CN116263866A - Automatic burning method and equipment - Google Patents

Abstract

The invention relates to an automatic burning method and equipment, which are characterized in that a first Token activation code with unique significances is read from a pre-allocated batch Token activation code file and is burnt into a connected first Wi-Fi module; acquiring an equipment SN code, an equipment MAC and an AP MAC in a first Wi-Fi module, binding the equipment SN code and a first Token activation code, and updating a batch Token activation code file; and generating a first code stream which accords with the preset terminal system specification according to the equipment MAC and the AP MAC of the first Wi-Fi module, and burning the first code stream onto the connected first NFC tag to finish burning. In the mass production stage of the ecological products of the Internet of things, the unique Token activation code is input in the Wi-Fi module in an automatic batch mode, and the NFC label code stream which is related to the existence data of the Wi-Fi module after calculation is input in the NFC label. The terminal equipment of the corresponding system can access the Internet through reading the code stream in the NFC tag to configure the Wi-Fi module, so that the ecological product is operated at the terminal equipment to realize various Internet of things functions.

Description

Automatic burning method and equipment

Technical Field

The invention belongs to the technical field of the Internet of things, and particularly relates to an automatic burning method and equipment.

Background

The internet of things is an information carrier based on the internet, a traditional telecommunication network and the like, and enables all common physical objects which can be independently addressed to form an interconnection network. For the existing users, the terminal device is used as a product with higher popularity and higher usage, and many ecological products need to be connected with terminal devices of different systems in an internet of things mode so as to perform intelligent control on the ecological products at the terminal devices, therefore, the ecological products need to be connected with the terminal devices in an internet of things mode through a network access module, namely, when the ecological products are generated, a method and equipment capable of burning data in batches to the network access module to realize the internet of things with the terminal devices are needed.

Disclosure of Invention

The invention aims to provide an automatic burning method and equipment, which automatically burn information required by an internet of things in batches to a network access module.

In order to solve the technical problems, the invention discloses an automatic burning method, which comprises the following steps:

s1, reading a first Token activation code with unique significances from a pre-allocated batch Token activation code file and burning the first Token activation code into a connected first Wi-Fi module;

s2, acquiring an equipment SN code, an equipment MAC and an AP MAC in the first Wi-Fi module, binding the equipment SN code and the first Token activation code, and updating the batch Token activation code file;

s3, generating a first code stream which accords with a preset terminal system specification according to the equipment MAC and the AP MAC of the first Wi-Fi module, and burning the first code stream onto a connected first NFC label to finish burning.

Further, the method further comprises the steps of:

judging whether an upper computer is accessed, if so, opening serial port information monitoring, and executing step S1 when the access of the first Wi-Fi module is monitored;

step S3 is performed after step S2 is performed and the first NFC tag is identified.

Further, before the first Wi-Fi module is burned, the method further includes the steps of:

acquiring a current Token activation code of the first Wi-Fi module, entering a step of burning the first Token activation code if the current Token activation code is empty, otherwise directly sending an equipment SN code to an NFC burning flow;

the step S2 and the step S3 also comprise the step of sending the equipment SN code to an NFC burning process;

the step S3 specifically comprises the following steps:

and receiving the equipment SN code by the NFC burning flow, acquiring the equipment MAC and the AP MAC of the first Wi-Fi module based on the equipment SN code, generating a first code stream which accords with the preset terminal system specification according to the equipment MAC and the AP MAC of the first Wi-Fi module, and burning the first code stream onto a connected first NFC label to finish burning.

Further, after the first Wi-Fi module burns the first Token activation code and the first NFC tag burns the first code stream, the method further includes checking the burning information, if the checking is successful, executing the next step, if the checking is failed, marking the burning failure and outputting alarm information.

Further, after step S3, after the ecological product with the first NFC tag and the first Wi-Fi module is identified by the terminal device of the corresponding system through NFC, the ecological product and the terminal device are connected to the internet through the first Wi-Fi module, so as to realize the internet of things of the ecological product and the terminal device.

In order to solve the technical problems, the invention also discloses automatic burning equipment which comprises a main control board, an NFC burning board, a local debugging interface and a Wi-Fi burning port, wherein the main control board is respectively and electrically connected with the local debugging interface, the NFC burning board and the Wi-Fi burning port;

the local debugging interface is used for connecting a test computer;

the Wi-Fi burning port is used for being spliced with the first Wi-Fi module;

the NFC burning board is used for burning a first code stream to a connected first NFC label;

the master control board is used for reading a first Token activation code with unique significances from the pre-allocated batch Token activation code files and burning the first Token activation code into the connected first Wi-Fi module; the device SN code, the device MAC and the AP MAC are used for acquiring the device SN code, the device MAC and the AP MAC in the first Wi-Fi module, binding the device SN code and the first Token activation code, and updating the batch Token activation code file; and the NFC recording board is used for generating a first code stream which accords with the preset terminal system specification according to the equipment MAC and the AP MAC of the first Wi-Fi module and sending the first code stream to the NFC recording board.

Further, the main control board is further used for judging whether to access an upper computer through a local debugging interface, if yes, serial port information monitoring is started, and when the access of the first Wi-Fi module is monitored, token activation code burning of the first Wi-Fi module is performed;

the NFC burning board is specifically configured to burn the first code stream to the connected first NFC tag after detecting the first NFC tag.

Further, the main control board is further configured to obtain a current Token activation code of the first Wi-Fi module, if the current Token activation code is empty, perform Token activation code burning of the first Wi-Fi module, otherwise directly send an equipment SN code to an NFC burning process; the NFC burning process is used for receiving the equipment SN code, acquiring equipment MAC and AP MAC of the first Wi-Fi module based on the equipment SN code, generating a first code stream which accords with a preset terminal system specification according to the equipment MAC and the AP MAC of the first Wi-Fi module, and sending the first code stream to the NFC burning board.

Further, the main control board is further configured to verify the recording information after the first Wi-Fi module records the first Token activation code and the first NFC tag records the first code stream, execute the next step after the verification is successful, and mark the recording failure and output alarm information if the verification is failed.

Further, after the ecological product with the first NFC tag and the first Wi-Fi module is subjected to NFC recognition by the terminal equipment of the corresponding system, the ecological product is accessed to the Internet through the first Wi-Fi module, so that the Internet of things of the ecological product and the terminal equipment is realized.

Advantageous effects

The automatic burning method and the equipment are characterized in that in the mass production stage of the ecological products of the Internet of things, the unique Token activation code is input in a Wi-Fi module in an automatic batch mode, and the calculated NFC tag code stream which is associated with the existence data of the Wi-Fi module is input in the NFC tag. The terminal equipment of the corresponding system can read the ecological product with the NFC tag and the Wi-Fi module through the NFC function so as to read the code stream from the NFC tag, and after software analysis and processing, the terminal equipment is configured with the Wi-Fi module to access the Internet, so that the ecological product can be operated at the terminal equipment to realize various Internet of things functions.

Drawings

FIG. 1 is a schematic flow chart of an automatic burning method according to an embodiment of the invention;

fig. 2 is a schematic diagram of a recording flow of a Wi-Fi module according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a recording flow of an NFC tag according to an embodiment of the present invention;

fig. 4 to fig. 7 are schematic diagrams illustrating an automated burning method according to an embodiment of the present invention;

fig. 8 is a schematic diagram of the cooperative connection between the automatic burning device and the Wi-Fi module, NFC tag.

Detailed Description

The present invention is described in further detail below by way of examples to enable those skilled in the art to practice the same by reference to the specification.

In the following description, suffixes such as "module", "component", or "unit" for representing elements are used only for facilitating the description of the present invention, and have no specific meaning per se. Thus, "module," "component," or "unit" may be used in combination.

The present invention will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, the following embodiments or technical features may be arbitrarily combined to form new embodiments.

Example 1

As shown in fig. 1 to 7, the automated burning method includes the following steps:

s0, judging whether the upper computer is accessed, if so, opening serial port information monitoring, and executing the step S1 when the access of the first Wi-Fi module is monitored;

s1, acquiring a current Token activation code of a first Wi-Fi module, if the current Token activation code is empty, reading the first Token activation code with unique significances from a pre-allocated batch Token activation code file and burning the first Token activation code into the connected first Wi-Fi module, otherwise, directly sending an equipment SN code to an NFC burning flow;

as shown in fig. 2, the first Token activation code is checked, if the check is successful, step S2 is executed, and if the check is failed, the failure of the burning is marked and the alarm information is output.

S2, acquiring an equipment SN code, an equipment MAC and an AP MAC in the first Wi-Fi module, binding the equipment SN code and the first Token activation code, and updating batch Token activation code files;

the method comprises the steps of updating batch Token activation code files, wherein the batch Token activation code file also comprises the step of reporting the use condition of the currently allocated Token activation codes.

As shown in fig. 2, after step S2, the method further includes sending the SN code of the device to the NFC recording process;

s3, receiving an equipment SN code by the NFC burning flow, acquiring equipment MAC and AP MAC of the first Wi-Fi module based on the equipment SN code, generating a first code stream conforming to the preset terminal system specification according to the equipment MAC and the AP MAC of the first Wi-Fi module, burning the first code stream onto a connected first NFC label, checking the first code stream, if the checking is successful, finishing burning, and if the checking is failed, marking the burning failure and outputting alarm information.

As shown in fig. 3, after the device MAC and the AP MAC are obtained, the first NFC tag is identified and then the first NFC target code stream is burned.

In this embodiment, the preset terminal system is a hong Monte system, the ecological product with the first NFC tag and the first Wi-Fi module is a tool output, and the output can be installed on the ecological product as a network access module of the hong Monte ecological product for accessing the hong Monte Meng Shengtai cloud platform, and the network access module has unique markedness and traceability and can flexibly change the attribute of the ecological product according to the algorithm and the product configuration file. According to the product configuration file, through burning different Token activation codes and NFC tag code streams, the ecological roles of the output after being connected to the hong Meng Shengtai cloud platform can be uniquely marked, so that ecological products can be managed and controlled conveniently, and the Internet of things function is realized. Therefore, in the mass production stage of the ecological products of the Internet of things, the method automatically inputs the unique Token activation code in the Wi-Fi module in batches and inputs the calculated NFC tag code stream which is associated with the existence data of the Wi-Fi module in the NFC tag. The Hua-hong Monte mobile phone can read tag information through an NFC function, configure a Wi-Fi module to access the Internet after software analysis and processing, and can operate and install various Internet of things functions realized by the network access module at a mobile phone end.

Fig. 4 shows that the Wi-Fi module of the unburnt Token activation code and the ecological product of the NFC tag of the unburnt code stream cannot interact under the interaction of the mobile phone. Fig. 5 shows the debug interface results obtained after using the automated burning method, wherein the debug interface displays a Token activation code renamed to ID for the convenience of workers at the time of operation. Fig. 6 shows that the ecological product of the Wi-Fi module with the burnt Token activation code and the NFC tag with the burnt code stream realizes network access under the interaction of the mobile phone; fig. 7 shows an internet of things operation interface on a mobile phone after network access is achieved, and the ecological product can be controlled through the internet of things operation interface.

Example two

As shown in fig. 8, the automatic burning device comprises a main control board, an NFC burning board, a local debugging interface and a Wi-Fi burning port, wherein the main control board is electrically connected with the local debugging interface, the NFC burning board and the Wi-Fi burning port respectively.

The local debugging interface is used for connecting the test computer.

The Wi-Fi burning port is used for being plugged with the first Wi-Fi module.

The NFC burning board is used for burning the first code stream to the connected first NFC tag after detecting the first NFC tag.

The master control board is used for judging whether an upper computer is connected or not through a local debugging interface, if yes, serial port information monitoring is started, when the first Wi-Fi module is monitored to be connected, the current Token activation code of the first Wi-Fi module is obtained, if the current Token activation code is empty, the first Token activation code with unique mark is read from a pre-allocated batch Token activation code file and is burnt into the connected first Wi-Fi module, verification is carried out on the burnt first Token activation code, if the verification is successful, the follow-up step is carried out, if the verification is failed, the burning failure is marked, alarm information is output, and if the current Token activation code is not empty, the equipment SN code is directly sent to the NFC burning flow; the method comprises the steps of acquiring an equipment SN code, an equipment MAC and an AP MAC in a first Wi-Fi module, binding the equipment SN code and a first Token activation code, and updating a batch Token activation code file; the NFC burning process is used for receiving the equipment SN code, acquiring equipment MAC and AP MAC of the first Wi-Fi module based on the equipment SN code, generating a first code stream which accords with the preset terminal system specification according to the equipment MAC and the AP MAC of the first Wi-Fi module, and sending the first code stream to the NFC burning board; and checking the first code stream, if the check is successful, finishing the burning, and if the check is failed, marking the burning failure and outputting alarm information.

The main control board is an operation entity, the Wi-Fi module and the NFC tag are burnt entities, the Token activation code is a Wi-Fi module burnt object, and the tag code stream is an NFC tag burnt object.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises the element.

The description may be described in the general context of computer-executable instructions, such as program modules, being executed by a computer. Generally, program modules include routines, programs, objects, components, data structures, etc. that perform particular tasks or implement particular abstract data types. The specification may also be practiced in distributed computing environments where tasks are performed by remote processing devices that are linked through a communications network. In a distributed computing environment, program modules may be located in both local and remote computer storage media including memory storage devices.

In this specification, each embodiment is described in a progressive manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment mainly describes differences from other embodiments. In particular, for system embodiments, since they are substantially similar to method embodiments, the description is relatively simple, as relevant to see a section of the description of method embodiments.

The foregoing description is illustrative of embodiments of the present disclosure and is not to be construed as limiting one or more embodiments of the present disclosure. Various modifications and alterations to one or more embodiments of this description will be apparent to those skilled in the art. Any modifications, equivalent substitutions, improvements, or the like, which are within the spirit and principles of one or more embodiments of the present disclosure, are intended to be included within the scope of the claims of one or more embodiments of the present disclosure. One or more embodiments of the present specification.

Claims (10)

1. The automatic burning method is characterized by comprising the following steps of:

s1, reading a first Token activation code with unique significances from a pre-allocated batch Token activation code file and burning the first Token activation code into a connected first Wi-Fi module;

s2, acquiring an equipment SN code, an equipment MAC and an AP MAC in the first Wi-Fi module, binding the equipment SN code and the first Token activation code, and updating the batch Token activation code file;

s3, generating a first code stream which accords with a preset terminal system specification according to the equipment MAC and the AP MAC of the first Wi-Fi module, and burning the first code stream onto a connected first NFC label to finish burning.

2. The automated burning method of claim 1, further comprising the step of:

judging whether an upper computer is accessed, if so, opening serial port information monitoring, and executing step S1 when the access of the first Wi-Fi module is monitored;

step S3 is performed after step S2 is performed and the first NFC tag is identified.

3. The automated burn method of claim 1, wherein the first Wi-Fi module further comprises, prior to being burned, the steps of:

acquiring a current Token activation code of the first Wi-Fi module, entering a step of burning the first Token activation code if the current Token activation code is empty, otherwise directly sending an equipment SN code to an NFC burning flow;

the step S2 and the step S3 also comprise the step of sending the equipment SN code to an NFC burning process;

the step S3 specifically comprises the following steps:

and receiving the equipment SN code by the NFC burning flow, acquiring the equipment MAC and the AP MAC of the first Wi-Fi module based on the equipment SN code, generating a first code stream which accords with the preset terminal system specification according to the equipment MAC and the AP MAC of the first Wi-Fi module, and burning the first code stream onto a connected first NFC label to finish burning.

4. The automated burning method according to claim 1, wherein after the first Wi-Fi module burns the first Token activation code and the first NFC tag burns the first code stream, further comprising checking the burning information, if the checking is successful, executing a next step, if the checking is failed, marking the burning failure and outputting the alarm information.

5. The automated burning method of claim 1, wherein after step S3, the ecological product with the first NFC tag and the first Wi-Fi module is identified by the terminal device of the corresponding system by NFC, and then the ecological product and the terminal device are connected to the internet through the first Wi-Fi module, so as to realize the internet of things.

6. The automatic burning device is characterized by comprising a main control board, an NFC burning board, a local debugging interface and a Wi-Fi burning port, wherein the main control board is electrically connected with the local debugging interface, the NFC burning board and the Wi-Fi burning port respectively;

the local debugging interface is used for connecting a test computer;

the Wi-Fi burning port is used for being spliced with the first Wi-Fi module;

the NFC burning board is used for burning a first code stream to a connected first NFC label;

the master control board is used for reading a first Token activation code with unique significances from the pre-allocated batch Token activation code files and burning the first Token activation code into the connected first Wi-Fi module; the device SN code, the device MAC and the AP MAC are used for acquiring the device SN code, the device MAC and the AP MAC in the first Wi-Fi module, binding the device SN code and the first Token activation code, and updating the batch Token activation code file; and the NFC recording board is used for generating a first code stream which accords with the preset terminal system specification according to the equipment MAC and the AP MAC of the first Wi-Fi module and sending the first code stream to the NFC recording board.

7. The automated burning device of claim 6, wherein the main control board is further configured to determine whether to access an upper computer through a local debug interface, if so, open serial port information monitoring, and when access of the first Wi-Fi module is monitored, perform Token activation code burning of the first Wi-Fi module;

the NFC burning board is specifically configured to burn the first code stream to the connected first NFC tag after detecting the first NFC tag.

8. The automated burning device of claim 6, wherein the main control board is further configured to obtain a current Token activation code of the first Wi-Fi module, if the current Token activation code is null, perform Token activation code burning of the first Wi-Fi module, and if not, directly send a device SN code to an NFC burning process; the NFC burning process is used for receiving the equipment SN code, acquiring equipment MAC and AP MAC of the first Wi-Fi module based on the equipment SN code, generating a first code stream which accords with a preset terminal system specification according to the equipment MAC and the AP MAC of the first Wi-Fi module, and sending the first code stream to the NFC burning board.

9. The automated programming device of claim 6, wherein the main control board is further configured to verify the programming information after the first Wi-Fi module programs the first Token activation code and the first NFC tag programs the first code stream, and if the verification is successful, execute the next step, and if the verification is unsuccessful, mark the programming failure and output the alarm information.

10. The automated burning device of claim 6, wherein the ecological product with the first NFC tag and the first Wi-Fi module is accessed to the internet through the first Wi-Fi module after being NFC-identified by a terminal device of a corresponding system, so as to realize an internet of things of the ecological product and the terminal device.

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