KR100419989B1 - Silk Screen Printer Holographic Technic - Google Patents

Abstract

The present invention relates to a holographic silk screen printing machine, which is about 0.05-0.15mm on the front of the screen plate of 100 necks or less, and the thickness of the back side is 0.2-0.4mm to apply a thick film emulsion, and then the screen plate is inserted into the printing machine. Adjust the applicator and squeegee spacing to 5.0-5.5cm and the angle of squeegee to 80-88 ^o , 100% pressure when the pressure of the squeegee adheres to the plate during normal printing, that is, evenly across all substrates. Assuming that the pressure of 20-30%, using a printing ink consisting of 100 parts by weight of UV curing ink, 5-15 parts by weight of hologram pigment and 5-15 parts by weight of MEARL GLITTER do.

Description

Hologram Silk Screen Printing Machine {Silk Screen Printer Holographic Technic}

The present invention relates to a holographic silkscreen printing machine, and more particularly, to a holographic silkscreen printing machine which can simultaneously exhibit a uniform and fine embossing effect while exhibiting a holographic effect.

Generally, hologram is a technology that can reproduce three-dimensional shape. The information of each part of the object is reproduced in three-dimensional image by the interference of the object wave reflected from the object and the reference wave straight from another angle using the characteristics of the laser. It is a well-known fact.

In addition, such hologram technology is used in many industries such as advertising marketing, new technology application fields, exhibition halls and decoration materials, and such holograms are not widely used because of their complicated production.

Korean Patent No. 174100 (Hologram-formed Packaging Thermal Adhesive Film and Manufacturing Method) has been proposed to apply the hologram technique to the thermal adhesive film that forms the mainstream of packaging paper.

That is, an acrylic resin layer is formed as a synthetic resin layer and a polyvinylidene chloride resin layer is formed as a heat-adhesive resin layer on both sides of the OPP film used as the base film, and the acrylic resin layer and polyvinylidene on one side of the film are sequentially formed. In the chloride resin layer, a hologram pattern embossed and replicated by a hologram disc was formed.

The hologram disc is washed with synthetic resin or metal disc, and then the photoresist is deposited on one side, and the photoresist is developed by exposing the photoresist with light or laser through a photomask having a predetermined pattern. The original plate is etched using a resist pattern as an etch mask.

Then, the hologram disc formed with the hologram pattern was attached to the entire outer circumferential surface of the roller equipped with a heating means therein, so that the replica film passed between the press roller and the embossed hologram pattern.

However, the conventional holographic film formed by the above-described technology is to form a hologram pattern on the hologram disk and then attached to the entire outer circumferential surface of the roller equipped with a heating means thereafter the film for replication between the press roller Since the hologram pattern was embossed on one surface, the hologram can be formed only on the packaging heat-adhesive film.

As a method for printing a hologram pattern on a general wrapping paper, Korean Utility Model Publication No. 2000-21290 discloses a 0.002mm 0.002mm hologram fabric having a thickness of 0.002mm by a punching method using a laser. Hologram fabric pieces of fine size are formed while drilling to a size of 0.002 * 0.004mm, and the hologram pigment is mixed with a suitable amount of about 15 ?? 30% in the printing ink, and the desired object is obtained. A method of painting on the surface of to obtain a hologram effect is described.

However, the embossing effect could not be obtained by this method, so that three-dimensional hologram printing was impossible.

Accordingly, it is an object of the present invention to provide a holographic silkscreen printing method that can exhibit uniform embossing and excellent hologram effects.

1 is a photograph showing an example of a product printed with the printing ink of the present invention.

2 is a schematic view showing a printing machine in general printing by a conventional method.

Figure 3 is a schematic diagram showing a printing machine when printing by the silkscreen printing machine of the present invention

* Description of the symbols for the main parts of the drawings *

10: screen plate

11: applicator

12: squeegee

13: cylinder machine

Silk screen printing ink of the present invention for achieving the above object is characterized by consisting of 100 parts by weight of UV-curable ink for silk screen printing, 5-15 parts by weight of hologram pigment and 5-15 parts by weight of MEARL GLITTER. .

The ultraviolet curable ink used in the present invention may be a UV curable ink for silk screen printing which is generally used, and there is no particular limitation on the ultraviolet curable ink. The ultraviolet curable ink may exhibit a holographic effect of metallic luster using transparent ink, and may use colored opaque ink.

The hologram pigment used in the present invention exhibits a hologram effect and is added in an amount of 5-15 parts by weight based on 100 parts by weight of the ultraviolet curing ink. If the amount of the hologram pigment is too small, the hologram effect does not appear sufficiently and the appearance is not beautiful, and if the amount of the pigment is too large, the viscosity of the UV curable ink becomes low, resulting in deterioration of print workability.

The hologram pigment and its manufacturing method are described in Korean Patent Publication No. 1995-9547 and the like. The component of the hologram pigment used in the present invention is composed of, for example, 97% by weight of polyester and 3% by weight of aluminum. The size of the hologram pigment is generally 50 microns or less.

MEARL GLITTER serves to compact the hologram pigments in small, uniform, and also gloss, further enhancing the hologram effect. 5-15 parts by weight relative to 100 parts by weight of the ultraviolet curing ink. If the amount of METAL GLITTER is too small, the embossing effect is not sufficiently exhibited. If the amount of the METAL GLITTER is too small, the viscosity of the UV curable ink becomes low if the amount of the pigment is too large, which causes the disadvantage of poor printability. If the amount of GLITTER) is too high, a large lump is formed and the embossing becomes uneven. As for the ratio of a hologram pigment and MEARL GLITTER, 1: 0.5-2.0 is preferable. The pigment component is 100% polyester, and the polyester film is cut to a thickness of about 18 microns.

The printing machine of the present invention is coated with a thick film emulsion on the front surface of about 0.05-0.15mm on the front, 0.2-0.4mm on the back of the screen plate 10 of 100 neck or less, and then inserts the screen plate 10 into the printing machine. When the applicator 11 and the squeegee 12 are adjusted to 5.0-5.5 cm and the angle of the squeegee 12 is 80-88 ^o , when the pressure of the squeegee 12 is in close contact with the plate during normal printing, that is, Assuming 100% pressure for all substrates, 100% by weight UV curable ink, 5-15 parts hologram pigment and 5-15 parts MEARL GLITTER It is characterized by printing using a printing ink configured.

The method of making and printing using the silkscreen printing ink of the present invention will be described in detail.

In order to exhibit sufficient hologram and embossing effect with the ink of the present invention, special engraving and printing conditions are required.

First of all, it is desirable to keep the carpenter of the plate used during engraving as the lowest carpenter. For example, 100 or less necks and most preferably 60 necks are used. Also, thick film emulsion is applied thicker than normal silkscreen printing for sufficient enbossing effect. For example, the thickness of the front side should be about 0.05-0.15mm and the backside thickness should be 0.2-0.4mm.

Figures 2 and 3 show a diagram illustrating the spacing and squeegee angles of the applicator and squeegee on the press during normal silk screen printing and the printing of the present invention. The printing ink is applied to the screen plate 10 by the applicator 11 according to the printing pattern remaining in the engraving process, and silk screen printing is performed by the pressure of the squeegee 12 and the cylinder machine 13. In the general silkscreen printing of FIG. 2, the spacing of the applicator 11 and the squeegee 12 is usually 3.9 cm. On the contrary, in the printing of the present invention of FIG. 3, the spacing of the applicator 11 and the squeegee 12 is adjusted to 5.0-5.5 cm so as to exhibit sufficient embossing effect. In addition, assuming that the pressure of the squeegee 12 is in close contact with the plate during normal printing, that is, if the pressure is lowered to all the printed matters at 100%, the printing of the present invention should be performed at a pressure of 20-30%. do. In addition, the angle of the squeegee 12 in the general silk screen printing of FIG. 2 is 45 ^o , but in the printing of the present invention of FIG. 3, the angle of the squeegee 12 is 80-88 ^o so as to exhibit sufficient embossing effect. .

The present invention will be described through examples. This embodiment is merely illustrative of the present invention, but the present invention is not limited thereto.

Example 1

A 100 cm × 114 cm 60 neck plate was prepared, followed by thick film emulsion (UIANO QFX) on the back twice, on the front twice, and then on the back again. After drying in a heat dryer for 10-20 minutes, the coating was applied 4-5 times on the back side, and then 2-3 times on the front side. After drying in the dryer for 10-20 minutes, the resultant was dried again by applying the same method as the second coating. The coating thickness was 0.1 mm on the front and 0.3 mm on the back.

After placing the dried plate on the plate making camera and put the film, the light was transmitted for 15 minutes to burn all except the dark portion of the film, and then washed the light transmitted portion in the washing room.

3349g of UV ink (157HA) uses holographic pigment 296g (HOLO FLAKE HEX CUT thickness 50 microns, rainbow pigment products) and 369 g MEARL GLITTER HEX CUT thickness 18 microns, rainbow pigment products Was printed with a Sakurai automatic printing machine. The spacing between the squeegee 12 and the applicator 11 was adjusted to 5.2 cm and the squeegee 12 angle was 85 ^o . The squeegee 12 pressure was adjusted to 25% of the normal silk printing pressure. Drying was done using mercury and a metal lamp. The result is shown in the photograph of FIG.

According to the silk-screen printing ink according to the present invention as described above it is possible to holographic three-dimensional printing of the general wrapping paper that the hologram effect and the embossing effect is fully exhibited.

Claims (4)

In printing machine which does hologram silkscreen stereo printing, The printing ink used in the printing machine is a holographic silk screen printing machine, characterized in that consisting of 100 parts by weight of ultraviolet curing ink, 5-15 parts by weight of hologram pigment, and 5-15 parts by weight of MEARL GLITTER. According to claim 1, wherein the screen plate 10 used in the printing machine is applied to a thick film emulsion of about 0.05-0.15mm on the front and 0.2-0.4mm on the back of the screen plate 10 of less than 100 necks and dried Holographic silkscreen printing machine, characterized in that made. The holographic silkscreen printing machine according to claim 1, wherein the spacing of the applicator (11) and the squeegee (12) of the silk screen printing machine is adjusted to 5.0-5.5 cmm. 4. The method according to claim 1 or 3, wherein the angle of the squeegee 12 of the silk screen printing machine is 80-88 ^{o so} that the pressure of the squeegee 12 comes into close contact with the plate during normal printing, that is, evenly on all prints. Holographic silkscreen printing machine characterized in that the pressure of 20-30% is applied when assuming 100% pressure.