A multi-channel anti-counterfeiting traceability technology verification system and verification method
By setting multiple layers of anti-counterfeiting technology on the carrier and combining them with multiple verification methods, the problem of easy cracking of single-channel verification is solved, and fast and accurate multi-channel anti-counterfeiting traceability verification is achieved, which improves the anti-counterfeiting strength and the ease of verification.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- YIBIN PLASTIC PACKAGING MATERIALS CO LTD
- Filing Date
- 2021-10-11
- Publication Date
- 2026-06-26
AI Technical Summary
In existing technologies, anti-counterfeiting and traceability verification are mostly single-channel, which are easily cracked, leading to the risk of counterfeit products being identified as genuine products. In addition, the verification process is cumbersome and has a poor user experience.
The multi-channel anti-counterfeiting and traceability verification system uses a combination of X-ray analysis, light reflection verification, and visual acquisition verification to simultaneously verify multiple technologies by setting a code data layer, an inorganic compound layer, a micro-layer, and a hidden pattern layer on the carrier.
It achieves fast and accurate multi-channel verification, which increases the difficulty of counterfeiting and the strength of anti-counterfeiting. Counterfeiters find it difficult to detect and crack, and the verification process is simple and reliable.
Smart Images

Figure CN115965043B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of anti-counterfeiting verification technology, and more specifically, to a multi-channel anti-counterfeiting traceability technology verification system and verification method. Background Technology
[0002] Currently, the anti-counterfeiting and traceability verification technologies on the market are all single-channel technology verification, such as separate data verification, separate pattern verification, or rare element verification. Each technology corresponds to a verification method, rather than using the same software or equipment to verify multiple technologies.
[0003] However, driven by profit, criminals will rack their brains to produce and sell counterfeit goods. Single-technology verification is easily cracked, with unimaginable consequences, potentially leading to counterfeit products being mistaken for genuine ones. Using multiple technologies simultaneously and requiring different verification methods results in a cumbersome verification process, a poor user experience, and an inability to quickly verify authenticity. Summary of the Invention
[0004] The technical problem to be solved by this invention is to provide a multi-channel anti-counterfeiting and traceability technology verification system and method; the detection is rapid and accurate, the concealment is strong, the technology verification channels are multiple, and it is difficult for counterfeiters to detect, forge and detect, which greatly improves the imitation difficulty and anti-counterfeiting strength of the technology.
[0005] The solution adopted by this invention to solve the technical problem is:
[0006] on the one hand:
[0007] A multi-channel anti-counterfeiting and traceability technology verification system is characterized by comprising an anti-counterfeiting label disposed in the same area of a carrier and a verification system for verifying the anti-counterfeiting label; the anti-counterfeiting label comprises a code data layer disposed on the carrier and a verification layer, wherein the verification layer comprises at least one of an inorganic compound layer, a micro-layer, and a hidden pattern layer.
[0008] In some possible embodiments, the inorganic compound layer comprises 0.02-0.08% inorganic compound; the inorganic compound comprises one or more of the elements selected from lanthanum, gadolinium, molybdenum, ammonium, iron, neodymium, tin, and sodium.
[0009] In some possible implementations, the anti-counterfeiting mark includes a hidden pattern layer injection molded onto the surface of the carrier, and a code data layer disposed on the hidden pattern layer; the code data layer is made by inkjet printing with ink containing inorganic compounds.
[0010] In some possible implementations, the molar ratio of iron to tin is 0.06%:0.2%.
[0011] In some possible implementations, the molar ratio of ammonium, lanthanum, and tin is 0.01%:0.02%:0.04%.
[0012] In some possible implementations, the microlayer is a nano-microlayer, comprising a magnetic material layer, a polymer material substrate layer, and a pattern layer stacked sequentially; the magnetic material is disposed on the side close to the carrier.
[0013] In some possible implementations, the patterned layer comprises a plurality of patterned or perforated polymer material particles; the size of a single polymer material particle is 5μm-35μm.
[0014] In some possible implementations, the verification system includes a data acquisition unit, a smart terminal connected to the data acquisition unit, and a database unit connected to the smart terminal;
[0015] The data acquisition unit includes a code data verification unit and a variable verification unit; the variable verification unit includes an X-ray analysis verification unit for inorganic compound layer verification, a light reflection verification unit for hidden pattern layer verification, and a visual acquisition verification unit for nanoscale layer verification.
[0016] A verification method for a multi-channel anti-counterfeiting and traceability technology verification system specifically includes the following steps:
[0017] The code data layer information and the verification layer information are associated and bound together, and then associated with the product's production information and product's channel information, and saved to the database unit; the verification layer information includes one or more of the following: the X-ray value of the inorganic compound layer, the information of the micro-layer, and the information of the hidden pattern layer;
[0018] During verification, the data information on the carrier is collected and sent to the smart terminal simultaneously by the code data verification unit and at least one of the variable verification units, namely the X-ray analysis verification unit, the light reflection verification unit, and the visual acquisition verification unit. The smart terminal then matches and verifies the collected data with the data in the database unit.
[0019] If a match is found, the verification is successful.
[0020] If the match fails, the verification fails.
[0021] In some possible implementations, the verification includes user verification, law enforcement officer verification, and expert verification;
[0022] During user verification, the code data information is verified by the code data verification unit. At the same time, at least one of the X-ray analysis verification unit, light reflection verification unit, and visual acquisition verification unit collects the data information on the carrier and sends it to the smart terminal. The smart terminal matches and verifies the collected data with the data in the database unit.
[0023] If a match is found, the verification is successful.
[0024] If the match fails, the verification fails.
[0025] When law enforcement officers conduct verification, the code data information is verified through the code data verification unit. At the same time, at least one of the X-ray analysis verification unit, light reflection verification unit, and visual acquisition verification unit collects the data information on the carrier and sends it to the smart terminal along with the traceability information. The smart terminal then matches and verifies the collected data with the data in the database unit.
[0026] If a match is found, the verification is successful.
[0027] If the match fails, the verification fails.
[0028] During the verification process, the code data verification unit verifies the code data information, while the variable verification unit collects all the corresponding data information on the carrier and sends it to the smart terminal along with the traceability information. The smart terminal then matches and verifies the collected data with the data in the database unit.
[0029] If a match is found, the verification is successful.
[0030] If the match fails, the verification fails.
[0031] Compared with the prior art, the beneficial effects of the present invention are as follows:
[0032] This invention integrates the code data layer and the verification layer in the same area of the same carrier. The verification system simultaneously identifies and acquires multiple anti-counterfeiting technologies and traceability information, and compares them. Only when all information is correctly compared can the verification be successful; otherwise, the verification fails. This achieves the goal of verifying multiple technologies simultaneously with a single identification, making it convenient, fast, and reliable.
[0033] This invention, by placing the code data layer and the verification layer in the same area of the same carrier and simultaneously verifying both the code data layer and the verification layer through a verification system, makes it difficult for counterfeiters to detect, forge, and detect, thus greatly increasing the difficulty of counterfeiting and the effectiveness of anti-counterfeiting. Attached Figure Description
[0034] Figure 1 This is a schematic diagram of the structure of Embodiment 1 of the present invention;
[0035] Figure 2 This is a schematic diagram of the structure of Embodiment 2 of the present invention;
[0036] Figure 3 This is a schematic diagram of the structure of Embodiment 3 of the present invention;
[0037] Figure 4 This is a schematic diagram of the structure of Embodiment 4 of the present invention;
[0038] The layers are: 1. Carrier; 2. Hidden pattern layer; 3. Miniature layer; 4. Rare element layer; 5. Code data layer. Detailed Implementation
[0039] In this invention, unless otherwise explicitly specified and limited, the terms "installation," "connection," "linking," "fixing," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. The terms "first," "second," and similar terms used in this application do not indicate any order, quantity, or importance, but are merely used to distinguish different components. Similarly, "a" or "one," etc., do not indicate a quantity limitation, but rather indicate the existence of at least one. In the implementation of this application, "and / or" describes the association relationship of related objects, indicating that three relationships can exist. For example, A and / or B can represent: A existing alone, A and B existing simultaneously, or B existing alone. In the description of the embodiments of this application, unless otherwise stated, "multiple" means two or more. For example, multiple positioning posts refer to two or more positioning posts. Those skilled in the art can understand the specific meaning of the above terms in this invention according to the specific circumstances.
[0040] The present invention will now be described in detail.
[0041] like Figures 1-4 As shown:
[0042] on the one hand:
[0043] A multi-channel anti-counterfeiting and traceability technology verification system includes an anti-counterfeiting label set in the same area of a carrier 1 and a verification system for verifying the anti-counterfeiting label; the anti-counterfeiting label includes a code data layer 5 and a verification layer set on the carrier 1, and the verification layer includes at least one of an inorganic compound layer 4, a micro-layer 3, and a hidden pattern layer 2.
[0044] The carrier 1 in this invention includes, but is not limited to, anti-counterfeiting substrate, plastic film, cardboard box, glass, and plastic products.
[0045] The code data in code data layer 5 can be any of the following: barcode, QR code, graphic code, or digital code.
[0046] The inorganic compound layer 4 can be made of any inorganic compound.
[0047] In some possible embodiments, the inorganic compound layer 4 comprises 0.02-0.08% inorganic compounds; the inorganic compounds include, but are not limited to, one or more of the elements lanthanum, gadolinium, molybdenum, ammonium, iron, neodymium, tin, and sodium.
[0048] In some possible implementations, the anti-counterfeiting mark includes a hidden pattern layer 2 injection-molded onto the surface of the carrier 1, and a code data layer 5 disposed on the hidden pattern layer 2; the code data layer 5 is made by inkjet printing with ink containing inorganic compounds.
[0049] In some possible implementations, the molar ratio of iron to tin is 0.06%:0.2%.
[0050] In some possible implementations, the molar ratio of ammonium, lanthanum, and tin is 0.01%:0.02%:0.04%.
[0051] In some possible implementations, the micro-layer 3 is a nano-micro-layer, comprising a magnetic material layer, a polymer material substrate layer, and a pattern layer stacked sequentially; the magnetic material is disposed on the side close to the carrier 1.
[0052] In some possible implementations, the patterned layer comprises a plurality of patterned or perforated polymer material particles; the size of a single polymer material particle is 5μm-35μm.
[0053] The main process of the nano-micro layer is high-precision mold injection molding (which can be single-color or multi-color injection molding). After injection molding, a magnetic material coating is applied to the side of the layer closest to the carrier 1. The magnetic material can be, but is not limited to, soft magnetic materials, such as: iron powder core, iron-silicon-aluminum powder core, high flux powder core, permalloy powder core (MPP), ferrite core. After coating, the shape is positioned and die-cut using a high-precision laser to ensure that the pattern of each individual particle meets the design requirements.
[0054] A single polymer particle can have multiple colors, and by taking a picture and magnifying it, the patterns or other contents in the particle can be observed.
[0055] In some possible implementations, the verification system includes a data acquisition unit, a smart terminal connected to the data acquisition unit, and a database unit connected to the smart terminal;
[0056] The data acquisition unit includes a code data verification unit and a variable verification unit; the variable verification unit includes an X-ray analysis verification unit for verifying the inorganic compound layer 4, a light reflection verification unit for verifying the hidden pattern layer 2, and a visual acquisition verification unit for verifying the nanoscale layer.
[0057] X-ray analysis verification unit: High-energy X-rays or low-energy γ-rays are used to irradiate the inorganic compound layer 4, causing it to emit specific spectral lines. The radiation spectrum is then measured using an X-ray energy spectrometer and compared with the standard spectral lines of the inorganic compounds prepared in a certain proportion to complete the verification. Even if counterfeiters obtain the energy spectrum distribution map, it is difficult for them to determine the components and their content.
[0058] Light reflection verification unit: Based on the feature information corresponding to hidden texture layer 2, it performs comparison and verification by light reflection path and angle;
[0059] Visual acquisition and verification unit: It acquires the feature information of the nano-scale layer in the area and compares it with the archived image during production for verification. It can also set different scaling factors for comparison as needed.
[0060] A verification method for a multi-channel anti-counterfeiting and traceability technology verification system specifically includes the following steps:
[0061] The information of the code data layer 5 and the information of the verification layer are associated and bound, and then associated with the product's production information and product's channel information, and saved to the database unit; the information of the verification layer includes one or more of the following: the X-ray value of the inorganic compound layer 4, the information of the miniature layer 3, and the information of the hidden pattern layer 2;
[0062] During verification, the data information on carrier 1 is collected and sent to the smart terminal simultaneously by the code data verification unit and at least one of the variable verification units, namely the X-ray analysis verification unit, the light reflection verification unit, and the visual acquisition verification unit. The smart terminal then matches and verifies the collected data with the data in the database unit.
[0063] If a match is found, the verification is successful.
[0064] If the match fails, the verification fails.
[0065] In some possible implementations, the verification includes user verification, law enforcement officer verification, and expert verification;
[0066] During user verification, the code data information is verified by the code data verification unit. At the same time, at least one of the X-ray analysis verification unit, light reflection verification unit, and visual acquisition verification unit collects the data information on carrier 1 and sends it to the smart terminal. The smart terminal matches and verifies the collected data with the data in the database unit.
[0067] If a match is found, the verification is successful.
[0068] If the match fails, the verification fails.
[0069] When law enforcement officers conduct verification, the code data information is verified by the code data verification unit. At the same time, at least one of the X-ray analysis verification unit, light reflection verification unit, and visual acquisition verification unit collects the data information on carrier 1 and sends it to the smart terminal along with the traceability information. The smart terminal then matches and verifies the collected data with the data in the database unit.
[0070] If a match is found, the verification is successful.
[0071] If the match fails, the verification fails.
[0072] During the verification process, the code data verification unit verifies the code data information. At the same time, the variable verification unit collects all the corresponding data information on carrier 1 and sends it to the smart terminal along with the traceability information. The smart terminal then matches and verifies the collected data with the data in the database unit.
[0073] If a match is found, the verification is successful.
[0074] If the match fails, the verification fails.
[0075] Example 1:
[0076] like Figure 1 As shown, a nano-micro layer, an inorganic compound layer 4, and a code data layer 5 are sequentially set in the same area of the carrier 1; the nano-micro layer is printed with ink; the inorganic compound layer 4 and the code data layer 5 are respectively implemented by inkjet printing, and the information of the nano-micro layer, the inorganic compound layer 4, and the code data layer 5 are linked and synchronously stored in the database unit.
[0077] After the product enters the market, consumers can use the verification system to verify any two technical information items and their corresponding relationships. If they match, it is considered a success; otherwise, it is considered a failure.
[0078] Law enforcement officers are authorized to use the verification system to verify the information, traceability information, and corresponding relationships of the nano-micro layer, inorganic compound layer 4, and code data layer 5. A match indicates success, while a mismatch indicates failure. The system also enables anti-counterfeiting identification and traceability query functions.
[0079] The inorganic compound layer 4 contains 0.01% gadolinium nitrate, 0.025% sodium iodide, 0.015% tin chloride, and 99.95% other solvents, including inkjet inks, colorants, solvents, and adhesives.
[0080] Example 2:
[0081] like Figure 2As shown, in the same area of the carrier 1, the hidden pattern layer 2 is printed, the nano-micro layer ink is printed, the inorganic compound layer 4 is printed, and the code data layer 5 is printed in sequence.
[0082] The information from hidden pattern printing, nano-micro layer ink printing, inorganic compound inkjet printing, and code data is linked together and kept synchronously stored in the database unit.
[0083] After the product enters the market, consumers can use the code data verification unit in the verification system to verify the information in the code data. At the same time, the variable verification unit can be used to verify any two technical information and their corresponding relationships among the hidden pattern information, nano-micro layer information, and inorganic compound information. If they match, it is considered a success; otherwise, it is considered a failure.
[0084] Law enforcement officers are authorized to use the code data verification unit in the verification system to verify the information in the code data. At the same time, a variable verification unit is used to verify any three types of technical information, including hidden pattern information, nano-micro layer information, and inorganic compound information, as well as traceability information and their corresponding relationships. If they match, it is considered a success; otherwise, it is considered a failure. This system also enables anti-counterfeiting identification and traceability query functions.
[0085] When conducting verification, the authenticator uses the code data verification unit in the verification system to verify the information in the code data, and at the same time uses the variable verification unit to verify all information in the hidden pattern information, nano-micro layer information, inorganic compound information, traceability information and their corresponding relationships. If they match, it is considered a success; otherwise, it is considered a failure. This system simultaneously realizes the functions of anti-counterfeiting identification and traceability query.
[0086] Different groups of people (users, law enforcement officers, and experts) are granted different permissions by the system when conducting verification; of course, all people can also be given the same permissions when conducting verification, and all data information can be verified.
[0087] In the inorganic compound layer 4, there are 0.01% ammonium nitrate, 0.02% lanthanum nitrate, 0.04% tin chloride, and 99.93% other solvents.
[0088] Example 3:
[0089] like Figure 3 As shown, after the inorganic compound layer 4 and the code data layer 5 are sequentially printed in the same area of the carrier 1, the information of the inorganic compound layer 4 and the code data layer 5 are linked and synchronously stored in the database unit. After the product flows to the market, consumers can use the verification system to verify the information and corresponding relationship of the code data layer 5 and the inorganic compound. If they match, it is a success; otherwise, it is a failure. Law enforcement officers are authorized to use application software to verify the traceability information and corresponding relationship of the two technologies at the same time. If they match, it is a success; otherwise, it is a failure. At the same time, the functions of anti-counterfeiting identification and traceability query are realized.
[0090] In this embodiment, the inorganic compound layer 4 also contains 0.06% tin chloride, 0.02% ferrous nitrate, and 99.92% other solvents.
[0091] Example 4:
[0092] like Figure 4 As shown, after the hidden pattern layer 2 and code data layer 5 are sequentially injection molded onto the substrate surface in the same area of the carrier 1, the information is linked and synchronously stored in the database unit. After the product flows to the market, consumers can use the verification system to verify two of the technical information and their corresponding relationships. If they match, it is considered a success; otherwise, it is considered a failure. Law enforcement officers are authorized to use the application software to verify the three technical information, traceability information, and their corresponding relationships simultaneously. If they match, it is considered a success; otherwise, it is considered a failure. This simultaneously realizes the functions of anti-counterfeiting identification and traceability query.
[0093] In this embodiment, the information in the code data layer 5 is ink containing inorganic compounds; wherein the components of the inorganic compounds are 0.025% lanthanum nitrate, 0.045% tin chloride, 95% inkjet ink, and 4.93% other solvents.
[0094] In this invention, the code data layer 5 and the verification layer are assigned to the same area of the carrier 1, eliminating the need for multiple application software to verify them separately. The verification system verifies them simultaneously, resulting in rapid and accurate detection, strong concealment, and multiple technical verification channels. This makes it difficult for counterfeiters to detect, forge, and detect, greatly improving the counterfeiting difficulty and anti-counterfeiting strength of the technology.
[0095] This invention is not limited to the specific embodiments described above. The invention extends to any new feature or combination disclosed in this specification, as well as any new method or process step or combination disclosed herein.
Claims
1. A multi-channel anti-counterfeiting and traceability technology verification system, characterized in that, The system includes an anti-counterfeiting label disposed in the same area as a carrier, and a verification system for verifying the anti-counterfeiting label. The anti-counterfeiting label comprises a code data layer and a verification layer disposed on the carrier. The verification layer includes at least one of an inorganic compound layer, a micro-layer, and a hidden pattern layer. The verification system includes a data acquisition unit, a smart terminal connected to the data acquisition unit, and a database unit connected to the smart terminal. The data acquisition unit includes a code data verification unit and a variable verification unit. The variable verification unit includes an X-ray analysis verification unit for verifying the inorganic compound layer, a light reflection verification unit for verifying the hidden pattern layer, and a visual acquisition verification unit for verifying the micro-layer. Specifically, the following steps are included: The code data layer information and the verification layer information are associated and bound together, and then associated with the product's production information and product's channel information, and saved to the database unit; the verification layer information includes one or more of the following: the X-ray value of the inorganic compound layer, the information of the micro-layer, and the information of the hidden pattern layer; During verification, the data information on the carrier is collected and sent to the smart terminal simultaneously by the code data verification unit and at least one of the variable verification units, namely the X-ray analysis verification unit, the light reflection verification unit, and the visual acquisition verification unit. The smart terminal then matches and verifies the collected data with the data in the database unit. If a match is found, the verification is successful. If the match fails, the verification fails.
2. The multi-channel anti-counterfeiting and traceability technology verification system according to claim 1, characterized in that, The inorganic compound layer comprises 0.02-0.08% inorganic compounds; the inorganic compounds include one or more of the elements selected from lanthanum, gadolinium, molybdenum, ammonium, iron, neodymium, tin, and sodium.
3. The multi-channel anti-counterfeiting and traceability technology verification system according to claim 2, characterized in that, The anti-counterfeiting label includes a hidden pattern layer injected onto the surface of the carrier and a code data layer disposed on the hidden pattern layer; the code data layer is made by inkjet printing containing inorganic compounds.
4. The multi-channel anti-counterfeiting and traceability technology verification system according to claim 2, characterized in that, The molar ratio of iron to tin is 0.06%:0.2%.
5. The multi-channel anti-counterfeiting and traceability technology verification system according to claim 2, characterized in that, The molar ratio of ammonium, lanthanum, and tin is 0.01%:0.02%:0.04%.
6. The multi-channel anti-counterfeiting and traceability technology verification system according to claim 1, characterized in that, The micro-layer is a nano-micro-layer, comprising a magnetic material layer, a polymer material substrate layer, and a pattern layer stacked sequentially; the magnetic material is disposed on the side closest to the carrier.
7. The multi-channel anti-counterfeiting and traceability technology verification system according to claim 6, characterized in that, The patterned layer comprises several polymer material particles with patterns or in a hollowed-out shape; the size of a single polymer material particle is 5μm-35μm.
8. The multi-channel anti-counterfeiting and traceability technology verification system according to claim 1, characterized in that, The verification includes user verification, law enforcement personnel verification, and expert verification. During user verification, the code data information is verified by the code data verification unit. At the same time, at least one of the X-ray analysis verification unit, light reflection verification unit, and visual acquisition verification unit collects the data information on the carrier and sends it to the smart terminal. The smart terminal matches and verifies the collected data with the data in the database unit. If a match is found, the verification is successful. If the match fails, the verification fails. When law enforcement officers conduct verification, the code data information is verified through the code data verification unit. At the same time, at least one of the X-ray analysis verification unit, light reflection verification unit, and visual acquisition verification unit collects the data information on the carrier and sends it to the smart terminal along with the traceability information. The smart terminal then matches and verifies the collected data with the data in the database unit. If a match is found, the verification is successful. If the match fails, the verification fails. During the verification process, the code data verification unit verifies the code data information, while the variable verification unit collects all the corresponding data information on the carrier and sends it to the smart terminal along with the traceability information. The smart terminal then matches and verifies the collected data with the data in the database unit. If a match is found, the verification is successful. If the match fails, the verification fails.