KR101660292B1 - A combined label - Google Patents

Abstract

The present invention relates to a manufacturing method for printing a complex 3D optical level on an object regardless of the material of an object and the complex 3D optical level. More particularly, an optical level where an image forming layer, a dye paint layer, a focus distance layer, a complex refraction layer are successively printed on the surface of an object is molded and manufactured regardless of the material of the object. So, productivity can be improved by omitting a process of attaching a label of a sticker type to the object like an existing method. Also, because a complex 3D optical label is not used so that it is easy to be torn and broken, a forgery can be prevented.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a manufacturing method for printing a complex stereoscopic optical label on an object to be attached,

Since the optical label is formed by printing an image forming layer, a dye pigment layer, a focal distance layer, and a compound refractive layer on a surface of an object to be attached irrespective of the material of the object to be adhered in order, It is possible to improve the productivity by omitting the step of adhering the label of the optical fiber to the label of the optical fiber, and the composite stereoscopic optical label can be easily torn or damaged because it does not use the film, The present invention relates to a method of printing a complex stereoscopic optical label on an object to be attached without being limited by the material of the object to be attached,

Recently, with the development of office automation equipment, the resolution of high-resolution color copiers and color printers has been improved, and problems such as falsification of banknotes, securities, passports, ID cards and cards have been used in various crimes. Precision printing technology using special materials or special inks such as intaglio printing, barcode, hologram, silver, fine letter, fluorescent ink, magnetic ink, partially exposed silver halide, .

On the other hand, in order to confirm authenticity of the product, anti-counterfeit label is manufactured and attached to the product.

The anti-falsification 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 the article or displaying the contents, quality, and components of the 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 the 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.

Accordingly, in order to solve the above problems, Patent Registration No. 1341072 "Labels for authenticity confirmation using a plurality of nano adherends and stereoscopic lenses"

According to the above-mentioned three-dimensional lens sheet including a plurality of nano adherends and representing a hidden image, the above-mentioned three-dimensional lens sheet comprises a three-dimensional lens layer, a focal length layer and an image forming layer.

In the above-mentioned prior art, an image is printed on an upper surface of a shielding layer and a release paper located on the upper surface of the shielding layer to form an image forming layer, and then a film is stacked on the upper surface of the image forming layer to form a focal distance between the stereoscopic lens and the image A focal length layer, and a stereoscopic lens layer on which a plurality of stereoscopic lenses are arranged.

However, the conventional label is mainly made of a sticker type in which a film is inserted between the image forming layer and the three-dimensional lens layer to form a focal distance, thereby applying an adhesive to the back surface of the image-forming layer or the like and then sticking to the adherend.

Therefore, the conventional label for authenticity confirmation is manufactured in the form of a sticker, and then the worker directly peels off the protective sheet and attaches directly to the attachment, which is troublesome and lowers the productivity.

In addition, since the image forming layer is printed and then the film is placed on the image forming layer, the stereolithography layer is formed, so that it is possible to produce only a sticker type label, and the film is inserted into the label, which makes it difficult to tear easily.

Further, in order to adsorb and separate the label adhered to the protective paper by the adsorber after manufacturing the label for authenticity confirmation, the size of the label size must be 2 cm x 2 cm or more in length, and thus the size is limited.

In addition, the conventional authenticating label is not easily torn or damaged by the film when the label is torn in order to prevent reuse of the label on the attachment by adjusting the focal distance using the film, There is a problem in that it can be easily used for fake attachment.

Therefore, the conventional label for authenticity confirmation has to be directly adhered to the adherend, so that the manufacturing process is complicated, and the image expressed in the image-forming layer is monotonous because it can be imitated easily and it is not easy to prevent forgery. Due to the complicated process of label manufacturing, the thickness of the label is too thick, which limits the application of various products.

Patent Registration No. 1341072 "Labeling of authenticity using multi-nano adherends and stereoscopic lenses"

In order to solve the above-mentioned problems, the present invention provides a stereoscopic optical label of the present invention, which is not manufactured using a film as a sticker type but is directly printed on an adherend, omitting a manufacturing process of adhering a label to an adherend, And to prevent the reuse of the forged product by easily tearing or damaging the label which has reached the end of its life.

In order to solve the above problems, the present invention provides an image forming apparatus, comprising: an image forming layer on which an image or pattern is printed on a surface of an object to be adhered; a dye pigment layer; a plurality of micro lenses The present invention provides a method of printing a complex stereoscopic optical label on an object to be attached without being limited by the material of the object to be attached, characterized in that the composite refractive layers arranged at regular intervals are printed in order by the printer.

As described above, since the film is not used in producing the composite stereoscopic optical label according to the present invention, the composite stereoscopic optical label is directly printed on the surface of the object to be adhered by the printer, The manufacturing process is omitted, and productivity is improved due to improvement in workability.

 Further, the composite stereoscopic optical label of the present invention is capable of printing directly on paper, plastic, vinyl, rubber, and metal foil regardless of the material of the adherend, and has a variety of applications.

Further, unlike the conventional complex stereoscopic optical label, since the film is not used, the thickness can be minimized and the size of the complex stereoscopic optical label can be manufactured to be 2 cm x 2 cm or less in width.

Further, according to the material of the object to be adhered, a pre-coating and a shielding layer are coated on the surface of the object so as to facilitate the printing operation of the complex stereoscopic optical label, thereby improving the workability.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a flow chart illustrating a method of printing a composite stereoscopic optical label on an adherend of the present invention.
2 is a sectional view showing a composite stereoscopic optical label of the present invention.
3 is a sectional view showing a shielding layer on a composite stereoscopic optical label of the present invention.
4 is a plan view showing a pattern design on an image forming layer in a composite stereoscopic optical label of the present invention.
FIGS. 5A and 5B are photographs showing a composite stereoscopic optical label of the present invention. FIG.

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 a flowchart showing a manufacturing method of printing a composite stereoscopic optical label 1 on an adherend 7 according to the present invention, Fig. 2 is a sectional view showing the composite stereoscopic optical label 1 of the present invention, 3 is a sectional view showing the shielding layer 6 on the composite stereoscopic optical label 1 of the present invention.

The present invention is a manufacturing method in which a complex stereoscopic optical label (1) is directly printed on the surface of an object (7) to be attached regardless of the material of the object (7).

An image forming layer 2 on which an image 9 (pattern) is formed on the surface of the object 7 to be adhered; a dye pigment layer 3 for applying a color to the surface of the image forming layer 2 with a pigment; A focal length layer 1 for adjusting the focal distance of the image forming layer 2 and the microlens 8 by resin on the surface of the pigment layer 3 and a plurality of convex The microlenses 8 are arranged at regular intervals and are printed by the printer in order to form the compound refractive layer 5.

When the composite stereoscopic optical label 1 is printed on the surface of the adherend 7 as described above, the composite stereoscopic optical label 1 is adhered to the adherend 7 by a worker or adsorbed by an adsorption machine, It is a manufacturing method which can increase the productivity by omitting the method.

In order to facilitate the printing operation of the complex stereoscopic optical label 1 depending on the material of the object 7 to be adhered to, the surface of the object 7 to be adhered is coated with the pre-coating by the eye plasma treatment and the shielding layer 6 is coated A manufacturing method capable of enhancing workability is added.

Preferably, the material of the structure is made of paper, vinyl, rubber, PU, PC, polyethylene terephthalate (PET), or metal foil.

The paper may be a newspaper, an imitation paper (mat paper), a mat paper, a heavy paper, or a long paper.

It is also preferable that the resin is epoxy or hybrid as the thermoplastic resin or polyester urethane or acrylic or triglycidylisocyanurate as the resin.

Since the composite stereoscopic optical label 1 does not use a film for a focal length layer as in the prior art, it can be limited to a thickness of 5 to 30 microns.

When the composite stereoscopic optical label 1 is printed using paper as the material of the object 7, the composite stereoscopic optical label 1 can be easily torn and reuse can be prevented.

4 is a plan view showing a pattern design on the image forming layer 2 in the composite stereoscopic optical label 1 of the present invention.

The composite stereoscopic optical label 1 according to the present invention is characterized in that the image 9 continuously printed on the image forming layer 2 is formed by the distance between the center point of the continuously arranged micro lenses 8 and the center point of the adjacent micro lenses 8, It is possible to confirm whether or not the adherend 7 is authentic by confirming the image 9 through the compound refraction layer by printing the distance between the center points of the image 9 adjacent to the image 9 to match.

Further, in another embodiment, the image forming layer 2 may arrange the images 9 different in the distance between the center points of the adjacent images 9, respectively.

For example, in the image forming layer 2, a first image 9 in which an image 9 is arranged at a distance equal to the distance between the center point of the microlens 8 and the center point of the adjacent microlens 8, A method of forming a second image 9 in which the distance between the center point of the micro lens 8 and the center point of the adjacent micro lens 8 is skipped and arranged one by one and the image 9 having a three- ) Can be provided to confirm the authenticity.

5A and 5B are photographs of a product showing the composite stereoscopic optical label 1 of the present invention, in which the composite stereoscopic optical label 1 is directly printed on the attached material 7 as a paper material and can be easily torn or damaged, prevent.

Therefore, the composite stereoscopic optical label 1 of the present invention can be directly used for printing on banknotes, securities, passports, identification cards, and cards to prevent forgery.

1: composite stereoscopic optical label 2: image forming layer
3: dye pigment layer 4:
5: compound refraction layer 6: shield layer
7: Attachment 8: Micro lens
9: Image

Claims (8)

In a method for producing a composite stereoscopic optical label,
An image forming layer in which an image is formed on a surface of an adherend to which a composite stereoscopic optical label is to be attached; a dye pigment layer of the image forming layer; and a resin layer on the surface of the dye pigment layer, And a composite refraction layer in which a plurality of convex microlenses are arranged at regular intervals on the surface of the focal length layer are sequentially printed by a printer. And printing a complex stereoscopic optical label on the attachment.
The adherend according to claim 1, wherein the material of the adherend is paper, vinyl or rubber PU, PC (polycarbonate), PET (polyethylene phthalate) A method for manufacturing a composite stereoscopic optical label on an object to be attached, without being limited by material.
The method according to claim 1, wherein the resin is epoxy or hybrid, or polyester urethane or acrylic or triglycidylisocyanurate. A method for manufacturing a complex stereoscopic optical label on an adherend without being limited by the material of the adherend.
The method according to claim 1, further comprising the step of applying a pre-coating and a shielding layer coating by plasma treatment to the surface of the object to be attached so as to facilitate the printing operation of the composite stereoscopic optical label according to the material of the object to be adhered Characterized in that a composite stereoscopic optical label is printed on the adherend without being limited by the material of the adherend.
2. The image forming apparatus according to claim 1, wherein the image continuously printed on the image forming layer is printed by matching the distance between the center point of the continuously arranged microlenses and the center point of the adjacent microlenses and the distance between the center points of the images adjacent to the image Characterized in that a composite stereoscopic optical label is printed on the adherend without being limited by the material of the adherend.
The method according to claim 1, wherein the thickness of the composite stereoscopic optical label is limited to 5 to 30 microns. The method according to claim 1, wherein the composite stereoscopic optical label is printed on the attachment.
7. The image forming apparatus according to any one of claims 1 to 6, wherein the image forming layer is formed by arranging images different in distance from each other between the center points of the adjacent images, A method of printing a complex stereoscopic optical label.
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