CN113269568A - Ceramic bubble anti-counterfeiting method - Google Patents

Abstract

The embodiment of the invention discloses a ceramic bubble anti-counterfeiting method, which comprises the steps of processing a bubble anti-counterfeiting label on a sample; collecting the information of the bubble anti-counterfeiting label, and storing the information of the bubble anti-counterfeiting label to obtain evidence storage data; the bubble anti-counterfeiting label is attached to a finished product formed by sample manufacturing; when the anti-counterfeiting verification of the finished product to be detected is needed, the bubble anti-counterfeiting label on the finished product to be detected is inquired and verified by adopting a block chain technology to obtain a verification result; and feeding back the verification result to the terminal. According to the invention, the mode of processing the bubble anti-counterfeiting label is adopted for the sample, the bubble picture of the bubble anti-counterfeiting label is acquired by virtue of the microscopic equipment, and the bubble picture is called by virtue of the anti-counterfeiting inquiry code during anti-counterfeiting identification so as to carry out authenticity verification, so that the anti-counterfeiting effect is strong, the storage time is long, and the microscopic equipment is adopted for checking, the cost is low, and the social applicability and the convenience are high.

Description

Ceramic bubble anti-counterfeiting method

Technical Field

The invention relates to the technical field of anti-counterfeiting methods, in particular to a ceramic bubble anti-counterfeiting method.

Background

The artwork has high historical culture inheritance value, economic value and ornamental value. In recent years, with the prosperity of the artwork market and the improvement of the living standard of people, the artwork becomes the object of collection and investment gradually. A large number of counterfeit articles or imitations appear in the artwork market, so that the anti-counterfeiting and identification of the artwork are more and more concerned by various social circles.

The traditional artwork anti-counterfeiting and identifying method generally depends on the experience accumulated in the long-term artwork research and identification of people, the appearance characteristics of the artwork are investigated by methods such as comparison, classification and the like, the identifying method has higher requirements on the experience and the experience of an identifier, and meanwhile, the identifier needs to be self-refined for a long time. The anti-counterfeiting method has the advantages that the anti-counterfeiting material certificates such as certificates, signature seals, printing labels and chip labels are arranged on the artworks, but the anti-counterfeiting material certificates are easy to copy or cannot be identified in an anti-counterfeiting process due to aging failure caused by long time.

Therefore, it is necessary to design a new method, which has the advantages of strong anti-counterfeiting performance, long storage time, low cost, and high social applicability and convenience.

Disclosure of Invention

The invention aims to provide a ceramic bubble anti-counterfeiting method.

In order to solve the technical problems, the invention aims to realize the following technical scheme: the ceramic bubble anti-counterfeiting method comprises the following steps:

processing a bubble anti-counterfeiting label on the sample;

collecting the information of the bubble anti-counterfeiting label, and storing the information of the bubble anti-counterfeiting label to obtain evidence storage data;

the bubble anti-counterfeiting label is attached to a finished product formed by sample manufacturing;

when the anti-counterfeiting verification of the finished product to be detected is needed, the bubble anti-counterfeiting label on the finished product to be detected is inquired and verified by adopting a block chain technology to obtain a verification result;

and feeding back the verification result to the terminal.

The further technical scheme is as follows: the bubble anti-counterfeit label for processing the sample comprises:

preparing a pottery clay blank;

printing an anti-counterfeiting inquiry code and a collection coordinate point on a ceramic blank, then coating transparent or light-colored glaze, and firing in a kiln to obtain the bubble anti-counterfeiting label.

The further technical scheme is as follows: the temperature for firing in the kiln is 1200-1350 ℃.

The further technical scheme is as follows: the bubble anti-counterfeit label for processing the sample comprises:

preparing a pottery clay blank, coating transparent or light-colored glaze on the pottery clay blank, and firing in a kiln for the first time;

and printing an anti-counterfeiting inquiry code and a coordinate point acquisition on the fired ceramic blank, and firing in the kiln again to obtain the bubble anti-counterfeiting label.

The further technical scheme is as follows: the temperature for the first time of kiln firing is 1200 ℃ to 1350 ℃.

The further technical scheme is as follows: the temperature for re-firing in the kiln is 600 ℃ to 900 ℃.

The further technical scheme is as follows: gather bubble antifalsification label's information to store bubble antifalsification label's information to obtain and deposit evidence data, include:

acquiring a bubble photo for an acquisition coordinate point on the bubble anti-counterfeiting label by using a microscope or a magnifier;

encrypting the bubble photo and the corresponding anti-counterfeiting query code to obtain encrypted data;

and storing the encrypted data and the information of the bubble anti-counterfeiting label to obtain evidence storage data.

The further technical scheme is as follows: the storing the encrypted data and the information of the bubble anti-counterfeit label to obtain the evidence storing data comprises:

and storing the encrypted data and the information of the bubble anti-counterfeiting label in a block chain storage mode to obtain evidence storage data.

The further technical scheme is as follows: the evidence data comprises a recording timestamp, a label inquiry code, a storage address, a bubble photo, a finished product image, a creator image, a finished product material, a finished product size and a finished product weight.

The further technical scheme is as follows: when the anti-counterfeiting verification is required to be carried out on the finished product to be detected, the bubble anti-counterfeiting label on the finished product to be detected is inquired and verified by adopting a block chain technology so as to obtain a verification result, and the method comprises the following steps of:

acquiring a label inquiry code of the bubble anti-counterfeiting label on the finished product to be detected by adopting microscopic equipment or a magnifying glass;

inquiring corresponding evidence storing data on the block chain by using the label inquiry code to obtain a corresponding bubble picture;

comparing the obtained bubble picture with the bubble picture of the finished product to be detected to obtain a comparison result;

judging whether the comparison results are consistent;

if the comparison result is consistent, the verification result is that the finished product to be detected is a genuine product;

and if the comparison result is inconsistent, the verification result is that the finished product to be detected is a counterfeit product.

Compared with the prior art, the invention has the beneficial effects that: the method comprises the steps of processing a bubble anti-counterfeiting label on a sample, acquiring a bubble picture of the bubble anti-counterfeiting label by using microscopic equipment, encrypting the bubble picture and an anti-counterfeiting inquiry code by combining a Hash encryption mode, storing encryption data by using a block chain, recording a timestamp, a label inquiry code, a storage address, a bubble picture, a finished product image, a creator image, a finished product material, a finished product size, a finished product weight and the like, calling the bubble picture by using the anti-counterfeiting inquiry code by using the characteristics of the block chain when performing anti-counterfeiting identification, comparing the bubble picture with an actual bubble picture to perform authenticity verification, and realizing strong anti-counterfeiting performance and long storage time.

The invention is further described below with reference to the accompanying drawings and specific embodiments.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic flow chart of a ceramic bubble anti-counterfeiting method according to an embodiment of the present invention;

FIG. 2 is a schematic view of a sub-process of a ceramic bubble anti-counterfeiting method according to an embodiment of the present invention;

FIG. 3 is a schematic view of a sub-process of a ceramic bubble anti-counterfeiting method according to another embodiment of the present invention;

FIG. 4 is a schematic view of a sub-flow of a ceramic bubble anti-counterfeiting method according to an embodiment of the present invention;

FIG. 5 is a schematic view of a sub-flow of a ceramic bubble anti-counterfeiting method according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of an under-glaze anti-counterfeit query code according to an embodiment of the present invention;

fig. 7 is a schematic diagram of an over-glaze anti-counterfeit inquiry code according to an embodiment of the present invention.

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 some, not all, embodiments of the present invention. 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 will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the specification of the present invention and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

Referring to fig. 1, fig. 1 is a schematic flow chart of a ceramic bubble anti-counterfeiting method provided by an embodiment of the present invention, which can be applied to the authentic ancient artwork anti-counterfeiting and digital scientific management processes, can also be applied to the anti-counterfeiting traceability and authenticity of modern artwork, and even can be applied to the anti-counterfeiting process of the customization of high-value products containing ceramic artwork, which needs anti-counterfeiting traceability.

Referring to fig. 1, the ceramic bubble anti-counterfeiting method includes steps S110 to S150.

And S110, processing the bubble anti-counterfeiting label on the sample.

In this embodiment, the bubble anti-counterfeit label is a label formed by adding an anti-counterfeit query code to bubbles with high randomness formed in the processing process of the ceramic sample at the collection coordinate point.

The bubble anti-counterfeiting label is used for anti-counterfeiting, the anti-counterfeiting label is not reproducible and has strong anti-counterfeiting performance, and the bubble anti-counterfeiting label is added in the sample processing process and has strong storage environment tolerance; the preservation time is long, can reach more than thousand years, and is stable and reliable.

The bubbles in the ceramic glaze are objective bubbles on the porcelain body which is fired by putting the glazed pottery clay blank into a kiln at the high temperature of 1200-1400 ℃; under the multiple influences of the conditions such as the water content of a material formula, the thickness of a glaze layer, the atmosphere of fire, the process and the like, the shapes, forms, shapes and states of bubbles are different and are in various postures, the bubbles can be clearly observed by a microscope about 50 times, and the bubbles of a single detection point cannot be copied under control due to extremely special generation conditions. The ceramic bubble anti-counterfeiting label is manufactured by utilizing the uniqueness of non-copying, so that the high anti-counterfeiting performance and non-copying can be realized.

In an embodiment, referring to fig. 2, the step S110 may include steps S111 to S112.

S111, preparing a clay blank;

and S112, printing the anti-counterfeiting query code and the acquired coordinate point on the ceramic blank, then coating transparent or light-colored glaze, and firing in a kiln to obtain the bubble anti-counterfeiting label.

In this example, the temperature for firing in the kiln is 1200 ℃ to 1350 ℃.

In this embodiment, the sample is a pot clay; preparing a pottery clay blank with a certain shape like a circle, the size of the pottery clay blank is 0.5-60 mm in diameter and 0.1-6 mm in thickness, printing an anti-counterfeiting inquiry code and a collection coordinate point on the pottery clay blank, coating transparent or light colored glaze, and sintering at the high temperature of 1300 ℃ in a kiln, as shown in figure 5, thereby forming an under-glaze anti-counterfeiting inquiry code, namely forming a bubble anti-counterfeiting label under the glaze of a sample.

In another embodiment, referring to fig. 3, the step S110 may include steps S111 'to S112'.

S111', preparing a pottery clay blank, and firing the pottery clay blank in a kiln for the first time after coating transparent or light-colored glaze on the pottery clay blank.

In this example, the temperature for the first firing in the kiln is 1200 ℃ to 1350 ℃.

And S112', printing an anti-counterfeiting query code and a collection coordinate point on the fired ceramic blank, and firing in the kiln again to obtain the bubble anti-counterfeiting label.

In this example, the temperature of re-firing in the kiln is 600 ℃ to 900 ℃.

Preparing a pottery clay blank with a certain shape like a circle, the size like a diameter of 0.5-60 mm and the thickness of 0.1-6 mm, coating transparent or light-colored glaze, firing at the high temperature of 1300 ℃ in a kiln, printing an anti-counterfeiting inquiry code and a collection coordinate point on the fired pottery clay blank, firing at the high temperature of 800 ℃ in the kiln again, and forming an on-glaze anti-counterfeiting inquiry code as shown in figure 5, namely forming a bubble anti-counterfeiting label on the glaze of the sample.

In this embodiment, set up the position of gathering the coordinate point for confirming the bubble is gathered, avoid can't accurately look for the bubble of coordinate unanimity when anti-fake appraisal and compare, the commonality, the convenience is strong, and the range of application is wide.

S120, collecting the information of the bubble anti-counterfeiting label, and storing the information of the bubble anti-counterfeiting label to obtain evidence storage data.

In this embodiment, the evidence storing data refers to a data packet formed by storing the related information of the bubble anti-counterfeit label on the block chain.

The information of the bubble anti-counterfeiting label comprises a recording timestamp, a label inquiry code and a storage address.

Specifically, the evidence data includes a recording timestamp, a tag query code, a storage address, a bubble photo, a finished product image, a creator image, a finished product material, a finished product size, and a finished product weight.

In an embodiment, referring to fig. 4, the step S120 may include steps S121 to S123.

And S121, acquiring a bubble photo for the acquisition coordinate point on the bubble anti-counterfeiting label by using a microscope or a magnifier.

In this embodiment, the bubble photo refers to a picture formed by collecting bubbles corresponding to the collection coordinate point on the bubble anti-counterfeit label through a microscope.

Specifically, the bubble photo is acquired for the bubble corresponding to the acquisition coordinate point by means of a microscope or a magnifier of 50 times or more. Flexible application, social applicability, high convenience and low cost.

And S122, encrypting the bubble photo and the corresponding anti-counterfeiting query code to obtain encrypted data.

In this embodiment, the encrypted data refers to data formed by performing hash encryption on the bubble photo and the anti-counterfeit inquiry code on the bubble anti-counterfeit label.

And S123, storing the encrypted data and the information of the bubble anti-counterfeiting label to obtain evidence storing data.

Specifically, the acquired data information such as the bubble picture and the corresponding anti-counterfeiting query code is subjected to hash encryption to obtain a hash value, and then the original data information including the bubble picture, the bubble anti-counterfeiting label and the encrypted data is sent to an IPFS (internet File System) network together, and the IPFS network returns a storage address, namely a data address.

Specifically, the encrypted data and the information of the bubble anti-counterfeiting label are stored in a block chain storage mode to obtain evidence storage data.

The trusted network that the block chain technique was built, the trusted timestamp service that cooperates the state to approve carries out the trusted certificate to the timestamp of block, has guaranteed the evidence timestamp of depositing of the approved block chain of follow legal aspect, deposits the anti-fake data package that evidence data used, deposits document data and is used for recording file information such as timestamp, label inquiry code, data address, coordinate point bubble picture, deposits the evidence data and contains three parameter: dividing the evidence storing data into main data which can be indexed; additional data to which more data can be attached and reference data to which a reference relationship can be established. In the block chain system, a token with a unique identifier corresponding to the anti-counterfeiting inquiry code is created, and a digital rights voucher representing the bubble anti-counterfeiting label is attached to the data payload. When a full account book receives a new block and stores the new block in a local account book, the system can analyze main data containing data payload, establish indexes of the main data and encrypted data, and then realize the query of certified data by means of database indexes; the blockchain is used for recording label certificate data and inquiry.

During storage, two bubble anti-counterfeiting labels need to be stored to form a label group, and during anti-counterfeiting verification, the related information of the two bubble anti-counterfeiting labels needs to be adopted for verification, so that the anti-counterfeiting performance is enhanced.

S130, attaching the bubble anti-counterfeiting label to a finished product formed by sample manufacturing.

For example: the specification of selecting the bubble anti-counterfeit label according to the artwork comprises size, shape, pasting mode and the like, and the number of the selected bubble anti-counterfeit label is 3: 1 kettle bottom, 1 kettle cover and 1 certificate, namely, three bubble anti-counterfeiting labels are stuck on one finished product; checking the anti-counterfeiting query code by using a magnifying glass with the magnification of more than 50 times, logging in a label block chain query system, calling a bubble photo, comparing the bubble photo with a real object bubble map, and downloading a bubble map data packet after comparison is undoubtedly carried out, wherein when other artwork block chain systems need to be uploaded; adhering the bubble anti-counterfeiting label to the kettle bottom, the kettle cover and the certificate; the creator can clearly read the video of the group photo together by virtue of the query codes on the magnifier, the kettle bottom, the kettle cover and the certificate; uploading the anti-counterfeiting query codes of the 3 bubble anti-counterfeiting labels to an artwork block chain system to be associated into a label group; associating the group of tags with the group of tags; and if necessary, the downloaded bubble chart data packets can be associated and uploaded together.

Specifically, the bubble anti-counterfeiting label is attached to an artwork needing anti-counterfeiting, namely a finished product made of a sample, a user registers an account in an artwork block chain system, two or more groups of label query codes are selected to be associated into a label group, namely, one group of label group is selected from the finished product to be stored, and therefore the overall anti-counterfeiting performance is improved. Uploading information such as anti-counterfeiting query codes, artworks and creator images, materials, sizes, weights and the like of corresponding articles, combining the information and encrypted data to form evidence storage data, wherein the information stores data payload parameters, signature payload parameters are used for recording query label group information, and statement recording blocks initiated by users of an artworks block chain contain 2 pieces of information: according to the data payload and the signature payload, according to the label inquiry code information contained in the signature payload, the detailed information of the corresponding article in the data payload data can be found, and finally the evidence storage data associated with the label is obtained.

In this embodiment, the artwork blockchain system is integrated on a server that performs data interaction with the microscope.

S140, when the anti-counterfeiting verification is required to be carried out on the finished product to be detected, the bubble anti-counterfeiting label on the finished product to be detected is inquired and verified by adopting a block chain technology to obtain a verification result.

In this embodiment, the verification result refers to a result obtained by performing anti-counterfeit identification on the finished product to be tested.

In an embodiment, referring to fig. 5, the step S140 may include steps S141 to S146.

S141, acquiring a label inquiry code of the bubble anti-counterfeit label on the finished product to be detected by adopting microscopic equipment or a magnifying glass;

s142, querying corresponding evidence storing data on the block chain by using the label query code to obtain a corresponding bubble picture;

s143, comparing the obtained bubble picture with the bubble picture of the finished product to be detected to obtain a comparison result;

s144, judging whether the comparison results are consistent;

s145, if the comparison result is consistent, verifying that the finished product to be detected is a genuine product;

s146, if the comparison result is inconsistent, the verification result is that the finished product to be detected is a counterfeit product.

Tracing the artwork, and obtaining the anti-counterfeiting query code from the artwork by using microscopic equipment or a magnifying glass. The work of art block chain system of logging in inputs 2 anti-fake inquiry codes, when 2 anti-fake inquiry codes match the label group in the block chain, obtain all anti-fake inquiry codes in the label group, can look over data such as picture, size, image of the holder's upload article simultaneously and compare with the real object. After the comparison is undoubted, comparing the bubble picture in the label group with the bubble picture on the actual finished product; the anti-counterfeiting query codes are input one by one, the query system obtains detailed label data for verification according to the corresponding unique identification token, the system can find the IPFS storage address of the main data of the data payload so as to obtain data such as encrypted data, videos and pictures, and then the encrypted data is verified, the possibility that the data are not changed is ensured, and the stored bubble pictures are obtained. And calling out a stored bubble picture to be compared with the actually observed bubble picture, and obtaining a true product after the comparison is undoubted. By adopting 4-block chain technology, tracing is realized, and the method has the effects of trusted network, strong data encryption, no tampering, high recognition degree, high efficiency, convenience and low cost.

For example: logging in an artwork block chain query system; inputting an anti-counterfeiting query code on the bottom of the dark-red enameled pottery, an anti-counterfeiting query code of a label on an anti-counterfeiting certificate or an anti-counterfeiting query code on a kettle cover by using a magnifying glass, wherein 2 query codes in a label group are required to be input for querying; and calling out dark-red enameled pottery image data associated with the anti-counterfeiting inquiry code, and comparing the image with a real object, and comparing the dark-red enameled pottery, a creator, a certificate and the anti-counterfeiting inquiry code. After the comparison is undoubted, performing bubble picture comparison; logging in a label block chain inquiry system, inputting anti-counterfeiting inquiry codes one by one, calling out a bubble image and comparing the bubble image with an actually observed bubble image; the comparison is undoubtedly carried out to obtain the genuine product.

And S150, feeding back the verification result to the terminal.

And feeding back the verification result to the terminal for the terminal holder to check.

Specifically, the photographing and microscopic equipment is combined to collect the bubble characteristic information of the ceramic glaze layer and the unique anti-counterfeiting query code, and the information is uploaded to a tag block chain system for storage; attaching the labels to each part of the artwork, certificates and the like to form a label group; meanwhile, the photo images of the artwork including components, certificates and the like are collected, the photo images which are unique in each label and can be clearly identified need to be included, and the photo images are uploaded to an artwork block chain system so as to store data by means of the block chain.

According to the ceramic bubble anti-counterfeiting method, the mode of processing the bubble anti-counterfeiting label is adopted for a sample, the bubble picture of the bubble anti-counterfeiting label is collected by means of a microscopic device, the hash encryption mode is combined, the bubble picture and the anti-counterfeiting query code are encrypted, the block chain is used for storing encrypted data, the timestamp is recorded, the label query code, the storage address, the bubble picture, the finished product image, the creator image, the finished product material, the finished product size, the finished product weight and the like, when anti-counterfeiting identification is carried out, the characteristics of the block chain are adopted, the bubble picture is called through the anti-counterfeiting query code and is compared with the actual bubble picture so as to carry out authenticity verification, the anti-counterfeiting performance is strong, the storage time is long, the microscopic device is used for checking, the cost is low, and the social applicability and the convenience are high.

While the invention has been described with reference to specific embodiments, the invention is not limited thereto, and various equivalent modifications and substitutions can be easily made by those skilled in the art within the technical scope of the invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The ceramic bubble anti-counterfeiting method is characterized by comprising the following steps:

processing a bubble anti-counterfeiting label on the sample;

collecting the information of the bubble anti-counterfeiting label, and storing the information of the bubble anti-counterfeiting label to obtain evidence storage data;

the bubble anti-counterfeiting label is attached to a finished product formed by sample manufacturing;

when the anti-counterfeiting verification of the finished product to be detected is needed, the bubble anti-counterfeiting label on the finished product to be detected is inquired and verified by adopting a block chain technology to obtain a verification result;

and feeding back the verification result to the terminal.

2. The ceramic bubble anti-counterfeiting method according to claim 1, wherein the processing of the sample with the bubble anti-counterfeiting label comprises:

preparing a pottery clay blank;

printing an anti-counterfeiting inquiry code and a collection coordinate point on a ceramic blank, then coating transparent or light-colored glaze, and firing in a kiln to obtain the bubble anti-counterfeiting label.

3. The ceramic bubble anti-counterfeiting method according to claim 2, wherein the temperature for firing in a kiln is 1200 ℃ to 1350 ℃.

4. The ceramic bubble anti-counterfeiting method according to claim 1, wherein the processing of the sample with the bubble anti-counterfeiting label comprises:

preparing a pottery clay blank, coating transparent or light-colored glaze on the pottery clay blank, and firing in a kiln for the first time;

and printing an anti-counterfeiting inquiry code and a coordinate point acquisition on the fired ceramic blank, and firing in the kiln again to obtain the bubble anti-counterfeiting label.

5. The ceramic bubble anti-counterfeiting method according to claim 4, wherein the temperature for the first firing in the kiln is 1200 ℃ to 1350 ℃.

6. The ceramic bubble anti-counterfeiting method according to claim 4, wherein the temperature for re-entering the kiln is 600 ℃ to 900 ℃.

7. The ceramic bubble anti-counterfeiting method according to claim 1, wherein the collecting and storing the information of the bubble anti-counterfeiting label to obtain evidence storing data comprises:

acquiring a bubble photo for an acquisition coordinate point on the bubble anti-counterfeiting label by using a microscope or a magnifier;

encrypting the bubble photo and the corresponding anti-counterfeiting query code to obtain encrypted data;

and storing the encrypted data and the information of the bubble anti-counterfeiting label to obtain evidence storage data.

8. The ceramic bubble anti-counterfeiting method according to claim 7, wherein the storing the encrypted data and the information of the bubble anti-counterfeiting label to obtain the evidence storing data comprises:

and storing the encrypted data and the information of the bubble anti-counterfeiting label in a block chain storage mode to obtain evidence storage data.

9. The ceramic bubble anti-counterfeiting method according to claim 8, wherein the evidence data comprises a recording time stamp, a label inquiry code, a storage address and a bubble photo.

10. The ceramic bubble anti-counterfeiting method according to claim 9, wherein when anti-counterfeiting verification needs to be performed on a finished product to be detected, the bubble anti-counterfeiting label on the finished product to be detected is queried and verified by using a block chain technology to obtain a verification result, and the method comprises the following steps:

acquiring a label inquiry code of the bubble anti-counterfeiting label on the finished product to be detected by adopting microscopic equipment or a magnifying glass;

inquiring corresponding evidence storing data on the block chain by using the label inquiry code to obtain a corresponding bubble picture;

comparing the obtained bubble picture with the bubble picture of the finished product to be detected to obtain a comparison result;

judging whether the comparison results are consistent;

if the comparison result is consistent, the verification result is that the finished product to be detected is a genuine product;

and if the comparison result is inconsistent, the verification result is that the finished product to be detected is a counterfeit product.

Images