CN111882327A - Anti-counterfeiting tracing method with identity characteristics and capable of actively feeding back information to system - Google Patents

Abstract

The invention relates to the field of anti-counterfeiting traceability, and discloses an anti-counterfeiting traceability method with identity characteristics and capable of actively feeding back information to a system. According to the invention, specific hidden anti-counterfeiting characteristics and variable data information are embedded into each part to form unique identity characteristic information of the product, and the unique identity characteristic information is collected and associated into a complete data chain during product packaging production, so that the product cannot be tampered. The user performs bidirectional verification and associated verification on the read whole group of identity characteristic data information of the product and the data server, the anti-counterfeiting grade is higher, the anti-counterfeiting verification is safer, and the intelligent terminal can complete the anti-counterfeiting verification by reading any visible code or radio frequency identification code.

Description

Anti-counterfeiting tracing method with identity characteristics and capable of actively feeding back information to system

Technical Field

The invention relates to the technical field of anti-counterfeiting traceability, in particular to an anti-counterfeiting traceability method which has identity characteristics and can actively feed back information to a system.

Background

At present, the traceability anti-counterfeiting technology on the market is mainly based on verification of basic information and anti-counterfeiting identification information of products, traceability of each packaging part or the product can not be carried out, and active information feedback to an information system can not be carried out when the packaging structure of the product is damaged. The information can be falsified due to the combination of the single anti-counterfeiting mark and the information anti-counterfeiting means, the single anti-counterfeiting mark can be disassembled or recycled through some illegal means, so that a counterfeiter can take advantage of the information, and the counterfeiter can make counterfeits by using developed scientific and technological means without losing the power, and can be put into the market, disturb finance, earn violence, contaminate nameplates, kill and innovate, scare investment merchants, seriously disturb the commodity market, harm the benefits of the country and the public, and even harm the health and the life of consumers. Therefore, the technology for promoting the anti-counterfeiting traceability of the product is imperative.

Disclosure of Invention

In order to solve the problems, the invention provides an anti-counterfeiting traceability method which has an identity characteristic and can actively feed back information to a system.

The invention discloses an anti-counterfeiting tracing method with identity characteristics and capable of actively feeding back information to a system, which comprises the following steps:

s1, setting one or a group of hidden anti-counterfeiting features on each part of a package;

s2, giving each part a unique identity feature code, and ensuring that the feature code of each part is variable and unique;

s3, when the components are integrally packaged on a finished product packaging line, collecting the characteristic code data information of each component and the basic information of the product through a collection association system of the production line, and sending the characteristic code data information and the basic information of the product to a data server;

s4, correlating the feature code data information of each part with the basic information of the product in the data server, generating a group of feature codes by the data server according to the corresponding correlation information, endowing the group of feature codes to the joint of the package by adopting a laser engraving or spray printing process to form a seam-crossing feature code, and synchronously correlating and storing the seam-crossing feature code in the data server to form a group of complete product identity feature data information;

s5, marking the information of the product by using the intelligent terminal at each step in the growth track of the product, and sending the marked information to a data server for storage to form complete traceability information;

s6, when the product is opened for the first time, the packaging component is activated through instant displacement of the sensor and triggers to transmit information to the radio frequency identification tag, the radio frequency identification tag uploads the received information to the data server, and the data server marks the matched product;

s7, the user uses the intelligent terminal to identify the feature code, and identity feature data information corresponding to the product and source tracing information of the product can be obtained;

and S8, the intelligent terminal and the data server receive and send the feature codes and verify the feature codes to obtain an anti-counterfeiting authentication result.

Furthermore, the expression form of the feature code comprises a one-dimensional bar code, a two-dimensional code and a radio frequency identification code.

Furthermore, the intelligent terminal is an intelligent device capable of reading one-dimensional bar code information, two-dimensional code information and radio frequency identification information.

Further, the method for setting the recessive anti-counterfeiting feature on the injection molding part comprises the following steps:

in the injection molding process of the injection molding parts, a digital injection molding mode is synchronously selected, unique hidden anti-counterfeiting characteristics are put into each part, local texture and size change is included, and the hidden anti-counterfeiting characteristics can be scanned and compared in real time and in multiple angles through a multi-dimensional stereo recognition system;

and (3) putting a sensor in the injection molding process, associating the sensor with the radio frequency identification tag, and actively feeding back the first starting operation condition of the key part to a data server.

Further, the method for setting the recessive anti-counterfeiting feature on the glass bottle component comprises the following steps:

the characteristic information components are added into the material of the glass bottle, the characteristic information components comprise nano-scale particles which are modulated together in different proportions and have various characteristics, the nano-scale particles are hidden in the glass bottle, the transparency of the glass bottle is not affected, a recessive anti-counterfeiting feature is formed, the nano-scale particles can be identified and read through a corresponding identifier, and meanwhile, the characteristic codes are given to the surface of the glass bottle and are associated with the recessive anti-counterfeiting feature.

Further, the method for setting the hidden anti-counterfeiting feature for the decoration firing mark part comprises the following steps:

the digital holographic anti-counterfeiting technology is adopted to control the holographic anti-counterfeiting mark patterns to have subtle changes, so that each label feature is unique to form a hidden anti-counterfeiting feature, and meanwhile, a feature code is given to the surface of the decoration firing mark coating layer and is associated with the hidden anti-counterfeiting feature.

Further, the method for setting the hidden anti-counterfeiting characteristics for the anti-counterfeiting marks and the labels comprises the following steps:

recessive anti-counterfeiting characteristics are set for anti-counterfeiting marks and printing plates of labels, and the printing plates are controlled through system setting, so that each anti-counterfeiting mark or label has different characteristics and can be identified through a multi-dimensional stereo identification system; endowing feature codes on the surfaces of the anti-counterfeiting mark and the label and associating the hidden anti-counterfeiting features;

anti-counterfeiting ink is used during printing of anti-counterfeiting marks and labels, and the anti-counterfeiting ink comprises optically variable anti-counterfeiting ink, magnetic anti-counterfeiting ink and voice recognition technology ink; the pattern characteristics of each anti-counterfeiting mark or label are different through a digital jet printing mode, so that a recessive anti-counterfeiting characteristic is formed, and the anti-counterfeiting mark or label can be identified through a multi-dimensional stereo identification system; endowing feature codes on the surfaces of the anti-counterfeiting mark and the label and associating the hidden anti-counterfeiting features;

nano-scale particles which are prepared by mixing various characteristics together in different proportions are put into the glue layers of the anti-counterfeiting mark and the label to form a recessive anti-counterfeiting characteristic which can be identified and read by corresponding identifiers; and giving a feature code on the surfaces of the anti-counterfeiting mark and the label and associating the hidden anti-counterfeiting feature.

Further, the method for setting the hidden anti-counterfeiting characteristic for the packaging box comprises the following steps:

adding an anti-counterfeiting material into the jet-printed ink, wherein the anti-counterfeiting material comprises nano-scale particles with various characteristics and modulated together in different proportions to form a recessive anti-counterfeiting feature, can be identified and read by a corresponding identifier, and simultaneously endows a feature code on the surface of the packaging box and associates the recessive anti-counterfeiting feature;

variable patterns which cannot be identified by naked eyes are arranged in the local patterns in the carton, and the variable patterns can be uploaded to an identification system for comparison and confirmation through a shooting pattern by an identification instrument.

Further, the feature code comprises a laser engraving digital code, a one-dimensional bar code or a two-dimensional code which is produced by spraying colorless ultraviolet fluorescent ink or infrared fluorescent ink.

Further, the nano-scale particles comprise fluorescent materials, infrared materials and rare metal particles.

The invention has the beneficial effects that:

according to the invention, specific hidden anti-counterfeiting characteristics and variable data information are embedded into each part to form unique identity characteristic information of the product, and the unique identity characteristic information is collected and associated into a complete data chain during product packaging production, so that the product cannot be tampered. The user performs bidirectional verification and associated verification on the read whole group of identity characteristic data information of the product and the data server, the anti-counterfeiting grade is higher, the anti-counterfeiting verification is safer, and the intelligent terminal can complete the anti-counterfeiting verification by reading any visible code or radio frequency identification code.

The invention can completely record the running track and the opening record of the product, plays a more perfect anti-counterfeiting tracing role for the product, increases the counterfeiting difficulty of counterfeiters, ensures that the product cannot be falsified and counterfeited, and simultaneously enables consumers or law enforcement personnel to identify the authenticity of the product more quickly.

Drawings

FIG. 1 is one of the schematic views of the injection molded parts (bottle caps) of the present invention provided with a covert security feature;

FIG. 2 is a second schematic diagram (box) of the injection molded part of the present invention with a covert security feature;

FIG. 3 is a schematic view of a glass bottle type component provided with a covert security feature in accordance with the present invention;

FIG. 4 is a schematic view of a decoration firing mark part with a hidden anti-counterfeiting feature according to the invention;

FIG. 5 is a schematic view of a package provided with a covert security feature of the present invention;

FIG. 6 is a schematic view of a product end product packaging line of the present invention;

reference numerals: 101-hidden anti-counterfeiting feature, 102-feature code, 103-sensor, 104-radio frequency identification tag, 105-light source; 201-each assembly component correlation characteristic information, 202-packaging production line collection correlation, 203-coding equipment, 204-perforation characteristic code, 205-activation sensor, 206-coding equipment, 207-collection software and equipment, 208-traceability system, 209-product warehouse end, 210-each level channel quotient, 211-data server.

Detailed Description

In order to more clearly understand the technical features, objects, and effects of the present invention, specific embodiments of the present invention will now be described. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

The embodiment provides an anti-counterfeiting tracing method with identity characteristics and capable of actively feeding back information to a system, which comprises the following steps:

s1, setting one or a group of hidden anti-counterfeiting features on each part of a package;

s2, giving each part a unique identity feature code, and ensuring that the feature code of each part is variable and unique; the expression form of the feature code comprises a one-dimensional bar code, a two-dimensional code and a radio frequency identification code, and more specifically, the feature code can adopt a laser engraving digital code, and a one-dimensional bar code or a two-dimensional code generated by jet printing of colorless ultraviolet fluorescent ink or infrared fluorescent ink;

s3, when the components are integrally packaged on a finished product packaging line, collecting the characteristic code data information of each component and the basic information of the product through a collection association system of the production line, and sending the characteristic code data information and the basic information of the product to a data server;

s4, correlating the feature code data information of each part with the basic information of the product in the data server, generating a group of feature codes by the data server according to the corresponding correlation information, endowing the group of feature codes to the joint of the package by adopting a laser engraving or spray printing process to form a seam-crossing feature code, and synchronously correlating and storing the seam-crossing feature code in the data server to form a group of complete product identity feature data information;

s5, marking the information of the product by using the intelligent terminal at each step in the growth track of the product, and sending the marked information to a data server for storage to form complete traceability information;

s6, when the product is opened for the first time, the packaging component is activated through instant displacement of the sensor and triggers to transmit information to the radio frequency identification tag, the radio frequency identification tag uploads the received information to the data server, and the data server marks the matched product;

s7, the user uses the intelligent terminal to identify the feature code, and identity feature data information corresponding to the product and source tracing information of the product can be obtained; specifically, the intelligent terminal is an intelligent device capable of reading one-dimensional bar code information, two-dimensional code information and radio frequency identification information.

And S8, the intelligent terminal and the server receive and send the feature codes and verify the feature codes to obtain an anti-counterfeiting authentication result.

Specifically, each part (such as injection molding type, glass bottle type, baked flower label type, anti-counterfeiting mark) of the package is provided with one or a group of recessive anti-counterfeiting features, and the recessive anti-counterfeiting features can be realized through different processes:

(1) the method for setting the recessive anti-counterfeiting feature on the injection molding part comprises the following steps:

as shown in fig. 1, a digital injection molding mode is synchronously selected in the injection molding process of the injection molding parts, unique hidden anti-counterfeiting characteristics are put into each part, including changes of local textures and sizes, and the hidden anti-counterfeiting characteristics can be scanned and compared with the hidden anti-counterfeiting characteristics in real time and at multiple angles through a multi-dimensional stereo recognition system; meanwhile, the surface of the injection molding part is endowed with a feature code and is associated with a recessive anti-counterfeiting feature.

As shown in fig. 2, a sensor is placed in the injection molding process, and the sensor is associated with the rfid tag, so as to actively feed back the first-time startup operation condition of the key component to the data server.

(2) The method for setting the recessive anti-counterfeiting feature for the glass bottle component comprises the following steps:

as shown in figure 3, the characteristic information components are added into the material of the glass bottle, the characteristic information components comprise nano-scale particles which are modulated together in different proportions and have various characteristics, the nano-scale particles are hidden in the glass bottle, the transparency of the glass bottle is not influenced, a recessive anti-counterfeiting feature is formed, the nano-scale particles can be identified and read through a corresponding recognizer, and meanwhile, the surface of the glass bottle is endowed with a characteristic code and is associated with the recessive anti-counterfeiting feature. Specifically, the nano-scale particles can be made of fluorescent materials, infrared materials or rare metal particles. More specifically, the rare metal particles use one or more elements of molybdenum, silver, iron, lanthanum, neodymium, gadolinium, ammonium, tin, and the like.

(3) The method for setting the recessive anti-counterfeiting characteristic for the decoration-fired logo parts comprises the following steps:

as shown in fig. 4, the digital holographic anti-counterfeiting technology is adopted to control the holographic anti-counterfeiting mark pattern to have subtle changes, so that each label feature is unique to form a recessive anti-counterfeiting feature, and meanwhile, the feature code is given to the surface of the decoration-fired label coating and is associated with the recessive anti-counterfeiting feature.

(4) The method for setting the hidden anti-counterfeiting characteristics for the anti-counterfeiting marks and labels comprises the following steps:

a. recessive anti-counterfeiting characteristics are set for anti-counterfeiting marks and printing plates of labels, and the printing plates are controlled through system setting, so that each anti-counterfeiting mark or label has different characteristics and can be identified through a multi-dimensional stereo identification system; endowing feature codes on the surfaces of the anti-counterfeiting mark and the label and associating a recessive anti-counterfeiting feature;

b. anti-counterfeiting ink is used during printing of anti-counterfeiting marks and labels, and the anti-counterfeiting ink comprises optically variable anti-counterfeiting ink, magnetic anti-counterfeiting ink and voice recognition technology ink; the pattern characteristics of each anti-counterfeiting mark or label are different through a digital jet printing mode, so that a recessive anti-counterfeiting characteristic is formed, and the anti-counterfeiting mark or label can be identified through a multi-dimensional stereo identification system; endowing feature codes on the surfaces of the anti-counterfeiting mark and the label and associating a recessive anti-counterfeiting feature;

c. nano-scale particles which are prepared by mixing various characteristics together in different proportions are put into the glue layers of the anti-counterfeiting mark and the label to form a recessive anti-counterfeiting characteristic which can be identified and read by corresponding identifiers; and giving a feature code on the surfaces of the anti-counterfeiting mark and the label and associating a recessive anti-counterfeiting feature. Specifically, the nano-scale particles can be made of fluorescent materials, infrared materials or rare metal particles. More specifically, the rare metal particles use one or more elements of molybdenum, silver, iron, lanthanum, neodymium, gadolinium, ammonium, tin, and the like.

(5) The method for setting the recessive anti-counterfeiting characteristic for the packaging box comprises the following steps:

a. as shown in fig. 5, the anti-counterfeiting material is added in the jet-printed ink, and comprises nano-scale particles with various characteristics and modulated together in different proportions to form a recessive anti-counterfeiting feature, and can be identified and read by a corresponding identifier, and meanwhile, a feature code is given to the surface of the packaging box and is associated with the recessive anti-counterfeiting feature; specifically, the nano-scale particles can adopt fluorescent materials, infrared materials or rare metal particles; more specifically, the rare metal particles use one or more elements of molybdenum, silver, iron, lanthanum, neodymium, gadolinium, ammonium, tin, and the like;

b. the variable patterns which cannot be identified by naked eyes are arranged in the local patterns in the carton, and the variable patterns can be uploaded to an identification system for comparison and confirmation through shooting the patterns by an identification instrument.

Example 2

Each single product has a group of unique identity characteristic data information (including characteristic information of each component such as injection molding type, glass bottle type, label type, anti-counterfeiting mark and the like), and the unique identity characteristic data information is acquired and associated through a corresponding one-dimensional bar code, two-dimensional code or radio frequency identification code and uploaded to a data server.

The method comprises the following steps: the production unit firstly packages different recessive identity characteristics designed during production of each part and gives each part a corresponding one-dimensional bar code, a two-dimensional code or a radio frequency identification code with uniqueness.

Step two: the hidden identity characteristics of each single component of the package are associated with the corresponding one-dimensional bar code, two-dimensional code or radio frequency identification code, and are uploaded to a data server, and the production information of the single component is written into the data server at the same time, so that the identity characteristic code of the single component is formed (identity characteristic data association is completed in a package component production unit).

Step three: as shown in fig. 6, in a finished product packaging production line, identity feature codes of different packaging components are collected at different key points through the production line, are uploaded to a data server in real time and are associated with products, relevant information of product production is written, meanwhile, the data server generates a group of feature codes according to corresponding associated information, the feature codes are endowed at seams of the packages by adopting a laser engraving or jet printing process, a seam-crossing feature code is formed and is synchronously associated in the data server, finally, a group of complete identity feature data information of a single product is formed, and when N groups of identity feature data information are associated, the complete identity feature data information can be associated and bound with a box code (which can be a one-dimensional code, a two-dimensional code or an RFID box label). The specific value of N is determined according to the product packaging specification, for example, if each box contains 4 single products, N is equal to 4, and one box code is associated with 4 sets of identity characteristic data information corresponding to 4 products.

Step four: in the warehouse-in and warehouse-out processes, data information is uploaded to a traceability system in real time through collection box codes in warehouse-in and warehouse-out processes, warehousing information is synchronously written in, box codes on products in corresponding quantity are collected according to delivery information in warehouse-out, and each piece of collected box code information is uploaded to the traceability system to be correlated with information such as a dealer or a brand and simultaneously input into a data server to serve as the basis of anti-counterfeiting traceability and channel conflict inspection management. And (4) acquiring relevant corresponding information of the box codes and uploading the information to a traceability system and a data server in each link from the brand dealer/distributor to the terminal. According to the data acquisition records of warehousing and ex-warehouse of each link, the warehousing, ex-warehouse and inventory conditions of products can be monitored in real time.

Step five: when the product is opened for the first time, the packaging component triggers through the sensor to transmit information to the RFID tag, the RFID tag uploads the received information to the data server, and the data server finds the matched product and marks the matched product.

Step six: market supervisors, industrial and commercial law enforcement personnel, consumers and the like acquire data information of the one-dimensional bar code, the two-dimensional code and the radio frequency identification code through application software in the intelligent terminal, the data server finds out corresponding identity characteristics, data information and opening records by receiving and sending the one-dimensional bar code, the two-dimensional code or the radio frequency identification code and comparing the identity characteristics, the data information and the opening records, and a specific verification method can be as follows:

1. the method comprises the steps that application software in an intelligent terminal sends any one of one-dimensional bar code information, two-dimensional code information or radio frequency identification code information to a data server, the data server matches any one of the one-dimensional bar code information, the two-dimensional code information or the radio frequency identification code information sent by the application software in the intelligent terminal, if the matching information is consistent, corresponding identity characteristics, data information and a moving track of a product are fed back to the application software in the intelligent terminal, a user checks the identity characteristics, the data information and opening records received by the application software in the intelligent terminal one by one with an actual product, meanwhile, the digital injection molding characteristics at a specified position in an injection molding part are scanned in real time and at multiple angles through a special multi-dimensional identification system, the checked identity is a genuine product, and if the matching fails, the checked product is a counterfeit product.

2. The application software in the intelligent terminal reads the radio frequency identification code information and sends the information to the data server, the corresponding seam characteristic code is synchronously required to be input through the application software, the data server matches the radio frequency identification code information and the seam characteristic code information sent by the application software in the intelligent terminal with the information in the data server, if the matching is successful, the corresponding identity characteristic, the data information and the movement track of the product are fed back to the application software in the intelligent terminal, a user checks the identity characteristic, the data information and the opening record received by the application software in the intelligent terminal with an actual product one by one, and the digital injection molding characteristic at a specified position in an injection molding part is compared with a special multi-dimensional stereo identification system in real time and at multiple angles, so that the checked identity is a genuine product. And if the matching fails, the product is a counterfeit product.

The method adopted by the invention can completely record the running track and the opening record of the product, plays a more perfect anti-counterfeiting tracing role for the product, increases the counterfeiting difficulty of counterfeiters, ensures that the product cannot be falsified and counterfeited, and simultaneously enables consumers or law enforcement personnel to identify the authenticity of the product more quickly.

The foregoing is illustrative of the preferred embodiments of this invention, and it is to be understood that the invention is not limited to the precise form disclosed herein and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the concept as disclosed herein, either as described above or as apparent to those skilled in the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. An anti-counterfeiting tracing method with identity characteristics and capable of actively feeding back information to a system is characterized by comprising the following steps:

s1, setting one or a group of hidden anti-counterfeiting features on each part of a package;

s2, giving each part a unique identity feature code, and ensuring that the feature code of each part is variable and unique;

s3, when the components are integrally packaged on a finished product packaging line, collecting the characteristic code data information of each component and the basic information of the product through a collection association system of the production line, and sending the characteristic code data information and the basic information of the product to a data server;

s4, correlating the feature code data information of each part with the basic information of the product in the data server, generating a group of feature codes by the data server according to the corresponding correlation information, endowing the group of feature codes to the joint of the package by adopting a laser engraving or spray printing process to form a seam-crossing feature code, and synchronously correlating and storing the seam-crossing feature code in the data server to form a group of complete product identity feature data information;

s5, marking the information of the product by using the intelligent terminal at each step in the growth track of the product, and sending the marked information to a data server for storage to form complete traceability information;

s6, when the product is opened for the first time, the packaging component is activated through instant displacement of the sensor and triggers to transmit information to the radio frequency identification tag, the radio frequency identification tag uploads the received information to the data server, and the data server marks the matched product;

s7, the user uses the intelligent terminal to identify the feature code, and identity feature data information corresponding to the product and source tracing information of the product can be obtained;

and S8, the intelligent terminal and the data server receive and send the feature codes and verify the feature codes to obtain an anti-counterfeiting authentication result.

2. The anti-counterfeiting traceability method with identity characteristics capable of actively feeding back information to a system as claimed in claim 1, wherein the expression form of the feature code comprises a one-dimensional bar code, a two-dimensional code and a radio frequency identification code.

3. The anti-counterfeiting tracing method with identity characteristics capable of actively feeding back information to a system according to claim 2, wherein the intelligent terminal is an intelligent device capable of reading one-dimensional bar code information, two-dimensional code information and radio frequency identification information.

4. The anti-counterfeiting traceability method with identity characteristics and capable of actively feeding back information to a system according to claim 1, wherein the method for setting the recessive anti-counterfeiting characteristics for the injection molding part comprises the following steps:

in the injection molding process of the injection molding parts, a digital injection molding mode is synchronously selected, unique hidden anti-counterfeiting characteristics are put into each part, local texture and size change is included, and the hidden anti-counterfeiting characteristics can be scanned and compared in real time and in multiple angles through a multi-dimensional stereo recognition system;

and (3) putting a sensor in the injection molding process, associating the sensor with the radio frequency identification tag, and actively feeding back the first starting operation condition of the key part to a data server.

5. The anti-counterfeiting traceability method with identity characteristics and capability of actively feeding back information to a system as claimed in claim 1, wherein the method for setting the hidden anti-counterfeiting characteristics for the glass bottle type component comprises the following steps:

the characteristic information components are added into the material of the glass bottle, the characteristic information components comprise nano-scale particles which are modulated together in different proportions and have various characteristics, the nano-scale particles are hidden in the glass bottle, the transparency of the glass bottle is not affected, a recessive anti-counterfeiting feature is formed, the nano-scale particles can be identified and read through a corresponding identifier, and meanwhile, the characteristic codes are given to the surface of the glass bottle and are associated with the recessive anti-counterfeiting feature.

6. The anti-counterfeiting tracing method with identity characteristics capable of actively feeding back information to a system according to claim 1, wherein the method for setting the hidden anti-counterfeiting characteristics for the decoration-roasted label type component comprises the following steps:

the digital holographic anti-counterfeiting technology is adopted to control the holographic anti-counterfeiting mark patterns to have subtle changes, so that each label feature is unique to form a hidden anti-counterfeiting feature, and meanwhile, a feature code is given to the surface of the decoration firing mark coating layer and is associated with the hidden anti-counterfeiting feature.

7. The anti-counterfeiting tracing method with identity characteristics capable of actively feeding back information to a system according to claim 1, wherein the method for setting the hidden anti-counterfeiting characteristics for the anti-counterfeiting marks and labels comprises the following steps:

recessive anti-counterfeiting characteristics are set for anti-counterfeiting marks and printing plates of labels, and the printing plates are controlled through system setting, so that each anti-counterfeiting mark or label has different characteristics and can be identified through a multi-dimensional stereo identification system; endowing feature codes on the surfaces of the anti-counterfeiting mark and the label and associating the hidden anti-counterfeiting features;

anti-counterfeiting ink is used during printing of anti-counterfeiting marks and labels, and the anti-counterfeiting ink comprises optically variable anti-counterfeiting ink, magnetic anti-counterfeiting ink and voice recognition technology ink; the pattern characteristics of each anti-counterfeiting mark or label are different through a digital jet printing mode, so that a recessive anti-counterfeiting characteristic is formed, and the anti-counterfeiting mark or label can be identified through a multi-dimensional stereo identification system; endowing feature codes on the surfaces of the anti-counterfeiting mark and the label and associating the hidden anti-counterfeiting features;

nano-scale particles which are prepared by mixing various characteristics together in different proportions are put into the glue layers of the anti-counterfeiting mark and the label to form a recessive anti-counterfeiting characteristic which can be identified and read by corresponding identifiers; and giving a feature code on the surfaces of the anti-counterfeiting mark and the label and associating the hidden anti-counterfeiting feature.

8. The anti-counterfeiting tracing method with the identity characteristic and capable of actively feeding back information to a system according to claim 1, wherein the method for setting the hidden anti-counterfeiting characteristic on the packaging box comprises the following steps:

adding an anti-counterfeiting material into the jet-printed ink, wherein the anti-counterfeiting material comprises nano-scale particles with various characteristics and modulated together in different proportions to form a recessive anti-counterfeiting feature, can be identified and read by a corresponding identifier, and simultaneously endows a feature code on the surface of the packaging box and associates the recessive anti-counterfeiting feature;

variable patterns which cannot be identified by naked eyes are arranged in the local patterns in the carton, and the variable patterns can be uploaded to an identification system for comparison and confirmation through a shooting pattern by an identification instrument.

9. The anti-counterfeiting tracing method with identity characteristics capable of actively feeding back information to a system according to any one of claims 1 to 8, wherein the feature code comprises a laser engraved digital code, a one-dimensional bar code or a two-dimensional bar code produced by jet printing of colorless ultraviolet fluorescent ink or infrared fluorescent ink.

10. The anti-counterfeiting tracing method with identity characteristics capable of actively feeding back information to a system according to any one of claims 5, 7 or 8, wherein the nano-particles comprise fluorescent materials, infrared materials and rare metal particles.

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