CN117952635A - Quality monitoring method based on blockchain and environment-friendly adhesive box anti-counterfeit printing - Google Patents
Quality monitoring method based on blockchain and environment-friendly adhesive box anti-counterfeit printing Download PDFInfo
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Abstract
The invention relates to the technical fields of electric digital data processing, anti-counterfeit printing and the like, and provides a quality monitoring method based on anti-counterfeit printing of a blockchain and an environment-friendly rubber box.
Description
Technical Field
The invention relates to the technical fields of electric digital data processing, anti-counterfeiting printing and the like, in particular to a quality monitoring method based on block chain and environment-friendly adhesive box anti-counterfeiting printing.
Background
The environment-friendly packaging material is food grade plastic, and is environment-friendly and healthy. In order to meet the supervision requirement, consumers are allowed to consume with confidence, and anti-counterfeiting codes are usually arranged on products. Particularly with the development of blockchain technology, the combination of the anti-counterfeiting code and the blockchain technology has become an important anti-counterfeiting technology option at present and in the future. However, many foods are not suitable for directly printing anti-counterfeiting codes, such as biscuits, on the surface thereof due to the characteristics of the foods. In this case, the food manufacturer has to choose other ways of preventing counterfeiting, for example, to print the security code on the environment-friendly glue box. Environmental friendly capsules generally have a flat surface and are relatively large, suitable for printing and scanning. In addition, compared with the method that the anti-counterfeiting code is directly printed on the product, the anti-counterfeiting code is more convenient to operate and manage on the glue box, and can be printed in the manufacturing process of the glue box, so that the efficiency is improved and the cost is reduced. Although printing of the security code on the glue box can improve the operating efficiency and reduce the complexity and cost of printing directly on the food, this also means that the glue box is complex in production process and the cost is increased. In addition, the authenticity of the environment-friendly glue box also needs to print anti-counterfeiting codes, so that different anti-counterfeiting codes exist on one glue box, the appearance of the glue box and the display of products are affected, and the user can have trouble when carrying out anti-counterfeiting identification. Therefore, in the design production of the environment-friendly glue box for packaging food, how to coordinate the production cost of the environment-friendly glue box and the food, coordinate the anti-counterfeiting requirement of the product, coordinate the convenience of anti-counterfeiting operation of a user, and promote the trust degree of the user on the quality of the product, and the problem is always solved.
In summary, in the production of the existing environmental protection glue box and food, there are technical problems that the production cost of the environmental protection glue box and the production cost of the food need to be coordinated, the anti-counterfeiting requirement of the product are coordinated, the convenience of anti-counterfeiting operation of a user is coordinated, the trust degree of the user on the quality of the product is improved, and the like.
Disclosure of Invention
In order to solve at least one technical problem in the prior art, the invention provides a quality monitoring method based on blockchain and environment-friendly adhesive box anti-counterfeiting printing, which is used for coordinating the production cost of the environment-friendly adhesive box and food, coordinating the anti-counterfeiting requirement of the product, coordinating the convenience of anti-counterfeiting operation of a user and improving the trust degree of the user on the quality of the product.
The invention provides a quality monitoring method based on block chain and environment-friendly adhesive box anti-counterfeit printing, which comprises the following steps:
Storing anti-counterfeiting and tracing information of the environment-friendly glue box and anti-counterfeiting and tracing information of food in a block chain node network;
printing an anti-counterfeiting two-dimensional code on the environment-friendly glue box, wherein the anti-counterfeiting two-dimensional code comprises outer-layer anti-counterfeiting information and inner-layer anti-counterfeiting information, the outer-layer anti-counterfeiting information corresponds to anti-counterfeiting and tracing information of the environment-friendly glue box, and the inner-layer anti-counterfeiting information corresponds to anti-counterfeiting and tracing information of the food;
And displaying the anti-counterfeiting and traceability information of the food and/or the anti-counterfeiting and traceability information of the environment-friendly glue box to a user terminal according to different anti-counterfeiting requests selected by the user terminal scanning the anti-counterfeiting two-dimensional code.
Further, storing anti-counterfeiting and traceability information of the environmental protection glue box and anti-counterfeiting and traceability information of food in the blockchain node network, including:
The printing production end uploads the anti-counterfeiting and tracing information of the environment-friendly glue box to the block chain link point network through the block chain client, and the food production end uploads the anti-counterfeiting and tracing information of the food to the block chain link point network through the block chain client;
The block chain node network stores the anti-counterfeiting and tracing information of the environment-friendly glue box and the anti-counterfeiting and tracing information of the food.
Further, print anti-fake two-dimensional code on environmental protection gluey box, include:
Printing the anti-counterfeiting two-dimensional code in a consensus area of the environment-friendly glue box, wherein the consensus area is a glue box outer wall area commonly determined by a food production end and a printing production end of the environment-friendly glue box.
Further, when the food production end and the printing production end of the environment-friendly glue box jointly determine the consensus area, the consensus area is determined through a collaborative generation system of the appearance pattern of the environment-friendly glue box for printing.
Further, the collaborative generation system of the printing environment-friendly glue box appearance pattern comprises:
The APET environment-friendly packaging material database is used for providing options of various APET material information so that a food production end can provide current personalized design requirements for displaying the appearance style of an environment-friendly rubber box of a product according to the characteristics of the product; the current personalized design requirements comprise current personalized anti-counterfeiting two-dimensional code design requirements;
The internet collaborative manufacturing module is configured as a sharing platform for carrying out design collaboration among the food production end, the professional design party and the printing production end; after the professional design party designs and forms a current appearance style scheme according to the current personalized design requirement uploaded to the sharing platform by the food production end, uploading the current appearance style scheme to the sharing platform so that the food production end provides design feedback comments for the sharing platform according to the current appearance style scheme and provides production adjustment comments for the sharing platform according to the current appearance style scheme by the printing production end;
the industrial information and data processing module is used for acquiring the current appearance style scheme, the design feedback opinion and the production adjustment opinion from the sharing platform, comprehensively analyzing the current appearance style scheme and the historical design data to obtain a current appearance style comprehensive analysis scheme, providing the current appearance style comprehensive analysis scheme for the sharing platform, and transmitting the current appearance style scheme to the sharing platform to be confirmed by the food production end and the printing production end according to the secondary design of the current appearance style comprehensive analysis scheme by the professional design party to form a final appearance style of the environment-friendly glue box, wherein the final appearance style of the environment-friendly glue box comprises the consensus area.
Further, when the user side scans the anti-counterfeiting two-dimensional code, the application server obtains an anti-counterfeiting request initiated by the user scanning the anti-counterfeiting two-dimensional code, and displays a first interactive interface to the user, wherein the first interactive interface comprises a glue box anti-counterfeiting control set for the outer anti-counterfeiting information and a food anti-counterfeiting control set for the inner anti-counterfeiting information.
Further, when a user touches the glue box anti-counterfeiting control, the user side generates a glue box anti-counterfeiting request and sends the glue box anti-counterfeiting request to the application server, and the application server receives the glue box anti-counterfeiting request and uploads the glue box anti-counterfeiting request to the block chain link point network; the block chain node network responds to the anti-counterfeiting request of the rubber box and provides anti-counterfeiting and traceability information of the environment-friendly rubber box for the application server, and the application server displays the anti-counterfeiting and traceability information of the environment-friendly rubber box to a user at the user end through a display interface.
Further, when a user touches the food anti-counterfeiting control, the user side generates a food anti-counterfeiting request and sends the food anti-counterfeiting request to the application server, and the application server receives the food anti-counterfeiting request and uploads the food anti-counterfeiting request to the block chain link point network; the block chain node network responds to the food anti-counterfeiting request and provides anti-counterfeiting and traceability information of the food to the application server, and the application server displays the anti-counterfeiting and traceability information of the food to the user of the user terminal through a display interface.
Further, the glue box anti-counterfeiting control and the food anti-counterfeiting control are arranged on the first interactive interface at intervals; the food anti-counterfeiting control is located above the glue box anti-counterfeiting control, and is set by more prominent colors and fonts than the glue box anti-counterfeiting control.
Further, the blockchain node network deploys an intelligent contract, and the intelligent contract automatically manages the anti-counterfeiting and tracing information of the environment-friendly glue box and the anti-counterfeiting and tracing information of the food, and manages access rights for accessing the anti-counterfeiting and tracing information of the environment-friendly glue box and the anti-counterfeiting and tracing information of the food.
Compared with the prior art, the invention has the beneficial effects that:
According to the quality monitoring method based on the blockchain and the environment-friendly glue box anti-counterfeiting printing, anti-counterfeiting and tracing information of the environment-friendly glue box and anti-counterfeiting and tracing information of food are stored in the blockchain node network, anti-counterfeiting two-dimensional codes are printed on the environment-friendly glue box, the anti-counterfeiting two-dimensional codes comprise outer anti-counterfeiting information and inner anti-counterfeiting information, the outer anti-counterfeiting information corresponds to the anti-counterfeiting and tracing information of the environment-friendly glue box, the inner anti-counterfeiting information corresponds to the anti-counterfeiting and tracing information of the food, and the anti-counterfeiting and tracing information of the food and/or the anti-counterfeiting and tracing information of the environment-friendly glue box are displayed to a user according to different anti-counterfeiting requests selected by the user side scanning the anti-counterfeiting two-dimensional codes, so that the production cost of the environment-friendly glue box and the food is balanced, the product anti-counterfeiting requirements of the environment-friendly glue box and the food production parties are met, the convenience of anti-counterfeiting operation of the user is considered, and the trust of the user on the product quality is improved.
Drawings
FIG. 1 is a schematic flow chart of a quality monitoring method based on blockchain and environmental protection glue box anti-counterfeit printing according to an embodiment of the invention;
FIG. 2 is a schematic diagram of a data structure of an anti-counterfeiting two-dimensional code according to an embodiment of the invention;
Fig. 3 is a schematic diagram showing a consensus area and an anti-counterfeiting two-dimensional code in a final appearance style of the environment-friendly glue box according to the embodiment of the invention;
Fig. 4 is a schematic diagram of a collaborative generation system for an environmental protection glue box appearance style for printing according to an embodiment of the present invention.
Detailed Description
The technical solutions of the present invention will be clearly and completely described below by means of examples, and it is obvious that the described examples are only some, but not all, examples of the present invention. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.
Referring to fig. 1 to fig. 4, the quality monitoring method based on blockchain and environment-friendly adhesive box anti-counterfeit printing provided by the embodiment of the invention comprises the following steps:
s101, storing anti-counterfeiting and tracing information of an environment-friendly rubber box and anti-counterfeiting and tracing information of food in a block chain node network;
s102, printing an anti-counterfeiting two-dimensional code on an environment-friendly glue box, wherein the anti-counterfeiting two-dimensional code comprises outer-layer anti-counterfeiting information and inner-layer anti-counterfeiting information, the outer-layer anti-counterfeiting information corresponds to anti-counterfeiting and tracing information of the environment-friendly glue box, and the inner-layer anti-counterfeiting information corresponds to anti-counterfeiting and tracing information of the food;
And S103, displaying the anti-counterfeiting and traceability information of the food and/or the anti-counterfeiting and traceability information of the environment-friendly adhesive box to the user side according to different anti-counterfeiting requests selected by the user side scanning the anti-counterfeiting two-dimensional code.
It should be noted that, in this embodiment, the anti-counterfeiting of food and the glue box is realized simultaneously by using a single two-dimensional code on the environmental protection glue box, so that the complexity of setting different anti-counterfeiting marks on the food and the glue box respectively is avoided, the burden of manufacturers is reduced, and the anti-counterfeiting cost is reduced. Especially, the embodiment provides an effective cost control means for the situation that the anti-counterfeiting two-dimensional code cannot be arranged on food or the cost of arranging the anti-counterfeiting two-dimensional code on food is high. As the single two-dimension code is used for simultaneously realizing the anti-counterfeiting of food and the glue box, the cost of the anti-counterfeiting two-dimension code arranged on the environment-friendly glue box can be balanced, and the production cost between the food generation end and the printing production end of the environment-friendly glue box can be coordinated. In the embodiment, the anti-counterfeiting function of the food and the environment-friendly glue box is integrated into one two-dimensional code, so that the printing process can be simplified, the materials and the time required by printing are reduced, the production efficiency is improved, and the cost is reduced.
The use of the single two-dimensional code can ensure that a consumer can selectively verify the authenticity of food and package by only scanning one code, and the verification mode is direct and simple, thereby improving the user friendliness of the anti-counterfeiting technology and enhancing the trust of the user on the overall quality and safety of the product (food and environment-friendly plastic box). Moreover, by using a single two-dimensional code, a plurality of anti-counterfeiting two-dimensional codes can be prevented from being printed on the environment-friendly glue box, so that the design of the environment-friendly glue box is attractive, the display effect of the product is maintained, the attractive force of the product in a retail environment is improved, and the purchase will of consumers is increased. It can be understood that the anti-counterfeiting two-dimensional code is a matrix type bar code with data storage, can store information such as data, and can be identified and read through corresponding user terminals, such as cameras in smart phones and corresponding identification software.
In this embodiment, the outer anti-counterfeiting information corresponds to the anti-counterfeiting and tracing information of the environmental protection glue box, the inner anti-counterfeiting information corresponds to the anti-counterfeiting and tracing information of the food, and the anti-counterfeiting and tracing information of the environmental protection glue box and the anti-counterfeiting and tracing information of the food are stored in the block link point network, so that the non-tamper property of the data can be ensured, and the credibility of the anti-counterfeiting code is improved. It can be appreciated that due to the decentralization and irreversible nature of the blockchain, once the anti-counterfeiting information is recorded, it cannot be altered or deleted, thereby increasing the security of the anti-counterfeiting system. For the consumer, the authenticity of the food and the environment-friendly glue box can be verified by scanning the two-dimensional code and accessing the information on the blockchain, so that the trust of the consumer to the product and the brand is improved. Preferably, the blockchain node network deploys an intelligent contract, and the intelligent contract automatically manages the anti-counterfeiting and tracing information of the environment-friendly glue box and the anti-counterfeiting and tracing information of the food, and manages the access rights for accessing the anti-counterfeiting and tracing information of the environment-friendly glue box and the anti-counterfeiting and tracing information of the food.
In some preferred embodiments, storing the anti-counterfeiting and traceability information of the environmental protection glue box and the anti-counterfeiting and traceability information of the food in the blockchain node network can comprise: the printing production end uploads the anti-counterfeiting and tracing information of the environment-friendly glue box to the block chain link point network through the block chain client, and the food production end uploads the anti-counterfeiting and tracing information of the food to the block chain link point network through the block chain client; the block chain node network stores the anti-counterfeiting and tracing information of the environment-friendly glue box and the anti-counterfeiting and tracing information of the food. In addition, print anti-fake two-dimensional code on environmental protection gluey box, can include: printing the anti-counterfeiting two-dimensional code in a consensus area of the environment-friendly glue box, wherein the consensus area is a glue box outer wall area commonly determined by a food production end and a printing production end of the environment-friendly glue box. Further, when the food production end and the printing production end of the environment-friendly glue box jointly determine the consensus area, the consensus area is determined through a collaborative generation system of the appearance pattern of the environment-friendly glue box for printing. Further, the collaborative generation system of the printing environment-friendly glue box appearance pattern comprises: the APET environment-friendly packaging material database is used for providing options of various APET material information so that a food production end can provide current personalized design requirements for displaying the appearance style of an environment-friendly rubber box of a product according to the characteristics of the product; the current personalized design requirements comprise current personalized anti-counterfeiting two-dimensional code design requirements; the internet collaborative manufacturing module is configured as a sharing platform for carrying out design collaboration among the food production end, the professional design party and the printing production end; after the professional design party designs and forms a current appearance style scheme according to the current personalized design requirement uploaded to the sharing platform by the food production end, uploading the current appearance style scheme to the sharing platform so that the food production end provides design feedback comments for the sharing platform according to the current appearance style scheme and provides production adjustment comments for the sharing platform according to the current appearance style scheme by the printing production end; the industrial information and data processing module is used for acquiring the current appearance style scheme, the design feedback opinion and the production adjustment opinion from the sharing platform, comprehensively analyzing the current appearance style scheme and the historical design data to obtain a current appearance style comprehensive analysis scheme, providing the current appearance style comprehensive analysis scheme for the sharing platform, and transmitting the current appearance style scheme to the sharing platform to be confirmed by the food production end and the printing production end according to the secondary design of the current appearance style comprehensive analysis scheme by the professional design party to form a final appearance style of the environment-friendly glue box, wherein the final appearance style of the environment-friendly glue box comprises the consensus area.
It should be noted that the APET environmental protection packaging material is used for manufacturing environmental protection glue boxes. Wherein, the APET (polyethylene terephthalate) material is an environment-friendly plastic material, has good transparency, rigidity and durability, and can be widely applied to the field of food packaging. In addition, APET material, as a recyclable material, can be recycled and reused to reduce resource consumption and environmental impact. Meanwhile, the APET material is also one of soluble environment-friendly materials, and is beneficial to reducing accumulation of plastic wastes. Moreover, the APET material has excellent transparency, can clearly display products in the package, and improves the display effect and the attractive force of the products. In addition, the APET material is a food grade plastic, which meets the food safety standards.
It should be noted that, in this embodiment, the food production end may propose the personalized design requirement of the environmental protection glue box according to the product characteristics of itself, and the professional design party may design according to the requirement of the food production end, and cooperate with the food production end and the printing production end through the sharing platform. Meanwhile, the comprehensive analysis of the industrial information and the data processing module can provide a more accurate appearance style analysis scheme, reduce repeated communication and modification of the design and improve the design efficiency. Illustratively, the food company of first class produces a new environmentally friendly food product and wishes to package with environmentally friendly capsules of APET environmentally friendly packaging material. The A food company uses a collaborative generation system to access an APET environment-friendly packaging material database to obtain options of various APET material information, then proposes current personalized design requirements for displaying the appearance style of the environment-friendly glue box of the product according to the characteristics of the product, and uploads the current personalized design requirements to a sharing platform. The professional designer designs the current appearance style scheme according to the current personalized design requirements and uploads the design scheme to the sharing platform. The food company a receives the current appearance style scheme and provides their design feedback comments on the shared platform, such as adjusting the position and size of the pattern, increasing the display of product features, etc. Meanwhile, the printing production end provides production adjustment comments, such as anti-counterfeiting two-dimensional code printing area selection, adjustment color selection and material selection. These ideas are transmitted to the industrial information and data processing module for comprehensive analysis. Based on the historical design data and the current feedback opinion, the industrial information and data processing module generates a comprehensive analysis scheme of the current appearance style. And the professional design party carries out secondary design according to the comprehensive analysis scheme of the current appearance style, and obtains the appearance style scheme of the secondary design. Finally, the secondarily designed appearance design solution is transmitted to the sharing platform, is confirmed by the food production end and the printing production end, and forms a final environmental protection glue box appearance design, wherein the final environmental protection glue box appearance design comprises the consensus area.
It should be noted that, through the collaborative generation system of the appearance style of the environment-friendly glue box for printing provided by the embodiment, collaborative work among the food production end, the professional design party and the printing production end is realized, repeated communication and modification of the design are reduced, and the design efficiency is improved. Meanwhile, through comprehensive analysis and digital processing, the design process is more accurate and intelligent, and the matching degree of the appearance style of the environment-friendly glue box and the product display is improved. The food production end provides personalized design requirements according to product characteristics, and a professional design party designs the appearance style of the rubber box according to the requirements, so that the design scheme of the environment-friendly rubber box is ensured to be highly matched with the product characteristics. Meanwhile, the food production end can not only provide personalized requirements, but also provide feedback for the design scheme, and the printing production end can also provide comments of production adjustment, so that the professional knowledge and actual conditions in all aspects are allowed to be considered, and the design is optimized. In addition, the current appearance style scheme, design feedback comments and production adjustment comments are obtained and comprehensively analyzed with historical design data, so that the improvement point of design is further helped to be excavated, a professional design party carries out secondary design according to the comprehensive analysis result, and the quality and the matching degree of the design scheme are further improved. The secondary design is transferred to a shared platform for confirmation by the food production end and the print production end, ensuring that the final determination of the design is accomplished with the mutual effort and approval of the parties, further ensuring that the final produced capsules are visually highly consistent with the product display.
It should be noted that the food production end is generally familiar with its own products, and there is generally no professional knowledge of the design and selection of the environment-friendly glue box. This problem often causes a lack of objective data support at the food production end when the current personalized design requirements are set up, so that deviations or subsequent multiple communication modifications of the current personalized design requirements are caused, which leads to a prolonged printing production cycle, low efficiency and increased cost of the environment-friendly glue box. In this embodiment, since the collaborative generation system of the appearance patterns of the environmental protection glue box for printing provides the APET environmental protection packaging material database, the APET environmental protection packaging material database provides options of various APET material information, so that the food production end puts forward the current personalized design requirement of the appearance patterns of the environmental protection glue box for displaying the product according to the product characteristics of the food production end, and objective data support is provided for the decision of the food production end for carrying out the current personalized design requirement. For example, the food production end can know the detailed physical properties, environmental protection grade, transparency, cost information and the like of each APET material information through an APET environmental protection packaging material database so as to make the production requirement of the environmental protection glue box more meeting the objective requirement of the product.
It should be noted that, the APET environmental protection packaging material database is controlled by the printing production end, and the printing production end can directly access the APET environmental protection packaging material database. After the food production end obtains the access authorization of the printing production end, the food production end can access the APET environment-friendly packaging material database to select various APET material information.
The APET environmental packaging material database may include: the system comprises an APET material information storage unit, a data management unit, a user interface unit and an updating and maintaining unit. The APET material information storage unit stores the APET material information of various options; each APET material information contains detailed physical properties, environmental protection level, transparency, and cost information; the data management unit is used for providing the printing production end with access to the APET material information storage unit, and the food production end accesses to the APET material information storage unit through the authorization of the printing production end; the user interface unit is used for selecting the APET material options for the food production end so as to provide the current personalized design requirements; the user interface unit supports form filling, option screening and result display; the updating and maintaining unit is used for updating and maintaining the APET material information stored by the APET material information storage unit so as to ensure the accuracy and timeliness of each APET material information. Further, the updating and maintaining unit periodically updates and maintains the APET material information stored by the APET material information storage unit through an automation script. In addition, the updating and maintaining unit can also establish a data sharing protocol with a material provider to update and maintain the APET material information stored by the APET material information storage unit.
It should be noted that, because the physical properties, environmental protection level, transparency, cost and other information of the APET material may change with time, through the automation script, the information can be checked and updated regularly, so as to ensure that the food production end can make decisions based on the latest and most accurate data, thereby increasing the market competitiveness of the final product. In addition, the use of the automation script can reduce the intervention of human factors and improve the efficiency and accuracy of the data updating process. It will be appreciated that by establishing a data share with the material provider, up-to-date material information can be obtained directly from the data source (i.e., the material provider), reducing delays and distortions in the information transfer process. In addition, by establishing data sharing with a material provider, the accuracy and timeliness of the data can be improved, and the whole collaboration and information sharing of an industrial chain are promoted. Meanwhile, accurate and timely material information can help a food production end to put forward more reasonable design requirements, design modification times are reduced, product development period is shortened, and cost is reduced.
In addition, when the updating and maintaining unit updates and maintains the APET material information stored in the APET material information storage unit, the updating and maintaining unit includes: periodically receiving, through an interface provided by a vendor, material update data for a plurality of APET material vendors, the material update data including new material types, physical property parameters, environmental protection levels, and cost changes; and running an automation script, retrieving the material updating data which is received regularly, comparing the retrieved material updating data with the historical APET material information, automatically identifying and updating the changed items, or adding new APET material information. It will be appreciated that there are several technical problems associated with establishing a single data sharing with a material provider or a single periodic updating and maintenance of the APET material information stored by the APET material information storage unit via an automated script. For example, a single establishment of data sharing with a material provider to update and maintain the APET material information stored by the APET material information storage unit may involve the need to arrange sufficient manpower to perform new data identification and updating, be costly, be inefficient, and be at a high risk of error. For another example, the single process of periodically updating and maintaining the APET material information stored in the APET material information storage unit through an automation script may require multiple discussions and communication with a material provider for updating data, and has the advantages of high cost, low efficiency and high error risk. By establishing a data sharing protocol with a material provider, the problems of reliability and authority of data sources can be solved, thereby laying a foundation for subsequent automatic updating. The automatic script periodically checks and updates the material data, which is continuously maintained after the data sharing foundation is established, so that the problems of timeliness and maintenance cost of the data can be solved. The automatic script can periodically check data update, automatically import new data, reduce labor cost, ensure continuous update of the database and synchronize with market change. It will be appreciated that by directly obtaining material update data from a vendor, the authority and accuracy of the information may be ensured. After the material update data are obtained, the automatic script ensures that APET material information can be updated in time, so that timeliness of the data is improved, workload of manually updating a database is reduced, and working efficiency of the whole system is improved. In addition, the material update data can quickly reflect market and material change, help the food production end to make more timely and accurate decisions, provide reliable material selection support for the design of the appearance style of the environment-friendly plastic box of the product, and promote the market competitiveness of the final product.
It should be noted that, the internet collaborative manufacturing module may include: the design submitting and managing unit is used for receiving the current personalized design requirement of the food production end and displaying the current personalized design requirement to the professional designer, and the professional designer submits the current appearance style scheme after creating the current appearance style scheme according to the current personalized design requirement; the design file storage and access unit is used for receiving the current appearance style scheme submitted by the professional designer according to the access rights of the food production end, the printing production end and the professional designer and allowing the food production end and the printing production end to access; and the feedback collection and transmission unit is used for collecting the design feedback comments and the production adjustment comments which are provided after the food production end and the printing production end access the current appearance style schemes stored by the design file storage and access unit so as to transmit the design feedback comments and the production adjustment comments to the industrial information and data processing module. Through the design submitting and managing unit, the personalized design requirement of the food production end can be rapidly transmitted to the professional design party, the time from the requirement proposal to the implementation of the design proposal is shortened, and the design decision process is accelerated. In addition, the design file storage and access unit manages the storage and access of the design scheme according to the access rights of different roles, so that the information security of the design scheme can be protected. In addition, the feedback collection and transmission unit enables feedback collected from the food production end and the printing production end to be quickly and effectively transmitted to the industrial information and data processing module, so that design schemes and production parameters can be timely adjusted, and adaptability and satisfaction of product design are improved. It can be appreciated that through cloud computing, big data and network communication technologies, technical support can be provided for designing, storing, feeding back and accessing a large amount of data, so that the internet collaborative manufacturing module is realized. The internet collaborative manufacturing module provides a sharing platform, so that collaboration among different main bodies is smoother and more efficient, and the quality and the precision of the design and the production of the environment-friendly glue box can be improved through a real-time feedback and adjustment mechanism.
It should be noted that the industrial information and data processing module may include: the data acquisition and storage unit is used for acquiring the current appearance style scheme, the design feedback opinion and the production adjustment opinion from the sharing platform for storage; the historical design query unit is used for acquiring the current personalized design requirement from the sharing platform, and automatically querying historical design data matched with the current personalized design requirement according to the current personalized design requirement; and the comprehensive analysis unit is used for comprehensively analyzing the current appearance style scheme, the design feedback opinion and the production adjustment opinion with the historical design data matched with the query to generate a current appearance style comprehensive analysis scheme and providing the current appearance style comprehensive analysis scheme to the sharing platform. The method comprises the steps of obtaining current personalized design requirements from a sharing platform, automatically inquiring historical design data matched with the current personalized design requirements according to the current personalized design requirements, comprehensively analyzing the current appearance style scheme, the design feedback opinion and the production adjustment opinion and the historical design data matched with the inquiry to generate a current appearance style comprehensive analysis scheme, and providing the current appearance style comprehensive analysis scheme to the sharing platform, so that a designer can obtain the historical design data matched with the current personalized design requirements through automatic inquiry, and deeply analyze the current appearance style scheme, the design feedback opinion and the production adjustment opinion in combination to ensure that the comprehensive performance of the proposed design scheme is excellent, and the design efficiency of the environment-friendly glue box is improved.
It should be noted that, when the historical design querying unit automatically queries the historical design data matching the current personalized design requirement, the method may include: accessing a database of historical design data, the database of historical design data comprising historical personalized design requirements and corresponding appearance style schemes; matching the current personalized design requirement with the historical personalized design requirement to obtain all the historical personalized design requirements in a matching way; and performing similarity calculation on the current personalized design requirement and all the historical personalized design requirements to obtain the historical personalized design requirement with the highest matching degree with the current personalized design requirement, and further obtaining a similar historical appearance style scheme with the highest matching degree with the historical personalized design requirement. Further, performing similarity calculation on the current personalized design requirement and all the historical personalized design requirements, including: and calculating the similarity between the current personalized design requirement and all the historical personalized design requirements through a text similarity algorithm. Further, the database of historical design data adopts a relational database. Further, in the relational database, the historical personalized design requirements and the corresponding appearance style schemes are stored in a structured manner; the historical personalized design requirements and the corresponding appearance style schemes are described by attributes and relationships. It can be appreciated that by automatically matching the current personalized design requirement with the historical personalized design requirement, the historical personalized design requirement with the highest matching degree with the current personalized design requirement can be obtained. Because different historical personalized design requirements correspond to different appearance style schemes in the database of the historical design data, when the historical personalized design requirement with the highest matching degree with the current personalized design requirement is obtained, the similar historical appearance style scheme with the highest matching degree with the historical personalized design requirement can be further obtained.
It should be noted that, when the comprehensive analysis unit performs comprehensive analysis to generate the current appearance style comprehensive analysis scheme, the method may include: according to the design feedback opinion, comparing appearance characteristics and cost benefits of the similar historical appearance style proposal with those of the current appearance style proposal to obtain comparison opinion of appearance characteristics and cost benefits of the current appearance style proposal compared with the similar historical appearance style proposal; according to the production adjustment opinion, functionally comparing the similar historical appearance style proposal with the current appearance style proposal to obtain a comparison opinion of functional superiority of the current appearance style proposal compared with the similar historical appearance style proposal; and generating a current appearance style comprehensive analysis scheme according to the appearance characteristics and the cost-effectiveness comparison opinion, the functional advantage-disadvantage comparison opinion, the current appearance style scheme and the similar historical appearance style scheme. By comparing and analyzing the appearance characteristics and the cost effectiveness of the similar historical appearance style schemes and the current appearance style schemes, specific improvement points or possible defects of the current design scheme in appearance and cost effectiveness compared with the historical schemes can be obtained, so that the optimization of the design scheme is facilitated, attractive and economical and efficient. Meanwhile, the current appearance style scheme and the similar historical appearance style scheme are compared and analyzed in terms of functionality, so that the design of the environment-friendly glue box is more in line with the actual production condition of a printing production end.
In some preferred embodiments, when the user side scans the anti-counterfeiting two-dimensional code, the application server obtains an anti-counterfeiting request initiated by the user scanning the anti-counterfeiting two-dimensional code, and displays a first interactive interface to the user, wherein the first interactive interface comprises a glue box anti-counterfeiting control set for the outer anti-counterfeiting information and a food anti-counterfeiting control set for the inner anti-counterfeiting information. When a user touches the glue box anti-counterfeiting control, the user side generates a glue box anti-counterfeiting request and sends the glue box anti-counterfeiting request to the application server, and the application server receives the glue box anti-counterfeiting request and uploads the glue box anti-counterfeiting request to the block chain link point network; the block chain node network responds to the anti-counterfeiting request of the rubber box and provides anti-counterfeiting and traceability information of the environment-friendly rubber box for the application server, and the application server displays the anti-counterfeiting and traceability information of the environment-friendly rubber box to a user at the user end through a display interface. In addition, when a user touches the food anti-counterfeiting control, the user side generates a food anti-counterfeiting request and sends the food anti-counterfeiting request to the application server, and the application server receives the food anti-counterfeiting request and uploads the food anti-counterfeiting request to the block chain link point network; the block chain node network responds to the food anti-counterfeiting request and provides anti-counterfeiting and traceability information of the food to the application server, and the application server displays the anti-counterfeiting and traceability information of the food to the user of the user terminal through a display interface. Further, the glue box anti-counterfeiting control and the food anti-counterfeiting control are arranged on the first interactive interface at intervals; the food anti-counterfeiting control is located above the glue box anti-counterfeiting control, and is set by more prominent colors and fonts than the glue box anti-counterfeiting control.
It should be noted that, in this embodiment, by providing the first interactive interface, the interface distinguishes the anti-counterfeit control of the glue box and the anti-counterfeit control of the food, so as to provide an intuitively friendly way for the consumer to verify the authenticity of the product. The user can choose to verify the authenticity of food or the glue box according to the needs of the user or verify the authenticity of the food or the glue box, so that the flexibility and the convenience of user experience are improved. When a user initiates an anti-counterfeiting request of a glue box or food, the application server uploads the request to the blockchain node network, and anti-counterfeiting and traceability information is obtained from the request and displayed to the user, so that the accuracy and reliability of the information are ensured.
It should be noted that, in this embodiment, by designing the anti-counterfeiting control to be more intuitive (for example, by setting more prominent colors and fonts), the user can more easily distinguish and access the anti-counterfeiting information of the glue box and the food when performing anti-counterfeiting verification, thereby being helpful to promote the user to perform the anti-counterfeiting verification and improve the overall anti-counterfeiting effect. The transparency of the product and the brand is enhanced by providing detailed anti-counterfeiting and traceability information about the environment-friendly glue box and the food for the user, and the importance of the brand on the product quality and the rights and interests of the consumer is conveyed, so that the trust degree of the consumer to the brand is improved, and the loyalty of the consumer to the brand is promoted.
In other preferred embodiments, when the user side scans the anti-counterfeiting two-dimensional code, the application server obtains an anti-counterfeiting request initiated by the user scanning the anti-counterfeiting two-dimensional code, and displays a second interactive interface to the user, wherein the second interactive interface comprises a food anti-counterfeiting control set for the inner-layer anti-counterfeiting information; when a user touches the food anti-counterfeiting control, the user side generates a food anti-counterfeiting request and sends the food anti-counterfeiting request to the application server, and the application server receives the food anti-counterfeiting request and uploads the food anti-counterfeiting request to the block chain link point network; the block chain node network responds to the food anti-counterfeiting request and provides anti-counterfeiting and traceability information of the food to the application server, the application server displays the anti-counterfeiting and traceability information of the food to a user terminal user through a display interaction interface, a glue box anti-counterfeiting control is arranged at the interface position below the display end of the anti-counterfeiting and traceability information of the food, when the user touches the glue box anti-counterfeiting control, the user terminal generates the glue box anti-counterfeiting request and sends the glue box anti-counterfeiting request to the application server, and the application server receives the glue box anti-counterfeiting request and uploads the glue box anti-counterfeiting request to the block chain link point network; the block chain node network responds to the anti-counterfeiting request of the rubber box and provides anti-counterfeiting and traceability information of the environment-friendly rubber box for the application server, and the application server displays the anti-counterfeiting and traceability information of the environment-friendly rubber box to the user terminal user through a second display interface.
It should be noted that, consumers first care about the authenticity of food, and then care about the environment-friendly health condition of the environment-friendly plastic box, the embodiment provides a step-by-step guiding user experience by firstly displaying the anti-counterfeiting control of the food and then displaying the anti-counterfeiting control of the plastic box after information display is finished, helps users concentrate on completing verification of the authenticity of the food, and then care about verification of packaging, and is beneficial to reducing confusion of users in operation and improving smoothness of user experience by using a step-by-step guiding mode. It will be appreciated that the consumer is more concerned about the authenticity of the food, so that in this embodiment, the stepwise guided anti-counterfeiting interaction may meet the main consumer needs and provide further packaging verification options based thereon. By separating and sequentially displaying the anti-counterfeiting verification of the food and the glue box, the burden of processing excessive information at one time by a user is reduced, the user is helped to concentrate on the current verification task, and the information processing efficiency and the anti-counterfeiting verification accuracy are improved. After the user completes the anti-counterfeiting verification of the food, an option of selecting whether to perform the anti-counterfeiting verification of the glue box is provided, so that the flexibility of the verification process can be increased. The user can choose whether to continuously verify the authenticity of the glue box according to the own requirements and interests, and the flexibility enables the user experience to be more personalized. In addition, the anti-counterfeiting and traceability information of the food and the glue box are displayed in steps, so that the transparency of the verification information can be improved, and consumers can understand the anti-counterfeiting importance of the food and the package.
The above embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present invention are intended to be within the scope of the present invention as claimed.
Claims (10)
1. The quality monitoring method based on block chain and environment-friendly adhesive box anti-counterfeit printing is characterized by comprising the following steps of:
Storing anti-counterfeiting and tracing information of the environment-friendly glue box and anti-counterfeiting and tracing information of food in a block chain node network;
printing an anti-counterfeiting two-dimensional code on the environment-friendly glue box, wherein the anti-counterfeiting two-dimensional code comprises outer-layer anti-counterfeiting information and inner-layer anti-counterfeiting information, the outer-layer anti-counterfeiting information corresponds to anti-counterfeiting and tracing information of the environment-friendly glue box, and the inner-layer anti-counterfeiting information corresponds to anti-counterfeiting and tracing information of the food;
And displaying the anti-counterfeiting and traceability information of the food and/or the anti-counterfeiting and traceability information of the environment-friendly glue box to a user terminal according to different anti-counterfeiting requests selected by the user terminal scanning the anti-counterfeiting two-dimensional code.
2. The quality monitoring method based on blockchain and environment-friendly glue box anti-counterfeiting printing according to claim 1, wherein the blockchain node network stores anti-counterfeiting and tracing information of the environment-friendly glue box and anti-counterfeiting and tracing information of food, and the quality monitoring method comprises the following steps:
The printing production end uploads the anti-counterfeiting and tracing information of the environment-friendly glue box to the block chain link point network through the block chain client, and the food production end uploads the anti-counterfeiting and tracing information of the food to the block chain link point network through the block chain client;
The block chain node network stores the anti-counterfeiting and tracing information of the environment-friendly glue box and the anti-counterfeiting and tracing information of the food.
3. The quality monitoring method based on blockchain and environment-friendly glue box anti-counterfeiting printing of claim 1, wherein the printing of the anti-counterfeiting two-dimensional code on the environment-friendly glue box comprises the following steps:
Printing the anti-counterfeiting two-dimensional code in a consensus area of the environment-friendly glue box, wherein the consensus area is a glue box outer wall area commonly determined by a food production end and a printing production end of the environment-friendly glue box.
4. The quality monitoring method based on blockchain and environment-friendly glue box anti-counterfeiting printing according to claim 3, wherein when the common area is determined by the food production end and the printing production end of the environment-friendly glue box together, the determination is performed by a collaborative generation system of the appearance pattern of the environment-friendly glue box for printing.
5. The quality monitoring method based on blockchain and environment-friendly glue box anti-counterfeit printing according to claim 4, wherein the collaborative generation system of the environment-friendly glue box appearance pattern for printing comprises:
The APET environment-friendly packaging material database is used for providing options of various APET material information so that a food production end can provide current personalized design requirements for displaying the appearance style of an environment-friendly rubber box of a product according to the characteristics of the product; the current personalized design requirements comprise current personalized anti-counterfeiting two-dimensional code design requirements;
The internet collaborative manufacturing module is configured as a sharing platform for carrying out design collaboration among the food production end, the professional design party and the printing production end; after the professional design party designs and forms a current appearance style scheme according to the current personalized design requirement uploaded to the sharing platform by the food production end, uploading the current appearance style scheme to the sharing platform so that the food production end provides design feedback comments for the sharing platform according to the current appearance style scheme and provides production adjustment comments for the sharing platform according to the current appearance style scheme by the printing production end;
the industrial information and data processing module is used for acquiring the current appearance style scheme, the design feedback opinion and the production adjustment opinion from the sharing platform, comprehensively analyzing the current appearance style scheme and the historical design data to obtain a current appearance style comprehensive analysis scheme, providing the current appearance style comprehensive analysis scheme for the sharing platform, and transmitting the current appearance style scheme to the sharing platform to be confirmed by the food production end and the printing production end according to the secondary design of the current appearance style comprehensive analysis scheme by the professional design party to form a final appearance style of the environment-friendly glue box, wherein the final appearance style of the environment-friendly glue box comprises the consensus area.
6. The blockchain and environment-friendly glue box anti-counterfeiting printing-based quality monitoring method according to any one of claims 1 to 5, wherein when a user side scans the anti-counterfeiting two-dimensional code, an application server obtains an anti-counterfeiting request initiated by the user scanning the anti-counterfeiting two-dimensional code, and a first interactive interface is displayed to the user, wherein the first interactive interface comprises a glue box anti-counterfeiting control set for the outer-layer anti-counterfeiting information and a food anti-counterfeiting control set for the inner-layer anti-counterfeiting information.
7. The quality monitoring method based on blockchain and environment-friendly adhesive box anti-counterfeit printing according to claim 6, wherein when a user touches the adhesive box anti-counterfeit control, the user side generates an adhesive box anti-counterfeit request and sends the adhesive box anti-counterfeit request to the application server, and the application server receives the adhesive box anti-counterfeit request and uploads the adhesive box anti-counterfeit request to the blockchain link point network; the block chain node network responds to the anti-counterfeiting request of the rubber box and provides anti-counterfeiting and traceability information of the environment-friendly rubber box for the application server, and the application server displays the anti-counterfeiting and traceability information of the environment-friendly rubber box to a user at the user end through a display interface.
8. The quality monitoring method based on blockchain and environment-friendly glue box anti-counterfeit printing according to claim 6, wherein when a user touches the food anti-counterfeit control, the user side generates a food anti-counterfeit request and sends the food anti-counterfeit request to the application server, and the application server receives the food anti-counterfeit request and uploads the food anti-counterfeit request to the blockchain link point network; the block chain node network responds to the food anti-counterfeiting request and provides anti-counterfeiting and traceability information of the food to the application server, and the application server displays the anti-counterfeiting and traceability information of the food to the user of the user terminal through a display interface.
9. The quality monitoring method based on blockchain and environment-friendly glue box anti-counterfeit printing of claim 6, wherein the glue box anti-counterfeit control and the food anti-counterfeit control are arranged on the first interactive interface at intervals; the food anti-counterfeiting control is located above the glue box anti-counterfeiting control, and is set by more prominent colors and fonts than the glue box anti-counterfeiting control.
10. The blockchain and environmental protection glue box anti-counterfeiting printing-based quality monitoring method according to any one of claims 1 to 5, wherein the blockchain node network deploys an intelligent contract, and the intelligent contract automatically manages anti-counterfeiting and tracing information of the environmental protection glue box and anti-counterfeiting and tracing information of the food and manages access rights for accessing the anti-counterfeiting and tracing information of the environmental protection glue box and the anti-counterfeiting and tracing information of the food.
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Citations (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104899752A (en) * | 2015-06-19 | 2015-09-09 | 北京慧眼天下科技有限公司 | Product false proof method and system |
CN106600286A (en) * | 2016-11-18 | 2017-04-26 | 安徽拾穗谷生态科技有限公司 | Variable quick response code based whole-course credible tracing-back system for quality safety of agricultural product |
CN107263924A (en) * | 2017-07-05 | 2017-10-20 | 江阴酒芯物联科技有限公司 | Smart packages mounted box is manufactured and application process |
US20180096175A1 (en) * | 2016-10-01 | 2018-04-05 | James L. Schmeling | Blockchain Enabled Packaging |
CN108510044A (en) * | 2018-04-08 | 2018-09-07 | 邓学胜 | Anti-fake card, anti-counterfeiting system and anti-fake processing method |
CN108764948A (en) * | 2018-06-21 | 2018-11-06 | 福建壹壶春秋文化发展有限公司 | A kind of tealeaves supply and marketing method based on block chain |
CN210378102U (en) * | 2019-08-25 | 2020-04-21 | 河南省卫群科技发展有限公司 | Partition type holographic VOID uncovering light and shade two-dimensional code anti-counterfeiting label |
CN112561666A (en) * | 2021-02-19 | 2021-03-26 | 浙江大胜达包装股份有限公司 | Corrugated carton printing customized service method and system thereof |
US20220361612A1 (en) * | 2019-07-11 | 2022-11-17 | Hojeon Limited | Garment design generation method and system, and integrated application program therefor |
CN117807808A (en) * | 2024-01-19 | 2024-04-02 | 深圳万利科技有限公司 | Collaborative production service system of environment-friendly glue box |
-
2024
- 2024-03-26 CN CN202410345932.3A patent/CN117952635B/en active Active
Patent Citations (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104899752A (en) * | 2015-06-19 | 2015-09-09 | 北京慧眼天下科技有限公司 | Product false proof method and system |
US20180096175A1 (en) * | 2016-10-01 | 2018-04-05 | James L. Schmeling | Blockchain Enabled Packaging |
CN106600286A (en) * | 2016-11-18 | 2017-04-26 | 安徽拾穗谷生态科技有限公司 | Variable quick response code based whole-course credible tracing-back system for quality safety of agricultural product |
CN107263924A (en) * | 2017-07-05 | 2017-10-20 | 江阴酒芯物联科技有限公司 | Smart packages mounted box is manufactured and application process |
CN108510044A (en) * | 2018-04-08 | 2018-09-07 | 邓学胜 | Anti-fake card, anti-counterfeiting system and anti-fake processing method |
CN108764948A (en) * | 2018-06-21 | 2018-11-06 | 福建壹壶春秋文化发展有限公司 | A kind of tealeaves supply and marketing method based on block chain |
US20220361612A1 (en) * | 2019-07-11 | 2022-11-17 | Hojeon Limited | Garment design generation method and system, and integrated application program therefor |
CN210378102U (en) * | 2019-08-25 | 2020-04-21 | 河南省卫群科技发展有限公司 | Partition type holographic VOID uncovering light and shade two-dimensional code anti-counterfeiting label |
CN112561666A (en) * | 2021-02-19 | 2021-03-26 | 浙江大胜达包装股份有限公司 | Corrugated carton printing customized service method and system thereof |
CN117807808A (en) * | 2024-01-19 | 2024-04-02 | 深圳万利科技有限公司 | Collaborative production service system of environment-friendly glue box |
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---|---|
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