CN106948624B - Shared bicycle parking station with two-dimensional code and working method - Google Patents

Abstract

The invention discloses a shared bicycle parking station with two-dimensional codes and a working method, wherein the shared bicycle parking station comprises a network server, a bicycle pile, a ceiling and a parking space groove, the ceiling is connected above the bicycle pile, a storage battery and a processor are arranged in the bicycle pile, and the processor is powered by an external power supply or the storage battery; the processor comprises a mainboard, and a positioning module, a charging module, a network module and a control module which are connected with the mainboard; the parking space groove is connected with the parking piles, a distance sensor is arranged in the parking space groove, and the distance sensor is connected to the control module; the vehicle pile is provided with a two-dimensional code, and a vehicle taking signal or a vehicle returning signal is generated by scanning the two-dimensional code; the invention realizes the unified management of the shared bicycles, restrains the non-standard parking behavior of people on the shared bicycles, improves the appearance of the city and reduces the damage probability of the shared bicycles. The invention has wide application and is worth popularizing.

Description

Shared bicycle parking station with two-dimensional code and working method

Technical Field

The invention relates to the field of bicycle auxiliary systems, in particular to a shared bicycle parking station with two-dimensional codes and a working method.

Background

With the rapid development of science and technology, the traveling modes of people are more diversified. The shared bicycle is more convenient for people to go out, and is more healthy and environment-friendly for going out. The shared bicycles can be directly parked after being ridden to the destination, so that convenience is brought to people, and negative effects are brought to the current society, on one hand, the conventional shared bicycles simply emphasize the convenience function, the shared bicycles can be parked randomly, so that the shared bicycles are everywhere on the street, the city appearance is seriously influenced by the everywhere parking mode, and the damage rate of the shared bicycles is extremely high due to everywhere parking and no one can take care of the shared bicycles; parking shared bicycles randomly causes road blockage, affects the traveling of people, even some people change 'sharing' into 'exclusive sharing', and park the shared bicycles in front of the house directly, so that the turnover of the shared bicycles is affected, the income is affected, and even more, some people maliciously damage the bicycles, and a large amount of cost loss is caused; on the other hand, the existing bicycle parking pile can finish the bicycle taking and parking by scanning special cards, and users can use the shared bicycle only by specially handling the corresponding cards, so that the sharing bicycle is not convenient enough.

Disclosure of Invention

In order to solve the technical problems, the invention discloses a shared bicycle parking station with two-dimensional codes and a working method, aims to provide a parking station which is convenient for uniformly taking and parking shared bicycles, can protect the shared bicycles from being exposed to the sun and rain, provides a novel working method of the shared bicycle parking station, and solves the problem that the shared bicycles are parked everywhere at present and the shared bicycle damage rate is high.

The technical scheme adopted by the invention is as follows:

shared bicycle parking station with two-dimensional code includes network server, vehicle pile, ceiling, parking stall groove.

The network server is a background server of the parking station, and information transmission and operation control of specific components are realized by transmitting signals between the network terminal and the vehicle piles of the parking station.

Specifically, the ceiling is connected above the vehicle piles, the vehicle piles are communicated with an external power supply, a storage battery and a processor are arranged inside the vehicle piles, and the processor is powered by the external power supply or the storage battery.

The processor is powered by an external power supply in a normal state, the storage battery supplies power when the external power supply is powered off, and the external power supply is switched back to the external power supply to supply power after being electrified, so that the processor can work normally under different conditions.

Further, the processor comprises a mainboard, and a positioning module, a charging module, a network module and a control module which are connected with the mainboard.

The positioning module determines the position of a stop and transmits the position to the network module so as to determine the positions of vehicle taking and vehicle using; the charging module determines the vehicle cost through a timing charging mode; the network module is respectively connected with the network server, the positioning module, the charging module and the control module, transmits signals received by the positioning module, the charging module and the control module to the network server, and transmits instructions made by the network server to the positioning module, the charging module and the control module.

Further, the parking space groove is connected with the parking piles, a distance sensor is arranged in the parking space groove, and the distance sensor is connected to the control module respectively.

Furthermore, the vehicle pile is provided with a two-dimensional code, and a vehicle taking signal or a vehicle returning signal is generated by scanning the two-dimensional code. The two-dimensional code is scanned through client side APPs such as WeChat, Payment treasured and car renting APPs, the network server is logged in after the two-dimensional code information is obtained, a car is selected to be used or returned at the network server side, and a car taking signal or a car returning signal is generated after the network server identifies and is sent to the network module.

When the user returns the bicycle, the two-dimensional code is scanned, the shared bicycle is parked to the parking slot or the shared bicycle is parked beside the bicycle pile, and the charging module stops charging.

Furthermore, the parking slot is internally provided with an intelligent vehicle lock, the intelligent vehicle lock is connected to the control module, and the control module controls the vehicle lock to be unlocked or locked.

Further, the parking stall groove keep off the piece including horizontal mounting and the groove of vertically arranging on the mounting, intelligent lock sets up and keeps off between the piece at adjacent groove, distance sensor sets up on the mounting and just responds to the intermediate direction that adjacent groove kept off the piece.

When the wheel of the shared bicycle enters the vacant space between the adjacent groove blocking pieces, the distance sensor sends a vacancy signal to the control module after sensing the vacancy signal, and when the wheel leaves the vacant space between the adjacent groove blocking pieces, the distance sensor sends a vacancy signal to the control module.

Further, the fixing piece is a baffle or a frame, and the groove stopper is a baffle or a frame.

The fixing piece is transversely connected to the vehicle pile and plays a role in fixing, the groove blocking pieces are longitudinally arranged, and the gap between every two adjacent groove blocking pieces is used for accommodating a wheel to enter, so that the parking position is limited.

Furthermore, a solar panel is arranged on the ceiling and supplies power for the storage battery.

The solar panel is arranged in such a way that the converted electric energy is stored in the storage battery for later use by collecting solar energy and converting the solar energy into electric energy.

Further, the vehicle pile is provided with a charging system, the charging system comprises a lead and a socket, one end of the lead is connected with an external power supply and/or a storage battery, the other end of the lead is connected with the socket, and the socket is arranged outside the vehicle pile. The charging system can provide temporary charging service for people, the situation that the mobile phone is not powered is often encountered after the people ride the bicycle for a period of time, and the people can ride the bicycle more confidently after the charging system is provided; meanwhile, the charging system preferentially uses the electric energy in the storage battery, can help the storage battery to discharge under the condition that the storage battery is charged for a long time, and is favorable for maintaining the service life of the storage battery.

Furthermore, the positioning module is a GPS positioning module or a Beidou positioning module.

Furthermore, the charging module consists of a timer and a calculator, the timer records time nodes of car taking and returning and shares the time nodes to the network through the network module, and the calculator calculates the time for using the car and calculates the cost for using the car through the time nodes of car taking and returning.

Further, the network module is connected to the network server through a wired network, a GPRS network, a GSM network, a WAP network, a TD-SCDMA network, a CDMA network, a WCDMA network, a CDMA2000 network, a Bluetooth network or a wireless local area network, shares vacancy number information at the current parking space slot, receives the vehicle taking and returning signals, transmits the vehicle taking and returning signals to the charging module and transmits the vehicle taking signals to the control module.

The network module is connected with the network server through a multi-mode connection network, and the connection compatibility also ensures the rapidness and stability of data transmission.

Furthermore, the control module comprises a microprocessor, and the microprocessor receives signals of the distance sensor and sends unlocking instructions and locking instructions to the intelligent vehicle lock.

The control module is used as a module for controlling the intelligent vehicle lock, is connected to the distance sensor through a data line, and when receiving an on-site signal of the distance sensor, the microprocessor sends a signal to control the intelligent vehicle lock to be locked, and when receiving an on-site signal of the distance sensor, the microprocessor sends a signal to control the intelligent vehicle lock to be unlocked.

The control module is also used as a module for receiving instructions and is connected with the network module through a data line, and when the network module transmits a vehicle taking signal to the control module, the microprocessor sends a signal to control the intelligent vehicle lock to be unlocked.

Further, a working method of a shared bicycle parking station with a two-dimensional code is described, comprising the steps of:

1) through believe a little, pay precious or rent the car APP and scan the two-dimensional code on the car stake, get into to rent the car and take the interface to the selection car, network server discerns the power consumption state of this account: when the account is in the vehicle using state, the network server sends a vehicle returning signal to the network module; when the account is in the unused vehicle state, the network server sends a vehicle taking signal to the network module; in the step, the two-dimension code is scanned when the vehicle is not used, and the network server sends a vehicle taking signal to the network module;

2) the network module receives the vehicle taking signal and transmits the vehicle taking signal to the charging module, and the charging module records a vehicle taking time node; meanwhile, the network server marks the account as a vehicle using state; if the intelligent bicycle lock is positioned on the shared bicycle, the network module sends a bicycle taking signal to the intelligent bicycle lock, and the intelligent bicycle lock is unlocked; if the intelligent vehicle lock is located in the parking space slot, the network module sends a vehicle taking signal to the control module, the control module sends an unlocking instruction to the intelligent vehicle lock, and the intelligent vehicle lock is unlocked;

3) after the shared bicycle leaves the parking space groove or the parking pile, the distance sensor senses that no object exists in a short distance, a vacancy signal is sent to the control module, meanwhile, the control module transmits vacancy information to the network module, the network module shares the vacancy information to the network server, and the number of vacancies is increased; if the intelligent vehicle lock is arranged in the parking slot, the control module sends an instruction to enable the intelligent vehicle lock to keep an unlocking state;

4) after the shared bicycle enters a parking space groove or a parking pile, the distance sensor senses that an object is in a close range and sends an in-place signal to the control module, meanwhile, the control module transmits in-place information to the network module, the network module shares the in-place information to the network server, and the number of the available spaces is reduced; if the intelligent vehicle lock is arranged in the parking slot, the control module sends an instruction to enable the intelligent vehicle lock to close the lock,

5) scanning the two-dimensional code on the vehicle pile through a WeChat, a Payment treasure or a taxi APP, entering a taxi returning interface, and selecting a taxi returning; in the step, the two-dimensional code is scanned when the vehicle is used, and the network server sends a vehicle returning signal to the network module;

6) the network module receives the car returning signal and transmits the car returning signal to the charging module, the charging module records the car returning time node and calculates the car using cost, the charging module transmits the cost information to the network module, the network module uploads the cost information to the network server to complete fee deduction, and meanwhile, the account is marked as a car unused state.

Therefore, by arranging the shared bicycle parking station with the two-dimensional code, when a user returns the bicycle, the two-dimensional code on the bicycle pile must be scanned after the bicycle is locked, and the billing module can stop billing.

Therefore, the shared bicycle parking station with the two-dimensional code solves the problem that shared bicycles are parked everywhere, because the two-dimensional code on the bicycle pile must be scanned when the bicycles are parked, the shared bicycles must be parked in the bicycle parking slot or beside the bicycle pile, the parking positions of the shared bicycles are standardized, in addition, in order to prevent a user from parking the bicycles in a place far away from the parking station and then scanning the two-dimensional code, the parking station can be further provided with a time control device which specifies that the user must complete code scanning within a certain time when the shared bicycles are locked, the time for code scanning to stop is within 1 minute under the common condition, otherwise, the user can continuously charge, and thus, the user is compulsorily required to park the shared bicycles in the bicycle parking slot, and the shared bicycles are prevented from being randomly placed.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention sets the two-dimension code, the two-dimension code is connected to a network server through scanning the two-dimension code, a vehicle taking signal or a vehicle returning signal is generated, the purpose of starting and stopping the charging of the vehicle taking or the vehicle returning is realized, a user parks a shared bicycle to a specific parking slot or beside a bicycle pile after the use is finished, the two-dimension code on the bicycle pile needs to be scanned after the shared bicycle is locked, and the charging module can stop the charging. The bicycle parking device restrains the irregular parking behavior of people on the shared bicycles, avoids the phenomenon that the shared bicycles are parked randomly to cause road blockage to influence the traveling of people, improves the appearance of the city, and reduces the probability that the shared bicycles are damaged.

2. The solar energy electric plate and the storage battery are arranged, so that extra power supply is provided for the vehicle piles, and the parking station can work normally in a complex environment.

3. The invention is provided with the charging system, provides a place for charging the mobile phone when people ride the bicycle and go out, reduces the trouble caused by no power supply of the mobile phone when people go out and ride the bicycle, and brings convenience to life.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only show some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic diagram of a second embodiment of the present invention.

Fig. 3 is a schematic structural view of the parking lot of the present invention.

Fig. 4 is a schematic diagram of the working process of the intelligent vehicle lock.

Fig. 5 is a schematic diagram of the working process of the invention without the intelligent vehicle lock.

In the drawings, the names corresponding to the reference numbers are: 1-ceiling, 2-vehicle piles, 3-two-dimensional code, 4-vehicle space groove, 401-fixing piece, 402-groove blocking piece, 403-distance sensor, 404-intelligent vehicle lock and 5-solar panel.

Detailed Description

The invention will be further explained with reference to the drawings. Embodiments of the present invention include, but are not limited to, the following examples.

Example one

As shown in fig. 1, the present embodiment discloses a shared bicycle parking station with two-dimensional code, which includes a network server, a vehicle pile 2, a ceiling 1, and a parking slot 4.

Specifically, the ceiling 1 is connected above the vehicle piles 2, the vehicle piles 2 are communicated with an external power supply, a storage battery and a processor are arranged inside the vehicle piles 2, and the processor is powered by the external power supply or the storage battery; the processor comprises a mainboard, and a positioning module, a charging module, a network module and a control module which are connected with the mainboard.

Preferably, the secondary battery is a large capacity lithium battery.

Preferably, the ceiling 1 is made of tempered glass.

As shown in fig. 1 and 3, the parking slot 4 is connected to the vehicle pile 2, an intelligent vehicle lock 404 and a distance sensor 403 are arranged in the parking slot 4, the intelligent vehicle lock 404 and the distance sensor 403 are respectively connected to a control module, and the control module controls the vehicle lock to open or close.

Preferably, the distance sensor 403 is an infrared range sensor.

Preferably, the number of the vehicle piles 2 is two, and two ends of the parking slot 4 are respectively connected with the vehicle piles 2.

As shown in fig. 1, a two-dimensional code 3 is arranged on the vehicle pile 2, and a vehicle taking signal or a vehicle returning signal is generated by scanning the two-dimensional code 3.

As shown in fig. 3, the parking slot 4 includes a transverse fixing member 401 and slot stoppers 402 longitudinally arranged on the fixing member, the intelligent vehicle lock 404 is disposed between adjacent slot stoppers 402, and the distance sensor 403 is disposed on the fixing member 401 and directly senses the middle direction of the adjacent slot stoppers 402.

As shown in fig. 3, the fixed member 401 is a baffle or a frame, and the barrier member 402 is a baffle or a frame.

Preferably, in this embodiment, the fixing member 401 is a baffle, and the slot stopper 402 is a baffle.

As shown in fig. 1, a solar panel 5 is provided on the ceiling 1, and the solar panel 5 supplies power to the battery.

As shown in fig. 1, the pile 2 is provided with a charging system comprising a conductor connected to an external power source and/or a battery and a socket 6, the socket 6 being provided outside the pile 2.

Preferably, the sockets include a dual-control socket and a triple-jack socket, and the charging system provides 2A direct charging current.

The positioning module is a GPS positioning module or a Beidou positioning module.

Preferably, the positioning module in this embodiment is a GPS positioning module.

The charging module consists of a timer and a calculator, the timer records time nodes of car taking and returning and shares the time nodes to the network through the network module, and the calculator calculates the car using time and calculates the car using cost through the time nodes of the car taking and returning.

The network module is connected to the network server through a wired network, a GPRS network, a GSM network, a WAP network, a TD-SCDMA network, a CDMA network, a WCDMA network, a CDMA2000 network, a Bluetooth network or a wireless local area network, shares vacancy number information at the current parking space slot 4, receives the vehicle taking and returning signals, transmits the vehicle taking and returning signals to the charging module and transmits the vehicle taking signals to the control module.

Preferably, in this embodiment, the network module is connected to the network server through a bluetooth network and a GPRS.

The control module comprises a microprocessor, and the microprocessor receives signals of the distance sensor 403 and sends unlocking instructions and locking instructions to the intelligent vehicle lock 404.

As shown in fig. 4, when the shared bicycle parking station with two-dimensional code is used, the working process comprises the following steps:

1) through believe a little, pay precious or rent car APP scan two-dimensional code 3 on the vehicle stake 2, get into and rent the car and take the interface to the selection car, the network server discerns the power consumption state of this account: when the account is in the vehicle using state, the network server sends a vehicle returning signal to the network module; when the account is in the unused vehicle state, the network server sends a vehicle taking signal to the network module; in the step, the two-dimension code 3 is scanned when the vehicle is not used, and the network server sends a vehicle taking signal to the network module;

2) the network module receives the vehicle taking signal and transmits the vehicle taking signal to the charging module, and the charging module records a vehicle taking time node; meanwhile, the network server marks the account as a vehicle using state; the intelligent vehicle lock 404 is located in the parking space slot 4, the network module sends a vehicle taking signal to the control module, the control module sends an unlocking instruction to the intelligent vehicle lock 404, and the intelligent vehicle lock 404 is unlocked;

3) after the shared bicycle leaves the parking space slot 4 or the parking pile 2, the distance sensor 403 senses that no object exists in a short distance, a vacancy signal is sent to the control module, meanwhile, the control module transmits vacancy information to the network module, the network module shares the vacancy information to the network server, and the number of vacancies is increased; an intelligent vehicle lock 404 is arranged in the parking space slot 4, and the control module sends an instruction to enable the intelligent vehicle lock 404 to keep an unlocking state;

4) after the shared bicycles enter the parking space groove 4 or approach the parking pile 2, the distance sensor 403 senses that an object is in a short distance and sends an in-place signal to the control module, meanwhile, the control module transmits in-place information to the network module, the network module shares the in-place information to the network server, and the number of vacant spaces is reduced; an intelligent vehicle lock 404 is arranged in the parking space slot 4, and the control module sends an instruction to enable the intelligent vehicle lock 404 to be locked;

5) scanning the two-dimensional code 3 on the vehicle pile 2 through a WeChat, Payment treasure or taxi APP, entering a vehicle returning interface, and selecting vehicle returning; in the step, the two-dimension code 3 is scanned when the vehicle is used, and the network server sends a vehicle returning signal to the network module;

6) the network module receives the vehicle returning signal and transmits the vehicle returning signal to the charging module, the charging module records the vehicle returning time node and calculates the vehicle cost, the charging module transmits the cost information to the network module, the network module uploads the cost information to the network server to finish charging, and meanwhile, the account is marked as a vehicle unused state.

Example two

As shown in fig. 2, the present embodiment discloses a shared bicycle parking station with two-dimensional code, which comprises a network server, a vehicle pile 2, a ceiling 1 and a parking slot 4. The components and the connection mode in this embodiment are the same as those in the first embodiment, except that:

as shown in fig. 2, the ceiling 1 is made of a metal material. The significance of the arrangement is that the metal material has higher hardness, is not easy to be damaged when used in outdoor environment, and has longer service life.

As shown in fig. 2, one end of the parking slot 4 is connected with the vehicle pile 2, the other end of the parking slot 4 is connected with the upright post, and the upright post is made into a ceiling 1; an intelligent vehicle lock 404 and a distance sensor 403 are arranged in the parking space slot 4, the intelligent vehicle lock 404 and the distance sensor 403 are respectively connected to a control module, and the control module controls the vehicle lock to be unlocked or locked.

Preferably, the distance sensor 403 in this embodiment is an infrared distance measuring sensor.

Preferably, the number of the vehicle piles 2 is one, which means that the number of the vehicle piles is reduced, construction cost is saved, and the same management effect can be achieved.

The working principle of the docking station in this embodiment is the same as that in the first embodiment, and is not described herein again. EXAMPLE III

As shown in fig. 1, the present embodiment discloses a shared bicycle parking station with two-dimensional code, which includes a network server, a vehicle pile 2, a ceiling 1, and a parking slot 4. The components and the connection mode in this embodiment are the same as those in the first embodiment, except that:

in this embodiment, the parking slot 4 is reserved with the distance sensor 403 and is not provided with the intelligent vehicle lock 404.

The arrangement is significant in that the existing shared bicycle is directly parked in the parking slot 4, and the intelligent bicycle lock of the shared bicycle is used for locking the bicycle;

meanwhile, the distance sensor 403 still generates an in-place signal or a vacant signal, as shown in fig. 5, when the shared bicycle is located within the sensing range of the distance sensor 403, the distance sensor 403 senses and generates an in-place signal and transmits the in-place signal to the control module, the control module transmits the signal to the network module, the network module is connected to the network server and the billing module, and when the user returns the bicycle by scanning the two-dimensional code, the billing module stops billing.

As shown in fig. 5, when the shared bicycle parking station with two-dimensional code is used, the working process comprises the following steps:

1) through believe a little, pay precious or rent car APP scan two-dimensional code 3 on the vehicle stake 2, get into and rent the car and take the interface to the selection car, the network server discerns the power consumption state of this account: when the account is in the vehicle using state, the network server sends a vehicle returning signal to the network module; when the account is in the unused vehicle state, the network server sends a vehicle taking signal to the network module; in the step, the two-dimension code 3 is scanned when the vehicle is not used, and the network server sends a vehicle taking signal to the network module;

2) the network module receives the vehicle taking signal and transmits the vehicle taking signal to the charging module, and the charging module records a vehicle taking time node; meanwhile, the network server marks the account as a vehicle using state; the intelligent bicycle lock 404 is located on the shared bicycle, the network module sends a bicycle taking signal to the intelligent bicycle lock 404, and the intelligent bicycle lock 404 is unlocked;

3) after the shared bicycle leaves the parking space slot 4 or the parking pile 2, the distance sensor 403 senses that no object exists in a short distance, a vacancy signal is sent to the control module, meanwhile, the control module transmits vacancy information to the network module, the network module shares the vacancy information to the network server, and the number of vacancies is increased;

4) after the shared bicycle enters the parking space slot 4 or approaches the parking pile 2, the distance sensor 403 senses that an object is in a close distance and sends an in-place signal to the control module, meanwhile, the control module transmits in-place information to the network module, the network module shares the in-place information to the network server, and the number of vacant positions is reduced;

5) within 15 seconds, a user scans the two-dimensional code 3 on the vehicle pile 2 through a WeChat, Payment treasure or taxi APP, enters a vehicle returning interface and selects to return the vehicle; in the step, the two-dimension code 3 is scanned when the vehicle is used, and the network server sends a vehicle returning signal to the network module;

6) the network module receives the car returning signal and transmits the car returning signal to the charging module, the charging module records the car returning time node and calculates the car using cost, the charging module transmits the cost information to the network module, the network module uploads the cost information to the network server to complete fee deduction, and meanwhile, the account is marked as a car unused state.

According to the above embodiments, the present invention can be well implemented; in addition, the invention is also suitable for other shared vehicles except the shared bicycle, and the charging stop is realized by the same method, so that the problem of disordered parking of the shared vehicles is solved. It should be noted that, based on the above design principle, even if some insubstantial modifications or colorings are made on the basis of the disclosed structure, the adopted technical solution is still the same as the present invention, and therefore, the technical solution is also within the protection scope of the present invention.

Claims (9)

1. The shared bicycle parking station with the two-dimensional code is characterized by comprising a network server, a bicycle pile (2), a ceiling (1) and a parking space groove (4), wherein the ceiling (1) is connected above the bicycle pile (2), the bicycle pile (2) is communicated with an external power supply, a storage battery and a processor are arranged in the bicycle pile (2), and the processor is powered by the external power supply or the storage battery;

the processor comprises a mainboard, and a positioning module, a charging module, a network module and a control module which are connected with the mainboard; the parking space groove (4) is connected with the parking pile (2), a distance sensor (403) is arranged in the parking space groove (4), and the distance sensor (403) is connected to the control module;

the two-dimensional code (3) is arranged on the vehicle pile (2), and a vehicle taking signal or a vehicle returning signal is generated by scanning the two-dimensional code (3);

the parking space groove (4) comprises a transverse fixing piece (401) and groove blocking pieces (402) longitudinally arranged on the fixing piece, and the distance sensor (403) is arranged on the fixing piece (401) and is opposite to the middle direction of the adjacent groove blocking pieces (402) for sensing;

the parking station is provided with a time control device which provides for the user to have to complete the code scanning within a certain time period for locking and sharing the bicycles.

2. The shared bicycle parking station with two-dimensional code according to claim 1, wherein the fixed member (401) is a barrier or a frame, and the groove stopper (402) is a barrier or a frame.

3. The shared bicycle parking station with two-dimensional code according to claim 1, characterized in that the ceiling (1) is provided with a solar electric panel (5), and the solar electric panel (5) supplies power for the storage battery.

4. Shared bicycle parking station with two-dimensional code according to claim 1, characterized in that the stake (2) is provided with a charging system comprising a wire and a socket (6), one end of the wire is connected to an external power source and/or a storage battery and the other end of the wire is connected to the socket (6), the socket (6) is provided outside the stake (2).

5. The shared bicycle parking station with the two-dimensional code according to claim 1, wherein the billing module is composed of a timer and a calculator, the timer records time nodes of the vehicle taking and returning and shares the time nodes to the network through the network module, and the calculator calculates the vehicle using time and calculates the vehicle using cost through the time nodes of the vehicle taking and returning.

6. The shared bicycle parking station with two-dimensional code of claim 1, wherein the network module is connected to the network server through a wired network, a GPRS network, a GSM network, a WAP network, a TD-SCDMA network, a CDMA network, a WCDMA network, a CDMA2000 network, a bluetooth network, or a wireless lan, shares vacancy number information at the current parking space slot (4), receives a pickup and return signal and transmits the pickup and return signal to the billing module, and transmits the pickup signal to the control module.

7. The shared bicycle parking station with two-dimensional code according to claim 1, characterized in that the control module comprises a microprocessor, which receives the signal of the distance sensor (403).

8. The shared bicycle parking station with the two-dimensional code as claimed in claim 1, wherein an intelligent lock (404) is disposed in the parking space slot (4), the intelligent lock (404) is connected to a control module, and the control module controls the intelligent lock (404) to open or close.

9. Method of working a shared bicycle parking station with two-dimensional code according to any of claims 1 to 8, characterized in that it comprises the following steps:

1) through believe a little, pay precious or rent car APP scan two-dimensional code (3) on car stake (2), get into and rent the car and take the interface to select the car, the network server discerns the car state of account: when the account is in the vehicle using state, the network server sends a vehicle returning signal to the network module; when the account is in the unused vehicle state, the network server sends a vehicle taking signal to the network module; in the step, the two-dimension code (3) is scanned when the vehicle is not used, and the network server sends a vehicle taking signal to the network module;

2) the network module receives the vehicle taking signal and transmits the vehicle taking signal to the charging module, and the charging module records a vehicle taking time node; meanwhile, the network server marks the account as a vehicle using state; if the intelligent bicycle lock (404) is located on the shared bicycle, the network module sends a bicycle taking signal to the intelligent bicycle lock (404), and the intelligent bicycle lock (404) is opened; if the intelligent vehicle lock (404) is located in the parking space slot (4), the network module sends a vehicle taking signal to the control module, the control module sends an unlocking instruction to the intelligent vehicle lock (404), and the intelligent vehicle lock (404) is opened;

3) after the shared bicycle leaves the parking space groove (4) or the parking pile (2), the distance sensor (403) senses that no object exists in a short distance, a vacancy signal is sent to the control module, meanwhile, the control module transmits vacancy information to the network module, the network module shares the vacancy information to the network server, and the number of vacancies is increased; if the intelligent vehicle lock (404) is arranged in the parking space groove (4), the control module sends an instruction to enable the intelligent vehicle lock (404) to keep an unlocking state;

4) after the shared bicycle enters the parking space groove (4) or approaches the parking pile (2), the distance sensor (403) senses that an object is in a short distance, sends an in-place signal to the control module, meanwhile, the control module transmits in-place information to the network module, the network module shares the in-place information to the network server, and the number of vacant spaces is reduced; if the intelligent vehicle lock (404) is arranged in the parking space groove (4), the control module sends an instruction to enable the intelligent vehicle lock (404) to be locked;

5) scanning the two-dimensional code (3) on the vehicle pile (2) through a WeChat, a pay bank or a taxi APP, entering a vehicle returning interface, and selecting a vehicle returning; in the step, the two-dimension code (3) is scanned when the vehicle is used, and the network server sends a vehicle returning signal to the network module;

6) the network module receives the car returning signal and transmits the car returning signal to the charging module, the charging module records the car returning time node and calculates the car using cost, the charging module transmits the cost information to the network module, the network module uploads the cost information to the network server to complete fee deduction, and meanwhile, the account is marked as a car unused state.

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