CN114693235A - Battery replacement processing method and system, electronic equipment and storage medium - Google Patents

Abstract

The invention discloses a battery swapping processing method, a battery swapping processing system, electronic equipment and a storage medium, wherein the method comprises the following steps: obtaining mutually matched vehicle information and user information; determining battery swapping information corresponding to the vehicle information to generate resource transfer information corresponding to the user information according to the battery swapping information; the generation of the resource transfer information is triggered by a battery swapping event of the battery swapping vehicle. The invention can automatically complete the resource transfer of each driving user based on the battery swapping event, the whole processing process does not need manual participation, the battery swapping processing efficiency is effectively improved, and the operation cost of the battery swapping station is reduced.

Description

Battery replacement processing method and system, electronic equipment and storage medium

Technical Field

The invention relates to the technical field of electric automobiles, in particular to a battery replacement processing method, a battery replacement processing system, electronic equipment and a storage medium.

Background

Currently, in a battery swapping operation scene, a battery swapping process of a battery swapping vehicle is completed in a manual mode for a long time, for example, battery swapping information of the battery swapping vehicle is manually acquired, and resource transfer, vehicle battery swapping and other related processes are performed based on the battery swapping information. However, such a power conversion mode needs to configure a large amount of human resources, which results in high input of human cost, low operation efficiency of the power conversion station, increased operation cost, and the like.

Disclosure of Invention

The invention provides a battery swapping processing method, a battery swapping processing system, electronic equipment and a storage medium, aiming at overcoming the defects of low efficiency and high cost in battery swapping processing based on a manual mode in the prior art.

The invention solves the technical problems through the following technical scheme:

the invention provides a battery replacement processing method, which comprises the following steps:

obtaining mutually matched vehicle information and user information; the vehicle information corresponds to a battery replacement vehicle, and the user information corresponds to a current driving user of the battery replacement vehicle;

determining battery swapping information corresponding to the vehicle information to generate resource transfer information corresponding to the user information according to the battery swapping information; the generation of the resource transfer information is triggered by a battery swapping event of the battery swapping vehicle.

In the embodiment, after the driving user drives the battery replacing vehicle to enter the battery replacing station, the vehicle information of the current battery replacing vehicle and the user information of the current driving user are automatically and timely acquired, so that the resource transfer information matched with the current driving user can be generated after the battery replacing information of the current battery replacing vehicle is determined, namely, the resource transfer of each driving user based on the battery replacing event can be automatically completed, the whole processing process does not need manual participation, the battery replacing processing efficiency is effectively improved, and the operation cost of the battery replacing station is reduced.

Preferably, the method is applied to a battery swapping cloud, and the acquiring of the vehicle information and the user information which are matched with each other includes:

acquiring the vehicle information from a station side image recognition device of a battery replacement station side; the vehicle information is obtained by identifying the battery replacement vehicle through the station side image identification device;

acquiring the user information from a station end resource transfer device of the battery swapping station end; and the user information is obtained by identifying the current driving user of the battery replacement vehicle through the station-side resource transfer device.

In the embodiment, the vehicle information and the user information are obtained by identifying the device equipped in the battery changing station, and the battery changing user and the battery changing station operator do not need to participate, so that the data acquisition can be completed under the condition that the battery changing user does not sense, the battery changing experience of the battery changing user can be improved, and the battery changing processing efficiency can be improved.

Preferably, the determining battery swapping information corresponding to the vehicle information to generate resource transfer information corresponding to the user information according to the battery swapping information includes:

acquiring a battery replacement record of the battery replacement vehicle;

acquiring mileage information matched with the vehicle information;

and determining power exchange mileage information matched with the vehicle information according to the power exchange record and the mileage information, so as to generate resource transfer information corresponding to the user information according to the power exchange mileage information.

In the embodiment, a way of resource transfer according to the mileage information is provided, the mileage information of the battery replacing vehicle is obtained through automatic and rapid matching based on the vehicle information, and the battery replacing mileage of the battery replacing vehicle is obtained through rapid conversion according to the mileage information, and the whole processing process does not need manual participation, so that the investment of labor cost is saved, the processing flow of the vehicle mileage is simplified, and the processing efficiency of the vehicle mileage is improved; meanwhile, the situation that the processing result is influenced by human errors is avoided, the reliability of the mileage related data is improved, and the mileage information influenced by subsequent resource transfer, vehicle battery replacement and other processing is reduced.

Preferably, the determining battery swapping information corresponding to the vehicle information to generate resource transfer information corresponding to the user information according to the battery swapping information includes:

acquiring a battery replacement record of the battery replacement vehicle;

acquiring the residual electric quantity of a current battery pack of the battery replacement vehicle;

and determining the battery swapping amount information matched with the vehicle information according to the battery swapping record and the residual capacity, so as to generate resource transfer information corresponding to the user information according to the battery swapping amount information.

In the embodiment, a resource transfer way according to the electric quantity information is provided, the residual electric quantity of the current battery pack of the battery replacing vehicle is automatically acquired, and then the battery replacing electric quantity of the battery replacing vehicle can be quickly converted, the whole processing process does not need manual participation, the investment of labor cost is saved, the reliability of electric quantity related data is improved, and the influence mileage information on subsequent resource transfer and vehicle battery replacing and other processing is reduced.

Preferably, the determining battery swapping information corresponding to the vehicle information to generate resource transfer information corresponding to the user information according to the battery swapping information includes:

acquiring a battery replacement record of the battery replacement vehicle;

acquiring mileage information matched with the vehicle information;

according to the battery swapping record and the mileage information, battery swapping mileage information matched with the vehicle information is determined, and first resource transfer information corresponding to the user information is generated according to the battery swapping mileage information;

acquiring the residual electric quantity of a current battery pack of the battery replacement vehicle;

according to the battery swapping record and the residual capacity, battery swapping capacity information matched with the vehicle information is determined, and second resource transfer information corresponding to the user information is generated according to the battery swapping capacity information;

and when the first resource transfer information and the second resource transfer information are matched, determining that the first resource transfer information and the second resource transfer information are both valid.

In the embodiment, in order to further improve the validity and accuracy of the battery swapping process, the battery swapping mileage information and the battery swapping amount information corresponding to the current battery swapping vehicle are synchronously acquired, and when the resource transfer information generated according to the battery swapping mileage information and the battery swapping amount information is matched, the resource transfer information for resource transfer is obtained, so that the resource transfer and other operations are performed based on the battery swapping mileage information or the battery swapping amount information, that is, the whole process does not need manual participation, the processing flow of the battery swapping settlement is greatly simplified, the processing time is shortened, the battery swapping processing efficiency is effectively improved, and the use experience of a user is improved.

Preferably, the acquiring the mileage information matched with the vehicle information includes:

generating and sending a data acquisition request corresponding to the vehicle information to a third party cloud;

the third party cloud corresponds to a vehicle-mounted data acquisition device of the battery replacement vehicle, and is used for receiving mileage information uploaded by the vehicle-mounted data acquisition device;

and receiving the mileage information sent by the third party cloud.

In the embodiment, the data acquisition request is sent to the third party cloud (such as a vehicle cloud) to request to acquire the vehicle information adapted to the current battery replacement vehicle, and the corresponding mileage information is timely received when the third party cloud feeds back the vehicle information, that is, the third party cloud which manages the vehicle information of each battery replacement vehicle is collected as a source of the mileage information, and then the automatic battery replacement settlement operation is performed on the current battery replacement vehicle based on the mileage information by establishing a data interaction relationship with the third party cloud.

Preferably, the method further comprises:

according to the resource transfer information, resource transfer is carried out on an account corresponding to the user information;

and performing battery swapping on the battery swapping vehicle after the resource transfer is performed.

In this embodiment, the resource transfer operation is performed on the account corresponding to the user information of the current driving user based on the resource transfer information, and the battery swapping operation is performed after the resource transfer is completed, so that on one hand, the battery swapping process can be standardized, which is convenient for unified management, and on the other hand, the battery swapping operation time can be reserved as the processing time for errors possibly existing in the resource transfer, and no additional influence is caused on the battery swapping operation.

The invention also provides a battery replacement processing system, which comprises:

the first information acquisition module is used for acquiring vehicle information and user information which are matched with each other; the vehicle information corresponds to a battery replacement vehicle, and the user information corresponds to a current driving user of the battery replacement vehicle;

the battery swapping information determining module is used for determining battery swapping information corresponding to the vehicle information;

the resource transfer information generating module is used for generating resource transfer information corresponding to the user information according to the battery swapping information; the generation of the resource transfer information is triggered by a battery swapping event of the battery swapping vehicle.

Preferably, the system is applied to a battery swapping cloud, and the first information acquisition module includes:

the vehicle information acquisition unit is used for acquiring the vehicle information from a station side image recognition device of the battery replacement station side; the vehicle information is obtained by identifying the battery replacement vehicle through the station side image identification device;

a user information obtaining unit, configured to obtain the user information from the station-side resource transfer device at the battery swapping station side; and the user information is obtained by identifying the current driving user of the battery replacement vehicle through the station-side resource transfer device.

Preferably, the battery swapping information determining module includes:

the battery replacement record acquisition unit is used for acquiring a battery replacement record of the battery replacement vehicle;

the mileage information acquisition unit is used for acquiring mileage information matched with the vehicle information;

the battery replacement mileage information determining unit is used for determining battery replacement mileage information matched with the vehicle information according to the battery replacement record and the mileage information;

the resource transfer information generation module is used for generating resource transfer information corresponding to the user information according to the battery swapping mileage information.

Preferably, the battery swapping information determining module includes:

the battery replacement record acquisition unit is used for acquiring a battery replacement record of the battery replacement vehicle;

the residual electric quantity obtaining unit is used for obtaining the residual electric quantity of the current battery pack of the battery swapping vehicle;

the battery replacement amount information determining unit is used for determining battery replacement amount information matched with the vehicle information according to the battery replacement record and the residual electric quantity;

the resource transfer information generation module is used for generating resource transfer information corresponding to the user information according to the battery swapping amount information.

Preferably, the battery swapping information determining module includes:

the battery replacement record acquisition unit is used for acquiring a battery replacement record of the battery replacement vehicle;

the mileage information acquisition unit is used for acquiring mileage information matched with the vehicle information;

the battery replacement mileage information determining unit is used for determining battery replacement mileage information matched with the vehicle information according to the battery replacement record and the mileage information;

the resource transfer information generating module is used for generating first resource transfer information corresponding to the user information according to the battery swapping mileage information;

the residual electric quantity obtaining unit is used for obtaining the residual electric quantity of the current battery pack of the battery replacement vehicle;

the battery replacement amount information determining unit is used for determining battery replacement amount information matched with the vehicle information according to the battery replacement record and the residual electric quantity;

the resource transfer information generation module is used for generating second resource transfer information corresponding to the user information according to the battery swapping amount information;

a resource transfer information determining unit, configured to determine that the first resource transfer information and the second resource transfer information are both valid when the first resource transfer information and the second resource transfer information match.

Preferably, the mileage information acquiring unit includes:

the request sending subunit is used for generating and sending a data acquisition request corresponding to the vehicle information to a third party cloud;

the third party cloud corresponds to a vehicle-mounted data acquisition device of the battery replacement vehicle, and is used for receiving mileage information uploaded by the vehicle-mounted data acquisition device;

and the mileage information receiving subunit is used for receiving the mileage information sent by the third-party cloud.

Preferably, the system further comprises:

the resource transfer module is used for transferring the resources to the account corresponding to the user information according to the resource transfer information;

and the battery swapping module is used for swapping the battery of the battery swapping vehicle after the resource transfer is performed.

The invention also provides an electronic device, which comprises a memory, a processor and a computer program stored on the memory and capable of running on the processor, wherein the processor executes the computer program to realize the battery swapping processing method.

The present invention also provides a computer-readable storage medium, on which a computer program is stored, wherein the computer program is executed by a processor to implement the steps of the battery swapping processing method described above.

On the basis of the common knowledge in the field, the preferred conditions can be combined randomly to obtain the preferred embodiments of the invention.

The positive progress effects of the invention are as follows:

in the invention, after the driving user drives the battery replacing vehicle to enter the battery replacing station, the vehicle information of the current battery replacing vehicle and the user information of the current driving user are automatically and timely acquired, so that the resource transfer information matched with the current driving user can be generated after the battery replacing information of the current battery replacing vehicle is determined, namely, the resource transfer of each driving user based on the battery replacing event can be automatically completed, the whole processing process does not need manual participation, the battery replacing processing efficiency is effectively improved, and the operation cost of the battery replacing station is reduced.

Drawings

Fig. 1 is a flowchart of a battery swapping processing method according to embodiment 1 of the present invention.

Fig. 2 is a schematic diagram of a power swapping scene in embodiment 2 of the present invention.

Fig. 3 is a first flowchart of a power conversion processing method according to embodiment 2 of the present invention.

Fig. 4 is a second flowchart of the battery replacement processing method according to embodiment 2 of the present invention.

Fig. 5 is a third flowchart of the battery replacement processing method in embodiment 2 of the present invention.

Fig. 6 is a schematic block diagram of a battery swapping processing system according to embodiment 3 of the present invention.

Fig. 7 is a schematic block diagram of a battery swapping processing system according to embodiment 4 of the present invention.

Fig. 8 is a schematic structural diagram of an electronic device implementing a battery swap processing method according to embodiment 5 of the present invention.

Detailed Description

The invention is further illustrated by the following examples, which are not intended to limit the scope of the invention.

Example 1

As shown in fig. 1, the battery swapping processing method of this embodiment includes:

s101, obtaining vehicle information and user information which are matched with each other; the vehicle information corresponds to the battery replacement vehicle, and the user information corresponds to a current driving user of the battery replacement vehicle;

the vehicle information is vehicle identity information used for distinguishing different battery-swapping vehicles, and comprises but is not limited to license plate number information; the user information is user identity information used for representing a current driving user, and includes but is not limited to facial information, fingerprint information, network access account information and the like of the driving user.

S102, battery swapping information corresponding to the vehicle information is determined, and resource transfer information corresponding to the user information is generated according to the battery swapping information; the generation of the resource transfer information is triggered by a battery swap event of the battery swap vehicle.

The resource transfer information is data on which the resource transfer is performed. The resource transfer is equivalent exchange of electric energy obtained by exchanging the battery of the vehicle, and the corresponding battery exchange event can be a battery exchange starting event, a battery exchange proceeding event or a battery exchange ending event before the battery of the vehicle is exchanged, during the battery exchange of the vehicle or after the battery of the vehicle is exchanged. The resource transfer may specifically be battery swapping payment, and processing such as data statistics, data analysis, battery maintenance and the like may be performed based on the battery swapping mileage.

In an implementable manner, the resource transfer information includes, but is not limited to, battery swapping order information of the current battery swapping vehicle, and in a general case, once the current driving user drives the battery swapping vehicle into the battery swapping station, it may be considered that the current battery swapping vehicle has a battery swapping requirement, that is, the battery swapping vehicle is driven into the battery swapping station and reaches a specific battery swapping position as a trigger condition of the resource transfer information adapted thereto, that is, a battery swapping start event.

Of course, the triggering condition for triggering the resource transfer information may be determined or adjusted again in actual situations, for example, a mode that a driver or a relevant worker in the power station manually manipulates a physical key may be used.

In another implementation manner, the battery swap processing method may further include:

s103, transferring the resources of the account corresponding to the user information according to the resource transfer information;

and S104, replacing the battery of the battery replacing vehicle after the resource transfer is carried out.

Based on resource transfer information such as a battery swap bill and the like, resource transfer operations such as deduction and the like are performed on an account corresponding to user information of a current driving user, and battery swap operations are performed on the account after the resource transfer is completed.

In the embodiment, after a driving user drives a battery replacement vehicle to enter a battery replacement station, vehicle information of the current battery replacement vehicle and user information of the current driving user are automatically and timely acquired, so that after the battery replacement information of the current vehicle is determined, resource transfer information matched with the current driving user is generated, such as battery replacement charging operation and the like, that is, the resource transfer of each driving user based on a battery replacement event, such as battery replacement settlement and the like, can be automatically completed, and the whole processing process does not need manual participation, so that the processing flow of the battery replacement settlement is greatly simplified, the processing time is shortened, the battery replacement processing efficiency is effectively improved, and the use experience of the user is improved; meanwhile, the operation efficiency of the battery replacement station is effectively improved, and the operation cost of the battery replacement station is reduced.

Example 2

As shown in fig. 2, the battery swapping scene of this embodiment relates to a battery swapping cloud a, a third party cloud B, a battery swapping station terminal C, and a battery swapping vehicle D.

The station side resource transfer device F is used for timely identifying user information of a driving user of the battery swapping vehicle and uploading the user information to the battery swapping cloud.

The battery replacement vehicle is provided with a vehicle-mounted data acquisition device for acquiring all associated data of the battery replacement vehicle, and the acquired vehicle information is uploaded to a third party cloud (such as a vehicle cloud) in real time.

The battery swapping processing method is applied to a battery swapping cloud, and all data are collected to the battery swapping cloud for analysis and processing, so that a battery swapping charging order is generated according to a business logic relationship, and settlement is automatically completed.

Specifically, as shown in fig. 3, the battery swapping processing method of this embodiment is a further improvement of embodiment 1, specifically:

step S101 includes:

s1011, obtaining vehicle information from a station side image recognition device of the battery swapping station side; the vehicle information is obtained by identifying the battery replacement vehicle through the station side image identification device;

acquiring user information from a station end resource transfer device of a power swapping station end; the user information is obtained by identifying the current driving user of the battery replacement vehicle through the station-side resource transfer device.

The station-side resource transfer device can automatically acquire the biological information of the current driving user so as to identify and obtain the user information. Biological information such as face information, fingerprint information, iris information, or the like. The station-side resource transfer device can also automatically acquire the network access account information provided by the current driving user.

The vehicle information and the user information are obtained through identification of the device equipped in the battery changing station, and the battery changing user and the participation of the battery changing station operator are not needed, so that data acquisition can be completed under the condition that the battery changing user does not sense, the battery changing experience of the battery changing user can be improved, and the battery changing processing efficiency can be improved.

In a specific embodiment, the battery swapping vehicle is identified by the vehicle identification device at the battery swapping station end to obtain vehicle information, the current driving user is identified by the resource transfer device to obtain user information, for example, facial images of the driving user are collected to obtain facial information, fingerprints of the driving user are collected to obtain fingerprint information, a membership card is identified, account information for network access is obtained by scanning a two-dimensional code or a bar code, and the like, that is, the vehicle information and the user information of the battery swapping vehicle entering the battery swapping station are automatically collected and obtained based on the identification device configured at the battery swapping station end, so that further processing in a subsequent process is facilitated, and the overall battery swapping processing efficiency is ensured.

Step S102 includes:

s1021, acquiring a battery replacement record of the battery replacement vehicle;

s1022, acquiring mileage information matched with the vehicle information;

and S1023, determining the power exchange mileage information matched with the vehicle information according to the power exchange record and the mileage information, and generating resource transfer information corresponding to the user information according to the power exchange mileage information.

The method comprises the steps of carrying out resource transfer according to mileage information, automatically and quickly matching to obtain mileage information of a battery replacing vehicle based on vehicle information, and further quickly converting to obtain battery replacing mileage of the battery replacing vehicle according to the mileage information, wherein the whole processing process does not need manual participation, so that the investment of labor cost is saved, the processing flow of vehicle mileage is simplified, and the processing efficiency of the vehicle mileage is improved; meanwhile, the condition that the processing result is influenced by human errors is avoided, the reliability of the mileage related data is improved, and the influence on subsequent resource transfer, vehicle battery replacement and other processing mileage information is reduced.

Alternatively, as shown in fig. 4, step S102 includes:

s1024, obtaining a battery replacement record of the battery replacement vehicle;

s1025, acquiring the residual electric quantity of the current battery pack of the battery replacement vehicle;

and S1026, determining the battery swapping amount information matched with the vehicle information according to the battery swapping record and the residual battery amount, and generating resource transfer information corresponding to the user information according to the battery swapping amount information.

According to the method for transferring the resources according to the electric quantity information, the residual electric quantity of the current battery pack of the battery replacing vehicle is automatically acquired, and then the battery replacing electric quantity of the battery replacing vehicle can be quickly converted, the whole processing process does not need manual participation, the investment of labor cost is saved, the reliability of the data related to the electric quantity is improved, and the influence mileage information on subsequent resource transfer, vehicle battery replacing and other processing is reduced.

Alternatively, as shown in fig. 5, step S102 includes:

s1028, acquiring a battery swapping record of the battery swapping vehicle;

s1029, acquiring mileage information matched with the vehicle information;

s10210, determining power exchange mileage information matched with the vehicle information according to the power exchange record and the mileage information, and generating first resource transfer information corresponding to the user information according to the power exchange mileage information;

s10211, acquiring the residual electric quantity of a current battery pack of the battery replacement vehicle;

s10212, determining the battery swapping amount information matched with the vehicle information according to the battery swapping record and the residual battery amount, and generating second resource transfer information corresponding to the user information according to the battery swapping amount information;

s10213, when the first resource transfer information and the second resource transfer information match, determining that both the first resource transfer information and the second resource transfer information are valid.

Wherein when the difference between the first resource transfer information and the second resource transfer information is within an allowable range, it is determined that the first resource transfer information and the second resource transfer information match.

In order to further improve the validity and accuracy of the battery swapping process, the battery swapping mileage information and the battery swapping electric quantity information corresponding to the current battery swapping vehicle are synchronously acquired, and when the resource transfer information generated according to the battery swapping mileage information and the battery swapping electric quantity information is matched, the resource transfer information for resource transfer is obtained, so that the resource transfer, such as battery swapping settlement and other operations are conveniently carried out based on the battery swapping mileage information or the battery swapping electric quantity information, namely, the whole process does not need manual participation, the processing flow of the battery swapping settlement is greatly simplified, the processing time is shortened, the battery swapping processing efficiency is effectively improved, and the use experience of a user is improved.

In an implementation manner, when the first resource transfer information and the second resource transfer information do not match, it is determined that at least one of the first resource transfer information and the second resource transfer information is invalid. At this point, the emergency process flow may be initiated. Such as triggering a human processing alert signal.

Wherein step S1022 or step S1029 includes:

generating and sending a data acquisition request corresponding to the vehicle information to a third party cloud;

the third party cloud corresponds to a vehicle-mounted data acquisition device of the battery replacement vehicle, and is used for receiving mileage information uploaded by the vehicle-mounted data acquisition device;

and receiving mileage information sent by the cloud of the third party.

The method comprises the steps that a data acquisition request is sent to a third party cloud (such as a vehicle cloud) to request to acquire vehicle information matched with a current battery swapping vehicle, corresponding mileage information is received in time when the third party cloud feeds back the mileage information, the third party cloud which manages the vehicle information of each battery swapping vehicle is to be collected as a source of the mileage information, a data interaction relation is established with the third party cloud, and then automatic battery swapping settlement operation is carried out on the current battery swapping vehicle based on the mileage information.

In the embodiment, after the driving user drives the battery replacing vehicle to enter the battery replacing station, the vehicle information of the current battery replacing vehicle and the user information of the current driving user are automatically and timely acquired, so that the resource transfer information matched with the current driving user can be generated after the battery replacing information of the current battery replacing vehicle is determined, namely, the resource transfer of each driving user based on the battery replacing event can be automatically completed, the whole processing process does not need manual participation, the battery replacing processing efficiency is effectively improved, and the operation cost of the battery replacing station is reduced.

Example 3

As shown in fig. 6, the battery swapping processing system of this embodiment includes a first information obtaining module 1, a battery swapping information determining module 2, a resource transfer information generating module 3, a resource transfer module 4, and a battery swapping module 5.

The first information acquisition module 1 is used for acquiring vehicle information and user information which are matched with each other; the vehicle information corresponds to the battery replacement vehicle, and the user information corresponds to a current driving user of the battery replacement vehicle;

the vehicle information is vehicle identity information used for distinguishing different battery-swapping vehicles, and comprises but is not limited to license plate number information; the user information is user identity information used for representing a current driving user, and includes but is not limited to facial information, fingerprint information, network access account information and the like of the driving user.

The battery swapping information determining module 2 is used for determining battery swapping information corresponding to the vehicle information;

the resource transfer information generating module 3 is used for generating resource transfer information corresponding to the user information according to the battery swapping information; the generation of the resource transfer information is triggered by a battery swap event of the battery swap vehicle.

The resource transfer information is data on which the resource transfer is performed. The resource transfer is equivalent exchange of electric energy obtained by exchanging the battery of the vehicle, and the corresponding battery exchange event can be a battery exchange starting event, a battery exchange proceeding event or a battery exchange ending event before the battery of the vehicle is exchanged, during the battery exchange of the vehicle or after the battery of the vehicle is exchanged. The resource transfer may specifically be battery swapping payment, and processing such as data statistics, data analysis, battery maintenance and the like may be performed based on the battery swapping mileage.

In an implementable manner, the resource transfer information includes, but is not limited to, battery swapping order information of the current battery swapping vehicle, and in a general case, once the current driving user drives the battery swapping vehicle into the battery swapping station, it may be considered that the current battery swapping vehicle has a battery swapping requirement, that is, the battery swapping vehicle is driven into the battery swapping station and reaches a specific battery swapping position as a trigger condition of the resource transfer information adapted thereto, that is, a battery swapping start event.

Of course, the triggering condition for triggering the resource transfer information may be determined or adjusted again in actual situations, for example, a mode that a driver or a relevant worker in the power station manually manipulates a physical key may be used.

In another implementable manner, the resource transfer module 4 of this embodiment is configured to perform resource transfer on an account corresponding to the user information according to the resource transfer information;

the battery swapping module 5 is used for swapping batteries of the battery swapping vehicles after resource transfer.

Based on resource transfer information such as a battery swap bill and the like, resource transfer operations such as deduction and the like are performed on an account corresponding to user information of a current driving user, and battery swap operations are performed on the account after the resource transfer is completed.

In the embodiment, after a driving user drives a battery replacement vehicle to enter a battery replacement station, vehicle information of the current battery replacement vehicle and user information of the current driving user are automatically and timely acquired, so that after the battery replacement information of the current vehicle is determined, resource transfer information matched with the current driving user is generated, such as battery replacement charging operation and the like, that is, the resource transfer of each driving user based on a battery replacement event, such as battery replacement settlement and the like, can be automatically completed, and the whole processing process does not need manual participation, so that the processing flow of the battery replacement settlement is greatly simplified, the processing time is shortened, the battery replacement processing efficiency is effectively improved, and the use experience of the user is improved; simultaneously, also promoted the operation efficiency that trades the power station effectively, reduced the operation cost that trades the power station.

Example 4

As shown in fig. 2, the battery swapping scene of this embodiment relates to a battery swapping cloud a, a third party cloud B, a battery swapping station C, and a battery swapping vehicle D.

The station side image recognition device E is used for recognizing vehicle information of a battery replacing vehicle running into the battery replacing station in time and uploading the vehicle information to a battery replacing cloud, and the station side resource transfer device F is used for recognizing user information of a driving user of the battery replacing vehicle in time and uploading the user information to the battery replacing cloud.

The battery replacement vehicle is provided with a vehicle-mounted data acquisition device for acquiring all relevant data of the battery replacement vehicle, and the acquired vehicle information is uploaded to a third party cloud (such as a vehicle cloud) in real time.

The battery swapping processing system of the embodiment is applied to a battery swapping cloud, and collects all data to the battery swapping cloud for analysis and processing, generates a battery swapping charging order according to a business logic relationship, and automatically completes settlement.

Specifically, as shown in fig. 7, a further improvement of embodiment 3 is provided in the battery replacement processing system of this embodiment, specifically:

the first information acquisition module 1 includes a vehicle information acquisition unit 6 and a user information acquisition unit 7.

The vehicle information acquisition unit 6 is configured to acquire vehicle information from a station-side image recognition device at a power swapping station side; the vehicle information is obtained by identifying the battery replacement vehicle through the station side image identification device;

the user information obtaining unit 7 is configured to obtain user information from a station resource transfer device at a power swapping station end; the user information is obtained by identifying the current driving user of the battery replacement vehicle through the station-side resource transfer device.

The station-side resource transfer device can automatically acquire the biological information of the current driving user so as to identify and obtain the user information. The biological information is face information, fingerprint information, iris information, or the like. The station-side resource transfer device can also automatically acquire the network access account information provided by the current driving user.

The vehicle information and the user information are obtained through identification of the device equipped in the battery changing station, and the battery changing user and the participation of the battery changing station operator are not needed, so that data acquisition can be completed under the condition that the battery changing user does not sense, the battery changing experience of the battery changing user can be improved, and the battery changing processing efficiency can be improved.

In a specific embodiment, the battery swapping vehicle is identified through the vehicle identification device at the battery swapping station end to obtain vehicle information, the resource transfer device identifies the current driving user to obtain user information, for example, facial images of the driving user are collected to obtain facial information, fingerprints of the driving user are collected to obtain fingerprint information, a membership card is identified, a two-dimensional code or a bar code is scanned to obtain access account information, and the like, that is, the vehicle information and the user information of the battery swapping vehicle entering the battery swapping station are automatically collected based on the identification device configured in the battery swapping station end, so that further processing in a subsequent process is facilitated, and the overall battery swapping processing efficiency is ensured.

The battery swapping information determining module 2 of this embodiment includes a battery swapping record obtaining unit, a mileage information obtaining unit, and a battery swapping mileage information determining unit.

The battery replacement record acquisition unit is used for acquiring a battery replacement record of a battery replacement vehicle;

the mileage information acquisition unit is used for acquiring mileage information matched with the vehicle information;

the battery replacement mileage information determining unit is used for determining battery replacement mileage information matched with the vehicle information according to the battery replacement record and the mileage information;

the resource transfer information generation module 3 is used for generating resource transfer information corresponding to the user information according to the power exchange mileage information.

The method comprises the steps of carrying out resource transfer according to mileage information, automatically and quickly matching to obtain mileage information of a battery replacing vehicle based on vehicle information, and further quickly converting to obtain battery replacing mileage of the battery replacing vehicle according to the mileage information, wherein the whole processing process does not need manual participation, so that the investment of labor cost is saved, the processing flow of vehicle mileage is simplified, and the processing efficiency of the vehicle mileage is improved; meanwhile, the situation that the processing result is influenced by human errors is avoided, the reliability of the mileage related data is improved, and the mileage information influenced by subsequent resource transfer, vehicle battery replacement and other processing is reduced.

Or, the battery swapping information determining module 2 of this embodiment includes a battery swapping record obtaining unit, a remaining power obtaining unit, and a battery swapping power information determining unit.

The battery replacement record acquisition unit is used for acquiring a battery replacement record of a battery replacement vehicle;

the residual electric quantity acquisition unit is used for acquiring the residual electric quantity of the current battery pack of the battery replacement vehicle;

the battery replacement capacity information determining unit is used for determining battery replacement capacity information matched with the vehicle information according to the battery replacement record and the residual capacity;

the resource transfer information generating module 3 is configured to generate resource transfer information corresponding to the user information according to the battery replacement capacity information.

According to the method for transferring the resources according to the electric quantity information, the residual electric quantity of the current battery pack of the battery replacing vehicle is automatically acquired, and then the battery replacing electric quantity of the battery replacing vehicle can be quickly converted, the whole processing process does not need manual participation, the investment of labor cost is saved, the reliability of the data related to the electric quantity is improved, and the influence mileage information on subsequent resource transfer, vehicle battery replacing and other processing is reduced.

Or, the battery swapping information determining module 2 of this embodiment includes a battery swapping record obtaining unit, a mileage information obtaining unit, a battery swapping mileage information determining unit, a remaining power obtaining unit, a battery swapping power information determining unit, and a resource transfer information determining unit.

The battery replacement record acquisition unit is used for acquiring a battery replacement record of a battery replacement vehicle;

the mileage information acquiring unit is used for acquiring mileage information matched with the vehicle information;

the battery replacement mileage information determining unit is used for determining battery replacement mileage information matched with the vehicle information according to the battery replacement record and the mileage information;

the resource transfer information generation module 3 is used for generating first resource transfer information corresponding to the user information according to the battery swapping mileage information;

the residual electric quantity acquisition unit is used for acquiring the residual electric quantity of the current battery pack of the battery replacement vehicle;

the battery replacement amount information determining unit is used for determining battery replacement amount information matched with the vehicle information according to the battery replacement record and the residual capacity;

the resource transfer information generating module 3 is used for generating second resource transfer information corresponding to the user information according to the battery replacement capacity information;

the resource transfer information determining unit is configured to determine that the first resource transfer information and the second resource transfer information are both valid when the first resource transfer information and the second resource transfer information match.

Wherein when the difference between the first resource transfer information and the second resource transfer information is within an allowable range, it is determined that the first resource transfer information and the second resource transfer information match.

In order to further improve the validity and accuracy of the battery swapping process, the battery swapping mileage information and the battery swapping electric quantity information corresponding to the current battery swapping vehicle are synchronously acquired, and when the resource transfer information generated according to the battery swapping mileage information and the battery swapping electric quantity information is matched, the resource transfer information for resource transfer is obtained, so that the resource transfer, such as battery swapping settlement and other operations are conveniently carried out based on the battery swapping mileage information or the battery swapping electric quantity information, namely, the whole process does not need manual participation, the processing flow of the battery swapping settlement is greatly simplified, the processing time is shortened, the battery swapping processing efficiency is effectively improved, and the use experience of a user is improved.

In an implementation manner, when the first resource transfer information and the second resource transfer information do not match, it is determined that at least one of the first resource transfer information and the second resource transfer information is invalid. At this point, the emergency process flow may be initiated. Such as triggering a human processing alert signal.

In addition, the mileage information acquiring unit includes a request transmitting subunit and a mileage information receiving subunit.

The request sending subunit is used for generating and sending a data acquisition request corresponding to the vehicle information to a third-party cloud;

the third party cloud corresponds to a vehicle-mounted data acquisition device of the battery replacement vehicle, and is used for receiving mileage information uploaded by the vehicle-mounted data acquisition device;

the mileage information receiving subunit is used for receiving the mileage information sent by the third-party cloud.

The method comprises the steps of sending a data acquisition request to a third party cloud (such as a vehicle cloud) to request to acquire vehicle information matched with a current battery replacement vehicle, timely receiving corresponding mileage information when the third party cloud feeds back the mileage information, taking the third party cloud which manages the vehicle information of each battery replacement vehicle as a source of the mileage information, establishing a data interaction relation with the third party cloud, and then carrying out automatic battery replacement settlement operation on the current battery replacement vehicle based on the mileage information.

In the embodiment, after the driving user drives the battery replacing vehicle to enter the battery replacing station, the vehicle information of the current battery replacing vehicle and the user information of the current driving user are automatically and timely acquired, so that the resource transfer information matched with the current driving user can be generated after the battery replacing information of the current battery replacing vehicle is determined, namely, the resource transfer of each driving user based on the battery replacing event can be automatically completed, the whole processing process does not need manual participation, the battery replacing processing efficiency is effectively improved, and the operation cost of the battery replacing station is reduced.

Example 5

Fig. 8 is a schematic structural diagram of an electronic device according to embodiment 5 of the present invention. The electronic device comprises a memory, a processor and a computer program which is stored on the memory and can run on the processor, and when the processor executes the program, the power swapping processing method of the power swapping station in any one of the embodiments 1 or 2 is realized. The electronic device 30 shown in fig. 8 is only an example, and should not bring any limitation to the functions and the scope of use of the embodiment of the present invention.

As shown in fig. 8, the electronic device 30 may be embodied in the form of a general purpose computing device, which may be, for example, a server device. The components of the electronic device 30 may include, but are not limited to: the at least one processor 31, the at least one memory 32, and a bus 33 connecting the various system components (including the memory 32 and the processor 31).

The bus 33 includes a data bus, an address bus, and a control bus.

The memory 32 may include volatile memory, such as Random Access Memory (RAM)321 and/or cache memory 322, and may further include Read Only Memory (ROM) 323.

Memory 32 may also include a program/utility 325 having a set (at least one) of program modules 324, such program modules 324 including, but not limited to: an operating system, one or more application programs, other program modules, and program data, each of which, or some combination thereof, may comprise an implementation of a network environment.

The processor 31 executes various functional applications and data processing, such as a power swapping processing method of the power swapping station in any one of the embodiments 1 or 2 of the present invention, by running the computer program stored in the memory 32.

The electronic device 30 may also communicate with one or more external devices 34 (e.g., keyboard, pointing device, etc.). Such communication may be through input/output (I/O) interfaces 35. Also, model-generating device 30 may also communicate with one or more networks (e.g., a Local Area Network (LAN), a Wide Area Network (WAN), and/or a public network, such as the Internet) via network adapter 36. As shown in FIG. 8, network adapter 36 communicates with the other modules of model-generating device 30 via bus 33. It should be understood that although not shown in the figures, other hardware and/or software modules may be used in conjunction with the model-generating device 30, including but not limited to: microcode, device drivers, redundant processors, external disk drive arrays, RAID (disk array) systems, tape drives, and data backup storage systems, to name a few.

It should be noted that although in the above detailed description several units/modules or sub-units/modules of the electronic device are mentioned, such a division is merely exemplary and not mandatory. Indeed, the features and functionality of two or more of the units/modules described above may be embodied in one unit/module according to embodiments of the invention. Conversely, the features and functions of one unit/module described above may be further divided into embodiments by a plurality of units/modules.

Example 6

The present embodiment provides a computer-readable storage medium on which a computer program is stored, where the computer program, when executed by a processor, implements the steps in the swapping power processing method of the swapping power station in any one of embodiments 1 or 2.

More specific examples, among others, that the readable storage medium may employ may include, but are not limited to: a portable disk, a hard disk, random access memory, read only memory, erasable programmable read only memory, optical storage device, magnetic storage device, or any suitable combination of the foregoing.

In a possible implementation manner, the present invention can also be implemented in a form of a program product, which includes program code, and when the program product runs on a terminal device, the program code is configured to enable the terminal device to execute steps in a power swapping processing method for implementing the power swapping station in any one of embodiments 1 or 2.

Where program code for carrying out the invention is written in any combination of one or more programming languages, the program code may execute entirely on the user device, partly on the user device, as a stand-alone software package, partly on the user device and partly on a remote device or entirely on the remote device.

While specific embodiments of the invention have been described above, it will be appreciated by those skilled in the art that this is by way of example only, and that the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and scope of the invention, and these changes and modifications are within the scope of the invention.

Claims (10)

1. A battery swapping processing method is characterized by comprising the following steps:

obtaining mutually matched vehicle information and user information; the vehicle information corresponds to a battery replacement vehicle, and the user information corresponds to a current driving user of the battery replacement vehicle;

determining battery swapping information corresponding to the vehicle information to generate resource transfer information corresponding to the user information according to the battery swapping information; the generation of the resource transfer information is triggered by a battery swapping event of the battery swapping vehicle.

2. The method of claim 1, wherein the method is applied to a battery charging cloud, and the obtaining mutually matched vehicle information and user information comprises:

acquiring the vehicle information from a station side image recognition device of a battery replacement station side; the vehicle information is obtained by identifying the battery replacement vehicle through the station side image identification device;

acquiring the user information from a station end resource transfer device of the battery swapping station end; and the user information is obtained by identifying the current driving user of the battery replacement vehicle through the station-side resource transfer device.

3. The method of claim 1, wherein the determining swap information corresponding to the vehicle information to generate resource transfer information corresponding to the user information from the swap information comprises:

acquiring a battery replacement record of the battery replacement vehicle;

acquiring mileage information matched with the vehicle information;

and determining power exchange mileage information matched with the vehicle information according to the power exchange record and the mileage information, so as to generate resource transfer information corresponding to the user information according to the power exchange mileage information.

4. The method of claim 1, wherein the determining swap information corresponding to the vehicle information to generate resource transfer information corresponding to the user information from the swap information comprises:

acquiring a battery replacement record of the battery replacement vehicle;

acquiring the residual electric quantity of a current battery pack of the battery replacement vehicle;

and determining the battery swapping amount information matched with the vehicle information according to the battery swapping record and the residual capacity, so as to generate resource transfer information corresponding to the user information according to the battery swapping amount information.

5. The method of claim 1, wherein the determining battery swapping information corresponding to the vehicle information to generate resource transfer information corresponding to the user information from the battery swapping information comprises:

acquiring a battery replacement record of the battery replacement vehicle;

acquiring mileage information matched with the vehicle information;

according to the battery swapping record and the mileage information, battery swapping mileage information matched with the vehicle information is determined, and first resource transfer information corresponding to the user information is generated according to the battery swapping mileage information;

acquiring the residual electric quantity of a current battery pack of the battery replacement vehicle;

according to the battery swapping record and the residual capacity, battery swapping capacity information matched with the vehicle information is determined, and second resource transfer information corresponding to the user information is generated according to the battery swapping capacity information;

when the first resource transfer information and the second resource transfer information match, determining that both the first resource transfer information and the second resource transfer information are valid.

6. The method of claim 3 or 5, wherein the obtaining mileage information that matches the vehicle information comprises:

generating and sending a data acquisition request corresponding to the vehicle information to a third party cloud;

the third party cloud corresponds to a vehicle-mounted data acquisition device of the battery replacement vehicle, and is used for receiving mileage information uploaded by the vehicle-mounted data acquisition device;

and receiving the mileage information sent by the third party cloud.

7. The method of any one of claims 1-5, further comprising:

according to the resource transfer information, resource transfer is carried out on an account corresponding to the user information;

and performing battery swapping on the battery swapping vehicle after the resource transfer is performed.

8. A battery swapping processing system, comprising:

the first information acquisition module is used for acquiring vehicle information and user information which are matched with each other; the vehicle information corresponds to a battery replacement vehicle, and the user information corresponds to a current driving user of the battery replacement vehicle;

the battery swapping information determining module is used for determining battery swapping information corresponding to the vehicle information;

a resource transfer information generating module, configured to generate resource transfer information corresponding to the user information according to the battery swapping information; the generation of the resource transfer information is triggered by a battery swapping event of the battery swapping vehicle.

9. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the swapping processing method of any of claims 1-7 when executing the computer program.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the swapping processing method of any of claims 1-7.

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