CN-121980548-A - Intelligent equipment information detection and label generation system and method

Abstract

The invention discloses an intelligent equipment information detection and label generation system and method, wherein the system comprises a network server, a label machine, a computer host and detection software, wherein the detection software is installed in the computer host, the network server is in communication connection with the computer host, the computer host is in communication connection with detected equipment, the label machine is in communication connection with the computer host, the detection software is used for acquiring a unique identification code of an integrated circuit chip of the detected equipment, and generating a label pattern after comparison and verification by the network server, and the label machine is used for printing the label pattern.

Inventors

• HE LINDE

Assignees

• 麦链智能(深圳)有限公司

Dates

Publication Date

20260505

Application Date

20251223

Claims (10)

1. 1. The intelligent equipment information detection and label generation system is characterized by comprising a network server, a label machine, a computer host and detection software, wherein the detection software is installed in the computer host, the network server is in communication connection with the computer host, the computer host is in communication connection with detected equipment, the label machine is in communication connection with the computer host, the detection software is used for acquiring a unique identification code of an integrated circuit chip of the detected equipment, generating a label pattern after comparison and verification by the network server, and the label machine is used for printing the label pattern.
2. 2. The intelligent device information detection and tag generation system according to claim 1, wherein the detection software is supported to run in a Windows system or an apple system, and the detected device is supported to run android software or apple software.
3. 3. The intelligent device information detection and tag generation system according to claim 1, wherein the computer host is connected with the detected device in a wired or wireless manner, the wired connection manner of the computer host and the detected device uses a data line as a connection medium, and the wireless connection manner is realized through a Bluetooth module or a 2.4G module built in the computer host.
4. 4. The smart device information detection and tag generation system of claim 1, wherein the web server comprises: The verification module is used for receiving the unique identification code of the integrated circuit chip uploaded by the detection software and comparing the unique identification code with a standard information base in real time; the database module is used for storing the integrated circuit chip identification code and the corresponding label information template; And the communication module is used for carrying out encrypted data interaction with the computer host and issuing a label to generate related data after the comparison and verification are passed.
5. 5. The smart device information detection and tag generation system of claim 4, wherein the web server is further configured with: the log recording module is used for recording the unique identification code, the verification time, the verification result and the equipment model information of the integrated circuit chip corresponding to each verification request to form production traceability data; And the remote updating module is used for an administrator to remotely perform adding, deleting, modifying and checking operation on the integrated circuit chip identification code and the tag information template in the standard information base through a network so as to realize dynamic product configuration management.
6. 6. The intelligent equipment information detection and label generation system according to claim 1 is characterized in that the detection software is configured with a multi-mode hierarchical alarm mechanism, the alarm prompt mode comprises the steps of displaying a popup window prompt with configurable colors, a full-screen locking alarm interface and a taskbar icon flashing on a screen of a computer host, outputting prompt tones with different frequencies in time through a built-in or external loudspeaker of the computer host or calling prerecorded voice to perform error type broadcasting, driving an external audible and visual alarm device through a USB or GPIO interface, sending a shutdown control instruction to a production line control system, and synchronously generating error logs with time stamps through all alarm events and automatically uploading the error logs to the network server to support quality traceability analysis.
7. 7. A smart device information detection and tag generation method using the smart device information detection and tag generation system according to any one of claims 1 to 6, comprising the steps of: S1, establishing communication connection between a computer host and detected equipment, and starting detection software installed in the computer host; s2, the detection software sends an information reading instruction to the detected equipment through a computer host to obtain a unique identification code of an integrated circuit chip of the detected equipment; s3, the detection software sends the acquired unique identification code of the integrated circuit chip to a network server through a computer host for comparison and verification; s4, if the comparison verification is passed, the detection software receives the label generation related data issued by the network server and generates a matched label pattern based on a label information template; and S5, the detection software sends the generated label pattern data to a labeler in communication connection with a host computer, and the labeler receives the data and then finishes label printing.
8. 8. The method for detecting information and generating a tag of an intelligent device according to claim 7, wherein in step S2, if the detection software does not successfully acquire the unique identification code, the reading operation is automatically retried, the number of retries is preset by the detection software, and an alarm prompt is sent after the retries fail.
9. 9. The method for detecting information and generating labels of intelligent devices according to claim 7, wherein in step S3, the network server adopts an asymmetric encryption algorithm to verify the validity of the request sent by the detection software, the comparison process comprises two stages of fuzzy matching and accurate verification, candidate data are screened out by fuzzy matching through device type identification, and then accurate verification is performed on the unique identification code of the integrated circuit chip, so that the accuracy of the comparison result is ensured.
10. 10. The method for detecting and generating the label according to claim 7, wherein in the step S4, the preset format of the label pattern includes one or more combinations of text information, two-dimensional code, and bar code, the text information includes at least two of a device model, SN code, ICCID code, and production lot, the network server has a log recording module, and if the printing in the step S5 is successful, the detection software automatically uploads the verification log of the current detection to the network server, and the log recording module of the network server updates the production traceability database.

Description

Intelligent equipment information detection and label generation system and method Technical Field The invention relates to the technical field of electronic equipment production detection, in particular to an intelligent equipment information detection and label generation system and method. Background In the manufacturing industry of electronic devices, especially in the production process of computer peripheral products, such as mice, keyboards, docking stations, mobile hard disks, etc., the attachment of product information labels is a vital link. These tags usually contain key information such as integrated circuit card identification code (ICCID code), serial number (SN code), international mobile subscriber identification code (IMSI code), etc., which is not only the core basis of product identification, but also an important support for product quality traceability, after-sales repair service, and anti-counterfeit verification. At present, a label sticking mode commonly adopted in the industry is a prefabricated label sticking mode, wherein a manufacturer prints information labels of corresponding models in advance according to a product design scheme, and after products are produced and assembled, production staff manually identify the product models and match the corresponding prefabricated labels for sticking. However, this conventional approach has a number of drawbacks that are difficult to overcome. Firstly, the types of computer peripheral products are increasingly abundant, the integrated circuit chips matched with different types of products are different, the corresponding information such as identification codes are also different, the types of prefabricated labels are various, the production personnel are very easy to mix the types in high-strength assembly line operation, the wrong nameplate labels are adhered, normal sales and use of the products are affected, and the reworking cost and after-sale dispute risk of enterprises can be increased. Secondly, the process efficiency of manually matching the labels is low, production personnel are required to check the product model and the label information one by one, the method cannot adapt to the rhythm of modern mass production, and the improvement of the overall production efficiency is restricted. Moreover, once the printing of the prefabricated label is finished, the information of the prefabricated label cannot be modified, and if the chip model is changed or the information is wrong in the production process of the product, the printed label is completely wasted, so that the resource waste and the production cost are increased. In addition, the prior art lacks an automatic checking mechanism for equipment information and label information, is difficult to quickly find errors after manually pasting labels, and is often exposed in the process of product delivery detection or user use, and the correction cost at the moment is extremely high, so that the brand image of enterprises can be damaged. Meanwhile, the traditional mode cannot realize real-time updating and tracing of the label information, when quality problems occur to products, key data such as production batches, chip types and the like are difficult to quickly locate through the label information, and quality control and problem investigation are not facilitated. Therefore, a technical scheme capable of realizing automatic detection of equipment information, accurate matching and rapid generation of label information is needed, so as to solve the problems of low efficiency, high error rate, resource waste and the like in the prior art. Disclosure of Invention The invention aims to provide an intelligent equipment information detection and label generation system and method, and aims to solve the problems of high error rate, low production efficiency, serious resource waste and lack of an automatic verification and traceability mechanism in a traditional prefabricated label pasting mode. The invention is realized in the following way: According to a first aspect of the invention, the invention provides an intelligent equipment information detection and tag generation system, which comprises a network server, a tag machine, a computer host and detection software, wherein the detection software is installed in the computer host, the network server is in communication connection with the computer host, the computer host is in communication connection with detected equipment, the tag machine is in communication connection with the computer host, the detection software is used for acquiring an integrated circuit chip unique identification code of the detected equipment, generating a tag pattern after comparison and verification by the network server, and the tag machine is used for printing the tag pattern. Further, the detection software is supported to run in a Windows system or an apple system, and the detected device is supported to run android software or apple software. Furth