CN211928912U - Anti-counterfeiting in-mold labeling with laser effect - Google Patents

Abstract

The utility model discloses an anti-fake mould is labeled with radium-shine effect, including transparent protection layer and the radium-shine anti-fake information pattern of setting on transparent protection layer, one side of transparent protection layer is provided with the transparent dielectric layer that can protect radium-shine anti-fake information pattern not receive destruction, one side that radium-shine anti-fake information pattern was kept away from to the transparent dielectric layer is provided with the printing layer, one side that transparent dielectric layer was kept away from to the printing layer is provided with can with the surface matched with laminating layer of bottle injection molding. The utility model has the advantages of it is following and effect: the in-mold labeling and the laser anti-counterfeiting technology are combined, so that the prepared in-mold label has the laser anti-counterfeiting effect.

Description

Anti-counterfeiting in-mold labeling with laser effect

Technical Field

The utility model relates to a plastics blowing goods field, in particular to label in anti-fake mould with radium-shine effect.

Background

The label technology in injection mould is that special pattern is printed on OPP material and then a layer of PP film is compounded, that is, before blow moulding and injection moulding, the printed mould is stuck in the mould and then placed in the mould, and the mould is stuck with the surface of bottle body or injection moulding and fused together under the action of high temp. and high pressure in the mould, so that a finished packing container is formed. The biggest characteristic of the container using the in-mold labeling is that the label and the bottle body are on the same surface, and the color pictures and texts of the label are sensed as if the label is directly printed on the surface of the bottle body.

The existing in-mold label and the laser anti-counterfeiting film are used independently. Particularly, after the in-mold label is transferred on a product, the laser anti-counterfeiting information is transferred by hot stamping at the specified position of the product in the combination of the laser anti-counterfeiting and the in-mold label at present, so that additional cost and procedures are added, and improvement is needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an anti-fake label in mould with radium-shine effect, this kind of label combines together with radium-shine anti-fake technique in the mould, makes the interior label of mould that makes possess radium-shine anti-fake effect.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides an anti-fake label in mould with radium-shine effect, includes transparent protection layer and the radium-shine anti-fake information pattern of setting on transparent protection layer, one side of transparent protection layer is provided with the transparent dielectric layer that can protect radium-shine anti-fake information pattern not to receive the destruction, one side that radium-shine anti-fake information pattern was kept away from to the transparent dielectric layer is provided with the printing layer, one side that the transparent dielectric layer was kept away from to the printing layer is provided with the laminating layer that can cooperate with the surface of bottle.

The utility model discloses a further set up to: and a colorful film layer is arranged between the printing layer and the laminating layer.

The utility model discloses a further set up to: when the laminating layer and the bottle body are transparent, the color of the solution filled in the bottle body provides a ground color for the colorful film layer.

The utility model discloses a further set up to: the transparent protective layer is made of OPP.

The utility model discloses a further set up to: the utility model discloses a seven various rete looks butt of reflection of light, including the laminating layer, the laminating layer is made by the hot melt adhesive material, reflection of light powder has been laid on the surface of laminating layer, in the one end embedding hot melt adhesive of reflection of light powder, the other end and the seven various rete looks butt of reflection of light powder.

The utility model discloses a further set up to: the mesh number of the light-reflecting powder is 300-500 meshes.

The utility model discloses a further set up to: the utility model discloses a luminous coating, including the laminating layer, the laminating layer is made by the hot melt adhesive material, the one deck night light powder has been laid on the surface of laminating layer, in the one end embedding hot melt adhesive of night light powder, the other end and the seven various rete looks butt of night light powder.

The utility model discloses a further set up to: and a layer of fluorocarbon transparent paint is arranged on the surface of the transparent protective layer.

The utility model discloses a further set up to: the adhesive layer is made of a hot melt adhesive material, a night light reflecting structure is laid on the surface of the adhesive layer, one end of the night light reflecting structure is embedded into the hot melt adhesive, and the other end of the night light reflecting structure is abutted to the colorful film layer;

the night light reflecting structure comprises a plurality of light reflecting powders, wherein a plurality of noctilucent powders are adhered to the outer surface of each light reflecting powder, the mesh number of the light reflecting powders is 300 meshes, and the number of the noctilucent powders is 800 meshes.

To sum up, the utility model discloses following beneficial effect has: this application is through adopting transparent dielectric layer, comes the protection to set up radium-shine anti-fake information pattern on transparent protection layer, avoids radium-shine anti-fake information pattern direct and printing layer to contact, and the loss of radium-shine anti-fake information pattern that leads to. In addition, the in-mold labeling and the laser anti-counterfeiting technology are combined, so that the prepared in-mold label has the laser anti-counterfeiting effect.

Drawings

FIG. 1 is a schematic structural view of an in-mold label according to a first embodiment;

FIG. 2 is a schematic structural view of an in-mold label of the second embodiment;

FIG. 3 is a schematic structural view of in-mold labeling of the third embodiment;

fig. 4 is a schematic structural view of the in-mold labeling of the fourth embodiment.

Reference numerals: 1. a transparent protective layer; 2. a colorful film layer; 3. laminating layers; 4. laser anti-counterfeiting information patterns; 5. a transparent dielectric layer; 6. light reflecting powder; 7. noctilucent powder; 8. a fluorocarbon transparent paint layer; 9. a night light reflecting structure; 10. and printing the layer.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

as shown in fig. 1, an anti-counterfeiting in-mold label with a laser effect comprises a transparent protection layer 1 and a laser anti-counterfeiting information pattern 4 arranged on the transparent protection layer 1, wherein a transparent dielectric layer 5 capable of protecting the laser anti-counterfeiting information pattern 4 from being damaged is arranged on one side of the transparent protection layer 1. A printing layer 10 is arranged on one side of the transparent medium layer 5, which is far away from the laser anti-counterfeiting information pattern 4, and an attaching layer 3 which can be matched with the outer surface of the bottle body/injection molding piece is arranged on one side of the printing layer 10, which is far away from the transparent medium layer 5.

This application is through adopting transparent dielectric layer 5, comes the protection to set up radium-shine anti-fake information pattern 4 on transparent protection layer 1, avoids radium-shine anti-fake information pattern 4 directly to contact with printing layer 10, and the loss of radium-shine anti-fake information pattern 4 that leads to. In addition, the in-mold labeling and the laser anti-counterfeiting technology are combined, so that the prepared in-mold label has the laser anti-counterfeiting effect.

Further, a colorful film layer 2 is arranged between the printing layer 10 and the laminating layer 3.

Because the colorful film layer 2 is also called as 'rainbow film', which is a multilayer film, by fully utilizing the principle of light interference, after light rays sequentially penetrate through the laser anti-counterfeiting information pattern 4, the transparent medium layer 5 and the printing layer 10 on the transparent protective layer 1 to the colorful film layer 2 under the irradiation of the light rays, the multi-angle layer color change among the layers is replaced by refraction and interference among the layers, and the effect is like sky rainbow. The rainbow film has the effect that the rich light effects of the rainbow film base materials with different distances and different angles can present completely different colorful effects.

And based on the combination of the rainbow film and the laser anti-counterfeiting information pattern 4 on the transparent protective layer 1, the laser anti-counterfeiting information pattern 4 on the transparent protective layer 1 can generate a magic color effect under the irradiation of light.

Further, when the adhesive layer 3 and the bottle are transparent, the color of the solution (such as beverage) filled in the bottle provides a ground color for the colorful film layer 2. The color of the colorful film layer 2 can be changed under the action of light, so that the colorful effect is influenced by the color of the solution in the bottle body, and the color can be changed in various ways.

Further, the material of the transparent protective layer 1 is preferably OPP.

Example two:

the difference from the first embodiment is that:

as shown in fig. 2, the adhesive layer 3 is made of a hot melt adhesive material, a layer of reflective powder 6 is laid on the surface of the adhesive layer 3, one end of the reflective powder 6 is embedded into the hot melt adhesive, and the other end of the reflective powder 6 is abutted to the colorful film layer 2.

When reaching a certain temperature, the hot melt adhesive can begin to soften, the reflective powder 6 is laid on the surface of the softened hot melt adhesive, and after solidification, one end of the reflective powder 6 is embedded into the hot melt adhesive layer to prepare the laminating layer 3. The reflective powder 6 can reflect light with high reflectivity when receiving light irradiation in an environment with insufficient light, so as to improve the visual effect in the environment with insufficient light.

Therefore, the laser anti-counterfeiting information pattern 4 on the transparent protective layer 1 can be seen clearly by consumers in a dark environment, and the laser anti-counterfeiting information pattern has high identification degree and visual effect.

Further, the mesh number of the reflective powder 6 is preferably 300-500 meshes.

Example three:

the difference from the first embodiment is that:

as shown in fig. 3, the adhesive layer 3 is made of a hot melt adhesive material, a layer of noctilucent powder 7 is laid on the surface of the adhesive layer 3, one end of the noctilucent powder 7 is embedded into the hot melt adhesive, and the other end of the noctilucent powder 7 is abutted to the colorful film layer 2.

The noctilucent powder 7 can reflect fluorescence in dark environment or under the irradiation of light color light, and the noctilucent visual effect is generated, so that the laser anti-counterfeiting information pattern 4 on the transparent protective layer 1 can be highlighted and more colorful in dark environment.

Further, a fluorocarbon transparent paint layer 8 is arranged on the surface of the transparent protective layer 1.

Because the fluorocarbon transparent paint has extremely low surface energy, dust on the surface of the fluorocarbon transparent paint layer 8 can be self-cleaned through water vapor in the air, and further routine maintenance operations such as cleaning and wiping are reduced. In addition, the fluorocarbon transparent paint has a good waterproof effect, can effectively isolate external water vapor and protects the stability of the label.

Example four:

the difference from the first embodiment is that:

as shown in fig. 4, the adhesive layer 3 is made of a hot melt adhesive material, a night light reflecting structure 9 is laid on the surface of the adhesive layer 3, one end of the night light reflecting structure 9 is embedded into the hot melt adhesive, and the other end of the night light reflecting structure is abutted to the colorful film layer 2.

The night light reflecting structure 9 comprises a plurality of light reflecting powders 6, and a plurality of luminous powders 7 are adhered to the outer surface of each light reflecting powder 6. The mesh number of the reflective powder 6 is preferably 300 meshes, and the luminous powder 7 is preferably 800 meshes.

Because the mesh number of the reflective powder 6 is smaller than that of the luminous powder 7, the specific surface area of the reflective powder 6 is larger than that of the luminous powder 7, and a layer of luminous powder 7 can be adhered to the outer surface of the reflective powder 6 to form a night reflective structure 9.

When reaching a certain temperature, the hot melt adhesive can begin to soften, the night light reflecting structure 9 is laid on the surface of the softened hot melt adhesive, and after solidification, one end of the night light reflecting structure 9 is embedded into the hot melt adhesive layer.

The luminous powder 7 stores the light energy after being irradiated by natural light, daylight lamp light, ultraviolet light and the like, and slowly releases the light energy in a fluorescent mode after the light irradiation is stopped, so that the luminous effect can still be seen at night or in dark places. At this time, since the luminous powder 7 is wrapped outside the reflective powder 6, the fluorescence generated by the luminous powder 7 can be reflected with high reflectivity, so as to improve the visual effect in the environment with insufficient light.

Therefore, the laser anti-counterfeiting information pattern 4 on the transparent protective layer 1 can be seen clearly by consumers in a dark environment, and the laser anti-counterfeiting information pattern has high identification degree and visual effect.

The specific embodiments are only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiments without inventive contribution as required after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (9)

1. An anti-counterfeiting in-mold labeling with a laser effect is characterized in that: including transparent protective layer (1) and radium-shine anti-fake information pattern (4) of setting on transparent protective layer (1), one side of transparent protective layer (1) is provided with transparent dielectric layer (5) that can protect radium-shine anti-fake information pattern (4) not to be destroyed, one side that radium-shine anti-fake information pattern (4) were kept away from in transparent dielectric layer (5) is provided with printing layer (10), one side that transparent dielectric layer (5) were kept away from in printing layer (10) is provided with can with bottle/injection molding's surface matched with laminating layer (3).

2. The anti-counterfeiting in-mold label with laser effect according to claim 1, characterized in that: a colorful film layer (2) is arranged between the printing layer (10) and the laminating layer (3).

3. The label with laser effect for anti-counterfeiting mold-in labeling according to claim 2, characterized in that: when the laminating layer (3) and the bottle body are transparent, the color of the solution filled in the bottle body provides a bottom color for the colorful film layer (2).

4. The anti-counterfeiting in-mold label with laser effect according to claim 1, characterized in that: the transparent protective layer (1) is made of OPP.

5. The anti-counterfeiting in-mold label with laser effect according to claim 3, characterized in that: the utility model discloses a reflective coating, including binding layer (3), reflection of light powder (6) have been laid on the surface of binding layer (3), in the one end embedding hot melt adhesive of reflection of light powder (6), the other end and seven various rete (2) looks butt of reflection of light powder (6).

6. The anti-counterfeiting in-mold label with laser effect according to claim 5, characterized in that: the mesh number of the light-reflecting powder (6) is 300-500 meshes.

7. The anti-counterfeiting in-mold label with laser effect according to claim 3, characterized in that: the utility model discloses a luminous coating, including adhesive layer (3), adhesive layer (3) are made by the hot melt adhesive material, one deck night light powder (7) have been laid on the surface of adhesive layer (3), in the one end embedding hot melt adhesive of night light powder (7), the other end and seven various rete (2) looks butt of night light powder (7).

8. The label with laser effect for anti-counterfeiting mold-in labeling according to claim 7, wherein: the surface of the transparent protective layer (1) is provided with a fluorocarbon transparent paint layer (8).

9. The anti-counterfeiting in-mold label with laser effect according to claim 3, characterized in that: the adhesive layer (3) is made of a hot melt adhesive material, a night light reflecting structure (9) is laid on the surface of the adhesive layer (3), one end of the night light reflecting structure (9) is embedded into the hot melt adhesive, and the other end of the night light reflecting structure (9) is abutted to the colorful film layer (2);

the night light reflecting structure (9) comprises a plurality of light reflecting powders (6), wherein a plurality of luminous powders (7) are adhered to the outer surface of each light reflecting powder (6), the mesh number of each light reflecting powder (6) is 300 meshes, and each luminous powder (7) is 800 meshes.

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