KR20090079284A - The method of manufacturing the gravure plate offset printing - Google Patents

Abstract

A method of manufacturing an offset printing gravure plate is provided to obtain improved pattern precision, excellent thickness uniformity and excellent durability of the gravure plate by forming patterns of the gravure plate through the photolithography process, using a glass substrate, and forming the outermost surface of the gravure plate from nickel. A method of manufacturing an offset printing gravure plate comprises the steps of: coating copper on a glass substrate(110) to form a copper coating film(120); forming a photoresist(130) on the copper coating film; exposing and developing the photoresist to form photoresist patterns in desired shapes; nickel-plating a part of the glass substrate from which the photoresist has been removed by the development to form a nickel plating layer(140); and removing the photoresist remained on the substrate, and grinding the surface of the nickel plating layer.

Description

The manufacturing method of intaglio for offset printing {THE METHOD OF MANUFACTURING THE GRAVURE PLATE OFFSET PRINTING}

The present invention relates to a method for producing an intaglio for printing in offset printing, and more particularly, to a method for producing an intaglio for printing in offset, which is excellent in durability and precision.

In the offset printing, the ink 50 is filled in the intaglio 10 on which the pattern to be printed is formed, and the ink 50 filled in the intaglio 10 is cylindrical in the pattern of a cylindrical blanket (BLANKET) 20. After the transfer to the, the printing method for rotating the blanket (BLANKET) 20 on the printed material 30 so that the desired shape is printed (see Fig. 1).

This offset printing method is a new technology that can replace the photolithography process in the Flat Panel Display (FPD) industry because of its ability to precisely print fine patterns of tens of micrometers and waste of material. It is becoming. Among the various offset printing methods, intaglio offset printing is considering the introduction of technology in applications requiring high conductivity because the printing pattern has a relatively high height.

Intaglio offset printing is to engrav the pattern shape to be printed on one side of the substrate having excellent flatness, and then fills the printing ink in the intaglio portion, and the filled ink is transferred to the blanket in the pattern shape and then to be printed. Print the desired pattern in a way that allows it to be retransferd up.

In intaglio offset printing, the main factors that determine the print quality are the uniformity of the intaglio thickness, the surface flatness, and whether the pattern is precisely processed. Currently, the material mainly used as the intaglio for offset printing is glass, and the intaglio of the glass material is manufactured by the photolithography and etching method, and thus has the advantage of excellent pattern accuracy and good flatness and excellent print quality. However, because it is made of glass, the durability is weak, and the doctor blade 40 scratches the surface of the intaglio 10 to remove ink debris after printing, and is made of a metal material. Has a problem. If a scratch occurs on the intaglio surface, ink is filled in the area and transferred to the blanket, which is immediately transferred to the substrate, which causes a defect. Therefore, in the case of offset printing using the intaglio of glass material, there was a need to frequently replace the intaglio.

It is an object of the present invention to provide an intaglio printing plate having excellent durability while maintaining the same precision as that of the intaglio glass material.

In order to achieve the above object, the present invention comprises the steps of coating a copper metal on a glass substrate; Forming a photoresist film on the coated copper metal; Exposing and developing the photoresist to form a photoresist pattern having a desired shape; Plating a portion of the photoresist removed by the development with nickel; The present invention provides a method of manufacturing an intaglio offset printing plate comprising removing a photoresist remaining on the substrate and grinding a nickel plated surface.

In this case, the copper metal is preferably coated by a sputtering method, the photoresist is preferably a dry film resist (Dry Film Resist). In addition, the nickel plating may be made by an electroless plating or an electrolytic plating method.

Offset printing intaglio produced by the method of the present invention has a high pattern accuracy because the pattern is formed through a photolithography process, excellent thickness uniformity because the glass substrate is used, the outermost surface of the intaglio is made of nickel Excellent durability

The method for producing an intaglio printing plate of the present invention comprises the steps of coating a copper metal on a glass substrate; Coating a photoresist on the coated copper metal; Exposing and developing the photoresist to form a photoresist pattern having a desired shape; Plating a portion of the photoresist removed by the development with nickel; And removing the photoresist on the glass substrate and grinding the plated surface.

2 is a view for explaining a method for manufacturing an intaglio for offset printing according to the present invention. Hereinafter, each step of the present invention will be described in more detail with reference to FIG. 2.

(1) copper metal coating step (A)

First, a copper metal is coated on the glass substrate.

As described above, the glass has an advantage of excellent thickness uniformity and flatness. In the present invention, the glass is used as a base material, so that the surface flatness and thickness uniformity of the intaglio may be excellently maintained.

The copper metal coating may be performed using a commonly used copper coating method well known in the art, for example, a sputtering method and the like. For example, the copper metal coating step may be performed at 2 to 5 m Torr and an inert atmosphere (Ar) at a power of 2 to 10 kW.

At this time, the thickness of the copper coating film is preferably about 50nm to 500nm. If the thickness of the copper coating film is less than 50nm, if the thickness uniformity of the coating film is inferior, there is a possibility that a region in which the coating is not properly generated, if the thickness exceeds 500nm, there is a problem that the process time is long and the manufacturing cost increases.

(2) photoresist film forming step (B)

When the copper metal coating is formed on the glass substrate in the same manner as described above, a photoresist is coated on the copper coating layer.

In the present invention, the photoresist may be, for example, a liquid photoresist such as an epoxy-based negative photoresist, and in this case, the photoresist is coated on the copper coating layer using a general photoresist coating method such as spin coating or table coating. .

In the present invention, the photoresist may be a film-type resist (dry film resist), and in this case, the photoresist film may be formed by attaching the film-type resist on a copper coating film. In the case of using a film type photoresist, it is advantageous for large-area printing and has the advantage of not using expensive coating equipment.

(3) Exposure and development step (C)

When the photoresist film is formed on the copper coating film, exposure is performed using a photo mask. The exposure is performed by a general photoresist exposure method. That is, the UV light is irradiated for 2 seconds to 10 seconds through the photo mask.

When exposure is completed, it develops using a developing solution, and a desired photoresist pattern is obtained. The development may be carried out through a general photoresist developing method such as dipping and spraying, and the developer may be selected and used according to the type of photoresist used. When the development is completed, the desired photoresist pattern is obtained.

(4) Nickel Plating Step (D)

The photoresist is removed by the above development, and nickel is plated on the exposed portions of the copper metal. The nickel plating may be made by a general electroless plating or electrolytic plating method.

It is preferable to perform a pickling process for removing organic matter on the copper surface before plating. Then, the substrate is immersed in the plating solution to perform plating.

In the case of electroless plating, however, the pickled substrate is first immersed in an aqueous PdCl ₂ solution to introduce a Pd catalyst required for nickel electroless plating onto a copper surface, and then immersed in a Ni electroless plating solution.

The plating time and the amount of current vary depending on the plating deposition amount and the plating conditions, and those skilled in the art may find an optimized plating condition through empirical rules or experiments. In general, in the case of electroless plating, a nickel plating layer having a thickness of 6 to 8 micrometers is formed after 1 hour immersion.

(5) polishing step (E)

When plating is complete, the photoresist remaining on the glass substrate is removed. The photoresist removal may be performed by immersing in a strong base solution, such as potassium hydroxide aqueous solution, or by heating at a high temperature for a predetermined time or more.

In this case, when the potassium hydroxide aqueous solution is used as the photoresist removal solution, the concentration of the potassium hydroxide aqueous solution is preferably about 0.5 to 3%, and the immersion time is preferably 5 to 30 minutes.

On the other hand, when removing a photoresist by heating, it is preferable that a heating temperature is 300 degreeC-500 degreeC, and a heating time is about 30 minutes-about 1 hour.

When all of the photoresist is removed by the above method, the Ni surface is polished using an aqueous solution containing an abrasive. That is, after coating the Ni surface with an aqueous solution containing an abrasive, the surface of Ni is lightly rubbed with a nonwoven fabric.

When the surface is polished in the above manner, the surface flatness is improved, and as a result, the print quality is improved.

A copper metal was sputtered onto a glass substrate (soda lime glass, KCC Co., Ltd.) at a power consumption of 5 kW at a pressure of 3 mTorr to form a copper coating film having a thickness of 200 nm.

After attaching the negative type DFR of Kolon Corporation on the copper coating film. The UV of an i line having a wavelength of 365 nm is irradiated to the photoresist through a photo mask for 2 to 10 seconds. Then, a 1% Na ₂ CO ₃ aqueous solution (developing solution) was sprayed and developed for 1 to 3 minutes to form a photoresist pattern.

Thereafter, the substrate was pickled with 5% sulfuric acid, immersed in an aqueous PdCl ₂ solution for 2 minutes to introduce a Pd catalyst onto the copper surface, and then nickel-plated by immersion in Ni electroless plating solution for 1 hour and 30 minutes. At this time, the plating solution was prepared by adding 200 ml of Aurotech HP Nickel MU, 100 ml of Aurotech HP Nickel A, and 10 ml of ammonia to 1 L of water. The thickness of the plating layer formed by the said nickel plating was 12 micrometers.

After the nickel plating layer was formed, the substrate was immersed in a 1% KOH aqueous solution for 30 minutes to remove the photoresist, an aqueous solution containing an abrasive (spox yarn) was applied to the surface of Ni, and then gently rubbed and polished with a nonwoven fabric to offset the intaglio for printing. To prepare.

Figure 3 is a photograph taken of the intaglio for printing offset prepared by the above method, it is a state after 2000 times of printing. As shown in FIG. 3, the intaglio printing plate of the present invention does not have any scratches or damages even after printing 2000 times, and thus the durability is very excellent. In addition, it can be seen that when printing using the intaglio for printing offset of the invention excellent in durability, as shown in Figure 4 it can be obtained excellent image quality.

On the other hand, Figure 5 is a photograph showing a conventional intaglio for printing offset (jinyoungsa), after 300 times of printing. As shown in Figure 5, the conventional printing intaglio can be seen that the glass substrate is broken after 300 prints. When printing using the damaged intaglio for printing, as shown in FIG. 6, the damaged portion is printed together, resulting in poor print quality.

1 is a view for explaining a general offset printing,

2 is a view sequentially showing a manufacturing method of an intaglio for offset printing of the present invention.

3 is a view showing an intaglio prepared by an embodiment of the present invention,

4 is a view showing a printed matter printed using the intaglio prepared by the embodiment of the present invention,

5 is a view showing a conventional intaglio printing intaglio,

6 is a view showing a printed matter printed using a conventional intaglio for offset printing.

<Major reference signs>

10: intaglio 20: blanket

30: base material 40: doctor blade

50: ink 110: glass substrate

120: copper metal coating film 130: photoresist

140: nickel plating

Claims (7)

Coating a copper metal on the glass substrate; Forming a photoresist film on the coated copper metal; Exposing and developing the photoresist to form a photoresist pattern having a desired shape; Plating a portion of the photoresist removed by the development with nickel; Removing the photoresist remaining on the substrate and grinding the nickel plated surface; Method for producing an intaglio for offset printing comprising a. The method of claim 1, The copper metal is a method for producing an intaglio offset printing, characterized in that the coating by the sputtering method. The method of claim 1, The photoresist is a dry film resist (Dry Film Resist) characterized in that the offset printing for intaglio manufacturing method. The method of claim 1, And the photoresist is a liquid photoresist. The method of claim 4, wherein The photoresist is a method of manufacturing an intaglio offset printing, characterized in that the coating by spin coating or a table coating method. The method of claim 1, The nickel plating is an electroless plating or electrolytic plating method for producing an intaglio offset printing. 7. The method of manufacturing an intaglio for offset printing according to claim 6, wherein a pickling process is performed before the nickel plating.

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