CN108674230A - Self-service charging terminal, the system and method for electric bicycle - Google Patents

Abstract

The invention discloses self-service charging terminal, the system and method for a kind of electric bicycle, self-service charging terminal includes bottom case, the front housing with 86 type sockets and the control module being installed in bottom case, controllable switch, current detection module, communication module and input wires terminal；For accessing 220V alternating currents, controllable switch is series between input wires terminal and 86 type sockets input wires terminal；The test side of current detection module is electrically connected between controllable switch and 86 type sockets；Control module is configured as being communicated by communication module and Cloud Server, instruction control controllable switch for being sent out according to Cloud Server is opened/breaks, and charging status information, charging status information is reported to include at least the current parameters of charging, whether charging to Cloud Server；The surface printing of front housing has pattern in 2 D code.The present invention can facilitate user to charge electric bicycle to a certain extent.

Description

Self-service charging terminal, system and method of electric bicycle

Technical Field

The invention relates to the technical field of electric bicycle charging management, in particular to a self-service charging terminal, a self-service charging system and a self-service charging method for an electric bicycle.

Background

The coin-operated electricity-taking equipment in the market is quite mature and is applied for about six or seven years. And later appearing, ID recharge card-swiping power-taking applications. The related technology is relatively mature, and the habit of users to pay for and get electricity by oneself also forms consensus basically.

The coin-freed or card-swiping power-taking device has the convenient place and the limitation. The coin exchange of the coin is troublesome, the management and the coin cleaning are troublesome, and the batch application also has a plurality of management limitations. The card swiping mode is relatively convenient for electricity utilization, but the card purchasing and recharging are relatively troublesome. The WeChat payment application is deeply applied to the mind of people, and teenagers, middle-aged people and even a plurality of old people are already in large-area use. With the maturity of the application technology of the internet of things and the reduction of the cost, the cost of the self-service electricity taking terminal based on the internet of things can be equal to or lower than the cost of a coin inserting terminal and a card swiping terminal. The stickiness with the user is stronger, and the service and value-added service plan can be provided for the user more closely.

Disclosure of Invention

In view of the above, a first object of the present invention is to provide a self-service charging terminal for an electric bicycle, which is convenient for a user to charge the electric bicycle.

In order to solve the technical problems, the technical scheme of the invention is as follows:

a self-service charging terminal of an electric bicycle comprises a bottom shell, a front shell with a 86-type socket, a control module, a controllable switch, a current detection module, a communication module and an input wiring terminal, wherein the control module, the controllable switch, the current detection module, the communication module and the input wiring terminal are installed in the bottom shell; the controllable switch, the current detection module, the communication module and the camera are all electrically connected with the control module; the input wiring terminal is used for accessing 220V alternating current, and the controllable switch is connected between the input wiring terminal and the 86-type socket in series; the detection end of the current detection module is electrically connected between the controllable switch and the 86-type socket and is used for detecting the output current of the 86-type socket and transmitting a detection signal to the control module; the control module is configured to communicate with a cloud server through the communication module, and is used for controlling the on/off of the controllable switch according to an instruction sent by the cloud server and reporting charging state information to the cloud server, wherein the charging state information at least comprises a charging current parameter and whether charging is performed or not; the surface of the front shell is printed with a two-dimensional code pattern.

Preferably, an electronic control rotating platform is further arranged in the bottom shell, an electronic control lifting platform is mounted on the electronic control rotating platform, and a camera is mounted on the electronic control lifting platform; an opening for the camera to extend out is formed in the upward side wall of the bottom shell; install vibration sensor and sound sensor on the preceding shell, vibration sensor, sound sensor, camera, automatically controlled elevating platform, automatically controlled revolving stage are connected with the control module electricity.

Preferably, the electrically-controlled rotating table comprises a mounting frame, a driving motor and a first platen; the mounting rack is fixed on the inner wall of the bottom shell; the driving motor is vertically fixed on the mounting frame and is electrically connected with the control module; the first bedplate is fixed on an output shaft of the driving motor.

Preferably, the electric control lifting platform comprises an electromagnetic telescopic rod and a second bedplate; the electromagnetic telescopic rod is vertically fixed on the first bedplate and is electrically connected with the control module; the second bedplate is fixed on the rod body of the electromagnetic telescopic rod.

A second object of the present invention is to provide a self-service charging system for an electric bicycle, which is convenient for a user to charge the electric bicycle to a certain extent.

In order to solve the technical problems, the technical scheme of the invention is as follows:

a self-service charging system of an electric bicycle comprises a cloud server, a mobile phone APP and the self-service charging terminal according to the scheme; the mobile phone APP and the self-service charging terminal are in remote communication with the cloud server through a wireless mobile network; the cloud server configures unique identity information for each self-service charging terminal, and the identity information is contained in the two-dimensional code pattern on the self-service charging terminal; wherein,

the self-service charging terminal is used for starting/finishing a charged electric bicycle charging service to a user according to an instruction sent by the cloud server and reporting charging state information to the cloud server in real time, wherein the charging state information at least comprises a charging current parameter and whether charging is performed or not;

the mobile phone APP is used for the user to perform account login, recharging and charging related operations, and sends a corresponding operation instruction to the cloud server according to the operation of the user, and receives and displays information and instructions related to the corresponding user from the cloud server; and the charging related operation is performed by scanning the two-dimensional code pattern on the self-service charging terminal.

Preferably, an electronic control rotating platform is further arranged in the bottom shell, an electronic control lifting platform is mounted on the electronic control rotating platform, and a camera is mounted on the electronic control lifting platform; an opening for the camera to extend out is formed in the upward side wall of the bottom shell; install vibration sensor and sound sensor on the preceding shell, vibration sensor, sound sensor, camera, automatically controlled elevating platform, automatically controlled revolving stage are connected with the control module electricity.

The third purpose of the invention is to provide a self-service charging method for an electric bicycle, which can be convenient for a user to charge the electric bicycle to a certain extent.

In order to solve the technical problems, the technical scheme of the invention is as follows:

a self-service charging method of an electric bicycle comprises the following steps:

after a user logs in a mobile phone APP, scanning a two-dimensional code pattern on the self-service charging terminal by using the mobile phone APP; the mobile phone APP sends a corresponding charging request to the cloud server according to the obtained two-dimensional code information;

after receiving the charging request, the cloud server sends a charging instruction to the corresponding self-service charging according to the charging state information of the corresponding self-service charging terminal;

after the self-service charging terminal receives a charging instruction, the control module controls the controllable switch to be turned on, and the on state of the controllable switch is judged through the current detection module; the control module reports the charging state information to the cloud server;

and the cloud server charges the corresponding user according to the charging state information.

Preferably, the method further comprises the following steps: in the charging process, when the control module detects that the charging current is 0, reporting interrupt information to a cloud server; after receiving the interrupt information, the cloud server sends confirmation information to a mobile phone APP of the corresponding user, and sends a charging continuing instruction or a charging stopping instruction to the corresponding self-service charging terminal according to a confirmation result of the user on the mobile phone APP; and the self-service charging terminal controls the on/off of the controllable switch according to the received charging continuing instruction or charging stopping instruction.

Preferably, the method further comprises the following steps: after the controllable switch is turned on, the self-service charging terminal judges whether a user accesses a plug of the electric bicycle or not through the charging current; when the access is detected, the electric control lifting platform is immediately controlled to ascend so as to push the camera out of the bottom shell; enabling the camera to be aimed at the user; then, acquiring and storing facial image information of the user through a camera; then, in the charging process, if the processes of disappearance and recovery of the charging current within 10 seconds are detected, immediately controlling the electric control lifting platform to ascend so as to push the camera out of the bottom shell; and meanwhile, controlling the camera to shoot so as to obtain the facial image information of the current operation user, comparing the facial image information with the facial image information obtained before, and controlling the controllable switch according to the comparison result.

Preferably, the method further comprises the following steps:

the control module judges whether the corresponding self-service charging terminal is damaged or not in real time according to detection signals fed back by the vibration sensor and the sound sensor; if so, immediately reporting a forensics request to a cloud server;

after receiving the evidence obtaining request, the cloud server immediately sends evidence obtaining instructions to the charging terminals on the two sides of the self-service charging terminal which sends the evidence obtaining request;

after receiving the evidence obtaining instruction, the self-service charging terminal immediately controls the electric control lifting platform to ascend so as to push the camera out of the bottom shell; meanwhile, the electronic control rotating platform is controlled to rotate by a preset angle, so that the camera can be aligned to the self-service charging terminal sending the evidence obtaining request;

and then, the control module starts a camera to photograph or record so as to acquire image data and upload the image data to the cloud server.

The technical effects of the invention are mainly reflected in the following aspects:

1. the traditional charging mode of coin feeding and card swiping is abandoned, and a user can scan the two-dimensional code by using a mobile phone APP to perform charging operation, so that the charging operation is very convenient;

2. carry out intelligent monitoring to the charging process, prevent the emergence of unexpected condition.

Drawings

Fig. 1 is a schematic internal structure diagram of a self-service charging terminal according to a first embodiment;

fig. 2 is a schematic front view of a self-service charging terminal according to a first embodiment;

fig. 3 is an installation schematic diagram of a self-service charging terminal in the first embodiment;

fig. 4 is a schematic diagram of a self-service charging system according to a second embodiment.

Reference numerals: 11. a bottom case; 12. a front housing; 2. an input connecting terminal; 3. a 86-type socket; 41. a mounting frame; 42. a drive motor; 43. a first platen; 51. an electromagnetic telescopic rod; 52. a second platen; 6. a protective cover; 7. a camera; 8. a circuit module; 9. and an indicator light.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in order to make the technical solution of the present invention easier to understand and understand.

The first embodiment,

Referring to fig. 1 to 3, the present embodiment provides a self-service charging terminal for an electric bicycle, including a bottom case 11, a front case 12 with a 86-type socket 3, and a control module, a controllable switch, a current detection module, a communication module and an input connection terminal 2 installed in the bottom case 11; the control module, the controllable switch, the current detection module and the communication module are all integrated in the circuit module 8.

A two-dimensional code pattern is printed on the surface of the front shell 12, and an indicator lamp 9 is arranged below the two-dimensional code pattern and used for indicating the working state of the self-service charging terminal; the indicator light 9 is electrically connected with the control module. The indicator lamp 9 includes a power supply lamp, a charging state lamp, and an alarm lamp.

The input wiring terminal 2 is used for accessing 220V alternating current, and when the input wiring terminal is accessed, the power lamp is lightened. The controllable switch (adopting a relay) is connected in series between the input wiring terminal 2 and the 86-type socket 3.

The detection end of the current detection module is electrically connected between the controllable switch and the 86-type socket 3, and is used for detecting the output current of the 86-type socket 3 and transmitting a detection signal to the control module.

The control module is configured to communicate with the cloud server through the communication module, and is used for controlling the controllable switch to be switched on/off according to an instruction sent by the cloud server, and when the controllable switch is switched on, the charging state lamp is turned on. The control module also reports charging state information to the cloud server, wherein the charging state information at least comprises charging current parameters and whether charging is in progress. When the charging current is too large, the control module controls the alarm lamp to light.

An electric control rotating platform is further arranged in the bottom shell 11, an electric control lifting platform is mounted on the electric control rotating platform, and a camera 7 is mounted on the electric control lifting platform; an opening for the camera 7 to extend out is formed on the upward side wall of the bottom shell 11; the front shell 12 is provided with a vibration sensor and a sound sensor, and the vibration sensor, the sound sensor, the camera 7, the electric control lifting platform and the electric control rotating platform are electrically connected with the control module.

The electric control rotating platform comprises a mounting frame 41, a driving motor 42 and a first platen 43; wherein, the mounting rack 41 is fixed on the inner wall of the bottom shell 11; the driving motor 42 is vertically fixed on the mounting frame 41 and is electrically connected with the control module; the first platen 43 is fixed to an output shaft of the drive motor 42. The electric control lifting platform comprises an electromagnetic telescopic rod 51 and a second bedplate 52; wherein, the electromagnetic telescopic rod 51 is vertically fixed on the first bedplate 43 and is electrically connected with the control module; the working principle of the electromagnetic telescopic rod 51 is similar to that of an electromagnetic lock, and after the electromagnetic lock is powered on, the rod body extends out, and after the electromagnetic lock is powered off, the rod body retracts. The second platen 52 is fixed to the rod of the electromagnetic telescopic rod 51. A protective cover 6 for covering the camera 7 is arranged on the second bedplate 52, and the protective cover 6 is made of transparent material; the protective cover 6 is dimensioned to fit the opening.

Example II,

Referring to fig. 2, the embodiment provides a self-service charging system for an electric bicycle, including a cloud server, a mobile phone APP, and the self-service charging terminal of the embodiment; the mobile phone APP and the self-service charging terminal are in remote communication with the cloud server through the wireless mobile network; the cloud server configures unique identity information for each self-service charging terminal, and the identity information is contained in the two-dimensional code pattern on the self-service charging terminal; wherein,

the self-service charging terminal is used for starting/finishing the charged electric bicycle charging service to a user according to an instruction sent by the cloud server and reporting charging state information to the cloud server in real time, wherein the charging state information at least comprises a charging current parameter and whether charging is carried out or not;

the mobile phone APP is used for the user to perform account login, recharging and charging related operations, and sends a corresponding operation instruction to the cloud server according to the operation of the user, and receives and displays information and instructions related to the corresponding user from the cloud server; the charging related operation is performed by scanning the two-dimensional code pattern on the self-service charging terminal.

Example III,

The present embodiment provides a self-service charging method for an electric bicycle based on the first embodiment and the second embodiment, and the method is also used for explaining the working principle of the self-service charging system of the first embodiment. The method comprises the following steps:

after a user logs in a mobile phone APP, scanning a two-dimensional code pattern on the self-service charging terminal by using the mobile phone APP; the mobile phone APP sends a corresponding charging request to the cloud server according to the obtained two-dimensional code information;

after receiving the charging request, the cloud server sends a charging instruction to the corresponding self-service charging according to the charging state information of the corresponding self-service charging terminal;

after the self-service charging terminal receives a charging instruction, the control module controls the controllable switch to be turned on, and the on state of the controllable switch is judged through the current detection module; the control module reports the charging state information to the cloud server;

and the cloud server charges the corresponding user according to the charging state information.

Meanwhile, in this embodiment, in order to avoid other users from unplugging the plug of the current user, 2 ways are provided:

in the first mode, in the charging process, when the control module detects that the charging current is 0, reporting interrupt information to a cloud server; after receiving the interrupt information, the cloud server sends confirmation information to a mobile phone APP of the corresponding user, and sends a charging continuing instruction or a charging stopping instruction to the corresponding self-service charging terminal according to a confirmation result of the user on the mobile phone APP; and the self-service charging terminal controls the on/off of the controllable switch according to the received charging continuing instruction or charging stopping instruction. Through the scheme, the situation that another person intentionally pulls out the plug of the user to charge the electric bicycle can be avoided, and meanwhile, the corresponding operation time is given to the user.

In the second mode, after the controllable switch is turned on, the self-service charging terminal judges whether the user accesses the plug of the electric bicycle or not through the charging current; when the access is detected, the electric control lifting platform is immediately controlled to ascend so as to push the camera 7 out of the bottom shell 11; enabling the camera 7 to be aimed at the user; then, the face image information of the user is immediately obtained through the camera 7 and stored; then, in the charging process, if the charging current is detected to have the processes of disappearance and recovery within 10 seconds, immediately controlling the electric control lifting platform to ascend so as to push the camera 7 out of the bottom shell 11; meanwhile, the camera 7 is controlled to take a picture to acquire the facial image information of the current operation user, the facial image information is compared with the facial image information acquired before, and the controllable switch is controlled according to the comparison result. Through the scheme, the face recognition function is utilized, the charging user is monitored, and malicious behaviors are prevented.

In addition, in order to monitor the self-service charging terminal, the present embodiment further provides the following monitoring scheme:

the control module judges whether the corresponding self-service charging terminal is damaged or not in real time according to detection signals fed back by the vibration sensor and the sound sensor; if so, immediately reporting a forensics request to a cloud server; after receiving the evidence obtaining request, the cloud server immediately sends evidence obtaining instructions to the charging terminals on the two sides of the self-service charging terminal which sends the evidence obtaining request; after receiving the evidence obtaining instruction, the self-service charging terminal immediately controls the electric control lifting platform to ascend so as to push the camera 7 out of the bottom shell 11; meanwhile, the electronic control rotating platform is controlled to rotate by a preset angle, so that the camera 7 can be aligned to the self-service charging terminal sending the evidence obtaining request; then, the control module starts the camera 7 to take a picture or record a video so as to acquire image data and upload the image data to the cloud server.

In this way, once a person intentionally destroys the self-service charging terminal, the information of the person can be quickly obtained to help law enforcement personnel to enforce law.

The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all the technical solutions formed by equivalent substitutions or equivalent changes are within the scope of the present invention as claimed.

Claims (10)

1. A self-service charging terminal of an electric bicycle is characterized by comprising a bottom shell (11), a front shell (12) with a 86-type socket (3), a control module, a controllable switch, a current detection module, a communication module and an input wiring terminal (2), wherein the control module, the controllable switch, the current detection module, the communication module and the input wiring terminal are installed in the bottom shell (11); the controllable switch, the current detection module, the communication module and the camera (7) are electrically connected with the control module; the input wiring terminal (2) is used for accessing 220V alternating current, and the controllable switch is connected between the input wiring terminal (2) and the 86-type socket (3) in series; the detection end of the current detection module is electrically connected between the controllable switch and the 86-type socket (3) and is used for detecting the output current of the 86-type socket (3) and transmitting a detection signal to the control module; the control module is configured to communicate with a cloud server through the communication module, and is used for controlling the on/off of the controllable switch according to an instruction sent by the cloud server and reporting charging state information to the cloud server, wherein the charging state information at least comprises a charging current parameter and whether charging is performed or not; the surface of the front shell (12) is printed with a two-dimensional code pattern.

2. The self-service charging terminal of the electric bicycle as claimed in claim 1, wherein an electric control rotating platform is further arranged in the bottom shell (11), an electric control lifting platform is mounted on the electric control rotating platform, and a camera (7) is mounted on the electric control lifting platform; an opening for the camera (7) to extend out is formed in the upward side wall of the bottom shell (11); install vibration sensor and sound sensor on preceding shell (12), vibration sensor, sound sensor, camera (7), automatically controlled elevating platform, automatically controlled revolving stage are connected with the control module electricity.

3. The self-service charging terminal of electric bicycles of claim 2, wherein the electrically controlled rotating platform comprises a mounting frame (41), a driving motor (42) and a first platen (43); the mounting frame (41) is fixed on the inner wall of the bottom shell (11); the driving motor (42) is vertically fixed on the mounting frame (41) and is electrically connected with the control module; the first platen (43) is fixed to an output shaft of the drive motor (42).

4. The self-service charging terminal of the electric bicycle as claimed in claim 3, wherein the electrically controlled lifting platform comprises an electromagnetic telescopic rod (51) and a second platen (52); the electromagnetic telescopic rod (51) is vertically fixed on the first bedplate (43) and is electrically connected with the control module; the second bedplate (52) is fixed on the rod body of the electromagnetic telescopic rod (51).

5. A self-service charging system of an electric bicycle is characterized by comprising a cloud server, a mobile phone APP and the self-service charging terminal according to claim 1; the mobile phone APP and the self-service charging terminal are in remote communication with the cloud server through a wireless mobile network; the cloud server configures unique identity information for each self-service charging terminal, and the identity information is contained in the two-dimensional code pattern on the self-service charging terminal; wherein,

the self-service charging terminal is used for starting/finishing a charged electric bicycle charging service to a user according to an instruction sent by the cloud server and reporting charging state information to the cloud server in real time, wherein the charging state information at least comprises a charging current parameter and whether charging is performed or not;

the mobile phone APP is used for the user to perform account login, recharging and charging related operations, and sends a corresponding operation instruction to the cloud server according to the operation of the user, and receives and displays information and instructions related to the corresponding user from the cloud server; and the charging related operation is performed by scanning the two-dimensional code pattern on the self-service charging terminal.

6. The self-service charging system of the electric bicycle as claimed in claim 5, wherein an electric control rotating platform is further arranged in the bottom shell (11), an electric control lifting platform is mounted on the electric control rotating platform, and a camera (7) is mounted on the electric control lifting platform; an opening for the camera (7) to extend out is formed in the upward side wall of the bottom shell (11); install vibration sensor and sound sensor on preceding shell (12), vibration sensor, sound sensor, camera (7), automatically controlled elevating platform, automatically controlled revolving stage are connected with the control module electricity.

7. A self-service charging method of an electric bicycle is characterized by comprising the following steps:

after a user logs in a mobile phone APP, scanning a two-dimensional code pattern on the self-service charging terminal by using the mobile phone APP; the mobile phone APP sends a corresponding charging request to the cloud server according to the obtained two-dimensional code information;

after receiving the charging request, the cloud server sends a charging instruction to the corresponding self-service charging according to the charging state information of the corresponding self-service charging terminal;

after the self-service charging terminal receives a charging instruction, the control module controls the controllable switch to be turned on, and the on state of the controllable switch is judged through the current detection module; the control module reports the charging state information to the cloud server;

and the cloud server charges the corresponding user according to the charging state information.

8. The self-service charging method of the electric bicycle according to claim 7, further comprising: in the charging process, when the control module detects that the charging current is 0, reporting interrupt information to a cloud server; after receiving the interrupt information, the cloud server sends confirmation information to a mobile phone APP of the corresponding user, and sends a charging continuing instruction or a charging stopping instruction to the corresponding self-service charging terminal according to a confirmation result of the user on the mobile phone APP; and the self-service charging terminal controls the on/off of the controllable switch according to the received charging continuing instruction or charging stopping instruction.

9. The self-service charging method of the electric bicycle according to claim 7, further comprising: after the controllable switch is turned on, the self-service charging terminal judges whether a user accesses a plug of the electric bicycle or not through the charging current; when the access is detected, the electric control lifting platform is immediately controlled to ascend so as to push the camera (7) out of the bottom shell (11); enabling the camera (7) to be aimed at the user; then, the face image information of the user is immediately obtained through the camera (7) and stored; then, in the charging process, if the processes of disappearance and recovery of the charging current within 10 seconds are detected, immediately controlling the electric control lifting platform to ascend so as to push the camera (7) out of the bottom shell (11); meanwhile, the camera (7) is controlled to shoot so as to obtain the facial image information of the current operation user, the facial image information is compared with the facial image information obtained before, and the controllable switch is controlled according to the comparison result.

10. The self-service charging method of the electric bicycle according to claim 9, further comprising:

the control module judges whether the corresponding self-service charging terminal is damaged or not in real time according to detection signals fed back by the vibration sensor and the sound sensor; if so, immediately reporting a forensics request to a cloud server;

after receiving the evidence obtaining request, the cloud server immediately sends evidence obtaining instructions to the charging terminals on the two sides of the self-service charging terminal which sends the evidence obtaining request;

after receiving the evidence obtaining instruction, the self-service charging terminal immediately controls the electric control lifting platform to ascend so as to push the camera (7) out of the bottom shell (11); meanwhile, the electronic control rotating platform is controlled to rotate by a preset angle, so that the camera (7) can be aligned to the self-service charging terminal sending the evidence obtaining request;

and then, the control module starts a camera (7) to take pictures or record videos so as to acquire image data and upload the image data to the cloud server.