CN106128295A - Anti-transfer mark patch with variable parsing Quick Response Code and preparation method thereof - Google Patents

Abstract

The present invention discloses a kind of anti-transfer mark patch with variable parsing Quick Response Code and preparation method thereof.Specifically, it is open-type anti-transfer digital code anti-false identification patch with variable parsing Quick Response Code and preparation method thereof.It includes oiliness light oil reservoir, variable data layer, the first water-based gloss oil layer, surface printing layer, ply of paper, plasticizing layer, dielectric layer, the second water-based gloss oil layer, white ink layer, glue layer, silicon layer, ground paper layer and black ink layer, it is characterized between oiliness light oil reservoir and variable data layer having variable analytic sheaf, between the second water-based gloss oil layer and white ink layer, has variable checking data Layer.This mark label, the most reproducible after reuse, antifalse effect is good, can play false proof purpose.

Description

Anti-transfer identification sticker with variable resolution two-dimensional code and preparation method thereof

Technical Field

The invention relates to an anti-counterfeiting label and a preparation method thereof. In particular to an uncovering type anti-transfer digital anti-counterfeiting label with a variable analytic two-dimensional code and a preparation method thereof.

Background

At present, the anti-transfer anti-fake mark structure with the two-dimensional code on the commodity is basically composed of 5 layers of the two-dimensional code, a surface printing layer, an uncovering layer, a paper layer, a glue layer and a bottom paper layer. Most scanning results of the two-dimensional codes are accumulated point exchange, WeChat public numbers, website links and the like, and the two-dimensional codes are used in combination with anti-counterfeiting digital inquiry, so that the anti-counterfeiting convenience is provided for counterfeiters. The information of the uncovering layer is mostly variable codes and can only be inquired, a counterfeiter can copy the variable codes and slightly change the variable codes, the variable codes can still be used for batch counterfeiting, the variable codes can be inquired in a preset background website, and the verification function is not provided. Therefore, the anti-transfer anti-fake mark with the two-dimensional code has poor anti-fake effect and is difficult to achieve the anti-fake purpose.

Disclosure of Invention

The invention aims to provide an anti-transfer identification sticker with a variable resolution two-dimensional code. The label can be used repeatedly after being not copied, has good anti-counterfeiting effect and can achieve the anti-counterfeiting purpose.

Another problem to be solved by the present invention is to provide a method for manufacturing a transfer prevention sticker with a variable resolution two-dimensional code.

The above problems to be solved by the present invention are realized by the following technical solutions:

the anti-transfer identification sticker with the variable resolution two-dimensional code comprises an oily gloss oil layer, a variable data layer, a first aqueous gloss oil layer, a surface printing layer, a paper layer, a plasticizing layer, a dielectric layer, a second aqueous gloss oil layer, a white ink layer, a glue layer, a silicon oil layer, a bottom paper layer and a black ink layer, and is characterized in that the variable resolution layer is arranged between the oily gloss oil layer and the variable data layer, and the variable verification data layer is arranged between the second aqueous gloss oil layer and the white ink layer.

Wherein,

the variable analysis layer is formed by printing variable analysis data on one side of the variable data layer.

The variable verification data is formed by printing variable fiber lines and color variable data on one surface of the second aqueous varnish layer.

The base paper layer is glassine base paper;

the glue layer 12 is rubber type glue;

the method for preparing the anti-transfer identification sticker with the variable analytic two-dimensional code is characterized by sequentially comprising the following steps of:

preparing o-phenylphenol and a paper layer, wherein the paper layer is coated paper;

then, heating o-phenylphenol to be molten, and uniformly coating the o-phenylphenol on the non-copper surface of the paper layer to obtain a plasticized layer;

then, printing the content such as pre-designed patterns, characters or enterprise marks on the non-plasticized surface of the paper layer by using a letterpress rotary printing machine to obtain a surface printing layer;

then, uniformly coating a layer of water-based gloss oil on the surface printing layer by using a flexographic printing machine to obtain a first water-based gloss oil layer;

then, printing variable data such as two-dimensional codes, anti-counterfeiting codes and the like on the first aqueous gloss oil layer by using a digital printer to obtain a variable data layer;

then, printing variable analysis data on the variable data layer to obtain a variable analysis layer;

then, printing a layer of oily gloss oil on the variable analysis layer by a flexographic printing machine in a full-page manner to obtain an oily gloss oil layer;

then, coating acrylic resin on the plasticized surface of the plasticized layer by using a gravure printing machine to obtain a dielectric layer;

then, uniformly coating a layer of water-based gloss oil on the dielectric layer by using a flexographic printing machine to obtain a second water-based gloss oil layer;

then, printing variable fiber patterns and variable data on the second aqueous gloss oil layer by using a digital printer to obtain a variable verification data layer;

then, coating white ink on the variable verification data layer by using a gravure printing machine to obtain a white ink layer;

then, uniformly coating a layer of release silicone oil on one surface of the base paper layer by using a coating machine to obtain a silicone oil layer; the base paper layer is glassine base paper;

then, coating black printing ink on the non-silicone oil surface of the bottom paper layer by using a coating machine to obtain a black printing ink layer;

then, uniformly coating glue on the silicon oil layer by using a coating machine to obtain a glue layer; the glue is rubber glue;

and finally, compounding the glue layer and the white ink layer together to obtain the anti-transfer label with the variable analytic two-dimensional code.

According to the scheme, the variable analysis layer is arranged between the oily varnish layer and the variable data layer, and the variable analysis two-dimensional code technology is utilized, so that only information in the two-dimensional code can be read after copying, the content in the variable analysis cannot be read, and the variable analysis cannot be reused after copying. The two-dimensional code has the tracing and inquiring functions and also has the anti-counterfeiting function.

And because a variable verification data layer is arranged between the second water-based gloss oil layer and the white ink layer, a fiber pattern verification technology is applied, and variable data is converted into fiber patterns with random variable colors, positions, lengths and sizes by using a computer algorithm and is combined with two-dimensional code verification. When the anti-counterfeiting variable data verification layer is used, the two-dimensional code is scanned, anti-counterfeiting variable information is obtained, a link website is clicked, and whether preset verification fiber grains in the website are consistent with colors and arrangements in the variable data verification layer or not is checked. If the two are consistent, the product is a genuine product. Otherwise, the product is a counterfeit product, thereby realizing the anti-counterfeiting purpose.

Drawings

Fig. 1 is a schematic structural view of the anti-transfer label with the variable resolution two-dimensional code of the invention.

Detailed Description

As shown in fig. 1, the anti-migration label with a variable resolution two-dimensional code of the present invention includes an oily gloss oil layer 1, a variable data layer 3, a first aqueous gloss oil layer 4, a surface printing layer 5, a paper layer 6, a plasticizing layer 7, a dielectric layer 8, a second aqueous gloss oil layer 9, a white ink layer 11, a glue layer 12, a silicon oil layer 13, a base paper layer 14, and a black ink layer 15, and is characterized in that a variable resolution layer 2 is disposed between the oily gloss oil layer 1 and the variable data layer 3, and a variable verification data layer 10 is disposed between the second aqueous gloss oil layer 9 and the white ink layer 11. Wherein: the base paper layer 14 is glassine base paper, and the glue layer 12 is rubber type glue.

The method for preparing the anti-transfer label with the variable analytic two-dimensional code sequentially comprises the following steps:

firstly, o-phenylphenol and a paper layer 6 are prepared, wherein the paper layer 6 is coated paper;

then, heating o-phenylphenol to be molten, and uniformly coating the o-phenylphenol on the non-copper plate surface of the paper layer 6 by using a coating machine to obtain a plasticizing layer 7;

then, printing the pre-designed pattern, character or enterprise mark on the copper plate surface (and one surface without the plasticizing layer 7) of the paper layer 6 by a letterpress rotary press to obtain a surface printing layer 5;

then, uniformly coating a layer of water-based gloss oil on the surface printing layer 5 by using a flexographic printing machine to obtain a first water-based gloss oil layer 4;

then, printing variable data such as two-dimensional codes and anti-counterfeiting codes on the first water-based gloss oil layer 4 by using a digital printer to obtain a variable data layer 3;

then, printing variable analysis data on the variable data layer 3 to obtain a variable analysis layer 2;

then, printing a layer of oily gloss oil on the variable analysis layer 2 in a full-page manner by using a flexible printing machine to obtain an oily gloss oil layer 1;

then, coating acrylic resin on the plasticized surface of the plasticized layer 7 by using a gravure printing machine to obtain a dielectric layer 8;

then, uniformly coating a layer of water-based gloss oil on the dielectric layer 8 by using a flexographic printing machine to obtain a second water-based gloss oil layer 9;

then, printing variable fiber patterns and variable data on the second aqueous gloss oil layer 9 by using a digital printer to obtain a variable verification data layer 10;

then, white ink is coated on the variable verification data layer 10 by using a gravure printing machine to obtain a white ink layer 11;

then, uniformly coating a layer of release silicone oil on one surface of the base paper layer 14 by using a coating machine to obtain a silicone oil layer 13;

then, coating black ink on the non-silicone oil surface of the base paper layer 14 by using a coating machine to obtain a black ink layer 15;

then, uniformly coating glue on the silicon oil layer 13 by using a coating machine to obtain a glue layer 12;

and finally, combining the glue layer 12 and the white ink layer 11 together to manufacture the anti-transfer label with the variable analytic two-dimensional code.

When in use, the anti-counterfeiting mark is peeled off from the base paper layer 14, so that the glue layer 12 is separated from the silicon oil layer 13 and is adhered to an object to be adhered. During identification, the anti-counterfeiting mark is uncovered, so that the plasticizing layer 7 is separated from the medium layer 8. Firstly, scanning the surface two-dimensional code to obtain anti-counterfeiting variable information, clicking a link website, and checking whether preset verification fiber grains in the website are consistent with the color and the arrangement in the variable data verification layer 10. Then, the anti-counterfeiting digital code is inquired through the explanatory characters of the surface printing layer to distinguish the authenticity. And then, analyzing the variable analysis layer 2 on the surface by using the decoding piece, comparing the variable data obtained by analysis with the last 4 bits of the anti-counterfeiting code in the variable data layer 3 and the data in the variable data verification layer 10, and if the variable data are consistent, determining that the product is a genuine product. Otherwise, it is a counterfeit.

Claims (6)

1. Prevent shifting sign subsides with variable analytic two-dimensional code, including oily gloss oil layer (1), variable data layer (3), first waterborne gloss oil layer (4), surface printing layer (5), ply (6), plastify layer (7), dielectric layer (8), second waterborne gloss oil layer (9), white printing ink layer (11), glue layer (12), silicon oil layer (13), ground paper layer (14) and black printing ink layer (15), have variable analytic layer (2) between its characterized in that oily gloss oil layer (1) and variable data layer (3), have between second waterborne gloss oil layer (9) and white printing ink layer (11) variable verification data layer (10).

2. The anti-transfer label with variable resolution two-dimensional code according to claim 1, wherein the variable resolution layer (2) is formed by printing variable resolution data on one side of the variable data layer (3).

3. The anti-transfer label with variable resolution two-dimensional code according to claim 1, characterized in that the variable authentication data layer (10) is formed by printing variable fiber patterns and color variable data on one side of the second aqueous varnish layer (9).

4. The anti-transfer label with the variable resolution two-dimensional code according to claim 1, wherein the base paper layer is glassine base paper.

5. The anti-transfer label with the variable analytic two-dimensional code according to claim 1, characterized in that the glue layer (12) is rubber-type glue.

6. The method for preparing the anti-transfer label with the variable resolution two-dimensional code as claimed in claim 1, which is characterized by sequentially comprising the following steps:

preparing o-phenylphenol and a paper layer, wherein the paper layer is coated paper;

then, heating o-phenylphenol to be molten, and uniformly coating the o-phenylphenol on the non-copper plate surface of the paper layer (6) to obtain a plasticizing layer (7);

then, printing the content such as pre-designed patterns, characters or enterprise marks on the non-plasticized surface of the paper layer (6) by using a letterpress rotary printing machine to obtain a surface printing layer (5);

then, uniformly coating a layer of water-based gloss oil on the surface printing layer (5) by using a flexographic printing machine to obtain a first water-based gloss oil layer (4);

then, printing variable data such as two-dimensional codes, anti-counterfeiting codes and the like on the first water-based gloss oil layer by using a digital printer to obtain a variable data layer (3);

then, printing variable analysis data on the variable data layer (4) to obtain a variable analysis layer (2);

then, printing a layer of oily gloss oil on the variable analysis layer (2) in a full-page manner by using a flexographic printing machine to obtain an oily gloss oil layer (1);

then, coating acrylic resin on the plasticizing surface of the plasticizing layer (7) by using a gravure printing machine to obtain a dielectric layer (8);

then, uniformly coating a layer of water-based gloss oil on the dielectric layer (8) by using a flexographic printing machine to obtain a second water-based gloss oil layer (9);

then, printing variable fiber textures and variable data on the second water-based varnish layer (9) by using a digital printer to obtain a variable verification data layer (10);

then, coating white ink on the variable verification data layer (10) by using a gravure printing machine to obtain a white ink layer (11);

then, uniformly coating a layer of release silicone oil on one surface of the base paper layer (14) by using a coating machine to obtain a silicone oil layer (13); the base paper layer is glassine base paper;

then, coating black printing ink on the non-silicone oil surface of the base paper layer (14) by using a coating machine to obtain a black printing ink layer (15);

then, uniformly coating glue on the silicon oil layer (13) by using a coating machine to obtain a glue layer (12); the glue is rubber glue;

and finally, compounding the glue layer (12) and the white ink layer (11) together to obtain the anti-transfer label with the variable analytic two-dimensional code.