CN215298279U - Safety anti-fake mark - Google Patents

Abstract

The utility model belongs to a fidelity anti-counterfeiting marker, which comprises an identification code/image and an ink edge sawtooth, wherein the ink edge sawtooth characteristic information is shot and collected to be stored in a cloud database as an anti-counterfeiting information file for the public to check the authenticity, and the anti-counterfeiting marker sequentially comprises a product layer, an adhesive layer, a sponge layer and an identification code/image and text ink layer; some ink marks in the identification code/image-text ink layer are positioned in the sponge pit, and other ink marks are positioned on the surface layer of the sponge, so that the identification code/image-text and ink edge sawtooth of the three-dimensional structure are formed. The public can press the sponge area lightly with the hand to sense whether the sponge rebounds completely, so as to ensure the authenticity of the sponge material forming the identification marker.

Description

Safety anti-fake mark

Technical Field

The utility model belongs to the technical field of information inquiry anti-counterfeiting, in particular to an improved application mark-insurance anti-counterfeiting marker of 'ink edge anti-counterfeiting method and ink edge anti-counterfeiting network identification system (CN 106096971B)' and 'genuine product insurance anti-counterfeiting method and system (CN 109658119A)'.

Background

Chinese patent discloses insurance fidelity series patent applications such as 'genuine insurance anti-counterfeiting method and system (CN 109658119A)' which are initiated by the inventor, and the insurance fidelity series patent applications preset a genuine responsibility (namely anti-counterfeiting responsibility) insurance policy or/and insurance policy information for commodities and establish record information in an anti-counterfeiting checking system database by combining anti-counterfeiting characteristic information in anti-counterfeiting marks on the commodities; activating the insurance policy to enable the insurance policy to take effect while or after the anti-counterfeiting checking system feeds back the authentication conclusion information that the checked commodity is a genuine commodity to the smart phone of the consumer; the insurance policy is used for providing third party guarantee that the checked commodity is a genuine commodity for the consumer so as to enhance the trust of the consumer on the authentication conclusion that the checked commodity is the genuine commodity. Said invention can make consumer purchase and consume at ease.

The Chinese invention patent 'ink edge anti-counterfeiting method and ink edge anti-counterfeiting network identification system (CN 106096971B)' authorizes the technical scheme of the applicant for anti-counterfeiting by using ink edge sawteeth, and comprises the steps of printing codes/pictures and texts on a printing stock, and randomly deforming the edges of the codes/pictures and texts ink to generate personalized ink edge sawteeth; carrying out enlarged shooting on the printed codes/pictures and texts so as to shoot and obtain the ink edge sawtooth characteristic information and the code information; the ink edge sawtooth characteristic information and the corresponding coding information obtained by amplification shooting are stored in an anti-counterfeiting network identification system database, namely a cloud database, and are used as anti-counterfeiting characteristic information for the public to use a camera mobile phone to check the authenticity.

The study showed that: after a counterfeiter obtains the ink edge sawtooth image of the code or the image and text by a high-definition scanning method, very vivid ink edge sawtooth can be printed and copied by a plate printing process such as an offset press, so that the software identification difficulty of the anti-counterfeiting checking system is increased, and the accuracy of checking conclusion is reduced. This may increase the anti-counterfeiting responsibility in the "genuine insurance anti-counterfeiting method and system (CN 109658119A)". In other words, the prior art has technical holes that are vulnerable to spoofing.

How to increase the difficulty of copying and forging ink along sawteeth, prevent recovery and counterfeiting, block the technical loopholes of fraud and guarantee and reduce the anti-counterfeiting responsibility is a technical problem to be solved urgently by an ink edge anti-counterfeiting method and an ink edge anti-counterfeiting network identification system (CN 106096971B) and a genuine product insurance anti-counterfeiting method and a genuine product insurance anti-counterfeiting system (CN 109658119A).

Disclosure of Invention

The utility model aims at: the security anti-counterfeiting marker is provided to facilitate hand feeling to check the authenticity of printing materials, thereby increasing the difficulty of copying and counterfeiting ink along sawteeth, blocking the loopholes of the security cheating technology and reducing the security responsibility.

An insurance anti-counterfeiting marker comprises a coding/image-text ink layer and ink edges of the ink layer, wherein ink edge characteristic information (shot and collected as an anti-counterfeiting information file) is stored in a cloud database for public to check authenticity, and the insurance anti-counterfeiting marker is characterized in that: sequentially comprises a product layer, an adhesive layer, a sponge layer (namely a printing material layer) and a coding/image-text ink layer; some ink marks forming the coding/image-text ink layer are positioned in the sponge concave hole, other ink marks are positioned on the surface layer of the sponge, and less ink marks are positioned on the side wall of the sponge concave hole, so that the coding/image-text ink layer and ink of the coding/image-text ink layer have a three-dimensional structure along the saw teeth.

Baidu Baike (Baidu encyclopedia): the sponge is a porous elastic material (as shown in fig. 10), and the concave holes and the veins of the sponge can be seen under magnified observation, and the sponge has soft touch feeling when touched by hands. The rubber cotton is one of the sponges, and is formed by foaming natural latex raw materials, so that the sponge is extremely good in elasticity, good in rebound resilience and not deformed, and is particularly suitable for being used as a sponge layer.

Preferably, the sponge layer is cut into a plurality of small pieces. Thus, the sponge layer can be prevented from being spliced to be used on a counterfeit product after a counterfeiter takes off the marker.

Preferably, the front or back of the sponge layer is adhered with a printed information layer. It should be noted that the sponge has many small holes, in other words, the sponge layer is a soft rough surface, which is not suitable for being used as a printing material, and cannot print fine patterns and characters, so that the contents such as the character description can be printed finely, and the mark looks fine.

Preferably, the sponge layer is a cut sponge with a porous surface (without using a reverse-mold sponge), and the coding/graphic ink layer is printed on the cut surface (cut by a sponge cutting machine). This is because the reverse mould sponge coiled material is produced by mould reverse mould, and this kind of reverse mould sponge inlayer is porous, the top layer film sclausura, consequently, is unsuitable as the utility model discloses a printing material. In other words, the sponge having no holes on the surface layer is not suitable for use as the printing material of the present invention, and the cutting sponge having holes on the surface is suitable for use as the printing material of the present invention.

The study showed that: the cutting type sponge layer with the diameter of the sponge concave hole of 0.25-0.5mm is most suitable for the sponge layer of the utility model.

Preferably, a light background layer is additionally arranged between the adhesive layer and the sponge layer, and ink marks forming the coding/image-text ink layer pass through the sponge concave holes and fall on the light background layer, so that a recovery prevention layer which cannot be completely uncovered and recovered is formed. The light background layer is preferably a removable layer which is easy to peel off, so that if a counterfeiter illegally lifts the sponge layer to recover the marker, residual ink on the light background layer is necessarily retained on the product together with the light background layer and cannot be lifted and recovered, thereby resulting in incomplete recovery information and incapability of recovery.

The insurance two words in the invention refer to the safe and reliable meaning, and can also be interpreted as the meaning of claim settlement insurance in the genuine insurance anti-counterfeiting method and system (CN 109658119A).

Compared with the prior art, the utility model discloses following beneficial technological effect can produce.

Firstly, the hand can be checked by touch: the public can feel whether the sponge is completely rebounded by touching/pressing the sponge area with a light hand to check and confirm that the printing material is the sponge material. The sponge is porous, has good elasticity, is just familiar with the common situation, and people can manually identify the authenticity of the printing material. Because the sponge material is just familiar and can be identified by hand, the utility model creatively uses (generally considered) the sponge layer which is not suitable for being used as the printing material for printing the anti-counterfeiting marker.

Secondly, various existing printing devices such as 3D printers cannot print and copy: the current lithographic printing process transfers the ink image and text to the smooth flat substrate contacted by the printing plate. The ink in the sponge concave hole is formed by naturally diffusing the ink sprayed by the ink-jet printer along the saw teeth. Even if a counterfeiter scans the ink edge sawtooth image with high definition, the ink edge sawtooth image cannot be printed and copied into the sponge concave hole by the existing plate printing process. If a counterfeiter also adopts a plateless printing process such as code spraying, and the like, because the diffusion property of the sponge is strong, ink (ink marks) sprayed into the concave holes of the sponge inevitably and rapidly diffuses and deforms, and the ink edge sawteeth which are copied and counterfeited are inevitably different from the original plate. The research finds that: the sponge layer has uneven ink absorption and diffusion, and any image and text printed on the sponge can show random concave holes and veins due to the uneven characteristic, in other words, any code and image and text printed on the sponge have irreproducibility. Even with the most accurate 3D printer, can't print out the elasticity fabulous, the good sponge layer that resilience, indeformable. The applicant takes half a year and attempts to copy and crack by various devices and processes cannot successfully copy the sponge layer which can be deceived into manual inspection and the ink edge sawteeth which can be deceived into software inspection. In summary, it is almost impossible for a counterfeiter to simultaneously break through the hand feeling inspection sponge and check the ink along the saw teeth by a mobile phone. Therefore, the utility model discloses greatly increased the reproduction forging degree of difficulty of china ink along the sawtooth, can effectively plug up and guarantee technical leak, reduce insurance responsibility.

Thirdly, the query accuracy is high: because the software cannot be copied, the software identification accuracy of the anti-counterfeiting checking system is high.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic view of an insurance anti-counterfeiting marker in a first embodiment of the present invention.

Fig. 2 is a schematic cross-sectional view at a-B in fig. 1.

Fig. 3 is a schematic view of an insurance anti-counterfeit marker in the second embodiment of the present invention.

Fig. 4 is a schematic cross-sectional view at the position C-D in fig. 3.

Fig. 5 is a schematic view of an insurance anti-counterfeit marker in the third embodiment of the present invention.

Fig. 6 is a schematic view of an insurance anti-counterfeit marker in the fourth embodiment of the present invention.

Fig. 7 is a schematic cross-sectional view at the position H-E in fig. 6.

Fig. 8 is a schematic view of an insurance anti-counterfeit marker in the fifth embodiment of the present invention.

Fig. 9 is a schematic view of another insurance anti-counterfeit marker according to a fifth embodiment of the present invention.

Fig. 10 is an enlarged schematic view of the surface of a conventional sponge layer.

Fig. 11 is a schematic cross-sectional structure view of an insurance anti-counterfeit marker in the sixth embodiment of the present invention.

The reference numbers illustrate: 1-product layer, 2-bonding layer, 3-sponge layer, 4-coding ink layer, 5-image-text ink layer, 6-cutting seam, 7-small fragment, 8-printing information layer, 9-sponge vein, 10-window, 11-sponge concave hole, 12-light background layer and 13-residual ink mark.

Detailed Description

The first embodiment.

A cut sponge layer 3 (preferably 0.5-1.5mm in thickness) is used as a printing material layer to print a security anti-counterfeiting marker. As shown in fig. 1 and 2, the adhesive tape sequentially comprises a product (surface) layer 1, an adhesive layer 2 (such as adhesive layer like adhesive sticker), a white sponge layer 3 and a coding ink layer 4; some of the ink (ink marks) forming the coding ink layer 4 is dropped into the sponge concave hole 11, other ink (ink marks) is floated and adhered on the sponge veins 9 on the surface layer of the sponge, and other ink marks are positioned on the side wall of the sponge concave hole 11, so that the coding ink layer 4 presents a three-dimensional structure.

The ink is shot and collected along the sawtooth characteristic information, and is correspondingly stored in a cloud database as anti-counterfeiting characteristic information and codes to be used as filing information, so that the authenticity can be checked by the public.

Example two.

As shown in fig. 3 and 4, on the basis of the above example, the sponge layer 3 is die-cut into small pieces 7, but the filaments are still broken. Thus, the fake producer can be prevented from tearing off the sponge layer 3 and splicing the sponge layer to be stuck to the fake goods.

Example three.

In the above example, in order to make the marker look not rough and low-grade, as shown in fig. 5, a fine printed information layer 8 printed in advance with a smooth flat material such as paper is attached to the front or back of the sponge layer 3. Thus, the contents such as the description can be printed finely, and the mark looks more beautiful.

Example four.

On the basis of the above example, in order to make the marker look non-rough and non-low, as shown in fig. 6, a fine printed information layer 8 with a window 10 left thereon, which is printed in advance with a removable film, is attached to the front surface of the sponge layer 3, so that the sponge layer 3 and the coding ink layer 4 are exposed from the window 10. Thus, the contents such as the text can be printed finely, and the mark looks more beautiful and higher-grade.

Example five.

Experiments show that if the size ratio of the two-dimensional code to the sponge concave hole 11 is not proper, the two-dimensional code is difficult to identify and even cannot be scanned. In order to avoid that the two-dimensional code cannot be scanned, as shown in fig. 8, it is preferable to attach a delicate printed information layer 8 including a coding (e.g., two-dimensional code) ink layer 4 printed with a removable film in advance on the front surface of the sponge layer 3, and expose an 8mm × 8mm printing ink block (i.e., the image-text ink layer 5) directly printed on the sponge layer 3 from the window 10. Thus, because of the random size and shape of the sponge recesses 11, the printed ink patch (i.e., the ink layer 5) exhibits a jagged sponge vein 9 with ink due to non-uniform ink absorption and spreading. The technical scheme that the coding ink layer 4 is not printed on the sponge layer 3, and the image-text ink layer 5 is only printed on the sponge layer 3 can avoid the quality problem that the two-dimensional code cannot be scanned.

As shown in fig. 9, a printed information layer 8 including a code (e.g., two-dimensional code) ink layer 4 printed with a removable film and having a window 10 is attached to the front surface of the sponge layer 3, and the letters FW (i.e., the text ink layer 5) directly printed on the sponge layer 3 are exposed from the window 10. Thus, since the size and shape of the sponge recesses 11 are random, the printed letters FW (i.e., the ink layer 5 for graphics) show noticeable jaggies of ink edges due to non-uniform ink absorption and diffusion. The design scheme that the coding ink layer 4 is not printed on the sponge layer 3, and the image-text ink layer 5 is only printed on the sponge layer 3 can avoid that the two-dimensional code cannot be scanned.

Example six.

Preferably, referring to the above example, as shown in fig. 11, a light background layer 12 (e.g., an easily peelable white coating) is further provided between the adhesive layer 2 and the sponge layer 3 (which is a thin layer having a thickness of 0.5 mm), and some ink marks constituting the coding ink layer 4 are dropped on the light background layer 12 through the sponge recesses 11, thereby constituting a recycling-preventing layer which cannot be completely removed and recycled. The light background layer 12 is preferably a white removable layer which is easily peeled off, so that if a counterfeiter illegally lifts off the sponge layer to recover the marker, the residual ink 13 on the light background layer 12 is inevitably retained on the product together with the light background layer 12, and cannot be lifted off and recovered, thereby resulting in incomplete recovery information and incapability of recovery.

The technical scheme provided by the utility model is introduced in detail above. The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the method and its core ideas of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can also be modified and modified in several ways, and these modifications and modifications also fall into the protection scope of the present invention.

Claims (6)

1. The utility model provides an insurance anti-fake marker, includes the sawtooth along the sawtooth of code/picture and text china ink layer and china ink, china ink along sawtooth characteristic information storage in high in the clouds database to supply the public to examine true and false, its characterized in that: sequentially comprises a product layer, an adhesive layer, a sponge layer and a coding/image-text ink layer; some ink marks forming the coding/image-text ink layer are positioned in the sponge concave holes, and other ink marks are positioned on the veins on the surface layer of the sponge, so that the coding/image-text ink layer and the ink thereof have a three-dimensional structure along the saw teeth.

2. An insurance anti-counterfeiting marker according to claim 1, characterized in that: the sponge layer is cut into a plurality of small pieces.

3. An insurance anti-counterfeiting marker according to claim 1 or 2, characterized in that: the front or back of the sponge layer is adhered with a printing information layer.

4. An insurance anti-counterfeiting marker according to claim 1 or 2, characterized in that: the sponge layer is made of cutting sponge with porous surface, and the coding/image-text ink layer is printed on the cutting surface.

5. An insurance anti-counterfeiting marker according to claim 4, characterized in that: the sponge layer is made of cutting sponge with sponge concave holes of 0.25-0.5mm in diameter.

6. An insurance anti-counterfeiting marker according to claim 4, characterized in that: a light background layer is additionally arranged between the adhesive layer and the sponge layer, and ink marks forming the coding/image-text ink layer pass through the sponge concave holes and fall on the light background layer.

Images