WO2014019326A1

WO2014019326A1 - Anti-counterfeiting identification label and preparation method therefor

Info

Publication number: WO2014019326A1
Application number: PCT/CN2012/087748
Authority: WO
Inventors: 李华容
Original assignee: Li Huarong
Priority date: 2012-08-02
Filing date: 2012-12-28
Publication date: 2014-02-06
Also published as: CN103578349B; CN103578349A

Abstract

Disclosed are an anti-counterfeiting identification label and the preparation method therefor; the anti-counterfeiting identification label (10) is a multi-layer structure; the surface of the surface layer of the anti-counterfeiting identification label (10) comprises a laser holographic pattern (10a), and a two-dimensional code pattern (10b); the laser holographic pattern (10a) and the two-dimensional code pattern (10b) form a combination pattern; the anti-counterfeiting identification label (10) in the area of the laser holographic pattern (10a) comprises, in sequence from the surface layer to the inner layer, a thin film layer (11), a releasing layer (12), an imaging layer (13), an aluminum plated layer (14) and a glue layer (15); the area of the two-dimensional code pattern (10b) comprises a plurality of square subareas (10ba); the anti-counterfeiting identification label (10) in the plurality of square subareas (10ba) comprises, in sequence from the surface layer to the inner layer, a thin film layer (11), a releasing layer (12), and a glue layer (15); the anti-counterfeiting identification label (10) in the area of the laser holographic pattern (10a) and the anti-counterfeiting identification label (10) in the square subareas (10ba) share the thin film layer (11), the releasing layer (12), and the glue layer (15).

Description

Anti-counterfeiting mark and manufacturing method thereof

[Technical Field]

The invention belongs to the technical field of anti-counterfeiting security, and relates to an anti-counterfeiting mark and a manufacturing method thereof. 【Background technique】

Anti-counterfeiting is to solve a problem that is not easy to forge and easy to identify. Modern anti-counterfeiting is mainly used in industrialization and commercialization. There is only one merchant producing goods, but there are [products]. The purpose of anti-counterfeiting is mainly to distinguish the products of different merchants. At present, there are two common methods for using anti-counterfeiting: One is that the consumer can directly realize the authenticity and identification through the naked eye without the aid of tools. The principle is to use special printing technology to make anti-counterfeiting marks, such as laser holographic anti-counterfeiting, while the general-purpose laser holographic hot stamping foil is easy to produce, the cost is not high, but the anti-counterfeiting effect is not ideal. The visual characteristics of laser holographic anti-counterfeiting come from the master, and the advanced nature and exclusiveness of the master technology directly affect the degree of anti-counterfeiting. For the well-known reasons, the higher the popularization procedure of the master technology, the lower the anti-counterfeiting program becomes. Although the hologram cannot be 100% copied, it can be imitated by using the same technique, and the similarity can reach more than 90%. For commodity anti-counterfeiting, this is an invalid anti-counterfeiting.

The other is that consumers need tools to realize the identification of authenticity. The QR code has the advantages of large storage capacity, high confidentiality, high traceability, and low cost. However, it does not have anti-counterfeiting function. Applied in the field of commodity anti-counterfeiting, special equipment and systems are needed to identify. However, to apply the QR code itself in the field of commodity anti-counterfeiting, the non-counterfeiting problem of the QR code anti-counterfeiting label itself should be solved first, that is, the anti-counterfeiting of the logo itself.

In order to improve the anti-counterfeiting performance of the laser holographic anti-counterfeiting mark, some companies have adopted various methods to attach various information to the ordinary anti-counterfeit hot stamping foil, for example, attaching digital code to the anti-counterfeit hot stamping foil by printing or laser marking. Images, QR codes, etc., but there are always some shortcomings.

For example, the Chinese invention patent with the patent number 200920289097.7 discloses a composite anti-counterfeiting mark, which is composed of two layers of anti-counterfeit layers, and the first anti-counterfeit layer of the surface layer is a laser holographic anti-counterfeiting layer, which is composed of a plastic carrier. The film layer, the information recording layer, and the aluminum plating layer are formed. The second anti-counterfeiting layer of the bottom layer is one of anti-counterfeiting technologies such as a barcode, a two-dimensional code and a telephone number, and is formed by stacking a barcode or a two-dimensional code or a telephone code layer, a plastic film layer and an adhesive layer. A separation layer is disposed between the first security layer and the second security layer, and is connected as a whole by means of an adhesive layer. When it is required to read the second security layer information, the first security layer may be uncovered from the surface of the second security layer.

The anti-counterfeiting label disclosed in the above patent has the above problems: When the consumer uses it, the first layer can only be scraped off, the digital code is found, and the digital code is sent to the system by means of telephone, network, short message, etc., and the system can perform feedback to identify the genuine product. Pseudo, inconvenient to use, and anti-counterfeiting labels can not be combined with commodity packaging, the consumer's reception is not high.

Patent No. 02270995.9, the Chinese invention patent discloses a holographic shrink digital two-dimensional code anti-counterfeiting mark, which is sequentially printed by a digital code, that is, a two-dimensional code anti-counterfeiting layer, a color printing machine, a micro-anti-counterfeit composite layer, and a pressure-sensitive adhesive layer. The laser holographic image is formed by superposition and composite, and the local holographic image is formed on the digital code and the two-dimensional code security layer. The anti-counterfeiting mark is integrated with local holography technology, plastic micro-reduction technology, digital code technology and two-dimensional code technology. Multiple anti-counterfeiting, the digital code and the two-dimensional code are attached by printing, the wear resistance is poor, and more information patterns are combined together, which is slightly complicated, and further, the production of the anti-counterfeit mark It involves a variety of processes, which are more complicated. The laser holography technology used has lost the anti-counterfeiting function, which will increase the production cost and is not conducive to popularization on common commodities.

To this end, the Chinese invention patent of the patent No. 201110119875.X discloses a composite multifunctional anti-counterfeiting mark combined with a two-dimensional code and an optically variable image, and the two-dimensional code is processed by using a high-energy laser beam to carry the two-dimensional code. The aluminized layer material in the background pattern of the marking area is selectively vaporized, and the film layer is retained to obtain a two-dimensional code pattern composed of a blank and a background pattern. Since the aluminum-plated layer material is vaporized by the high-energy laser beam, it is necessary to evacuate the vaporized aluminized layer material by using a vacuum device, which needs to be carried out in a closed environment, and the gaseous aluminum-plated layer material that is removed is not polluted. It needs to be processed, and because the laser head of the high-energy laser beam also needs to be driven by mechanical automation, the whole equipment costs are high.

[Summary of the Invention] The object of the present invention is to solve the problems existing in the prior art, and to propose a new anti-counterfeiting mark and a manufacturing method thereof.

The specific technical solutions of the present invention are as follows:

The present invention provides an anti-counterfeit mark, wherein the anti-counterfeit mark is a multi-layer structure, and the surface of the anti-counterfeit mark surface layer includes a laser hologram pattern and a two-dimensional code pattern, and the laser hologram pattern and the two-dimensional code pattern form a combined pattern. The anti-counterfeiting identifier of the area where the laser holographic pattern is located includes a film layer, a release layer, an imaging layer, an aluminized layer and a glue layer from the surface layer to the inner layer, and the region of the two-dimensional code pattern includes a plurality of square sub-regions. The anti-counterfeiting identifiers of the plurality of square sub-regions include a film layer, a release layer and a glue layer in sequence from the surface layer to the inner layer, and the anti-counterfeiting mark of the area where the laser hologram pattern is located and the anti-counterfeit mark of the square sub-area share the film layer and the release type. Layer and glue layer.

Also included between the aluminized layer and the watering layer is a coating applied to the aluminized layer.

The two-dimensional code information corresponding to the two-dimensional code pattern corresponds to the combined pattern in a database. The surface of the surface of the anti-counterfeit label is printed with an electric eye mark, and the electric eye mark is located at the periphery of the area where the laser hologram pattern is located and the area where the two-dimensional code pattern is located, and the two-dimensional code information and the two-dimensional code pattern of the two-dimensional code pattern are The relative position information of the electric eye mark, the relative position information of the laser hologram pattern and the electric eye mark, and the combination pattern correspond in the database.

The electrical eye logo includes at least three crosses, squares, or dots at different locations.

The present invention also provides a method for fabricating an anti-counterfeit mark as described above, characterized in that the method comprises the following steps:

(1) coating a release agent on the back side of the transparent plastic film, and drying and curing the release agent to form a release layer;

(2) then applying a transfer coating having an imaging function on the release layer, and then drying and curing the transfer coating to form an image forming layer;

(3) performing molding on a molding machine to copy the laser hologram pattern onto the image forming layer;

(4) vacuum plating aluminum on the image forming layer;

(5) printing a curing ink corresponding to the two-dimensional code pattern on the aluminum plating layer;

(6) compounding the film or the thin paper on the aluminum plating layer, and then curing the curing ink;

(7) separating the film or tissue from the aluminized layer, and aluminizing and printing the cured ink. The transfer coating forming the image forming layer is transferred onto the film or the thin paper to form a corresponding hollow in the two-dimensional code pattern, and the hollow region comprises a film layer and a release layer;

(8) Applying a viscous glue to the release layer of the aluminized layer and the hollow region.

The method further includes:

After vacuum aluminum plating on the image forming layer, a coating is applied on the aluminum plating layer, and after drying, the cured ink corresponding to the two-dimensional code pattern is printed on the coating.

The method further includes:

After the full-coating glue is applied on the release layer of the aluminized layer and the hollow region, the combined pattern having the two-dimensional code pattern and the laser holographic pattern is scanned into the anti-counterfeiting system, and the two-dimensional code pattern and the laser hologram are The combined pattern of the patterns corresponds to the two-dimensional code information corresponding to the two-dimensional code pattern.

The method further includes:

Molding on the molding machine, before copying the laser holographic pattern onto the image forming layer, first printing the electric eye mark on a random position on the front side of the plastic film, and then detecting the position of the electric eye mark by the detecting device of the electric eye mark, and holographic laser holography After the pattern is copied onto the imaging layer, the relative position of the laser hologram pattern and the electric eye mark is recorded into the anti-counterfeiting system;

After printing the curing ink corresponding to the two-dimensional code pattern at a random position of the aluminized layer, recording the relative position of the two-dimensional code pattern and the electric eye mark into the anti-counterfeiting system;

According to the relative position of the two-dimensional code pattern and the electric eye mark, the relative position of the laser hologram pattern and the electric eye mark, the laser hologram pattern and the two-dimensional code pattern, a combined pattern having a two-dimensional code pattern and a laser hologram pattern is generated in the anti-counterfeiting system. And the combined pattern corresponds to the two-dimensional code information corresponding to the two-dimensional code pattern.

The electric eye identifier is located at a periphery of an area where the laser hologram pattern is located and a region where the two-dimensional code pattern is located, and the electric eye mark includes at least three crosses, squares or dots at different positions.

The curing ink is a heat curing ink or a light curing ink.

The plastic film, film or tissue may be in the form of a roll or a flat sheet.

The beneficial technical effects of the present invention are:

After the cured ink is printed on the aluminum-plated layer, and the aluminum-plated layer is adhered to the film or the thin paper by curing the cured ink, the film paper is removed, so that the aluminum plated with the cured ink is also followed by the film or the thin paper. Together with the anti-counterfeiting mark, the hollowed aluminum layer is formed, the plastic film layer and the release layer are retained, and the printed curing ink corresponds to the two-dimensional code pattern, so that the anti-counterfeit mark of the present invention can be realized. The method of the dimension code pattern, the method is simple, and the cost is low.

Coating the aluminum coating layer is more advantageous for separating the aluminum plating layer from the release layer.

Corresponding to the two-dimensional code information corresponding to the two-dimensional code pattern and the combination pattern in the database of the anti-counterfeiting system, the anti-counterfeiting of the two-dimensional code pattern and the anti-counterfeiting of the laser holographic pattern can be avoided, thereby avoiding the identification of the laser holographic pattern alone. The problem is that the relative position of the two-dimensional code pattern and the laser hologram pattern in each anti-counterfeit mark are different, and the counterfeiter is also difficult to use reverse engineering to imitate the anti-counterfeit mark, so it has the characteristics of high anti-counterfeiting.

According to the relative position of the two-dimensional code pattern and the electric eye mark, the relative position of the laser hologram pattern and the electric eye mark, the laser hologram pattern and the two-dimensional code pattern, a combination pattern having a two-dimensional code pattern and a laser hologram pattern is generated in the anti-counterfeiting system. It is not necessary to scan a combined pattern having a two-dimensional code pattern and a laser hologram pattern into the anti-counterfeiting system, which can save production cost and production time.

[Description of the Drawings]

1 is a plan view of an anti-counterfeiting mark according to Embodiment 1 of the present invention;

2 is a perspective view showing the unfolded level of the anti-counterfeit mark according to Embodiment 1 of the present invention;

3 is a flowchart of a method for manufacturing an anti-counterfeit mark according to Embodiment 1 of the present invention;

4 is a plan view of an anti-counterfeiting mark according to Embodiment 2 of the present invention;

Figure 5 is a side elevational perspective view showing the anti-counterfeiting mark of Embodiment 2 of the present invention;

FIG. 6 is a flowchart of a method for manufacturing an anti-counterfeiting mark according to Embodiment 2 of the present invention.

【detailed description】

The present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1

This embodiment provides an anti-counterfeiting identifier, as shown in FIG. 1, from the surface of the anti-counterfeiting label (the surface layer is thin The anti-counterfeit mark 10 includes a laser hologram pattern area 10a and a two-dimensional code pattern area 10b, and the laser hologram pattern area 10a is printed with a laser hologram pattern, and the two-dimensional code pattern area 10b is printed. The two-dimensional code pattern, as shown in FIG. 2, from the side structure of the anti-counterfeit mark, the anti-counterfeit mark includes a film layer 1 1 , a peeling layer 12 , an image forming layer 13 , an aluminized layer 14 and a glue from the surface layer to the inner layer. The layer 15 has an aluminized layer of the two-dimensional code pattern area having a plurality of square vacancies 101. The area of the square vacancies is a square sub-area 10ba. The square sub-area has no aluminum-plated layer 14 without the anti-counterfeit label. The imaging layer 13, the other film layer 1 1 , the peeling layer 12 and the glue layer 15 have, that is, the laser hologram pattern area and the square sub-area share the film layer 11 , the peeling layer 12 and the glue layer 15 , the laser hologram pattern Not in the square sub-area of the two-dimensional code pattern area 10b, that is, the laser hologram pattern area 10a does not coincide with the two-dimensional code pattern area 10b, and the laser hologram pattern is combined with the two-dimensional code pattern to form a combination Case, the two-dimensional code pattern corresponding to a combination of the two-dimensional code corresponding to the pattern information in a database security system. The combined pattern is entered into the system by a scanning instrument. Specifically, as shown in FIG. 3, the manufacturing process of the anti-counterfeit identifier in this embodiment is as follows:

S1: coating a release agent on the back surface of the transparent PET plastic film, and drying and curing the release agent to form a release layer;

The PET plastic film is a flat plastic film;

S2: coating a transfer coating having an imaging function on the release layer, and then drying the transfer coating to form an image forming layer;

S3: molding on a molding machine to copy the laser holographic pattern onto the imaging layer;

S4: vacuum plating aluminum on the imaging layer;

S5: printing the same curing ink on the aluminized layer as the two-dimensional code pattern;

S6: compounding the plastic film paper on the aluminum plating layer, and then curing the curing ink;

The plastic film paper is also a flat sheet of plastic film paper;

S7: tear off the plastic film paper, transfer the aluminum plated with the cured ink to the plastic film paper; after tearing off the plastic film paper, the aluminized layer forms a hollow, hollowed out area with the same shape as the printed two-dimensional code pattern In addition to the absence of an aluminized layer, there is no imaging layer, only the film layer and the release layer;

S8: Apply a viscous glue to the release layer of the aluminized layer and the hollowed aluminum layer.

S9: Scanning a combined pattern having a two-dimensional code pattern and a laser hologram pattern into an anti-counterfeiting system Medium

S10: Corresponding to the two-dimensional code pattern, the combination pattern of the two-dimensional code information corresponding to the two-dimensional code pattern and the laser hologram pattern.

When the user uses the anti-counterfeiting mark as a tool for distinguishing the authenticity of the product, the two-dimensional code on the anti-counterfeit mark is first read by the two-dimensional code reading device, and the two-dimensional code information is sent to the anti-counterfeiting system by the two-dimensional code reading device. a server, the server of the anti-counterfeiting system sends a combined pattern of the two-dimensional code pattern and the laser holographic pattern associated with the two-dimensional code to the two-dimensional code reading device, and displays the display module of the two-dimensional code reading device Then, the user judges by the naked eye whether the combination pattern displayed on the display module of the two-dimensional code reading device is consistent with the combined pattern pasted on the actual product (including the two-dimensional code pattern, the laser hologram pattern, and the two-dimensional code pattern and the laser hologram pattern). The relative position), if consistent, indicates that the product is genuine, if it is inconsistent, it indicates that the product is a counterfeit product. The user can also visually observe the laser hologram pattern to distinguish whether the product is genuine. When in use, the anti-counterfeiting label is affixed to the product outer packaging with a black background.

The laser hologram pattern and the aluminized layer may also be distributed on the PET plastic film of the reel, or the plastic film paper composited with the aluminized layer may also be in the form of a roll.

In the embodiment, the steps S1 to S4 for fabricating the anti-counterfeit mark are an anti-counterfeit mark having a laser hologram pattern. On the basis of the anti-counterfeit mark, a hollowed out layer can be obtained by hollowing out the anti-counterfeit mark. The two-dimensional code pattern, so that the anti-counterfeiting mark has the dual anti-counterfeiting function of laser holographic anti-counterfeiting and two-dimensional code anti-counterfeiting, and can also directly print the photo-curing ink on the roll PET plastic film with laser holographic pattern and aluminized layer, and then Then, the plastic film paper of the reel is combined with the PET plastic film of the reel through a roller, and then the photocurable ink is cured by ultraviolet light irradiation, and the plastic film paper is bonded to the aluminized layer after the photocurable ink is cured. Thereafter, the plastic film paper of the reel is separated from the PET plastic film of the reel by two rolls at a distance.

A coating may be applied between the aluminized layer and the watering layer on the aluminum plating layer, and the coating layer may be coated on the aluminum plating layer, which is more advantageous for separating the aluminum plating layer from the release layer.

Example 2

Different from the above-mentioned Embodiment 1, the present embodiment provides another anti-counterfeit mark, as shown in FIG. 4, the anti-counterfeit mark includes the laser hologram pattern area 10a and the second, as seen from the surface of the anti-counterfeit mark surface layer. a code pattern area 10b, the laser hologram area 10a is printed with a laser hologram pattern, and the two-dimensional code pattern area 10b is printed with a two-dimensional code pattern, and is printed in addition to the laser hologram pattern and the two-dimensional code pattern. There is an electric eye mark 1 1 1 , and the electric eye mark 1 1 1 is four (or three) "crosses", which are respectively located on four or three corners of a rectangle, and the center of the "cross" is located in four rectangles or The corner points of the three corners (the electric eye logo can also be four or three "squares" or "dots", also located on four or three corners of a rectangle, "square" or "dot" The center is located at the focus of the four or three corners of the rectangle. As shown in FIG. 5, from the side structure of the anti-counterfeit mark, the anti-counterfeit mark includes a film layer 1 1 and a peeling layer 12 in order from the surface layer to the inner layer. The imaging layer 13, the aluminum-plated layer 14 and the glue layer 15, the electric eye mark is printed on the imaging layer, and the aluminized layer of the two-dimensional code pattern area has a plurality of square vacancies 101, and the square vacancies are square sub-areas , the square sub-area except the plating without the anti-counterfeit mark Outside the layer 14, there is no imaging layer 13, and the other film layer 11, the peeling layer 12 and the glue layer 15 have, that is, the laser hologram pattern area and the square sub-area 10ba share the film layer 11, the peeling layer 12 and the glue layer. 15. The electric eye mark is printed on the imaging layer 13, and the laser hologram pattern is coincident with the two-dimensional code pattern, that is, the laser hologram pattern area 10a coincides with the two-dimensional code pattern area 10b, and the laser hologram pattern and the second The dimension code patterns are coincident to form a coincidence pattern, and the two-dimensional code information corresponding to the two-dimensional code pattern corresponds to the coincidence pattern in the database of the anti-counterfeiting system. The coincidence pattern is generated in the anti-counterfeiting system according to the relative position of the two-dimensional code pattern and the electric eye mark, the relative position of the laser hologram pattern and the electric eye mark, the laser hologram pattern, and the two-dimensional code pattern. Specifically, as shown in FIG. The manufacturing method of the anti-counterfeiting mark in this embodiment is as follows:

T1: coating a release agent on the back surface of the transparent PET plastic film, and drying and curing the release agent to form a release layer;

T2: then applying a transfer coating having an imaging function on the release layer, and then drying the transfer paint to form an image forming layer;

T3: first print the electric eye mark on a random position on the front side of the plastic film, and then detect the position of the electric eye mark through the detecting device of the electric eye mark;

T4: molding on a molding machine to copy the laser hologram pattern onto the image forming layer;

T5: sending the relative position of the laser hologram pattern and the electric eye mark to the anti-counterfeiting system for recording;

T6: vacuum aluminum plating on the imaging layer; T7: printing a curing ink having the same pattern as the two-dimensional code pattern at a random position of the aluminized layer;

Τ8: Send the relative position of the two-dimensional code pattern and the electric eye mark to the anti-counterfeiting system for recording;

Τ9: compounding the plastic film paper on the aluminum plating layer, and then curing the curing ink;

Τ10: tear off the plastic film paper, transfer the aluminum plated with the cured ink to the plastic film paper; after peeling off the plastic film paper, the aluminized layer is formed opposite to the printed two-dimensional code pattern (the so-called opposite means that The pattern and the two-dimensional code pattern are combined into a hollowed out pattern, and the hollowed out area has no imaging layer except the aluminum-plated layer, only the film layer and the peeling layer;

Τ11: Apply a viscous glue to the release layer of the aluminized layer and the hollowed aluminum layer.

Τ12: According to the relative position of the two-dimensional code pattern and the electric eye mark, the relative position of the laser hologram pattern and the electric eye mark, the laser hologram pattern and the two-dimensional code pattern, a combination of the two-dimensional code pattern and the laser hologram pattern is generated in the anti-counterfeiting system. Pattern

Τ13: Corresponding to the combined pattern of the two-dimensional code information corresponding to the two-dimensional code pattern and the laser hologram pattern and the two-dimensional code pattern.

When the user uses the anti-counterfeiting mark as a tool for distinguishing the authenticity of the product, the two-dimensional code on the anti-counterfeit mark is first read by the two-dimensional code reading device, and the two-dimensional code information is sent to the anti-counterfeiting system by the two-dimensional code reading device. a server, the server of the anti-counterfeiting system sends a combined pattern of the two-dimensional code pattern and the laser holographic pattern associated with the two-dimensional code to the two-dimensional code reading device, and displays the display module of the two-dimensional code reading device Then, the user judges by the naked eye whether the combination pattern displayed on the display module of the two-dimensional code reading device is consistent with the combined pattern pasted on the actual product (including the two-dimensional code pattern, the laser hologram pattern, and the two-dimensional code pattern and the laser hologram pattern). The relative position), if consistent, indicates that the product is genuine, if it is inconsistent, it indicates that the product is a counterfeit product. The user can also visually observe the laser hologram pattern to distinguish whether the product is genuine. When in use, the anti-counterfeiting label is affixed to the product outer packaging with a black background. The above embodiments are only used to illustrate the technical solutions of the present invention, and the present invention is not limited thereto. Although the present invention is described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solutions of the present invention may be modified or substituted. The spirit and scope of the present invention should be construed as being included in the scope of the appended claims.

Claims

WO 2014/019326 Claim PCT/CN2012/087748

An anti-counterfeiting mark, wherein the anti-counterfeit mark is a multi-layer structure, the surface of the anti-counterfeit mark surface layer includes a laser hologram pattern and a two-dimensional code pattern, and the laser hologram pattern and the two-dimensional code pattern form a combined pattern. The anti-counterfeiting mark of the area where the laser holographic pattern is located includes a film layer, a release layer, an imaging layer, an aluminized layer and a glue layer from the surface layer to the inner layer, and the area of the two-dimensional code pattern includes a plurality of square sub-areas. The anti-counterfeit identifiers of the plurality of square sub-regions include a film layer, a release layer and a glue layer in sequence from the surface layer to the inner layer, and the anti-counterfeit mark of the area where the laser hologram pattern is located and the anti-counterfeit mark of the square sub-area share the film layer and the release layer. And glue layer.

The anti-counterfeiting mark according to claim 1, wherein a coating layer coated on the aluminized layer is further included between the aluminized layer and the watering layer.

The anti-counterfeiting mark according to claim 1 or 2, wherein the two-dimensional code information corresponding to the two-dimensional code pattern corresponds to the combined pattern in a database.

The anti-counterfeiting mark according to claim 3, wherein the surface of the surface of the anti-counterfeit mark is printed with an electric eye mark, and the electric eye mark is located at a periphery of the area where the laser hologram pattern is located and the area where the two-dimensional code pattern is located. The two-dimensional code information of the two-dimensional code pattern, the relative position information of the two-dimensional code pattern and the electric eye mark, the relative position information of the laser hologram pattern and the electric eye mark, and the combination pattern correspond in the database.

The anti-counterfeiting mark according to claim 4, wherein the electric eye mark comprises at least three crosses, squares or dots at different positions.

6. The method of manufacturing an anti-counterfeit mark according to any one of the above 1 - 5, characterized in that the method comprises the following steps:

(4) vacuum plating aluminum on the image forming layer;

(6) compounding the film or the thin paper on the aluminum plating layer, and then curing the curing ink; (7) separating the film or the thin film from the aluminized layer, and transferring the aluminum plated with the cured ink and the transfer coating for forming the image forming layer onto the film or the thin paper to form a corresponding pattern of the two-dimensional code pattern. Hollow, hollowed out area including film layer and release layer;

The method according to claim 6, wherein the method further comprises:

The method for manufacturing an anti-counterfeiting mark according to claim 6 or 7, wherein the method further comprises:

The method for manufacturing an anti-counterfeiting mark according to claim 8, wherein the method further comprises:

The method for manufacturing an anti-counterfeiting mark according to claim 9, wherein the electric eye mark is located at a periphery of a region where the laser hologram pattern is located and a region where the two-dimensional code pattern is located, and the electric eye mark includes at least three Crosses, squares or dots in different positions.