KR100561321B1 - Method for manufacturing lenticular plastic sheets - Google Patents

Abstract

The present invention relates to a three-dimensional plastic sheet and a method for manufacturing the same, and more particularly, a semi-circular convex lens or a hemispherical convex lens is arranged on the surface of the plastic sheet to view a three-dimensional image. The present invention relates to a three-dimensional sheet configured to be able to three-dimensionally express only a specific portion of a three-dimensional plastic sheet.

The above-described feature of the present invention is made of a transparent synthetic resin, and the convex lens layer 10 and the convex lens (11) formed by forming an array of semi-circular convex lenses 11 or hemispherical convex lenses 11-1 on the upper surface thereof. The transparent plate 30 formed of a transparent synthetic resin plate material having a thickness corresponding to the focal length of 11) is composed of one sheet;

A transparent ink resin layer 20 is formed on an upper surface thereof, and a focal length printing layer 40 including a three-dimensional printing surface 42 and a non-stereoscopic printing surface 41 is formed on a bottom surface thereof. What can be achieved by the sheet.

Description

Three-dimensional plastic sheet having a transparent window and a method for manufacturing the same {Method for manufacturing lenticular plastic sheets}

1 is an exploded perspective view illustrating an embodiment of a three-dimensional plastic sheet according to the present invention;

2 is a cross-sectional view of FIG.

Figure 3a is a view showing the commercialization effect of the lenticular three-dimensional plastic sheet according to the present invention,

Figure 3b is a view showing the effect of commercializing the integral three-dimensional plastic sheet according to the present invention,

Figure 4 is an exploded perspective view illustrating an embodiment in an integral manner in the three-dimensional plastic sheet according to the present invention,

Explanation of symbols on the main parts of the drawings

1: solid sheet 10: semi-circular convex lens layer

10-1: hemispherical convex lens layer 11: semi-circular convex lens

11-1: hemispherical convex lens 14: focus forming angle of the convex lens

20: transparent ink resin layer

30: transparent plate 40: focal length printed layer

41: non-stereoscopic printing surface 42: three-dimensional printing surface

50: contents of the box

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The present invention relates to a three-dimensional plastic sheet, and more particularly, a semi-cylindrical or hemispherical convex lens is arranged on the surface of the plastic sheet to not only view a three-dimensional image, but also partially in the three-dimensional plastic sheet. The present invention relates to a three-dimensional plastic sheet configured to enable three-dimensional expression of only certain portions.

The above-described three-dimensional method has a configuration in which semi-cylindrical or hemispherical lenses having a constant pitch on the front surface of the sheet are continuously formed in an array of regular intervals. I) Record and print the image of the object on one sheet plate, and look at the front of the sheet with both eyes to see the three-dimensional image of the object floating or entering the space.

Mainly this method is a three-dimensional method produced by a continuous lens sheet by plastic molding, the sheet is a transparent material, the printing surface calculated according to the arrangement of the lens three-dimensional by human binocular disparity when viewed from the front of the lens This is how it works.

However, these methods have some problems in the commercialization of three-dimensional objects.

First, the three-dimensional fabric sheet recognizes the printed matter passed through the lens-shaped embossing surface, and the three-dimensional image is produced. Due to the nature of the product, the resolution does not feel as high as normal printing, it cannot provide a clear and clean print, and even the moiré phenomenon appears dizzy.

In other words, when producing a three-dimensional image by the general offset printing, when printing the printed material on one side of the three-dimensional fabric sheet or glued, this is because the dizzy moiré phenomenon occurs because the lensed embossing surface of the three-dimensional fabric sheet refracts light.

Secondly, these stereoscopic sheets are formed on the embossed surface formed on one surface of the sheet due to their morphological characteristics, that is, small lenses having a constant bone shape in the lenticular method and small radial convex lenses in the integral method. When viewed from the canal, it is seen as an opaque material due to the refraction of light.

For example, if the box is made of such a three-dimensional sheet, the part to be three-dimensional can be seen by the printing surface expressing the three-dimensional, but in order to make the contents inside the box intentionally visible, it is necessary to cut a portion of the sheet even if it is a transparent material. You have no choice but to produce an incomplete product.

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Therefore, the present invention provides a manufacturing method of a three-dimensional image sheet that can be mass-produced by combining a plastic molding technology and a high-level printing technology, and when the product is commercialized, the three-dimensional portion and the three-dimensional portion that do not look three-dimensional when printed on such a sheet In the general printing method, it is possible to produce a three-dimensional object with the same quality as a general print without dizzy moiré phenomenon, and a part of the sheet is made transparent so that the product placed on the back of the sheet is viewed through.

The present invention has been made to solve the above problems, the object of which is that the semi-circular or hemispherical convex lenses are arranged on the surface of the plastic sheet can not only see the stereoscopic image, but also partially in the three-dimensional plastic sheet It is to provide a high-quality three-dimensional plastic sheet and a method of manufacturing the same to make it appear transparent, and only a certain portion can be stereoscopic representation.

A feature of the present invention for achieving the above object is made of a transparent synthetic resin, the convex lens layer 10 is formed on the upper surface of the semi-circular convex lens 11 or hemispherical convex lens (11-1) formed in an array And a sheet of transparent plate 30 formed of a transparent synthetic resin plate material having a thickness corresponding to the focal length of the convex lens 11;
A transparent ink resin layer 20 is formed on an upper surface thereof, and a focal length printing layer 40 including a three-dimensional printing surface 42 and a non-stereoscopic printing surface 41 is formed on a bottom surface thereof. What can be achieved by the sheet.

Hereinafter, described in detail by the accompanying drawings a preferred embodiment for achieving the above object is as follows.

As shown in Fig. 1 or 4, a convex lens layer 10 is formed on the uppermost side of the three-dimensional sheet 1 according to the present invention. The convex lens layer 10 is formed by forming a transparent synthetic resin on the upper surface thereof. The semi-circular convex lenses 11 are arranged in an arrangement in which they are spread at regular intervals.

A part of the upper surface of the convex lenses 11 arranged on the upper surface of the convex lens layer 10 is formed with a transparent window made of a transparent ink resin layer 20, so that even general prints can be clearly expressed without special printing. The printing surface (42: background) and the non-stereoscopic printing surface (41: the subject picture placed at the same position as the transparent ink resin layer 20) are differentiated so as to feel the difference in depth.

On the bottom of the same position of the transparent ink resin layer 20, a non-stereoscopic printing surface 41 is formed as part of the focal length printing layer 40, and the non-stereoscopic printing surface 41 is expressed in three dimensions. It is composed of the subject picture or pattern placed on it. The image of the non-stereoscopic printing surface 41 belongs to the range which does not show a three-dimensional effect or a special effect, and consists of a picture, a pattern, etc. which show the real-life of a clear image quality.

In the case of general printing on the lower part of this part, the effect of the convex lens disappears because of the transparent ink resin layer 20 which is filled between the convex lenses 11, and thus the refraction of light generated from the convex lens disappears. It is possible to print the same quality of general offset printing that could not be expressed due to the characteristics of the three-dimensional sheet of.

Under the convex lens layer 10, a transparent plate 30 made of a transparent synthetic resin is made in the form of a sheet, and the thickness of the transparent plate 30 is configured to be equal to the focal length of the convex lens 11. .

The bottom surface of the transparent plate 30 has the same spacing arrangement as that of the convex lens layer 10, and a three-dimensional printing surface 42 having a calculated graphic shape for expressing a three-dimensional effect is formed on the focal length printing layer 40. It is.

However, in the printing positioned on the focal length printed layer 40, it is difficult to express the fine microprinting. The reason is that the three-dimensional sheet for expressing the three-dimensional surface of the convex lens 11 and the binocular parallax due to human binocular parallax due to the characteristics of the three-dimensional feeling, the convex lens of the convex lens is always convex lens resolution in the related feeling This is because the density of array spacing of (10) or more cannot be expressed.

That is, no matter how high-resolution printing is printed on the focal length print layer 40 on the bottom surface of the convex lens layer 10, a three-dimensional sheet (for example, can only be seen through the refracted convex lens layer 10 of light). The resolution of 1) can never see more than the arrangement density of the convex lens layer 10.

Therefore, the transparent ink resin layer 20, the convex lens layer 10, the transparent plate 30, and the focal length printing layer 40 are sequentially stacked to complete the three-dimensional sheet 1.

The three-dimensional card (1) having the above-described configuration, the transparent ink resin layer 20 located on the upper surface of the convex lens layer (10) by the non-stereoscopic printing surface 41 can see through the subject picture or pattern, etc. Make it clearer. At the same time, the picture printing surface having the same tendency as the convex lens spacing of the three-dimensional sheet, that is, the three-dimensional printing surface 42 of the focal length printing layer 40 is larger than the depth of the transparent plate 30 due to the convex lens effect and binocular parallax. It feels like there are figures or patterns deeper, and you can get a stereoscopic effect such as a figure or pattern floating above the surface of the convex lens layer 10, which is a relatively sharp and finely observable non-stereoscopic object. The printing surface 41 is recognized as lying on the surface of the convex lens layer 10 which is relatively contrasted with the three-dimensional printing surface 42 so that each printing surface can obtain a differential three-dimensional impression.

Therefore, such three-dimensional expression has the advantage that it is possible to provide a high-quality three-dimensional sheet (1) capable of mass production that can be accompanied by a three-dimensional impression not seen in the conventional three-dimensional sheet and at the same time sophisticated print quality.

The manufacturing process of the three-dimensional sheet 1 according to the present invention is as follows. Forming a transparent ink resin layer 20 by printing the upper surface of the convex lens layer 10 formed of a flat plate; Forming a focal length printing layer 40 having a three-dimensional printing surface 42 and a non-stereoscopic printing surface 41 formed on the bottom surface of the transparent plate 30 made of transparent synthetic resin: the transparent ink resin layer 20 Forming a non-stereoscopic printing surface 41 on the focal length printing layer 40 at the same position; The convex lens layer 10 on which the transparent ink resin layer 20 is formed, the three-dimensional printing surface 42 and the non-stereoscopic printing surface 41 are formed simultaneously, so that the transparent plate 30 formed of the focal length printing layer 40 is formed. It can be achieved by a three-dimensional plastic sheet and a method of manufacturing the same, characterized in that it consists of a sheet.

Hereinafter, the embodiment according to the above-described manufacturing method will be described in detail.

Example

After designing and manufacturing a roll mold capable of forming a convex lens, the mold was mounted on an extrusion machine, and a transparent synthetic resin was poured into the extrusion production machine. A transparent synthetic resin flat plate (three-dimensional printing sheet) on which the convex lens layer 10 was formed was made.

Subsequently, a transparent ink resin layer 20 was formed on the upper surface of the convex lens layer 10 after printing with a transparent ink on a part of the upper surface of the convex lens layer 10 composed of a flat synthetic resin.
Subsequently, the three-dimensional printing surface 42 and the non-stereoscopic printing surface 41 are simultaneously printed on the bottom of the transparent plate 30 made of transparent synthetic resin, and then dried to form a focal length printing layer 40.

The three-dimensional printing surface 42 of the focal length printing layer 40 is a printing surface having the same alignment interval tendency as that of the convex lens layer 10, and the screen on which the three-dimensional feeling is expressed by this printing surface can be seen.

At the same time, general offset printing was performed on the non-stereoscopic printing surface 41 of the focal length printing layer 40 located at the same position as the transparent ink resin layer 20, so that the dizzy moiré phenomenon disappeared and a clear printed matter was obtained.

3A and 3B, two transparent ink resin layers 20 are formed on the front surface of the box made of a three-dimensional sheet, and a barcode is placed on one non-stereoscopic printing surface 41 located on the bottom surface thereof. When printing a special character such as a clear high-resolution prints were obtained, another non-stereoscopic printing surface 41 was not printed on the product contents 50 inside the box could be transparently observed.

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In the manufacturing process, as shown in FIGS. 3A and 3B, the stereoscopic sheet 1 may be a lenticular semi-circular convex lens 11 and an integrative hemispherical convex lens 11-1. It can be produced with the three-dimensional sheet 1 configured, and the thickness is formed differently depending on the type and use, as well as the focal length is formed differently according to the size of the convex lens 11, eventually convex lens layer 10 and Since the thickness of the transparent plate 30 is to be adjusted, the thicknesses of the materials are not accurately indicated.

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the above-described embodiments, and the present invention is not limited to the above-described embodiments without departing from the spirit of the present invention as claimed in the claims. Various modifications may be made by those skilled in the art, and such modifications are intended to fall within the scope of the appended claims.

The three-dimensional sheet 1 of the present invention as described above is a non-stereoscopic printing surface of the transparent ink resin layer 20 printed on the upper surface of the convex lens layer 10 and the ultra-short distance printing layer 40 seen through the same. Various pictures or patterns printed on the 41 can be clearly seen as printed matter deviating from the refraction of light of the convex lens 11, and at the same time, the three-dimensional printing surface 42 of the ultra-short distance printing layer 40 is a convex lens ( 11) By the effect, it is felt that the figure or pattern is deeper than the depth of the transparent plate 30, and the stereoscopic effect such as the figure or the pattern is floating above the surface of the convex lens layer 10 can be obtained. In contrast, the non-stereoscopic printing surface 41 which can be observed relatively sharply and precisely is perceived as lying on the surface of the convex lens layer 10 which is relatively contrasted with the three-dimensional printing surface 42 so that each printing surface is differential. I can get a three-dimensional impression . This has the advantage of providing a high-quality three-dimensional sheet that can meet the purchasing needs of modern consumers seeking a variety of designs.

Claims (4)

It is made of a transparent synthetic resin, the upper surface corresponding to the focal length of the convex lens layer 10 and the convex lens 11 formed of an array of semi-circular convex lenses 11 or hemispherical convex lenses 11-1. A transparent plate 30 formed of a thick transparent synthetic resin sheet material is composed of one sheet; A transparent ink resin layer 20 is formed on an upper surface thereof, and a focal length printing layer 40 including a three-dimensional printing surface 42 and a non-stereoscopic printing surface 41 is formed on a bottom surface thereof. Sheet. delete Forming a transparent ink resin layer 20 by printing the upper surface of the convex lens layer 10 formed of a flat plate; Forming a focal length printing layer 40 having a three-dimensional printing surface 42 and a non-stereoscopic printing surface 41 formed on the bottom surface of the transparent plate 30 made of transparent synthetic resin: the transparent ink resin layer 20 Forming a non-stereoscopic printing surface 41 on the focal length printing layer 40 at the same position; The convex lens layer 10 on which the transparent ink resin layer 20 is formed, the three-dimensional printing surface 42 and the non-stereoscopic printing surface 41 are formed simultaneously, so that the transparent plate 30 formed of the focal length printing layer 40 is formed. A three-dimensional plastic sheet and a method of manufacturing the same, characterized in that formed in the form of a sheet. delete

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