KR101472921B1 - The three-dimentional label by using the fine pattern and the microlens - Google Patents

Abstract

The present invention relates to a stereoscopic label using fine patterns and microlenses. More specifically, the stereoscopic label, which is attached to various products including bank bills, securities, passports, ID cards, credit cards, watches, hats, bags, clothes, bottles, electronic products, etc., to be used to identify authenticity, comprises: a lens layer in which multiple microlenses are arranged at certain intervals; and a pattern layer to form a pattern by arranging, in the lower part of the lens layer, pattern cells in the same distances as distances among the centers of the arranged microlenses or to form a pattern by arranging the pattern cells in the multiples of the distances among center points of the microlenses based on the center points of the microlenses. A secret unit is formed on a portion of the lens layer using a pattern designing technology to cover a portion of the pattern if the focal distance is not consistent when viewing from the front of the lens layer and then, the secret unit allows the pattern formed on the pattern layer to be visible if the secret unit is consistent with the focal distance.

Description

[0001] The present invention relates to a three-dimensional label using a fine pattern and a microlens,

The present invention relates to a stereoscopic label for identifying an authenticity of a product by attaching it to various products including banknotes, securities, passports, ID cards, cards, watches, hats, bags, clothes, A lens layer in which a plurality of microlenses are arranged at regular intervals and a pattern in which pattern cells are arrayed in the same manner as the distance between the centers of the microlenses arranged under the lenticular layer, And a pattern portion is formed by arranging pattern cells in a multiple of a distance between the center points of the microlenses as a reference to form a pattern layer. A secret portion in which a focal distance is not coincident when viewed from the front of the lens layer, And when the focal distance matches the secret portion, the pattern formed on the pattern layer through the secret portion And can be distinguished by the naked eye.

Further, according to the present invention, when a pattern in a hidden pattern cell is visually checked by forming a pattern by finely varying the spacing between pattern cells located in a secret portion, the size of the pattern is different depending on the focal distance, And a stereoscopic label using a microlens.

With the recent development of office automation equipment, resolution of color copiers and color printers of high resolution has been improved, and problems such as forgery of banknotes, securities, passports, ID cards,

Precision printing technology using special materials or special ink such as intaglio printing, barcode, hologram, silver, fine letter, fluorescent ink, magnetic ink, partially exposed hue line, Has been used.

However, in the case of special printing, it may be difficult to simply counterfeit, but counterfeit can not be fundamentally prevented.

This is due to the rapid development of high-resolution color copiers and color printers as computer peripherals, as well as the development of counterfeiting techniques by professional counterfeit organizations.

On the other hand, a hologram is a technique which can reproduce a three-dimensional shape. By using the characteristic of a laser, the information of each part of an object is directly converted into a three-dimensional shape by an interference phenomenon of an object wave reflected from an object, It refers to a technique that can be reproduced by an image.

In the hologram technology, a laser having a constant single wavelength is used, a semi-transparent mirror is used to divide the light into two, and one of the light is reflected on the object to produce a reflected wave, and the other is reflected on the film, When the reference wave is recorded and reproduced by causing interference on the film, the stereoscopic image is reproduced.

This hologram technology has recently been used as a method of applying the hologram technology to banknotes, securities, gift certificates, passports, driver's licenses, cards, etc., but the protective resin layer and the reflective hologram metal layer are used as the adhesion layer Car

And the printed matter are thermally transferred by the general adhesive layer as they are, so that there is a disadvantage in that authenticity discrimination against imitation falsification can not be largely distinguished.

On the other hand, in general, a label means that information about a product such as a brand name or a trademark is stuck on paper or the like, and is often used for the purpose of displaying the origin of an article or the content, quality, and components of a product.

In addition, the label can also function to display the specific source of the article so that it can be confirmed whether it is authentic. In recent years, illegal copies of high-priced luxury goods have been frequently circulated, and a variety of genuine product discrimination methods have been developed to prevent such acts.

One of the methods for authentic identification is to attach a label that can not be easily fabricated by falsification through the use of thin gold plated or laser engraving.

However, due to the development of printing technology and gold foil technology, even the label can not be reproduced easily, so that the purpose is not sufficiently achieved.

In addition, a technique has been developed to display a trademark or the like only when a label is viewed at a specific angle by constructing a label using a hidden image that appears when a specific image is not displayed in a normal state and a specific state is changed .

However, as a method of expressing the hidden image, a method of causing a visual illusion by using a base painted with a dye or pigment and varying brightness or saturation of an image, or by making a background or an image composed of a complicated pattern or symbol .

As described above, a label produced by printing using conventional dyes or pigments is merely a representation of a two-dimensional image, and there is also a problem that discoloration occurs due to ultraviolet rays of dyes or pigments.

Therefore, in order to solve the above problems, Patent Registration No. 1341072 "Labels for authenticity confirmation using plural nano structures and stereoscopic lenses"

The previously registered patent developed a method of expressing images without using dyes or pigments, and combined with a stereoscopic lens.

According to the above-mentioned three-dimensional lens sheet including a plurality of nanostructures and representing a hidden image, the above-mentioned three-dimensional lens sheet includes an identification mark forming unit including a stereoscopic lens layer, a focal length layer, and an image forming layer, The negative image-forming layer includes a plurality of nanostructures that are protruded at intervals and height of 50 to 200 nanometers

The nanostructure and the focal length layer are composed of a medium having a refractive index different from that of the nanostructure and the focal length layer, so that the desired color and shape And can be expressed on a single plate without superimposing color and shape representations up to 10 micron nano units.

However, since the above-mentioned line is composed of the identification mark forming unit and the coupling member including the three-dimensional lens layer, the focal length layer and the image forming layer, the manufacturing process is complicated, and a medium having a different refractive index is used between the nanostructure and the focal- The image forming layer is a collection of a plurality of nanostructures protruding at intervals and height of 50 to 200 nanometers and represents a general image, and a hidden image It is easy to display hidden images at angles and focal distances outside the predetermined visual field focal distance because it forms a formed part. It is easy to prevent forgery because the image displayed at the hidden image forming part is monotonous because it is easy to imitate, With the complex process of manufacturing two of the labels We'll have a too thick to limit the application of various products.

In addition, the line registration patent has a limitation in commercial production because the manufacturing process is complicated in air or vacuum state between the nano structure and the focal length layer repeated in a concavo-convex shape in order to prevent genuine confirmation and forgery in the hidden image forming part Is the point.

Patent Registration No. 1341072 "Labeling of authenticity using plural nano structures and stereoscopic lenses"

In order to solve the above-mentioned problems, the present invention provides a stereoscopic label for attaching to various products and then checking whether the article is authentic or forgery, comprising a lens layer having a plurality of microlenses arranged at regular intervals, Wherein a secret portion for visually confirming a pattern hidden at a predetermined focal distance is formed in the lens layer in a state where a pattern layer formed with a pattern is located on the bottom surface of the layer, When the distance between the center of the pattern cell and the center of the pattern cell located in order to realize the pattern is equal to the distance between the lens and the micro lens, the formed pattern diffuses and converges according to whether or not the lens and the pattern are correctly matched. And the micro lens is brought close to the naked eye to form a secret pattern The purpose of that review.

Therefore, the stereoscopic label of the present invention aims to realize a hidden pattern in the secret portion by exactly matching the distance between the center points of the microlenses and the center points of the pattern cells.

In order to solve the above problems, the stereoscopic label for authenticity confirmation and anti-falsification according to the present invention includes a pattern display part in which a plurality of microlenses convex to a plurality of semi-circular molds are arranged at regular intervals and a pattern printed on the pattern layer is expressed, A lens layer in which a secret portion is integrally formed so as to form a hidden pattern formed on the pattern layer when a predetermined visual field focal distance is reached, and a pattern cell in which a pattern corresponding to the microlens is arranged on the bottom surface of the lens layer , The distance between the center point of the microlens and the center point of the adjacent microlens is equal to the distance between the center point of the pattern cell and the center point of the adjacent pattern cell. to provide.

As described above, according to the present invention, a stereoscopic label using a fine pattern and a microlens is composed of a lens layer and a pattern layer and is easily manufactured, so that the center point of a pattern cell The microlenses and the pattern are diffused and diffused according to the angle of each other. When the centers of the microlenses and the pattern cells are exactly matched, the pattern cells formed by the formed characters or patterns are diffused at a maximum value, Is hidden and the human eye is brought close to the microlens and reaches a predetermined visual field focal distance, the hidden character or pattern can be visually distinguished.

In addition, the present invention has the effect that the pattern cells are hidden in the same manner as described above when the pattern cells are arranged at the distance between the center points of the microlenses by two, three, or the like and are aligned with the center points of the microlenses. Conversely, the same effect can be obtained when the distance between the centers of the microlenses is two or three times that of the pattern cell.

Therefore, according to the present invention, it is possible to shorten the process of manufacturing a stereoscopic label to improve the productivity and workability, and various shapes and three-dimensional senses are realized through the microlenses according to the size and the change of the pattern cells to be formed. There is an effect that it can be easily performed.

In addition, the present invention not only moves the pattern in one direction but also moves in all directions, and has various effects on the pattern, thereby making it possible to differentiate the pattern design into two patterns or three patterns.

In addition, the molded pattern hidden in the secret part does not require a reader such as a bar code, a quail code, etc., and functions as a label or an activation label of an effective anti-counterfeiting technology .

In addition, the present invention can produce a stereoscopic label in a single process using a minimum diameter of at least 5 microns and a micro-lens and an in-mold printing technique, and can realize a label in a thin film form, , Watches, hats, bags, clothes, bottles, and electronic products, and then can be used to confirm the authenticity of the product.

1 is an exploded perspective view showing a stereoscopic label of the present invention.
FIG. 2 is a perspective view showing a stereoscopic label of the present invention. FIG.
3 is a cross-sectional view showing a stereoscopic label of the present invention.
4 is a plan view showing a pattern array of a pattern layer differently from that of the stereoscopic label of the present invention.
Fig. 5 is a plan view showing the stereoscopic label of the present invention divided into quarters. Fig.
6 is a plan view showing pattern sizes of pattern cells printed on a pattern layer in a stereoscopic label according to the present invention.
7 is a plan view showing pattern cells printed on a pattern layer in a stereoscopic label according to the present invention are divided into two.
8 is a plan view showing another embodiment of the pattern layer in the stereoscopic label of the present invention.
9 is a perspective view showing the use state of the pattern cell of the secret portion in the stereoscopic label of the present invention.
10 is a photograph showing an embodiment of a secret portion in the stereoscopic label of the present invention.

In order to achieve the above objects and effects, the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is an exploded perspective view showing a stereoscopic label 1 according to the present invention. Fig. 2 is a perspective view showing a stereoscopic label 1 according to the present invention. Fig. FIG.

The stereoscopic label 1 according to the present invention includes a pattern display section 9 in which a plurality of microlenses 4 convex to a plurality of semicircular molds are arranged at regular intervals to form a pattern formed on the pattern layer 3, And a lens layer 2 integrally formed with the secret portion 8 is formed on one side of the pattern display portion 9 so that a hidden pattern is formed in the pattern layer 3 when a predetermined visual field focal distance is reached.

The center of the micro lens 4 and the center point of the micro lens 4 adjacent to the center point of the microlens 4 are arranged on the bottom surface of the lens layer 2 in a state in which the pattern cells 5, And a pattern layer 3 in which a pattern is formed so that the distance between the center point of the pattern cell 5 and the center point of the adjacent pattern cell 5 coincides with each other.

The microlens 4 can reconstruct a 2D image as a three-dimensional image using the principle of optical illusion due to binocular parallax.

The microlenses 4 are combined to use the three-dimensional effect and various conversion effects of the corresponding images.

In other words, Binocular Disparity, which is caused by the presence of the human eye at a distance of about 65 mm in the lateral direction, is used as the most important factor for feeling the three-dimensional effect. By using the microlens 4, By using the forward effect of light, it is possible to obtain the effect of three-dimensional stereoscopic image in a two-dimensional plane image.

Therefore, when arranging a plurality of microlenses 4 convex to a plurality of semicircular molds in the lens layer 2, the distance from the center point of the microlenses 4 to the center point of the adjacent microlenses 4 is 25 microns The distance from the center of the pattern cell 5 formed in the pattern layer 3 to the center point of the adjoining pattern cell 5 is made equal to 25 microns with the microlens 4, The pattern of the pattern cells 5 diffuses according to the viewing angle to give a three-dimensional effect.

That is, in order to realize the pattern cell 5 located in the secret portion 8 in the stereoscopic label 1 through the microlens 4 (latent image), the distance between the center points of the microlens 4 and the pattern The distance between the center points of the cell 5 must be exactly matched and the size of the pattern cell 5 is designed so as not to exceed the size of the microlens 4, In addition to the conventional spacing, it is possible to vary the size and motion of the secret image by changing the pattern within a range of 0.1 micron to 0.01 micron.

Therefore, when the distance between the pie and the center point of the microlens 4 is changed, there is an effect that the movement of the character or the pattern formed on the pattern layer 3 is clearly distinguished by the distance change between the pie and the center point of the microlens 4.

On the other hand, in order to make the thickness of the label thin, it is preferable to form the microlens 4 in a range of 5 microns to 20 microns in the microlens 4 and in the range of 6 microns to 25 microns in the distance between adjacent lens center points Do.

Accordingly, the present invention is not limited to the case where the pattern formed on the pattern layer 3 diffuses out of the microlens 4 regardless of the focal length of the lens layer 2 and the pattern display portion 9 in the stereoscopic label 1, And the pattern located in the secret portion 8 is not displayed outside through the microlens 4 and is hidden when the naked eye reaches a predetermined focal distance in a hidden state, can confirm.

The size of the pattern cell 5 located in the secret portion 8 is adjusted within a range that does not deviate from the pie of the microlens 4, so that the magnification is excessively large beyond a predetermined focal distance, , The pattern can be confirmed only at the correct distance (magnification).

Fig. 4 is a plan view showing the pattern arrangement of the three-dimensional label 1 according to the present invention in different patterns.

The stereoscopic label 1 of the present invention is such that the distance between the center points of the arranged microlenses 4 of the lens layer 2 is 25 microns as shown in a, The distance between them equals 25 microns.

If the distance between the center points of the microlenses 4 arranged in the lens layer 2 is 25 microns as shown in b, the distance between the center points of the pattern cells 5 formed in the pattern layer 3 is 50 microns The pattern cell 5 located in the secret portion 8 is hidden due to the center point of the microlens 4 and the pattern cell 5 being aligned because the distance between the center points of the pattern cell 5 is two So that counterfeiting can be prevented.

Therefore, the pattern cell 5 can be realized in the secret portion 8 even if the center-point distance between the pattern cells 5 is arranged twice, three times, or four times the center-point distance between the microlenses 4.

Fig. 5 is a plan view showing the stereoscopic label 1 of the present invention divided into quarters.

The present invention is characterized in that a stereoscopic label (1) is divided into quarters and has a logo printing area for displaying a logo at the center and a first area (8a) and a second area 8b are formed on the lower side of the logo printing area 7, and third and fourth areas 8c, 8d are formed on the lower side of the logo printing area 7 from the left side.

It is also possible to prevent fabrication by making it difficult to fabricate different patterns located in the first, second, third and fourth portions 8a, 8b, 8c and 8d, and to prevent the second and fourth regions 8b, 8d The user can minimize the blocking of the light to the user's head when viewing the secret portion 8 with the naked eye, thereby guiding the user to look clearly.

6 is a plan view showing a pattern cell 5 to be formed in the pattern layer 3 in the stereoscopic label 1 according to the present invention with a different character or shape size.

The pattern cell 5 located in the secret portion 8 is formed in the pattern cell 5 located below the microlens 4 and coinciding with the center point of the microlens 4, And the sizes of the characters or patterns are different from each other.

Then, according to a predetermined focal distance, a large character and a pattern are displayed first, and a small character or pattern is guided to be seen later.
For example, in the case of expressing the character Oman within a cell, for example, a pattern is initially designed to be large in size and small in size in an adjacent cell, and a large size pattern is initially designed small and adjacent cells.

In another embodiment, when the micro-lens 4 is a 1,016 LPI (line per inch) line so that the secret portion 8 can be hidden in the microlens 4 when the pattern is LG, the L pattern is 1,017 lines If you design each pattern with 1,016 lines of G pattern, you will recognize L first and G later if you close your eyes to the label.

In another embodiment, in the case of a three-dimensional pattern, a pattern is designed with a 1,010 LPI line lower than a 1,016 LPI line in order to move the pattern in a direction opposite to the viewing direction and to make the pattern look unstable when the lens is 1,016 LPI line. On the contrary, To have a sense of sight, the pattern is designed with 1,022 LPI lines higher than 1,016 LPI lines.
For example, if IBK is pattern-patterned in a pattern cell with gradually different sizes for each character, and then BK is pattern-designed in the same manner, then IBK is sequentially generated in the pattern display unit and the secret portion. .

7 is a plan view showing that the pattern cell 5 of the pattern layer 3 is divided into two in the three-dimensional label 1 of the present invention.

The stereoscopic label 1 of the present invention is divided into a pattern cell 5 located below the micro lens 4 located in the secret portion 8 and coinciding with the center point of the micro lens 4, So that pattern conversion can be realized.

8 is a plan view showing another embodiment of the pattern layer 3 in the stereoscopic label 1 of the present invention.

In the present invention, a letter or pattern is formed on both sides of a pattern of the secret portion (8), and the same letter or pattern is arranged on one side and a letter or pattern different from the other side is selected on the other side, And one side and the other side alternate with each other depending on the angle of the micro lens 4 located in the secret portion 8 of the stereoscopic label 1 with naked eyes, To be seen.

Therefore, the present invention not only realizes movement in one direction but movement in all directions of the pattern, but also makes it easy to change the pattern.

For example, the pattern located in the secret portion 8 can be variously changed from a circle to a triangle, a square, or the like. If the stereoscopic label 1 is brought close to the eye, hidden patterns in the script portion can be easily recognized Product buyers or product users can easily check for authenticity.

Meanwhile, the stereoscopic label 1 of the present invention can be mass-produced in one process by fusing an in-mold printing technique to UV-mold the micro lens 4 and the pattern at the same time.

The material of the lens layer 2 is formed of an ultraviolet resin, polyethylene terephthalate, polycarbonate, epoxy or acrylic resin, and the bottom surface of the microlens 4 is molded into a relief mold having a pattern formed thereon.

Alternatively, a hot stamping method may be used for patterning the microlens 4 as a resin on the upper surface of the offset printed pattern. On the upper surface of the microlens 4, a resin having a refractive index different from that of the microlens 4 may be used. It is also possible to increase the fine pattern and sharpness by coating.

In addition, it can be molded and produced in a soft or hard manner depending on the material of the microlens 4, and the color of the stereoscopic label can be adjusted by adding pigment to the color ink or resin.

The bottom surface of the pattern layer 3 is deposited and finished to further clarify the pattern.

If the pattern cell 5 is hidden in the secret portion 8 in such a manner that the distance between the centers of adjacent lens centers of the microlens 4 and the center point of the pattern cell 5 are coincident with each other, The thickness can be freely produced from 0.01 to 2 plus the compensating thickness.

Fig. 9 is a perspective view showing the use state of the pattern cell 5 of the secret portion 8 in the stereoscopic label 1 of the present invention, Fig. 10 is a perspective view showing the use of the secret portion 8 in the stereoscopic label 1 of the present invention This is a picture showing an example.

The stereoscopic label 1 of the present invention can be implemented in a thin film form and attached to various products including money, banknotes, securities, passports, ID cards, cards, clocks, hats, bags, clothes, It can be used to confirm the authenticity of the goods.

Therefore, the stereoscopic label 1 is adjusted by fine pattern design so that the pattern located in the secret portion 8 can not be seen even if the stereoscopic label 1 is viewed by the naked eye, and the stereoscopic label 1 is brought close to the front of the eye, It is possible to identify the hidden pattern cell 5 through the secret portion 8. [

1: stereoscopic label 2: lens layer
3: pattern layer 4: microlens
5: Pattern cell 6: Finishing deposition
7: logo printing area 8a, b, c, d: first, second, third and fourth areas
8: secret part 9: pattern display part

Claims (13)

A pattern display unit in which a plurality of microlenses convexed by a plurality of semicircular molds are arranged at regular intervals so that a pattern formed on the pattern layer is expressed regardless of a focal length of the pattern; A lens layer integrally formed with a secret portion so as to form a hidden pattern formed in the layer;
The distance between the center point of the microlens and the center point of the adjacent microlens, and the distance between the center point of the pattern cell and the center point of the adjacent pattern cell, in the state where the pattern cells implementing the pattern corresponding to the microlenses are arranged, The distance between the center points of the microlenses is twice or more than the distance between the center of the microlenses and the distance between the center points of the microlenses is 2 times or 3 times or 4 times, And a pattern layer formed by arranging the three-dimensional pattern in three dimensions.
delete A pattern display unit in which a plurality of microlenses convexed by a plurality of semicircular molds are arranged at regular intervals so that a pattern formed on the pattern layer is expressed regardless of a focal length of the pattern; A lens layer integrally formed with a secret portion so as to form a hidden pattern formed in the layer;
The distance between the center point of the microlens and the center point of the adjacent microlens, and the distance between the center point of the pattern cell and the center point of the adjacent pattern cell, in the state where the pattern cells implementing the pattern corresponding to the microlenses are arranged, A stereoscopic label comprising a pattern layer formed by patterning so that the distances coincide with each other,
Wherein the size of the pattern cell located at the pattern display unit and the secret unit is different and the pattern cell located at the secret unit is larger than the distance between centers of the pattern cell at which the pattern display unit is located. .
delete delete A pattern display unit in which a plurality of microlenses convexed by a plurality of semicircular molds are arranged at regular intervals so that a pattern formed on the pattern layer is expressed regardless of a focal length of the pattern; A lens layer integrally formed with a secret portion so as to form a hidden pattern formed in the layer;
The distance between the center point of the microlens and the center point of the adjacent microlens, and the distance between the center point of the pattern cell and the center point of the adjacent pattern cell, in the state where the pattern cells implementing the pattern corresponding to the microlenses are arranged, A stereoscopic label comprising a pattern layer formed by patterning so that the distances coincide with each other,
The stereoscopic label is divided into quadrants and a logo printing area is formed at the center and a first area and a second area are formed in the right direction starting from the upper left part with the logo printing area as the center, Wherein the first and second patterns are formed in different patterns from the first, second, third, and fourth regions, and a secret portion is partially formed in one of the second and fourth regions, The stereoscopic label using.
delete delete delete delete A pattern display unit in which a plurality of microlenses convexed by a plurality of semicircular molds are arranged at regular intervals so that a pattern formed on the pattern layer is expressed regardless of a focal length of the pattern; A lens layer integrally formed with a secret portion so as to form a hidden pattern formed in the layer;
The distance between the center point of the microlens and the center point of the adjacent microlens, and the distance between the center point of the pattern cell and the center point of the adjacent pattern cell, in the state where the pattern cells implementing the pattern corresponding to the microlenses are arranged, A stereoscopic label comprising a pattern layer formed by patterning so that the distances coincide with each other,
The pattern cells corresponding to the center points of the microlenses are positioned at the lower portion of the microlenses located in the secret portion, and the pattern cells are formed so that they are different in color from each other, or a pattern area formed by the pattern display portion and the secret portion, Stereoscopic labeling using microlenses and fine patterns characterized by the conversion effect of the label background as the area is repeated like a barrier.
A pattern display unit in which a plurality of microlenses convexed by a plurality of semicircular molds are arranged at regular intervals so that a pattern formed on the pattern layer is expressed regardless of a focal length of the pattern; A lens layer integrally formed with a secret portion so as to form a hidden pattern formed in the layer;
The distance between the center point of the microlens and the center point of the adjacent microlens, and the distance between the center point of the pattern cell and the center point of the adjacent pattern cell, in the state where the pattern cells implementing the pattern corresponding to the microlenses are arranged, A stereoscopic label comprising a pattern layer formed by patterning so that the distances coincide with each other,
Wherein the pattern layer is deposited on the bottom of the pattern layer. delete

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