KR100402545B1 - Lenticular Screen Manufactured by Continuous Embossing Process and the Method of Manufacturing thereof - Google Patents

Abstract

The present invention is a lenticular screen (Lenticular Screen) 20 produced by the embossing continuous process using a lenticular embossing roll 30 carved a lenticular lens pattern of a transparent plastic sheet 10 composed of two layers And to a method for producing the same.

At this time, the transparent plastic sheet 10 composed of two layers is composed of a transparent plastic sheet 11 to be embossed and a transparent plastic sheet 12 serving as a support, which is the embossed transparent plastic sheet 11 On the back of the transparent plastic sheet 11 to be embossed in order to prevent it from sagging by tension, a transparent plastic sheet 12 serving as a rigid support having a higher softening point is laminated to be composed of two layers. It is.

The lenticular screen 20 of the present invention is manufactured by a continuous process and is very economical and mass-producible because no separate cooling system is required.

In addition, since the lens shape of the lenticular screen 20 can be reproduced uniformly according to the lenticular lens pattern carved on the lenticular embossing roll 30, it is very advantageous for producing a stereoscopic effect, and is applied to a sheet of a hard material as well as a soft sheet. This makes it possible to have many advantages in the process.

Description

Lenticular Screen Manufactured by Continuous Embossing Process and the Method of Manufacturing Equation}

The present invention relates to a lenticular screen manufactured by an embossing continuous process using a lenticular embossing roll engraved with a lenticular lens pattern of a transparent plastic sheet composed of two layers, and a method of manufacturing the same.

In this case, the two-layered transparent plastic sheet is composed of a transparent plastic sheet to be embossed and a transparent plastic sheet serving as a support, which prevents the transparent plastic sheet to be embossed from being stretched by tension in the embossing process. In order to laminate the transparent plastic sheet to serve as a rigid support having a higher softening point on the back of the transparent plastic sheet to be embossed to be composed of two layers.

An optical film called a lenticular screen should be placed between the image and the viewer in order to give a three-dimensional stereoscopic effect to the two-dimensional plane of a small / small panel or signboard used for indoor or outdoor display or advertisement.

This lenticular screen is an arbitrary lens shape arranged on one side on a transparent sheet, and the opposite side is mainly flat. Here, the shape of the lens may be cylindrical, spherical or cube.

In this case, the image is a lenticular image, which is edited using a computer in consideration of the optical light refraction of the lenticular. The lenticular image is copied by printing of ink or dyes and printing by other materials. This allows for mass production.

In other words, the lenticular image can be printed on a suitable material and then laminated with the lenticular screen or directly on a plane behind the lenticular screen to produce an image that exhibits a three-dimensional stereoscopic effect.

Generally, a method of manufacturing a lenticular screen includes a method of directly cutting a lenticular lens pattern on a flat transparent plastic sheet, a method of casting a thermosetting transparent resin on a mold of the lenticular lens pattern, and a planar transparent sheet on a flat surface. Press method to warm and press the plate and the lenticular lens pattern between the carved plate, a method of manufacturing by placing only the cylindrical pattern portion of the lenticular on a flat transparent sheet or injection molding by the mold of the lenticular lens pattern Method and the like.

As described above, the conventional method for making a lenticular screen is not only difficult to mass-produce by a continuous process but also has a disadvantage in being a process.

In some examples, the method of directly cutting a lenticular lens pattern on a flat transparent plastic sheet is very cumbersome and difficult to mass-produce, and the planar transparent sheet is a flat plate and a lenticular lens pattern. The press method to pressurize and pressurize between the sculpted plates is a batch-type discontinuous process, which makes it difficult to mass-produce and difficult to manufacture molds, making it possible to produce screens of limited size. The injection molding method using the mold is easy to produce a uniform screen, but has difficulty in applying a soft material, and has a disadvantage in that a separate cooling system must be manufactured.

Accordingly, the present invention solves the above problems to enable mass production, and in order to enable uniform reproduction of the lenticular lens pattern engraved on the lenticular embossing roll, the lenticular embossing roll with the lenticular lens pattern carved into two layers is used. The present invention provides a lenticular screen manufactured by heating and pressing a constructed transparent plastic sheet in an embossing continuous process and a method of manufacturing the same.

1 is a cross-sectional view of a transparent plastic sheet composed of two layers according to the present invention.

Figure 2 is a detailed view of the lenticular embossing roll according to the present invention.

Figure 3 is a continuous process embossing in accordance with the present invention.

4 is a sectional view of a lenticular screen according to the invention.

(Explanation of symbols for the main parts of the drawing)

10: two layers of transparent plastic sheet

11: transparent plastic sheet to be embossed

12: transparent plastic sheet serving as a support

20: Lenticular Screen

21: embossed transparent plastic sheet

30: Lenticular Embossing Roll

40: pressing roll

50: heating device

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view of a two-layered transparent plastic sheet of the present invention, showing a transparent plastic sheet 10 composed of two layers of a transparent plastic sheet 11 to be embossed and a transparent plastic sheet 12 serving as a support. .

First, the transparent plastic sheet 11 to be embossed uses a thermoplastic resin such as polypropylene, polyethylene, polystyrene, polycarbonate, polyester, vinyl chloride resin, or acrylic resin, so that a smooth embossing process is performed when heat is applied in the embossing process. Both flexible and inflexible can be used.

Next, the transparent plastic sheet 12 serving as a support is not particularly limited in material, but should be a rigid sheet having a softening point higher than that of the transparent plastic sheet 11 to be embossed. Propylene, polyethylene, polycarbonate, polyester or acrylic resins are used.

The transparent plastic sheet 11 to be embossed and the transparent plastic sheet 12 serving as a support are bonded to each other by an adhesive.

Although the adhesive agent used at this time is not specifically limited, Melamine type resin, epoxy resin, rubber resin, acrylic resin, or ester resin adhesive is generally used.

FIG. 2 is a detailed view of a lenticular embossing roll in which a lenticular lens pattern is carved according to the present invention. As shown in (a), the direction of the lenticular lens pattern is perpendicular to the roll width direction and is visible in (b). As shown, the lenticular embossing roll 30 in which the lenticular lens pattern is engraved in an engraved shape on the cylindrical roll is shown.

The lenticular embossing roll 30 is engraved with an arbitrary lenticular lens pattern engraved on a nickel plated cylindrical roll, so that heat flow can flow inside the iron core in order to facilitate temperature control required in the continuous process of embossing the sheet. It is made.

In this case, the lenticular lens pattern is generally expressed as the number of lenticular screen lenses per inch, and the unit thereof is expressed as lens per inch (LPI).

In other words, the number of lenticular screen lenses sculpted in one inch is 10 LPI for 10, and 20 LPI for 20.

The lenticular lens pattern can be expressed by the internal angle in addition to the LPI, because the visible and focal lengths of the stereoscopic effect vary depending on the shape of the arc of the lenticular screen lens.

In other words, considering that the internal angle of the whole circle is 360 degrees, the internal angle of 50 degrees refers to the shape of an arc having an internal angle of 50 degrees in the whole circle, and the internal angle of 100 degrees means an arc shape having an internal angle of 100 degrees in the whole circle. Say.

In addition, the lenticular lens pattern is engraved in the vertical direction based on the width direction of the roll, which is to prevent the mixing of bubbles in the embossing continuous process, and also to allow the bubbles once mixed to escape smoothly. In the continuous embossing process under the heating and pressing conditions, the shape of the lenticular screen lens is made to have a uniform shape consistent with the pattern of the roll.

If the lenticular lens pattern is sculpted in the horizontal direction when the lenticular lens pattern is based on the width direction of the roll, bubbles mixed in the continuous embossing process will not escape and remain on the embossed plastic sheet, thereby allowing air bubbles on the lenticular screen lens. The marks remain intact and become defective, and the shape of the lenticular screen lens is oriented in a direction in which the roll rotates in the embossing continuous process under the heating and pressing conditions, thereby making it impossible to produce a lenticular screen lens that can realize a full stereoscopic effect.

3 is a continuous process of embossing according to the present invention, after the transparent plastic sheet 10 composed of two layers first receives sufficient heat from the heating device 50, the lenticular embossing roll 30 and the rubber material compression roll 40 Pass through the embossed to show that the lenticular screen 20 is made.

In more detail, in order to enable the two-layer transparent plastic sheet 10 to be embossed, a heating device 50 is installed in front of the lenticular embossing roll 30 so that the two-layer transparent plastic sheet 10 has sufficient heat. Then, the transparent plastic sheet 11 to be embossed of the two-layer transparent plastic sheet 10 is directed toward the lenticular embossing roll 30, and the transparent plastic sheet 12 serving as a support roll is a compression roll. To pass 40 between the lenticular embossing roll 30 and the pressing roll 40, the lenticular screen lens is formed, as shown in Figure 4, the embossed transparent plastic sheet 21 and serves as a support The lenticular screen 20 composed of two layers of the transparent plastic sheet 12 can be obtained.

During the embossing process, for accurate reproduction of the lenticular lens pattern, the sheet is pulled and embossed at a temperature higher than the softening point of the plastic sheet material. If the tension is excessively applied, the sheet heated above the softening point may be drooped. The sheet is not embossed in the shape of the lenticular embossing roll 30, and a phenomenon in which the pulling force is directed to an excessive side occurs.

However, in the present invention, by using a transparent plastic sheet 10 of two layers by laminating a transparent plastic sheet 12 having a higher softening point and serving as a support than the transparent plastic sheet 11 to be embossed, in the embossing process of warming pressure Even when tension is applied, the sheet is prevented from sagging to have a certain shape.

Example: The lenticular screen 20 of FIG. 4 is manufactured by an embossing continuous process

As the transparent plastic sheet 11 to be embossed, a vinyl chloride resin sheet having a thickness of 700 μm and a softening point of about 170 ° C. is used, and the transparent plastic sheet 12 serving as a supporter has a thickness of 100 μm and a softening point of about 240 ° C. An adhesive is applied by a gravure coating method on the transparent plastic sheet 12 serving as a support for bonding them using a phosphorus transparent polyester film, and then the transparent plastic sheet 11 to be embossed is mounted. It was laminated by heating and pressing.

At this time, as the adhesive, one composed of 90 parts by weight of a conventional ester adhesive and 10 parts by weight of a typical isocyanate curing agent was used to adjust the viscosity to 120 cps with ethyl acetate.

As shown in the process diagram of FIG. 3, the transparent plastic sheet 10 composed of the two layers prepared above is first subjected to sufficient heat by an IR heater, which is a heating device 50, and then a nickel plated cylindrical Arbitrary lenticular lens pattern is engraved in a negative direction in the vertical direction when the roll is based on the width direction of the roll, and passed between the lenticular embossing roll 30 and the pressing roll 40 having a temperature of 200 ° C. The lenticular screen lens 20 was obtained.

As shown in the cross-sectional view of FIG. 4, the lenticular screen 20 manufactured according to the above embodiment is formed with the transparent plastic sheet 21 embossed with the lenticular lens pattern on the transparent plastic sheet 12 serving as a support. It is structured.

The lenticular screen 20 of the present invention is manufactured by a continuous process and is very economical and mass-producible because no separate cooling system is required.

In addition, since the lens shape of the lenticular screen 20 can be reproduced uniformly according to the lenticular lens pattern carved on the lenticular embossing roll 30, it is very advantageous for producing a stereoscopic effect, and is applied to a sheet of a hard material as well as a soft sheet. This makes it possible to have many advantages in the process.

Claims (5)

In a lenticular screen comprising a transparent plastic sheet embossed with a lenticular lens pattern and a transparent plastic sheet serving as a support, the transparent plastic sheet 12 serving as a support is embossed with a lenticular lens pattern. Lenticular Screen (20), characterized in that the softening point is higher than the transparent plastic sheet (21). 2. The transparent plastic sheet 12 according to claim 1, wherein the embossed transparent plastic sheet 21 is made of polypropylene, polyethylene, polystyrene, polycarbonate, polyester, vinyl chloride resin or acrylic resin, and the transparent plastic sheet 12 serving as a support is polypropylene. Lenticular screen 20, which is made of polyethylene, polycarbonate, polyester or acrylic resin. The transparent plastic sheet 11 to be embossed and the transparent plastic sheet 12 serving as a support having a softening point higher than the transparent plastic sheet 11 are laminated by adhesive to preheat the transparent plastic sheet 10 composed of two layers. Then, the transparent plastic sheet 11 is directed toward the lenticular embossing roll 30 in which the lenticular lens pattern is carved, and then the transparent plastic sheet 10 composed of two layers is lenticular embossing roll 30 and the pressing roll 40. By passing through the embossing, the transparent plastic sheet 21 embossed with the lenticular lens pattern and the transparent plastic sheet 12 serving as a support having a softening point higher than the transparent plastic sheet 21 are laminated by the adhesive. A method of making a constructed lenticular screen (20). 4. The embossed transparent plastic sheet 21 is made of polypropylene, polyethylene, polystyrene, polycarbonate, polyester, vinyl chloride or acrylic resin, and the transparent plastic sheet 12 serving as a support is polypropylene. A transparent plastic sheet 21 embossed with a lenticular lens pattern made of polyethylene, polycarbonate, polyester or acrylic resin and a transparent plastic sheet 12 serving as a support having a softening point higher than that of the transparent plastic sheet 21. A method of manufacturing a lenticular screen (20) constructed by laminating by an adhesive. 4. The lenticular lens pattern of claim 3, wherein the lenticular embossing roll 30 is formed by engraving an arbitrary lenticular lens pattern in a negative shape in a vertical direction when the lenticular lens pattern is formed in a cylindrical roll based on the width direction of the roll. A method for producing a lenticular screen (20) comprising an embossed transparent plastic sheet (21) and a transparent plastic sheet (12) serving as a support, having a softening point higher than that of the transparent plastic sheet (21).