CN110730211A

CN110730211A - Shared charging control method, shared charging client and shared charging service terminal

Info

Publication number: CN110730211A
Application number: CN201910890854.4A
Authority: CN
Inventors: 杨万紫
Original assignee: Shenzhen Xiaohuangdian Intelligent Technology Co Ltd
Current assignee: Shenzhen Xiaohuangdian Intelligent Technology Co Ltd
Priority date: 2019-09-20
Filing date: 2019-09-20
Publication date: 2020-01-24
Anticipated expiration: 2039-09-20
Also published as: CN110730211B

Abstract

The invention relates to a shared charging control method, a shared charging client and a shared charging service terminal, wherein the method comprises the following steps: acquiring a code of the shared charging terminal through the client, and sending the code and the function request to the service terminal; the service terminal inquires and verifies a corresponding shared charging terminal according to the code, and sends a corresponding function code to the client according to the function request; the shared charging terminal receives the function code, inquires local instruction mapping relation information according to the function code to determine a local operating instruction, and completes corresponding function operation on the shared charging terminal according to the local operating instruction. The shared charging control design of the invention does not need to set a communication module, the verification and reset operations are convenient and quick, and the centralized management of the service terminal to all the shared charging terminals in a connectionless mode can be realized.

Description

Shared charging control method, shared charging client and shared charging service terminal

Technical Field

The present application relates to the field of shared charging control technologies, and in particular, to a shared charging control method, a shared charging client, and a shared charging service terminal.

Background

With the development of the internet era, mobile terminal electronic equipment is more and more compact with the life of people, and the power consumption of frequently used mobile terminals is large, and supplementary charging is needed in many cases. At present, public area place can provide supply socket, but provides the charger or the charging wire corresponding with mobile terminal seldom, and the user also often forgets to carry charger or charging wire moreover, consequently goes out to touch the problem that is difficult to in time charge. With the development of the sharing economy, the sharing charging device provides more charging options for people. Generally, the shared charging device cannot be used directly, and a user can charge the shared charging device only after code scanning payment through electronic devices such as a mobile phone and the like.

The shared charging terminal as an intelligent charger has a unique code, the code can be written into and stored by an internal controller of the charger in the production process, and meanwhile, the charger code, such as a two-dimensional code, is pasted or printed on a charger body for a user to use in code scanning. In the production process, the internal code of the charger and the two-dimensional code of the body mounting are not corresponding due to misoperation, and the use of the shared charging terminal is directly influenced.

In order to ensure that the internal code of the shared charging terminal and the code displayed on the body are consistent, the code of each shared charging terminal needs to be verified.

In the using process of the shared charging terminal, the possibility that the password is guessed for many times exists, and the background server can automatically lock the shared charging terminal against the phenomenon, so that the shared charging terminal cannot be normally used. In order to recover the use function of the shared charging terminal which is guessed by the password for a plurality of times, the shared charging terminal needs to be reset.

In the existing checking scheme, visual checking is generally adopted; reset schemes typically employ either a firmware update reset or a communication reset. In visual inspection, the operator uses a tool to read the shared charging terminal internal code to compare with the body code by visual inspection. The operator in this scheme looks at the comparison and easily takes place the erroneous judgement, needs therefore be unfavorable for intelligent charger's dustproof and waterproof because of sharing charge terminal reservation communication interface moreover. In the firmware updating and resetting process, the password resetting operation of the scheme needs to return the shared charging terminal to the factory to update the firmware, and can be completed by professional operators by using professional tools. The operation cost is high, and the requirement on technical speciality is high. In communication reset, the scheme requires that an operator sends a reset command to the shared charging terminal by using a professional tool, and the reset command can be completed by returning to a factory for maintenance or by a shared charging terminal manager. The operation cost is lower and the technical speciality is higher under the condition of not returning to the factory.

Therefore, the existing verification and reset mode is inconvenient to operate, low in efficiency, time-consuming and high in cost.

Therefore, existing shared charge control techniques are yet to be improved.

Disclosure of Invention

Aiming at the technical problems, the shared charging control method, the shared charging client and the shared charging service terminal are provided, the communication module does not need to be arranged, the verification and reset operations are convenient and quick, and the centralized management of the service terminal to all the shared charging terminals in a connectionless mode can be realized.

In a first aspect, from the overall design of a service terminal, a user client, and a shared charging terminal, the technical solution provided by the embodiments of the present application is: provided is a shared charge control method including the steps of:

acquiring a code of the shared charging terminal through the client, and sending the code and the function request to the service terminal;

the service terminal inquires and verifies a corresponding shared charging terminal according to the code, and sends a corresponding function code to the client according to the function request;

the shared charging terminal receives the function code, inquires local instruction mapping relation information according to the function code to determine a local operating instruction, and completes corresponding function operation on the shared charging terminal according to the local operating instruction.

In one embodiment, the function code is a reset code, and the use process of the reset code is as follows;

the client acquires the code of the shared charging terminal by scanning a graphic code, wherein the graphic code comprises the address of the service terminal, sends a link request to the service terminal according to the address, and sends the code and a reset request to the service terminal;

the service terminal inquires and verifies a corresponding shared charging terminal according to the code, and sends a corresponding reset code to the client according to the reset request;

the shared charging terminal receives the reset code, completes reset operation according to the reset code and sends a reset success prompt when the reset is successful; sending out a reset failure prompt when the reset is unsuccessful;

and feeding back the results of the resetting success and the resetting failure to the service terminal through the client.

In one embodiment, the function code is a check code, and the reset code is used in the process of use;

the client acquires the code of the shared charging terminal by scanning a graphic code, wherein the graphic code comprises the address of the service terminal, sends a link request to the service terminal according to the address, and sends the code and a verification request to the service terminal;

the service terminal inquires and verifies a corresponding shared charging terminal according to the code, and sends a corresponding check code to the client according to the check request;

the shared charging terminal receives the check code, completes check operation according to the check code and sends a check success prompt when the check is successful; sending out a verification failure prompt when the verification is unsuccessful;

and feeding back the verification success and verification failure results to the service terminal through the client.

The service terminal further stores management information of the shared charging terminal, wherein the management information comprises verification information and feedback information;

the service terminal stores and updates verification information generated by verification of each shared charging terminal;

the service terminal stores and updates feedback information of each shared charging terminal function operation.

In a second aspect, from the design of client software of a user terminal, the technical solution provided by the embodiments of the present application is: the shared charging client comprises an identification module, a function operation module and a first sending and receiving module;

the identification module acquires a code of the shared charging terminal;

the function operation module is used for acquiring a function request input by a user;

the first sending and receiving module is used for sending the code and the function request to a service terminal;

the first sending and receiving module is further configured to receive a function code fed back by the service terminal according to the function request after the service terminal queries and verifies the corresponding shared charging terminal according to the code.

Preferably, the function code is a reset code or a check code; the shared charging client also comprises a result feedback module; the identification module comprises a two-dimensional code scanning module and a two-dimensional code identification module;

the two-dimensional code scanning module identifies the code of the shared charging terminal by the two-dimensional code identification module through scanning a graphic code, wherein the graphic code comprises the address of the service terminal;

the first sending and receiving module sends a linking request to the service terminal according to the address and sends the code and the reset request to the service terminal;

the result feedback module is used for feeding back the reset success and reset failure results displayed by the shared charging terminal to the service terminal.

In a third aspect, from the perspective of server design interacting with a user terminal, the technical solution provided by the embodiments of the present application is: the shared charging service terminal comprises a verification module, a distribution module and a second sending and receiving module;

the second sending and receiving module is used for receiving the code and the function request of the shared charging terminal acquired by the client;

the verification module is used for inquiring and verifying the corresponding shared charging terminal according to the code;

the distribution module is used for determining a corresponding function code according to the function request;

the second sending and receiving module is also used for sending the function code to the corresponding client.

Preferably, the function code is a reset code or a check code; the second sending and receiving module is further configured to receive the results of the resetting success and the resetting failure of the shared charging terminal fed back by the client.

Preferably, the service terminal further comprises a storage management module;

the storage management module is used for storing management information of the shared charging terminal, and the management information comprises verification information and feedback information.

Further, the service terminal also comprises a first updating module and a second updating module;

the first updating module is used for storing and updating verification information generated by verification of each shared charging terminal;

the second updating module is used for storing and updating feedback information of each shared charging terminal function operation.

The beneficial effects of the embodiment of the application are that: according to the shared charging control method, the shared charging client and the shared charging service terminal, the shared charging terminal can automatically complete resetting and checking operations without setting a communication module for data communication with the service terminal, so that the shared charging terminal is more simplified in structure; meanwhile, the shared charging control method, the shared charging client and the shared charging service terminal of the embodiment are implemented by automatically distributing function codes by the service terminal, the function codes determine local operating instructions by combining instruction mapping relation information prestored in the shared charging terminal, and corresponding function operations are completed on the shared charging terminal according to the local operating instructions, the ID of an internal controller of the intelligent charging terminal does not need to be read, the verification and reset operations are convenient and fast, the service terminal can simultaneously check whether the body coding format and the content of the shared charging terminal meet requirements, meanwhile, production information is counted and stored, and centralized management of all shared charging terminals by the service terminal in a connectionless mode is realized.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the figures in which like reference numerals refer to similar elements and which are not to scale unless otherwise specified.

Fig. 1 is a schematic structural diagram of a shared charging terminal according to an embodiment of the present application;

fig. 2 is a schematic diagram of a system structure operation structure of a shared charge control method according to an embodiment of the present application;

fig. 3 is an overall process flow diagram of a shared charge control method according to an embodiment of the present application;

fig. 4 is a system unit hardware architecture diagram of a shared charging control method according to an embodiment of the present application;

fig. 5 is a specific flowchart of the reset operation of the shared charging control method according to the embodiment of the present application;

fig. 6 is a flowchart illustrating a specific checking operation of the shared charging control method according to the embodiment of the present application;

fig. 7 is a block configuration of a shared charging client according to an embodiment of the present application; and

fig. 8 is a block configuration of a shared charging service terminal according to an embodiment of the present application.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present application more apparent, the embodiments of the present application are further described in detail below with reference to the accompanying drawings. The exemplary embodiments and descriptions of the present application are provided herein to explain the present application and not to limit the present application.

Referring to fig. 1, the present invention relates to a shared charging control method and a shared charging terminal for providing a time-based charging service to a mobile terminal of an unspecified user in a public area.

The software processing of the shared charging control method involves a processing flow of the service terminal and a software processing flow portion of the shared charging terminal. Therefore, the shared charging control method includes a shared charging control method of the service terminal and a shared charging control method of the shared charging terminal.

From the overall design of the service terminal, the user client and the shared charging terminal, the shared charging control method mainly comprises the following technical means: acquiring a code of the shared charging terminal through the client, and sending the code and the function request to the service terminal; the service terminal inquires and verifies a corresponding shared charging terminal according to the code, and sends a corresponding function code to the client according to the function request; the shared charging terminal receives the function code, inquires local instruction mapping relation information according to the function code to determine a local operating instruction, and completes corresponding function operation on the intelligent charger according to the local operating instruction.

The present invention is explained from the perspective of the client software design of the user terminal 5, and the shared charging client includes an identification module 51, a function operation module 52, and a first sending and receiving module 53; the identification module acquires a code of the shared charging terminal; the function operating module 52 is used for acquiring a function request input by a user; the first sending and receiving module 53 is configured to send the code together with the function request to the service terminal; the first sending and receiving module 53 is further configured to receive a function code fed back by the service terminal according to the function request after the service terminal queries and verifies the corresponding shared charging terminal according to the code.

The invention is explained from the perspective of software design of a service terminal, wherein the service terminal comprises a verification module, a distribution module and a second sending and receiving module; the second sending and receiving module is used for receiving the code and the function request of the shared charging terminal acquired by the client; the verification module is used for inquiring and verifying the corresponding shared charging terminal according to the code; the distribution module is used for determining a corresponding function code according to the function request; the second sending and receiving module is also used for sending the function code to the corresponding client.

According to the shared charging control method, the shared charging client and the shared charging service terminal, the shared charging terminal serving as the intelligent charger does not need to be provided with a communication module for data communication with the service terminal, and can automatically complete resetting and checking operations, so that the shared charging terminal is simpler in structure; meanwhile, in the function operation, the service terminal automatically distributes function codes, the function codes determine a local operation instruction by combining with instruction mapping relation information prestored in the shared charging terminal, and complete corresponding function operation on the shared charging terminal according to the local operation instruction, the verification and reset operation is convenient and quick, the service terminal can simultaneously check whether the body coding format and the content of the shared charging terminal meet the requirements, and meanwhile, the production information is counted and stored, so that the centralized management of the service terminal to all the shared charging terminals in a connectionless mode is realized.

Example 1

The present embodiment relates to client software of a user terminal 5, such as a mobile phone, processing specific content. When the charging system works, a user realizes the verification or reset operation of the shared charging terminal through the client software of the mobile phone.

As shown in fig. 1 and 2, the shared charging terminal 1 of the present embodiment may be arbitrarily disposed in a common area. A communication connection is established with the service terminal 7 via the user terminal 5.

The shared charging terminal 1 of the present embodiment includes a charging module and a control module 3. The control module 3 includes an indicator light 33, an input key 31, and a control module. In order to realize the visual presentation of the information interaction with the user on the hardware setting, the shared charging terminal 1 may be provided with an indicator light 33 connected to the control module 3 and a plurality of speakers (not shown) connected to the control module 3.

The input key 31 serves as a function code input interface of the shared charging terminal 1, and the user can input a function code by pressing the input key 31. The indicator lamp 33 serves as an indicator of the verification or reset state of the shared charging terminal 1.

The number of the input keys 31 in the shared charging terminal 1 of the present embodiment may be increased or decreased, and the input keys 31 may correspond to letters or other keys for specifying functions in addition to numbers.

The user terminal 5 in the application scenario of the shared charging terminal 1 in this embodiment may be a mobile phone or other devices, including but not limited to a tablet computer, a navigator, and the like.

The charging module comprises an input 11 and an output 12.

The input 11 is connected to a charging connection 13. The input terminal 11 is a charging input line for transmitting the dc power of the charging connector 13 to the control module of the shared charging terminal 1. The charging connector 13 is a dc generating terminal of the shared charging terminal 1, and is used to convert ac power into dc power or directly obtain dc power and send the dc power to the control module. The charging connector 13 may be a USB interface or other interface for directly connecting to a low voltage dc power source.

The output end 12 is connected to the charging interfaces 14, and is configured to transmit the dc power output by the control module to the charging interfaces 14. The charging interface 14 is provided as at least one, or an all-in-one structure is adopted. In this embodiment, the number of the charging interfaces 14 is three, and the charging interfaces include a Type C interface, an Android charging interface, or a USB interface. The charging interface 14 is a component for connecting the shared charging terminal 1 with a user charging device, such as a mobile terminal, for transmitting direct current to the user's mobile terminal.

The two-dimensional code 16 is arranged on the housing of the shared charging terminal 1, so that a user can establish connection and communication with the service terminal 7 through the mobile terminal. The content of the two-dimensional code 16 includes a device code corresponding to the shared charging terminal 1, and the user terminal 5 scans the two-dimensional code 16 to obtain a way to turn on the corresponding shared charging terminal 1. The two-dimensional code 16 of the present embodiment may be a barcode or other information mark that can identify device code information of the shared charging terminal 1.

Referring to fig. 7, the shared charging terminal 1 of the present embodiment is described in terms of software control modules for implementing charging management.

The shared charging client includes an identification module 51, a function operation module 52, a first transmission and reception module 53, and a result feedback module 54. The identification module 51 obtains the code of the shared charging terminal. The function operating module 52 is used for acquiring a function request input by a user. The first sending and receiving module 53 is used to send the code together with the function request to the service terminal 7. The first sending and receiving module 53 is further configured to receive a function code fed back by the service terminal 7 according to the function request after querying and verifying the corresponding shared charging terminal according to the code.

In this embodiment, the function code includes a reset code and/or a check code.

The identification module 51 includes a two-dimensional code scanning module 511 and a two-dimensional code identification module 512.

The code scanning software of the two-dimensional code scanning module 511 of the shared charging terminal 1 of the present embodiment includes, but is not limited to, APP, applet, public number, and the like. The two-dimensional code scanning module 511 identifies the code of the shared charging terminal 1 by the two-dimensional code identification module 512 by scanning a graphic code, which includes the address of the service terminal 7.

The first transceiver module 53 sends a link request to the service terminal 7 according to the address, and sends the code together with a reset request to the service terminal 7.

The result feedback module 54 is configured to feed back the reset success and reset failure results shown by the shared charging terminal 1 to the service terminal 7.

Example 2

Referring to fig. 8, the present embodiment relates to software processing modules and related flow description of the shared charging service terminal 7.

The shared charging service terminal 7 includes an authentication module 71, a distribution module 72, a second transmission and reception module 73, a storage management module 74, a first update module 75, and a second update module 76.

The second sending and receiving module 73 is configured to receive a code and a function request of the shared charging terminal 1 acquired by the client;

the verification module 71 is configured to verify the corresponding shared charging terminal 1 according to the encoded query.

The allocation module 72 is configured to determine a corresponding function code according to the function request.

The second sending and receiving module 73 is further configured to send the function code to a corresponding client.

The function code is a reset code or a check code; the second sending and receiving module 73 is further configured to receive the reset success and reset failure results of the shared charging terminal 1 fed back by the client.

The storage management module 74 is configured to store management information of the shared charging terminal 1, where the management information includes authentication information and feedback information.

The first updating module 75 is used to store and update authentication information generated by authentication of each shared charging terminal 1.

The second updating module 76 is used for storing and updating feedback information of the functional operation of each shared charging terminal 1.

Example 3

Referring to fig. 3, the present embodiment relates to a shared charging control method. The shared charging control method explains the invention for the overall design of the service terminal, the user client and the shared charging terminal.

The shared charging control method comprises the following steps:

step 101: acquiring a code of the shared charging terminal through the client, and sending the code together with the function request to the service terminal 7;

step 102: the service terminal 7 inquires and verifies the corresponding shared charging terminal according to the code, and sends a corresponding function code to the client according to the function request;

step 103: the shared charging terminal receives the function code, inquires local instruction mapping relation information according to the function code to determine a local operating instruction, and completes corresponding function operation on the shared charging terminal according to the local operating instruction.

Referring to fig. 5, in the embodiment where the function code is the reset code, the use process of the reset code is as follows;

step 200: the client acquires the code of the shared charging terminal by scanning a graphic code, wherein the graphic code comprises the address of the service terminal 7;

step 201: sending a linking request to the service terminal 7 according to the address, and sending the code together with a reset request to the service terminal 7;

step 203: the service terminal 7 inquires and verifies the corresponding shared charging terminal according to the code, and sends a corresponding reset code to the client according to the reset request;

step 204: the user manually inputs the reset code at the shared charging terminal based on the reset code received by the client; the shared charging terminal receives the reset code and completes reset operation according to the reset code;

step 205: sending a reset success prompt when the reset is successful;

step 206: sending out a reset failure prompt when the reset is unsuccessful;

step 207: the user manually feeds back the results of the resetting success and the resetting failure to the service terminal 7 on the client according to the prompt of the resetting success or the resetting failure;

step 208: the service terminal 7 stores management information of the shared charging terminals, the management information includes verification information and feedback information, and the service terminal 7 stores and updates verification information generated by verification of each shared charging terminal;

step 209: the service terminal 7 stores and updates feedback information of each shared charging terminal function operation.

Referring to fig. 6, in the embodiment where the function code is a check code, the use process of the reset code is as follows;

step 300: the client acquires the code of the shared charging terminal by scanning a graphic code, wherein the graphic code comprises the address of the service terminal 7;

step 301: sending a linking request to the service terminal 7 according to the address, and sending the code together with the checking request to the service terminal 7;

step 302: the service terminal 7 inquires and verifies the corresponding shared charging terminal according to the code, and sends a corresponding check code to the client according to the check request;

step 303: the user manually inputs the verification code at the shared charging terminal based on the verification code received by the client;

step 304: the shared charging terminal receives the check code and completes the check operation according to the check code;

step 305: sending out a verification success prompt when the verification is successful;

step 306: sending out a verification failure prompt when the verification is unsuccessful;

step 307: the user manually feeds back the results of the verification success and the verification failure to the service terminal 7 on the client according to the prompt of the verification success or failure;

step 308: the service terminal 7 stores management information of the shared charging terminal, the management information including authentication information and feedback information, the service terminal 7 stores and updates authentication information generated by authentication of each shared charging terminal

Step 309: the service terminal 7 stores and updates feedback information of each shared charging terminal function operation.

According to the shared charging control method, the shared charging client and the shared charging service terminal, the shared charging terminal can automatically complete resetting and checking operations without setting a communication module for data communication with the service terminal, so that the shared charging terminal is more simplified in structure; meanwhile, the shared charging control method, the shared charging client and the shared charging service terminal of the embodiment are implemented by automatically distributing function codes by the service terminal, the function codes determine local operating instructions by combining instruction mapping relation information prestored in the shared charging terminal, and corresponding function operations are completed on the shared charging terminal according to the local operating instructions, the ID of an internal controller of the intelligent charging terminal does not need to be read, the verification and reset operations are convenient and fast, the service terminal can simultaneously check whether the body coding format and the content of the shared charging terminal meet requirements, meanwhile, production information is counted and stored, and centralized management of all shared charging terminals by the service terminal in a connectionless mode is realized.

According to the shared charging control method, the shared charging client and the shared charging service terminal, authorization management can be performed by the background service terminal through code scanning mode reset or operation authority verification, and the method, the client and the terminal are safe, reliable and high in efficiency.

Compared with the visual inspection check mode, the shared charging control method, the shared charging client and the shared charging service terminal of the embodiment have the following steps: by the software check code of the service terminal, the misjudgment caused by manual comparison is avoided, and when the software check code is carried out, the code content of the body of the shared charging terminal is checked simultaneously, so that the fault caused by the printing error of the two-dimensional code can be avoided. In contrast to the firmware update scheme: the verification and reset of the shared charging terminal do not need to return to a factory, a professional tool is not needed, the operation is simple, and the implementation cost is low. Comparing with a network communication command mode: the reset device has the advantages that a communication module is not required to be arranged, the operation is simple and convenient, the operation authority is controllable, and the reset authority of an operator can be increased or deleted at any time.

Fig. 4 is a schematic diagram of a hardware structure of a single device 600 sharing a charging control system according to an embodiment of the present application, where as shown in fig. 4, the device 600 includes:

one or more processors 610 and a memory 620, with one processor 610 being an example in fig. 4. The memory 620 stores instructions, i.e., a computer program 640, that are executable by the at least one processor 610 to enable the at least one processor to perform the shared charging control method when executed by the at least one processor.

The processor 610 and the memory 620 may be connected by a bus or other means, such as the bus connection shown in FIG. 4.

The memory 620, as a non-volatile computer-readable storage medium, may be used to store non-volatile software programs, non-volatile computer-executable programs, and modules, such as program instructions/modules corresponding to the shared charging control method in the embodiments of the present application. The processor 610 executes various functional applications of the server and data processing by running nonvolatile software programs, instructions, and modules stored in the memory 620, that is, implements the shared charging control method in the above-described method embodiments.

The memory 620 may include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created according to the use of the shared charging service terminal 7, and the like. Further, the memory 620 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid state storage device.

The one or more modules are stored in the memory 620 and, when executed by the one or more processors 610, perform the above-described shared charging control method, e.g., perform method steps 101-103 of fig. 3 described above, or perform method steps 200-209 of fig. 5; the functions of the identification module 51, the function operation module 52, the first transmission and reception module 53, the result feedback module 54, and the like in fig. 7 are realized.

The product can execute the method provided by the embodiment of the application, and has the corresponding functional modules and beneficial effects of the execution method. For technical details that are not described in detail in this embodiment, reference may be made to the methods provided in the embodiments of the present application.

Embodiments of the present application provide a non-transitory computer-readable storage medium storing computer-executable instructions for execution by one or more processors, for example, to perform method steps 101-103 of fig. 3 described above, or to perform method steps 200-209 of fig. 5; the functions of the identification module 51, the function operation module 52, the first transmission and reception module 53, the result feedback module 54, and the like in fig. 7 are realized.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; within the context of the present application, where technical features in the above embodiments or in different embodiments can also be combined, the steps can be implemented in any order and there are many other variations of the different aspects of the present application as described above, which are not provided in detail for the sake of brevity; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims

1. A shared charging control method is characterized by comprising the following steps:

acquiring a code of a shared charging terminal through a client, and sending the code together with a function request to a service terminal;

and the shared charging terminal receives the function code, inquires local instruction mapping relation information according to the function code to determine a local operating instruction, and completes corresponding function operation on the shared charging terminal according to the local operating instruction.

2. The shared charging control method according to claim 1, wherein the function code is a reset code;

the client acquires a code of a shared charging terminal by scanning a graphic code, wherein the graphic code comprises an address of a service terminal, sends a link request to the service terminal according to the address, and sends the code and a reset request to the service terminal;

the shared charging terminal receives the reset code, completes reset operation according to the reset code and sends a reset success prompt when reset is successful; sending out a reset failure prompt when the reset is unsuccessful;

3. The shared charging control method according to claim 1,

the function code is a check code;

the client acquires a code of the shared charging terminal by scanning a graphic code, wherein the graphic code comprises an address of a service terminal, sends a link request to the service terminal according to the address, and sends the code and a verification request to the service terminal;

4. The shared charging control method according to any one of claims 1 to 3, wherein the service terminal stores management information of the shared charging terminal, the management information including authentication information and feedback information;

and the service terminal stores and updates feedback information of the function operation of each shared charging terminal.

5. A shared charging client is characterized by comprising an identification module, a function operation module and a first sending and receiving module;

the identification module acquires a code of the shared charging terminal;

and the first sending and receiving module is also used for receiving a function code fed back by the service terminal according to the function request after the service terminal inquires and verifies the corresponding shared charging terminal according to the code.

6. The shared charging client of claim 5, wherein the function code is a reset code or a check code; the shared charging client further comprises a result feedback module; the identification module comprises a two-dimensional code scanning module and a two-dimensional code identification module;

7. A shared charging service terminal is characterized by comprising a verification module, a distribution module and a second sending and receiving module;

the second sending and receiving module is used for receiving the codes and the function requests of the shared charging terminal, which are acquired by the client;

the second sending and receiving module is further used for sending the function code to the corresponding client.

8. The shared charging service terminal of claim 7, wherein the function code is a reset code or a check code; the second sending and receiving module is further configured to receive the results of the resetting success and the resetting failure of the shared charging terminal fed back by the client.

9. The shared charging service terminal of claim 7, wherein the service terminal further comprises a storage management module;

10. The shared charging service terminal of claim 9, wherein the service terminal further comprises a first update module and a second update module;