CN114912151A - System coding method for intelligent device tracing - Google Patents

Abstract

The invention relates to the technical field of intelligent identification coding, in particular to a system coding method for intelligent equipment tracing, which comprises the following steps: setting a tracing system, and numbering a target intelligent device, a protocol number and a corresponding firmware adapting program version in the tracing system; marking the target intelligent equipment before the target intelligent equipment is produced, and taking the mark as a unique batch serial number to ensure that materials used by the target intelligent equipment for producing a bill of materials correspond to the serial number in a tracing system; processing and assembling firmware used by the target intelligent equipment to obtain a target intelligent equipment finished product with unique identification; after the intelligent equipment produced by the invention is placed in the hands of the customer, when the equipment is activated to be on line to the application platform corresponding to the customer, whether the equipment number and the protocol number in the equipment code correspond to the equipment number and the protocol number in the cloud code traceability library or not can be judged from the traceability system, so that the condition of wrong delivery or goods mixing can be effectively avoided.

Description

System coding method for intelligent equipment tracing

Technical Field

The invention relates to the technical field of intelligent identification coding, in particular to a system coding method for intelligent equipment tracing.

Background

With the development of the technology and application of the internet of things, the times of all things interconnection come, and more intelligent terminals of the internet of things are provided. For the provider of the internet of things smart device, the traceability management of the full life cycle (development, production, logistics delivery, use) of the smart device is a complex process, and particularly relates to the supply of multiple customers and differentiated customizations (such as communication cards, communication modes (NB-IoT, 4G Cat1), application protocols, and functions). To ensure production on demand and ultimately to the correct customer.

The management of the lifecycle relies on a traceability system, which is most importantly the process of encoding and how it is applied. The production management system MES, the ERP system and the application service system can be connected in series through the coding.

However, in the prior art, the system codes traced back by the intelligent device cannot be traced in the whole process, and the closed-loop management is relatively difficult, so that the real-time safety of the behavior is greatly reduced.

Disclosure of Invention

Solves the technical problem

Aiming at the defects in the prior art, the invention provides a system coding method for intelligent equipment tracing, which solves the problems that the system coding for intelligent equipment tracing can not be traced in the whole process, closed-loop management is relatively difficult, and the real-time safety of the behavior is greatly reduced.

Technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme:

in a first aspect, a systematic encoding method for intelligent device tracing includes the following steps:

step 1: setting a tracing system, and numbering a target intelligent device, a protocol number and a corresponding firmware adapting program version in the tracing system;

step 2: marking the target intelligent equipment before the target intelligent equipment is produced, and taking the mark as a unique batch serial number to ensure that materials used by the target intelligent equipment for producing a bill of materials correspond to the serial number in a tracing system;

step 3: processing and assembling firmware used by the target intelligent equipment to obtain a target intelligent equipment finished product with unique identification;

step 4: establishing an intelligent device cloud code traceability library, and when the target intelligent device is produced, carrying out code scanning, identification and sending on the target intelligent device which is transmitted in real time before the target intelligent device is put in a warehouse;

step 5: and generating a control system by referring to the equipment codes, and managing the target intelligent equipment in batches completed by the production process.

Furthermore, the protocol number of the target smart device in Step1 corresponds to the communication mode and the application layer protocol and function of the smart device.

Further, the Step3 is provided with a sub-Step, including the following steps:

step 31: programming firmware used by target intelligent equipment, loading the firmware onto a chip in the intelligent equipment, and programming equipment codes on the equipment;

step 32: the intelligent equipment is continuously assembled, the intelligent equipment is further tested, the equipment code on the equipment shell is obtained to be tested in the testing process, the corresponding functional item to be tested is automatically obtained by the testing tool according to the equipment number and the protocol number in the equipment code, the test is executed, and meanwhile, the testing result is recorded to the tracing system for subsequent tracing.

Further, the device code written on the device in the Strep31 step is composed of the production lot number and the device number.

Furthermore, when acquiring the equipment number transmitted by the tool, the production equipment firstly performs code matching: the firmware adapter program version and the device number and protocol number field in the device code are the same and can be stored.

Further, in Step4, the scanning result of the target intelligent device scanned in real time is sent to the established cloud code tracing library by using a wireless network data transmission manner, the cloud code tracing library is provided with a passage key, the passage key is any one of the prior art, and the scanning and identifying device used by the target intelligent device sends the identifying result without verifying the passage key.

In a second aspect, the control system in Step5 is deployed in an intelligent electronic device by using the following modules, where all the modules in the control system are electrically integrated on the same circuit board.

Still further, the policing system includes:

the login module is used for logging in the cloud coding traceability library in the intelligent electronic equipment by using the secret key;

the generation module is used for generating a container body and a transportation batch number for packaging the target intelligent equipment;

the entrance guard module is arranged at the position of a building exit for storing the container body and used for blocking the container body from entering and exiting the building for storing the container body;

and the authorization module is used for logging in, verifying and logging in the module to control the entrance guard module to open to output and input the required container body.

Furthermore, the number logic generated by the container body by the generation module is generated by acquiring the equipment number of the target intelligent equipment after the login module logs in the cloud coding traceability library;

the generation logic of the generated module container body number is the combination of time, serial numbers in the production process and batch serial numbers of production equipment, and the generation logic of the generated module transportation batch number is the combination of production equipment numbers, protocol numbers and container body numbers.

Furthermore, a sub-module is provided in the door control module, including:

the detection module is used for detecting whether the container bodies of the batch output or input by the entrance guard module are matched with the container bodies of which the verification of the login module passes;

and the alarm module controls the entrance guard module to be closed when the detection result of the detection module is negative, and sends out an audio alarm to the user side.

Advantageous effects

Compared with the known public technology, the technical scheme provided by the invention has the following beneficial effects:

1. after the intelligent equipment produced by the invention is placed in the hands of the customer, when the equipment is activated to be on line to the application platform corresponding to the customer, whether the equipment number and the protocol number in the equipment code correspond to the equipment number and the protocol number in the cloud code traceability library or not can be judged from the traceability system, so that the condition of wrong delivery or goods mixing can be effectively avoided.

2. The synchronous method provided by the invention is used as an auxiliary management system, so that the method can be more effectively and safely executed, and more comprehensive protection is brought to the production and transportation of intelligent equipment.

Drawings

In order to more clearly illustrate the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

Fig. 1 is a schematic flow chart of a system encoding method for intelligent device tracing;

FIG. 2 is a schematic structural diagram of a control system according to the present invention;

the reference numerals in the drawings denote: 1. a login module; 2. a generation module; 3. an access control module; 31. a detection module; 32. an alarm module; 4. and an authorization module.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The present invention will be further described with reference to the following examples.

Example 1

The systematic encoding method for intelligent device tracing in this embodiment, as shown in fig. 1, includes the following steps:

step 1: setting a tracing system, and numbering a target intelligent device, a protocol number and a corresponding firmware adapting program version in the tracing system;

step 2: marking the target intelligent equipment before the target intelligent equipment is produced, and taking the mark as a unique batch serial number to ensure that materials used by the target intelligent equipment for producing a bill of materials correspond to the serial number in a tracing system;

step 3: processing and assembling firmware used by the target intelligent equipment to obtain a target intelligent equipment finished product with unique identification;

step 4: establishing an intelligent device cloud code traceability library, and when the target intelligent device is produced, carrying out code scanning, identification and sending on the target intelligent device which is transmitted in real time before the target intelligent device is put in storage;

step 5: and generating a control system by referring to the equipment codes, and managing the target intelligent equipment in batches completed by the production process.

Example 2

In a specific implementation aspect, on the basis of embodiment 1, this embodiment further specifically describes, with reference to fig. 1, a system coding method for intelligent device tracing in embodiment 1:

as shown in fig. 1, the protocol number of the target smart device in Step1 corresponds to the communication method, application layer protocol, and function of the smart device.

As shown in fig. 1, Step3 is provided with sub-steps, including the following steps:

step 31: programming firmware used by target intelligent equipment, loading the firmware onto a chip in the intelligent equipment, and programming equipment codes on the equipment;

step 32: the intelligent equipment is continuously assembled, the intelligent equipment is further tested, the equipment code on the equipment shell is obtained for testing in the testing process, the testing tool automatically obtains the corresponding functional item to be tested according to the equipment number and the protocol number in the equipment code and executes the test, and meanwhile, the testing result is recorded to the tracing system for subsequent tracing.

As shown in FIG. 1, the device code written to the device in step Strep31 consists of the production lot number and the device number.

As shown in fig. 1, when acquiring the device number transmitted by the tool, the production device first performs code matching: the firmware adapter program version and the device number and protocol number field in the device code are the same and can be stored.

As shown in fig. 1, in Step4, the scanning result of the target intelligent device that is scanned in real time is sent to the cloud code tracing library that is established in a wireless network data transmission manner, the cloud code tracing library is provided with a passage key, the passage key is any one of the prior art, and the scanning and identification devices that are used by the target intelligent device send the identification result without verifying the passage key.

Example 3

In a specific implementation aspect, on the basis of embodiment 1, this embodiment further specifically describes, with reference to fig. 2, a system coding method for intelligent device tracing in embodiment 1:

as shown in fig. 2, the Step of Step5 is to deploy the following modules in the intelligent electronic device, where all the modules in the control system are electrically integrated on the same circuit board.

As shown in fig. 2, the Step of Step5 is to deploy the following modules in the intelligent electronic device, where all the modules in the control system are electrically integrated on the same circuit board.

Further, the policing system includes:

the login module 1 is used for logging in a cloud coding traceability library in the intelligent electronic equipment by using a secret key;

the generation module 2 is used for generating container bodies and transportation batch numbers for packaging the target intelligent equipment;

the entrance guard module 3 is arranged at the position of a building exit for storing the container body and is used for blocking the container body from entering and exiting the building for storing the container body;

and the authorization module 4 is used for logging in the verification login module 1 to control the entrance guard module 3 to open and output and input the required container body.

When this embodiment uses, the user uses the key to log in the cloud code traceability library in intelligent electronic equipment through login module 1, is generating used container body, transportation batch number of target smart machine packing by generating module 2, and entrance guard module 3 logs in and verifies login module 1 and cooperates with authorization module 4 to control entrance guard module 3 to open or close when needs carry out input or output to the container body.

As shown in fig. 2, the number logic generated by the generation module 2 for the container body is generated by acquiring the device number of the target intelligent device after the login module 1 logs in the cloud code traceability library;

the generation logic of the container body number of the generation module 2 is the combination of time, serial numbers in the production process and batch serial numbers of production equipment, and the generation logic of the transportation batch number of the generation module 2 is the combination of the production equipment number, the protocol number and the container body number.

As shown in fig. 2, a sub-module is provided in the access control module 3, including:

the detection module 31 is used for detecting whether the container bodies of the batch output or input by the entrance guard module 3 are matched with the container bodies passing the verification of the login module 1 or not;

and the alarm module 32 controls the access control module 3 to close when the detection result of the detection module 31 is negative, and sends an audio alarm to the user side.

In summary, after the intelligent device produced by the invention is placed in the hands of the customer, when the device is activated to be online to the application platform corresponding to the customer, whether the device number and the protocol number in the device code correspond to the device number and the protocol number in the cloud code traceability library or not is judged from the traceability system, so that wrong delivery or goods mixing is avoided; the invention provides a synchronous management system to assist the use of the method in the invention, and the system can more effectively ensure the safe and stable execution of the method and bring more comprehensive protection to the production and transportation of intelligent equipment.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will 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; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (10)

1. A systematic encoding method for intelligent device tracing is characterized by comprising the following steps:

step 1: setting a tracing system, and numbering a target intelligent device, a protocol number and a corresponding firmware adapting program version in the tracing system;

step 2: marking the target intelligent equipment before the target intelligent equipment is produced, and taking the mark as a unique batch serial number to ensure that materials used by the target intelligent equipment for producing a bill of materials correspond to the serial number in a tracing system;

step 3: processing and assembling firmware used by the target intelligent equipment to obtain a target intelligent equipment finished product with unique identification;

step 4: establishing an intelligent device cloud code traceability library, and when the target intelligent device is produced, carrying out code scanning, identification and sending on the target intelligent device which is transmitted in real time before the target intelligent device is put in a warehouse;

step 5: and generating a control system by referring to the equipment codes, and managing the target intelligent equipment in batches completed by the production process.

2. The system coding method for intelligent device tracing according to claim 1, wherein the protocol number of the target intelligent device in Step1 corresponds to the communication mode and application layer protocol and function of the intelligent device.

3. The systematic encoding method for intelligent device tracing according to claim 1, wherein said Step3 is provided with a sub-Step comprising the steps of:

step 31: programming firmware used by target intelligent equipment, loading the firmware onto a chip in the intelligent equipment, and programming equipment codes on the equipment;

step 32: the intelligent equipment is continuously assembled, the intelligent equipment is further tested, the equipment code on the equipment shell is obtained to be tested in the testing process, the corresponding functional item to be tested is automatically obtained by the testing tool according to the equipment number and the protocol number in the equipment code, the test is executed, and meanwhile, the testing result is recorded to the tracing system for subsequent tracing.

4. The systematic encoding method for intelligent device tracing according to claim 3, wherein said step Strep31 is used to write device code on the device, which is composed of the production lot number and the device number.

5. The system coding method for intelligent device tracing according to claim 3, wherein when acquiring the device number transmitted from the tool, the production device first performs coding matching: the firmware adapter program version and the device number and protocol number field in the device code are the same and can be stored.

6. The system coding method for intelligent device tracing according to claim 1, wherein the Step4 sends the scanning result of the target intelligent device to be scanned in real time to the established cloud code tracing library by means of wireless network data transmission, the cloud code tracing library is provided with a pass key, the pass key is any one of the prior art, and the scanning and identification device used by the target intelligent device sends the identification result without verifying the pass key.

7. The system coding method for intelligent device tracing according to claim 1, wherein said Step of Step5 is implemented by the following modules deployed in the intelligent electronic device, and all modules in said Step of Step5 are electrically integrated on the same circuit board.

8. The systematic encoding method for intelligent device traceability according to claim 7, wherein the policing system comprises:

the system comprises a login module (1) and a cloud code traceability library, wherein the login module is used for logging in the cloud code traceability library in the intelligent electronic equipment by using a secret key;

the generation module (2) is used for generating a container body and a transportation batch number for packaging the target intelligent equipment;

the entrance guard module (3) is arranged at the position of a building exit for storing the container body and is used for blocking the container body from entering and exiting the building for storing the container body;

and the authorization module (4) is used for logging in the verification login module (1) to control the entrance guard module (3) to open and output and input the required container body.

9. The system coding method for intelligent device tracing according to claim 1, wherein the number logic generated by the generation module (2) for the container body is generated by collecting the device number of the target intelligent device after the login module (1) logs in the cloud code tracing library;

the generation module (2) generates the container body number as a combination of time, a serial number in the production process and a production equipment batch serial number, and the generation module (2) generates the transportation batch number as a combination of a production equipment number, a protocol number and a container body number.

10. The system coding method for intelligent device tracing according to claim 1, wherein a sub-module is provided in the access control module (3), and comprises:

the detection module (31) is used for detecting whether the container bodies of the batch output or input by the entrance guard module (3) are matched with the container bodies of which the verification of the login module (1) passes;

and the alarm module (32) is used for controlling the access control module (3) to be closed when the detection result of the detection module (31) is negative, and sending an audio alarm to the user side.

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