CN211062348U - Random graphic array anti-counterfeit label - Google Patents

Abstract

The utility model relates to a random figure battle array antifalsification label, including substrate layer, random figure piece and transparent protection film, the random figure piece sets up on the substrate layer, the random figure piece is equipped with on the substrate layer and is no less than two, transparent protection film covers on the random figure piece and fixed with the substrate layer, the line groove has been seted up on the random figure piece. A plurality of random figure fragments form a random figure battle array and replace the anti-counterfeit pattern that traditional printing ink printing formed, make antifalsification label be difficult to by the duplication, and the line groove of seting up on the random figure fragment has increased the difference of each random figure fragment, has improved the randomness of the anti-counterfeit pattern that forms on the whole antifalsification label, and whole antifalsification label more is difficult to by the duplication, has improved antifalsification label's anti-counterfeit effect, the utility model discloses have the effect that can improve anti-counterfeit effect.

Description

Random graphic array anti-counterfeit label

Technical Field

The utility model belongs to the technical field of antifalsification label's technique and specifically relates to a random figure battle array antifalsification label is related to.

Background

At present, along with the fact that all enterprises have stronger awareness of preventing products from being counterfeited and protecting own brands, the anti-counterfeit labels are used on products of all enterprises more and more.

The existing anti-counterfeit label is usually a static anti-counterfeit label, static anti-counterfeit patterns such as two-dimensional codes and bar codes are usually printed on the existing static anti-counterfeit label, and a consumer can confirm whether the commodity is a genuine commodity or not by scanning the anti-counterfeit label after receiving the commodity.

The above prior art solutions have the following drawbacks: the figure that appears on current static antifalsification label has certain randomness, can realize that a product is to a figure, but current static antifalsification label often has printing ink printing to form, and the anti-fake figure of the printing on the static antifalsification label is easily duplicated, and the consumer is difficult to distinguish whether it is counterfeit product when the static antifalsification label setting that is duplicated is on the counterfeit product that corresponds the product with this antifalsification label, so has the shortcoming that anti-fake effect is not enough.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a random figure battle array antifalsification label, the random figure battle array that constitutes through a plurality of random figure fragments replaces the anti-counterfeiting pattern that traditional printing ink printing formed and has improved the randomness of anti-counterfeiting pattern on the antifalsification label, makes the image on the label be difficult to by the duplication, has the advantage that can improve anti-counterfeiting effect.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides a random graph battle array antifalsification label, includes substrate layer, random graph piece and transparent protection film, the random graph piece sets up on the substrate layer, the random graph piece is equipped with on the substrate layer and is no less than two, transparent protection film covers on the random graph piece and fixed with the substrate layer, the line groove has been seted up on the random graph piece.

Through adopting above-mentioned technical scheme, every antifalsification label only corresponds a product, random figure piece is cliied with the substrate layer to transparent protection film on the antifalsification label, the shape of random figure piece, the size is all different, a plurality of random figure pieces form a random figure battle array and replace the anti-fake pattern that traditional printing ink printing formed, make the antifalsification label be difficult to by the reproduction, and the line groove of seting up on the random figure piece has increased the difference of each random figure piece, the randomness of the anti-fake pattern that forms on the whole antifalsification label has been improved, whole antifalsification label is more difficult to be reproduced, the antifalsification effect of antifalsification label has been improved.

The present invention may be further configured in a preferred embodiment as: the substrate layer comprises a first base layer and an adhesive layer, the adhesive layer is arranged on the first base layer, and the random pattern fragments and the transparent protective film are arranged on the adhesive layer.

Through adopting above-mentioned technical scheme, when producing antifalsification label, the operator spills random figure piece on the viscose layer at random earlier, press transparent protection film on random figure piece and on the viscose layer, thereby the fixing of whole random figure piece has been accomplished, the viscose layer is fixed random figure piece through self viscidity before transparent protection film is pressed and is compressed tightly on the substrate layer, prevent that partial random figure piece from dropping from the substrate layer when transparent protection film compresses tightly on the substrate layer, prevent that the reduction of random figure piece has reduced antifalsification label's anti-fake effect.

The present invention may be further configured in a preferred embodiment as: the adhesive layers are arranged on two sides of the first base layer, and the random pattern fragments and the transparent protective film are arranged on one of the adhesive layers.

By adopting the technical scheme, one layer of the two adhesive layers is used for bonding random pattern fragments and the transparent protective film, the other side of the two adhesive layers is used for bonding commodities or commodity packaging boxes, an operator does not need to bond the anti-counterfeit label after gluing at a specified position in advance, and the operation is convenient.

The present invention may be further configured in a preferred embodiment as: keep away from be equipped with on the viscose layer on the transparent protection film from type paper.

Through adopting above-mentioned technical scheme, it is provided with in advance from type paper on keeping away from the viscose layer on the transparent protection film before the pasting of antifalsification label, make antifalsification label deposit in advance and need not use immediately after having produced, the operator can paste the label in appointed position, convenient operation through the viscose layer with the type paper tear down when waiting to bond and abandon the label.

The present invention may be further configured in a preferred embodiment as: the random pattern fragments are formed by randomly shearing laser holographic plates.

By adopting the technical scheme, the image characteristics presented on the random graphic fragments cut by the laser holographic plate change along with the change of the observation visual angle of the random graphic fragments, so that the randomness of the image presentation is improved, and the anti-counterfeiting effect of the anti-counterfeiting label is improved.

The present invention may be further configured in a preferred embodiment as: the random pattern fragments include laser holographic layer and second stratum basale, laser holographic layer is fixed on second stratum basale two laser holographic layer is connected with viscose layer and transparent protection film respectively.

By adopting the technical scheme, the two sides of the second substrate layer are both provided with the laser holographic layers, so that the image characteristics presented on the two sides of the random pattern fragments are changed along with the change of the observation visual angle of the random pattern fragments, the randomness of the image is improved, and after an operator spills the random pattern fragments onto the adhesive layer, the operator can ensure that the laser processing is carried out on each upward side of the random pattern fragments without manually turning the random pattern fragments, and the operation is convenient.

The present invention may be further configured in a preferred embodiment as: the grooves are formed in the laser holographic layer.

By adopting the technical scheme, the groove can be exposed through the transparent protective film, and the groove is prevented from passing through the second basal layer, when an operator cuts the whole laser holographic sheet, the formed random pattern fragments can be re-cut into two random pattern fragments along the groove after the cut and the groove are staggered, so that the groove reduction on the finally formed random pattern fragments is avoided, and the anti-counterfeiting effect is reduced.

The present invention may be further configured in a preferred embodiment as: the random pattern chip pattern size specification is 0.5mm to 2 mm.

By adopting the technical scheme, the size of the random graph fragments is kept at the millimeter level, so that the random graph fragments are ensured to be difficult to be completely copied, clear outlines of the random graph fragments can be shown under the shooting of the camera equipment, and the anti-counterfeiting check of consumers is facilitated.

To sum up, the utility model discloses a following at least one useful technological effect:

1. the plurality of random pattern fragments form a random pattern array to replace an anti-counterfeiting pattern printed by traditional ink, so that the anti-counterfeiting label is difficult to copy, the grooves formed in the random pattern fragments increase the difference of the random pattern fragments, the randomness of the anti-counterfeiting pattern formed on the whole anti-counterfeiting label is improved, the whole anti-counterfeiting label is more difficult to copy, and the anti-counterfeiting effect of the anti-counterfeiting label is improved;

2. the image characteristics presented on the random graphic fragments cut by the laser holographic plate change along with the change of the observation visual angle of the random graphic fragments, so that the randomness of the image presentation is improved, and the anti-counterfeiting effect of the anti-counterfeiting label is improved;

3. the two surfaces of the second substrate layer are both provided with laser holographic layers, after an operator spills random pattern fragments to the adhesive layer, the operator can ensure that laser processing is carried out on each upward surface of the random pattern fragments without manually turning the random pattern fragments, and the operation is convenient.

Drawings

FIG. 1 is a plan view of the present embodiment;

fig. 2 is a sectional view of the present embodiment.

In the figure, 1, a substrate layer; 11. a first substrate layer; 12. an adhesive layer; 2. random pattern fragmentation; 21. a laser holographic layer; 22. a second substrate layer; 3. a transparent protective film; 4. grooving; 5. and (4) release paper.

Detailed Description

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

Referring to fig. 1 and fig. 2, for the utility model discloses a random figure battle array antifalsification label, including substrate layer 1, random figure piece 2 and transparent protection film 3, random figure piece 2 is sheared at random by radium-shine holographic piece and is formed, random figure piece 2 sets up on substrate layer 1, random figure piece 2 has a plurality ofly at random distribution on substrate layer 1, a plurality of random figure pieces 2 form one and are used as the random figure battle array of anti-fake pattern, transparent protection film 3 covers on random figure piece 2 and transparent protection film 3 fixes on substrate layer 1, set up the thread groove 4 of random shape on random figure piece 2.

Referring to fig. 1 and 2, the substrate layer 1 includes a first substrate layer 11 and adhesive layers 12, the adhesive layers 12 are disposed on both sides of the first substrate layer 11, the random pattern fragments 2 and the transparent protective film 3 are adhered to one of the adhesive layers 12, and the release paper 5 is adhered to the other adhesive layer 12.

Referring to fig. 1 and 2, the random pattern debris 2 includes a laser hologram layer 21 and a second substrate layer 22, the laser hologram layer 21 is fixed on both sides of the second substrate layer 22, grooves 4 are formed on the laser hologram layer 21, and the size of the random pattern debris 2 is 0.5mm by 0.5mm to 2mm by 2 mm.

The implementation principle of the embodiment is as follows: when the anti-counterfeiting label is produced, an operator firstly sets the random-shaped grooves 4 on the laser holographic layer 21 on the laser holographic sheet before being cut into fragments, then fixes the laser holographic layer 21 on the two sides of the second substrate layer 22 through bonding or crimping to form a complete laser holographic sheet with the grooves 4, the operator randomly cuts the laser holographic sheet through laser cutting to obtain a plurality of random pattern fragments 2, the operator sprays the random pattern fragments 2 onto the adhesive layer 12 which is not bonded with the release paper 5 to form an anti-counterfeiting pattern array, and then covers the random pattern fragments 2 and the adhesive layer 12 which is bonded with the random pattern fragments 2 with the transparent protective film 3, so that the production and the manufacture of the anti-counterfeiting label are realized, and the anti-counterfeiting label can be bonded on a commodity or a packing box of the commodity after the operator tears off the release paper 5.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. A random graphic array anti-counterfeiting label is characterized in that: including substrate layer (1), random figure piece (2) and transparent protection film (3), random figure piece (2) set up on substrate layer (1), random figure piece (2) are equipped with on substrate layer (1) and are no less than two, transparent protection film (3) cover on random figure piece (2) and fixed with substrate layer (1), groove (4) have been seted up on random figure piece (2).

2. The random graphic array security label of claim 1, wherein: substrate layer (1) includes first stratum basale (11) and viscose layer (12), viscose layer (12) set up on first stratum basale (11), random figure piece (2), transparent protection film (3) set up on viscose layer (12).

3. The random graphic array security label of claim 2, wherein: the adhesive layers (12) are arranged on two sides of the first base layer (11), and the random pattern fragments (2) and the transparent protective film (3) are arranged on one of the adhesive layers (12).

4. The random graphic array security label of claim 2, wherein: keep away from be equipped with on the viscose layer (12) on transparent protection film (3) from type paper (5).

5. The random graphic array security label of claim 1, wherein: the random pattern fragments (2) are formed by randomly shearing laser holographic plates.

6. The random graphic array security label of claim 1, wherein: random figure piece (2) are including radium-shine holographic layer (21) and second stratum basale (22), radium-shine holographic layer (21) are fixed on second stratum basale (22) both sides, two radium-shine holographic layer (21) are connected with viscose layer (12) and transparent protection film (3) respectively.

7. The random graphic array security label of claim 6, wherein: the grooves (4) are formed in the laser holographic layer (21).

8. The random graphic array security label of claim 1, wherein: the random pattern fragments (2) have a pattern size specification of 0.5mm by 0.5mm to 2mm by 2 mm.

Images