CN209873449U - Variable local holographic logic corresponding information anti-counterfeiting safety line - Google Patents
Variable local holographic logic corresponding information anti-counterfeiting safety line Download PDFInfo
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- CN209873449U CN209873449U CN201920605028.6U CN201920605028U CN209873449U CN 209873449 U CN209873449 U CN 209873449U CN 201920605028 U CN201920605028 U CN 201920605028U CN 209873449 U CN209873449 U CN 209873449U
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Abstract
The utility model relates to an anti-fake safety line, concretely relates to variable local holographic logic corresponds anti-fake safety line of information. The two-dimensional code printing and permanent-mould-pressing combined type aluminum-plated layer comprises a plastic film layer, a two-dimensional code printing layer, a permanent-mould-pressing information layer and a positioning mould-pressing layer which are sequentially arranged from top to bottom, wherein a local hollow-out printing layer and a local aluminum-plated layer are sequentially arranged below the positioning mould-pressing layer, the local hollow-out printing layer and the local aluminum-plated layer respectively contain partial variable information, the partial hollow-out printing layer and the local aluminum-plated layer form complete variable information after combination, the two-dimensional code of the two-dimensional code printing layer and the variable information have a corresponding relation, the variable information is a variable graphic diagram and/or a variable digital code, a. The utility model discloses variable information has holographic electrochemical aluminium effect, and two-dimensional code information and variable information have corresponding relation, are difficult for being imitated, distinguish simply, and anti-fake effectual can prevent effectively that the secondary from using.
Description
Technical Field
The utility model relates to an anti-fake safety line, concretely relates to variable local holographic logic corresponds anti-fake safety line of information.
Background
Alumite, also known as bronzing paper, is a hot stamping material consisting of a polyester film (PET) and a plurality of chemical coatings coated on the surface thereof, and can be classified into three categories according to the types of hot stamping: common electrochemical aluminum, hologram electrochemical aluminum and holographic positioning electrochemical aluminum. The common alumite has simple manufacturing process, the color material layer is single color, no molding layer and single hot stamping pattern, and is mainly applied to products with low requirements on surface decoration effect; the hologram electrochemical aluminum is subjected to mould pressing treatment on a coloring layer to form a laser holographic pattern rich in variation, and is widely applied to the commodity packaging printing industry, such as the fields of wine boxes, cigarette boxes, anti-counterfeiting mark printing and the like; the holographic positioning electrochemical aluminum is characterized in that a complete hot stamping pattern is positioned on a pattern fixed by a printing stock by utilizing a hot stamping pattern in the electrochemical aluminum through a photoelectric recognition device, the process is to perform positioning and registration by utilizing a hot stamping plate, a holographic anti-counterfeiting electrochemical aluminum pattern and the printing stock pattern, and the anti-counterfeiting strength is high.
In the paper needing anti-counterfeiting, such as banknote paper, security paper and the like, a safety line is embedded in the paper making process so as to verify the anti-counterfeiting information attached to the safety line in a finished product for identification, thereby achieving an anti-counterfeiting mode. The current preparation process of the holographic anti-counterfeiting safety line comprises the following steps: the substrate is coated with the die pressing information layer, then the die pressing, the aluminum ink washing, the aluminum plating and the aluminum washing processes are carried out, and the electrochemical aluminum of the produced holographic anti-counterfeiting safety line is fixed and can not be changed. It is inconvenient to carry out logistics management and anti-counterfeiting inquiry digital management on products. In addition, the holographic pattern of the anti-counterfeiting safety line in the market is relatively independent from the printed pattern, so that counterfeiting is easy to occur, the holographic pattern and the printed pattern are not fused together, and the design feeling is poor.
In addition, the existing safety line is generally torn out of paper and then verified, the safety line can be completely taken out of the base paper, the safety line cannot be damaged in the verification process, the safety line information is still complete, lawless persons can pull out the safety line from the paper and then reuse the safety line for papermaking, and secondary use of the safety line cannot be avoided.
SUMMERY OF THE UTILITY MODEL
To the not enough of above prior art, the utility model discloses the technical problem that will solve is: the utility model provides a variable local holographic logic corresponds anti-fake safety line of information, combines holographic pattern and printed pattern together, and variable information has holographic electrochemical aluminium effect, and two-dimensional code information and variable information have corresponding relation, are difficult for being imitated, distinguish simply, and anti-fake effect is good, and variable information is destroyed when taking out the safety line from the paper, can effectively prevent secondary usage.
Variable local holographic logic corresponds information safety line that guards against falsification, including from the top down mould rete, two-dimensional code printing layer, permanent mould pressing information layer and the location mould pressing layer that sets gradually, location mould pressing layer below has set gradually local fretwork printing layer and local aluminized layer, local fretwork printing layer and local aluminized layer contain partial variable information respectively, constitute complete variable information after the combination, there is corresponding relation in the two-dimensional code and the variable information of two-dimensional code printing layer, variable information is variable figure picture and/or variable digital, is provided with between local fretwork printing layer and the local aluminized layer from the type layer, corresponds local aluminized layer and sets up stealthy printing ink layer below it.
Wherein:
the width of the variable local holographic logic corresponding information anti-counterfeiting safety line is 2.5-5 mm.
The plastic film layer is a PET film, a PE film or a PP film, and the thickness is 10-50 μm.
The two-dimensional code of the two-dimensional code printing layer does not shield the variable information of the local hollow printing layer and the local aluminum plating layer.
The local aluminum plating layer is a variable hollow-out layer.
The utility model discloses a preparation method of variable local holographic logic correspondence information anti-fake safety line, including following step:
1) printing a two-dimensional code printing layer on the plastic film layer;
2) coating a permanent mould pressing information layer on the two-dimension code printing layer;
3) after coating, carrying out die pressing by using a die pressing machine to form a positioning die pressing layer;
4) dividing the variable information into two parts, respectively representing the variable information on the local hollow printing layer and the local aluminum-plated layer, and printing the local hollow printing layer by using a digital printer;
5) coating a release layer below the partially hollow printing layer;
6) performing full-plate aluminum plating below the release layer by using a vacuum aluminum plating technology to form an aluminum plated layer;
7) printing an invisible ink layer on the aluminum-plated layer by using a digital printer;
8) carrying out fine aluminum washing to obtain a local aluminum plating layer;
9) and splitting by using a splitting machine to obtain the variable local holographic logic corresponding information anti-counterfeiting safety line.
Wherein:
the permanent molding information layer and the positioning molding layer in the preparation method adopt the conventional electrochemical aluminum holographic process, and detailed description is omitted.
The release layer is printed by adopting German ACMOS 101-.
The invisible ink layer is printed by using invisible ink, and after the aluminum is finely washed, the aluminum covered by the invisible ink is not washed off, so that a local aluminum-plated layer with a holographic effect is formed. The printing was done with a Hewlett packard digital printer.
The invisible ink was an HP ElectroInk Transparent invisible ink, supplied by Hewlett-packard company.
Variable local holographic logic correspond information safety line that guards against falsification, during the use, imbed at the paper copy in-process. And scraping the surface paper for verification. Because be provided with from the type layer between local fretwork printing layer and the local layer of aluminizing, when the safety line was taken out from the paper, variable information was destroyed, can effectively prevent the secondary.
When the consumer identifies the authenticity:
1. the variable information is formed by combining an electrochemical aluminum holographic pattern and a digital printing pattern, the holographic electrochemical aluminum effect is variable information, so that the variable information has the holographic electrochemical aluminum effect, and the variable information is prepared by a fine aluminum washing process, is fine and attractive, and is visually identified.
2. Because the partial aluminum plating layer is washed out by finely washing aluminum after printing, the holographic electrochemical aluminum formed by covering is not, and the aluminum layer does not exist in other areas by scraping the peripheral position with a blade.
3. And displaying variable information (holographic variable image-text) corresponding to the logic by scanning the two-dimensional code, and comparing the variable information with the variable information on the anti-counterfeiting safety line, wherein the consistency is true and the inconsistency is false.
To sum up, the beneficial effects of the utility model are that:
1. the utility model discloses a holographic electrochemical aluminium's is variable, is convenient for carry out logistics management and anti-fake inquiry digital management to the product.
2. The utility model discloses a variable information is formed by holographic pattern and printing pattern combination, and variable information has holographic electrochemical aluminium effect, has changed single holographic variable information or printing variable information, and difficult quilt is imitated, distinguishes simply, and anti-fake effect is good.
3. The utility model discloses the safety line is destroyed when taking out from the paper, can prevent effectively that the secondary from using.
4. The utility model discloses a location is meticulous to be washed aluminium, and holographic effect is good, and the color is gorgeous, and the product is more pleasing to the eye, has improved visual effect, and the while is directly perceived to be distinguished, and anti-fake effect is good.
5. The utility model discloses there is the corresponding relation in the two-dimensional code and the variable information on two-dimensional code printing layer, is difficult for being imitated, and anti-fake effect is better.
Drawings
FIG. 1 is a schematic view of the layer structure of the present invention;
in the figure: 1. a plastic film layer; 2. printing a two-dimensional code layer; 3. permanently embossing the information layer; 4. positioning the mould pressing layer; 5. a printing layer is partially hollowed; 6. a release layer; 7. partially plating an aluminum layer; 8. and (4) a invisible ink layer.
Detailed Description
Embodiments of the present invention are further described below with reference to the accompanying drawings.
Example 1
As shown in fig. 1, the variable local holographic logic corresponding information anti-counterfeiting security thread comprises a plastic film layer 1, a two-dimensional code printing layer 2, a permanent mould pressing information layer 3 and a positioning mould pressing layer 4 which are sequentially arranged from top to bottom, wherein a local hollow printing layer 5 and a local aluminium plating layer 7 are sequentially arranged below the positioning mould pressing layer 4, the local hollow printing layer 5 and the local aluminium plating layer 7 respectively contain partial variable information and form complete variable information after combination, the two-dimensional code of the two-dimensional code printing layer 2 and the variable information have a corresponding relationship, the variable information is a variable graphic diagram and/or a variable digital code, a release layer 6 is arranged between the local hollow printing layer 5 and the local aluminium plating layer 7, and an invisible ink layer 8 is arranged below the corresponding local aluminium plating layer 7.
Wherein:
the width of the variable local holographic logic corresponding information anti-counterfeiting safety line is 2.5-5 mm.
The plastic film layer 1 is a PET film, a PE film or a PP film, and the thickness is 10-50 μm.
The two-dimensional code of the two-dimensional code printing layer 2 does not shield the variable information of the local hollow printing layer 5 and the local aluminum-plated layer 7.
The local aluminum plating layer 7 is a variable hollow-out layer.
The utility model discloses a preparation method of variable local holographic logic correspondence information anti-fake safety line, including following step:
1) printing a two-dimensional code printing layer 2 on the plastic film layer 1;
2) coating a permanent mould pressing information layer 3 on the surface of the two-dimensional code printing layer 2;
3) after coating, carrying out die pressing by using a die pressing machine to form a positioning die pressing layer 4;
4) dividing the variable information into two parts, respectively representing the variable information on the local hollow printing layer 5 and the local aluminum-plated layer 7, and printing the local hollow printing layer 5 by adopting a digital printer;
5) coating a release layer 6 below the local hollow printing layer 5;
6) performing full-plate aluminum plating below the release layer 6 by using a vacuum aluminum plating technology to form an aluminum plating layer;
7) printing an invisible ink layer 8 on the aluminum-plated layer by using a digital printer;
8) carrying out fine aluminum washing to obtain a local aluminum plating layer 7;
9) and splitting by using a splitting machine to obtain the variable local holographic logic corresponding information anti-counterfeiting safety line.
Wherein:
the permanent mould pressing information layer 3 and the positioning mould pressing layer 4 in the above preparation method adopt the conventional electrochemical aluminium holographic process, and are not described in detail.
The release layer 6 is printed by adopting German ACMOS 101-.
The invisible ink layer 8 is printed by using invisible ink, and after the aluminum is finely washed, the aluminum covered by the invisible ink is not washed away, so that the local aluminum-plated layer 7 with the holographic effect is formed. The printing was done with a Hewlett packard digital printer.
The invisible ink was an HP ElectroInk Transparent invisible ink, supplied by Hewlett-packard company.
Variable local holographic logic correspond information safety line that guards against falsification, during the use, imbed at the paper copy in-process. And scraping the surface paper for verification. Because be provided with from type layer 6 between local fretwork printing layer 5 and the local layer of aluminizing 7, when the safety line was taken out from the paper, variable information was destroyed, can effectively prevent the secondary use.
Claims (5)
1. A variable local holographic logic corresponding information anti-counterfeiting safety line is characterized in that: the multifunctional plastic film comprises a plastic film layer (1), a two-dimensional code printing layer (2), a permanent mould pressing information layer (3) and a positioning mould pressing layer (4), wherein the local hollow printing layer (5) and the local aluminium plating layer (7) are sequentially arranged below the positioning mould pressing layer (4), the local hollow printing layer (5) and the local aluminium plating layer (7) respectively contain partial variable information, complete variable information is formed after combination, the two-dimensional code of the two-dimensional code printing layer (2) corresponds to the variable information, the variable information is a variable graphic diagram and/or a variable digital code, a release layer (6) is arranged between the local hollow printing layer (5) and the local aluminium plating layer (7), and an invisible ink layer (8) is arranged below the corresponding local aluminium plating layer (7).
2. The variable local holographic logical correspondence information security thread of claim 1, wherein: the width of the variable local holographic logic corresponding information anti-counterfeiting safety line is 2.5-5 mm.
3. The variable local holographic logical correspondence information security thread of claim 1, wherein: the plastic film layer (1) is a PET film, a PE film or a PP film, and the thickness is 10-50 μm.
4. The variable local holographic logical correspondence information security thread of claim 1, wherein: the two-dimensional code of the two-dimensional code printing layer (2) does not shield variable information of the local hollow printing layer (5) and the local aluminum plating layer (7).
5. The variable local holographic logical correspondence information security thread of claim 1, wherein: the local aluminum plating layer (7) is a variable hollow-out layer.
Priority Applications (1)
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CN201920605028.6U CN209873449U (en) | 2019-04-28 | 2019-04-28 | Variable local holographic logic corresponding information anti-counterfeiting safety line |
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CN201920605028.6U CN209873449U (en) | 2019-04-28 | 2019-04-28 | Variable local holographic logic corresponding information anti-counterfeiting safety line |
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CN209873449U true CN209873449U (en) | 2019-12-31 |
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Address after: 256407 Shandong Zibo County, Huantai Province, north of the first sea Patentee after: Shandong Taibao Information Technology Group Co., Ltd Address before: 256407 Shandong Zibo County, Huantai Province, north of the first sea Patentee before: SHANDONG TAIBAO PREVENTING COUNTERFEIT PRODUCT Co.,Ltd. |
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