JPH1120123A - Method for flexographic printing - Google Patents

Abstract

PROBLEM TO BE SOLVED: To stabilize reproducibility of a fine line of a design in a print of a decorative sheet for a building material by flexographically printing an endless pattern on a lengthy strip-like sheet by using a flexographic plate of a resin plate having an endless pattern and an anilox roll made of ceramics. SOLUTION: An endless pattern is flexographically printed on a material 10 to be printed of a lengthy strip-like sheet by using a plate cylinder 3 having an endless pattern sleeve-like resin plate 1 mounted at an axial center and an anilox roll 4 made of ceramics. Thus, a surface of a titanium sheet having deteriorated smoothness can be printed with excellent reproducibility of gradation not inferior to gravure print. And, mottling as observed in the gravure print is not observed. And, solid print can be uniformly transferred. Further, stable printed matter having no fluted scumming due to foreign matter in ink or doctor damage can be obtained.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to printing of a long strip-shaped decorative sheet such as a building material. The printed pattern of the decorative sheet uses an endless resin plate, and has a fine pattern with high accuracy even if its surface smoothness is poor. The method belongs to a flexographic printing method for creating a decorative sheet having

[0002]

2. Description of the Related Art Heretofore, decorative sheets have been produced by gravure printing which can print on a long strip-shaped sheet, and which can widely select a binder and a solvent which can be used for printing ink. On the other hand, a gravure plate has many manufacturing steps, and it is necessary to accurately control the cell volume of the plate in order to express gradation and density of printing. Therefore, to make a plate with a large area like a decorative sheet for building materials,
There have been problems in reproducing the cell volume corresponding to the image of the plate over the entire surface and in terms of cost. Further, paper having excellent resin impregnating property for processing into a decorative board usually has poor print surface smoothness, and thus has a problem that the tone reproducibility of a picture differs depending on the paper quality.

On the other hand, flexographic printing, which is suitable for printing on a long strip having poor surface smoothness, has insufficient abrasion resistance of a plate and an anilox roll (ink supply roll), has insufficient density, and has poor density. Since the reproducibility of fine lines is lacking, there is a problem that a stable image gradation cannot be obtained. For this reason, it was applied to glass cloth for molding, which bears the brand of the resin-impregnated laminate, and letters printed on linter paper, but it was not possible to obtain a sufficient printing effect for the purpose of decorative sheets with precision patterns. There was a problem.

[0004] Flexographic printing is a printing method using a relief plate made of a flexible rubber or resin and a solvent-based evaporative drying ink mainly containing water or alcohol. Printed materials have been frequently used for printing absorbent or non-absorbable films such as stretched or unstretched resin films of polyethylene, polyvinyl chloride, polypropylene, polystyrene, etc., in addition to paper. And even for rough surfaces unique to letterpress printing,
Because of its excellent ink transferability, it has been used for printing kraft paper such as paper bags and cardboard. On the other hand, a drum-type printing machine (single-cylinder type, common impression cylinder type) is one in which four to six printing units are provided around a single large impression cylinder in the center, and is a long band-shaped printing medium. Is running around the impression cylinder
There are features that are printed. Therefore, it is suitable for printing on plastic film, aluminum foil, etc., which is thin and easily expandable.

As shown in FIG. 1, in the conventional flexographic printing, ink is supplied to the plate cylinder 3 by an anilox roll 4, and the amount of ink on the anilox roll surface is controlled by a doctor blade system shown in FIG. 2 is generally known. In the two-roll system shown in FIG. 2, an ink 8 is supplied from an ink pan by a fountain roll 7 to an anilox roll 4.
In addition, the ink is further supplied to the plate cylinder 3 to transfer and print the ink on the printing medium 10. According to this method, the ink 8 is supplied by adjusting the number of engraving lines of the anilox roll 4, the depth and the shape of the cell, and by changing the nip pressure between the fountain roll 7 and the anilox roll 4 (which tends to fluctuate). There is a problem that the amount is controlled and the transfer amount of the ink is not stable.

On the other hand, in the doctor blade system shown in FIG. 1, the amount of ink transferred to the plate cylinder 3 is determined by the cell shape of the anilox roll 4, and can be stabilized as the amount of ink transferred. The ink to be filled in the cells of the anilox roll is scraped with excess amount of ink on the surface of the anilox roll with a doctor blade, and the transferred ink is determined by the shape and volume of the cell. And
In the anilox roll cell, the surface of the iron cylinder is plated with copper as necessary, the cell is formed by engraving, and the surface is hardened by nickel or chrome plating. Also, the number of engraving lines and the cell depth have a large effect on the amount of ink transfer. In general, in the case of a character, the number of lines is 160 to 180 lines / 25.4 mm. Is 15 to 20 μm. For a pattern having a fine line with high accuracy using an anilox roll, the reproducibility of the pattern is excellent when the number of lines is further reduced to 600 lines / 25.4 mm or more. However, if the number of lines is small, ink entanglement tends to occur, and the reproducibility and stability of fine lines are lacking.
There is a problem that a stable image gradation cannot be obtained.

As the plate, a synthetic rubber plate containing natural rubber having flexibility has been used. However, expansion and contraction and fluctuation are apt to occur at the time of plate making. Poor, even if the back side is sufficiently polished to make the height of the plate uniform, the unevenness of the height accuracy of the plate cannot be removed. (Marginal zone) is inevitable, and is not necessarily suitable for printing a decorative sheet of a building material having a delicate and light and shade gradation such as a wood grain pattern.

[0008]

SUMMARY OF THE INVENTION The present invention provides a flexographic printing plate which can be produced at a lower price than a gravure printing plate in printing a decorative sheet for a building material, has a sufficient ink supply, has a sufficient density, and has a fine pattern line. An object of the present invention is to provide a flexographic printing method which stabilizes reproducibility, obtains an image having gradation even on the surface of a printing medium having poor smoothness, and has excellent printing durability.

[0009]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present invention provides a printing method for printing a decorative sheet for a building material by using a flexographic plate made of a resin plate having an endless pattern and a ceramic anilox roll. An endless pattern is formed on a belt-like sheet by a flexographic printing method.
Preferably, a method of supplying ink to the anilox roll employs a doctor blade method.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION As shown in FIG.
Using a flexographic printing plate 3 having a resin plate 1 having an endless pattern mounted on a shaft and an anilox roll 4 made of ceramics, a decorative sheet having an endless pattern is formed on a printing material 10 of a long strip-like sheet by a flexographic printing method. Things.

As the resin plate of the present invention, a photosensitive resin plate utilizing photopolymerization of a polymer as a photoreactive substance and a monomer is used. This photosensitive resin plate is composed of a photopolymer, a monomer that is photopolymerized by exposure to ultraviolet light, a sensitizer that initiates photopolymerization between the polymer and the monomer, and a plasticizer that adjusts the physical properties of the plate material. . Further, a resin plate in which a resin layer provided on the entire surface of a cylinder (axial core) is directly engraved with a laser beam can also be used. Then, the picture is quantized into halftone dots using a screen, and the density and gradation of the print image are expressed by the area ratio of the halftone dots. In the case of multicolor printing, a plate in which a document image is separated into three primary colors or other primary colors is used. There are various types of photosensitive resin used for the resin plate, such as polyvinyl alcohol, alcohol-soluble polyamide, water-soluble polyamide, and alkali-soluble cellulose derivative, and a photopolymerizable component (meth) acrylate or (meth) acrylate. Generally, acrylic acid derivatives of acrylamide are included. (The term “(meth) acryl” used herein means acryl or methacryl.
Hereinafter the same).

A layer of a photosensitive resin material is used as a base material such as a polyester film, an aluminum plate, a steel plate, or
It is provided on an aluminum sleeve that can be mounted on a cylinder, covered with a negative film as an original mask, and exposed. The photosensitive resin layer is cured or insolubilized by light, particularly ultraviolet energy having a wavelength of 350 to 450 nm. The uncured resin in the unexposed portion is maintained in a state of being soluble in water, an aqueous alkaline solution, or an organic solvent such as alcohol. Therefore, the unexposed portion is washed out with a corresponding solvent (development step), so that only the exposed portion remains to form a relief plate (flexographic plate).

In the flexographic printing plate of the present invention, a flat original plate is wound around a resin plate, and the seams after plate making are blurred to make the pattern endless. That is, as shown in FIG. 3, a digital density signal obtained by scanning a manuscript 20 by slightly extending the design of an end 21 which is continuous in the flow direction of the manuscript 20 and forming the pattern to reach 21A and 21B. Is input to a computer, and is gradually converted into a corresponding signal at the other end by using the signal of the section formed by the computer and modified so as to be continuous as an image. Then, an endless plate is printed on a plate (creating a printing plate) based on the corrected signal density to eliminate the continuity of the fine lines of the seam and the step of the density gradation. (Japanese Unexamined Patent Publication No. 7-32
5905, JP-A-7-97209, or JP-B-62-45975). As a printing plate method, a plate material may be directly engraved on a cured resin plate in the form of a sleeve, for example, with a laser beam or an engraving machine on the basis of a corrected image signal, thereby producing a complete endless plate. Alternatively, an endless plate is formed by scanning a non-exposed photosensitive resin plate in a sleeve (hollow cylindrical) shape with a laser beam modulated with a corrected image signal while patterning the pattern, and then developing the pattern by a normal method. It is also preferable from the viewpoint of performing. This resinous sleeve is detachable around the cylinder by air pressure, and is lighter and easier to handle than a metal cylinder.

As shown in FIG. 4, the anilox roll 4 can form the ceramic surface provided on the shaft core 2 by chemical corrosion similarly to the gravure plate provided on the copper surface. It is desirable to provide the cell b by mechanical or laser engraving from the viewpoint of easily generating the following. And the surface of the anilox roll is usually made by chrome plating after pressing by a mill, but chrome oxide, in terms of abrasion resistance, corrosion resistance and ink transferability,
Those formed by spraying an inorganic oxide such as tungsten carbide are preferable.

The engraved shape of the anilox roll 4 may be a helical type, a pyramid type, an oblique line type, a hexagonal honeycomb pattern or the like (not shown) in addition to the lattice type cells. The number of engraving lines and the depth d of the cell b shown in FIGS. 4 and 5 greatly affect the transfer amount of ink. In general, the number of lines is 160 to 18 in the case of a character.
0 line / 25.4 mm, cell depth d is 30 to 40 μm. In the case of process printing having a gradation used for printing on building materials, the number of lines is 300 to 800 lines / 25.4 mm, and the cell depth d is 5 to 30 μm. The selection of the engraving shape and the number of lines is considered in accordance with the type of the printing medium and the number of lines of the printing screen. For a rough printing substrate, a line having a small number of lines is preferably used, and for a plastic film having a low absorbability, a film having a small line number is preferably used.

The number of lines of a printing plate for building material printing is 150 to
Since it is as high as 200 lines / 25.4 mm, the anilox roll also needs a high number of lines corresponding to it.
Those having a thickness of 00 to 800 lines / 25.4 mm exhibit an excellent printing effect. It is preferable that the bank of the cell (non-recessed portion) is provided so small that it does not hinder the abrasion resistance from the viewpoint that the ink charge amount can be increased. Preferably, it is provided at 0.5 times. The anilox roll controls the amount of ink supplied to the plate surface by doctoring in flexographic printing. Then, abrasion and damage occur during the doctoring process, and the cells become shallow, which causes a decrease in the amount of transferred ink. Therefore, as compared with the conventional metal (engraving on iron or copper, chrome plating finish), the ceramic anilox roll has a small amount of abrasion due to doctor ring and can greatly contribute to the stability of color tone. A known mechanism such as a drum type, a stack type or an in-line type can be adopted as the mechanism of the printing press.

As the printing medium of the present invention, a long strip-shaped winding shape capable of performing post-processing steps such as resin impregnation, resin coating and lamination is used. For example, thin paper, titanium paper, kraft paper, Japanese paper, polyvinyl chloride sol-coated paper for wallpaper, paper such as emulsion resin-coated paper, non-woven fabric such as glass non-woven fabric, aluminum foil alone or a laminate of this and other sheets, Polyolefins such as polyethylene, polypropylene, ethylene-acrylic acid copolymer, ethylene-acrylate copolymer, olefin-based thermoplastic elastomer, acrylic resin such as polymethyl methacrylate, cellulose acetate, ethylene-vinyl acetate copolymer There are saponified products, polyesters such as polyethylene terephthalate, and stretched or unstretched films of plastics such as polyurethane. Then, the smoothness of the surface to be printed is inferior to that of gravure printing, and a thin plastic film which is easily stretched by a tensile tension during printing can be used.

The patterns applicable to the above-mentioned printing medium by flexographic printing include wood grain patterns such as cedar, cypress and zelkova, wood grain patterns such as heather grain or straight grain, and stone boards such as sand grain, marble and granite. The above-mentioned endless processing is performed by using various patterns such as a stone pattern, a cloth pattern, and a leather pattern as an original, and printing is performed using a flexographic plate in which joints are made inconspicuous. After printing, resin impregnation, coating, and embossing are performed as necessary. Printed matter obtained by the present invention, wall materials, floor surfaces, ceiling materials such as building interior materials, furniture,
Used as a surface decorative sheet for cabinets of home appliances.

Next, the present invention will be described in more detail with reference to examples. (Example 1) Titanium paper (Kohjin Co., Ltd., basis weight 100 g /
m ² : A three-color marble pattern was printed on one surface of the printing substrate 10) under the following conditions. Ink: Ode HI-GK (The Inktec Co., Ltd.)
Product name) Plate: NYLOFLEX (Sleeve-like resin plate 1 BA
175 lines / 25.4 mm The sleeve resin plate 1 was fixed by air pressure around a shaft core 2 provided with an air chuck to form a flexographic plate cylinder 3 shown in FIG. Anilox roll 4: 700 lines / 25.4 mm, cell volume 3 cc / m ² (Honeycomb pattern manufactured by Neurong Co., Ltd.) Ink supply: steel doctor blade method (see FIG. 1) Printing mechanism: stack type Despite the surface of titanium paper having poor smoothness, the printing effect was excellent in gradation reproducibility as compared with the gravure printing. Further, there was no mottle seen in gravure printing, the solid printed portion was uniformly transferred, and a printed matter of stable quality free of streaky printing stains due to foreign matters in ink or doctor scratches could be obtained. Further, the sleeve-shaped resin plate 1 is lightweight, excellent in workability, and inexpensive. The ceramic anilox roll 4 exhibited about 30 times the durability as compared with a normal chrome plating roll.

(Example 2) The same ink 8, plate 3, and the like as those in Example 1 were applied to the vinyl sol-coated surface of polyvinyl chloride sol-coated paper (WK-ADS manufactured by Kojin Co., Ltd .: print substrate 10).
A three-color marble pattern was printed using anilox roll 4. The obtained printed matter had a printing effect excellent in reproducibility of gradation more than that of gravure printing. The workability and the durability of the ceramic anilox roll also showed the same effects as in Example 1.

A raw material of paper obtained by coating an acrylic resin emulsion on the surface of a backing paper (Kohjin Co., Ltd., basis weight 100 g)
/ M ² A three-color marble pattern was printed on the coated surface of the printing substrate 10) using the flexographic plate used in Example 1 under the following conditions. Ink: UV-curable unsaturated acrylate monomer ink (trade name, manufactured by The Inktech Co., Ltd.) Anilox Roll: 700 lines / 25.4 mm, cell volume 3 cc / m ² (Helical manufactured by Neurong Co., Ltd.) Pattern) Ink supply: Chamber system Printing mechanism: Drum type (co-pressurized cylinder type) The obtained printed matter has better gradation reproducibility than that of gravure printing, despite the sol coat surface with poor smoothness. The printed pattern had a strong printing effect, and the pattern after drying and curing was tough with excellent surface properties.

[0022]

According to the present invention, the printed matter of the decorative sheet obtained from the ceramic anilox roll and the resin flexographic plate having high precision and durability can be obtained by gravure printing despite the surface of the titanium paper having poor smoothness. A printing effect excellent in reproducibility of gradation which is comparable to that of the above is exhibited. And
There was no mottle seen in gravure printing, the solid printed area was uniformly transferred, and a stable printed matter free of streaky printing stains due to foreign matters in the ink or doctor scratches could be obtained. Further, the resin plate of the sleeve is lightweight, excellent in workability, and inexpensive. The anilox roll made of ceramic showed about 30 times the durability as compared with a normal chrome plating roll.

[Brief description of the drawings]

FIG. 1 is an example of a doctor blade type printing unit in flexographic printing.

FIG. 2 is a schematic sectional view of a two-roll type printing unit in flexographic printing.

FIG. 3 is a diagram for explaining the concept of creating an endless pattern plate according to the present invention.

FIG. 4 is a perspective view of an anilox roll.

FIG. 5 is a perspective view for explaining an anilox cell.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Sleeve-shaped resin plate 2 Shaft core 3 Plate cylinder 4 Anilox roll 5 Impression cylinder 6 Doctor blade 7 Fountain roll 8 Ink 10 Printed object 20 Endless pattern original 21 End of original 21A, 21B End of extended original a Bank b cell d cell depth w bank width

Claims (1)

[Claims] 1. A printing method for a decorative sheet for building material, comprising printing a long strip-shaped sheet using a flexo plate provided with an endless pattern resin plate and an anilox roll made of ceramics. Flexographic printing method.