KR860000169B1 - Method for regulating the thickness of thick screen - Google Patents

Abstract

A thick screen for printing produces an embossed effect on various products. The manufacturing procedures for this thick screen for printing is as follows. (1) An adhesive is spreaded on the opposite plane of a gauze sheet. It contains methyl alcohol 50% and toluene 50%. (2) After drying naturally for 1 hour, the surface of the thick screen is dried in a drying room at about 80≰C. (3) After the item to be embossed or pattern to be placed on the screen comes into contact with the thick screen, an ultraviolet mercury lamp flashes a beam of light on the thick screen for 8-24 minutes. (4) A 0.2% caustic soda developing solution with 250≰C is jettdd on to screen.

Description

Thickness Forming Method of Thick Screen Screen Making

1 is a perspective view of a thick film screen making produced by the present invention.

2 is a sectional view taken along the line A-A of FIG.

3 is a perspective view of the surface of the product embossed using the thick-screen screen plate of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to thick film screen printing plates that have an embossing effect on the surface of various products such as fibers and promotional materials, and more particularly, to a method of arbitrarily molding the thickness thereof.

Conventionally, as a method of expressing the thickness of letters or figures on the surfaces of various fibers and promotional materials, foaming and flocking processing were performed, and in the case of acrylic, there was a method of carving and sticking letters or figures, There was a problem in that the state of the pattern was not accurate and mass production was not possible due to the work quality, and in some cases, the thickness was formed by manufacturing a mold and the like, but this was uneconomical, such as a high mold production cost.

According to the present invention, an embossed thickness of a printed letter or a mold can be formed by arbitrarily molding the thickness of a thick film screen, and the film is accurately formed and a screen making process that is easy to work is developed to satisfy both mass productivity and economy. As described in detail based on the embodiment as follows.

For thick film screens, 400 ~ 1,200 trees for textiles and 180-240 trees for architectural interior materials are prepared, and 100μ (0.1m / m) and 210μ thick. The thick film sheet of photosensitive resin, such as 350 micrometers and 630 micrometers, is selected according to a use.

A mixed solvent of methyl alcohol 50% toluene 50% is used as the solvent for dissolving the photosensitive resin.

Thick Film Screen Making Process

The thick film sheet is selected as necessary from the above-described thick film sheet, and is applied to one side of the mesh, and evenly applied to the mesh by an adhesive of a mixed solvent in which 50% of methyl alcohol and 50% of toluene are mixed.

After drying the photosensitive thick film sheet plate bonded to the mesh in the shade for at least 1 hour in a drying room around 80 ° C, the thick film sheet having a thickness of 100 μ-350 μ is about 2-5 minutes, and the 600 μ thick sheet sheet is completely dried for 30 minutes. Let's do it.

In the bonding step, the adhesive is completely applied to the mesh by repeating the application and drying of the mixed solvent adhesive about three times as the temperature and time.

Next, a letter or figure of original is prepared and treated on the surface of the adhesive photosensitive thick film sheet plate, and then a mercury lamp with an output of 1 kW or more that generates ultraviolet rays having a wavelength of 300 nm to 400 nm nm. The 350 µm resin sheet is exposed for 15 minutes and the 600 µm resin sheet is exposed for about 24 minutes.

The exposed photosensitive thick film sheet plate was developed by pressure spraying a developing solution of a caustic soda solution at a water temperature of 250 ° C. and 0.2% with air spray to develop the thick film screen engraving as shown in FIG. 1.

In addition, although there is no need for reinforcement in principle, when the number of times of use of solvent-containing ink, coarse mesh and plate making is high, the surface of the yarn may be reinforced with urethane resin to protect the membrane surface.

As shown in Fig. 1, the thick film screen plate is embossed and placed on the material to be embossed, and then the printing ink or adhesive material of the desired material is applied. Printing ink or adhesive material is embossed or printed on the material.

As described above, the thick film screen making of the present invention has embossing effect on the surface of special textile for general textile, screen embossing of various promotional materials, pattern engraving of various building materials, surface of soap and various confectionery, embossed pattern and letter molding, and all other products. FIG. 2 is a perspective view of a product that has an embossed effect on the surface of a material using the thick film screen of FIG. 1 fabricated by the present invention.

As such, the present invention enables the printing of the embossing effect on the surface of all products by thick film screen making, which enables finer and more beautiful engraving than the conventional extruded embossing method, which is much cheaper and manufactured in a shorter time than the mold panel. It is also a very useful invention that the user can arbitrarily exhibit the embossed effect that the consumer can desire at a desired thickness, such as the fact that a large amount of work can be produced by a simple method such as general screen printing.

Claims (1)

In manufacturing screen-printing platemaking, depending on the application, a mesh with a desired mesh is used as a core material, and one side is treated with a thick film sheet of photosensitive resin, which is also of a desired thickness, and then opposite to the mesh. The adhesive was mixed with 50% methyl alcohol and 50% toluene, and then dried for about 1 hour in a drying chamber at 80 ° C for 2 minutes to 30 minutes depending on the thickness of the thick film sheet. After welding, the thickness of the thick-film screen making is sprayed with an ultraviolet mercury lamp (1kW) with a wavelength of 300nm-400nm for 8-24 minutes depending on the thickness of the thick film sheet and spraying a 0.2% caustic soda developing solution at a water temperature of 250 ° C. Way.

Images