, in the process of opening the charging service, in order to ensure the data safety of a user, after the user registers a vehicle, a service opening instruction for the charging service is submitted through a third-party service corresponding to a server on a user terminal, after the server receives the service opening instruction, a vehicle identification mark is firstly read in vehicle information recorded in the vehicle registration process, the vehicle identification mark is synchronized to a vehicle service platform, after the vehicle service platform verifies that the vehicle identification mark is effective, the charging service of the vehicle is opened, and a result is synchronously opened to the server. The server generates a charging service identifier of the vehicle and determines the identifier validity period of the charging service identifier based on the opening result and based on the user identifier, the current time and the preset key value; and synchronizing the charging service identifier and the identifier validity period to a vehicle service platform, sending the charging service identifier and the charging validity period to the vehicle terminal by the vehicle service platform, and storing the charging service identifier and the charging validity period by the vehicle terminal.

The second stage is the use stage of the charging service, and in the use stage of the charging service, the server and the charging system perform data interaction to complete charging of the vehicle and payment of charges generated by charging. Specifically, after detecting that physical connection is established with a vehicle, a charging device sends a signaling acquisition request to a vehicle-machine terminal of the vehicle, the vehicle-machine terminal generates a service signaling containing a stored charging service identifier and sends the service signaling to the charging device, the charging device sends the service signaling to a charging platform, and the charging platform forwards the service signaling to a server; after receiving the service signaling, the server performs signaling verification on the service signaling, and synchronizes a verification result to the charging platform after the signaling verification is passed; the charging platform issues a discharging instruction to the charging equipment based on the verification result, and the charging equipment discharges based on the discharging instruction so as to charge the vehicle; the charging equipment sends a charging end prompt to the charging platform when detecting that the physical connection with the vehicle is disconnected or the electric quantity of the vehicle reaches an electric quantity threshold value (full electricity), the charging platform generates a charging payment order for charging the vehicle at the time based on the charging end prompt, the charging payment order and the service signaling are synchronized to the server, and the server carries out payment processing on the charging payment order based on the service signaling after receiving the charging payment order and the service signaling.

The third stage is a service closing stage, the service closing stage is similar to the service opening stage, after receiving a service closing instruction, the server firstly reads the vehicle identification identifier in the vehicle information recorded in the vehicle registration process, synchronizes the vehicle identification identifier to the vehicle service platform, after verifying that the vehicle identification identifier is effective, the vehicle service platform closes the charging service of the vehicle, synchronously closes a result to the server, and sends a closing result to the vehicle terminal.

It should be noted that the service usage must be performed after the service is opened, but the three stages are not limited in the execution process.

The second embodiment of the vehicle charging processing method provided by the specification:

the vehicle charging processing method provided by this embodiment is applied to a charging system, the first vehicle charging processing method provided by this embodiment is applied to a server, and the vehicle charging processing method provided by this embodiment is matched with the first vehicle charging processing method provided by this embodiment and applied to the server in the execution process, so please refer to the first vehicle charging processing method provided by this embodiment.

Referring to fig. 6, the vehicle charging processing method provided in this embodiment is applied to a charging system, and specifically includes steps S602 to S608.

Step S602, after it is detected that a charging connection is established with a vehicle, a charging device sends a signaling acquisition request to a vehicle terminal of the vehicle.

The charging system comprises a charging device and a charging platform.

In specific implementation, charging authority and payment processing is carried out based on a service signaling, and a user (an owner of a vehicle) needs to open a charging service; after the charging service is opened for the vehicle, the server generates a charging service identifier of the vehicle based on the opening of the charging service, and sends the charging service identifier to the vehicle terminal through the vehicle service platform, so that the vehicle terminal generates a service signaling based on the charging service identifier, and further performs charging application and payment processing according to the service signaling. The charging service comprises a plug-and-play charging service; in this embodiment, the charging service is opened in the following manner:

according to a service opening request submitted by the user terminal associated with the vehicle, reading a vehicle identification mark of the vehicle and synchronizing the vehicle identification mark to a vehicle service platform corresponding to the vehicle;

generating a charging service identifier of the vehicle and determining the validity period of the identifier according to a verification result that the vehicle identification identifier synchronized by the vehicle service platform passes the verification;

synchronizing the charging service identification and the identification expiration date to the vehicle service platform; and the vehicle service platform stores the charging service identifier and the identifier validity period and synchronizes the charging service identifier and the identifier validity period to the vehicle terminal.

Further, after the car machine terminal receives the charging service identifier and the identifier validity period, the following operations are executed:

storing the charging service identifier and the identifier validity period and carrying out service opening marking processing;

correspondingly, the service signaling is generated based on the instruction parameter under the condition that a service opening mark exists.

Specifically, the user applies for service provisioning of the charging service for the vehicle through the user terminal, and specifically performs the following operation to provision the charging service for the vehicle.

(1) The server obtains a service opening request submitted by the user terminal associated with the vehicle, reads the vehicle identification mark in the vehicle information submitted during vehicle registration and synchronizes the vehicle identification mark with the vehicle service platform corresponding to the vehicle.

The vehicle identification mark comprises a mark representing the uniqueness of the vehicle; such as Vehicle Identification Number (VIN), number plate.

(2) And the vehicle service platform performs identification verification on the vehicle identification mark.

The identification verification comprises verifying whether the vehicle identification is a real identification issued by the vehicle service platform; if yes, determining that the verification is passed; if not, determining that the verification fails, and returning a verification result that the verification fails to pass to the server; and the server sends a starting failure prompt to the user terminal based on the verification result that the verification fails.

For example, since the vehicle VIN number is generated by the vehicle service platform, during the process of performing the identification check, the vehicle service platform checks whether the vehicle identification sent by the server is the vehicle identification generated by the vehicle service platform.

(3) And if the verification is passed, the vehicle service platform opens the charging service of the vehicle and synchronously opens the result to the server.

(4) And after receiving the opening result, the server generates a charging service identifier of the vehicle and determines the validity period of the identifier.

In specific implementation, the generated charging service identifier is subsequently used by the vehicle-mounted terminal to generate a service signaling based on the charging service identifier, and charging and payment are performed based on the service signaling, so as to ensure the security of the charging service identifier, in an optional implementation manner provided in this embodiment, the charging service identifier is generated in the following manner:

inputting the user identification of the user to which the vehicle belongs into an identification generation algorithm to perform identification generation processing, and outputting a charging service identification associated with the user identification;

alternatively, the first and second electrodes may be,

and calling a random generation algorithm to generate the charging service identification and establishing an association relation between the charging service identification and the user identification.

Specifically, in the process of performing identifier generation processing, the identifier generation algorithm may generate a charging service identifier based on the generation time, the user identifier and the key value, and establish an association relationship between the charging service identifier and the user identifier; in addition, the identifier generation algorithm can also generate an identifier valid period according to the generation time and a preset time interval, and output the identifier valid period and the charging service identifier together; or after the server acquires the charging service identifier output by the identifier generation algorithm, determining the validity period of the identifier based on the generation time and the preset time interval.

Or, a random identifier may be generated based on a random generation algorithm, an association relationship between the random identifier and the user identifier is established, the random identifier is determined as a charging service identifier of a vehicle registered by the user based on the establishment of the association relationship, and an identifier validity period is determined based on the generation time and the preset time interval.

The above description of the process of generating the charging service identifier is merely exemplary, and other ways may also be used to generate the charging service identifier associated with the user identifier, which is not limited herein.

(5) The server synchronizes the charging service identification and the identification validity period to the vehicle service platform, and the vehicle service platform stores the charging service identification and the identification validity period.

In order to improve the perception degree of the server on the storage of the charging service identification and the identification validity period by the vehicle service platform, the vehicle service platform stores the charging service identification and the identification validity period and then synchronously stores the result to the server.

(6) And the vehicle service platform sends the charging service identification and the identification validity period to the vehicle terminal, and the vehicle terminal stores the charging service identification and the identification validity period. And the vehicle-mounted terminal performs service opening mark processing to obtain a service opening mark.

In order to further improve the perception degree of the server and the user on the vehicle terminal storage charging service identification and the identification validity period, the vehicle service platform sends the asynchronous storage result to the server after sending the charging service identification and the validity identification period to the vehicle terminal; and the server sends an identifier sending prompt to the user terminal after receiving the asynchronous storage result.

The above-mentioned identifier validity period is provided to restrict the use of the charging service identifier by identifying the validity period, and if the charging service identifier has exceeded the identifier validity period, the charging service identifier is updated to ensure the safety of the charging service identifier. In an optional implementation manner provided by this embodiment, the charging service identifier is updated in the following manner:

if the condition for updating the charging service identifier is triggered, updating the charging service identifier;

synchronizing the updated charging service identifier and the identifier validity period obtained by updating processing to the vehicle service platform for storage;

alternatively, the first and second electrodes may be,

if the updating condition is triggered, updating the validity period of the identifier of the charging service identifier, and synchronizing the validity period of the identifier after the updating of the validity period and the charging service identifier to the vehicle service platform;

wherein the update condition includes: the identifier validity period of the charging service identifier expires. In addition, the updating condition further includes acquiring an identifier updating request submitted by the user terminal.

Specifically, if the validity period of the charging service identifier expires, the charging service identifier may be regenerated, or only the identifier validity period of the charging service identifier may be updated; in order to improve the perception degree of the vehicle service platform and the vehicle terminal on the updated charging service identifier and the identifier validity period and avoid the vehicle terminal from generating a service signaling based on the invalid charging service identifier, after the charging service identifier or the identifier validity period is updated, the updated charging service identifier and the updated identifier validity period are synchronized to the vehicle service platform, and the vehicle service platform stores and sends the updated charging service identifier and the updated identifier validity period to the vehicle terminal; or, synchronizing the charging service identifier and the updated identifier validity period to a vehicle service platform, and storing and sending the vehicle service platform to the vehicle terminal.

In addition, in this embodiment, the validity period of the flag may not be set.

Step S604, the charging platform synchronizes the service signaling sent by the vehicle terminal and received by the charging device to a server.

The service signaling is generated based on signaling parameters containing charging service identification; in this embodiment, the service signaling is generated by the vehicle terminal of the vehicle based on the signaling parameter including the charging service identifier after the vehicle establishes the charging connection with the charging device; the charging service identification is generated by the server after the vehicle identification is subjected to identification verification on the vehicle service platform, and comprises an identification for representing that the vehicle opens the charging service. The vehicle service platform comprises a platform corresponding to a vehicle provider of the vehicle. And after the charging service identifier is generated, the charging service identifier is issued to a vehicle terminal of the vehicle, and the vehicle terminal generates a service signaling based on the signaling parameter containing the charging service identifier when the vehicle is charged. The service signaling is used for verifying the charging authority of the vehicle and paying the charge generated by charging the vehicle in the charging process of the vehicle; such as a service token. Specifically, the service signaling is generated by the vehicle-mounted terminal, and after the charging device establishes charging connection with the vehicle, the vehicle-mounted terminal sends the generated service signaling to the charging device, and the service signaling is forwarded to the server by the charging device through the charging platform; the server comprises a third-party server; for example, a server corresponding to a third party payment service. The signaling parameter refers to a parameter used by the vehicle terminal in a process of generating a service signaling; the charging service identification and/or the signaling generation time are/is included.

In specific implementation, the vehicle is charged at the charging device, the charging device sends a signaling acquisition request to a vehicle terminal of the vehicle after detecting the charging connection with the vehicle, that is, the physical connection with the vehicle, and the vehicle terminal generates a service signaling based on a signaling parameter including the stored charging service identifier after receiving the signaling acquisition request. The charging equipment comprises a charging gun and a charging pile connected with the charging gun; and if the charging gun is inserted into the vehicle, determining that the charging equipment is in charging connection with the vehicle.

Optionally, the car-in-car terminal generates the service signaling in the following manner:

determining signaling failure time according to request time and a preset time interval of a signaling acquisition request sent by the charging equipment based on the charging connection;

and generating service signaling containing the user identification of the user to which the vehicle belongs, the signaling failure time, the charging service identification and/or the signaling generation time.

Specifically, after detecting that charging connection is established with a vehicle, the charging device sends a signaling acquisition request to a vehicle terminal of the vehicle; in order to improve charging efficiency, the vehicle-mounted terminal reads a stored charging service identifier according to a signaling acquisition request, determines signaling failure time according to request time of the signaling acquisition request and a preset time interval, reads a user identifier of a logged-in vehicle-mounted terminal, and generates a service signaling containing the user identifier, the signaling failure time, the charging service identifier and signaling generation time.

For example, after detecting that the charging gun is inserted into the vehicle, the charging pile sends a signaling acquisition request to a vehicle terminal of the vehicle through physical connection between the charging gun and the vehicle, and after receiving the signaling acquisition request, the vehicle terminal reads a stored charging service identifier and a user identifier logged in the vehicle terminal, determines signaling expiration time based on current time and a preset expiration date x hours, and generates a service token by using the charging service identifier, the user identifier, the current time and the signaling expiration time as fields.

In order to avoid that a service signaling is generated to send further charging based on the service signaling to the charging device when the vehicle closes the charging service or the charging service identifier fails, but after the charging is finished, the server cannot pay based on the service signaling, so that the server cannot pay after the charging, and resource loss of a charging provider is caused, in this embodiment, the in-vehicle terminal performs the following operations after receiving the signaling acquisition request:

inquiring whether a service opening mark exists;

if not, an invalid prompt is sent to the charging equipment;

if yes, reading the stored charging service identification and the identification validity period;

verifying whether the validity period of the identifier expires; if so, sending an invalid prompt to the charging equipment; if not, generating service signaling based on the signaling parameters.

It should be noted that, in the process of generating the service signaling, the service signaling that only includes one or more of the charging service identifier, the signaling expiration time, the user identifier, and the signaling generation time may also be generated; the charging service identifier is a necessary option, and may only include the charging service identifier, or may include at least one of the charging service identifier and other identifiers, which is not limited herein.

In order to improve the safety of the generated service signaling and avoid resource loss of a user due to service signaling leakage caused by not effectively storing the service signaling; the service signaling has timeliness, the user can configure the use authority of the service signaling at the client corresponding to the server, and if the service signaling is configured to be in a failure state, payment can not be carried out based on the service signaling. Optionally, the service signaling includes a character string with a format definition, and is composed of a user identifier, a signaling expiration time, a charging service identifier, and/or a signaling generation time, and in a case that the service signaling is composed of the user identifier, the signaling expiration time, the charging service identifier, and the signaling generation time, the user identifier is plaintext data and is used to associate with a payment account of the user; the charging service identification is an identification which is generated by the server after the user opens the charging service and is associated with the user and the vehicle; and the vehicle-mounted terminal encrypts and generates a ciphertext block according to the charging service identifier, the signaling generation time and the signaling failure time, and takes the user identifier and the ciphertext block as a service signaling. The encryption process may be performed by the vehicle machine according to the configured key, and this embodiment is not limited herein. The above description of the service signaling is only exemplary, and the service signaling may also be in other forms, which is also not limited herein.

In a specific implementation, after the vehicle-mounted terminal generates the service signaling, the service signaling is sent to the charging device based on the charging connection, and the charging device sends the service signaling and the device identifier to the charging platform; if yes, the charging platform synchronizes the service signaling sent by the charging equipment to the server, and if not, a service non-opening prompt is sent to the charging equipment, and the charging equipment displays the service non-opening prompt.

And after receiving the service signaling of the vehicle with the synchronous charging platform, the server performs signaling verification. In order to ensure the validity of the service signaling, in this embodiment, the signaling verification includes:

verifying whether the charging service identification carried in the service signaling is a charging service identification associated with the user identification of the user to which the vehicle belongs and whether the signaling failure time is reached;

if yes, determining that the verification is passed; if not, determining that the verification fails, and sending a verification failure prompt to a user terminal and/or a charging platform associated with the vehicle; the charging platform sends verification failure reminding to the charging equipment, and the charging equipment displays the verification failure reminding.

According to the above example, after the vehicle terminal generates the service token, the service token is sent to the charging pile based on physical connection with the charging gun, the charging pile sends the service token and the charging pile identification to the charging platform, and after the charging platform receives the service token and the charging pile identification, whether the charging pile identification is recorded in the service opening list is checked; if yes, synchronizing a service token to the server; if not, sending a service non-opening prompt to the charging pile, and displaying the service non-opening prompt by the charging pile; after receiving the service token, the server reads the charging service identifier and the user identifier in the service token, verifies whether the charging service identifier has an association relation with the user identifier, and verifies whether the signaling failure time in the service token is reached; if yes, determining that the verification is passed; if not, determining that the verification fails.

Optionally, after receiving the verification failure prompt, the user terminal submits an identifier update request for the charging service identifier, and the server performs update processing based on the identifier update request, where a specific update processing process is similar to the update processing process triggered by the update condition, and details of this embodiment are not repeated here.

And step S606, the charging platform carries out discharge processing according to the verification result that the server passes the synchronous verification.

During specific implementation, the server synchronously checks the passed checking result to the charging platform, and the charging platform performs discharge processing according to the synchronous checked checking result of the server. Specifically, in the process of discharging processing performed by the charging platform, the charging platform sends a discharging instruction to the charging device, and the charging device performs a discharging operation to charge the vehicle.

In order to effectively manage the charging process, in an optional implementation manner provided in this embodiment, the charging device sends the device state of the charging device to the charging platform according to a preset cycle; and if the equipment state is a charging state, the charging platform synchronizes the charging state with the server. In an optional implementation manner provided by this embodiment, if the server obtains the charging state of the charging device synchronized with the charging system, the server sends a charging state reminder to the user terminal associated with the vehicle according to the charging state of the charging device synchronized with the charging platform; wherein the charge status alert carries an access link for vehicle services and/or charging services.

Continuing to use the above example, under the condition that the verification is passed, the server synchronously verifies the passed verification result to the charging platform, the charging platform sends a discharging instruction to the charging pile after receiving the verification result, and the charging pile discharges based on the discharging instruction; in the discharging process, the charging pile sends a charging state to the charging platform every m minutes, the charging platform synchronizes the charging state to the server after receiving the charging state, the server reads URLs (uniform resource locators) of the charging service and the vehicle service according to the charging state, generates a charging state prompt containing the charging state, the URLs of the charging service and the URLs of the vehicle service, and sends the charging state prompt to a user terminal associated with the vehicle. In this embodiment, the user terminal associated with the vehicle is a user terminal of an owner of the vehicle.

And if the server detects that the user terminal submits an access request aiming at the access link of the vehicle service, the server sends a service access request to a vehicle service platform corresponding to the vehicle so as to perform access skip of the vehicle service at the user terminal, specifically, after the vehicle service platform receives the service access request, the vehicle service platform reads vehicle service data from the vehicle, renders a service page of the vehicle service based on the vehicle information and the vehicle service data, and sends the service page to the user terminal so as to realize the access skip of the vehicle service.

In addition, if the server detects that the user terminal submits an access request aiming at an access link of the vehicle service, the server sends a data acquisition request to the charging platform, the charging platform determines charging data of the vehicle based on the data acquisition request and sends the charging data to the server, and the server renders a service page of the vehicle service based on the charging data and the vehicle data and sends the service page to the user terminal so as to realize access skip of the vehicle service. In the process of determining the charging data of the vehicle, the charging platform can read the current charging data of the vehicle from the vehicle through the charging connection between the charging equipment and the vehicle, and can also predict the current charging data of the vehicle based on the discharging time.

And if the server detects that the user terminal submits an access request aiming at the access link of the charging service, the server sends a service access request to the charging platform so as to carry out access skip of the charging service at the user terminal. Specifically, after receiving the service access request, the charging platform determines charging data of the vehicle, renders a service page of the charging service based on the charging data, and sends the service page to the user terminal, so as to implement access skip of the charging service.

Step S608, if it is detected that the charging connection is disconnected, the charging platform generates a charging payment order of the vehicle, and synchronizes the charging payment order and the service signaling to the server.

During specific implementation, if the charging device detects that the charging connection with the vehicle is disconnected, charging end information is sent to the charging platform, the charging platform determines the charging cost of the vehicle based on a preset price and/or charging time, generates a charging payment order of the vehicle based on the charging cost and the charging information, synchronizes the charging payment order and a service signaling to a server, and if the server detects the charging payment order and the service signaling synchronized with the charging platform, the server performs payment processing on the charging payment order based on the service signaling. The charging information includes information that the charging platform needs to use in the process of generating the charging payment order, for example, charging time, charging unit price, and the like, which is not limited herein.

In addition, step S608 may be replaced by generating a charging payment order of the vehicle and synchronizing the charging payment order and the service signaling to the server if the charging platform detects that the device state sent by the charging device is an idle state. Wherein the idle state is an uncharged state.

In this embodiment, the performing payment processing on the charging payment order based on the service signaling includes:

determining a user identifier associated with the charging service identifier carried in the service signaling;

and performing payment processing on the charging payment order based on the payment account associated with the user identification.

Specifically, a charging service identifier carried in the service signaling is read, a user identifier associated with the charging service identifier is inquired, and then payment processing is performed on the charging payment order based on a payment account associated with the user identifier.

In addition, in the process of performing payment processing on the charging payment order based on the service signaling, the payment processing can be performed on the charging payment order based on a payment account associated with the user identifier carried in the service signaling.

Further, in order to enable the charging platform to timely sense the payment processing process, in this embodiment, in the process of performing payment processing on the charging payment order based on the payment account associated with the user identifier, the following operations are performed:

sending a resource transfer request carrying a payment account identifier, the payment amount recorded in the charging payment order and a collection account identifier to a payment mechanism corresponding to the payment account;

synchronizing payment results to the charging platform based on the sending of the resource transfer request;

and if the transfer success result sent by the payment mechanism is detected, carrying out asynchronous notification of the transfer success result on the charging platform.

Specifically, because there may be a delay in the process of transferring the resource, if the synchronous payment result to the charging platform is not timely, the charging platform may cause distrust of the charging platform in the payment process, and therefore, after the server sends the resource transfer request to the payment mechanism corresponding to the payment account, the server sends the synchronous payment result to the charging platform based on the resource transfer request, so that the charging platform senses the payment process, and if the successful transfer result sent by the payment mechanism is detected, the server performs asynchronous notification on the charging platform.

If the transfer success result sent by the payment mechanism is received in the preset time period after the resource transfer request is sent to the payment mechanism, the payment result does not need to be synchronized, and the transfer success result is only sent to the charging platform.

In addition to sending the payment result and the transfer success result to the charging platform, since the resource transfer is to transfer the resource in the user account to the collection account corresponding to the collection account identifier, after the transfer success result sent by the payment mechanism is detected, a payment result reminder is sent to the user terminal associated with the vehicle based on the transfer success result; the payment result reminder carries an access link for vehicle services and/or charging services; and if the fact that the user terminal submits the access request aiming at the access link of the vehicle service is detected, sending a service access request to a vehicle service platform corresponding to the vehicle, so that the user terminal can carry out access jump of the vehicle service.

It should be noted that the service information displayed in the access jump process of the vehicle service or the charging service may be configured according to an actual application scenario, which is not described herein again in this embodiment.

In specific implementation, in order to further improve the perception degree of the charging service, the charging service can be closed. In this embodiment, the charging service of the vehicle is closed in the following manner:

according to a service closing request submitted by the user terminal associated with the vehicle, reading a vehicle identification mark of the vehicle and synchronizing the vehicle identification mark to a vehicle service platform corresponding to the vehicle;

the vehicle service platform conducts identification verification on the vehicle identification mark, closes the charging service of the vehicle after passing the verification, and synchronously closes reminding to the vehicle terminal;

and the vehicle-mounted terminal performs service closing marking processing based on the service closing reminding.

Further, in order to avoid that the user closes the charging service in the charging process so as not to pay for charging payment, in this embodiment, after the service closing request is obtained, whether the vehicle is in the charging state is verified according to the service closing request; if not, the vehicle identification mark of the vehicle is read and the vehicle service platform corresponding to the vehicle is synchronously operated; and if so, sending a closing failure prompt to the user terminal. That is, if the vehicle is in a charging state, the charging service cannot be turned off.

In the process of checking whether the vehicle is in the charging state, checking whether the equipment state of the charging equipment establishing charging connection with the vehicle is in the charging state, and if so, determining that the vehicle is in the charging state; if not, determining that the vehicle is not in the charging state.

Specifically, in the process of closing the charging service of the vehicle, the server obtains a service closing request submitted by a user terminal associated with the vehicle. Verifying whether a charging device establishing a charging connection with a vehicle is in a charging state according to a service closing request; if so, sending a closing failure prompt to the user terminal; and if not, reading the vehicle identification mark of the vehicle and synchronizing the vehicle identification mark to a vehicle service platform corresponding to the vehicle. And the vehicle service platform performs identification verification on the vehicle identification mark and closes the charging service of the vehicle after the verification is passed. And the vehicle service platform synchronously closes the result to the server and synchronously closes the service closing prompt to the vehicle terminal. And the vehicle-mounted terminal performs service closing marking processing based on the service closing reminding.

The following takes an application of the vehicle charging processing method provided in this embodiment in a charging service scenario as an example, and further describes the vehicle charging processing method provided in this embodiment, referring to fig. 5, the vehicle charging processing method applied in the charging service scenario specifically includes the following steps.

Step S502, after detecting that the charging connection is established with the vehicle, the charging device sends a signaling acquisition request to a vehicle terminal of the vehicle based on the charging connection.

And the vehicle-mounted terminal generates a service signaling containing the stored charging service identifier based on the signaling acquisition request and sends the service signaling to the charging equipment.

Optionally, after acquiring the signaling acquisition request, the in-vehicle terminal firstly queries whether a service start flag exists; if yes, reading the stored charging service identification; and checking whether the validity period of the identifier of the charging service identifier expires, and if not, generating a service signaling containing the stored charging service identifier and sending the service signaling to the charging equipment.

And if the service opening mark does not exist or the service closing mark exists or the validity period of the identifier expires, generating an invalid prompt and sending the invalid prompt to the charging equipment.

Step S504, the charging equipment sends the equipment identification and the service signaling sent by the vehicle-mounted terminal to the charging platform.

Step S506, after verifying that the charging device opens the charging service based on the device identifier, the charging platform synchronizes a service signaling to the server.

The server checks the service signaling; and if the verification is passed, synchronously verifying the passed verification result to the charging platform.

Step S512, the charging platform issues a discharging instruction to the charging equipment based on the verification result.

In step S514, the charging device sends the charging status to the charging platform according to a preset period.

Step S516, the charging platform synchronizes the charging state to the server, and the server generates a charging state prompt based on the charging state and sends the charging state prompt to the user terminal associated with the vehicle.

Optionally, the charge status alert carries an access link for charging services and/or vehicle services.

In step S518, the charging device sends a charging end prompt to the charging platform when detecting that the charging connection with the vehicle is disconnected.

In step S520, the charging platform generates a charging payment order for the vehicle.

In step S522, the charging platform sends the charging payment order and the service signaling to the server.

The server carries out payment processing on the charging payment order based on the service signaling; and the server sends the payment result to the charging platform, generates a payment result prompt and sends the payment result prompt to the user terminal associated with the vehicle.

Optionally, the payment result reminder carries an access link for charging services and/or vehicle services.

The third embodiment of the vehicle charging processing method provided by the specification:

in the vehicle charging processing method provided by the present embodiment, similar to the processing procedure of the first vehicle charging processing method, please refer to the processing procedure of the first vehicle charging processing method; in contrast, in the first vehicle charging processing method, the charging device and the server perform data transmission via the charging platform, but in this embodiment, the charging device and the server perform data transmission directly without the charging platform.

Referring to fig. 7, the vehicle charging processing method provided in this embodiment is applied to a server, and specifically includes steps S702 to S706.

Step S702, obtaining the service signaling of the vehicle synchronized with the charging device, and performing signaling verification.

The service signaling is generated by a vehicle terminal of the vehicle based on a signaling parameter containing a charging service identifier after the vehicle establishes charging connection with charging equipment;

and step S704, synchronizing the verification result of the verification passing to the charging equipment under the condition of passing the verification.

Step S706, if the charging payment order and the service signaling synchronized with the charging device are detected, performing payment processing on the charging payment order based on the service signaling.

A fourth embodiment of a vehicle charging processing method provided in this specification:

the vehicle charging processing method provided by this embodiment is applied to a charging device, the third vehicle charging processing method provided above is applied to a server, and the vehicle charging processing method provided by this embodiment is matched with the third vehicle charging processing method provided above and applied to a server in the execution process, please refer to the third vehicle charging processing method provided above in this embodiment.

Referring to fig. 8, the vehicle charging processing method provided in this embodiment is applied to a charging device, and specifically includes steps S802 to S808.

Step S802, after the charging connection with the vehicle is detected, a signaling acquisition request is sent to the vehicle terminal of the vehicle.

And step S804, synchronizing the service signaling sent by the vehicle-machine terminal to a server.

The service signaling is generated based on signaling parameters including a charging service identification.

And step 806, performing discharge processing according to the verification result of the server synchronous verification passing.

Step S808, if the charging connection is detected to be disconnected, generating a charging payment order of the vehicle, and synchronizing the charging payment order and the service signaling to the server.

The embodiment of a vehicle charging processing device provided by the specification is as follows:

in the above embodiments, a vehicle charging processing method applied to a server is provided, and correspondingly, a vehicle charging processing device operating on the server is also provided, which is described below with reference to the accompanying drawings.

Referring to fig. 9, a schematic diagram of a vehicle charging processing device provided in this embodiment is shown.

Since the apparatus embodiments correspond to the method embodiments, the description is relatively simple, and reference may be made to the corresponding description of the method embodiments provided above for relevant portions. The device embodiments described below are merely illustrative.

The present embodiment provides a vehicle charge processing apparatus including:

the signaling verification module 902 is configured to acquire a service signaling of the vehicle synchronized with the charging platform and perform signaling verification; the service signaling is generated by a vehicle terminal of the vehicle based on a signaling parameter containing a charging service identifier after the vehicle establishes charging connection with charging equipment;

in the case of passing the verification, running a verification result synchronization module 904, the verification result synchronization module 904 configured to synchronize the verification result of passing the verification to the charging platform;

if the charging payment order and the service signaling synchronized with the charging platform are detected, a payment processing module 906 is operated, and the payment processing module 906 is configured to perform payment processing on the charging payment order based on the service signaling.

Another embodiment of a vehicle charging processing apparatus provided in this specification is as follows:

in the above embodiments, a vehicle charging processing method applied to a charging system is provided, and correspondingly, a vehicle charging processing device operating in the charging system is also provided, which is described below with reference to the accompanying drawings.

Referring to fig. 10, a schematic diagram of a vehicle charging processing device provided in this embodiment is shown.

Since the apparatus embodiments correspond to the method embodiments, the description is relatively simple, and reference may be made to the corresponding description of the method embodiments provided above for relevant portions. The device embodiments described below are merely illustrative.

The present embodiment provides a vehicle charge processing device including:

after the charging connection with the vehicle is detected, operating a request sending module 1002, where the request sending module 1002 is configured to send a signaling obtaining request to a vehicle terminal of the vehicle by a charging device;

a signaling synchronization module 1004 configured to synchronize, by the charging platform, the service signaling sent by the vehicle-mounted terminal and received by the charging device to a server; the service signaling is generated based on signaling parameters containing charging service identification;

a discharging processing module 1006, configured to perform discharging processing by the charging platform according to a verification result that the server passes the verification in synchronization;

if the charging connection is detected to be disconnected, the order generation module 1008 is operated, and the order generation module 1008 is configured to be the charging platform, generate a charging payment order for the vehicle, and synchronize the charging payment order and the service signaling to the server.

The present specification provides a vehicle charge processing apparatus embodiment as follows:

in correspondence to the above-described vehicle charging processing method applied to the server, based on the same technical concept, one or more embodiments of the present specification further provide a vehicle charging processing apparatus for executing the above-provided vehicle charging processing method applied to the server, and fig. 11 is a schematic structural diagram of the vehicle charging processing apparatus provided in one or more embodiments of the present specification.

The present embodiment provides a vehicle charge processing apparatus including:

as shown in fig. 11, the vehicle charging processing device may have a relatively large difference due to different configurations or performances, and may include one or more processors 1101 and a memory 1102, where the memory 1102 may store one or more stored applications or data. Wherein memory 1102 may be transient or persistent. The application stored in memory 1102 may include one or more modules (not shown), each of which may include a series of computer-executable instructions in a vehicle charging processing device. Still further, processor 1101 may be configured to communicate with memory 1102 to execute a series of computer-executable instructions in memory 1102 on the vehicle charging processing device. The vehicle charging processing apparatus may also include one or more power supplies 1103, one or more wired or wireless network interfaces 1104, one or more input/output interfaces 1105, one or more keyboards 1106, and the like.

In a particular embodiment, a vehicle charging processing apparatus includes a memory, and one or more programs, wherein the one or more programs are stored in the memory, and the one or more programs may include one or more modules, and each module may include a series of computer-executable instructions for the vehicle charging processing apparatus, and execution of the one or more programs by one or more processors includes computer-executable instructions for:

acquiring service signaling of a vehicle synchronized with a charging platform, and performing signaling verification; the service signaling is generated by a vehicle terminal of the vehicle based on a signaling parameter containing a charging service identifier after the vehicle establishes charging connection with charging equipment;

under the condition of passing the verification, synchronously verifying the passed verification result to the charging platform;

and if the charging payment order and the service signaling synchronized with the charging platform are detected, performing payment processing on the charging payment order based on the service signaling.

Another embodiment of a vehicle charging processing apparatus provided in this specification is as follows:

in correspondence to the vehicle charge processing method applied to the charging system described above, based on the same technical concept, one or more embodiments of the present specification further provide a vehicle charge processing apparatus for executing the vehicle charge processing method applied to the charging system provided above, and fig. 12 is a schematic structural diagram of the vehicle charge processing apparatus provided in one or more embodiments of the present specification.

The present embodiment provides a vehicle charge processing apparatus including:

as shown in fig. 12, the vehicle charging processing device may have a relatively large difference due to different configurations or performances, and may include one or more processors 1201 and a memory 1202, where one or more stored applications or data may be stored in the memory 1202. Memory 1202 may be, among other things, transient storage or persistent storage. The application programs stored in memory 1202 may include one or more modules (not shown), each of which may include a series of computer-executable instructions in a vehicle charging processing device. Still further, processor 1201 may be configured to communicate with memory 1202 to execute a series of computer-executable instructions in memory 1202 on the vehicle charging processing device. The vehicle charging processing apparatus may also include one or more power supplies 1203, one or more wired or wireless network interfaces 1204, one or more input/output interfaces 1205, one or more keypads 1206, and the like.

In one particular embodiment, a vehicle charging processing apparatus includes a memory, and one or more programs, wherein the one or more programs are stored in the memory, and the one or more programs may include one or more modules, and each module may include a series of computer-executable instructions for the vehicle charging processing apparatus, and the one or more programs configured to be executed by the one or more processors include computer-executable instructions for:

after the charging connection with the vehicle is detected, the charging equipment sends a signaling acquisition request to a vehicle terminal of the vehicle;

the charging platform synchronizes a service signaling sent by the vehicle-mounted terminal and received by the charging equipment to a server; the service signaling is generated based on signaling parameters containing charging service identification;

the charging platform carries out discharge treatment according to the verification result of the server synchronous verification;

and if the charging connection is detected to be disconnected, the charging platform generates a charging payment order of the vehicle, and synchronizes the charging payment order and the service signaling to the server.

An embodiment of a storage medium provided in this specification is as follows:

on the basis of the same technical concept corresponding to the above-described vehicle charging processing method applied to the server, one or more embodiments of the present specification further provide a storage medium.

The storage medium provided in this embodiment is used to store computer-executable instructions, and when the computer-executable instructions are executed by the processor, the following processes are implemented:

acquiring service signaling of a vehicle synchronized with a charging platform, and performing signaling verification; the service signaling is generated by a vehicle terminal of the vehicle based on a signaling parameter containing a charging service identifier after the vehicle establishes charging connection with charging equipment;

under the condition of passing the verification, synchronously verifying the passed verification result to the charging platform;

and if the charging payment order and the service signaling which are synchronous with the charging platform are detected, performing payment processing on the charging payment order based on the service signaling.

It should be noted that the embodiment of the storage medium in this specification and the embodiment of the vehicle charging processing method in this specification are based on the same inventive concept, and therefore, for specific implementation of this embodiment, reference may be made to implementation of the foregoing corresponding method, and repeated descriptions are omitted.

Another storage medium embodiment provided in this specification is as follows:

corresponding to the vehicle charging processing method applied to the charging system described above, based on the same technical concept, one or more embodiments of the present specification further provide a storage medium.

The storage medium provided in this embodiment is used to store computer-executable instructions, and when the computer-executable instructions are executed by the processor, the following processes are implemented:

after the charging connection with the vehicle is detected, the charging equipment sends a signaling acquisition request to a vehicle terminal of the vehicle;

the charging platform synchronizes a service signaling sent by the vehicle-mounted terminal and received by the charging equipment to a server; the service signaling is generated based on a signaling parameter containing a charging service identifier;

the charging platform carries out discharge treatment according to the verification result of the server synchronous verification;

and if the charging connection is detected to be disconnected, the charging platform generates a charging payment order of the vehicle, and synchronizes the charging payment order and the service signaling to the server.

It should be noted that the embodiment related to the storage medium in this specification and the embodiment related to the vehicle charging processing method in this specification are based on the same inventive concept, and therefore, specific implementation of this embodiment may refer to implementation of the foregoing corresponding method, and repeated details are not repeated.

The foregoing description has been directed to specific embodiments of this disclosure. Other embodiments are within the scope of the following claims. In some cases, the actions or steps recited in the claims may be performed in a different order than in the embodiments and still achieve desirable results. In addition, the processes depicted in the accompanying figures do not necessarily require the particular order shown, or sequential order, to achieve desirable results. In some embodiments, multitasking and parallel processing may also be possible or may be advantageous.

In the 30 s of the 20 th century, improvements in a technology could clearly distinguish between improvements in hardware (e.g., improvements in circuit structures such as diodes, transistors, switches, etc.) and improvements in software (improvements in process flow). However, as technology advances, many of today's process flow improvements have been seen as direct improvements in hardware circuit architecture. Designers almost always obtain the corresponding hardware circuit structure by programming an improved method flow into the hardware circuit. Thus, it cannot be said that an improvement in the process flow cannot be realized by hardware physical modules. For example, a Programmable Logic Device (PLD) (e.g., a Field Programmable Gate Array (FPGA)) is an integrated circuit whose Logic functions are determined by a user programming the Device. A digital system is "integrated" on a PLD by the designer's own programming without requiring the chip manufacturer to design and fabricate application-specific integrated circuit chips. Furthermore, nowadays, instead of manually manufacturing an Integrated Circuit chip, such Programming is often implemented by "logic compiler" software, which is similar to a software compiler used in program development and writing, but the original code before compiling is also written by a specific Programming Language, which is called Hardware Description Language (HDL), and HDL is not only one but many, such as ABEL (Advanced Boolean Expression Language), AHDL (alternate Hardware Description Language), traffic, CUPL (core universal Programming Language), HDCal, jhddl (Java Hardware Description Language), lava, lola, HDL, PALASM, rhyd (Hardware Description Language), and vhigh-Language (Hardware Description Language), which is currently used in most popular applications. It will also be apparent to those skilled in the art that hardware circuitry for implementing the logical method flows can be readily obtained by a mere need to program the method flows with some of the hardware description languages described above and into an integrated circuit.

The controller may be implemented in any suitable manner, for example, the controller may take the form of, for example, a microprocessor or processor and a computer readable medium that stores computer readable program code (e.g., software or firmware) executable by the (micro) processor, logic gates, switches, an Application Specific Integrated Circuit (ASIC), a programmable logic controller, and embedded microcontrollers, examples of which include, but are not limited to, the following microcontrollers: ARC625D, atmel AT91SAM, microchip PIC18F26K20, and Silicone Labs C8051F320, the memory controller may also be implemented as part of the control logic for the memory. Those skilled in the art will also appreciate that, in addition to implementing the controller as pure computer readable program code, the same functionality can be implemented by logically programming method steps such that the controller is in the form of logic gates, switches, application specific integrated circuits, programmable logic controllers, embedded microcontrollers and the like. Such a controller may thus be considered a hardware component, and the means included therein for performing the various functions may also be considered as a structure within the hardware component. Or even means for performing the functions may be regarded as being both a software module for performing the method and a structure within a hardware component.

The systems, apparatuses, modules or units described in the above embodiments may be specifically implemented by a computer chip or an entity, or implemented by a product with certain functions. One typical implementation device is a computer. In particular, the computer may be, for example, a personal computer, a laptop computer, a cellular telephone, a camera phone, a smartphone, a personal digital assistant, a media player, a navigation device, an email device, a game console, a tablet computer, a wearable device, or a combination of any of these devices.

For convenience of description, the above devices are described as being divided into various units by function, and are described separately. Of course, the functions of the various elements may be implemented in the same one or more pieces of software and/or hardware in practicing embodiments of the present description.

One skilled in the art will recognize that one or more embodiments of the present description may be provided as a method, system, or computer program product. Accordingly, one or more embodiments of the present description may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the description may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The description has been presented with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the description. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

In a typical configuration, a computing device includes one or more processors (CPUs), input/output interfaces, network interfaces, and memory.

The memory may include forms of volatile memory in a computer readable medium, random Access Memory (RAM) and/or non-volatile memory, such as Read Only Memory (ROM) or flash memory (flash RAM). Memory is an example of a computer-readable medium.

Computer-readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, phase change memory (PRAM), static Random Access Memory (SRAM), dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), read Only Memory (ROM), electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), digital Versatile Disks (DVD) or other optical storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other non-transmission medium, which can be used to store information that can be accessed by a computing device. As defined herein, a computer readable medium does not include a transitory computer readable medium such as a modulated data signal and a carrier wave.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising one of 8230; \8230;" 8230; "does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises that element.

One or more embodiments of the specification may be described in the general context of computer-executable instructions, such as program modules, being executed by a computer. Generally, program modules include routines, programs, objects, components, data structures, etc. that perform particular tasks or implement particular abstract data types. One or more embodiments of the specification may also be practiced in distributed computing environments where tasks are performed by remote processing devices that are linked through a communications network. In a distributed computing environment, program modules may be located in both local and remote computer storage media including memory storage devices.

All the embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from other embodiments. In particular, as for the system embodiment, since it is substantially similar to the method embodiment, the description is relatively simple, and reference may be made to the partial description of the method embodiment for relevant points.

The above description is only an example of this document and is not intended to limit this document. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement or the like made within the spirit and principle of this document shall be included in the scope of the claims of this document.

Claims (22)

1. A vehicle charging processing method is applied to a server and comprises the following steps:

acquiring service signaling of a vehicle synchronized with a charging platform, and performing signaling verification; the service signaling is generated by a vehicle terminal of the vehicle based on a signaling parameter containing a charging service identifier after the vehicle establishes charging connection with charging equipment;

under the condition of passing the verification, synchronously verifying the passed verification result to the charging platform;

and if the charging payment order and the service signaling synchronized with the charging platform are detected, performing payment processing on the charging payment order based on the service signaling.

2. The vehicle charging processing method according to claim 1, wherein the service signaling is generated by:

determining signaling failure time according to request time and a preset time interval of a signaling acquisition request sent by the charging equipment based on the charging connection;

and generating service signaling containing the user identification of the user to which the vehicle belongs, the signaling failure time, the charging service identification and/or the signaling generation time.

3. The vehicle charging processing method of claim 1, the payment processing of the charging payment order based on the service signaling comprising:

determining a user identifier associated with the charging service identifier carried in the service signaling;

and performing payment processing on the charging payment order based on the payment account associated with the user identification.

4. The vehicle charging processing method of claim 3, the payment processing of the charging payment order based on the payment account associated with the user identification, comprising:

sending a resource transfer request carrying a payment account identifier, the payment amount recorded in the charging payment order and a collection account identifier to a payment mechanism corresponding to the payment account;

synchronizing a payment result to the charging platform based on the sending of the resource transfer request;

and if the transfer success result sent by the payment mechanism is detected, the asynchronous sending of the transfer success result is carried out on the charging platform.

5. The vehicle charge processing method according to claim 4, further comprising:

sending a payment result prompt to the user terminal associated with the vehicle based on the transfer success result; the payment result reminder carries an access link for vehicle service and/or charging service;

and if the fact that the user terminal submits an access request aiming at the access link of the vehicle service is detected, sending a service access request to a vehicle service platform corresponding to the vehicle, so that the user terminal can carry out access skip of the vehicle service.

6. The vehicle charging processing method according to claim 1, further comprising, after the step of performing the verification result for synchronously verifying the charging platform for passing in case of passing, and before the step of performing the payment processing for the charging payment order based on the service signaling is performed if the charging payment order and the service signaling synchronized with the charging platform are detected, the step of performing the payment processing for the charging payment order based on the service signaling is performed:

sending a charging state prompt to a user terminal associated with the vehicle according to the charging state of the charging equipment synchronized by the charging platform;

wherein the charge status alert carries an access link for vehicle services and/or charging services.

7. The vehicle charge processing method according to claim 1, further comprising:

reading a vehicle identification identifier of the vehicle and synchronizing the vehicle identification identifier to a vehicle service platform corresponding to the vehicle according to a service opening request submitted by the user terminal associated with the vehicle;

generating a charging service identifier of the vehicle and determining the validity period of the identifier according to the verification result of the vehicle identification identifier synchronized by the vehicle service platform;

synchronizing the charging service identification and the identification expiration date to the vehicle service platform; and the vehicle service platform stores the charging service identifier and the identifier validity period and synchronizes the charging service identifier and the identifier validity period to the vehicle terminal.

8. The vehicle charging processing method according to claim 7, wherein after receiving the charging service identifier and the identifier validity period, the in-vehicle terminal performs the following operations:

storing the charging service identifier and the identifier validity period and carrying out service opening marking processing;

correspondingly, the service signaling is generated based on the instruction parameter under the condition that the service opening mark exists.

9. The vehicle charge processing method according to claim 1, further comprising:

if the condition for updating the charging service identifier is triggered, updating the charging service identifier;

synchronizing the updated charging service identifier and the identifier valid period obtained by updating to the vehicle service platform for storage;

alternatively, the first and second electrodes may be,

if the updating condition is triggered, updating the validity period of the identifier of the charging service identifier, and synchronizing the validity period of the identifier after the updating of the validity period and the charging service identifier to the vehicle service platform;

wherein the update condition includes: the identifier validity period of the charging service identifier expires.

10. The vehicle charging processing method according to claim 1, wherein the charging service identifier is generated by:

inputting the user identification of the user to which the vehicle belongs into an identification generation algorithm for identification generation processing, and outputting a charging service identification associated with the user identification;

alternatively, the first and second liquid crystal display panels may be,

and calling a random generation algorithm to generate the charging service identification and establishing an association relation between the charging service identification and the user identification.

11. The vehicle charge processing method according to claim 1, further comprising:

reading a vehicle identification identifier of the vehicle and synchronizing the vehicle identification identifier to a vehicle service platform corresponding to the vehicle according to a service closing request submitted by the user terminal associated with the vehicle;

the vehicle service platform performs identification verification on the vehicle identification mark, closes the charging service of the vehicle after passing the verification, and synchronously closes a service closing prompt to the vehicle terminal;

and the vehicle-mounted terminal performs service closing marking processing based on the service closing reminding.

12. The vehicle charging processing method according to claim 11, before the reading of the vehicle identification of the vehicle and the execution of the synchronous operation to the vehicle service platform corresponding to the vehicle, further comprising:

verifying whether the vehicle is in a charging state according to the service closing request;

if not, executing the vehicle identification reading of the vehicle and synchronous operation to a vehicle service platform corresponding to the vehicle;

and if so, sending a closing failure prompt to the user terminal.

13. The vehicle charging processing method of claim 2, the signaling verification, comprising:

verifying whether the charging service identification carried in the service signaling is a charging service identification associated with the user identification of the user to which the vehicle belongs and whether the signaling failure time is reached;

if yes, the verification is determined to be passed.

14. A vehicle charging processing method is applied to a charging system and comprises the following steps:

after the charging connection with the vehicle is detected, the charging equipment sends a signaling acquisition request to a vehicle terminal of the vehicle;

the charging platform synchronizes a service signaling sent by the vehicle-mounted terminal and received by the charging equipment to a server; the service signaling is generated based on a signaling parameter containing a charging service identifier;

the charging platform carries out discharging treatment according to the verification result of the synchronous verification passing of the server;

and if the charging connection is detected to be disconnected, the charging platform generates a charging payment order of the vehicle, and synchronizes the charging payment order and the service signaling to the server.

15. The vehicle charge processing method according to claim 14, further comprising:

the charging platform checks whether the charging equipment opens the charging service or not based on the equipment identification of the charging equipment;

if yes, the charging platform synchronizes the service signaling sent by the charging equipment to the server.

16. The vehicle charge processing method according to claim 14, further comprising:

the charging equipment sends the equipment state of the charging equipment to the charging platform according to a preset period;

and if the equipment state is a charging state, the charging platform synchronizes the charging state to the server.

17. A vehicle charging processing apparatus, operating on a server, comprising:

the signaling verification module is configured to acquire service signaling of the vehicle with the charging platform synchronized and perform signaling verification; the service signaling is generated by a vehicle terminal of the vehicle based on a signaling parameter containing a charging service identifier after the vehicle establishes charging connection with charging equipment;

under the condition of passing the verification, operating a verification result synchronization module, wherein the verification result synchronization module is configured to synchronize the verification result passing the verification to the charging platform;

and if the charging payment order and the service signaling synchronized with the charging platform are detected, operating a payment processing module, wherein the payment processing module is configured to perform payment processing on the charging payment order based on the service signaling.

18. A vehicle charging processing device, which is operated in a charging system, comprises:

after the charging connection with the vehicle is detected, operating a request sending module, wherein the request sending module is configured to send a signaling obtaining request to a vehicle terminal of the vehicle by a charging device;

the signaling synchronization module is configured to enable the charging platform to synchronize the service signaling, which is received by the charging equipment and sent by the vehicle-mounted terminal, to a server; the service signaling is generated based on signaling parameters containing charging service identification;

the discharging processing module is configured to perform discharging processing on the charging platform according to a verification result that the server passes the synchronous verification;

and if the charging connection is detected to be disconnected, operating an order generation module, wherein the order generation module is configured to be the charging platform, generate a charging payment order of the vehicle, and synchronize the charging payment order and the service signaling to the server.

19. A vehicle charge processing device, comprising:

a processor; and the number of the first and second groups,

a memory configured to store computer-executable instructions that, when executed, cause the processor to:

acquiring a service signaling of a vehicle synchronized with a charging platform, and performing signaling verification; the service signaling is generated by a vehicle terminal of the vehicle based on a signaling parameter containing a charging service identifier after the vehicle establishes charging connection with charging equipment;

under the condition of passing the verification, synchronously verifying the passed verification result to the charging platform;

and if the charging payment order and the service signaling which are synchronous with the charging platform are detected, performing payment processing on the charging payment order based on the service signaling.

20. A vehicle charge processing device, comprising:

a processor; and the number of the first and second groups,

a memory configured to store computer-executable instructions that, when executed, cause the processor to:

after the charging connection with the vehicle is detected, the charging equipment sends a signaling acquisition request to a vehicle terminal of the vehicle;

the charging platform synchronizes a service signaling sent by the vehicle-mounted terminal and received by the charging equipment to a server; the service signaling is generated based on signaling parameters containing charging service identification;

the charging platform carries out discharge treatment according to the verification result of the server synchronous verification;

and if the charging connection is detected to be disconnected, the charging platform generates a charging payment order of the vehicle and synchronizes the charging payment order and the service signaling to the server.

21. A storage medium storing computer-executable instructions that when executed by a processor implement the following:

acquiring a service signaling of a vehicle synchronized with a charging platform, and performing signaling verification; the service signaling is generated by a vehicle terminal of the vehicle based on a signaling parameter containing a charging service identifier after the vehicle establishes charging connection with charging equipment;

under the condition of passing the verification, synchronously verifying the passed verification result to the charging platform;

and if the charging payment order and the service signaling synchronized with the charging platform are detected, performing payment processing on the charging payment order based on the service signaling.

22. A storage medium storing computer-executable instructions that when executed by a processor implement the following:

after the charging connection with the vehicle is detected, the charging equipment sends a signaling acquisition request to a vehicle terminal of the vehicle;

the charging platform synchronizes a service signaling sent by the vehicle-mounted terminal and received by the charging equipment to a server; the service signaling is generated based on a signaling parameter containing a charging service identifier;

the charging platform carries out discharge treatment according to the verification result of the server synchronous verification;

and if the charging connection is detected to be disconnected, the charging platform generates a charging payment order of the vehicle, and synchronizes the charging payment order and the service signaling to the server.

Images