CN105632328A - Randomly distributed concave-convex anti-counterfeiting structure and production method of randomly distributed concave-convex anti-counterfeiting structure as well as anti-counterfeiting method - Google Patents

Abstract

The invention provides a randomly distributed concave-convex anti-counterfeiting structure and a production method of the randomly distributed concave-convex anti-counterfeiting structure as well as an anti-counterfeiting method. The randomly distributed concave-convex anti-counterfeiting structure comprises a base layer and a plurality of anti-counterfeiting characteristic layers which are randomly distributed on the surface of the base layer, wherein each anti-counterfeiting characteristic layer comprises two or more than two layers of sub-layers which are compounded together; the surfaces of at least one part of the anti-counterfeiting characteristic layers contain anti-counterfeiting information with random depth. With the adoption of the randomly distributed concave-convex anti-counterfeiting structure, the anti-counterfeiting reliability can be improved through the improvement of a physical structure.

Description

The concavo-convex anti-counterfeit structure of a kind of random distribution and production method, method for anti-counterfeit

Technical field

The present invention relates to anti-counterfeit field, particularly relate to concavo-convex anti-counterfeit structure and production method, the method for anti-counterfeit of a kind of random distribution.

Background technology

In order to prevent commodity from being forged by lawless person, it is easy to consumer and identifies genuine commodity, current Main be on commodity subsidiary anti-counterfeit structure to carry anti-counterfeiting information, including: the packaging of commodity is increased particular design (particular groove at the bottom of such as bottle), pastes in the packaging of commodity or printing has the antifalsification label of anti-counterfeiting information, adopts the packaging (plastic packaging outside such as cigarette case, the drawstring etc. on plastic packaging) being printed with anti-counterfeiting information.

Existing scheme has the disadvantage that, the production technology of anti-counterfeit structure is simple, and the anti-counterfeit structure produced is prone to be copied.

Summary of the invention

The technical problem to be solved in the present invention is how to improve false proof reliability by the improvement of physical arrangement.

In order to solve the problems referred to above, the present invention is by the following technical solutions.

A kind of concavo-convex anti-counterfeit structure of random distribution, including:

Basic unit;

It is randomly dispersed in the multiple anti-counterfeiting characteristic layers in described substrate surface;

Each described anti-counterfeiting characteristic layer includes the sublayer that more than two-layer or two-layer are combined with each other respectively; The surface of at least part of described anti-counterfeiting characteristic layer has the first anti-counterfeiting information that the degree of depth is random.

Alternatively, in a described anti-counterfeiting characteristic layer, the color of each sublayer is different.

Alternatively, any one in the following parameter of each described anti-counterfeiting characteristic layer or several differences:

Shape, size, material, the number of sublayer, the color of each sublayer, different colours the putting in order of sublayer.

Alternatively, described first anti-counterfeiting information includes pattern and/or character.

A kind of production method of the concavo-convex anti-counterfeit structure of random distribution, including:

Two or more sublayers are combined with each other, form composite bed;

At the anti-counterfeiting information that the surface Formation Depth of described composite bed is random;

Described composite bed is cut into multiple independent anti-counterfeiting characteristic layer;

Described anti-counterfeiting characteristic layer is shed the surface in basic unit at random.

Alternatively, the plurality of independent anti-counterfeiting characteristic layer shed at random include on the surface of basic unit:

At described basic unit coated glue layer;

The plurality of independent anti-counterfeiting characteristic layer is shed at random on the surface of described basic unit coated glue layer.

Alternatively, the plurality of independent anti-counterfeiting characteristic layer shed at random also include behind the surface of basic unit:

One layer of PET film of compound in the basic unit with described anti-counterfeiting characteristic layer.

Alternatively, described anti-counterfeiting information includes pattern and/or character;

After cutting, have on the anti-counterfeiting characteristic layer of the described anti-counterfeiting information of part and at least there is a complete character and/or pattern.

A kind of method for anti-counterfeit, including:

The concaveconvex structure of above-mentioned random distribution is gathered image information; Described image information includes described anti-counterfeiting characteristic layer position in described basic unit, and has the first anti-counterfeiting information of the random degree of depth on described anti-counterfeiting characteristic layer; Described image information includes picture and/or video;

When receiving Antiforge inquiry information, feed back corresponding image information.

Alternatively, described image information also includes the color that the first anti-counterfeiting information on described anti-counterfeiting characteristic presents.

One embodiment of the invention provides the concavo-convex anti-counterfeit structure of a kind of random distribution, not only anti-counterfeiting characteristic layer distributing position in basic unit can as anti-counterfeiting characteristic, first anti-counterfeiting information on each anti-counterfeiting characteristic layer with concave-convex sense as anti-counterfeiting characteristic, can also add false proof reliability. Another embodiment of the present invention provides the production method of the concavo-convex anti-counterfeit structure of described random distribution. Yet another embodiment of the present invention provides the method for anti-counterfeit of the concavo-convex anti-counterfeit structure based on described random distribution. The alternative of the present invention can also make the first concavo-convex anti-counterfeiting information have random color, and this random coloration can as another newly-increased anti-counterfeiting characteristic, it is possible to improves further and copys difficulty, and will not increase equipment cost.

Other features and advantages of the present invention will be set forth in the following description, and, partly become apparent from description, or understand by implementing the present invention. The purpose of the present invention and other advantages can be realized by structure specifically noted in description, claims and accompanying drawing and be obtained.

Accompanying drawing explanation

Accompanying drawing is for providing being further appreciated by technical solution of the present invention, and constitutes a part for description, is used for explaining technical scheme, is not intended that the restriction to technical solution of the present invention together with embodiments herein.

Fig. 1 is the schematic diagram of the concavo-convex anti-counterfeit structure of the random distribution of embodiment one;

Fig. 2 is the schematic diagram of the position that the degree of depth is different in the first anti-counterfeiting information;

Fig. 3 is the schematic flow sheet of the production method of embodiment two;

Fig. 4 a and Fig. 4 b is the schematic diagram cutting composite bed in embodiment two;

Fig. 5 is the schematic diagram shedding rear anti-counterfeiting characteristic layer in embodiment two in basic unit.

Detailed description of the invention

Below in conjunction with drawings and Examples, technical scheme is described in detail.

If it should be noted that do not conflict, the embodiment of the present invention and each feature in embodiment can be combined with each other, all within protection scope of the present invention. Although it addition, illustrate logical order in flow charts, but in some cases, it is possible to perform shown or described step with the order being different from herein.

Embodiment one, a kind of random distribution concavo-convex anti-counterfeit structure, as it is shown in figure 1, include:

Basic unit 11;

Being randomly dispersed in shown in the multiple anti-counterfeiting characteristic layers 12, Fig. 1 on described basic unit 11 surface is the situation including two anti-counterfeiting characteristic layers 12;

Each described anti-counterfeiting characteristic layer 12 includes the sublayer that more than two-layer or two-layer are combined with each other respectively, and the anti-counterfeiting characteristic layer 12 in such as Fig. 1 includes two sublayers; The surface of at least part of described anti-counterfeiting characteristic layer 12 has the first anti-counterfeiting information that the degree of depth is random, sunk rectangle 13 on two anti-counterfeiting characteristic layers 12 in such as Fig. 1.

In the present embodiment, described anti-counterfeiting characteristic layer itself can be more slightly higher than basic unit, the basic unit that distributed described anti-counterfeiting characteristic layer is made to have irregular visual effect on the whole, wherein " recessed " is the region without anti-counterfeiting characteristic layer, such as Tu1Zhong basic unit 11 does not have the region of anti-counterfeiting characteristic layer, " convex " is described anti-counterfeiting characteristic layer, the region at anti-counterfeiting characteristic layer 12 place in such as Fig. 1; It addition, the first anti-counterfeiting information itself on anti-counterfeiting characteristic layer also presents concavo-convex visual effect, wherein " recessed " is first anti-counterfeiting information with certain depth, and " convex " is the region on anti-counterfeiting characteristic layer surface outside the first anti-counterfeiting information. Therefore, it is concavo-convex on the whole that " concavo-convex " of the concavo-convex anti-counterfeit structure of the present embodiment refers not only to this structure, and the structure of each local " convex " (i.e. anti-counterfeiting characteristic layer) itself also has concave-convex sense, increase is copied difficulty by this anti-counterfeit structure, improves false proof reliability.

In the present embodiment, the plurality of anti-counterfeiting characteristic layer is had the composite bed cutting of the anti-counterfeiting information of the random degree of depth and obtains by one or more surfaces; It is to say, the anti-counterfeiting characteristic layer on described concavo-convex anti-counterfeit structure can be seen that from profile or on figure belongs to same or several entirety, described anti-counterfeiting characteristic layer is stitched together in other words, can form one or several from profile or figure overall. A flower is carved with on the such as surface of a composite bed, and the figure on two anti-counterfeiting characteristic layers obtained after cutting is respectively half flower, and consumer can be stitched together by the figure that observation can be seen that on the two anti-counterfeiting characteristic layer and form a flower. A composite bed is two anti-counterfeiting characteristic layers along curvilinear cut for another example, and consumer is by observing the edge contour of the two anti-counterfeiting characteristic layer in basic unit, it can be seen that the edge contour of the two anti-counterfeiting characteristic layer agrees with each other, it is possible to be combined into an entirety.

In the present embodiment, all or part of region in described substrate surface is also provided with the second anti-counterfeiting information; Described second anti-counterfeiting information just can set before forming described anti-counterfeiting characteristic layer, and namely described anti-counterfeiting characteristic layer is it would be possible to cover part the second anti-counterfeiting information. After forming described anti-counterfeiting characteristic layer, the second anti-counterfeiting information can also be formed in the substrate surface not having described anti-counterfeiting characteristic layer. The mode forming the second anti-counterfeiting information includes but not limited to: printing, spraying etc.

In the present embodiment, the generation type of described first anti-counterfeiting information can be, but not limited to include laser engraving, hollow out etc. Described anti-counterfeiting characteristic layer surface (i.e. the surface of one sublayer in the top) is except described first anti-counterfeiting information with the random degree of depth, it is also possible to form the 3rd anti-counterfeiting information. Being similar to described second anti-counterfeiting information, the 3rd anti-counterfeiting information can be formed before or after the first anti-counterfeiting information is formed, and the mode forming the 3rd anti-counterfeiting information includes but not limited to: printing, spraying etc.

In the present embodiment, the material of described sublayer includes but not limited to paper products, textile, plastics etc.; The shape of described anti-counterfeiting characteristic layer can be arbitrary, can be such as strip, and each anti-counterfeiting characteristic layer similar can regard a fiber as. When the surface area of described anti-counterfeiting characteristic layer is less, consumer maybe can realize the terminals such as the mobile phone of enlarging function and observe described first anti-counterfeiting information by means of magnifier.

In the present embodiment, described basic unit can be, but not limited to as PET film or paper. Described paper can be, but not limited to select art paper; A coating can also be coated with on the surface of paper or cover lid layer PET film and make it easier in conjunction with described anti-counterfeiting characteristic layer. At basic unit's bottom-surface coated glue-line, this concavo-convex anti-counterfeit structure can being made can to paste in commodity or its packaging, after stickup, substrate surface (i.e. anti-counterfeiting characteristic layer and the first anti-counterfeiting information) is outwardly. After coated glue layer, before pasting in commodity or its packaging, it is also possible to first paste in release paper, open release paper again when needs are pasted.

In the present embodiment, it is random that the described degree of depth both may refer to the degree of depth of the first anti-counterfeiting information on different preventing pseudo-characteristic layer surface at random, but the degree of depth of the first anti-counterfeiting information on an anti-counterfeiting characteristic layer is all identical, on a such as anti-counterfeiting characteristic layer, the degree of depth of the first anti-counterfeiting information is D1, and the degree of depth of the first anti-counterfeiting information on another anti-counterfeiting characteristic layer is D2; May also mean that, in an anti-counterfeiting characteristic layer, the degree of depth of the diverse location of the first anti-counterfeiting information is random; Can also refer in different concavo-convex anti-counterfeit structures, the degree of depth of the first anti-counterfeiting information is random, but on an anti-counterfeit structure, the degree of depth of all first anti-counterfeiting information is all identical. Wherein, " degree of depth is random " means that the degree of depth is likely to identical be likely to difference.

In the present embodiment, the constant interval of the degree of depth of described first anti-counterfeiting information could be arranged to: the most deeply for equal to the height sum (i.e. the height of anti-counterfeiting characteristic layer) of all sublayers, and the most shallow is the height of one sublayer in the top. As shown in Figure 2, position 232 the deepest in first anti-counterfeiting information can penetrate whole anti-counterfeiting characteristic layer 22 (from this position it can be seen that basic unit 21), the most shallow position 231 also at least penetrates a uppermost sublayer 222 (from this position it can be seen that a following sublayer 221), when the degree of depth is positioned at this constant interval, such as position 233 can penetrate a sublayer 222 topmost, reaches the inside of sublayer 221. Certainly, the constant interval of this degree of depth can be set during practical application separately, only can leave slight trace in a sub-layer surface topmost time such as shallow, be equivalent to scrape off or carve out thin layer material from a sub-layer surface topmost, and do not penetrate through this sublayer.

Alternatively, in a described anti-counterfeiting characteristic layer, the color of each sublayer is different.

When each sublayer has different colours, the color that the first anti-counterfeiting information presents is relevant with the degree of depth; Sublayer color, the putting in order of different colours sublayer, the first anti-counterfeiting information the degree of depth in any one or appoint several random time, the color presented will be also random. Such design not only increases aesthetic feeling and identification, it is often more important that can strengthen random degree and personalization level, by false proof to carry out to the image information of collection and commodity one_to_one corresponding, can be greatly increased the difficulty of imitation.

In this alternative, the color of each sublayer can also be different from described basic unit.

In this alternative, the color of each sublayer can be random, and the overlay order of the sublayer of different colours can also be random, such as when there being three sublayers, these three sublayer from top to bottom can be respectively red, yellow, blue, it is also possible to respectively blue, red, yellow.

In this alternative, described first anti-counterfeiting information will present different colors according to the degree of depth. Such as, when the degree of depth does not penetrate all sublayers, the color that color is the sublayer not penetrated that described first anti-counterfeiting information presents; When the degree of depth penetrates all sublayers, the color that color is basic unit that described first anti-counterfeiting information presents; If the first anti-counterfeiting information diverse location degree of depth on an anti-counterfeiting characteristic layer is different, then this first anti-counterfeiting information will present multiple color.

Than anti-counterfeiting characteristic layer as shown in Figure 2, what position 231 on the first anti-counterfeiting information and position 233 presented is all the color of sublayer 221, the color of the Ze Shi basic unit 21 that position 232 presents. If the degree of depth does not even penetrate uppermost sublayer 222, then the first anti-counterfeiting information of this position presents the color of sublayer 222.

In this alternative, except concaveconvex structure, it is also possible to increase this anti-counterfeiting characteristic of color, improve false proof reliability further. Consumer can by observing the color that present of the first anti-counterfeiting information, and and due color (color of the first anti-counterfeiting information that such as Antiforge inquiry server gathers before dispatching from the factory) comparison, to check the true and false. Due to the degree of depth of the first anti-counterfeiting information, sublayer color and sequence cannot predict, therefore this also increases the difficulty of fraud, add false proof reliability.

Alternatively, any one in the following parameter of each described anti-counterfeiting characteristic layer or several differences:

Shape, size, material, the number of sublayer, the color of each sublayer, different colours the putting in order of sublayer.

Alternatively, described first anti-counterfeiting information includes pattern and/or character.

Described pattern can be, but not limited to include figure or bar code; Described figure includes the regular figures such as rectangle, triangle, circle, ellipse, it is also possible to include irregular figure; Described bar code includes bar code and Quick Response Code. Described character can include Chinese character, other country's word, letter, numeral, symbol etc. When described first anti-counterfeiting information not only includes Quick Response Code but also includes character, the information in Quick Response Code can generate according to described character, it is also possible to unrelated with character. When there being multiple character, multiple characters can be arranged in one or multirow or be arranged in one or multiple row, it is possible to have random position. Multiple characters can be the word or the phrase (such as can be selected for publicity corporate culture or significant phrase) that possess definite meaning, it is also possible to from each other entirely without contact.

Pattern and/or character that described first anti-counterfeiting information comprises can be complete or local; Described character following any one or appoint several parameters can be random:

Position, content, font, size, the anglec of rotation, stroke weight;

Such as, the anglec of rotation is the random value (being equivalent to when being 0 or 360 degree not rotate) between 0��360 degree.

Described pattern following any one or appoint several parameters can also be random:

Profile, line weight, size.

In this alternative, the pattern of the first anti-counterfeiting information and/or character all will have concave-convex sense; In same character and/or pattern, the degree of depth of diverse location can be different, it is also possible to the same.

Quick Response Code is generally the figure of chequered with black and white (or the depth is alternate), when described first anti-counterfeiting information includes Quick Response Code (or its local), what have the degree of depth can be black (or dark) part in Quick Response Code, and now Quick Response Code remainder is formed by the surface of a sublayer topmost; What have the degree of depth can also be white (or light color) part in Quick Response Code, and now Quick Response Code remainder is formed by the surface of a sublayer topmost. Such Quick Response Code is no longer a planar graph, but has the structure of three-dimensional concave-convex sense, is also more favorable for false proof.

When the degree of depth difference of different piece in same Quick Response Code, described Quick Response Code can present multiple color, such as it is likely to occur situations below: a Quick Response Code is divided into light-colored part and dark parts, wherein the dark parts of this Quick Response Code has the degree of depth, above this Quick Response Code, the dark parts of half presents navy blue, below the dark parts of half present peony. Being combined by concaveconvex structure, random color and Quick Response Code, it is false proof to carry out, false proof more to have randomness and personalization is carried out than the information only carried by Quick Response Code itself, accordingly even when imitator can copy out Quick Response Code, also cannot accurately accurately copy out by the color of each Quick Response Code, add the difficulty of imitation. When the first anti-counterfeiting information is that situation when character or other pattern is similar, each described pattern or character can present two or more color.

Embodiment two, a kind of random distribution the production method of concavo-convex anti-counterfeit structure, as it is shown on figure 3, include step S110��S140:

S110, two or more sublayers are combined with each other, form composite bed;

S120, at the random anti-counterfeiting information of the surface Formation Depth of described composite bed;

S130, described composite bed is cut into multiple independent anti-counterfeiting characteristic layer;

S140, described anti-counterfeiting characteristic layer is shed the surface in basic unit at random.

According to the present embodiment, it is possible to produce the concavo-convex anti-counterfeit structure of random distribution described in embodiment one. When each concavo-convex anti-counterfeit structure individually produces, complete above-mentioned steps S110��140 and can be obtained by a concavo-convex anti-counterfeit structure, it is possible to be attached in commodity or its packaging. Product step S110��140 can also produced carries out disconnected, stripping and slicing or similar process, obtains multiple concavo-convex anti-counterfeit structure, is respectively attached in different commodity or its packaging.

In the present embodiment, after cutting, at least part of anti-counterfeiting characteristic layer will include the described anti-counterfeiting information of part, say, that does not have the situation of anti-counterfeiting information on the anti-counterfeiting characteristic layer that would be likely to occur after cutting; The first anti-counterfeiting information described in the anti-counterfeiting information of part included on one anti-counterfeiting characteristic layer and embodiment one.

In the present embodiment, can be, but not limited to the angle according to being perpendicular to composite bed upper surface during cutting and cut, can by the vertical incision of line of cut during cutting, the sublayer number that after cutting, each anti-counterfeiting characteristic layer has is identical with composite bed. The position of line of cut, angle can be random, and the shape of each anti-counterfeiting characteristic layer so cut out is random. Can certainly cutting according to fixing line of cut, the shape of each anti-counterfeiting characteristic layer so cut out is fixing. No matter adopting which kind of mode to cut, the shape of each anti-counterfeiting characteristic layer is likely to identical, it is also possible to different. As shown in fig. 4 a, the dotted line of composite bed 41 upper surface is line of cut to one example, so will cut out different multiple anti-counterfeiting characteristic layers; As shown in Figure 4 b, the dotted line of composite bed 42 upper surface is line of cut to another example, so identical by cutting out shape multiple anti-counterfeiting characteristic layers, it is also possible to regard a plurality of wide fiber as. Described line of cut is not limited to the straight line in Fig. 4 a, Fig. 4 b, it is also possible to for curve.

The multiple modes that composite bed is separated into multiple anti-counterfeiting characteristic layer such as in the present embodiment, cutting can include cutting apart with a knife or scissors, chopping. Shed can manually or machine complete; This paper sheds the situation that the discharging opening also comprised from machine is trickled down basic unit.

In the present embodiment, the anti-counterfeiting characteristic layer obtained after the cutting of one or more composite bed can be shed in the basic unit of a concavo-convex anti-counterfeit structure; Can all shed in the basic unit of a concavo-convex anti-counterfeit structure after one composite bed cutting, can also separately shed in the basic unit of multiple concavo-convex anti-counterfeit structure, say, that the basic unit of a concavo-convex anti-counterfeit structure does not likely include a composite bed and cuts the whole anti-counterfeiting characteristic layers obtained.

In the present embodiment, it is likely to part anti-counterfeiting characteristic layer when shedding and can shed outside basic unit, be so equivalent to screen out part anti-counterfeiting characteristic layer at random; Can certainly by shedding time add the mode of enclosing in basic unit's surrounding and ensure that all anti-counterfeiting characteristic layers shed all have been fallen in basic unit. It addition, the anti-counterfeiting characteristic layer fallen after shedding in basic unit is probably recumbency or anti-; Such as composite bed includes sublayer 531, sublayer 532 and sublayer 533 from top to bottom, carves downwards formation anti-counterfeiting information from sublayer 511; After cutting and shedding, as it is shown in figure 5, the anti-counterfeiting characteristic layer 521 in basic unit 51 be just, be namely sublayer 531,532 and 533 from top to bottom; Anti-counterfeiting characteristic layer 522 is anti-, is namely sublayer 533,532 and 531 from top to bottom; Anti-counterfeiting characteristic layer 523 is recumbency, and namely the side of three sublayers contacts with basic unit 51.

In practical application, it is possible to by increasing the weight of bottom sublayer 533 or increasing the modes such as heavier material in composite bed bottom and ensure that anti-counterfeiting characteristic layer is that positive land are in basic unit as far as possible. It addition, in the step s 120, it is also possible to all form anti-counterfeiting information on upper and lower two surfaces of composite bed, so no matter anti-counterfeiting characteristic layer be just or anti-, just can show as long as having anti-counterfeiting information. It is of course also possible to do not carry out any process, situation anti-, recumbency is also served as a kind of random anti-counterfeiting characteristic.

Alternatively, the plurality of independent anti-counterfeiting characteristic layer shed at random include on the surface of basic unit:

At described basic unit coated glue layer;

The plurality of independent anti-counterfeiting characteristic layer is shed at random on the surface of described basic unit coated glue layer.

Anti-counterfeiting characteristic layer can be played fixing effect by this alternative; The combination of anti-counterfeiting characteristic layer and basic unit additionally can also be reinforced after shedding by applying the modes such as pressure.

Alternatively, the plurality of independent anti-counterfeiting characteristic layer shed at random also include behind the surface of basic unit:

One layer of PET film of compound in the basic unit with described anti-counterfeiting characteristic layer.

This alternative is fixed in basic unit also for by anti-counterfeiting characteristic layer.

During practical application, the method for fixing anti-counterfeiting characteristic layer is not limited to above two alternative.

Alternatively, described anti-counterfeiting information includes pattern and/or character; Detail can referring to a kind of description to the first anti-counterfeiting information of embodiment.

After cutting, have on the anti-counterfeiting characteristic layer of the described anti-counterfeiting information of part and at least there is a complete character and/or pattern.

In other alternative, character and/or pattern on anti-counterfeiting characteristic layer can also be imperfect.

Embodiment three, a kind of method for anti-counterfeit, including:

The concaveconvex structure of the random distribution described in embodiment one is gathered image information; Described image information includes described anti-counterfeiting characteristic layer position in described basic unit, and has the first anti-counterfeiting information of the random degree of depth on described anti-counterfeiting characteristic layer; Described image information includes picture and/or video;

When receiving Antiforge inquiry information, feed back corresponding image information.

In the present embodiment, before acquisition or gather after, it is also possible to described concavo-convex anti-counterfeit structure is attached to commodity or its packaging on; The mode of attachment can be, but not limited to as pasting.

In the present embodiment, it is possible to but it is not limited by the second anti-counterfeiting information in described basic unit, it is determined that the position of described anti-counterfeiting characteristic layer.

In the present embodiment, described image information can also include the profile of anti-counterfeiting characteristic layer, size etc.

In the present embodiment, described image information includes having on described anti-counterfeiting characteristic layer the first anti-counterfeiting information of the random degree of depth and refers to from described image information it can be seen that the shape of described first anti-counterfeiting information (being such as but not limited to pattern and/or character), the size even degree of depth, namely can find out concavo-convex structure.

In the present embodiment, can print by described basic unit random number sequences, the phone of Antiforge inquiry, note, network address etc. Other anti-counterfeiting information can also be printed.

In the present embodiment, the mode of collection includes but not limited to take pictures, shooting etc. Described Antiforge inquiry information can be passed through note, calls, wechat, in webpage the various mode transmission such as input to anti-counterfeit server; Anti-counterfeit server can feed back described image information by corresponding mode; Described Antiforge inquiry information can carry the partial content in the first anti-counterfeiting information, it is also possible to carry the Quick Response Code/bar code in the first anti-counterfeiting information that scanning obtains; Antiforge inquiry information can also be automatically generated by the Quick Response Code/bar code in scanning the first anti-counterfeiting information.

In the present embodiment, it is also possible that the information of the commodity of the image information gathered and this concavo-convex anti-counterfeit structure of attachment carries out corresponding preservation, the information of corresponding commodity is also fed back when feedback image information, such as trade name, manufacturer, batch, one or several in the information such as market, so commodity can be realized anti-counterfeiting, anti-channel conflict.

In the present embodiment, both can be directly feed back photo and/or video during feedback image information, can also be feedback word or language for describing described image information, as by word or voice feedback: have the anti-counterfeiting characteristic layer with commodity packaging lower edges parallel below network address, the complete character wherein comprised is " pleasure ", and happy left-half is deeper than right half part.

Alternatively, described image information also includes the color that the first anti-counterfeiting information on described anti-counterfeiting characteristic presents.

In this alternative, when sublayer has color, the first anti-counterfeiting information can present the sublayer of internal layer or the color of basic unit; The color that the degree of depth of the first anti-counterfeiting information can be passed through to present embodies. Therefore, pattern and/or character in described first anti-counterfeiting information can as anti-counterfeiting characteristics except itself, and its color presented can also as anti-counterfeiting characteristic; Different pattern/character, same pattern/character different piece be likely to because the degree of depth is different and different.

Although the embodiment that disclosed herein is as above, but described content is only the embodiment readily appreciating the present invention and adopt, and is not limited to the present invention. Technical staff in any art of the present invention; under the premise without departing from the spirit and scope that disclosed herein; any amendment and change can be carried out in the form implemented and details; but the scope of patent protection of the present invention, still must be as the criterion with the scope that appending claims defines.

Claims (10)

1. the concavo-convex anti-counterfeit structure of a random distribution, it is characterised in that including:

Basic unit;

It is randomly dispersed in the multiple anti-counterfeiting characteristic layers in described substrate surface;

Each described anti-counterfeiting characteristic layer includes the sublayer that more than two-layer or two-layer are combined with each other respectively; The surface of at least part of described anti-counterfeiting characteristic layer has the first anti-counterfeiting information that the degree of depth is random.

2. structure as claimed in claim 1, it is characterised in that:

In one described anti-counterfeiting characteristic layer, the color of each sublayer is different.

3. structure as claimed in claim 1, it is characterised in that:

In the following parameter of each described anti-counterfeiting characteristic layer any one or appoint several differences:

Shape, size, material, the number of sublayer, the color of each sublayer, different colours the putting in order of sublayer.

4. structure as claimed in claim 1, it is characterised in that:

Described first anti-counterfeiting information includes pattern and/or character.

5. a production method for the concavo-convex anti-counterfeit structure of random distribution, including:

Two or more sublayers are combined with each other, form composite bed;

At the anti-counterfeiting information that the surface Formation Depth of described composite bed is random;

Described composite bed is cut into multiple independent anti-counterfeiting characteristic layer;

Described anti-counterfeiting characteristic layer is shed the surface in basic unit at random.

6. method as claimed in claim 5, it is characterised in that the plurality of independent anti-counterfeiting characteristic layer is shed at random and includes on the surface of basic unit:

At described basic unit coated glue layer;

The plurality of independent anti-counterfeiting characteristic layer is shed at random on the surface of described basic unit coated glue layer.

7. method as claimed in claim 5, it is characterised in that the plurality of independent anti-counterfeiting characteristic layer is shed at random and also includes behind the surface of basic unit:

One layer of PET film of compound in the basic unit with described anti-counterfeiting characteristic layer.

8. method as claimed in claim 5, it is characterised in that:

Described anti-counterfeiting information includes pattern and/or character;

After cutting, have on the anti-counterfeiting characteristic layer of the described anti-counterfeiting information of part and at least there is a complete character and/or pattern.

9. a method for anti-counterfeit, including:

The concaveconvex structure of the random distribution according to any one of such as Claims 1 to 4 is gathered image information; Described image information includes described anti-counterfeiting characteristic layer position in described basic unit, and has the first anti-counterfeiting information of the random degree of depth on described anti-counterfeiting characteristic layer; Described image information includes picture and/or video;

When receiving Antiforge inquiry information, feed back corresponding image information.

10. method as claimed in claim 9, it is characterised in that:

Described image information also includes the color that the first anti-counterfeiting information on described anti-counterfeiting characteristic presents.