CN108305392B - Abnormal vehicle returning system and method for automatic vehicle leasing - Google Patents

Abstract

The invention relates to an abnormal car returning system and method for automatic car leasing. The problems that in the prior art, the abnormal car returning of the car leasing system needs to be solved manually, the car returning time is long, the efficiency is low, and a user is inconvenient are solved. The system comprises a user side, a server side, a vehicle-mounted side and a plurality of charging piles for renting and buffering, wherein the vehicle-mounted side is arranged on a vehicle, and the user side, the charging pile communication unit and the vehicle-mounted side communication unit are respectively connected with the server-side communication unit. The vehicle-mounted end detects whether the vehicle can normally return; when the abnormal vehicle returning is detected, judging whether the operation enters the abnormal vehicle returning step by a user; after entering the step of abnormal vehicle returning, the server side analyzes the states of the vehicles and the charging piles for vehicle returning, and abnormal vehicle returning operation is carried out according to the states of the vehicles and the charging piles. The invention has the advantages that the abnormal state car returning can be carried out, the problem that the car cannot be returned when the car is returned abnormally by a user is solved, the car returning is more convenient, the working efficiency is higher, and the time is saved.

Description

Abnormal vehicle returning system and method for automatic vehicle leasing

Technical Field

The invention relates to automobile leasing equipment, in particular to an abnormal automobile returning system and method for automatic automobile leasing, which do not need manual service and improve the automobile returning efficiency.

Background

At present, people use vehicles more and more widely, people can use the vehicles for convenience when going out, and the vehicle leasing is developed greatly along with the vehicles. Along with the maturity of technology, the automatic lease system of network is developed in the car lease at present, can carry out automatic lease car returning through electronic equipment, nevertheless still have the abnormal conditions that can't go back at the car returning in-process, all need the manual work to solve at present and just can go back the car, and this process time is long, and it is not high to return car efficiency, inconvenient user operation.

Disclosure of Invention

The invention mainly solves the problems that the abnormal car returning of a car leasing system in the prior art needs to be solved manually, the car returning time is long, the efficiency is low, and a user is inconvenient, and provides the abnormal car returning system and the abnormal car returning method for automatic car leasing, which need manual service and improve the car returning efficiency.

The technical problem of the invention is mainly solved by the following technical scheme: an abnormal vehicle returning system for automatic vehicle renting comprises a user side, a server side, a vehicle-mounted side and a plurality of charging piles for renting and buffering, wherein the server side comprises a vehicle returning abnormal processing unit, a server side processing unit and a server side communication unit which are sequentially connected, the vehicle-mounted side comprises a vehicle-mounted side communication unit, a vehicle-mounted side processing unit, a charging unit, a vehicle contact unit, a vehicle-mounted side state detection unit, a power locking unit and a locking detection unit, the charging unit, the vehicle contact unit, the vehicle-mounted side state detection unit, the power locking unit and the locking detection unit are respectively connected with the vehicle-mounted side processing unit, the vehicle-mounted side processing unit is connected with the vehicle-mounted side communication unit, the charging piles comprise charging pile communication units, charging pile processing units, vehicle contact units and charging pile state detection units, the charging pile state detection units and the charging pile contact units are respectively connected with the charging pile processing, the charging pile processing unit is connected with the charging pile communication unit, when a vehicle enters the charging pile, the charging pile contact unit is connected with the vehicle contact unit, and the user side, the charging pile communication unit and the vehicle-mounted end communication unit are respectively connected with the server side communication unit; the car returning abnormity processing unit judges the states of the vehicle-mounted unit and the charging pile according to the vehicle-mounted unit and the charging pile information uploaded by the vehicle-mounted end, and car returning control is carried out according to the states of the vehicle-mounted unit and the charging pile.

According to the invention, the situation that the vehicle cannot be returned into the charging pile in the renting process can be processed, and the vehicle is returned in an abnormal state by analyzing the states of the corresponding vehicle-mounted end and the charging pile, so that the problem that the vehicle cannot be returned due to the abnormal vehicle returning of a user is solved, meanwhile, the vehicle returning problem is solved without manual service, the vehicle returning is more convenient, the working efficiency is higher, and the time is also saved. And the charging unit calculates the vehicle rental fee according to the vehicle using time and sends the vehicle rental fee to the server side for fee deduction. When the vehicle enters the charging pile, the vehicle contact unit is in contact with and connected with the charging pile contact unit, and the vehicle contact unit is used for detecting whether the vehicle leaves or enters the charging pile so as to record the time of renting and returning the vehicle, and meanwhile, the serial number information of the charging pile is acquired from the charging pile through connection. The power locking unit is used for locking the power of the vehicle after returning the vehicle, so that the vehicle can not be used any more after returning the vehicle. The locking detection unit is used for detecting whether the vehicle is locked with the charging pile or not. The vehicle-mounted end state detection unit is used for detecting whether the vehicle is in a renting state or not. The vehicle-mounted end communication unit is used for receiving and sending information, and the vehicle-mounted end processing unit distributes and processes the information. Fill electric pile state detecting element and detect filling electric pile user state. The charging pile communication unit is used for receiving and sending information, and the charging pile processing unit distributes and processes the information. The server-side communication unit receives the transmitted information, and the server-side processing unit distributes and processes the information. The user side is provided with car renting software which can check the car renting information.

An abnormal car returning method for automatic car leasing comprises the following steps:

s1, detecting whether a vehicle can normally return or not by a vehicle-mounted end;

s2, when the abnormal car returning is detected, sending information to a user side, and judging whether the operation enters the abnormal car returning step by the user;

s3, after entering the abnormal vehicle returning step, the vehicle-mounted end confirms that the vehicle is in contact with the charging pile, obtains the serial number information of the charging pile, and sends the serial number information of the vehicle-mounted end and the charging pile to the server end;

and S4, the server side analyzes the states of the vehicles and the charging piles of the returning vehicles and performs abnormal returning operation according to the states of the vehicles and the charging piles.

According to the invention, the situation that the vehicle cannot be returned into the charging pile in the renting process can be processed, and the vehicle is returned in an abnormal state by analyzing the states of the corresponding vehicle-mounted end and the charging pile, so that the problem that the vehicle cannot be returned due to the abnormal vehicle returning of a user is solved, meanwhile, the vehicle returning problem is solved without manual service, the vehicle returning is more convenient, the working efficiency is higher, and the time is also saved.

As a preferable scheme, the step S1 of detecting whether the vehicle can be normally returned specifically includes the following steps:

s11, a user returns the vehicle to the charging pile and applies for returning the vehicle through a user side, and the server side sends a vehicle returning instruction to the corresponding vehicle-mounted side and the charging pile after receiving the application;

and S12, after receiving the car returning instruction, the charging pile performs locking operation, the vehicle-mounted end detects whether the car is locked with the charging pile through the locking detection unit, if the car is detected to be locked, normal car returning is performed and charging operation is performed, and if the car is detected not to be locked, it is judged that the car cannot be normally returned.

As a preferable scheme, the step S2 specifically includes the following steps:

s21, the vehicle-mounted unit detects that normal vehicle returning cannot be achieved, feedback information is sent to the server side, and the server side sends an abnormal vehicle returning application to the user side;

s22, inputting an instruction by the user side, and if the user side receives an instruction of refusing to enter the abnormal carriage return, ending the operation; and if the user side receives the command of agreeing to enter the abnormal taxi returning, feeding back information to the server side, and entering the abnormal taxi returning step.

As a preferable scheme, the step S3 specifically includes the following steps:

s31, the server side sends an abnormal returning instruction to the vehicle-mounted terminal;

s32, after receiving the instruction, the vehicle-mounted end detects whether the vehicle-mounted end is in contact with the charging pile contact unit through the vehicle contact unit, if not, the server end feeds back a prompt that the vehicle does not enter the charging pile to the user end, and the vehicle-mounted end checks again, and if so, the next step is carried out;

and S33, the vehicle-mounted contact unit reads the serial number information of the charging pile from the charging pile charging unit and sends the serial number information of the charging pile and the serial number information of the vehicle-mounted end of the vehicle-mounted contact unit to the server end.

As a preferable scheme, the step S4 specifically includes the following steps:

s41, the server side sends a state detection request to the corresponding vehicle-mounted side and the corresponding charging pile according to the serial number information;

s42, detecting whether the vehicle-mounted end is in a leasing state and feeding detection information back to the server end by a vehicle-mounted end state detection unit, and detecting whether the charging pile is in an idle state and feeding detection information back to the server end by a charging pile state;

s43, the server side analyzes whether the vehicle-mounted side is in a leasing state and whether the charging pile is in an idle state, if the server side does not judge that abnormal car returning cannot be carried out, feedback information is sent to the user side, abnormal car returning application is sent to the user side again, and then the step S22 is carried out; if the abnormal returning operation is judged to enter;

and S44, the server side sends car returning information to the charging pile and the vehicle-mounted side, the state of the charging pile is adjusted to be a use state, the vehicle-mounted side adjusts the state of the charging pile to be a state to be rented, and meanwhile, the power of the vehicle is locked through the power locking unit.

Therefore, the invention has the advantages that: through the on-vehicle end that the analysis corresponds with fill electric pile state, carry out abnormal state and return the car, solved the user and returned the car problem that the car can't be returned to the car unusually, also need not to solve through artifical service simultaneously and return the car problem, it is more convenient to return the car, and work efficiency is higher, has also saved the time.

Drawings

FIG. 1 is a block diagram of a structure in the present invention.

1-user side 2-server side 3-vehicle side 4-charging pile 21-returning abnormity processing unit 22-server side processing unit 23-server side communication unit 31-vehicle side communication unit 32-vehicle side processing unit 33-vehicle side state detection unit 34-charging unit 35-vehicle contact unit 36-power locking unit 37-locking detection unit 41-charging pile communication unit 42-charging pile processing unit 43-charging pile state detection unit 44-charging pile contact unit.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings.

Example (b):

the abnormal car returning system for automatic car leasing of the embodiment is shown in fig. 1 and comprises a user side 1, a server side 2, a vehicle-mounted side 3 installed on a car and a plurality of charging piles 4 for carrying out leasing buffering.

The server side comprises a return vehicle exception processing unit 21, a server side processing unit 22 and a server side communication unit 23 which are connected in sequence. The vehicle-mounted side includes a vehicle-mounted side communication unit 31, a vehicle-mounted side processing unit 32, a vehicle-mounted state detection unit 33, a billing unit 34, a vehicle contact unit 35, a power lock unit 36, and a lock detection unit 37. The vehicle-mounted terminal state detection unit, the charging unit, the vehicle contact unit, the power locking unit and the locking detection unit are respectively connected with the vehicle-mounted terminal processing unit, and the vehicle-mounted terminal processing unit is connected with the vehicle-mounted terminal communication unit. The charging pile comprises a charging pile communication unit 41, a charging pile processing unit 42, a charging pile state detection unit 43 and a charging pile contact unit 44 which are connected in sequence. The user side, the charging pile communication unit and the vehicle-mounted end communication unit are respectively connected with the server end communication unit. The car returning abnormity processing unit judges the states of the vehicle-mounted unit and the charging pile according to the vehicle-mounted unit and the charging pile information uploaded by the user side, and car returning control is carried out according to the states of the vehicle-mounted unit and the charging pile.

An abnormal car returning method for automatic car leasing comprises the following steps:

s1, detecting whether a vehicle can normally return or not by a vehicle-mounted end;

the method specifically comprises the following steps:

s11, a user returns the vehicle to the charging pile and applies for returning the vehicle through a user side, and the server side sends a vehicle returning instruction to the corresponding vehicle-mounted side and the charging pile after receiving the application;

and S12, after receiving the car returning instruction, the charging pile performs locking operation, the vehicle-mounted end detects whether the car is locked with the charging pile through the locking detection unit, if the car is detected to be locked, normal car returning is performed and charging operation is performed, and if the car is detected not to be locked, it is judged that the car cannot be normally returned.

S2, when the abnormal car returning is detected, sending information to a user side, and judging whether the operation enters the abnormal car returning step by the user;

step S2 specifically includes the following steps:

s21, the vehicle-mounted unit detects that normal vehicle returning cannot be achieved, feedback information is sent to the server side, and the server side sends an abnormal vehicle returning application to the user side;

s22, inputting an instruction by the user side, and if the user side receives an instruction of refusing to enter the abnormal carriage return, ending the operation; and if the user side receives the command of agreeing to enter the abnormal taxi returning, feeding back information to the server side, and entering the abnormal taxi returning step.

S3, after entering the abnormal vehicle returning step, the vehicle-mounted end confirms that the vehicle is in contact with the charging pile, obtains the serial number information of the charging pile, and sends the serial number information of the vehicle-mounted end and the charging pile to the server end;

step S3 specifically includes the following steps:

s31, the server side sends an abnormal returning instruction to the vehicle-mounted terminal;

s32, after receiving the instruction, the vehicle-mounted end detects whether the vehicle-mounted end is in contact with the charging pile contact unit through the vehicle contact unit, if not, the server end feeds back a prompt that the vehicle does not enter the charging pile to the user end, and the vehicle-mounted end checks again, and if so, the next step is carried out;

and S33, the vehicle-mounted contact unit reads the serial number information of the charging pile from the charging pile charging unit and sends the serial number information of the charging pile and the serial number information of the vehicle-mounted end of the vehicle-mounted contact unit to the server end.

And S4, the server side analyzes the states of the vehicles and the charging piles of the returning vehicles and performs abnormal returning operation according to the states of the vehicles and the charging piles.

Step S4 specifically includes the following steps:

s41, the server side sends a state detection request to the corresponding vehicle-mounted side and the corresponding charging pile according to the serial number information;

s42, detecting whether the vehicle-mounted end is in a leasing state and feeding detection information back to the server end by a vehicle-mounted end state detection unit, and detecting whether the charging pile is in an idle state and feeding detection information back to the server end by a charging pile state;

s43, the server side analyzes whether the vehicle-mounted side is in a leasing state and whether the charging pile is in an idle state, if the server side does not judge that abnormal car returning cannot be carried out, feedback information is sent to the user side, abnormal car returning application is sent to the user side again, and then the step S22 is carried out; if the abnormal returning operation is judged to enter;

and S44, the server side sends car returning information to the charging pile and the vehicle-mounted side, the state of the charging pile is adjusted to be a use state, the vehicle-mounted side adjusts the state of the charging pile to be a state to be rented, and meanwhile, the power of the vehicle is locked through the power locking unit.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although terms such as user side, server side, vehicle side, charging post, etc. are used more often herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (4)

1. An abnormal car returning method for automatic car leasing adopts an abnormal car returning system for automatic car leasing, which comprises a user side, a server side, a car-mounted side arranged on a car and a plurality of charging piles for carrying out leasing buffering, wherein the server side comprises a car returning abnormal processing unit, a server side processing unit and a server side communication unit which are sequentially connected, the car-mounted side comprises a car-mounted side communication unit, a car-mounted side processing unit, a charging unit, a car contact unit, a car-mounted side state detection unit, a power locking unit and a locking detection unit, the charging unit, the car contact unit, the car-mounted side state detection unit, the power locking unit and the locking detection unit are respectively connected with the car-mounted side processing unit, the car-mounted side processing unit is connected with the car-mounted side communication unit and comprises a charging pile communication unit, a charging pile processing unit, a charging pile contact unit and a charging pile state, the charging pile state detection unit and the charging pile contact unit are respectively connected with the charging pile processing unit, the charging pile processing unit is connected with the charging pile communication unit, when a vehicle enters the charging pile, the charging pile contact unit is connected with the vehicle contact unit, and the user side, the charging pile communication unit and the vehicle-mounted side communication unit are respectively connected with the server side communication unit; the car returning abnormity processing unit judges the states of the vehicle-mounted unit and the charging pile according to the information of the vehicle-mounted unit and the charging pile uploaded by the vehicle-mounted end, and performs car returning control according to the states of the vehicle-mounted unit and the charging pile; the method is characterized in that: the method comprises the following steps:

s1, detecting whether a vehicle can normally return or not by a vehicle-mounted end;

s2, when the abnormal car returning is detected, sending information to a user side, and judging whether the operation enters the abnormal car returning step by the user;

s3, after entering the abnormal vehicle returning step, the vehicle-mounted end confirms that the vehicle is in contact with the charging pile, obtains the serial number information of the charging pile, and sends the serial number information of the vehicle-mounted end and the charging pile to the server end;

s4, the server side analyzes the states of the vehicles and the charging piles of the returned vehicles, and abnormal vehicle returning operation is carried out according to the states of the vehicles and the charging piles; the method specifically comprises the following steps:

s41, the server side sends a state detection request to the corresponding vehicle-mounted side and the corresponding charging pile according to the serial number information;

s42, detecting whether the vehicle-mounted end is in a leasing state and feeding detection information back to the server end by a vehicle-mounted end state detection unit, and detecting whether the charging pile is in an idle state and feeding detection information back to the server end by a charging pile state;

s43, the server side analyzes whether the vehicle-mounted side is in a leasing state and whether the charging pile is in an idle state, if the server side does not judge that abnormal car returning cannot be carried out, feedback information is sent to the user side, abnormal car returning application is sent to the user side again, and then the step S22 is carried out; if the abnormal returning operation is judged to enter;

and S44, the server side sends car returning information to the charging pile and the vehicle-mounted side, the state of the charging pile is adjusted to be a use state, the vehicle-mounted side adjusts the state of the charging pile to be a state to be rented, and meanwhile, the power of the vehicle is locked through the power locking unit.

2. The abnormal car returning method for the automatic car rental according to claim 1, wherein the step of detecting whether the car can be normally returned in step S1 specifically comprises the steps of:

s11, a user returns the vehicle to the charging pile and applies for returning the vehicle through a user side, and the server side sends a vehicle returning instruction to the corresponding vehicle-mounted side and the charging pile after receiving the application;

and S12, after receiving the car returning instruction, the charging pile performs locking operation, the vehicle-mounted end detects whether the car is locked with the charging pile through the locking detection unit, if the car is detected to be locked, normal car returning is performed and charging operation is performed, and if the car is detected not to be locked, it is judged that the car cannot be normally returned.

3. The abnormal car returning method for automatic car rental according to claim 1, wherein said step S2 comprises the following steps:

s21, the vehicle-mounted unit detects that normal vehicle returning cannot be achieved, feedback information is sent to the server side, and the server side sends an abnormal vehicle returning application to the user side;

s22, inputting an instruction by the user side, and if the user side receives an instruction of refusing to enter the abnormal carriage return, ending the operation; and if the user side receives the command of agreeing to enter the abnormal taxi returning, feeding back information to the server side, and entering the abnormal taxi returning step.

4. The abnormal car returning method for automatic car rental according to claim 2, wherein the step S3 specifically comprises the steps of:

s31, the server side sends an abnormal returning instruction to the vehicle-mounted terminal;

s32, after receiving the instruction, the vehicle-mounted end detects whether the vehicle-mounted end is in contact with the charging pile contact unit through the vehicle contact unit, if not, the server end feeds back a prompt that the vehicle does not enter the charging pile to the user end, and the vehicle-mounted end checks again, and if so, the next step is carried out;

and S33, the vehicle-mounted contact unit reads the serial number information of the charging pile from the charging pile charging unit and sends the serial number information of the charging pile and the serial number information of the vehicle-mounted end of the vehicle-mounted contact unit to the server end.

Images