阅读说明：本技术 超微特征防伪芯片及其生产方法和鉴别方法 (Ultramicro-feature anti-counterfeiting chip and production method and identification method thereof ) 是由 王浩然 于 2021-08-21 设计创作，主要内容包括：本发明公开了一种超微特征防伪芯片,包括基材层、信息层、随机特征物层,该芯片的厚度≤0.1～5毫米,该芯片的正面投影面积≤1～100平方毫米。本发明体积小,可以镶嵌、粘附在产品上或产品的附属物上的合适位置,不影响产品的外观。本发明采用合适的材料和制作工艺,防伪芯片能在恶劣的环境中使用,有良好的耐候性,可以伴随产品生产、流通、使用的全过程,满足长期对产品的真伪鉴别、溯源追踪、数据采集、维护保养等方面的需要。而且,本发明的鉴别方法简单、快速、准确、可靠。本发明克服了现有防伪产品及鉴别方法的缺陷,解决了长期困扰防伪行业的难题,产生了奇妙的效果,为社会的健康有序发展将产生非常积极的作用。(The invention discloses an ultra-micro characteristic anti-counterfeiting chip which comprises a substrate layer, an information layer and a random characteristic layer, wherein the thickness of the chip is less than or equal to 0.1-5 mm, and the front projection area of the chip is less than or equal to 1-100 square mm. The invention has small volume, can be inlaid and adhered on the product or the proper position of the accessory of the product, and does not influence the appearance of the product. The anti-counterfeiting chip can be used in a severe environment by adopting proper materials and a manufacturing process, has good weather resistance, can accompany the whole processes of production, circulation and use of the product, and meets the long-term requirements on the aspects of authenticity identification, traceability tracking, data acquisition, maintenance and the like of the product. Moreover, the identification method is simple, rapid, accurate and reliable. The invention overcomes the defects of the existing anti-counterfeiting product and the identification method, solves the difficult problems which puzzle the anti-counterfeiting industry for a long time, generates wonderful effect and plays a very positive role in the healthy and orderly development of the society.)

1. An ultramicro-feature anti-counterfeiting chip comprises a substrate layer (1), an information layer (2) and a random feature layer (3), and is characterized in that: the thickness of the chip is less than or equal to 0.1-5 mm, and the front projection area of the chip is less than or equal to 1-100 square mm.

2. The ultra-low feature security chip of claim 1, wherein: the front projection shape of the chip is circular or polygonal.

3. The ultra-low feature security chip of claim 1, wherein: the substrate layer (1) is a glass layer, an acrylic layer, a plastic layer, a ceramic layer or a flexible material layer.

4. The ultra-low feature security chip of claim 1, wherein: the chip also comprises one or more layers of a release gloss oil layer, a substrate protective layer, an adhesive layer and a release paper layer.

5. The ultra-low feature security chip of claim 1, wherein: the chip is inlaid or adhered on the product or the accessory of the product.

6. A production method of an ultra-micro characteristic anti-counterfeiting chip is characterized in that: the method comprises the following steps:

A. selecting a base material, manufacturing a plurality of anti-counterfeiting chips on the base material, and generating an information layer and a random feature layer on each chip, wherein the information layer is provided with all related information, and the random feature layer is provided with random feature information;

B. collecting various information and random feature information on each chip from a base material with a plurality of chips by using a high-resolution digital camera to ensure that all fine information on each chip can be clearly collected, then carrying out feature extraction, operation and related relevant processing on the information and the random feature information on each chip, and storing the required relevant information into an anti-counterfeiting identification server system for anti-counterfeiting identification and other services;

C. and cutting the base material with the plurality of chips to form a single anti-counterfeiting chip.

7. The method for identifying an ultra-micro characteristic security chip produced according to the method of claim 6, wherein: adopt can pass through bluetooth or WIFI or data line through the digital high definition electron microscope of wireless or wired mode with the cell-phone be connected, can be close to anti-fake chip's surface with the front end of microscope, the focus is adjusted to the image clarity, amplifies image information transmission to the cell-phone with the high definition of chip, can with the special authentication procedure cooperation on the cell-phone, for example: the special APP, WeChat and WeChat small programs utilize a special identification program installed in the mobile phone to collect, extract, calculate and associate the information on the anti-counterfeiting chip and the random characteristic information, transmit the required relevant information to the anti-counterfeiting identification server system for identification, and display the identification result on the screen of the mobile phone.

8. A production method of an ultra-micro characteristic anti-counterfeiting chip is characterized in that: the method comprises the following steps:

A. selecting a base material, manufacturing a plurality of anti-counterfeiting chips on the base material, and generating partial information and a random feature layer of an information layer on each chip, wherein the random feature layer has random feature information;

B. clearly shooting the random feature information and the partial information on each chip by using a high-resolution digital camera, and then carrying out acquisition, feature extraction and operation on the random feature information and the related partial information in the designated area on each chip to generate associated authentication information;

C. the associated authentication information is used as the other part of the information layer to be manufactured to the appointed position of each corresponding anti-counterfeiting chip information layer, then a high-resolution digital camera is used for clearly shooting various information including random feature information and associated authentication information collected on each chip, and the required related information is stored in an anti-counterfeiting identification server system for anti-counterfeiting identification and other services;

D. and cutting the base material with the plurality of chips to form a single anti-counterfeiting chip.

9. The method for identifying an ultra-micro characteristic security chip produced according to the method of claim 8, wherein: adopt can pass through bluetooth or WIFI or data line through the digital high definition electron microscope of wireless or wired mode with the cell-phone be connected, can be close to anti-fake chip's surface with the front end of microscope, the focus is adjusted to the image clarity, transmits the high definition image information of chip to the cell-phone, with the special identification procedure cooperation on the cell-phone, for example: the special APP, WeChat and WeChat small programs utilize a special identification program installed in the mobile phone to collect, extract features, analyze, calculate and compare various information on the anti-counterfeiting chip, and the information is identified by the mobile phone itself, or the required related information on the anti-counterfeiting chip is transmitted to an anti-counterfeiting identification server system through the mobile phone to be identified, and the identification result is displayed on a screen of the mobile phone.

Technical Field

The invention relates to an ultra-micro characteristic anti-counterfeiting chip which is suitable for anti-counterfeiting industry.

Background

The existing anti-counterfeiting products are usually manufactured into labels and are stuck on products or packing materials, the area is generally larger than 1 square centimeter, and anti-counterfeiting marks containing random characteristics are usually identified by acquiring mark images through a mobile phone camera. Such a label form and authentication method have the following problems:

firstly, labels are often incompatible with products or packages, so that the attractiveness is affected, and some products cannot be used by being stuck with labels; secondly, the effective service cycle of the label is short, the adaptability and the weather resistance to severe environment are poor, the label is often stained after the product is used and cannot be identified and used, and the requirement that a user wants to identify the product for a long time and track, maintain and obtain information cannot be met; thirdly, the identification of the anti-counterfeit label containing the random feature usually needs to obtain and identify the fine anti-counterfeit feature in the label, such as: the size of fine features on some anti-counterfeiting labels is usually smaller than 0.05 mm or even lower, and the fine feature images on the anti-counterfeiting labels are obtained by a mobile phone camera and are identified, so that the anti-counterfeiting labels are inconvenient and unreliable in practical use. Because the mobile phone camera needs to have higher resolution and macro imaging quality to acquire the fine random feature image, the existing mobile phones have numerous brands and models, and the imaging quality of the camera is uneven, so that it is impossible to ensure that each mobile phone can acquire clear and accurate fine feature images during identification. Even if the same mobile phone has very good imaging quality, different users can not shoot the same anti-counterfeit label under different light rays, distances, angles and hand-held stability, and the clear and accurate image can not be obtained during each authentication. The fine features in the acquired image are difficult to avoid fuzzy and unclear, and some fine features even losing the features or the feature images are distorted, so that accurate results cannot be ensured to be obtained in each identification, true identification can be identified as false, false identification can be identified as true, or the identification result cannot be obtained, which is a fatal defect for anti-counterfeiting identification and can generate negative effects, and the anti-counterfeiting method established on the basis is unreliable and does not meet the requirements of the anti-counterfeiting industry.

Disclosure of Invention

The invention aims to provide an ultra-micro characteristic anti-counterfeiting chip to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an ultramicro-feature anti-counterfeiting chip comprises a substrate layer, an information layer and a random feature layer, wherein the thickness of the chip is less than or equal to 0.1-5 mm, and the front projection area of the chip is less than or equal to 1-100 square mm.

The invention is further improved in that: the front projection shape of the chip is circular or polygonal.

The invention is further improved in that: the substrate layer is a glass layer or an acrylic layer or a plastic layer or a ceramic layer or a flexible material layer.

The invention is further improved in that: the chip also comprises one or more layers of a release gloss oil layer, a substrate protective layer, an adhesive layer and a release paper layer.

The invention is further improved in that: the chip is inlaid or adhered on the product or the accessory of the product.

A production method of an ultra-micro characteristic anti-counterfeiting chip comprises the following steps:

A. selecting a base material, manufacturing a plurality of anti-counterfeiting chips on the base material, and generating an information layer and a random feature layer on each chip, wherein the information layer is provided with all related information, and the random feature layer is provided with random feature information;

B. collecting various information and random feature information on each chip from a base material with a plurality of chips by using a high-resolution digital camera to ensure that all fine information on each chip can be clearly collected, then carrying out feature extraction, operation and related relevant processing on the information and the random feature information on each chip, and storing the required relevant information into an anti-counterfeiting identification server system for anti-counterfeiting identification and other services;

C. and cutting the base material with the plurality of chips to form a single anti-counterfeiting chip.

The identification method of the ultramicro-feature anti-counterfeiting chip produced by the method adopts a digital high-definition electron microscope which can be connected with a mobile phone through Bluetooth or WIFI or a data line in a wireless or wired mode, can enable the front end of the microscope to be close to the surface of the anti-counterfeiting chip, adjust the focal length until the image is clear, transmit the high-definition amplified image information of the chip to the mobile phone, and can be matched with a special identification program on the mobile phone, such as: the special APP, WeChat and WeChat small programs utilize a special identification program installed in the mobile phone to collect, extract, calculate and associate the information on the anti-counterfeiting chip and the random characteristic information, transmit the required relevant information to the anti-counterfeiting identification server system to identify by a set corresponding method, and display the identification result on the screen of the mobile phone.

A production method of an ultra-micro characteristic anti-counterfeiting chip comprises the following steps:

A. selecting a base material, manufacturing a plurality of anti-counterfeiting chips on the base material, and generating partial information and a random feature layer of an information layer on each chip, wherein the random feature layer has random feature information;

B. clearly shooting the random feature information and the partial information on each chip by using a high-resolution digital camera, and then carrying out acquisition, feature extraction and operation on the random feature information and the related partial information in the designated area on each chip to generate associated authentication information;

C. the associated authentication information is used as the other part of the information layer to be manufactured to the appointed position of each corresponding anti-counterfeiting chip information layer, then a high-resolution digital camera is used for clearly shooting various information including random feature information and associated authentication information collected on each chip, and the required related information is stored in an anti-counterfeiting identification server system for anti-counterfeiting identification and other services;

D. and cutting the base material with the plurality of chips to form a single anti-counterfeiting chip.

The identification method of the ultramicro-feature anti-counterfeiting chip produced by the method adopts a digital high-definition electron microscope which can be connected with a mobile phone through Bluetooth or WIFI or a data line in a wireless or wired mode, can enable the front end of the microscope to be close to the surface of the anti-counterfeiting chip, adjust the focal length until the image is clear, transmit the high-definition image information of the chip to the mobile phone, and cooperate with a special identification program on the mobile phone, such as: the special APP, WeChat and WeChat small programs utilize a special identification program installed in the mobile phone to collect, extract features, analyze, calculate and compare various information on the anti-counterfeiting chip, and the information is identified by the mobile phone itself, or the required related information on the anti-counterfeiting chip is transmitted to an anti-counterfeiting identification server system through the mobile phone to be identified, and the identification result is displayed on a screen of the mobile phone.

Compared with the prior art, the invention has the beneficial effects that:

the invention has small volume, can be inlaid and adhered on the product or the proper position of the accessory of the product,

does not affect the appearance of the product. The anti-counterfeiting chip can be used in a severe environment by adopting proper materials and a manufacturing process, has good weather resistance, can accompany the whole processes of production, circulation and use of the product, and meets the long-term requirements on the aspects of authenticity identification, traceability tracking, data acquisition, maintenance and the like of the product. Moreover, the identification method is simple, rapid, accurate and reliable.

The invention overcomes the defects of the existing anti-counterfeiting product and the identification method, solves the difficult problems which puzzle the anti-counterfeiting industry for a long time, generates wonderful effect and plays a very positive role in the healthy and orderly development of the society.

Drawings

FIG. 1 is a schematic structural view of the present invention;

reference numbers in the figures: 1-substrate layer, 2-information layer, 3-random characteristic layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

The embodiment provides a technical scheme: an ultramicro-feature anti-counterfeiting chip comprises a substrate layer 1, an information layer 2 and a random feature layer 3, wherein the thickness of the chip is less than or equal to 0.1-5 mm, and the front projection area of the chip is less than or equal to 1-100 square mm.

Specifically, the method comprises the following steps: less than or equal to 100 square millimeters or less than or equal to 64 square millimeters or less than or equal to 36 square millimeters or less than or equal to 16 square millimeters or less than or equal to 9 square millimeters or less than or equal to 4 square millimeters or less than or equal to 1 square millimeter. The front projection shape plane of the chip is a circle or a polygon or any suitable shape.

The best scheme is as follows: the front projection shape of the chip is square, and the area of the square is less than or equal to 10 mm multiplied by 10 mm or less than or equal to 8 mm multiplied by 8 mm or less than or equal to 6 mm multiplied by 6 mm or less than or equal to 4 mm multiplied by 4 mm or less than or equal to 3 mm multiplied by 3 mm or less than or equal to 2 mm multiplied by 2 mm or less than or equal to 1 mm multiplied by 1 mm.

The substrate may be glass, acrylic, plastic, ceramic, flexible material, or other suitable material.

One or more layers of a release gloss oil layer, a substrate protective layer, an adhesive layer and a release paper layer can be added according to the requirement, the mutual positions of the substrate layer, the information layer, the random characteristic layer, the release gloss oil layer and the like can be flexibly changed according to different material characteristics, manufacturing processes and application methods.

The invention has small volume, can be inlaid and adhered to a proper position of a product or a product accessory, and does not influence the appearance of the product.

The anti-counterfeiting chip can be used in a severe environment by adopting proper materials and a manufacturing process, has good weather resistance, can accompany the whole processes of production, circulation and use of the product, and meets the long-term requirements on the aspects of authenticity identification, traceability tracking, data acquisition, maintenance and the like of the product. Various micro information and random feature information on each chip can be acquired by adopting a high-resolution digital camera, so that various fine information on each chip can be clearly acquired, then the micro information and the random feature information on each chip are subjected to feature extraction, operation, association and other processing according to a set method, and are stored in an anti-counterfeiting identification server system for anti-counterfeiting identification and other services; or acquiring information such as a high-definition image, a unique serial number and the like of each chip, associating the information, and storing the information into an anti-counterfeiting identification server system for anti-counterfeiting identification and other services; or acquiring the high-definition image of each chip, and directly transmitting and storing the high-definition image to an anti-counterfeiting identification server system without any processing for anti-counterfeiting identification and other services.

The identification method of the invention is simple, rapid, accurate and reliable. The anti-counterfeiting identification method comprises the following steps: adopt digital electron microscope to acquire the high definition on the anti-fake chip and enlarge the image, ensure to accurately, clearly, acquire various information on the label completely, then transmit for the cell-phone, with the special authentication procedure cooperation on the cell-phone, for example: special APP, WeChat small programs and the like are identified by the mobile phone or information is transmitted to the anti-counterfeiting identification server system for identification through the mobile phone.

The first embodiment is as follows:

1. selecting coated glass with the thickness of less than or equal to 0.5 mm as a substrate for manufacturing the ultramicro random characteristic anti-counterfeiting chip, wherein each piece of glass can be provided with a plurality of chips, the size of each chip is less than or equal to 2 mm multiplied by 2 mm, and a micro information layer is generated on the surface of each chip glass substrate, which is coated with a film, by using the processes of laser photoetching, high-precision printing and the like, for example: information code, trademark character pattern, frame, line, identification indication symbol, etc. The information code can be anti-counterfeiting traceability query website, query sequence code, query logistics traceability code and the like related to the label or the product. Can be represented by a suitable information coding expression mode such as a one-dimensional bar code, a two-dimensional bar code, letters, numbers and the like. In this embodiment, the thickness of the frame line is not greater than 0.02 mm, the size of the two-dimensional code is not greater than 1 mm × 1 mm, and other information is manufactured in a size with a similar proportion.

2. The back surface of the information layer is coated with the separation gloss oil layer, so that the substrate layer, the information layer, the random characteristic layer and the like can be separated if the anti-counterfeiting chip is taken down by external force after the anti-counterfeiting chip is embedded or adhered on a product in future, and the anti-counterfeiting chip is prevented from being integrally transferred for use.

3. And (3) generating a random feature layer on the back surface of the separated gloss oil layer by using processes such as spraying, coating, silk-screen printing and the like, wherein the random feature layer refers to substances which have obvious external features and are difficult to reproduce, such as tiny particles, filaments, strips, blocks, powder, cracks, bubbles, burrs, scratches and the like generated by liquid infiltration and diffusion. Taking the micro-particles as an example, the diameter of the micro-particles is less than or equal to about 0.03 mm.

4. A substrate protection layer is formed on the back surface of the random feature layer by using processes such as spraying, printing and the like, and black ink is adopted as the substrate protection layer in the embodiment. The substrate protective layer can prevent unpredictable interference information from occurring on the back surface of the chip when the chip is combined with a product, so that the chip can obtain various miniature information and characteristic information with sharp contrast from the front surface during identification, and various information on the back surface of the chip substrate can be protected.

5. And coating adhesive materials such as non-setting adhesive and the like on the back surface of the substrate protection layer to form an adhesive layer, and then coating a release paper layer on the back surface of the adhesive layer. The release paper layer is torn and the chip may be adhered to the product or an appendage of the product by the adhesive material.

6. Collecting various micro information and random feature information on each chip from the front surface of glass with a plurality of chips by using a high-resolution digital camera to ensure that various fine information on each chip can be clearly collected, then carrying out feature extraction, operation, association and other processing on the micro information and the random feature information on each chip according to a set method, and storing required information into an anti-counterfeiting identification server system for anti-counterfeiting identification and other services; or acquiring information such as a high-definition image, a unique serial number and the like of each chip, associating the information, and storing the information into an anti-counterfeiting identification server system for anti-counterfeiting identification and other services; or acquiring the high-definition image of each chip, and directly transmitting and storing the high-definition image to an anti-counterfeiting identification server system without any processing for anti-counterfeiting identification and other services.

7. And cutting the glass with a plurality of chips to form a single anti-counterfeiting chip.

8. The digital electron microscope that has high definition 200 ten thousand pixels, can enlarge 1000 times, can be connected with the cell-phone through wireless or wired modes such as bluetooth or WIFI or data line during the authentication of this embodiment, can lean on the front end of microscope on the product surface of inlaying the anti-fake chip, and the focus is adjusted to the image clarity, with the high definition of chip enlargies image information transmission to the cell-phone, can with the special identification procedure cooperation on the cell-phone, for example: special APP, WeChat applet and the like, utilize a special identification program installed in the mobile phone to perform feature extraction, operation, association and other processing on the micro information and the random feature information on the anti-counterfeiting chip according to a set method, transmit the required related information to an anti-counterfeiting identification server system, and perform comparison and other identification by using a set corresponding method; or acquiring a high-definition image of each chip and the unique serial number on the chip through a mobile phone, and transmitting the related information to an anti-counterfeiting identification server system for identification such as comparison by a set corresponding method; or the high-definition image of each chip is acquired through the mobile phone without any processing, and the high-definition image is directly transmitted to the anti-counterfeiting identification server system to be compared by a set corresponding method for identification and the like. Through the different identification methods, or the authenticity of the product and the related information of the product can be directly obtained, and the identification result is displayed on a screen of the mobile phone; or the corresponding chip high-definition image originally stored in the anti-counterfeiting identification server can be called out and displayed on a mobile phone screen according to the information such as the unique serial number on the anti-counterfeiting chip, and the identifier compares the chip high-definition image with the chip high-definition image to see whether the chip high-definition image is consistent so as to identify the authenticity.

In this embodiment: the thickness and size of the glass material and the size and shape of the anti-counterfeiting chip can be adjusted according to actual conditions, and the chip substrate can be transparent glass, or can be suitable materials such as transparent acrylic, plastic and the like; the glass can be a coated material or an uncoated material, and the coated material can be aluminum plated or other coated materials or other colored or colorless coated materials; the thickness of the frame line, the size of the two-dimensional code and the type of the random feature can be set according to actual needs; the features can be randomly distributed on the whole chip glass or in the designated area of the chip glass; a separation gloss oil layer can be added between related layers of the chip according to requirements or not; the substrate protective layer, the adhesive layer and the release paper layer can be increased or not increased according to the requirement; the substrate protective layer may be black or other suitable colors including transparent; the adhesive layer may be either complete or partial as required; the mutual positions of the substrate layer, the information layer, the random characteristic layer, the separation gloss oil layer and the like can be flexibly changed according to different material characteristics, manufacturing processes and application modes; the electronic digital microscope can also be a digital electronic microscope with other suitable pixels and multiplying power; the anti-counterfeiting identification result can be true and false information, and can also comprise logistics traceability or image information and other information.

Example two:

1. the coated glass with the thickness of less than or equal to 0.3 mm is selected as a substrate for manufacturing the ultramicro random characteristic anti-counterfeiting chip, a plurality of chips can be manufactured on each piece of glass, the size of each chip is less than or equal to 3 mm multiplied by 3 mm, and the side, which is not coated with the film, of the glass substrate is coated with the separation gloss oil layer, so that the substrate layer can be separated from the separation gloss oil layer and the random characteristic layer and the like behind the separation gloss oil layer after the anti-counterfeiting chip is embedded or adhered on a product in future, and the anti-counterfeiting chip is prevented from being integrally transferred for use.

2. The random characteristic substance layer is generated on the separated gloss oil layer by spraying, coating, silk-screen printing and other processes, and the random characteristic substance refers to substances and forms which have obvious external characteristics and are difficult to reproduce, such as tiny particles, filaments, strips, powders, cracks, bubbles, burrs generated by liquid infiltration and diffusion, scratches and the like. Taking the micro-particles as an example, the diameter of the micro-particles is less than or equal to about 0.02 mm.

3. A substrate protection layer is formed on the back surface of the random feature layer by using processes such as spraying, printing and the like, and the dark ink is used as the substrate protection layer in the embodiment.

4. The method comprises the following steps of taking the surface of a glass substrate with a coating as a front surface, and firstly generating partial information of an information layer on the front surface of the glass substrate by processes such as laser photoetching, high-precision printing and the like according to needs, wherein the partial information comprises the following steps: trademark characters and patterns, frames, lines, identification symbols, inquiry websites, blank areas and the like. Then clearly shooting and collecting the random characteristic information and the part information on each chip from the front side of the chip glass by using a high-resolution digital camera, extracting and operating the random characteristic information and the related part information of the designated area on each chip according to a set method to generate associated authentication information, printing the associated authentication information as the other part of an information layer to the designated position of each corresponding anti-counterfeiting chip by using the processes of laser lithography, high-precision printing and the like, expressing the associated authentication information by using a suitable information coding expression mode such as a one-dimensional bar code, a two-dimensional bar code, letters, numbers and the like, clearly shooting and collecting the random characteristic information and the associated authentication information and the like on each chip from the front side of the chip glass by using the high-resolution digital camera, and storing the required related information into an anti-counterfeiting identification server system for anti-counterfeiting identification and other service and the like And (5) transaction.

5. And cutting the glass with a plurality of chips to form a single anti-counterfeiting chip.

6. The digital electron microscope that has high definition 200 ten thousand pixels during the anti-fake discernment of this embodiment, can enlarge 1000 times, can be connected with the cell-phone through wireless or wired modes such as bluetooth or WIFI or data line, can lean on the front end of microscope on inlaying the product surface that has anti-fake chip, and the focus is adjusted to the image clarity, transmits the high definition image information of chip to the cell-phone, with the special authentication procedure cooperation on the cell-phone, for example: special APP, WeChat small programs and the like are used for carrying out extraction, analysis, calculation, comparison and other processing on various information on the anti-counterfeiting chip by the same method during manufacturing, and the identification is carried out by the mobile phone; or the related information on the anti-counterfeiting chip is transmitted to the anti-counterfeiting identification server system through the mobile phone by the method for identification by a set method, and the identification result is displayed on the screen of the mobile phone.

Example three:

1. the transparent glass with the thickness of less than or equal to 0.4 mm is selected as a substrate for manufacturing the ultramicro random-feature anti-counterfeiting chip, a plurality of chips can be manufactured on each piece of glass, the size of each chip is less than or equal to 2 mm multiplied by 1.5 mm, and the back surface of the glass substrate is coated with the separation gloss oil layer, so that after the anti-counterfeiting chip is embedded or adhered on a product in future, if the anti-counterfeiting chip is taken down by external force, the substrate layer can be separated from the separation gloss oil layer and the random-feature layer behind the substrate layer, and the anti-counterfeiting chip is prevented from being integrally transferred for use.

2. The random characteristic substance layer is generated on the separated gloss oil layer by spraying, coating, silk-screen printing and other processes, and the random characteristic substance is a substance and a form which have obvious external characteristics and are difficult to reproduce, such as randomly distributed particles, filaments, strips, blocks, powder, cracks, bubbles, burrs generated by liquid infiltration and diffusion, scratches and the like. Taking the micro-particles as an example, the diameter of the micro-particles is less than or equal to about 0.02 mm.

3. A substrate protection layer is formed on the back surface of the random feature layer by using processes such as spraying, printing and the like, and black ink is adopted as the substrate protection layer in the embodiment.

4. Partial information of the information layer is generated by laser engraving and other processes on the inner part of the glass substrate as required, such as: trademark characters and patterns, frames, lines, identification symbols, inquiry websites and the like. Then clearly shooting the random feature information and other information collected on each chip from the front surface of the chip glass by using a high-resolution digital camera, then extracting and calculating the random characteristic information and related partial information of the appointed area on each chip according to a set method to generate associated authentication information, and the associated authentication information is printed to the designated position inside each corresponding anti-counterfeiting chip glass substrate as the other part of the information layer by using the processes of laser engraving and the like, the associated authentication information can be represented by a suitable information coding expression mode such as a one-dimensional bar code, a two-dimensional bar code, letters, numbers and the like, then clearly shooting various information such as random feature information and associated information on each chip from the front side of the chip glass by using a high-resolution digital camera, the required information can be stored in the anti-counterfeiting authentication server system for anti-counterfeiting authentication and other services.

5. And cutting the glass with a plurality of chips to form a single anti-counterfeiting chip.

6. The digital electron microscope that has high definition 200 ten thousand pixels during the anti-fake discernment of this embodiment, can enlarge 1000 times, can be connected with the cell-phone through wireless or wired modes such as bluetooth or WIFI or data line, can lean on the front end of microscope on inlaying the product surface that has anti-fake chip, and the focus is adjusted to the image clarity, transmits the high definition image information of chip to the cell-phone, with the special authentication procedure cooperation on the cell-phone, for example: special APP, WeChat small programs and the like are used for carrying out extraction, analysis, calculation, comparison and other processing on various information on the anti-counterfeiting chip by the same method during manufacturing, and the identification is carried out by the mobile phone; or the related information on the anti-counterfeiting chip is transmitted to the anti-counterfeiting identification server system through the mobile phone by the method for identification by a set method, and the identification result is displayed on the screen of the mobile phone.

Example four:

1. transparent glass with the thickness of less than or equal to 0.3 mm is selected as a substrate for manufacturing the ultramicro random-feature anti-counterfeiting chip, a plurality of chips can be manufactured on each piece of glass, and the size of each chip is less than or equal to 3 mm multiplied by 2 mm.

2. Selecting a transparent film and generating various micro information on the transparent film by using the processes of laser photoetching, high-precision printing and the like to form an information layer, such as: information code, trademark characters and patterns, frame, line, identification symbol, etc. The information code can be anti-counterfeiting traceability query website, query sequence code, query logistics traceability code and the like related to the label or the product. Can be represented by a suitable information coding expression mode such as a one-dimensional bar code, a two-dimensional bar code, letters, numbers and the like. In this embodiment, the thickness of the frame line is not greater than 0.02 mm, the two-dimensional code is not greater than 1.5 mm × 1.5 mm, other information is produced in a size of a similar proportion, and then the printed film is coated on the reverse side of the glass substrate.

3. The transparent film is coated with the light oil separating layer, so that the film layer can be separated from the light oil separating layer and the random characteristic layer behind the light oil separating layer if the anti-counterfeiting chip is taken off by external force after being embedded or adhered on a product in future, and the anti-counterfeiting chip is prevented from being integrally transferred for use.

4. The random characteristic substance layer is generated on the separated gloss oil layer by spraying, coating, silk-screen printing and other processes, and the random characteristic substance refers to substances and forms which have obvious external characteristics and are difficult to reproduce, such as tiny particles, filaments, strips, powders, cracks, bubbles, burrs generated by liquid infiltration and diffusion, scratches and the like. Taking the micro-particles as an example, the diameter of the micro-particles is less than or equal to about 0.02 mm.

5. A substrate protection layer is formed on the back surface of the random feature layer by using processes such as spraying, printing and the like, and black ink is adopted as the substrate protection layer in the embodiment.

6. Collecting various micro information and random feature information on each chip from the front surface of glass with a plurality of chips by using a high-resolution digital camera to ensure that various fine information on each chip can be clearly collected, then carrying out feature extraction, operation, association and other processing on the micro information and the random feature information on each chip according to a set method, and storing the micro information and the random feature information in an anti-counterfeiting identification server system for anti-counterfeiting identification and other services; or acquiring information such as a high-definition image, a unique serial number and the like of each chip, associating the information, and storing the information into an anti-counterfeiting identification server system for anti-counterfeiting identification and other services; or acquiring the high-definition image of each chip, and directly transmitting and storing the high-definition image to an anti-counterfeiting identification server system without any processing for anti-counterfeiting identification and other services.

7. And cutting the glass with a plurality of chips to form a single anti-counterfeiting chip.

8. The digital electron microscope that has high definition 200 ten thousand pixels during the anti-fake discernment of this embodiment, can enlarge 1000 times, can be connected with the cell-phone through wireless or wired modes such as bluetooth or WIFI or data line, can lean on the front end of microscope on inlaying the product surface that has anti-fake chip, and the focus is adjusted to the image clarity, transmits the high definition image information of chip to the cell-phone, with the special authentication procedure cooperation on the cell-phone, for example: special APP, WeChat applet and the like, utilize a special identification program installed in the mobile phone to perform feature extraction, operation, association and other processing on the micro information and the random feature information on the anti-counterfeiting chip according to a set method, and transmit the related information to an anti-counterfeiting identification server system for comparison and other identification by a set corresponding method; or acquiring a high-definition image of each chip and the unique serial number on the chip through a mobile phone, and transmitting the related information to an anti-counterfeiting identification server system for identification such as comparison by a set corresponding method; or the high-definition image of each chip is acquired through the mobile phone without any processing, and the high-definition image is directly transmitted to the anti-counterfeiting identification server system to be compared by a set corresponding method for identification and the like. By the different identification methods, some can directly obtain the authenticity of the product and the related information of the product, and the identification result is displayed on the screen of the mobile phone; some of the anti-counterfeiting identification servers can call out corresponding chip high-definition images originally stored in the anti-counterfeiting identification servers according to information such as unique serial numbers on the anti-counterfeiting chips and the like, and display the chip high-definition images on a mobile phone screen, and an identifier compares the chip high-definition images to see whether the chip high-definition images are consistent or not so as to identify authenticity.

Example five:

1. the flexible material with the thickness of less than or equal to 0.5 mm is selected as a base material for manufacturing the ultramicro random feature anti-counterfeiting chip, a plurality of chips can be manufactured on the base material, the size of each chip is less than or equal to 3 mm multiplied by 3 mm, and a stripping gloss oil layer is coated on one surface of the base material, so that the base material layer, the stripping gloss oil layer, the random feature layer behind the stripping gloss oil layer and the like can be stripped as necessary.

2. The random characteristic substance layer is generated on the separated gloss oil layer by spraying, coating, silk-screen printing and other processes, and the random characteristic substance refers to substances and forms which have obvious external characteristics and are difficult to reproduce, such as tiny particles, filaments, strips, powders, cracks, bubbles, burrs generated by liquid infiltration and diffusion, scratches and the like. Taking the micro-particles as an example, the diameter of the micro-particles is less than or equal to about 0.03 mm.

3. And generating various kinds of micro information on the random characteristic layer by using the processes of laser photoetching, high-precision printing and the like, such as: information code, trademark characters and patterns, frame, line, identification symbol, etc. The information code can be anti-counterfeiting traceability query website, query sequence code, query logistics traceability code and the like related to the label or the product. Can be represented by a suitable information coding expression mode such as a one-dimensional bar code, a two-dimensional bar code, letters, numbers and the like. In this embodiment, the thickness of the frame line is not greater than 0.02 mm, the two-dimensional code is not greater than 2 mm × 2 mm, and other information is manufactured in a size with a similar proportion. If necessary, the random characteristic layer can be coated with transparent gloss oil firstly or the information layer can be coated with transparent gloss oil or a transparent material is coated.

4. Collecting various micro information and random feature information on each chip from the side with the information layer made of a plurality of chip materials by using a high-resolution digital camera to ensure that various fine information on each chip can be clearly collected, then carrying out feature extraction, operation, association and other processing on the micro information and the random feature information on each chip according to a set method, and storing required information into an anti-counterfeiting identification server system for anti-counterfeiting identification and other services; or acquiring information such as a high-definition image, a unique serial number and the like of each chip, associating the information, and storing the information into an anti-counterfeiting identification server system for anti-counterfeiting identification and other services; or acquiring the high-definition image of each chip, and directly transmitting and storing the high-definition image to an anti-counterfeiting identification server system without any processing for anti-counterfeiting identification and other services.

5. And cutting the flexible base material with the plurality of chips to form a single anti-counterfeiting chip. When in use, one surface of the chip with the base material is embedded or adhered to a product; the other side of the chip can be embedded or adhered to the product downwards, if the base material is made of opaque material, the base material layer can be removed after the chip is embedded or adhered to the product or other positions, and the information of the chip is revealed, so that the chip identification is facilitated.

6. The utility model provides an anti-fake chip is distinguished with having high definition 1080P pixel, can enlarge 1000 times, can pass through the digital electron microscope that wireless or wired modes such as bluetooth or WIFI or data line are connected with the cell-phone, can lean on the front end of microscope on inlaying the product surface that has anti-fake chip, and it is clear to adjust focus to the image, amplifies image information transmission to the cell-phone with the high definition of chip, can with the special identification procedure cooperation on the cell-phone, for example: special APP, WeChat applet and the like, utilize a special identification program installed in the mobile phone to perform feature extraction, operation, association and other processing on the micro information and the random feature information on the anti-counterfeiting chip according to a set method, and transmit the related information to an anti-counterfeiting identification server system for comparison and other identification by a set corresponding method; or acquiring a high-definition image of each chip and the unique serial number on the chip through a mobile phone, and transmitting the related information to an anti-counterfeiting identification server system for identification such as comparison by a set corresponding method; or the high-definition image of each chip is acquired through the mobile phone without any processing, and the high-definition image is directly transmitted to the anti-counterfeiting identification server system to be compared by a set corresponding method for identification and the like. By the different identification methods, some can directly obtain the authenticity of the product and the related information of the product, and the identification result is displayed on the screen of the mobile phone; some of the anti-counterfeiting identification servers can call out corresponding chip high-definition images originally stored in the anti-counterfeiting identification servers according to information such as unique serial numbers on the anti-counterfeiting chips and the like, and display the chip high-definition images on a mobile phone screen, and an identifier compares the chip high-definition images to see whether the chip high-definition images are consistent or not so as to identify authenticity.

In this embodiment: the thickness and size of the flexible base material and the size and shape of the anti-counterfeiting chip can be adjusted according to actual conditions; after the anti-counterfeiting chip is manufactured on the flexible substrate, the flexible substrate can be covered on materials such as glass and the like to be cut into single anti-counterfeiting chips; the substrate may be of any suitable material, and rigid materials may also be used if desired; the substrate may be opaque or transparent; the mutual positions of the random characteristic layer and the micro information layer can be interchanged according to the process and application requirements; the thickness of the frame line, the size of the two-dimensional code and the size of the random feature can be set according to actual needs; an adhesive layer and a release paper layer can be added on one surface with the base material or one surface with the information layer according to the requirement, and the adhesive layer can be local according to the requirement; the electronic digital microscope can also be a digital electronic microscope with other suitable pixels and multiplying power, and the anti-counterfeiting identification result can be true and false information and can also contain information such as logistics traceability and the like.

Example six:

1. a plastic material is selected, and micro particles, filaments and other characteristic substances with obvious external characteristics are mixed in the molten plastic material according to a required proportion to form a chip base material with a required thickness, so that a certain amount of characteristic substances which are randomly distributed can be seen from the surface of the plastic base material. The size of each chip is less than or equal to 3 mm multiplied by 3 mm, and the base material layer, the stripping gloss oil layer and the information layer behind the stripping gloss oil layer can be stripped if necessary by coating the stripping gloss oil layer on one surface of the base material.

2. Various kinds of micro information are generated on the plastic base material by using the processes of laser photoetching, high-precision printing and the like, such as: information code, trademark characters and patterns, frame, line, identification symbol, etc. The information code can be anti-counterfeiting traceability query website, query sequence code, query logistics traceability code and the like related to the label or the product. Can be represented by a suitable information coding expression mode such as a one-dimensional bar code, a two-dimensional bar code, letters, numbers and the like. In this embodiment, the thickness of the frame line is not greater than 0.02 mm, the two-dimensional code is not greater than 1 mm × 1 mm, and other information is manufactured in a size with a similar proportion.

3. Collecting various micro information and random feature information on each chip from the front surface of glass with a plurality of chips by using a high-resolution digital camera to ensure that various fine information on each chip can be clearly collected, then carrying out feature extraction, operation, association and other processing on the micro information and the random feature information on each chip according to a set method, and storing the micro information and the random feature information in an anti-counterfeiting identification server system for anti-counterfeiting identification and other services; or acquiring information such as a high-definition image, a unique serial number and the like of each chip, associating the information, and storing the information into an anti-counterfeiting identification server system for anti-counterfeiting identification and other services; or acquiring the high-definition image of each chip, and directly transmitting and storing the high-definition image to an anti-counterfeiting identification server system without any processing for anti-counterfeiting identification and other services.

4. And cutting the plastic material with a plurality of chips to form a single anti-counterfeiting chip.

5. The anti-fake chip of this embodiment is used when discerning has high definition 200 ten thousand pixels, can enlarge 1000 times, can lean on the front end of microscope at the product surface of inlaying the anti-fake chip through the digital electron microscope that wireless or wired modes such as bluetooth or WIFI or data line are connected with the cell-phone, and it is clear to adjust the focus to the image, with the high definition amplification image information transmission of chip to the cell-phone, can with the special identification procedure cooperation on the cell-phone, for example: special APP, WeChat applet and the like, utilize a special identification program installed in the mobile phone to perform feature extraction, operation, association and other processing on the micro information and the random feature information on the anti-counterfeiting chip according to a set method, and transmit the related information to an anti-counterfeiting identification server system for comparison and other identification by a set corresponding method; or acquiring a high-definition image of each chip and the unique serial number on the chip through a mobile phone, and transmitting the related information to an anti-counterfeiting identification server system for identification such as comparison by a set corresponding method; or the high-definition image of each chip is acquired through the mobile phone without any processing, and the high-definition image is directly transmitted to the anti-counterfeiting identification server system to be compared by a set corresponding method for identification and the like. By the different identification methods, some can directly obtain the authenticity of the product and the related information of the product, and the identification result is displayed on the screen of the mobile phone; some of the anti-counterfeiting identification servers can call out corresponding chip high-definition images originally stored in the anti-counterfeiting identification servers according to information such as unique serial numbers on the anti-counterfeiting chips and the like, and display the chip high-definition images on a mobile phone screen, and an identifier compares the chip high-definition images to see whether the chip high-definition images are consistent or not so as to identify authenticity.

In this embodiment: the thickness, size and color of the plastic material used as the chip substrate and the size of the anti-counterfeiting chip can be adjusted according to actual conditions, and the chip substrate can be plastic or other suitable materials; the material may be opaque or transparent; the thickness of the frame line, the size of the two-dimensional code and the size of the random feature can be set according to actual needs; an adhesive layer and a release paper layer can be added on the back of the base material according to the requirement; the electronic digital microscope can also be a digital electronic microscope with other suitable pixels and multiplying power, and the anti-counterfeiting identification result can be true and false information and can also contain information such as logistics traceability and the like.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the terms so used are interchangeable under appropriate circumstances such that the embodiments of the application described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, article, or apparatus.

Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Exemplary embodiments according to the present application will now be described in more detail with reference to the accompanying drawings. These exemplary embodiments may, however, be embodied in many different forms and should not be construed as limited to only the embodiments set forth herein. It is to be understood that these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the exemplary embodiments to those skilled in the art, in the drawings, it is possible to enlarge the thicknesses of layers and regions for clarity, and the same devices are denoted by the same reference numerals, and thus the description thereof will be omitted.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.