CN111746336A - Intelligent battery replacement method and system for battery replacement station - Google Patents

Abstract

The invention discloses an intelligent battery swapping method and an intelligent battery swapping system for a battery swapping station, wherein the intelligent battery swapping method comprises the following steps: acquiring vehicle information of an electric vehicle reaching a specified area; judging whether the electric vehicle meets a battery replacement requirement or not according to the vehicle information; if so, acquiring the driving mileage data of the electric vehicle; replacing the battery of the electric vehicle; and carrying out battery replacement cost settlement according to the driving mileage data. According to the intelligent battery replacement method for the battery replacement station, the whole battery replacement process of the electric vehicle does not need the participation of working personnel, automatic judgment is carried out in the whole process according to the acquired relevant information of the electric vehicle, the electric vehicle can automatically complete the whole battery replacement process, the settlement of the battery replacement cost is automatically completed, the user experience is improved, and meanwhile, the working efficiency of the battery replacement station is greatly improved.

Description

Intelligent battery replacement method and system for battery replacement station

Technical Field

The invention belongs to the field of application of intelligent battery replacement stations, and particularly relates to an intelligent battery replacement method and system of a battery replacement station.

Background

Due to the technical reasons of overlong charging time of the electric automobile and the like, the later service of the electric automobile becomes a restriction on large-scale development of the electric automobile, and particularly for an operation type vehicle, the disadvantages are more obvious. Along with the development of an intelligent power station switching network in recent years, an electric automobile is changed from charging to switching, and the method is an effective and feasible way for rapidly solving the problem, but in the existing power station switching process, many links can be completed only by manual assistance, for example, vehicle information and vehicle battery identification, charging position information verification, cost settlement and the like, many information in the power switching period need to be verified and confirmed one by one, much time is wasted, particularly, under the condition that working personnel are limited, the power switching process consumes too long time, user experience is poor, and meanwhile, the working efficiency is greatly reduced for the power station switching.

Disclosure of Invention

The invention aims to overcome the defects of poor user experience and low efficiency caused by long time consumption due to the fact that the power swapping process needs human participation in the prior art, and provides an intelligent power swapping method and system for a power swapping station.

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

an intelligent battery swapping method of a battery swapping station comprises the following steps:

acquiring vehicle information of an electric vehicle reaching a specified area;

judging whether the electric vehicle meets a battery replacement requirement or not according to the vehicle information;

if so, replacing the electric vehicle;

acquiring the driving mileage data of the electric vehicle;

and carrying out battery replacement cost settlement according to the driving mileage data.

Preferably, the step of acquiring the mileage data of the electric vehicle specifically includes:

establishing a first communication connection with a vehicle control module of the electric vehicle;

acquiring the real-time mileage of the electric vehicle recorded in the vehicle control module based on the first communication connection;

and acquiring the historical mileage of the electric vehicle which is stored in the battery replacement station and recorded last time, wherein the travel mileage data comprises the real-time mileage and the historical mileage.

Preferably, the step of acquiring the mileage data of the electric vehicle specifically includes:

establishing a second communication connection with a battery pack of the electric vehicle;

acquiring the real-time mileage of the electric vehicle recorded by a battery pack of the electric vehicle based on the second communication connection;

and acquiring the historical mileage of the electric vehicle which is stored in the battery replacement station and recorded last time, wherein the travel mileage data comprises the real-time mileage and the historical mileage.

Preferably, the step of acquiring the mileage data of the electric vehicle specifically includes:

establishing an electrical connection with a battery pack of the electric vehicle;

acquiring real-time mileage recorded by a battery pack of the electric vehicle based on the electric connection;

and acquiring the historical mileage of the electric vehicle which is stored in the battery replacement station and recorded last time, wherein the travel mileage data comprises the real-time mileage and the historical mileage.

Preferably, the step of settling the battery replacement charge according to the driving mileage data specifically includes:

obtaining a mileage difference value of the electric vehicle according to the real-time mileage and the historical mileage;

acquiring mileage expense corresponding to the mileage difference value;

and carrying out battery replacement cost settlement according to the mileage cost.

Preferably, the designated area is a battery replacement level, and in the step of acquiring the mileage data of the electric vehicle, the mileage data is acquired at the battery replacement level;

or, the designated area is an entrance of a change of potential, and in the step of acquiring the driving mileage data of the electric vehicle, the driving mileage data is acquired at the entrance of the change of potential;

or, the designated area is an entrance of the battery swapping station, and in the step of acquiring the mileage data of the electric vehicle, the mileage data is acquired at the entrance of the battery swapping station.

An intelligent battery replacement system of a battery replacement station comprises a vehicle information acquisition module, a judgment module, a battery replacement module, a mileage data acquisition module and a settlement module;

the vehicle information acquisition module is used for acquiring vehicle information of the electric vehicle reaching the specified area;

the judging module is used for judging whether the electric vehicle meets a battery replacement requirement or not according to the vehicle information, and if so, the battery replacement module is called;

the battery replacing module is used for replacing the battery of the electric vehicle;

the mileage data acquisition module is used for acquiring the driving mileage data of the electric vehicle;

and the settlement module is used for carrying out settlement of the electricity replacement cost according to the driving mileage data.

Preferably, the mileage data acquisition module includes a first communication establishing unit;

the first communication establishing unit is used for establishing a first communication connection with a vehicle control module of the electric vehicle;

the mileage data acquisition module is used for acquiring the real-time mileage of the electric vehicle recorded in the vehicle control module based on the first communication connection and also used for acquiring the historical mileage of the electric vehicle recorded last time stored in the battery swapping station;

the trip mileage data includes the real-time mileage and the historical mileage.

Preferably, the mileage data acquisition module includes a second communication establishing unit;

the second communication establishing unit is used for establishing a second communication connection with a battery pack of the electric vehicle;

the mileage data acquisition module is used for acquiring the real-time mileage of the electric vehicle recorded by a battery pack of the electric vehicle based on the second communication connection and also used for acquiring the historical mileage of the electric vehicle recorded last time stored by the battery swapping station;

the trip mileage data includes the real-time mileage and the historical mileage.

Preferably, the mileage data acquisition module includes an electrical connection establishing unit;

the electric connection establishing unit is used for establishing electric connection with a battery pack of the electric vehicle;

the mileage data acquisition module is used for acquiring the real-time mileage recorded by a battery pack of the electric vehicle based on the electric connection and also used for acquiring the historical mileage recorded by the electric vehicle at the latest time and stored by the battery replacement station;

the trip mileage data includes the real-time mileage and the historical mileage.

Preferably, the settlement module is configured to obtain a mileage difference value of the electric vehicle according to the real-time mileage and the historical mileage;

the settlement module is further used for obtaining mileage expense corresponding to the mileage difference value and settling the battery replacement expense according to the mileage expense.

Preferably, the designated area is a battery replacement potential, and the mileage data acquisition module is configured to acquire the mileage data at the battery replacement potential;

or, the designated area is an entrance of a potential change, and the mileage data acquisition module is used for acquiring the driving mileage data at the entrance of the potential change;

or the designated area is an entrance of the power swapping station, and the mileage data acquisition module is used for acquiring the driving mileage data at the entrance of the power swapping station.

The positive progress effects of the invention are as follows: according to the intelligent battery replacement method for the battery replacement station, the whole battery replacement process of the electric vehicle does not need the participation of working personnel, automatic judgment is carried out in the whole process according to the acquired relevant information of the electric vehicle, the electric vehicle can automatically complete the whole battery replacement process, the settlement of the battery replacement cost is automatically completed, the user experience is improved, and meanwhile, the working efficiency of the battery replacement station is greatly improved.

Drawings

Fig. 1 is a flowchart of an intelligent power swapping method of a power swapping station in embodiment 1 of the present invention.

Fig. 2 is a flowchart of an intelligent power swapping method of a power swapping station in embodiment 2 of the present invention.

Fig. 3 is a flowchart of an intelligent power swapping method of a power swapping station in embodiment 3 of the present invention.

Fig. 4 is a flowchart of an intelligent power swapping method of a power swapping station in embodiment 4 of the present invention.

Fig. 5 is a schematic block diagram of an intelligent power swapping system of a power swapping station in embodiment 5 of the present invention.

Fig. 6 is a schematic block diagram of an intelligent power swapping system of a power swapping station according to embodiment 6 of the present invention.

Fig. 7 is a schematic block diagram of an intelligent power swapping system of a power swapping station in embodiment 7 of the present invention.

Fig. 8 is a module schematic diagram of an intelligent power swapping system of a power swapping station in embodiment 8 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

An intelligent battery swapping method of a battery swapping station is shown in fig. 1, and the intelligent battery swapping method includes:

step 10, obtaining vehicle information of an electric vehicle reaching a specified area;

step 20, judging whether the electric vehicle meets the battery replacement requirement or not according to the vehicle information, and if so, executing steps 30 and 40;

step 30, replacing the electric vehicle;

step 40, acquiring the driving mileage data of the electric vehicle;

and step 50, carrying out settlement of the battery replacement cost according to the driving mileage data.

It should be noted that, the step of acquiring and settling the mileage data in steps 40 and 50 may be performed in any link of the electric vehicle before power swapping, during power swapping, and after power swapping.

It should be noted that the designated area is a battery replacement level, and in the step of acquiring the mileage data of the electric vehicle, the mileage data is acquired at the battery replacement level;

or, the designated area is an entrance of a change of potential, and in the step of acquiring the driving mileage data of the electric vehicle, the driving mileage data is acquired at the entrance of the change of potential;

or, the designated area is an entrance of the battery swapping station, and in the step of acquiring the mileage data of the electric vehicle, the mileage data is acquired at the entrance of the battery swapping station.

In the embodiment, in the whole battery replacement process of the motor car, the participation of workers is not needed, the whole process is automatically judged according to the acquired relevant information of the electric vehicle, so that the electric vehicle can automatically complete the whole battery replacement process, the settlement of the battery replacement cost is automatically completed, and the working efficiency of the battery replacement station is greatly improved while the user experience is improved.

Example 2

The intelligent power swapping method of the power swapping station in this embodiment is further improved on the basis of embodiment 1, as shown in fig. 2, step 40 specifically includes:

step 4011, establishing a first communication connection with a vehicle control module of the electric vehicle;

step 4012, obtaining real-time mileage of the electric vehicle recorded in the vehicle control module based on the first communication connection;

step 4013, obtaining historical mileage of the electric vehicle which is stored in the battery replacement station and recorded last time; the mileage data includes real-time mileage and historical mileage.

Step 50 specifically comprises:

and 501, obtaining a mileage difference value of the electric vehicle according to the real-time mileage and the historical mileage, obtaining a mileage expense corresponding to the mileage difference value, and then settling the battery replacement expense according to the mileage expense.

In the embodiment, the real-time mileage of the electric vehicle is acquired based on the communication connection with the vehicle control module of the electric vehicle, and is compared with the historical mileage recorded by the system to obtain the mileage difference value, so that the settlement of the battery replacement cost is further completed.

Example 3

The intelligent power swapping method of the power swapping station in this embodiment is further improved on the basis of embodiment 1, as shown in fig. 3, step 40 specifically includes:

step 4021, establishing a second communication connection with a battery pack of the electric vehicle;

step 4022, acquiring the real-time mileage of the electric vehicle recorded by a battery pack of the electric vehicle based on the second communication connection;

step 4023, acquiring the historical mileage of the electric vehicle recorded last time stored in the battery replacement station; the mileage data includes real-time mileage and historical mileage.

Step 50 specifically comprises:

and 502, obtaining a mileage difference value of the electric vehicle according to the real-time mileage and the historical mileage, obtaining a mileage charge corresponding to the mileage difference value, and then settling the battery replacement charge according to the mileage charge.

In this embodiment, based on the communication connection with the battery pack of the electric vehicle, the real-time mileage recorded by the battery pack is obtained and compared with the historical mileage recorded by the system to obtain a mileage difference value, thereby further completing the settlement of the battery replacement cost.

Example 4

The intelligent battery swapping method of the battery swapping station in this embodiment is further improved on the basis of embodiment 1, and as shown in fig. 4, the step of acquiring the driving mileage data of the electric vehicle specifically includes:

4031, establishing electric connection with a battery pack of the electric vehicle;

4032, acquiring real-time mileage recorded by the battery pack based on the electric connection;

4033, acquiring the historical mileage of the electric vehicle recorded last time stored in the battery replacement station; the mileage data includes real-time mileage and historical mileage.

Step 50 specifically comprises:

step 503, obtaining a mileage difference value of the electric vehicle according to the real-time mileage number and the historical mileage number, obtaining a mileage charge corresponding to the mileage difference value, and then performing battery replacement charge settlement according to the mileage charge.

In this embodiment, based on the electrical connection with the battery pack of the electric vehicle, the battery pack can be directly connected after being detached or placed on the electric vehicle for electrical connection, and the real-time mileage recorded by the battery pack is obtained based on the real-time mileage, and compared with the historical mileage recorded by the system, a mileage difference value is obtained, and settlement of the battery replacement cost is further completed.

Example 5

As shown in fig. 5, the intelligent battery replacement system of a battery replacement station comprises a vehicle information acquisition module 1, a judgment module 2, a battery replacement module 3, a mileage data acquisition module 4 and a settlement module 5;

the vehicle information acquisition module 1 is used for acquiring vehicle information of an electric vehicle reaching a specified area;

the judging module 2 is used for judging whether the electric vehicle meets a battery replacement requirement according to the vehicle information, and if so, the battery replacement module 3 is called;

the battery replacing module 3 is used for replacing the battery of the electric vehicle;

the mileage data acquiring module 4 is used for acquiring the driving mileage data of the electric vehicle;

and the settlement module 5 is used for settling the battery replacement cost according to the driving mileage data.

It should be noted that the action of acquiring the data of the driving mileage and performing settlement by the settlement module 5 may be performed in any one of the links before, during and after the battery replacement of the electric vehicle.

The designated area is a battery replacement potential, and the mileage data acquisition module 4 is used for acquiring the driving mileage data at the battery replacement potential;

or, the designated area is an entrance of a potential change, and the mileage data acquiring module 4 is configured to acquire the mileage data at the entrance of the potential change;

or, the designated area is an entrance of the power swapping station, and the mileage data acquiring module 4 is configured to acquire the driving mileage data at the entrance of the power swapping station.

In the embodiment, in the whole battery replacement process of the motor car, the participation of workers is not needed, the whole process is automatically judged according to the acquired relevant information of the electric vehicle, so that the electric vehicle can automatically complete the whole battery replacement process, the settlement of the battery replacement cost is automatically completed, and the working efficiency of the battery replacement station is greatly improved while the user experience is improved.

Example 6

The intelligent battery swapping system of the battery swapping station of this embodiment is further improved on the basis of embodiment 5, as shown in fig. 6, the mileage data acquiring module 4 includes a first communication establishing unit 41;

the first communication establishing unit 41 is configured to establish a first communication connection with a vehicle control module of the electric vehicle;

the mileage data acquisition module 4 is configured to acquire the real-time mileage of the electric vehicle recorded in the vehicle control module based on the first communication connection, and is further configured to acquire the historical mileage of the electric vehicle recorded last time, which is stored in the battery swap station;

the trip mileage data includes the real-time mileage and the historical mileage.

The settlement module 5 is used for obtaining a mileage difference value of the electric vehicle according to the real-time mileage and the historical mileage;

the settlement module 5 is further configured to obtain mileage fees corresponding to the mileage difference values, and settle the battery replacement fees according to the mileage fees.

In the embodiment, the real-time mileage of the electric vehicle is acquired based on the communication connection with the vehicle control module of the electric vehicle, and is compared with the historical mileage recorded by the system to obtain the mileage difference value, so that the settlement of the battery replacement cost is further completed.

Example 7

The intelligent battery swapping system of the battery swapping station of this embodiment is further improved on the basis of embodiment 5, as shown in fig. 7, the mileage data acquiring module 4 includes a second communication establishing unit 42;

the second communication establishing unit 42 is configured to establish a second communication connection with a battery pack of the electric vehicle;

the mileage data acquisition module 4 is configured to acquire a real-time mileage of the electric vehicle recorded by a battery pack of the electric vehicle based on the second communication connection, and is further configured to acquire a historical mileage of the electric vehicle recorded last time stored by the battery swapping station;

the trip mileage data includes the real-time mileage and the historical mileage.

The settlement module 5 is used for obtaining a mileage difference value of the electric vehicle according to the real-time mileage and the historical mileage;

the settlement module 5 is further configured to obtain mileage fees corresponding to the mileage difference values, and settle the battery replacement fees according to the mileage fees.

In this embodiment, based on the communication connection with the battery pack of the electric vehicle, the real-time mileage recorded by the battery pack is obtained and compared with the historical mileage recorded by the system to obtain a mileage difference value, thereby further completing the settlement of the battery replacement cost.

Example 8

The intelligent battery swapping system of the battery swapping station of this embodiment is further improved on the basis of embodiment 5, as shown in fig. 8, the mileage data acquiring module 4 includes an electrical connection establishing unit 43;

the electrical connection establishing unit 43 is used for establishing electrical connection with a battery pack of the electric vehicle;

the mileage data acquisition module 4 is used for acquiring the real-time mileage recorded by a battery pack of the electric vehicle based on the electric connection and also used for acquiring the historical mileage recorded by the electric vehicle at the latest time and stored by the battery replacement station;

the trip mileage data includes the real-time mileage and the historical mileage.

The settlement module 5 is used for obtaining a mileage difference value of the electric vehicle according to the real-time mileage and the historical mileage;

the settlement module 5 is further configured to obtain mileage fees corresponding to the mileage difference values, and settle the battery replacement fees according to the mileage fees.

In this embodiment, based on the electrical connection with the battery pack of the electric vehicle, the battery pack can be directly connected after being detached or placed on the electric vehicle for electrical connection, and the real-time mileage recorded by the battery pack is obtained based on the real-time mileage, and compared with the historical mileage recorded by the system, a mileage difference value is obtained, and settlement of the battery replacement cost is further completed.

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 (12)

1. An intelligent battery replacement method for a battery replacement station is characterized by comprising the following steps:

acquiring vehicle information of an electric vehicle reaching a specified area;

judging whether the electric vehicle meets a battery replacement requirement or not according to the vehicle information;

if so, replacing the electric vehicle;

acquiring the driving mileage data of the electric vehicle;

and carrying out battery replacement cost settlement according to the driving mileage data.

2. The intelligent power swapping method for the power swapping station as claimed in claim 1, wherein the step of acquiring the mileage data of the electric vehicle specifically comprises:

establishing a first communication connection with a vehicle control module of the electric vehicle;

acquiring the real-time mileage of the electric vehicle recorded in the vehicle control module based on the first communication connection;

and acquiring the historical mileage of the electric vehicle which is stored in the battery replacement station and recorded last time, wherein the travel mileage data comprises the real-time mileage and the historical mileage.

3. The intelligent power swapping method for the power swapping station as claimed in claim 1, wherein the step of acquiring the mileage data of the electric vehicle specifically comprises:

establishing a second communication connection with a battery pack of the electric vehicle;

acquiring the real-time mileage of the electric vehicle recorded by a battery pack of the electric vehicle based on the second communication connection;

and acquiring the historical mileage of the electric vehicle which is stored in the battery replacement station and recorded last time, wherein the travel mileage data comprises the real-time mileage and the historical mileage.

4. The intelligent power swapping method for the power swapping station as claimed in claim 1, wherein the step of acquiring the mileage data of the electric vehicle specifically comprises:

establishing an electrical connection with a battery pack of the electric vehicle;

acquiring real-time mileage recorded by a battery pack of the electric vehicle based on the electric connection;

and acquiring the historical mileage of the electric vehicle which is stored in the battery replacement station and recorded last time, wherein the travel mileage data comprises the real-time mileage and the historical mileage.

5. The intelligent battery swapping method for the battery swapping station as claimed in any one of claims 2 to 4, wherein the step of performing the battery swapping fee settlement according to the driving mileage data specifically comprises:

obtaining a mileage difference value of the electric vehicle according to the real-time mileage and the historical mileage;

acquiring mileage expense corresponding to the mileage difference value;

and carrying out battery replacement cost settlement according to the mileage cost.

6. The intelligent power swapping method of the power swapping station as in claim 1,

the designated area is a switching potential, and in the step of acquiring the driving mileage data of the electric vehicle, the driving mileage data is acquired at the switching potential;

or, the designated area is an entrance of a change of potential, and in the step of acquiring the driving mileage data of the electric vehicle, the driving mileage data is acquired at the entrance of the change of potential;

or, the designated area is an entrance of the battery swapping station, and in the step of acquiring the mileage data of the electric vehicle, the mileage data is acquired at the entrance of the battery swapping station.

7. An intelligent battery replacement system of a battery replacement station is characterized by comprising a vehicle information acquisition module, a judgment module, a battery replacement module, a mileage data acquisition module and a settlement module;

the vehicle information acquisition module is used for acquiring vehicle information of the electric vehicle reaching the specified area;

the judging module is used for judging whether the electric vehicle meets a battery replacement requirement or not according to the vehicle information, and if so, the battery replacement module is called;

the battery replacing module is used for replacing the battery of the electric vehicle;

the mileage data acquisition module is used for acquiring the driving mileage data of the electric vehicle;

and the settlement module is used for carrying out settlement of the electricity replacement cost according to the driving mileage data.

8. The intelligent power swapping system of a power swapping station of claim 7, wherein the mileage data acquisition module comprises a first communication establishment unit;

the first communication establishing unit is used for establishing a first communication connection with a vehicle control module of the electric vehicle;

the mileage data acquisition module is used for acquiring the real-time mileage of the electric vehicle recorded in the vehicle control module based on the first communication connection and also used for acquiring the historical mileage of the electric vehicle recorded last time stored in the battery swapping station;

the trip mileage data includes the real-time mileage and the historical mileage.

9. The intelligent power swapping system of a power swapping station as in claim 7, wherein the mileage data acquisition module comprises a second communication establishing unit;

the second communication establishing unit is used for establishing a second communication connection with a battery pack of the electric vehicle;

the mileage data acquisition module is used for acquiring the real-time mileage of the electric vehicle recorded by a battery pack of the electric vehicle based on the second communication connection and also used for acquiring the historical mileage of the electric vehicle recorded last time stored by the battery swapping station;

the trip mileage data includes the real-time mileage and the historical mileage.

10. The intelligent power swapping system of a power swapping station as in claim 7, wherein the mileage data acquisition module comprises an electrical connection establishment unit;

the electric connection establishing unit is used for establishing electric connection with a battery pack of the electric vehicle;

the mileage data acquisition module is used for acquiring the real-time mileage recorded by a battery pack of the electric vehicle based on the electric connection and also used for acquiring the historical mileage recorded by the electric vehicle at the latest time and stored by the battery replacement station;

the trip mileage data includes the real-time mileage and the historical mileage.

11. The intelligent battery swapping system of any one of claims 8-10, wherein the settlement module is configured to obtain a mileage difference value of the electric vehicle according to the real-time mileage and the historical mileage;

the settlement module is further used for obtaining mileage expense corresponding to the mileage difference value and settling the battery replacement expense according to the mileage expense.

12. The intelligent power swapping system of a power swapping station as claimed in claim 7, wherein the designated area is a swapping potential, and the mileage data acquisition module is configured to acquire the mileage data at the swapping potential;

or, the designated area is an entrance of a potential change, and the mileage data acquisition module is used for acquiring the driving mileage data at the entrance of the potential change;

or the designated area is an entrance of the power swapping station, and the mileage data acquisition module is used for acquiring the driving mileage data at the entrance of the power swapping station.

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