CN112950232A - Anti-counterfeiting traceability code of iron can product and production method and system thereof - Google Patents

Abstract

The invention provides an anti-counterfeiting traceability code of a tin can product and a production method and a system thereof, wherein an anti-counterfeiting traceability code image is generated, the anti-counterfeiting traceability code image is subjected to assignment operation, and traceability information of the tin can product is endowed to the anti-counterfeiting traceability code image; and spraying and printing the anti-counterfeiting source tracing code image subjected to value assignment in a spraying area of the iron can product. The production method at least comprises the following steps: setting a spraying area on the surface of the iron can product; performing assignment operation on one or more anti-counterfeiting traceability code images, and endowing traceability information of the iron can product to the anti-counterfeiting traceability code images; and (4) spray-printing the assigned anti-counterfeiting source tracing code image in a spray-coating area of the iron can product by adopting a code spraying technology. The anti-counterfeiting traceability code is combined, so that the traceability and anti-channel conflict effects of the iron can products are safer and more reliable, and the safety of the iron can products is further improved. By acquiring the related information of the iron can product, if the current product dealer address information is successfully matched with the product allowable operation range information, the product is not subjected to channel conflict, so that the circulation of the iron can product is ensured, and the efficiency and the accuracy of anti-counterfeiting channel conflict inspection are improved.

Description

Anti-counterfeiting traceability code of iron can product and production method and system thereof

Technical Field

The embodiment of the invention relates to the field of anti-counterfeiting and anti-channel conflict of iron can products, in particular to a method and a system for producing anti-counterfeiting source tracing codes of iron can products.

Background

The purpose of the commercial behavior is to obtain greater profit, so that the distribution attribute of the commodities is separated from enterprise control, and the commodities are changed from circulation to 'flow fleeing'. The goods fleeing causes the market to be rolled and the price to be disordered, so that the profit of the middleman is damaged, the middleman does not trust the manufacturer, the products are distributed without confidence, and finally the products are refused to be sold, so that the brand image of the enterprise is damaged. The phenomenon of 'channel conflict' seriously interferes normal marketing strategies and guidelines of enterprises for a long time, many enterprises are always dedicated to severe channel conflict, channel conflict prevention measures are also taken, channel conflict prevention technologies are adopted, and channel conflict is hoped to be cured. But the channel conflict is still rampant, and enterprises still have many problems which can not be solved. The core problem of anti-channel conflict management is how an enterprise can control the flow direction of a product, and if the enterprise cannot effectively acquire the flow positioning information of the product in the circulation link, the enterprise cannot monitor and restrict the channel conflict behavior.

The mainstream anti-channel conflict method measures in the market at present are to adopt an anti-channel conflict technology combining an anti-counterfeit label and an anti-channel conflict system to control the channel conflict phenomenon of enterprise products. Each product is endowed with a unique anti-counterfeit label, when the product is delivered out of the warehouse and circulated each time, a dealer and the product are called out from the collector, then the product is scanned and delivered to the corresponding dealer, and the delivery data in the collector is transmitted to the anti-channel conflict system, so that an enterprise can inquire the logistics delivery condition of the product in the background of the anti-channel conflict system, and the circulation condition of the product is monitored. Although this method is applicable to all kinds of goods, the labels are easily torn off and replaced, and the security is not strong.

At present, the iron can products are various in types and large in circulation. The spray printing of anti-counterfeit codes (such as two-dimensional codes or bar codes) containing product information on the iron can products becomes an important way for identifying the iron can products. The anti-counterfeiting code can play a role in anti-counterfeiting or preventing destructive channel conflict for branded iron can products, but is easy to damage, and cannot achieve a good channel conflict preventing effect.

Meanwhile, the iron can product is made of metal, so that certain interference is caused to visual recognition. Use ordinary antifalsification label + prevent scurrying goods system, when carrying out the recognition antifalsification label in batches, influence the effect and the recognition speed of recognizing in batches because of the reflection of light on iron ladle surface easily, and then influence the production efficiency of iron ladle goods. When a consumer or a dealer reads, the reading places are random, the lighting condition of the tank body and the stain condition of the label are uncontrollable, and the reading efficiency of the product is influenced. In addition, if the anti-counterfeiting label is adhered to the surface of the iron can product, the anti-counterfeiting label is easy to damage, and meanwhile, the longer the anti-counterfeiting label is placed, the more easily the label is damaged and aged, so that the difficulty of anti-counterfeiting and anti-channel conflict is undoubtedly increased. If the anti-counterfeiting code is sprayed and printed on the surface of the iron can product, the anti-counterfeiting code can be seen by naked eyes, so that the anti-counterfeiting code can be damaged by illegal distributors, and the appearance, anti-counterfeiting effect and anti-channel conflict inspection effect of the product are influenced.

Disclosure of Invention

Aiming at the defects, the invention aims to provide the anti-counterfeiting traceability code of the iron can product, and the anti-counterfeiting traceability code is sprayed and printed on the iron can product so as to realize the anti-counterfeiting and anti-channel conflict of the iron can product.

The invention further aims to provide a production method of the anti-counterfeiting traceability code of the iron can product.

The invention further aims to provide a production system of the anti-counterfeiting traceability code for the iron can product.

The purpose of the invention is realized by the following scheme: an anti-counterfeiting traceability code of a tin can product, comprising:

generating an anti-counterfeiting traceability code image, performing assignment operation on the anti-counterfeiting traceability code image, and endowing traceability information of the iron can product to the anti-counterfeiting traceability code image;

and spraying and printing the anti-counterfeiting source tracing code image after the code is assigned in the spraying area of the iron can product.

The anti-counterfeiting tracing code in the anti-counterfeiting tracing code image is a sparse dot matrix code.

Further, the sparse lattice code may be a logical intelligence code.

On the basis of the scheme, the anti-counterfeiting traceability code image comprises a plurality of sub-anti-counterfeiting traceability code units, and each sub-anti-counterfeiting traceability code unit comprises information related to the traceability of the iron can product.

Further, the sub anti-counterfeiting tracing code unit of the anti-counterfeiting tracing code image at least comprises the following information:

the anti-counterfeiting tracing code comprises authenticity information of the anti-counterfeiting tracing code, manufacturer information and producing area information of the iron can product, dealer information, distributing area information and logistics information of the iron can product.

On the basis of the scheme, the spraying area of the iron can product is an area subjected to surface treatment including electroplating, film coating and/or plasma treatment.

On the basis of the scheme, the spraying area of the iron can product is positioned on the side surface of the iron can product and on the bottom surface of the iron can product.

The invention also provides a production method of the anti-counterfeiting traceability code according to the iron can product, which comprises the following steps:

generating an anti-counterfeiting source tracing code image through a correlation algorithm;

performing assignment operation on the anti-counterfeiting traceability code image, and giving traceability information of the iron can product to the anti-counterfeiting traceability code image;

setting a spraying area on the surface of the iron can product, and carrying out surface treatment on the spraying area or the whole iron can product, wherein the surface treatment comprises electroplating, film coating, plasma treatment and the like;

and spraying and printing the anti-counterfeiting source tracing code image subjected to code endowing in the spraying area of the iron can product by a code spraying technology.

The spraying area of the anti-counterfeiting traceability code can be positioned on the side surface of the iron can product and also can be positioned on the bottom surface of the iron can product.

The anti-counterfeiting tracing code image is jet-printed by adopting invisible ink, namely the adopted code spraying technology is the invisible ink code spraying technology.

On the basis of the scheme, after the spray printing of the anti-counterfeiting tracing code image is finished, the anti-counterfeiting tracing code after the spray printing is verified.

Further, the verification of the anti-counterfeiting tracing code comprises:

reading the information of the anti-counterfeiting tracing source code image subjected to jet printing through a reading device;

if the reading is successful, obtaining the information related to the traceability of the iron can product, and packaging and selling the iron can product;

and if the reading fails, rotating the iron can product by a preset angle, returning to the step of spraying and printing the anti-counterfeiting source tracing code image with the assigned code in the spraying area of the iron can product by a code spraying technology, and spraying and printing again until the reading succeeds.

On the basis of the scheme, the production method of the anti-counterfeiting traceability code of the iron can product further comprises the following steps:

and further, performing anti-counterfeiting tracing identification on the iron can product according to the logistics information.

Further, according to the logistics information, the anti-counterfeiting tracing identification is carried out on the iron can product, and the method comprises the following steps:

identifying the authenticity information of the anti-counterfeiting traceability code of the iron can product, wherein if the identification is successful, the product is a genuine product; if the identification fails, the commodity is indicated as a counterfeit;

matching the allowable operation range of the iron can product with the dealer scanning address information, wherein if the matching is successful, the commodity is not channel conflict; if the matching fails, indicating that the commodity has channel conflict;

matching the allowable operation range of the iron can product with the address information scanned by the consumer, wherein if the matching is successful, the commodity does not channel conflict; and if the matching fails, indicating that the commodity has channel conflict.

Further, the authenticity information of the anti-counterfeiting traceability code of the iron can product is identified by scanning the anti-counterfeiting traceability code image by using identification equipment to obtain an identification result:

if the anti-counterfeiting tracing code image can be identified and jumps to a logistics interface, the anti-counterfeiting tracing code is true, and the identification is successful; if the anti-counterfeiting tracing code image cannot be identified, the anti-counterfeiting tracing code is false, and the identification fails.

Further, the dealer scanning address information and the consumer scanning address information are obtained by using the reading device to scan the current geographic position of the anti-counterfeiting source code image.

The invention also provides a production system of the anti-counterfeiting traceability code of the iron can product, which comprises the following steps:

the image generation module is used for generating an anti-counterfeiting source tracing code image through a correlation algorithm;

the code assigning module is used for assigning the anti-counterfeiting traceability code and assigning the traceability information of the iron can product to the anti-counterfeiting traceability code image;

the surface treatment module is used for setting a spraying area and carrying out surface treatment on the spraying area on the iron can product or carrying out surface treatment on the whole iron can product;

and the spray printing module is used for spray printing the assigned anti-counterfeiting source tracing code image in the spraying area of the iron can product through a code spraying technology.

The invention provides an anti-counterfeiting traceability code of a tin can product, which can inspect the iron can product for traceability and anti-channel conflict, and by combining the anti-counterfeiting traceability code, the traceability and anti-channel conflict effects of the iron can product are safer and more reliable, and the safety of the iron can product is further improved. The method comprises the steps of obtaining relevant information of the iron can product by obtaining anti-counterfeiting source tracing codes on the surface of the iron can product, and if the address information of the current product distributor is successfully matched with the allowed operation range information of the product, the product is not subjected to channel conflict, so that circulation of the iron can product is guaranteed, and the efficiency and accuracy of anti-counterfeiting channel conflict inspection are improved.

Drawings

The drawings in the present specification illustrate specific embodiments of the invention, wherein:

fig. 1 is a schematic flow chart of a method for producing an anti-counterfeiting traceability code of an iron can product provided in embodiment 1;

fig. 2 is an anti-counterfeiting traceability code image generated by the method for producing anti-counterfeiting traceability codes of iron can products according to embodiment 1 of the present invention;

FIG. 3 is a dot code image used in other anti-counterfeiting anti-channel conflict technologies;

fig. 4 is a schematic flow chart of another method for producing anti-counterfeiting traceability codes of the iron can product, provided in example 2;

fig. 5 is a flowchart for verifying the anti-counterfeit traceability code after inkjet printing according to embodiment 2;

fig. 6 is a block diagram of a production system of an anti-counterfeiting traceability code for a tin can product.

Detailed Description

In order that the manner in which the present invention is attained and can be understood in detail, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

Example 1

Fig. 1 is a schematic flow chart of a method for producing an anti-counterfeiting traceability code of a tin can product according to this embodiment, where the tin can product may be a finished product or a semi-finished product. The iron can product can be a cylinder or a rectangular box body, and can be a milk powder can or a paint bucket. As shown in fig. 1, the method for producing the anti-counterfeiting traceability code for the iron can product comprises the following steps:

and S110, generating an anti-counterfeiting source tracing code image through a correlation algorithm.

An anti-counterfeiting tracing code image is generated by using a correlation algorithm, the anti-counterfeiting tracing code is a sparse lattice code, and the used correlation algorithm is a sparse lattice code generation algorithm.

The anti-counterfeiting tracing code has the following characteristics:

the anti-counterfeiting traceability system comprises a plurality of sub anti-counterfeiting traceability code units, wherein each sub anti-counterfeiting traceability code unit comprises information related to the traceability of the iron can product;

sub anti-counterfeiting tracing code units are distributed evenly;

the sub anti-counterfeiting tracing code units can be continuously and widely distributed;

no obvious 'locator' or 'flag bit' exists in the sub anti-counterfeiting tracing source code unit;

the anti-counterfeiting tracing code can be hidden by adjusting the peripheral shape.

And S120, carrying out assignment operation on the anti-counterfeiting traceability code, and endowing the traceability information of the iron can product with the anti-counterfeiting traceability code image.

The traceability information of the iron can product includes but is not limited to:

the anti-counterfeiting traceability code comprises authenticity information of the anti-counterfeiting traceability code, manufacturer information and production place information of the iron can product, distributor information and distribution place information of the iron can product, and logistics information of the iron can product.

S130, performing surface treatment on the iron can product.

Before the anti-counterfeiting tracing code is sprayed and printed in the spraying area of the iron can product, the iron can product needs to be subjected to surface treatment. The surface treatment includes plating, coating, plasma treatment, and the like.

Because the adhesive force on the surface of different iron can products is different, when the anti-counterfeiting traceability codes are sprayed and printed on the surface of the iron can products, some situations that ink dots are lost and can not be attached can occur, or situations that the ink dots fall off can occur when the iron can products are exposed to the sun at high temperature and high pressure and are refrigerated for a long time, so that the iron can products need to be subjected to surface treatment before the anti-counterfeiting traceability codes are sprayed and printed. Typical surface treatment techniques include corona, film coating, plasma treatment, and the like. The specific treatment method depends on the surface adhesion of the iron can. After the surface treatment, the anti-counterfeiting traceability code image can be more durable, firmer and not easy to fall off when being retained on the surface of the iron can product.

And S140, spraying and printing the anti-counterfeiting source tracing code image subjected to code marking in the spraying area of the iron can product through a code spraying technology.

The iron can product comprises a side surface and a bottom surface, and the spraying area of the anti-counterfeiting traceability code can be located on the side surface of the iron can product and can also be located on the bottom surface of the iron can product. The side surface of the iron can product refers to the surface which can be seen when the iron can product is normally and stably placed on a table top or the ground. The bottom surface of the can product is the invisible surface. The anti-counterfeiting traceability code spraying area can enable the anti-counterfeiting traceability code to be conveniently and quickly sprayed and printed in the side face of the iron can product, and meanwhile, for a large-scale iron can product, the bottom face is not easy to be sprayed and printed or identified, and the spraying area can reduce certain spraying and printing or identification difficulty in the side face. And anti-fake tracing code spraying area can make this anti-fake tracing code spout the seal and do not influence the iron can goods outward appearance in the bottom surface of iron can goods, simultaneously because the bottom surface is often not seen, spouts the seal here and can promote anti-fake tracing code's hidden nature, improves the anti-fake of iron can goods, prevents the goods fleeing effect. The specific spray printing position is determined according to the difficulty of spray printing and the requirement of appearance beautification.

Fig. 2 is an anti-counterfeiting traceability code image generated by the production method of the anti-counterfeiting traceability code for the iron can product provided by the embodiment.

The anti-counterfeiting source tracing code is a logic intelligent code, belongs to one of sparse dot matrix codes, and is an irregular dot matrix code which is generated by an intelligent compiling system and corresponds to product identity information and the like, wherein the irregular dot matrix code comprises variety information, production information, serial numbers, sales information and the like of products, so that the technology of a good anti-counterfeiting and anti-channel conflict effect is achieved. The intelligent code technology is praised as the third major anti-counterfeiting and anti-channel conflict technology after the anti-counterfeiting and anti-channel conflict of the label and the electronic code. The image unit area is small, and the precision can reach micron level, so a large number of random image units can be generated in the square millimeter level area, and massive information can be stored. Because the image unit area of the sparse dot matrix code is small, the sparse dot matrix code cannot be directly identified by naked eyes, and special identification equipment is needed for identification. Meanwhile, the precision of the image unit can reach micron level, and the image unit has the characteristics of high secrecy and extremely difficult copying and is difficult to damage by combining a special ink technology, so that excellent anti-counterfeiting and anti-channel conflict effects can be realized. In addition, the image unit includes, but is not limited to, the following information: the information of the authenticity of the logic intelligent code, the information of the manufacturer and the production place of the iron can product, the information of the distributor and the distribution place of the iron can product, and the logistics information of the iron can product. On the basis, the logic intelligent code integrates various information such as production, circulation, consumption and the like of the iron can products on the system by means of the system with big data analysis capability, and helps enterprises to realize management and accurate marketing of the iron can products. The logic intelligent code can be used for distinguishing counterfeit products and counterfeit products, and can also be used for preventing channel conflict so as to distinguish the iron can products of distributors in different areas.

The logic intelligent code consists of two parts, namely an information encoding subsystem and a decoding subsystem. The information coding subsystem comprises an information reading module, an information embedding module, a data encryption module, an error correction code module, a dot matrix generation module, a picture shading embedding module and the like. The decoding subsystem is composed of a module for acquiring corresponding decoding information, a module for decoding key information, an information error correction module, a data decoding module and the like.

The coding subsystem mainly comprises two modules, namely an error correcting code coding module and a conversion coding module. The error correction code encoding module encodes original information by using an error correction technology, reduces the error rate of an information decoding process by adding check bits and error correction bits, and improves the fault tolerance rate of the information. The conversion coding module converts the coded information into a uniformly distributed dot matrix code based on the position, and stores the information according to the change of the position of the point.

The decoding subsystem mainly comprises an error correcting code decoding module and an information restoring module. The error correction code decoding module is mainly used for correcting errors of the acquired information, if the error correction is successful, the corrected data is transmitted to the information restoring module, if the error correction is failed, the error is more, and the dot matrix code is identified again. And the information recovery module recovers and recovers the information according to the error-corrected data.

Fig. 3 is a dot code image used in other anti-counterfeiting and anti-channel conflict technologies. The images not only contain obvious 'locators' or 'flag bits', so that the images are not hidden, but also only contain one anti-counterfeiting identification unit, and once the anti-counterfeiting identification unit is damaged or stained, the identification effect is influenced.

The anti-counterfeiting traceability code has higher identification degree, has no obvious 'locator' or 'marker bit', simultaneously has higher hiding performance due to the sparsity of code points, improves the anti-counterfeiting traceability performance of the iron can product, and has great advantages in anti-counterfeiting and anti-channel conflict application.

On the basis of the technical scheme, the anti-counterfeiting tracing code jet printing technology can be a code jet printing technology based on invisible ink. When the common ink is used for spraying the code, the sprayed image is clear and visible, so that the image is easy to damage, the anti-counterfeiting and anti-channel conflict of the iron can product are not facilitated, and the appearance beautifying effect of the iron can product can be influenced. The use of invisible inks avoids these problems. Specifically, invisible ink refers to ink which is invisible to naked eyes under normal natural light and has a low content, and can be displayed only by using special equipment, for example, infrared invisible ink based on specific wavelength. The invisible ink code spraying technology is that the ink is used for spray printing operation, and the surface treatment technology of the iron can product is combined, so that the anti-counterfeiting tracing code image unit has good adhesiveness and strong concealment, and the anti-counterfeiting and anti-channel conflict efficiency of the iron can product is improved.

Further, when the anti-counterfeiting traceability code image is subjected to jet printing, a jet printing device with jet printing resolution not lower than 850 × 850DPI (Dots Per Inch) is adopted for carrying out jet printing operation, preferably, the jet printing device is a jet printing device with jet printing resolution of 900 × 900DPI or more, the size of the generated anti-counterfeiting traceability code image is 24 × 24mm or more, and the size of a single sub-anti-counterfeiting traceability code unit is within the range of 3 × 3mm, namely, the generated anti-counterfeiting traceability code at least comprises 8 sub-anti-counterfeiting traceability code units, so that even if the anti-counterfeiting traceability code image is damaged or contaminated by a large area, 6% of the area (about 6 × 6mm) can be effectively read.

The embodiment provides a production method of anti-fake source code of can product, spout anti-fake source code image of tracing to through using stealthy printing ink to spout a yard technique on can product for the image is stealthy invisible, avoided being artificial maliciously to destroy, simultaneously because image unit area is little, can spout the seal in succession by a large scale, the condition that can't discern when having avoided image part region to appear stained has improved can product's anti-fake performance, the anti-fake of can product prevents the goods scurrying effect further strengthened can product.

Example 2

In this embodiment, as shown in fig. 4, another schematic flow chart of a method for producing an anti-counterfeiting traceability code for a tin can product is further detailed in the above embodiment 1, and the method for producing the anti-counterfeiting traceability code for a tin can product includes:

s210, generating an anti-counterfeiting source tracing code image through a correlation algorithm;

s220, carrying out assignment operation on the anti-counterfeiting traceability codes, and endowing traceability information of the iron can product to the anti-counterfeiting traceability code image;

s230, performing surface treatment on the iron can product;

s240, spraying and printing the anti-counterfeiting source tracing code image subjected to code marking in the spraying area of the iron can product through a code spraying technology;

and S250, verifying the anti-counterfeiting tracing code after spray printing. As shown in fig. 5, which is a flowchart for verifying the anti-counterfeit source code after the inkjet printing provided in this embodiment, the method includes:

s251, reading the information of the anti-counterfeiting tracing source code image subjected to jet printing through a reading device;

s252, if the reading is successful, obtaining the information related to the traceability of the iron can product, and packaging and selling the iron can product;

and S253, if the reading fails, rotating the iron can product by a preset angle, returning to the step of spraying and printing the anti-counterfeiting source tracing code image subjected to the code endowing in the spraying area of the iron can product by a code spraying technology, and spraying and printing again until the reading succeeds.

The preset angle can be random, and the anti-counterfeiting traceability codes are not repeatedly printed in the same spraying area as long as the spraying area of the anti-counterfeiting traceability codes is not in the same position.

By checking the anti-counterfeiting traceability codes after spray printing, the error code problem generated by spray printing can be eliminated, and the accuracy of inspection of the channel conflict of the iron can products is improved.

S260, performing anti-counterfeiting traceability identification on the iron can product according to the logistics information, wherein the identification step comprises the following steps:

identifying the authenticity information of the anti-counterfeiting traceability code of the iron can product, wherein if the identification is successful, the product is a genuine product; if the identification fails, the commodity is indicated as a counterfeit;

matching the allowable operation range of the iron can product with the dealer scanning address information, wherein if the matching is successful, the commodity is not channel conflict; if the matching fails, indicating that the commodity has channel conflict;

matching the allowable operation range of the iron can product with the address information scanned by the consumer, wherein if the matching is successful, the commodity does not channel conflict; and if the matching fails, indicating that the commodity has channel conflict.

Further, the authenticity information of the anti-counterfeiting traceability code of the iron can product is identified by scanning the anti-counterfeiting traceability code image by using identification equipment to obtain an identification result:

if the anti-counterfeiting tracing code image can be identified and jumps to a logistics interface, the anti-counterfeiting tracing code is true, and the identification is successful; if the anti-counterfeiting tracing code image cannot be identified, the anti-counterfeiting tracing code is false, and the identification fails.

Further, the dealer scanning address information and the consumer scanning address information are obtained by using the reading device to scan the current geographic position of the anti-counterfeiting source code image.

According to the production method of the anti-counterfeiting traceability code of the iron can product, provided by the embodiment of the invention, the anti-counterfeiting and anti-channel conflict effects of the iron can product are further enhanced by combining the logistics information and using the big data analysis system, the safety of the iron can product is improved, and the efficiency and the accuracy of inspecting the channel conflict of the iron can product are improved.

Example 3

Fig. 6 is a block diagram of a production system of an anti-counterfeiting traceability code for a tin can product. The embodiment can be suitable for the production of anti-counterfeiting traceability codes for iron can products. As shown in fig. 6, the system for producing the anti-counterfeiting traceability code of the iron can product comprises: an image generation module S310, a coding module S320, a surface processing module S330 and a jet printing module S340, wherein:

the image generation module S310 is used for generating an anti-counterfeiting source tracing code image through a correlation algorithm;

the code assigning module S320 is used for assigning the anti-counterfeiting traceability code and assigning the traceability information of the iron can product to the anti-counterfeiting traceability code image;

the surface treatment module S330 is used for carrying out surface treatment on the iron can product;

and the spray printing module S340 is used for spray printing the anti-counterfeiting source tracing code image subjected to code marking in the spraying area of the iron can product through a code spraying technology.

Further, the anti-counterfeiting tracing system further comprises a checking module used for checking the anti-counterfeiting tracing code after the jet printing. The checking step comprises the following steps:

reading the information of the anti-counterfeiting tracing source code image subjected to jet printing through a reading device;

if the reading is successful, obtaining the information related to the traceability of the iron can product, and packaging and selling the iron can product;

and if the reading fails, rotating the iron can product by a preset angle, returning to the step of spraying and printing the anti-counterfeiting source tracing code image with the assigned code in the spraying area of the iron can product by a code spraying technology, and spraying and printing again until the reading succeeds.

And the system further comprises an identification module used for carrying out anti-counterfeiting traceability identification on the iron can product according to the logistics information. The identification step comprises:

identifying the authenticity information of the anti-counterfeiting traceability code of the iron can product, wherein if the identification is successful, the product is a genuine product; if the identification fails, the commodity is indicated as a counterfeit;

matching the allowable operation range of the iron can product with the dealer scanning address information, wherein if the matching is successful, the commodity is not channel conflict; if the matching fails, indicating that the commodity has channel conflict;

matching the allowable operation range of the iron can product with the address information scanned by the consumer, wherein if the matching is successful, the commodity does not channel conflict; and if the matching fails, indicating that the commodity has channel conflict.

Further, the authenticity information of the anti-counterfeiting traceability code of the iron can product is identified by scanning the anti-counterfeiting traceability code image by using identification equipment to obtain an identification result:

if the anti-counterfeiting tracing code image can be identified and jumps to a logistics interface, the anti-counterfeiting tracing code is true, and the identification is successful; if the anti-counterfeiting tracing code image cannot be identified, the anti-counterfeiting tracing code is false, and the identification fails.

Further, the dealer scanning address information and the consumer scanning address information are obtained by using the reading device to scan the current geographic position of the anti-counterfeiting source code image.

The anti-counterfeiting tracing code unit in the production system of the anti-counterfeiting tracing code of the iron tank product provided by the invention is used as an information carrier, the area of the anti-counterfeiting tracing code unit is small, and the invisible ink code spraying technology is adopted, so that the anti-counterfeiting tracing code unit is completely invisible on the iron tank product, and has extremely strong copying resistance and destructive resistance, and even if the iron tank product is damaged and stained carelessly in the transportation process or is damaged by man-made malice, only a small unit area is left, and the anti-counterfeiting tracing code unit can be effectively read by using a special reading instrument. Therefore, the invisible anti-counterfeiting traceability code can effectively guarantee the validity of traceability information and the authenticity of products, attack the phenomenon of channel conflict and strengthen the trust of consumers on brands.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the present invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined by the appended claims and their equivalents.

Claims (16)

1. The utility model provides an anti-fake code of tracing to source of iron can goods which characterized in that includes:

generating an anti-counterfeiting traceability code image, performing assignment operation on the anti-counterfeiting traceability code image, and endowing traceability information of the iron can product to the anti-counterfeiting traceability code image;

and spraying and printing the anti-counterfeiting source tracing code image subjected to value assignment in a spraying area of the iron can product.

2. The anti-counterfeiting traceability code of the iron can product as claimed in claim 1, wherein the anti-counterfeiting traceability code in the anti-counterfeiting traceability code image is a sparse dot matrix code.

3. The anti-counterfeiting traceability code of the iron can product as claimed in claim 2, wherein the sparse dot matrix code is a logical intelligence code.

4. The anti-counterfeiting traceability code of the iron can product as claimed in claim 1 or 2, wherein the anti-counterfeiting traceability code image comprises a plurality of sub anti-counterfeiting traceability code units, and each sub anti-counterfeiting traceability code unit comprises information related to the iron can product traceability.

5. The anti-counterfeiting traceability code of the iron can product as claimed in claim 4, wherein the sub anti-counterfeiting traceability code unit of the anti-counterfeiting traceability code image at least comprises the following information:

the anti-counterfeiting tracing code comprises authenticity information of the anti-counterfeiting tracing code, manufacturer information and producing area information of the iron can product, dealer information, distributing area information and logistics information of the iron can product.

6. The anti-counterfeiting traceability code of the iron can product as claimed in claim 1, wherein the spraying area of the iron can product is an area subjected to surface treatment comprising electroplating, film coating and/or plasma treatment.

7. The anti-counterfeiting traceability code of the iron can product as claimed in claim 1 or 6, wherein the spraying area of the iron can product is located on the side surface of the iron can product or on the bottom surface of the iron can product.

8. A method for producing an anti-counterfeiting traceability code of a can product according to any one of claims 1 to 6, comprising at least:

generating an anti-counterfeiting source tracing code image;

performing assignment operation on the anti-counterfeiting traceability code image, and giving traceability information of the iron can product to the anti-counterfeiting traceability code image;

setting a spraying area on the surface of the iron can product, and carrying out surface treatment on the spraying area;

and spraying and printing the assigned anti-counterfeiting source tracing code image in the spraying area of the iron can product by a code spraying technology.

9. The method for producing the anti-counterfeiting traceability code of the iron can product as claimed in claim 7, wherein the anti-counterfeiting traceability code image is jet-printed by using invisible ink.

10. The method for producing the anti-counterfeiting traceability code of the iron can product as claimed in claim 8 or 9, wherein the anti-counterfeiting traceability code image is subjected to verification on the anti-counterfeiting traceability code after the spray printing is completed.

11. The method for producing the anti-counterfeiting traceability code of the iron can product as claimed in claim 10, wherein the verification of the anti-counterfeiting traceability code comprises:

reading the information of the anti-counterfeiting tracing source code image subjected to jet printing through a reading device;

if the reading is successful, obtaining the information related to the traceability of the iron can product, and packaging and selling the iron can product;

and if the reading fails, rotating the iron can product by a preset angle, returning to the step of spraying and printing the assigned anti-counterfeiting traceability code image in the spraying area of the iron can product by a code spraying technology, and spraying and printing again until the reading succeeds.

12. The method for producing the anti-counterfeiting traceability code of the iron can product as claimed in claim 8 or 9, comprising:

and performing anti-counterfeiting tracing identification on the iron can product according to the logistics information.

13. The method for producing the anti-counterfeiting traceability code of the iron can product according to claim 12, wherein the anti-counterfeiting traceability authentication of the iron can product according to the logistics information comprises the following steps:

identifying the authenticity information of the anti-counterfeiting traceability code of the iron can product, wherein if the identification is successful, the product is a genuine product; if the identification fails, the commodity is indicated as a counterfeit;

matching the allowable operation range of the iron can product with the dealer scanning address information, wherein if the matching is successful, the commodity is not channel conflict; if the matching fails, indicating that the commodity has channel conflict;

matching the allowable operation range of the iron can product with the address information scanned by the consumer, wherein if the matching is successful, the commodity does not channel conflict; and if the matching fails, indicating that the commodity has channel conflict.

14. The method for producing the anti-counterfeiting traceability code of the iron can product as claimed in claim 13, wherein the identification of the authenticity information of the anti-counterfeiting traceability code of the iron can product is obtained by scanning an anti-counterfeiting traceability code image with a reading device:

if the anti-counterfeiting tracing code image can be identified and jumps to a logistics interface, the anti-counterfeiting tracing code is true, and the identification is successful; if the anti-counterfeiting tracing code image cannot be identified, the anti-counterfeiting tracing code is false, and the identification fails.

15. The method of claim 13, wherein the dealer scanned address information and the customer scanned address information are both obtained from a current geographic location of the anti-counterfeit code image when scanned using the reader device.

16. A system for producing anti-counterfeiting traceability codes of iron can products according to any one of claims 1 to 7, comprising:

the image generation module is used for generating an anti-counterfeiting source tracing code image through a correlation algorithm;

the code assigning module is used for assigning the anti-counterfeiting traceability code and assigning the traceability information of the iron can product to the anti-counterfeiting traceability code image;

the surface treatment module is used for setting a spraying area for the iron can product and carrying out surface treatment on the spraying area;

and the spray printing module is used for spray printing the assigned anti-counterfeiting source tracing code image in the spraying area of the iron can product through a code spraying technology.

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