CN112541807A - Riding electric vehicle leasing and battery sharing service system - Google Patents

Abstract

The invention relates to the field of computer application, in particular to a battery leasing and sharing service system for riding electric vehicles. A battery renting and sharing service system for riding electric vehicles comprises an Internet of things AI management platform, a service terminal, a management platform and a user mobile operation platform. Through the design, the invention provides a riding electric vehicle leasing and battery sharing service system, and realizes unattended riding electric vehicle internet leasing and used lithium battery internet sharing.

Description

Riding electric vehicle leasing and battery sharing service system

Technical Field

The invention relates to the field of computer application, in particular to a battery leasing and sharing service system for riding electric vehicles.

Background

In a city with traffic congestion, an electric bicycle and an electric motorcycle become important transportation tools for daily trips such as people going to and from work, picking up children and the like, especially for people who travel to strange cities for a short time, do business activities, work and study, people often want to use a convenient and quick transportation tool to realize the transportation trips in the city, taxis are too expensive, the buses are too blocked, subways are too crowded, and electric vehicle renting becomes an urgent need of urban traffic, however, the existing electric vehicle renting has the following problems: the existing common electric vehicle adopts an undetachable storage battery with poor endurance and inconvenient charging, and the riding is affected if the battery power is insufficient during riding; the electric vehicle leasing point needs to charge a plurality of storage batteries at the same time, the charging power is overlarge, the charging requirement has serious peak-valley effect, the efficiency is low, and safety accidents are easily caused; the electric vehicle has low value and the leasing deposit is not easy to solve; the rented electric vehicle needs to provide services such as renting service, vehicle inspection, emergency rescue, charging outage and the like, and a large amount of manpower and material resources need to be input; the battery of the electric vehicle is greatly influenced by temperature in winter, the endurance mileage is even less than half of that in summer, and the requirement of endurance in one day can not be provided for many times.

Disclosure of Invention

The invention aims to provide a riding electric vehicle leasing and battery sharing service system to solve at least one technical problem.

In order to achieve the purpose, the invention adopts the following technical scheme:

a riding electric vehicle leasing and battery sharing service system is characterized by comprising an Internet of things AI management platform, a service terminal, a management platform and a user mobile operation platform;

the IOT AI management platform acquires and manages information of the intelligent service terminal, the mobile management platform and the user mobile operation platform in real time through the cloud server;

the service terminal is used for controlling the vehicle and the battery, monitoring the received data information of the vehicle and the battery in real time and feeding back the data information of the battery and the vehicle monitored by the service terminal to the cloud server;

the management platform is used for an administrator to perform management operation and feeding back management operation information of the administrator to the cloud server;

the user mobile operation platform is used for the user to perform leasing operation and feeding back the leasing operation information of the user to the cloud server.

The service terminal monitors the received data information of the vehicle, feeds back the parameter information, the geographic position and other information of the vehicle to the cloud server, determines a processing strategy of the vehicle through the Internet of things AI management platform, and then the service terminal unlocks or locks the received vehicle;

the service terminal monitors the data information of the stored battery, feeds back the parameter information, the electric quantity and other information of the battery to the cloud server, determines a processing strategy of the battery through the AI management platform of the Internet of things, and then the service terminal performs charging, storage or power-off operation and the like on the stored battery.

The management platform comprises a PC management platform and a mobile management platform;

the administrator performs user management, order management, vehicle management, battery management, service terminal management, system management, AI management and the like through the PC management platform;

and the administrator manages the clients, orders, vehicles, batteries, service terminals and the like on site at the mobile terminal through the mobile management platform.

The administrator can perform user management, order management, vehicle management, battery management, service terminal management, system management and AI management through the PC management platform;

the user management comprises management of rental users, owner users, user car return list auditing and service users;

the order management comprises the steps of managing a lease order and a service order;

vehicle management includes managing platform vehicles, personal vehicles, host vehicles;

the battery management comprises a management platform battery, a personal battery and a managed battery;

the service terminal management comprises a management key cabinet and a battery cabinet;

the system management comprises management login management, authority management, task delegation and system test;

the AI management comprises the management of a charging strategy, an allocation strategy and a scheduling strategy.

The administrator can perform order placing management, order management and data management through the mobile management platform;

the order placing management comprises the steps of managing car renting, electricity renting and charging;

the order management comprises the steps of managing an order to be paid, an order to be used and an order to be completed;

the data management comprises personal data management, volume code management and financial data management.

And the user performs operations such as vehicle selection, battery selection, order placing, payment, vehicle taking, battery replacement, vehicle returning, account checking, personal data perfection, emergency rescue and the like through the user mobile operation platform. The user can check the parameter information, the charging state, the real-time electric quantity, the estimated mileage and other information of the battery received and stored by the service terminal through the user mobile operation platform.

Through the design, the invention provides a riding electric vehicle leasing and battery sharing service system, which realizes unattended riding electric vehicle internet leasing and used lithium battery internet sharing;

the design adopts the mobile internet technology, data detection and management are carried out on each battery and vehicle, and the system AI is intelligently matched with the optimal battery vehicle scheme, so that good customer experience is brought;

by adopting big data management, the dynamic intelligent management of geographic positions, personnel, vehicles and batteries is realized, and all elements of the whole leasing system are intelligently managed, so that the leasing efficiency and the customer experience are greatly improved;

the full-internet renting and returning system is comprehensively adopted, unattended operation is realized, a series of renting operations such as ordering, taking a car, riding and returning a car are carried out by a customer, the system is only provided with a small number of third-party emergency service personnel, the system operation cost is greatly saved, and the system operation pressure is reduced;

the sharing leasing scheme of the individual vehicle battery is comprehensively opened, all vehicles and batteries of the individual are simply and conveniently added into the system through flexible modes such as self-holding, joining, hosting and the like, and the efficient configuration and utilization of resources are realized.

Drawings

FIG. 1 is a partial block diagram of the present invention;

FIG. 2 is a schematic diagram of a portion of an interface of a user mobile operations platform according to the present invention;

FIG. 3 is a schematic diagram of a portion of an interface of the mobility management platform of the present invention;

FIG. 4 is a schematic diagram of a portion of an interface of the PC management platform according to the present invention.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings.

As shown in fig. 1 to 4, a riding electric vehicle leasing and battery sharing service system comprises an internet of things AI management platform, a service terminal, a management platform and a user mobile operation platform; the IOT AI management platform acquires and manages information of the intelligent service terminal, the mobile management platform and the user mobile operation platform in real time through the cloud server; the service terminal is used for controlling the vehicle and the battery, monitoring the stored data information of the vehicle and the battery in real time and feeding back the data information of the battery and the vehicle monitored by the service terminal to the cloud server; the management platform is used for the administrator to perform management operation and feeding back management operation information of the administrator to the cloud server; the user mobile operation platform is used for the user to perform leasing operation and feeding back leasing operation information of the user to the cloud server. The cloud server comprises a plurality of station group cloud servers. Through the design, the invention provides a riding electric vehicle leasing and battery sharing service system, which realizes unattended riding electric vehicle internet leasing and used lithium battery internet sharing; the design adopts the mobile internet technology, data detection and management are carried out on each battery and vehicle, and the system AI is intelligently matched with the optimal battery vehicle scheme, so that good customer experience is brought; by adopting big data management, the dynamic intelligent management of geographic positions, personnel, vehicles and batteries is realized, and all elements of the whole leasing system are intelligently managed, so that the leasing efficiency and the customer experience are greatly improved; the full-internet renting and returning system is comprehensively adopted, unattended operation is realized, a series of renting operations such as ordering, taking a car, riding and returning a car are carried out by a customer, the system is only provided with a small number of third-party emergency service personnel, the system operation cost is greatly saved, and the system operation pressure is reduced; the sharing leasing scheme of the individual vehicle battery is comprehensively opened, all vehicles and batteries of the individual are simply and conveniently added into the system through flexible modes such as self-holding, joining, hosting and the like, and the efficient configuration and utilization of resources are realized.

The service terminal monitors the received data information of the vehicle, feeds back parameter information, geographic position and other information of the vehicle to the cloud server, determines a processing strategy of the vehicle through the Internet of things AI management platform, and then the service terminal unlocks or locks the received vehicle; the service terminal monitors the data information of the stored battery, feeds back the parameter information, the electric quantity and other information of the battery to the cloud server, determines a processing strategy of the battery through the AI management platform of the Internet of things, and then the service terminal performs charging, keeping or power-off operation on the stored battery. The service terminal is including trading the electricity cabinet, trades the electricity cabinet including the key cabinet that is used for depositing the vehicle key, be used for depositing the battery cabinet of battery, and the user can open key cabinet and battery cabinet in proper order according to the order suggestion in cell-phone APP, gains vehicle key and battery, can ride after simply installing the battery. The key cabinet can store a plurality of vehicle keys, and the battery cabinet can store a plurality of batteries. The lighting lamp is arranged in the battery replacing cabinet, and after a user opens the cabinet door, the lighting lamp is automatically opened, so that lighting service is provided. The charging data line is arranged in the battery cabinet, the battery is placed in the cabinet, the charging data line is plugged in by a user, the battery information is automatically identified, and charging is completed. The charging is stopped automatically when the battery is fully charged, and various information of the battery is monitored in real time in the charging process, so that the charging safety is ensured. A key identification sensor is arranged in the key cabinet, and after a user returns a key to enter the key cabinet, the key can be identified by the cabinet body, and the returning and taking-out states are determined. The power exchange cabinet is provided with an electric control door lock, the electric control door lock is controlled by a central control mainboard, the central control mainboard receives strategy information of the IOT AI management platform, and the battery cabinet door is opened or closed according to requirements to complete the taking and returning operation.

The management platform comprises a PC management platform and a mobile management platform; the administrator performs user management, order management, vehicle management, battery management, service terminal management, system management, AI management and the like through the PC management platform; and the administrator manages the clients, orders, vehicles, batteries, service terminals and the like on site at the mobile terminal through the mobile management platform. The administrator can perform user management, order management, vehicle management, battery management, service terminal management, system management and AI management through the PC management platform; the user management comprises management of rental users, owner users, user car return list auditing and service users; the order management comprises the steps of managing a lease order and a service order; vehicle management includes managing platform vehicles, personal vehicles, host vehicles; the battery management comprises a management platform battery, a personal battery and a managed battery; the service terminal management comprises a management key cabinet and a battery cabinet; the system management comprises management login management, authority management, task delegation and system test; the AI management comprises the management of a charging strategy, an allocation strategy and a scheduling strategy. When the PC management platform is used for service terminal management, the door opening and closing of the key cabinet and the door opening and closing of the battery cabinet can be controlled, the charging and the power-off of the battery in the battery cabinet are controlled, and the fault locking of the key cabinet and the battery cabinet is controlled. The PC management platform acquires data information of the vehicle and the battery which are monitored and stored in real time by the service terminal through the cloud server, and transmits the control data to the IOT AI management platform. The PC management platform monitors the temperature, the electric quantity, the charging state and the like of the battery received by the service terminal, carries out on-site monitoring on the battery in the service terminal, monitors the data information of the operation and maintenance vehicle, and transmits the corresponding parameter information and the geographic position information of the vehicle to the cloud server through the mobile internet. The PC management platform can control the opening and closing of a battery cabinet door at the service terminal according to the leasing operation information fed back to the cloud server by the user mobile operation platform. The PC management platform can feed back parameter information and geographical position information of a lithium battery BMS unit, a charging plug in the cabinet and a lithium battery identification unit in the service terminal to the cloud server. The administrator can perform order placing management, order management and data management through the mobile management platform; the order placing management comprises the steps of managing car renting, electricity renting and charging; order management comprises managing orders to be paid, orders to be used and orders to be completed; the data management comprises management of personal data, volume code and red packet management, and financial data. The manager can also manage the battery, the vehicle and the garage or the charging cabinet through the mobile management platform, and perform maintenance task operation.

The user carries out operations such as vehicle selection, battery selection, order placing, payment, vehicle taking, battery replacement, vehicle returning, account checking, personal data perfection, emergency rescue and the like through the user mobile operation platform. The user can check the parameter information, the charging state, the real-time electric quantity, the estimated mileage and other information of the battery received and stored by the service terminal through the user mobile operation platform. The user can register or log in through the user mobile operation platform. Or scanning codes through other payment software to log in the user mobile operation platform. For example, the user may enter the user mobile operating platform by scanning a code for a pay treasure.

When a user rents a vehicle or a battery, the user selects services through the user mobile operation platform, and the user can select the services of vehicle renting, electricity renting and charging;

when the user selects car rental, the method comprises the following steps:

step 101, a user selects a rented vehicle and a rented place;

102, ordering and paying by a user;

103, selecting whether the user takes the vehicle by himself, if so, taking the vehicle by scanning the code from the service terminal, and if not, entering step 104;

104, selecting to delegate to pick up the vehicle by a user;

105, selecting whether the client is appointed by the user, if so, taking the vehicle by scanning the code from the client to the service terminal, and if not, entering 106;

step 106, the user pays the fetching and sending cost;

step 107, the service personnel rush the order, and the service personnel rush the order to the service terminal to pick up the vehicle through code scanning;

when the user selects to rent the power, the method comprises the following steps:

step 201, a user selects a rented battery and a rented place;

step 202, ordering payment by a user;

step 203, the user selects whether to take the battery by himself, if so, the user gets the battery by scanning the code at the service terminal, otherwise, the step 204 is entered;

step 204, selecting a consignment to take a battery by a user;

step 205, the user selects whether to designate the offeror, if so, the offeror gets the battery through code scanning from the service terminal, and if not, the step 206 is entered;

step 206, the user pays the fetching and sending fee;

step 207, the service personnel rush the order, and the service personnel rush the order to the service terminal to get the battery through code scanning;

when the user selects charging, the method comprises the following steps:

step 301, a user selects a battery charging place;

step 302, the user arrives at the service terminal;

step 303, the user scans the code to pay for charging;

step 304, the user selects whether to rent electricity temporarily, if so, the step 305 is carried out, otherwise, the user stops charging and retrieving the battery;

step 305, paying the electricity rental fee by the user;

in step 306, the user scans the code to get the battery, and the user stops charging and retrieves the battery.

In the using process of the riding electric vehicle leasing and sharing battery service system, the vehicle taking process of the user comprises the following steps:

step 401, a user enters a user mobile operation platform;

step 402, selecting my option, entering an order to be used, and selecting a vehicle taking guide;

step 403, the user gets the vehicle from the service terminal through code scanning;

step 404, a user takes a key from the key cabinet;

step 405, a user takes a battery from the battery cabinet;

in step 406, the user mounts the battery to the corresponding vehicle and the riding vehicle leaves.

The car returning process of the user comprises the following steps:

step 501, a user arrives at a service terminal;

step 502, a user enters a user mobile operation platform;

step 503, selecting My options, entering a using order, and selecting returning;

step 504, scanning the code and returning the vehicle by the user and taking a picture according to the prompt;

step 505, the user puts the battery in the battery cabinet;

step 506, the user puts the key in the key cabinet;

and step 507, the user moves the operation platform to display that the car returning is successful, and the user leaves by himself. After the user sweeps the sign indicating number, the user removes operation platform and will get, return car information transmission to cloud ware, and PC management platform acquires and gets, returns the switching of car information back control key cabinet and battery cabinet.

The user's electricity-taking process comprises the following steps:

601, a user enters a user mobile operation platform;

step 602, selecting options, entering an order to be used, and selecting a power-taking guide;

step 603, the user gets electricity from the service terminal through code scanning;

step 604, a user takes a battery from the battery cabinet;

step 605, the user mounts the battery to the corresponding vehicle, and the riding vehicle leaves.

The user's return current routine comprises the steps of:

step 701, a user arrives at a service terminal;

step 702, a user enters a user mobile operation platform;

step 703, selecting my option, entering a using order, and selecting power return;

step 704, the user scans the code and returns the power and takes a picture according to the prompt;

step 705, the user places the battery in a battery cabinet;

and step 706, the user mobile operation platform displays that the power is successfully returned, and the user leaves. After the user sweeps the sign indicating number, the user removes operation platform and will get, still the switching of electric information transmission to cloud ware, PC management platform acquisition get, still the switching of electric information back control battery cabinet.

The user orders through the user mobile operation platform, and according to the prompt in the user mobile operation platform, the user automatically arrives at the service terminal, the charged battery is taken out from the battery cabinet, the key is taken out from the key cabinet, and the user automatically rides the bicycle and leaves the bicycle to realize the unattended operation process of taking the bicycle; and in the car returning process, the unattended returning battery and the key are also used, and the background deducts rent from the account according to the returning information provided by the user. The service terminal can be arranged at a developed point of public transportation, and is convenient for the user to take the vehicle before and return the vehicle after the vehicle is taken. A battery cabinet and a key cabinet are placed at a service terminal, the battery cabinet and the key cabinet are connected to a service terminal main control board, and the main control board is connected to a cloud server through a wireless network. The battery cabinet is provided with a plurality of battery placing positions. The battery of the electric vehicle at the service terminal can be replaced, the service can be provided for other batteries of the electric vehicle in the society, and the background system can provide charging, battery replacement or leasing service according to the selection of the user. After the battery is inserted into the battery cabinet, the battery cabinet reads the information of the battery, the charging sequence, the charging current and the charging time are automatically determined according to the battery information and the user information, and in order to guarantee the electricity utilization safety, the battery cabinet only charges one battery at a time. The user clicks a battery taking or returning button on the user mobile operation platform, the corresponding battery cabinet is automatically opened, the user pulls out a power line, takes out or puts in the battery, closes a door after inserting the power line, automatically transmits identification information to the server through the Internet, and transmits data to the mobile phone of the user after the server judges the identification information. The key cabinet is provided with a plurality of key placing positions. The user clicks the button of getting the car or returning the car on the user removes the operation platform, and the key is placed the position storehouse door and will be opened automatically, and the user closes behind the storehouse door. The key cabinet automatically identifies key information, the information is transmitted to the server through the Internet, and the server judges the information and then sends the data to the mobile phone of the user. After the order is finished, the system automatically generates a returning vehicle examination and verification order after the third-party operation and maintenance personnel examine the vehicle according to the condition of booking lease, and the system finishes the lease process after periodical verification. Most of the existing electric vehicle battery technology is developed by adopting lithium batteries, and a GPS (global positioning system) is built in some electric vehicles, so that a technical background is provided for an unattended electric vehicle leasing mode.

The riding electric vehicle leasing and battery sharing service system provided by the invention finds a convenient, quick, efficient and low-cost short trip mode in increasingly congested cities;

the riding electric vehicle leasing and sharing battery service system adopts the Internet, cloud storage, big data, AI intelligence, mobile Internet and an Internet of things management and control system, and realizes the whole process tracking management and control of battery quick replacement, vehicle unattended operation and collection and payment of battery and vehicle maintenance operation in the riding electric vehicle leasing and sharing battery and vehicle service;

each service terminal can manage a plurality of vehicles and a plurality of batteries. According to the operation requirement, the proportion of the vehicle and the batteries is dynamically adjusted to meet the customer requirement, all the batteries are in a fully charged state, and the customer experience is improved;

the service terminal collects GPS information of the vehicle, voltage, current, electric quantity, estimated cruising mileage and other data in real time, and transmits the data to the Internet of things AI management platform through the mobile internet, so that on one hand, riding reference of a leasing customer is provided, convenience is provided for a leasing system to remotely check the state of the vehicle battery, early warning can be realized when abnormality is found, and the vehicle battery can be tracked when being lost;

the user mobile operation platform provides various data display, so that the user can conveniently place an order, take a car, change electricity, return the car and the like, and in addition, the user mobile operation platform provides delivery or electricity service, return or electricity service, emergency rescue and the like, almost unlimited cruising is realized, and the customer experience is improved;

the service terminal continuously services for 24 hours, and the complete background management service system is provided with a management platform, so that a series of service systems are formulated, and emergency rescue, emergency power transmission service and the like are provided. The system is provided with operation and maintenance personnel, the vehicle state is checked regularly, the Internet of things AI management platform can remotely monitor and establish customer files, leased batteries and vehicles can be tracked, recorded and the like, the system can regularly release normal maintenance tasks for the operated vehicles and batteries, and the operation and maintenance personnel regularly send the vehicles to a contract maintenance service shop for maintenance and guarantee user experience.

While the present invention has been described in detail with reference to the preferred embodiments, it should be understood that the above description should not be taken as limiting the invention. Various modifications and alterations to this invention will become apparent to those skilled in the art upon reading the foregoing description. Accordingly, the scope of the invention should be determined from the following claims.

Claims (10)

1. A riding electric vehicle leasing and battery sharing service system is characterized by comprising an Internet of things AI management platform, a service terminal, a management platform and a user mobile operation platform;

the IOT AI management platform acquires and manages information of the intelligent service terminal, the mobile management platform and the user mobile operation platform in real time through the cloud server;

the service terminal is used for controlling the vehicle and the battery, monitoring the received data information of the vehicle and the battery in real time and feeding back the data information of the battery and the vehicle monitored by the service terminal to the cloud server;

the management platform is used for an administrator to perform management operation and feeding back management operation information of the administrator to the cloud server;

the user mobile operation platform is used for the user to perform leasing operation and feeding back the leasing operation information of the user to the cloud server.

2. The riding electric vehicle leasing and battery sharing service system as claimed in claim 1, wherein the service terminal monitors the stored data information of the vehicle, feeds back the parameter information and the geographic position information of the vehicle to the cloud server, determines a processing strategy for the vehicle by the internet of things AI management platform, and further the service terminal unlocks or locks the stored vehicle;

the service terminal monitors the data information of the stored battery, feeds back the parameter information and the electric quantity information of the battery to the cloud server, determines a processing strategy of the battery through the AI management platform of the Internet of things, and then the service terminal performs charging, keeping or power-off operation on the stored battery.

3. The riding electric vehicle leasing and battery sharing service system as recited in claim 1, wherein the management platform comprises a PC management platform, a mobile management platform;

the administrator performs user management, order management, vehicle management, battery management, service terminal management, system management and AI management through the PC management platform;

and the administrator manages the clients, orders, vehicles, batteries and service terminals on the mobile side on site through the mobile management platform.

4. The riding electric vehicle leasing and battery sharing service system as claimed in claim 3, wherein an administrator can perform user management, order management, vehicle management, battery management, service terminal management, system management, AI management through the PC management platform;

the user management comprises management of rental users, owner users, user car return list auditing and service users;

the order management comprises the steps of managing a lease order and a service order;

vehicle management includes managing platform vehicles, personal vehicles, host vehicles;

the battery management comprises a management platform battery, a personal battery and a managed battery;

the service terminal management comprises a management key cabinet and a battery cabinet;

the system management comprises management login management, authority management, task delegation and system test;

the AI management comprises charging strategy management, allocation strategy management and scheduling strategy management;

the administrator can perform order placing management, order management and data management through the mobile management platform;

the order placing management comprises the steps of managing car renting, electricity renting and charging;

the order management comprises the steps of managing an order to be paid, an order to be used and an order to be completed;

the data management comprises personal data management, volume code management and financial data management.

5. The riding electric vehicle leasing and battery sharing service system as claimed in claim 1, wherein a user performs vehicle selection, battery selection, ordering, payment, vehicle taking, battery replacement, vehicle returning, account checking, personal data improvement and emergency rescue operations through the user mobile operation platform.

6. The system of claim 1, wherein a user can view parameter information, charging state, real-time electric quantity and estimated mileage information of the battery received by the service terminal through a user mobile operation platform.

7. The system for renting and sharing the battery for the riding electric vehicles as claimed in claim 1, wherein the user selects a vehicle renting service through the user mobile operation platform, and when the user selects the vehicle renting, the system comprises the following steps:

step 101, a user selects a rented vehicle and a rented place;

102, ordering and paying by a user;

103, selecting whether the user takes the vehicle by himself, if so, taking the vehicle by scanning the code from the service terminal, and if not, entering step 104;

104, selecting to delegate to pick up the vehicle by a user;

105, selecting whether the client is appointed by the user, if so, taking the vehicle by scanning the code from the client to the service terminal, and if not, entering 106;

step 106, the user pays the fetching and sending cost;

and 107, the service personnel rush the order, and the service personnel rush the order to the service terminal to pick up the vehicle through code scanning.

8. The system for renting and sharing the battery for the riding electric vehicles as claimed in claim 1, wherein the user selects the electricity renting service through the user mobile operation platform, and when the user selects the electricity renting, the system comprises the following steps:

step 201, a user selects a rented battery and a rented place;

step 202, ordering payment by a user;

step 203, the user selects whether to take the battery by himself, if so, the user gets the battery by scanning the code at the service terminal, otherwise, the step 204 is entered;

step 204, selecting a consignment to take a battery by a user;

step 205, the user selects whether to designate the offeror, if so, the offeror gets the battery through code scanning from the service terminal, and if not, the step 206 is entered;

step 206, the user pays the fetching and sending fee;

and step 207, the service personnel rush the order, and the service personnel rush the order to the service terminal to obtain the battery through code scanning.

9. The system for renting and sharing the battery of the riding electric vehicle as claimed in claim 1, wherein the user selects the charging service through the user mobile operation platform, and when the user selects the charging, the method comprises the following steps:

step 301, a user selects a battery charging place;

step 302, the user arrives at the service terminal;

step 303, the user scans the code to pay for charging;

step 304, the user selects whether to rent electricity temporarily, if so, the step 305 is carried out, otherwise, the user stops charging and retrieving the battery;

step 305, paying the electricity rental fee by the user;

in step 306, the user scans the code to get the battery, and the user stops charging and retrieves the battery.

10. The system for renting and sharing the battery of the riding electric vehicles as claimed in claim 1, wherein in the using process of the system for renting and sharing the battery of the riding electric vehicles, the process of taking the vehicle by the user comprises the following steps:

step 401, a user enters a user mobile operation platform;

step 402, selecting my option, entering an order to be used, and selecting a vehicle taking guide;

step 403, the user gets the vehicle from the service terminal through code scanning;

step 404, a user takes a key from the key cabinet;

step 405, a user takes a battery from the battery cabinet;

step 406, the user installs the battery to the corresponding vehicle, and the riding vehicle leaves;

the car returning process of the user comprises the following steps:

step 501, a user arrives at a service terminal;

step 502, a user enters a user mobile operation platform;

step 503, selecting My options, entering a using order, and selecting returning;

step 504, scanning the code and returning the vehicle by the user and taking a picture according to the prompt;

step 505, the user puts the battery in the battery cabinet;

step 506, the user puts the key in the key cabinet;

step 507, the user mobile operation platform displays that the car returning is successful, and the user leaves by himself;

the user's electricity-taking process comprises the following steps:

601, a user enters a user mobile operation platform;

step 602, selecting options, entering an order to be used, and selecting a power-taking guide;

step 603, the user gets electricity from the service terminal through code scanning;

step 604, a user takes a battery from the battery cabinet;

step 605, a user installs a battery to a corresponding vehicle, and the riding vehicle leaves;

the user's return current routine comprises the steps of:

step 701, a user arrives at a service terminal;

step 702, a user enters a user mobile operation platform;

step 703, selecting my option, entering a using order, and selecting power return;

step 704, the user scans the code and returns the power and takes a picture according to the prompt;

step 705, the user places the battery in a battery cabinet;

and step 706, the user mobile operation platform displays that the power is successfully returned, and the user leaves.

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