JPS6354289A - Printing screen and production thereof - Google Patents

Abstract

PURPOSE:To enhance resistance to chemicals and solvents in the cleaning of a screen and resistance to wear in the squeegeeing of the screen, by a method wherein a strong resin protective film made of a composition of an electron ray-curing or ultraviolet-curing acrylate resin or unsaturated polyester resin is provided on the both faces of cross portions of a gauze and a photosensitive film corresponding to non-image areas. CONSTITUTION:A photosensitive film 4 is uniformly formed by coating from one side of a gauze 2. The photosensitive film 4 is formed not only on the coating face side of the gauze 2 but also on the reverse thereof slightly. After the photosensitive film 4 is coated and dried, pattern elements 5 of an original picture are so formed as to be in close contact with the surface of the photosensitive film 4 to be exposed by an ultraviolet lamp 6. After the exposure, the photosensitive film is developed so that the unexposed portions are removed. On the gauze 2, image areas 7 and non-image areas 8 are formed. The photosensitive film is dried, thereafter being coated with a composition 9 of an electron ray-curing or ultraviolet-curing acrylate resin or unsaturated polyester resin on the both faces thereof. After the coating, the resin composition of the image areas 7 is removed; in this case, the resin applied only to the image areas 7 is partially allowed to remain on cross portions 10 of the gauze 2. The resin composition 9 coated on the both faces of a screen 1 is irradiated with an electron rays source or ultraviolet light source 11 for curing.

Description

Detailed Description of the Invention (a) Industrial Application Field The present invention relates to a so-called printing screen applied to textile printing or printing, and a method for manufacturing the same. The present invention relates to a durable printing screen in which a non-image photoresist film surface formed in connection with the gauze is protected and molded with a tough resin layer, and a method for manufacturing the same.

(b) Conventional techniques and their problems Conventionally, printing screens for textile printing or printing using gauze have been used to protect the formed image and non-image areas during image formation on a photosensitive film coated on the gauze. A resin coating is applied. Conventionally, the resin used for the purpose of protecting the image area of a printing screen is a two-component reaction-curing polyurethane resin coating that utilizes a curing reaction between a polyol component having a hydroxyl group and an isocyanate.

However, since this polyurethane resin paint contains a large amount of organic solvent, it is necessary to volatilize the solvent after application. Furthermore, since the curing reaction proceeds following the solvent volatilization treatment, several tens of hours of drying time are required, which is extremely unreasonable in terms of productivity and workability. On the other hand, forced curing methods using hot air drying or the addition of catalysts have been studied, but the fundamental problem with such forced curing methods is that the shrinkage of the coating is large, which adversely affects the dimensional accuracy of the screen. It had some drawbacks. Further, the protective coating film for the printing screen is required to be flexible, and in response to this requirement, a soft polyurethane grease-resistant paint is used. However, this soft polyurethane resin has insufficient chemical and solvent resistance during screen cleaning.
In addition, the abrasion resistance during scaging was insufficient. Furthermore, since this flexible polyurethane resin is a two-component reactive resin, even after adding the curing agent, the curing will proceed as soon as the two components are mixed, and at the beginning and end of the work, even during the work. It has the disadvantage that it is impossible to keep its viscosity constant, and it is extremely difficult to apply it continuously for a long time.

(C) Technical Problems of the Present Invention Therefore, the present invention has been made in order to eliminate the drawbacks or gaps found in the above-mentioned conventional techniques.
First, the purpose is to provide a printing screen with excellent chemical resistance and solvent resistance during screen cleaning, as well as abrasion resistance during screen cleaning, and a method for manufacturing the same. It is an object of the present invention to provide a printing screen and a method for manufacturing the same, which are suitable for mass production by improving performance and reducing production costs.

(d) Technical Means of the Invention In order to achieve the above-mentioned object, the present invention specifically applies a photoresist film to gauze, exposes the surface of the photoresist film through a pattern element, and In a printing screen formed by forming an image area and a non-image area on a gauze, both sides of the cross area and the non-image photoresist film area of the gauze are coated with an electron beam curing type or ultraviolet curing type acrylate resin or unsaturated polyester resin composition. This is a printing screen with a strong resin protective film made of material.

Furthermore, the present invention provides a printing screen in which a photoresist film is applied to a gauze, the surface of the photoresist film is exposed to light through a pattern element, and an image area and a non-image area are formed on the gauze. Applying an electron beam-curable or ultraviolet-curable acrylate resin or unsaturated polyester resin composition to both sides of the image area and the non-image area, and irradiating the resin-coated surface with actinic light such as an electron beam or ultraviolet rays, This is a method for manufacturing a printing screen in which a resin protective film is hardened and formed on both sides of the gauze cross portion and the non-image photoresist film portion.

(e) Embodiments of the Invention The printing screen and method of manufacturing the same according to the invention will be described in detail below based on specific embodiments shown in the drawings.

1 to 5 are schematic side sectional views showing aspects of the manufacturing process of a printing screen manufactured according to the present invention, and FIG. FIG. 3 is an enlarged plan view showing a mode in which an appropriate amount of resin is applied to the cross portion. School IJ
- The screen (1) consists of a screen frame (3) fixed around the gauze (2), and as shown in Figure 1, the gauze (2) is exposed to light from one side (2a). The film (4) is uniformly applied using a packet or the like.

Usually, the photoresist film (4) is made of gauze (as shown in the figure).
2) For the coated side (2a), the opposite side (2b)
) are also slightly formed. After applying the photoresist film (4) and drying it, as shown in FIG. and then expose it to an ultraviolet lamp (6). After the exposure process, the photoresist film is developed with a solvent, hot water, etc., and the unexposed parts of the photoresist film are removed, and the image area (A) and non-image area are formed on the gauze (2) as shown in FIG. (8) is formed. After the image formation, the photoresist film is dried, and after the drying treatment, an electron beam or ultraviolet curable resin composition (9) is applied to both sides as shown in FIG. The resin composition (9) is applied to form a layer of about 5 to 50 microns.

After applying the resin composition, the resin composition in the image area (7) is removed by forced air blowing or forced suction. In this case, by adjusting the viscosity of the applied resin composition (9) and adjusting the intensity of air blowing or suction, a part of the resin only in the image area (γ) is applied to the cross portion 00) of the gauze (2).
It is left to remain in the manner shown in FIG. Nuclean (1
The resin composition (9) applied to both sides of the screen (
1) Electron beam source or ultraviolet source C1τ placed on both sides of
) is irradiated and hardened. When an electron beam curable resin composition is applied, an electron beam accelerator is used as the electron beam source, and when an ultraviolet ray curable resin composition is applied, a mercury, lamp, or halogen lamp is used as the ultraviolet ray source. , metal halide lamps, chemical lamps, etc. are used. Preferred irradiation conditions are, for example, a mercury lamp of about 4 KW and irradiation treatment of about 0.2 J/cyj. By this curing treatment, strong protective resin layers are formed on both sides of the gauze cloth portion αQ) of the image area (7) and the photosensitive film (4) of the non-image area (8) of the screen (1). Examples of the electron beam or ultraviolet curable resin composition used in this invention include JH.

It is selected from acrylate resin compositions such as urethane acrylic resins, epoxy acrylic resins, polyester acrylic resins, and unsaturated polyester resin compositions. For these resin compositions, for the purpose of viscosity adjustment or crosslinking, ethylenically unsaturated monomers such as nutylene, N-vinylpyrrolidone, ethylene glycol diacrylate, 1,6-hexanediol diacrylate, trimethytetra - Ruflopane triacrylate, etc., and a photopolymerization initiator, a coating film conditioner, a polymerization inhibitor, etc. are used in combination. Moreover, it is also possible to use a small amount of an organic solvent in combination, if necessary. When coating a resin composition, use an applicator, bar coater, packet, roll coater.
, air spray, airless spray.

down! Any method can be used as long as the resin composition can be applied uniformly, such as by using a coating method, a curtain flow coater, or a curtain flow coater.

(f) This invention, which has a structure that exceeds the effects of the present invention, protects the gauze cloth portion in the image area and the photoresist film portion in the non-image area with a strong resin composition from both sides of the printing screen on which an image has been formed. It is extremely effective in that it can provide a physically and chemically strong printing screen with excellent chemical and solvent resistance during cleaning, abrasion resistance during skaging, etc. due to the treatment. It can be said. Furthermore, the present invention is also effective in that it can shorten the time of each manufacturing process and improve its workability, making it suitable for mass production and providing an economically extremely advantageous printer screen. It can be said that there is.

[Brief explanation of the drawing]

1 to 5 are schematic side sectional views showing the manufacturing process of the printing screen according to the present invention, and FIG. 6 is an enlarged plan view showing the aspect of the cross portion of the gauze in the image area of the manufactured printing screen. It is. (1) □ Nuclean (2) □ Gauze (3) □ Screen frame (4), □ Photoresist film (5) □ Pattern element (6) -- Gzi Irenryosha ultraviolet light source (7) -- Image section ( 8) - □ Non-image area (9) □ Resin composition coating layer 00) - Issa cross portion Patent applicant: Ai Mokko Co., Ltd. Co., Ltd. Chugoku Toyo Co., Ltd.

Claims (2)

[Claims] (1) A printing screen in which a photoresist film is applied to a gauze, the surface of the photoresist film is exposed to light through a pattern element, and an image area and a non-image area are formed on the gauze, a cross portion of the gauze. and a printing screen characterized in that a strong resin protective film made of an electron beam curing type or ultraviolet curing type acrylate resin or an unsaturated polyester resin composition is provided on both sides of the non-image photoresist film portion. (2) A printing screen in which a photoresist film is applied to a gauze, the surface of the photoresist film is exposed to light through a pattern element, and an image area and a non-image area are formed on the gauze, the image area on the gauze. An electron beam-curable or ultraviolet-curable acrylate resin or unsaturated polyester resin composition is applied to both sides of the non-image area, and the resin-coated surface is irradiated with active light such as electron beams or ultraviolet rays to form a gauze. A method for producing a printing screen, comprising curing and forming a resin protective film on both sides of a cross part and a non-image photoresist film part.