WO2020103903A1 - Procédé et système de retour de véhicule pour un véhicule public - Google Patents

Procédé et système de retour de véhicule pour un véhicule public

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Publication number
WO2020103903A1
WO2020103903A1 PCT/CN2019/119938 CN2019119938W WO2020103903A1 WO 2020103903 A1 WO2020103903 A1 WO 2020103903A1 CN 2019119938 W CN2019119938 W CN 2019119938W WO 2020103903 A1 WO2020103903 A1 WO 2020103903A1
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WO
WIPO (PCT)
Prior art keywords
vehicle
control device
server
information
state information
Prior art date
Application number
PCT/CN2019/119938
Other languages
English (en)
Chinese (zh)
Inventor
岑健
尹雅敏
朱玉
李福伟
Original Assignee
永安行科技股份有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from CN201811407662.5A external-priority patent/CN109410464A/zh
Priority claimed from CN201811408877.9A external-priority patent/CN109410465A/zh
Application filed by 永安行科技股份有限公司 filed Critical 永安行科技股份有限公司
Publication of WO2020103903A1 publication Critical patent/WO2020103903A1/fr

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Classifications

    • GPHYSICS
    • G08SIGNALLING
    • G08GTRAFFIC CONTROL SYSTEMS
    • G08G1/00Traffic control systems for road vehicles

Definitions

  • the invention relates to the technical field of public vehicle leasing, in particular to a method and system for returning a public vehicle.
  • the present invention provides a method and system for returning a public vehicle.
  • the present invention is provided with a control device and an electronic lock on the vehicle, by establishing a communication connection between the control device, the electronic lock and the server on the vehicle, Use their cooperation to monitor the current state of the vehicle, and control the vehicle to automatically lock the lock remotely or in short range according to the current state of the vehicle, to avoid the loss of the user forgetting to lock the lock.
  • one aspect of the present invention provides a method for returning a public vehicle, which includes the following steps:
  • the vehicle is placed in the parking rack, and the induction device on the parking rack senses the identification device on the vehicle, generates an in-place message and sends it to the control device on the vehicle, or
  • the vehicle is placed in the parking rack, and the induction device on the vehicle senses the identification device on the parking rack, generates an in-place message and sends it to the control device on the vehicle, or
  • the induction device on the vehicle senses the identification signal in the parking area, generates an in-place information and sends it to the control device on the vehicle,
  • the control device obtains the current state information of the vehicle based on the presence information, and sends the current state information to the server,
  • the server feeds back a blocking instruction to the control device,
  • the control device sends a blocking signal to the electronic lock on the vehicle according to the blocking instruction, and the electronic lock locks the vehicle according to the blocking signal,
  • the control device sends a return request to the server
  • the server ends the charging procedure of the vehicle according to the vehicle return request.
  • the control device After receiving the in-position information, the control device obtains the current state information of the vehicle,
  • the control device monitors the opening / closing information of the electronic lock, and sends the opening / closing information to the server every first preset time,
  • the server sends a state monitoring instruction to the control device, and the control device obtains the current state information of the vehicle according to the trigger of the state monitoring instruction,
  • the control device controls the electronic lock on the vehicle to perform a locking operation, and feeds back a locking information to the server, The server closes the charging operation of the vehicle according to the blocking information.
  • the control device detects the first current state information and the opening / closing information of the vehicle every second preset time,
  • the control device When the first current state information indicates that the vehicle is in a stationary state, and the unlocking / locking information indicates an unlocked state, the control device generates a first state information and sends it to the server,
  • the server feeds back a state monitoring instruction to the control device based on the first state information
  • the control device obtains the current state information of the vehicle according to the trigger of the state monitoring instruction,
  • the control device controls the electronic lock on the vehicle to perform a locking operation, and feeds back a locking information to the server, The server closes the charging operation of the vehicle according to the blocking information.
  • the current state information or the first current state information includes: front wheel speed, rear wheel speed, body vibration signal, pressure on the left handlebar, pressure on the right handlebar, pressure on the seat, left foot pedal One or more of the pressure, the pressure on the right foot pedal, the inclination of the vehicle, and the distance between the user end and the vehicle.
  • the step of triggering the control device on the vehicle to obtain the current state of the vehicle includes:
  • the control device monitors the temporary state information of the vehicle, and feeds back the temporary state information to the server every first preset time,
  • the server sends a state monitoring instruction to the control device,
  • the control device obtains the current state information of the vehicle according to the trigger of the state monitoring instruction.
  • the server retrieves a return request from the current rental client of the vehicle,
  • the server sends the state monitoring instruction to the control device;
  • the server sends a car return reminder to the current rental client.
  • the step of triggering the control device on the vehicle to obtain the current state information of the vehicle includes:
  • the control device on the vehicle detects the temporary state information of the vehicle every second preset time,
  • the control device When the temporary status information indicates that the vehicle is stationary and unlocked, the control device generates a first status information and sends it to the server,
  • the server feeds back a state monitoring instruction to the control device based on the first state information
  • the control device obtains the current state information of the vehicle according to the trigger of the state monitoring instruction.
  • the control device records the time when the vehicle is stationary and unlocked
  • the control device When the time when the vehicle is stationary and unlocked is greater than the first time threshold, the control device generates and sends the first state information to the server.
  • the server retrieves a mid-stop parking request of the current rental client of the vehicle,
  • the server calculates the time for halfway parking, and when the time for halfway parking is greater than a third time threshold, the server shuts down the vehicle according to the current state Fee operation.
  • the invention further discloses a return system of a public vehicle, which includes a vehicle, a parking rack or a parking area, and a server.
  • the vehicle is provided with a control device, an electronic lock, and an identification device or a sensing device.
  • the parking rack An induction device or an identification device is provided on the parking area, and a signal device that emits an identification signal is provided in the parking area, wherein the control device is in communication or electrical connection with the electronic lock, and the induction device is in communication or electrical connection with the control device Connection, the server is in communication with the control device, characterized in that
  • the control device includes a communication module and a control module,
  • the induction device senses the identification device, reads the vehicle information from it, generates in-place information, and sends it to the control device,
  • the control module in the control device controls the electronic lock according to the in-position information, and the communication module in the control device sends a return request to the server,
  • the server ends the charging procedure of the vehicle according to the vehicle return request.
  • the vehicle further includes a sensing device, which is electrically or communicationally connected to the control module, and is used to obtain the current state information of the vehicle and send it to the control module,
  • the control module is used to send a blocking signal to the electronic lock on the vehicle when the current state information indicates that the vehicle is stationary, or the control device includes,
  • the control module is connected to the server through the communication module and is configured to perform the operations performed by the control device as described above,
  • the server includes a processor and a memory for storing processor executable instructions, wherein the processor is configured to perform the operations performed by the server as described above.
  • control device further includes a timing module for feeding back a reminder to the control device every preset time,
  • the vehicle also includes an electronic lock status monitoring device, which is in communication or electrical connection with the electronic lock for monitoring the opening / closing information of the electronic lock and sends it to the control module,
  • the control module is configured to generate a state information and send it to the server according to the reminder, and the content of the opening / closing information and / or the current state information.
  • the sensing device includes,
  • Wheel motion sensor for monitoring wheel rotation
  • Vibration sensor for monitoring vehicle vibration information
  • Pressure sensor for monitoring the pressure on the handlebar
  • Pressure sensor for monitoring the pressure on the vehicle seat
  • Pressure sensor for monitoring the pressure on the foot pedal
  • the wheel motion sensor includes a magnetic steel provided at the rear wheel hub of the vehicle, and a Hall sensor module provided on the vehicle.
  • the electronic lock is a brake lock
  • the brake lock is provided at the rear wheel hub of the vehicle.
  • the brake lock includes a lock tongue and a motor connected to the lock tongue, the motor is in communication or electrical connection with the control device,
  • the motor receives and sends the lock tongue to extend or retract according to an instruction sent by the control device, and performs a locking or unlocking operation.
  • a control device and an electronic lock are provided on the vehicle to cooperate with the server, and the electronic lock is controlled by the control device to realize automatic lock reduction;
  • the present invention can also be applied to a public vehicle system without a parking rack to realize the automatic locking of vehicles;
  • the present invention can also be applied to midway parking, where the user returns the car remotely when the user no longer activates the vehicle for a long time;
  • the control device in the present invention can monitor the current state information of the vehicle in real time, to avoid the loss caused to the user by the user forgetting to lock the vehicle and return the vehicle, or the system itself causes the inaccurate lock and return the vehicle.
  • FIG. 1 is a schematic flowchart of a method for returning a public vehicle in accordance with a preferred embodiment of the present invention
  • FIG. 2 is a schematic structural diagram of a return system of a public vehicle in accordance with a preferred embodiment of the present invention
  • FIG. 3 is a schematic structural diagram of a return system of a public vehicle in accordance with another preferred embodiment of the present invention.
  • first, second, third, etc. may be used to describe various information in this disclosure, the information should not be limited to these terms. These terms are only used to distinguish the same type of information from each other.
  • first information may also be referred to as second information, and similarly, the second information may also be referred to as first information.
  • word “if” as used herein may be interpreted as "when” or “when” or “in response to a determination”.
  • FIG. 1 is a schematic flowchart of a method for returning a public vehicle in accordance with a preferred embodiment of the present invention. It can be seen from the figure that the car return method provided in this embodiment mainly includes the following steps:
  • the control device on the vehicle obtains the current state information of the vehicle and sends the current state information to the server;
  • a control device is provided on the vehicle, and the control device can receive the current state information of the vehicle by using a sensor device provided on the vehicle or directly using the sensor module provided in the control device to sense the current state information and use the settings
  • the server may be a server of an operator that provides a vehicle rental service .
  • the server after the server receives the current state information, by analyzing the current state information, it can be learned that, for example, when the vehicle is stationary and the electronic lock on the vehicle is not closed, the vehicle is defined to be in an abnormal parking state Then, the server will feed back a blocking instruction to the control device on the vehicle.
  • S3 The control device sends a locking signal to the electronic lock on the vehicle according to the locked instruction, and the electronic lock locks the vehicle according to the locking signal;
  • the control device of the vehicle After receiving the blocking instruction, the control device of the vehicle will control the electronic lock on the vehicle to execute the blocking event according to the content of the blocking instruction. After the vehicle is locked, a locking information is fed back to the server to inform the server that the vehicle has executed the locking event. Specifically, after receiving the in-position information, the control device parses the in-position information to obtain a notification that the vehicle is in place, thereby sending a locking message to the electronic lock.
  • the locking signal may be an electrical signal or a data signal And other signal forms.
  • the form may be that the control device controls a circuit where the electronic lock on the vehicle is turned on, so that the electronic lock is powered on and the electronic lock is blocked; or when the blocking signal is digital
  • the control device controls a circuit where the electronic lock on the vehicle is turned on, so that the electronic lock is powered on and the electronic lock is blocked; or when the blocking signal is digital
  • the signal may be that after receiving the data signal, the electronic lock responds to the digital signal and the electronic lock is activated to perform the locking operation.
  • control device can send a car return request to the server immediately after issuing a lock command to the electronic lock; or the electronic device can feed back a lock status signal to the control device after the lock is initiated, then the control device The party sends a return request to the server based on the blocking status signal.
  • S4 The server ends the charging procedure of the vehicle according to the vehicle return request.
  • the server confirms that the vehicle is in the locked state according to the locking information fed back by the control device on the vehicle, and then the server closes the charging operation for the vehicle.
  • the server closes the charging operation for the vehicle.
  • Embodiment 1 Application in vehicle rental system with / without parking rack
  • the control device monitors the temporary state information of the vehicle, and feeds back the temporary state information to the server every first preset time;
  • the control device on the vehicle monitors the opening / closing information of the electronic lock on the vehicle in real time, for example, by setting a corresponding sensing module in the electronic lock of the vehicle, the sensing module sends the opening / closing information to the control device in real time to achieve control
  • the device monitors the status of the electronic lock on the vehicle in real time.
  • the control device sends the opening / closing information of the electronic lock monitored by it to the server of the vehicle rental company every first preset time, such as 5min, 10min, etc.
  • the server After receiving the opening / closing information, the server analyzes the opening / closing information. When the opening / closing information indicates that the vehicle is in the unlocked state, the server generates and sends a state monitoring command to the control device on the vehicle.
  • the control device obtains the current state information of the vehicle according to the trigger of the state monitoring instruction.
  • the control device on the vehicle After the control device on the vehicle receives the state monitoring instruction, it will be triggered and respond to the instruction to obtain the current state information of the vehicle. Therefore, the method for returning a car in the present invention can be further applied, and the steps S1 to S3 described above can be executed to realize automatic lock and return of the car. Therefore, based on the above method of this embodiment, it is possible to implement a timely locking operation on a vehicle that is not locked in time by the user or a vehicle that is not locked in time due to a system error, and stop charging, thereby avoiding economic losses to the user.
  • the server retrieves a return request from the current rental client of the vehicle in its storage space .
  • the server sends the state monitoring instruction to the control device; and, when the vehicle return request does not exist in the server, the server sends the current The rental client sends a car return reminder.
  • the server when the server receives a return instruction from the current rental user, the server sends a status monitoring instruction to the control device; when the server Receiving the renewal instruction fed back by the current rental client, the server sends a continuous state monitoring instruction to the control device; and, within a second time threshold, the server does not receive feedback information from the current rental client, The server sends a state monitoring instruction to the control device.
  • Embodiment 2 Application in vehicle rental system with / without parking rack
  • S21 The control device on the vehicle detects the temporary state information of the vehicle every second preset time
  • the control device on the vehicle monitors the vehicle's current status information indicating whether it is moving or not by receiving sensing information sent by various function sensing modules on the vehicle every second preset time, such as 5min, 10min Open / close information.
  • S23 The server feeds back a state monitoring instruction to the control device according to the first state information
  • S24 The control device obtains the current state information of the vehicle according to the trigger of the state monitoring instruction.
  • control device includes a timing module, then when the current state information indicates that the vehicle is stationary and unlocked, the control device records that the vehicle is in When the time of the stationary and unlocked state is greater than the first time threshold, the control device generates and sends a second state information to the server.
  • the server when the server receives the second status information, retrieves the return request of the current rental client of the vehicle, wherein, when the server has In the car return request, the server sends a status monitoring instruction to the control device; and, when the car return request does not exist in the server, the server sends a car return reminder to the current rental client.
  • the server when the server receives a return instruction from the current rental client, the server sends a status monitoring instruction to the control device; when the server receives the current For the renewal instruction fed back by the leasing user, the server sends a continuous state monitoring instruction to the control device; however, within a second time threshold, the server does not receive the current leasing user feedback information, the server Send a state monitoring instruction to the control device.
  • a car return reminder can be sent to the user according to the status information of the vehicle, so that the car can be returned based on the user's selection to avoid the inconvenience caused to the user by automatically locking the car when the user is still in the car borrowing stage.
  • the server when the current state information of the vehicle received by the server includes information indicating that the vehicle is locked, the server directly closes the charging operation of the vehicle according to the current state information, without The control command of the vehicle is fed back to the locking command. Therefore, it is possible to avoid the loss to users caused by system errors or other conditions that do not stop charging in time after locking the car.
  • the situation of the above embodiments can be applied to a vehicle rental system that supports halfway parking.
  • the server retrieves the midway parking request of the current rental client of the vehicle.
  • the server calculates the time for halfway parking, and when the time for halfway parking is greater than a third time threshold, the server shuts down the vehicle according to the current state information Billing operations. Therefore, it is possible to avoid the economic loss caused by the user forgetting to use the vehicle again after choosing to stop halfway.
  • the current state information includes: opening / closing information, front wheel speed, rear wheel speed, body vibration signal, pressure on the left handlebar, pressure on the right handlebar, vehicle One or more of the pressure on the seat, the pressure on the left foot pedal, the pressure on the right foot pedal, the inclination of the vehicle, and the distance between the user end and the vehicle.
  • the present invention also provides a self-checking solution after the vehicle is parked and returned, thereby preventing the vehicle from being inaccurately locked or returned due to the control device, server, etc. And other losses caused to users.
  • the specific plan is as follows:
  • S11 ' the control device monitors the opening / closing information of the electronic lock, and sends the opening / closing information to the server every first preset time;
  • the control device on the vehicle monitors the opening / closing information of the electronic lock on the vehicle in real time, for example, by setting a corresponding electronic lock sensor module in or near the electronic lock of the vehicle, the sensor module sends the opening / closing to the control device in real time
  • the way of information enables the control device to monitor the state of the electronic lock on the vehicle in real time.
  • the control device sends the opening / closing information of the electronic lock obtained by monitoring to the external server of the vehicle rental company every first preset time, such as 5min, 10min, etc.
  • the external server After receiving the opening / closing information, the external server analyzes the opening / closing information. When the opening / closing information indicates that the vehicle is in the unlocked state, the external server generates and sends a state monitoring command to the control device on the vehicle.
  • the control device obtains the current state information of the vehicle according to the trigger of the state monitoring instruction.
  • control device on the vehicle After receiving the state monitoring instruction, the control device on the vehicle will be triggered, and in response to the instruction, obtain the current state information of the vehicle according to the method described in the above embodiment.
  • control device is configured to control the electronic lock on the vehicle to perform a locking operation when the condition is that the current state information indicates that the vehicle is in a stationary state and the opening / locking information indicates the unlocked state, and A blocking message is fed back to the server.
  • S15 ' The server closes the charging operation of the vehicle according to the blocking information.
  • the server after receiving the lockout information sent by the control device on the vehicle, the server will respond to the lockout information and close the running charging operation for the vehicle.
  • the present invention also provides another self-checking solution after the vehicle is parked and returned.
  • the control device on the vehicle is only when the vehicle is confirmed to be stationary and unlocked.
  • the status information of the vehicle will be fed back to the server.
  • the specific plan is as follows:
  • the control device detects the first current state information and the opening / closing information of the vehicle every second preset time;
  • the control device on the vehicle of this embodiment not only needs to obtain the vehicle's opening / closing information, but also needs to obtain the current state information of the vehicle, specifically, every second preset time, such as 5min, 10min
  • Every second preset time such as 5min, 10min
  • the vehicle is judged to be stationary; if the electronic lock sensor reports that the vehicle is unlocked at this time, the control device generates a first state
  • the first state information includes information that the vehicle is stationary and unlocked, and sends the first state information to the server. After receiving the first state information, the server cooperates with the control device on the vehicle. As in the above embodiment, the following operations are performed:
  • the control device obtains the current state information of the vehicle according to the trigger of the state monitoring instruction
  • S26 ' The server closes the charging operation of the vehicle according to the blocking information.
  • the present invention also provides a return system of a public vehicle, see FIGS. 2 and 3, which is a schematic structural diagram of a return system of a public vehicle in accordance with a preferred embodiment of the present invention.
  • the car return system in this embodiment mainly includes: a vehicle 1, a server 3, the vehicle is provided with a control device 2, an electronic lock (not shown) and a sensing device (not shown), wherein, the control device is in communication or electrical connection with the electronic lock, the induction device is in electrical or communication connection with the electronic lock and the control device, and the server is in communication connection with the control device. Therefore, the state information of the vehicle and the information on the opening / closing of the vehicle can be obtained through the induction device.
  • the induction device reflects the information it obtains to the control device.
  • the current information of the vehicle is reflected to the server including but not limited to / Blocked information, vehicle motion status information, vehicle position information, etc .; the server makes a judgment based on the above information received from the vehicle, and feeds back an operation command to the control device, then the control device can control according to the operation command
  • the electronic lock is locked; and after the control device controls the electronic lock on the vehicle to perform the locking, the locking information is fed back to the server; then, the server performs settlement based on the locked information and closes the charging operation on the user side.
  • control device is connected to the server and is configured to perform the operations performed by the control device as described in any of the above car return methods; and, the server includes a processor and A memory for storing processor-executable instructions, wherein the processor is configured to perform the operations performed by the server as described in any of the above method for returning the vehicle.
  • the server is in communication with the control device, so that the server and the control device perform information transmission and the like.
  • control device includes an upper case, a lower case fixedly connected to the upper case, and a main control circuit board disposed in a space formed by the upper case and the lower case.
  • the main control circuit board is provided with a communication module and a control module.
  • the control module is configured to perform all operations performed by the control device described in the vehicle return method, including but not limited to, the control module in the control device controls the location based on the in-place information
  • the electronic lock is locked and a car return request is sent to the server through a communication module in the control device;
  • the server is configured to perform all operations performed by the server in the above car return method, including but not limited to, According to the vehicle return request, the charging procedure of the vehicle is ended.
  • the control device includes an upper casing, a lower casing fixedly connected to the upper casing, and a main casing provided in a space formed by the upper casing and the lower casing A control circuit board.
  • the main control circuit board is provided with a communication module and a control module.
  • the control device can realize a communication connection with an electronic lock, an induction device and a server, realize information transmission and reception, and perform operations performed by the control device as described in any of the above method for returning a car.
  • the above-mentioned sensing device includes, but is not limited to, a speed sensor for monitoring wheel rotation speed; a wheel motion sensor for monitoring wheel rotation; a vibration sensor for monitoring vehicle vibration information; a pressure sensor for monitoring pressure on the handlebar Pressure sensor; pressure sensor for monitoring the pressure on the seat; pressure sensor for monitoring the pressure on the foot pedal; angle sensor for monitoring the inclination of the vehicle; for monitoring the distance between the vehicle and the user One or more of distance sensors and the like.
  • the wheel motion sensor may include a magnetic steel provided at the rear wheel hub of the vehicle, and a Hall sensing module is provided on the vehicle, so that when the rear wheel rotates, the Hall sensing module can sense the changes produced by the magnetic steel Therefore, when the vehicle is stationary, the Hall sensor module cannot sense the changing magnetic field generated by the magnet, and it does not generate a rotating signal. Therefore, in view of the above design, the vibration information of the vehicle, the pressure information on the handlebar, the pressure information on the seat, the pressure information on the foot pedal, the tilt information of the vehicle, the distance between the vehicle and the client, etc. can be obtained Etc. can be used to determine whether the vehicle is in use or not in use. Thus, in time
  • Locking and settlement for non-use vehicles to avoid unnecessary losses caused by users forgetting to lock the car or failing to lock the car in time due to system errors.
  • the electronic lock in the vehicle return system is a brake lock
  • the brake lock is provided at the rear wheel hub of the vehicle. Therefore, when the brake lock receives the locking instruction or unlocking issued by the control device, it can lock the rear wheel of the vehicle according to the locking or unlocking instruction, or loosen the tightening effect on the rear wheel of the vehicle. Therefore, the present embodiment can realize the locking of the vehicle by using the brake lock more tightly, and due to the concealment of the brake lock, the phenomenon that the vehicle is stolen can be effectively avoided.
  • the brake lock in the vehicle return system includes a lock tongue and a motor connected to the lock tongue, wherein the motor is in communication or electrical connection with the control device. Therefore, when the motor receives the command sent by the control device, it will parse the command and drive the lock tongue to extend or retract according to the content of the command to perform the locking or unlocking operation. For example, but not limited to, the control device sends an electrical signal to the motor by supplying power to the motor, and the motor starts to drive the lock tongue to extend or retract to perform a locking or unlocking operation.

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  • General Physics & Mathematics (AREA)
  • Lock And Its Accessories (AREA)

Abstract

La présente invention concerne un procédé et un système de retour de véhicule pour un véhicule public : un véhicule (1) comporte, sur celui-ci, un appareil de commande (2) et un verrou électronique, et s'adapte à un râtelier de stationnement qui comporte un appareil de détection ; un appareil d'identification sur le véhicule est détecté au moyen de l'appareil de détection sur le râtelier de stationnement ; des informations sur place du véhicule (1) sont renvoyées à l'appareil de commande (2) sur le véhicule, et l'appareil de commande est ainsi utilisé pour commander le verrou électronique pour effectuer un verrouillage automatique, ce qui empêche ainsi la perte provoquée par l'oubli de verrouiller un véhicule par un utilisateur, tout en améliorant simultanément l'expérience d'utilisation de véhicule de l'utilisateur.
PCT/CN2019/119938 2018-11-23 2019-11-21 Procédé et système de retour de véhicule pour un véhicule public WO2020103903A1 (fr)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
CN201811407662.5A CN109410464A (zh) 2018-11-23 2018-11-23 一种公共车辆的还车方法及系统
CN201811407662.5 2018-11-23
CN201811408877.9 2018-11-23
CN201811408877.9A CN109410465A (zh) 2018-11-23 2018-11-23 一种公共车辆的还车方法及系统

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WO2020103903A1 true WO2020103903A1 (fr) 2020-05-28

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WO (1) WO2020103903A1 (fr)

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106926815A (zh) * 2017-04-20 2017-07-07 成都步共享科技有限公司 一种共享单车的自动锁车系统及锁车方法
CN108417024A (zh) * 2018-05-10 2018-08-17 杭州金通公共自行车科技股份有限公司 用于车辆的电子停车区控制系统及其租还车方法
CN109410464A (zh) * 2018-11-23 2019-03-01 永安行科技股份有限公司 一种公共车辆的还车方法及系统
CN109410465A (zh) * 2018-11-23 2019-03-01 永安行科技股份有限公司 一种公共车辆的还车方法及系统

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106926815A (zh) * 2017-04-20 2017-07-07 成都步共享科技有限公司 一种共享单车的自动锁车系统及锁车方法
CN108417024A (zh) * 2018-05-10 2018-08-17 杭州金通公共自行车科技股份有限公司 用于车辆的电子停车区控制系统及其租还车方法
CN109410464A (zh) * 2018-11-23 2019-03-01 永安行科技股份有限公司 一种公共车辆的还车方法及系统
CN109410465A (zh) * 2018-11-23 2019-03-01 永安行科技股份有限公司 一种公共车辆的还车方法及系统

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