CN116416691A - Method, device, electronic device, and storage medium for settlement of electricity exchange fee - Google Patents

Abstract

The invention discloses a method and a device for settling a power exchange fee, electronic equipment and a storage medium. The method comprises the following steps: acquiring the number of battery packs of a battery-changing vehicle, and grouping the battery packs of the battery-changing vehicle; respectively obtaining the battery pack battery replacement data contained in each group of battery packs, and judging whether the battery packs meet settlement conditions according to the battery pack replacement data; and carrying out the settlement of the power exchange charge on the battery pack meeting the settlement conditions. According to the invention, for the battery-replacing vehicle comprising a plurality of battery packs, the battery packs are firstly grouped, and whether the battery packs of each group meet the settlement conditions is respectively judged, so that the problem that the whole vehicle of the battery-replacing vehicle cannot perform battery-replacing settlement because part of the battery packs cannot be settled can be avoided, and the effective battery-replacing fee settlement of the battery-replacing vehicle is realized.

Description

Method, device, electronic device, and storage medium for settlement of electricity exchange fee

technical field

The present invention relates to the technical field of battery-swapping vehicles, in particular to a method, device, electronic equipment, and storage medium for settlement of battery-swapping fees.

Background technique

With the promotion of battery exchange services and the expansion of battery exchange networks, the customer base is expanding. In addition to passenger cars, commercial vehicles such as electric logistics vehicles also hope to enjoy fast battery exchange services. Since logistics vehicles are generally larger than passenger vehicles, they adopt a different battery configuration from passenger vehicles, and can install 2-4 battery packs at the same time, or even more. During use, due to problems of production consistency and operating conditions, multiple battery packs in the same car may have different power levels. The existing settlement scheme for battery replacement costs for passenger cars is not very good. Adapt to the settlement needs of vehicle battery replacement costs including multiple battery packs.

Contents of the invention

The invention provides a method, device, electronic equipment, and storage medium for settlement of battery replacement costs, which can realize effective settlement of battery replacement fees for vehicles equipped with multiple battery packs.

The present invention solves the above technical problems through the following technical solutions:

In the first aspect, there is provided a method for settlement of electricity replacement costs, including:

Obtain the number of battery packs of the battery replacement vehicle, and group the battery packs of the battery replacement vehicle;

Obtaining the battery replacement data of the battery packs contained in each battery group respectively, and judging whether the battery group satisfies the settlement condition according to the battery replacement data;

Settle the replacement fee for the battery pack that meets the settlement conditions.

In this solution, for a battery replacement vehicle that contains multiple battery packs, the multiple battery packs are first grouped, and each group of battery packs is judged whether it meets the settlement conditions, which can avoid the failure of the whole battery replacement vehicle due to the failure of some battery packs to be settled. Vehicles cannot be settled for battery replacement, so as to realize the effective settlement of battery replacement fees for vehicles with battery replacement.

Optionally, the step of obtaining the number of battery packs of the battery replacement vehicle and grouping the battery packs of the battery replacement vehicle includes:

In response to the battery swap settlement request of the battery swap vehicle, determine the number of battery packs of the battery swap vehicle;

In the case that the number of the battery packs is greater than the number threshold, the battery packs included in the battery replacement vehicle are divided into at least two battery packs.

In this solution, when it is determined that the number of battery packs of the battery replacement vehicle is greater than the number threshold, the battery packs are grouped, and when the number of battery packs is small, the battery packs are not grouped, thereby reducing unnecessary calculations.

Optionally, the step of grouping the batteries of the battery replacement vehicle includes:

Determining the amount of resources used for settlement of the electricity exchange fee, and determining the number of battery packs according to the amount of resources;

Wherein, the amount of resources is positively correlated with the number of groups, and the amount of resources is used to obtain battery replacement data of each battery group in parallel and determine whether settlement conditions are satisfied.

In this solution, the battery packs are grouped according to the amount of resources, so that the number of battery packs always matches the amount of resources, and the power exchange data of the battery packs contained in each battery pack can be processed synchronously to improve settlement efficiency without storing batteries Packets are divided into groups to save storage space.

Optionally, also include:

Abnormal handling of the battery replacement data of the battery pack that does not meet the settlement conditions;

Judging whether the battery pack after abnormal processing meets the settlement conditions;

If so, the battery exchange fee settlement is performed for the battery pack.

In this solution, by performing abnormal processing on the battery replacement data of the battery pack that does not meet the settlement conditions, and judging again whether the abnormally processed battery pack meets the settlement conditions, it is possible to check whether the battery pack has been misjudged, and to achieve effective settlement. Improve settlement success rate.

Optionally, also include:

Calculating the ratio of the battery packs for the settlement of the battery exchange fee to the battery pack quantity of the battery exchange vehicle;

In the case that the proportion of the battery packs for which the electricity replacement fee is settled is greater than the proportion threshold, the fee settlement result is sent to the settlement requesting party.

In this solution, by calculating the proportion of the battery packs for battery exchange fee settlement to the battery pack quantity of the battery exchange vehicle, when the proportion of battery packs for battery exchange fee settlement is not greater than the ratio threshold, an exception can be generated Reminder, to remind the operation and maintenance personnel to check the reasons for the small proportion of verification and conduct investigations; or to estimate the replacement costs of the battery packs that cannot be settled based on the partial replacement costs of the battery packs that have been settled for replacement costs. In this way, the battery replacement costs of all battery packs of the battery replacement vehicle can be obtained, and the success rate of battery replacement fee settlement can be improved.

Optionally, the battery replacement data includes the charging capacity of the battery pack; the step of settling the battery replacement fee for the battery pack meeting the settlement condition includes:

The charging capacity of each battery pack contained in the battery pack that meets the settlement conditions within the accumulated settlement period; the settlement period is the time interval between the last settlement time and the current settlement time;

According to the accumulative charging amount, the power replacement fee will be settled.

In this solution, the battery replacement fee is settled through the accumulated charging amount, which is simple, convenient and highly accurate.

Optionally, the settlement conditions include at least one of the following:

The battery code of the battery pack matches the battery replacement vehicle;

The battery code of the battery pack matches the battery code of the battery replacement vehicle last time;

The remaining power of the battery pack was greater than the power threshold when the battery pack was replaced with the battery replacement vehicle last time;

The available power of the battery pack is within the first power threshold range;

The difference between the remaining battery power of the battery pack and the remaining battery power when the battery was replaced last time matches the mileage of the battery replacement vehicle;

The accumulated charging power of the battery pack is within the second power threshold range.

In this solution, at least one settlement condition is used to judge whether the battery pack of battery swap data meets the settlement condition, so as to judge the legality and health status of the battery pack, which is reliable and effective.

In the second aspect, a power exchange fee settlement device is provided, including:

A grouping module, configured to obtain the battery pack quantity of the battery swapping vehicle, and group the battery packs of the battery swapping vehicle;

A judging module, configured to respectively acquire battery swap data of the battery packs included in each battery pack, and judge whether the battery pack satisfies the settlement condition according to the battery swap data;

The settlement module is used to settle the replacement fee for the battery pack meeting the settlement condition.

In this solution, for a battery replacement vehicle that contains multiple battery packs, the multiple battery packs are first grouped, and each group of battery packs is judged whether it meets the settlement conditions, which can avoid the failure of the whole battery replacement vehicle due to the failure of some battery packs to be settled. Vehicles cannot be settled for battery replacement, so as to realize the effective settlement of battery replacement fees for vehicles with battery replacement.

Optionally, the grouping module includes:

A determining unit, configured to determine the number of battery packs of the battery swap vehicle in response to the battery swap settlement request of the battery swap vehicle;

A grouping unit, configured to divide the battery packs contained in the battery exchange vehicle into at least two battery packs when the number of the battery packs is greater than a threshold value.

In this solution, when it is determined that the number of battery packs of the battery replacement vehicle is greater than the number threshold, the battery packs are grouped, and when the number of battery packs is small, the battery packs are not grouped, thereby reducing unnecessary calculations.

Optionally, the grouping module includes:

A determining unit, configured to determine the amount of resources used for settlement of the electricity exchange fee, and determine the number of battery packs according to the amount of resources;

Wherein, the amount of resources is positively correlated with the number of groups, and the amount of resources is used to obtain battery replacement data of each battery group in parallel and determine whether settlement conditions are satisfied.

In this solution, the battery packs are grouped according to the amount of resources, so that the number of battery packs always matches the amount of resources, and the power exchange data of the battery packs contained in each battery pack can be processed synchronously to improve settlement efficiency without storing batteries Packets are divided into groups to save storage space.

Optionally, also include:

An exception processing module, configured to perform exception processing on the battery replacement data of the battery pack that does not meet the settlement conditions;

The judging module is used for judging whether the battery pack after abnormal processing meets the settlement condition; if so, the settlement module is invoked.

In this solution, by performing abnormal processing on the battery replacement data of the battery pack that does not meet the settlement conditions, and judging again whether the abnormally processed battery pack meets the settlement conditions, it is possible to check whether the battery pack has been misjudged, and to achieve effective settlement. Improve settlement success rate.

Optionally, also include:

Calculation module, used to calculate the proportion of the battery packs for battery swap fee settlement to the number of battery packs of the battery swap vehicle;

A sending module, configured to send the fee settlement result to the settlement requesting party when the proportion of the battery packs for which the battery replacement fee is settled is greater than the proportion threshold.

In this solution, by calculating the proportion of the battery packs for battery exchange fee settlement to the battery pack quantity of the battery exchange vehicle, when the proportion of battery packs for battery exchange fee settlement is not greater than the ratio threshold, an exception can be generated Reminder, to remind the operation and maintenance personnel to check the reasons for the small proportion of verification and conduct investigations; or to estimate the replacement costs of the battery packs that cannot be settled based on the partial replacement costs of the battery packs that have been settled for replacement costs. In this way, the battery replacement costs of all battery packs of the battery replacement vehicle can be obtained, and the success rate of battery replacement fee settlement can be improved.

Optionally, the battery replacement data includes the charging amount of the battery pack; the settlement module includes:

The accumulating unit is used to accumulate the charging capacity of each battery pack contained in the battery pack that meets the settlement condition within the settlement period; the settlement period is the time interval between the last settlement time and the current settlement time;

The settlement unit is used to settle the battery exchange fee according to the accumulated charge amount.

In this solution, the battery replacement fee is settled through the accumulated charging amount, which is simple, convenient and highly accurate.

In a third aspect, an electronic device is provided, including a memory, a processor, and a computer program stored on the memory and operable on the processor, wherein the processor implements any of the above when executing the computer program The method for settling the electricity exchange fee.

In a fourth aspect, a computer-readable storage medium is provided, on which a computer program is stored, and when the computer program is executed by a processor, the method for settling electricity exchange fees described in any one of the above is implemented.

On the basis of conforming to common knowledge in the field, the above-mentioned preferred conditions can be combined arbitrarily to obtain preferred examples of the present invention.

The positive and progressive effect of the present invention lies in: in the embodiment of the present invention, for a battery replacement vehicle that contains multiple battery packs, first group the multiple battery packs, and judge whether each battery pack meets the settlement conditions, which can avoid the The failure of the battery pack to make settlements results in the inability of the entire vehicle to be settled for battery replacement, thereby realizing the effective settlement of battery replacement costs for the battery replacement vehicle.

Description of drawings

Fig. 1 is a flow chart of a method for settling electricity exchange fees provided by an exemplary embodiment of the present invention;

Fig. 2 is a schematic module diagram of a power exchange fee settlement device provided by an exemplary embodiment of the present invention;

Fig. 3 is a schematic structural diagram of an electronic device according to an exemplary embodiment of the present invention.

Detailed ways

The present invention is further illustrated below by means of examples, but the present invention is not limited to the scope of the examples.

Fig. 1 is a flow chart of a battery exchange fee settlement method provided by an exemplary embodiment of the present invention. The battery exchange fee settlement method is applied to the battery exchange service end, and can realize battery exchange vehicles installed with multiple battery packs. For electricity exchange settlement, see Figure 1. The electricity exchange settlement method includes the following steps:

Step 101. Obtain the number of battery packs of the battery-swapping vehicle, and group the battery packs of the battery-swapping vehicle.

The number of battery packs can be provided by the vehicle-mounted terminal of the battery swapping vehicle when the battery is being swapped; or the battery swapping server has pre-stored the corresponding relationship between vehicle identity information or model information and the number of battery packs. According to the corresponding relationship, the number of battery packs matching the vehicle identity information or model information provided by the vehicle-mounted terminal of the replacement vehicle is determined.

In one embodiment, step 101 includes: in response to the battery exchange settlement request of the battery exchange vehicle, determining the number of battery packs of the battery exchange vehicle, and dividing the battery packs contained in the battery exchange vehicle into for at least two battery packs. Wherein, the quantity threshold can be set according to the actual situation, and each battery pack contains at least one battery pack.

In the embodiment of the present invention, when it is determined that the number of battery packs of the battery replacement vehicle is greater than the number threshold, the battery packs are grouped, and when the number of battery packs is small, the battery packs are not grouped, thereby reducing unnecessary calculations.

In one embodiment, the number of divided groups of battery packs of the battery swap vehicle is stored in advance on the battery swap server, and when the battery packs are grouped, the pre-stored number of divided groups of battery packs is obtained, and the battery packs are swapped according to the number of divided groups of battery packs. The battery packs of electric vehicles are grouped. The grouping of battery packs is carried out by using the preset number of battery packs, which has a small amount of calculation and is easy to implement.

Wherein, the number of groups of battery packs may correspond to the identity information of each battery replacement vehicle, or may correspond to the vehicle model of the battery replacement vehicle.

In one embodiment, when grouping battery packs, firstly determine the amount of resources used for settlement of battery exchange fees, and determine the number of battery packs according to the amount of resources; wherein, the amount of resources is positively correlated with the number of groups, and the amount of resources is used for parallel execution Acquisition of battery replacement data for each battery pack and judgment on whether settlement conditions are met. Among them, the amount of resources for the settlement of the battery exchange fee is related to the memory and CPU (central processing unit) performance of the battery exchange server.

For example, the battery replacement vehicle has 6 battery packs. If it is determined that the current amount of resources supports the parallel execution of 3 sets of data, divide the 6 battery packs into three groups, and the number of battery packs in each battery pack is 2 ; If it is determined that the current amount of resources supports the parallel execution of two sets of data, then divide the 6 battery packs into three groups, and the number of battery packs in each group is, for example, 3; if it is determined that the current amount of resources supports 6 groups For the parallel execution of data, the six battery packs are divided into six groups, and the number of battery packs in each group is one. It can be understood that, generally, the number of battery packs in each group is the same, so that the settlement process can be completed at the same time, but in some embodiments, for example, the number of battery packs in each group can be different if they cannot be grouped equally.

The battery packs are grouped according to the amount of resources, so that the number of battery packs always matches the amount of resources, and the power exchange data of the battery packs contained in each battery pack can be processed synchronously to improve settlement efficiency, and there is no need to store the number of battery pack divisions. Can save storage space.

Step 102: Obtain the battery replacement data of the battery packs contained in each battery pack respectively, and judge whether the battery pack satisfies the settlement condition according to the battery replacement data.

When obtaining battery swap data and judging settlement conditions, each battery pack is independent of each other and executed in parallel. On the one hand, it can improve the efficiency of battery swap settlement; The situation of power exchange settlement.

Wherein, the battery replacement data includes at least one of the following parameters: battery code, remaining power of the battery pack, available power, mileage, accumulated charging power, and the like.

Settlement conditions include at least one of the following:

The battery code of the battery pack matches the battery replacement vehicle;

The battery code of the battery pack matches the battery code of the last battery replacement vehicle;

The remaining power of the battery pack was greater than the power threshold when the battery pack was replaced last time; the power threshold can be set according to the actual situation;

The available power of the battery pack is within the first power threshold range; the first power threshold range can be set according to the actual situation;

The difference between the remaining battery power of the battery pack and the remaining battery power when the battery was replaced last time matches the mileage of the battery replacement vehicle;

The accumulative charging power of the battery pack is within the second power threshold range; the second power threshold range can be set according to the actual situation.

When obtaining the battery replacement data, it can be matched according to the battery code of the sampled battery pack, so as to obtain the battery replacement data matching the battery code from the battery replacement server.

Judging whether the battery pack satisfies the settlement conditions according to the battery swap data, so as to judge the legality and health status of the battery pack. If all the battery packs contained in the battery pack meet the preset settlement conditions, it is determined that the battery pack can be settled for battery replacement, and the process goes to step 103 .

In one embodiment, abnormal processing is performed on the battery exchange data of the battery pack that does not meet the settlement conditions, and it is judged whether the battery pack that has undergone abnormal processing meets the settlement conditions. 103. If not, you can ignore the battery pack or generate an abnormal prompt to remind the operation and maintenance personnel to check the battery packs that do not meet the settlement conditions. Exchange settlement.

Step 103: Settle the replacement fee for the battery pack that meets the settlement conditions.

In one embodiment, the battery replacement data includes the charging capacity of the battery pack; the step of settling the battery replacement fee for the battery pack that meets the settlement conditions includes: charging of each battery pack contained in the battery pack that meets the settlement conditions within the accumulated settlement time amount, and settle the replacement fee based on the accumulated charge amount. The settlement time is the time interval between the last settlement time and the current settlement time.

In one embodiment, after the settlement of the electricity replacement fee is completed, the fee settlement result is also sent to the settlement requester, so that the settlement requester pays the electricity replacement fee.

In one embodiment, the method further includes: calculating the proportion of the battery packs for battery exchange fee settlement to the battery pack quantity of the battery exchange vehicle; The fee settlement result is sent to the settlement requesting party. In the case that the proportion of battery packs that are settled for the replacement fee is not greater than the proportion threshold, an abnormal prompt can be generated to remind the operation and maintenance personnel to check and check the reason for the small proportion. Wherein, the ratio threshold can be set according to the actual situation. Alternatively, based on the part of the battery replacement cost of the battery pack for which the battery replacement cost is settled, the power replacement cost of the battery pack that cannot be settled can also be estimated, so as to obtain the power replacement cost of all the battery packs of the battery swap vehicle.

In one embodiment, the pre-authorized charging method is adopted. After the battery exchange is completed, the battery exchange vehicle can leave the exchange station immediately if the balance of the account of the exchange vehicle is sufficient. The liquidation of battery replacement costs saves the time for users of multi-battery battery replacement vehicles to wait for the settlement of battery replacement fees, and at the same time improves the circulation rate of battery replacement stations and improves the efficiency of battery replacement; in addition, it can also freeze battery replacement vehicles according to actual needs Part of the fee in the user's account ensures the safety and flexibility of battery replacement control.

In any of the above schemes, for a battery replacement vehicle that contains multiple battery packs, first group the multiple battery packs, and judge whether each group of battery packs meets the settlement conditions, which can avoid the failure of the battery replacement vehicle due to the failure of some battery packs to be settled. The entire vehicle cannot be settled for battery replacement, so as to realize the effective settlement of battery replacement fees for vehicles with battery replacement.

Corresponding to the foregoing embodiment of the electricity exchange settlement method, the present invention also provides an embodiment of an electricity exchange settlement device.

Fig. 2 is a schematic module diagram of a power exchange fee settlement device provided by an exemplary embodiment of the present invention. The power exchange fee settlement device includes:

The grouping module 21 is used to obtain the battery pack quantity of the battery swap vehicle, and group the battery packs of the battery swap vehicle;

The judging module 22 is used to separately obtain the battery replacement data of the battery packs contained in each battery group, and judge whether the battery pack meets the settlement condition according to the battery replacement data;

The settlement module 23 is configured to settle the battery exchange fee for the battery pack meeting the settlement condition.

Optionally, the grouping module includes:

A determining unit, configured to determine the number of battery packs of the battery swap vehicle in response to the battery swap settlement request of the battery swap vehicle;

A grouping unit, configured to divide the battery packs contained in the battery exchange vehicle into at least two battery packs when the number of the battery packs is greater than a threshold value.

Optionally, the grouping module includes:

A determining unit, configured to determine the amount of resources used for settlement of the electricity exchange fee, and determine the number of battery packs according to the amount of resources;

Wherein, the amount of resources is positively correlated with the number of groups, and the amount of resources is used to obtain battery replacement data of each battery group in parallel and determine whether settlement conditions are satisfied.

Optionally, also include:

An exception processing module, configured to perform exception processing on the battery replacement data of the battery pack that does not meet the settlement conditions;

The judging module is used for judging whether the battery pack after abnormal processing meets the settlement condition; if so, the settlement module is invoked.

Optionally, also include:

Calculation module, used to calculate the proportion of the battery packs for battery swap fee settlement to the number of battery packs of the battery swap vehicle;

A sending module, configured to send the fee settlement result to the settlement requesting party when the proportion of the battery packs for which the battery replacement fee is settled is greater than the proportion threshold.

Optionally, the battery replacement data includes the charging amount of the battery pack; the settlement module includes:

The accumulating unit is used to accumulate the charging capacity of each battery pack contained in the battery pack that meets the settlement condition within the settlement period; the settlement period is the time interval between the last settlement time and the current settlement time;

The settlement unit is used to settle the battery exchange fee according to the accumulated charge amount.

As for the device embodiment, since it basically corresponds to the method embodiment, for related parts, please refer to the part description of the method embodiment. The device embodiments described above are only illustrative, and the units described as separate components may or may not be physically separated, and the components shown as units may or may not be physical units, that is, they may be located in One place, or it can be distributed to multiple network elements. Part or all of the modules can be selected according to actual needs to achieve the purpose of the solution of the present invention. It can be understood and implemented by those skilled in the art without creative effort.

Fig. 3 is a schematic structural diagram of an electronic device according to an exemplary embodiment of the present invention, and shows a block diagram of an exemplary electronic device 30 suitable for implementing an embodiment of the present invention. The electronic device 30 shown in FIG. 3 is only an example, and should not limit the functions and application scope of the embodiments of the present invention.

As shown in FIG. 3 , the electronic device 30 may be in the form of a general-purpose computing device, for example, it may be a server device. Components of the electronic device 30 may include, but are not limited to: at least one processor 31 , at least one memory 32 , and a bus 33 connecting different 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 a volatile memory, such as a random access memory (RAM) 321 and/or a cache memory 322 , and may further include a read only memory (ROM) 323 .

Memory 32 may also include a program tool 325 (or utility) 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 or some combination of these examples may include the realization of the network environment.

The processor 31 executes various functional applications and data processing by running the computer programs stored in the memory 32 , such as the methods provided in any of the above-mentioned embodiments.

Electronic device 30 may also communicate with one or more external devices 34 (eg, keyboards, pointing devices, etc.). Such communication may occur through input/output (I/O) interface 35 . Also, the model-generating electronic device 30 can also communicate with one or more networks (eg, a local area network (LAN), a wide area network (WAN) and/or a public network, such as the Internet) via a network adapter 36 . As shown, network adapter 36 communicates with other modules of model generation electronics 30 via bus 33 . It should be appreciated that although not shown in the figures, other hardware and/or software modules may be used in conjunction with the model generation electronics 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.

It should be noted that although several units/modules or subunits/modules of an electronic device are mentioned in the above detailed description, such division is only exemplary and not mandatory. Actually, according to the embodiment of the present invention, the features and functions of two or more units/modules described above may be embodied in one unit/module. Conversely, the features and functions of one unit/module described above can be further divided to be embodied by a plurality of units/modules.

An embodiment of the present invention further provides a computer-readable storage medium, on which a computer program is stored, and when the program is executed by a processor, the method provided in any of the foregoing embodiments is implemented.

Wherein, the readable storage medium may more specifically include but not limited to: portable disk, hard disk, random access memory, read-only memory, erasable programmable read-only memory, optical storage device, magnetic storage device or any of the above-mentioned the right combination.

In a possible implementation, the embodiment of the present invention can also be implemented in the form of a program product, which includes program code, and when the program product runs on the terminal device, the program code is used to make the terminal device Execute the method for realizing any one of the foregoing embodiments.

Wherein, the program code for executing the present invention can be written in any combination of one or more programming languages, and the program code can be completely executed on the user equipment, partially executed on the user equipment, or used as an independent The package executes, partly on the user device and partly on the remote device, or entirely on the remote device.

Although the specific implementation of the present invention has been described above, those skilled in the art should understand that this is only an example, and the protection scope of the present invention is defined by the appended claims. Those skilled in the art can make various changes or modifications to these embodiments without departing from the principle and essence of the present invention, but these changes and modifications all fall within the protection scope of the present invention.

Claims (10)

1. A power conversion fee settlement method, characterized by comprising:

acquiring the number of battery packs of a battery-changing vehicle, and grouping the battery packs of the battery-changing vehicle;

respectively obtaining the battery pack battery replacement data contained in each group of battery packs, and judging whether the battery packs meet settlement conditions according to the battery pack replacement data;

and carrying out the settlement of the power exchange charge on the battery pack meeting the settlement conditions.

2. The method for clearing power charge according to claim 1, wherein the step of obtaining the number of battery packs of the power conversion vehicle and grouping the battery packs of the power conversion vehicle comprises:

responding to a battery changing settlement request of a battery changing vehicle, and determining the number of battery packs of the battery changing vehicle;

and dividing the battery packs contained in the battery replacing vehicle into at least two battery packs under the condition that the number of the battery packs is larger than a number threshold value.

3. The method for clearing power charge according to claim 1, wherein said step of grouping the batteries of said battery-powered vehicle comprises:

determining a resource amount for settlement of the power exchange fee, and determining the number of the battery packs according to the resource amount;

the resource quantity is positively correlated with the group number, and is used for executing the acquisition of the battery replacement data of each group of battery packs in parallel and judging whether the settlement condition is met or not.

4. The power conversion rate settlement method according to claim 1, further comprising:

performing exception processing on the battery pack battery replacement data which does not meet the settlement conditions;

judging whether the battery pack after exception processing meets the settlement condition or not;

if so, the battery pack is subjected to the settlement of the power exchange fee.

5. The power conversion rate settlement method according to claim 1, further comprising:

calculating the proportion of the battery packs for carrying out the settlement of the power exchange charge to the number of the battery packs of the power exchange vehicle;

and sending the charge settlement result to a settlement requester under the condition that the proportion of the battery pack for carrying out charge settlement is greater than a proportion threshold value.

6. The power conversion rate settlement method according to claim 1, wherein the power conversion data includes a charge amount of a battery pack; the step of settling the electricity exchange fee of the battery pack meeting the settlement conditions comprises the following steps:

accumulating the charge amount of each battery pack contained in the battery pack which satisfies the settlement condition within the settlement time period; the settlement time length is the time interval between the last settlement time and the current settlement time;

and (5) carrying out electricity exchange fee settlement according to the accumulated charge quantity.

7. The power conversion rate settlement method according to claim 1, wherein the settlement conditions include at least one of:

the battery code of the battery pack is matched with the battery-changing vehicle;

the battery code of the battery pack is matched with the battery code of the battery change vehicle which is changed last time;

the residual electric quantity of the battery pack when the battery pack is changed on the battery-changing vehicle last time is larger than an electric quantity threshold value;

the available electric quantity of the battery pack is in a first electric quantity threshold value range;

the difference value between the battery residual capacity of the battery pack and the battery residual capacity when the battery pack is replaced by the battery-powered vehicle last time is matched with the driving mileage of the battery-powered vehicle;

the accumulated charge capacity of the battery pack is within a second capacity threshold range.

8. A power conversion fee settlement apparatus, comprising:

the grouping module is used for obtaining the number of battery packs of the battery-changing vehicle and grouping the battery packs of the battery-changing vehicle;

the judging module is used for respectively acquiring the battery pack battery replacement data contained in each group of battery packs and judging whether the battery packs meet the settlement conditions according to the battery pack replacement data;

and the settlement module is used for performing electricity exchange fee settlement on the battery pack meeting the settlement conditions.

9. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the power conversion fee settlement method according to any one of claims 1 to 7 when executing the computer program.

10. A computer-readable storage medium having stored thereon a computer program, characterized in that the computer program, when executed by a processor, implements the power conversion fee settlement method according to any one of claims 1 to 7.

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