CN112258739A - Novel no-card on-line time-sharing leasing system of fuel cell hydrogen energy automobile - Google Patents

Abstract

The invention provides a novel non-clamping on-line time-sharing leasing system of a fuel cell hydrogen energy automobile, which comprises: the system comprises a mobile terminal APP, a cloud server and a vehicle-mounted leasing service logic processing unit; the mobile terminal APP comprises: the system comprises an appointment module, a payment module and a verification module; the vehicle-mounted lease service logic processing unit is installed inside a vehicle-mounted T-BOX module of an automobile to be leased; the mobile terminal APP is connected with the cloud server in a wireless communication mode; the cloud server is connected with the vehicle-mounted rental service logic processing unit in a wireless communication mode; performing on-line vehicle reservation through a reservation module; checking the off-line vehicle through a checking module; the payment module is used for completing payment; the beneficial effects provided by the invention are as follows: the automobile service renting system realizes the cardless renting of automobile services, and meets the requirements of free renting of automobiles, instant use, unattended operation, manned service and self-driving travel of users.

Description

Novel no-card on-line time-sharing leasing system of fuel cell hydrogen energy automobile

Technical Field

The invention relates to the field of vehicle-mounted systems, in particular to a novel non-clamping on-line time-sharing leasing system of a fuel cell hydrogen energy automobile.

Background

At present, a mature leasing system generally adopts a billing scheme, each lease needs manual participation in the operation process, and a self-service leasing mode cannot be realized. In addition, manual management of keys is mostly changed into internet type management by time-sharing leasing systems made by some domestic organizations, time-sharing leasing is realized, and online interaction of leasing APP, backstage and vehicles is not really realized. The user can have the demand of freely renting, taking and using at any time, unattended, someone serving and self-driving travel, and the user can easily enjoy the whole city, integrates business and leisure, and enjoys more wisdom, higher efficiency and lower carbon travel.

Disclosure of Invention

In view of the above, the invention aims to solve the problem that manual participation is required in the existing automobile leasing system, and meets the requirements of free automobile leasing, instant use at any time, unattended operation, manned service and self-driving traveling.

The invention provides a novel non-clamping on-line time-sharing leasing system of a fuel cell hydrogen energy automobile, which specifically comprises the following steps:

the system comprises a mobile terminal APP, a cloud server and a vehicle-mounted leasing service logic processing unit;

the mobile terminal APP comprises: the system comprises an appointment module, a payment module, a verification module and a car returning module;

the vehicle-mounted lease service logic processing unit is installed inside a vehicle-mounted T-BOX module of an automobile to be leased;

the mobile terminal APP is connected with the cloud server in a wireless communication mode; the cloud server is connected with the vehicle-mounted rental service logic processing unit in a wireless communication mode;

the novel no-card on-line time-sharing leasing system of the fuel cell hydrogen energy automobile comprises the following working procedures:

s101: the user finishes the model selection reservation of the on-line rental car from the cloud server through the reservation module;

s102: a user goes to offline to check information of a vehicle to be leased, photographs are taken through the check module, and a state photograph before the vehicle is used is uploaded to the cloud server;

s103: the cloud server receives the photo information of the checking module, and after studying and judging, sends a car renting confirmation instruction to a vehicle-mounted renting business logic processing unit of the car to be rented;

s104: the vehicle-mounted lease service logic processing unit controls the automobile to be leased to be unlocked and sends the information of starting timing and charging to the payment module through the cloud server;

s105: the user normally uses the rental car, after the use is finished, the user uploads the information after the use of the car through the verification module and takes a picture, and the picture of the state after the use of the car is uploaded to the cloud server;

s106: the cloud server receives the state photo of the vehicle after use, compares the state photo of the vehicle before use with the state photo of the vehicle after use, and issues lease fees to the payment module after the condition photo of the vehicle before use and the state photo of the vehicle after use are confirmed to be consistent;

s107: the user finishes the payment of the rental fee through the payment module, and the cloud server issues a locking instruction to the vehicle-mounted rental service logic processing unit; the vehicle-mounted lease service logic processing unit controls locking of an automobile to be leased;

s108: and (6) ending.

The beneficial effects provided by the invention are as follows: the automobile service renting system realizes the cardless renting of automobile services, and meets the requirements of free renting of automobiles, instant use, unattended operation, manned service and self-driving travel of users.

Drawings

FIG. 1 is a structural diagram of a novel non-clamping on-line time-sharing leasing system of a fuel cell hydrogen energy automobile according to the invention;

fig. 2 is a flowchart illustrating a detailed use of the system according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be further described with reference to the accompanying drawings.

Referring to fig. 1, a novel card-less online time-sharing leasing system for a fuel cell hydrogen energy vehicle includes the following components:

the system comprises a mobile terminal APP, a cloud server and a vehicle-mounted leasing service logic processing unit;

the mobile terminal APP comprises: the system comprises an appointment module, a payment module, a verification module and a car returning module;

the vehicle-mounted lease service logic processing unit is installed inside a vehicle-mounted T-BOX module of an automobile to be leased;

the mobile terminal APP is connected with the cloud server in a wireless communication mode; the cloud server is connected with the vehicle-mounted rental service logic processing unit in a wireless communication mode;

the novel no-card on-line time-sharing leasing system of the fuel cell hydrogen energy automobile comprises the following working procedures:

s101: the user finishes the model selection reservation of the on-line rental car from the cloud server through the reservation module;

s102: a user goes to offline to check information of a vehicle to be leased, photographs are taken through the check module, and a state photograph before the vehicle is used is uploaded to the cloud server;

s103: the cloud server receives the photo information of the checking module, and after studying and judging, sends a car renting confirmation instruction to a vehicle-mounted renting business logic processing unit of the car to be rented;

s104: the vehicle-mounted lease service logic processing unit controls the automobile to be leased to be unlocked and sends the information of starting timing and charging to the payment module through the cloud server;

s105: the user normally uses the rental car, after the use is finished, the user uploads the information after the use of the car through the verification module and takes a picture, and the picture of the state after the use of the car is uploaded to the cloud server;

s106: the cloud server receives the state photo of the vehicle after use, compares the state photo of the vehicle before use with the state photo of the vehicle after use, and issues lease fees to the payment module after the condition photo of the vehicle before use and the state photo of the vehicle after use are confirmed to be consistent;

s107: the user finishes the payment of the rental fee through the payment module, and the cloud server issues a locking instruction to the vehicle-mounted rental service logic processing unit; the vehicle-mounted lease service logic processing unit controls locking of an automobile to be leased;

s108: and (6) ending.

In step S102, when the user goes to the offline for checking information of the vehicle to be leased, if the vehicle to be leased is significantly damaged, the user makes a cancellation reservation or a re-reservation through the reservation module.

The mobile terminal APP also comprises a parking module; the user stops the rental car for a short time in the midway during the use process of the rental car, and the parking module is used for completing the function of parking the rental car; the cloud server receives the demand information of the parking module and issues a control instruction to the vehicle-mounted rental service logic processing unit; and the vehicle-mounted rental business logic unit controls rental vehicle locking.

And after the user performs the function of parking and not returning the car through the parking module, unlocking the rented car through the module again so as to continue using the rented car service.

In the invention, taking practical use as an embodiment, a more detailed implementation manner of the system in practical use is provided as follows:

referring to fig. 2, fig. 2 is a flow chart illustrating a detailed usage of the system according to an embodiment of the present invention;

the user operates the mobile terminal APP; the APP prompts whether registration is carried out, if so, the user logs in according to the registered account (the account comprises a mobile phone number, a check code and a password, and if the three are successfully checked correspondingly, the login is successful); otherwise, the user registers the user through the registration module, wherein the registration information comprises identity information, a mobile phone number, a verification code and an account password; the identity information includes: photos of the front and the back of the identity card and a driving license; after the registration passes the verification, the user logs in the mobile terminal APP;

a user uses an appointment module of the mobile terminal APP to reserve and rent a car; before the car renting reservation service is carried out, the APP terminal automatically detects whether an unpaid order exists before the user uses the car renting reservation service, if so, the user manually finishes payment of an old order, and then the car renting reservation module carries out car renting reservation;

(the user can also go to the off-line free vehicle which can be rented without on-line reservation and select reservation or direct rental by the reservation module; if the user selects reservation on-line, the reserved vehicle enters the waiting countdown for 30min, and the user can select rental or not within 30 min.)

After the user finishes the reservation, the user goes to the center of the off-line rental car, clicks to unlock the car to be rented, and starts to count down for 5 minutes; within 5 minutes, uploading a vehicle appearance photo by a user through the verification module, checking whether the appearance has obvious defects, if so, filling vehicle information into the verification module by the user to be damaged, selecting whether to continue renting, and if the user abandons renting, ending the process; if the user continues to rent, the cloud server issues an unlocking instruction to the vehicle-mounted leasing service logic processing unit, and the vehicle-mounted T-BOX periodically and continuously issues the unlocking instruction to the BCM; unlocking the vehicle, namely after a user steps on a brake pedal to start the vehicle, enabling a BDM (PEPS) default key to be legal and passing authentication; the VCU of the whole vehicle and the T-BOX of the vehicle pass the authentication and receive the power unlocking instruction; the whole vehicle ON gear is electrified normally, READY is ON, and charging is started; the method comprises the steps that a user starts to normally start a vehicle to run, and the parking behavior of the user is detected in the running process; a user gets off the vehicle, selects a 'parking function' through the parking module, locks the vehicle door through the vehicle-mounted T-BOX at the moment, and sends a prompt for reminding whether to return the vehicle to the user in a cycle of 10 min; if the user returns the automobile, the vehicle-mounted T-BOX checks the state of returning the automobile, wherein the state comprises whether the gear of the automobile is OFF, whether the door window is completely closed and whether the automobile is in an OFF-line station, and on the premise that the three conditions are met (if the gear of the automobile is not OFF, the APP at the mobile terminal prompts that the power supply is not closed, and retries after closing is required; if the door window is not completely closed, the APP at the mobile terminal prompts that the door window is not closed, and retries after closing is required; if the automobile is judged not to be in the designated station, the APP at the mobile terminal prompts that the automobile is not returned within the allowed range and is required to be parked to the designated station), the user uploads the used automobile photos through the checking module, and colludes the normal or damaged or failed; after the leasing is finished, the charging is stopped; the vehicle-mounted T-BOX sends a vehicle locking instruction to the BCM and feeds a leasing state back to the cloud server; and the cloud server generates and settles the order payment, the user pays through the payment module and feeds back the payment result to the cloud server, and the leasing process is finished.

The beneficial effects provided by the invention are as follows: the automobile service renting system realizes the cardless renting of automobile services, and meets the requirements of free renting of automobiles, instant use, unattended operation, manned service and self-driving travel of users.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (5)

1. The utility model provides a novel no card of fuel cell hydrogen can car divides the on-line timesharing lease system which characterized in that: the method specifically comprises the following steps: the system comprises a mobile terminal APP, a cloud server and a vehicle-mounted leasing service logic processing unit;

the mobile terminal APP comprises: the system comprises an appointment module, a payment module and a verification module;

the vehicle-mounted lease service logic processing unit is installed inside a vehicle-mounted T-BOX module of an automobile to be leased;

the mobile terminal APP is connected with the cloud server in a wireless communication mode; the cloud server is connected with the vehicle-mounted rental service logic processing unit in a wireless communication mode;

the novel no-card on-line time-sharing leasing system of the fuel cell hydrogen energy automobile comprises the following working procedures:

s101: the user finishes the model selection reservation of the on-line rental car from the cloud server through the reservation module;

s102: a user goes to offline to check information of a vehicle to be leased, photographs are taken through the check module, and a state photograph before the vehicle is used is uploaded to the cloud server;

s103: the cloud server receives the photo information of the checking module, and after studying and judging, sends a car renting confirmation instruction to a vehicle-mounted renting business logic processing unit of the car to be rented;

s104: the vehicle-mounted lease service logic processing unit controls the automobile to be leased to be unlocked and sends the information of starting timing and charging to the payment module through the cloud server;

s105: the user normally uses the rental car, after the use is finished, the user uploads the information after the use of the car through the verification module and takes a picture, and the picture of the state after the use of the car is uploaded to the cloud server;

s106: the cloud server receives the state photo of the vehicle after use, compares the state photo of the vehicle before use with the state photo of the vehicle after use, and issues lease fees to the payment module after the condition photo of the vehicle before use and the state photo of the vehicle after use are confirmed to be consistent;

s107: the user finishes the payment of the rental fee through the payment module, and the cloud server issues a locking instruction to the vehicle-mounted rental service logic processing unit; the vehicle-mounted lease service logic processing unit controls locking of an automobile to be leased;

s108: and (6) ending.

2. The system of claim 1, wherein the system comprises: in step S102, when the user goes to the offline for checking information of the vehicle to be leased, if the vehicle to be leased is significantly damaged, the user makes a cancellation reservation or a re-reservation through the reservation module.

3. The system of claim 1, wherein the system comprises: the mobile terminal APP also comprises a parking module; the user temporarily parks in the midway during the use process of the rental car, and the parking module is used for completing the function of parking and not returning the rental car.

4. The system of claim 3, wherein the system comprises: and after the user performs the function of parking and not returning the car through the parking module, unlocking the rented car through the module again so as to continue using the rented car service.

5. The system of claim 1, wherein the system comprises: the mobile terminal APP further comprises a registration module, the user registers through the registration module, and then corresponding functions are completed through the reservation module, the payment module and the verification module.

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