JPH08202028A - How to make a color printing plate - Google Patents

Abstract

PURPOSE: To provide a method for making a color printing plate by which the printing is performed on a postcard, etc., by enlarging or reducing an original based on the original in full color without using a special equipment even in general home. CONSTITUTION: A photosensitive original plate 20 is constituted of a base material 23 coated with photosensitive material 13 corresponding to a specified wavelength region, and the color positive original 1 is arranged on the side of the original plate 20 coated with the photosensitive material 13 and a lens 12 is arranged between the original 1 and the original plate 20. The original 1 is irradiated with light emitted from an incandescent lamp 2, an image being the light reflected from or transmitted through the original 1 is enlarged or reduced by the lens 12, and the original plate 20 is exposed and partially and selectively hardened in accordance with the arrangement of colors of the original 1. Thereafter, the color printing plate is made by removing the photosensitive material 13 in a non-hardened part of the photosensitive material 13 of the original plate 20.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plate making method of a color printing plate for forming a color image on plain paper, postcards, etc. based on printed matter, photographs, handwritten manuscripts and the like.

[0002]

2. Description of the Related Art Heretofore, as a method for printing a multi-color printing on a postcard or the like, a method applying stencil printing has been known.
In this method, for each color, a manuscript in which the part where each color is used is drawn with carbon is prepared, and each manuscript is brought into close contact with a screen made of a heat-meltable resin film, and strong light such as flash is given. It was As a result, the portion drawn with carbon accumulates heat, and the screen in close contact with the portion where the heat is accumulated melts to form a stencil screen. In this way, the stencil screen for each color created and the ink used for the stencil screen are overlaid on the material to be printed to perform color printing.

Therefore, in recent years, there has been developed a simple printing method using a full-color original such as a photographic print or a gravure print. In this method, the full-color original document is converted into digital data by a color separation scanner, and is used for cyan (C) color and magenta (M) color.
Three types of color separation masks for color and yellow (Y) color are created, and a stencil or letterpress printing plate dedicated to each color is created using each mask, and C, M, and Y colors are used. It was printed with ink for printing.

[0004]

However, in the stencil printing method described above, color printing in the sense of multicolor printing is possible, but full-color printing that requires color coding in a small area and intermediate colors is performed. Was impossible. Further, it is necessary to prepare a manuscript for each color, which is troublesome.

On the other hand, in the letterpress printing method as described above,
This is not possible in ordinary households because a special device is required to create the color separation mask.

Further, in the method of forming a mask by closely adhering the original, only a printing plate of the same size as the original can be made, and in order to print the original reduced, the original itself must be reduced. I had to do it. On the contrary, in order to print an enlarged original, the original itself had to be enlarged.

The present invention has been made in order to solve the above-mentioned problems, and enlarges a manuscript on a postcard or the like based on a full-color manuscript without using special equipment even in a general home. Alternatively, it is an object of the present invention to provide a plate making method of a color printing plate that enables reduced printing.

[0008]

In order to achieve this object, a plate making method of a color printing plate of the present invention comprises a photosensitive original plate comprising a base material coated with a photosensitive material corresponding to a specific wavelength range, and an exposure. Light source and a color arrangement original placed on the side coated with the photosensitive material, the light emitted from the exposure light source passes through the color arrangement original or is reflected by the color arrangement original, A method of partially and selectively curing a photosensitive material according to the color arrangement of the color arrangement original by exposing the original, and then removing the uncured portion of the photosensitive material. Using an optical means capable of enlarging or reducing an image transmitted through the image or reflected by the color arrangement document, the image enlarged or reduced by the optical means is So that exposure to the original.

The photosensitive material used for the R photosensitive original plate is provided with photosensitive original plates corresponding to at least red (R), green (G), and blue (B). The photosensitive material used for the G photosensitive master plate is cured when exposed to light, and the photosensitive material used for the B photosensitive master plate is cured when exposed to light having a wavelength range including green. It cures when exposed to light.

Further, the photosensitive material includes a polymerizable substance which is cured by polymerization, a photopolymerization initiator which reacts with light to initiate polymerization of the polymerizable substance, and a photosensitive wavelength of the photopolymerization initiator. What was comprised with the wavelength sensitizer for adjusting the above may be used.

[0011]

The plate-making method of the color printing plate of the present invention having the above-mentioned constitution is such that the photosensitive material is applied to a photosensitive original plate composed of a base material coated with a photosensitive material corresponding to a specific wavelength range. A color arrangement original on the side where the color arrangement original is disposed between the color arrangement original and the photosensitive original plate, and the color arrangement original is irradiated with light emitted from a light source,
The light is reflected or transmitted from the color arrangement original document, the image is enlarged or reduced by the optical means, the photosensitive original plate is exposed, and the image is partially selectively cured according to the color arrangement of the color arrangement original document. Then, the uncured portion of the photosensitive material is removed to make an enlarged or reduced color printing plate.

At least red and green,
The photosensitive material used for the R photosensitive original plate includes a photosensitive original plate corresponding to blue, and is cured when exposed to light in a wavelength range including red. The photosensitive material used for the G photosensitive original plate includes green. It cures when exposed to light in the wavelength range, and the photosensitive material used in the B photosensitive original plate cures when exposed to light in the wavelength range containing blue, and it cures among the photosensitive materials of each photosensitive original plate. By removing the non-existing portion, a cyan printing plate, a magenta printing plate and a yellow printing plate required for full color printing are prepared.

Further, in the photosensitive material, the wavelength of the photopolymerization initiator is adjusted by the wavelength sensitizer so that the wavelength of the light reflected or transmitted from the color arrangement original is the same as the adjusted wavelength. In some cases, the photopolymerization initiator causes the polymerizable substance to polymerize and cure.

[0014]

EXAMPLES Examples of plate making methods for color printing plates embodying the present invention will be described below with reference to the drawings.

As shown in FIG. 1, a photosensitive original plate 20 which is the basis of a color printing plate produced by the present embodiment is as follows.
The thickness of the photosensitive material 13 is about 5 by a bar coater on the upper surface of a 100 mm × 150 mm rectangular aluminum base material 23.
It is the one coated so as to have a thickness of 0 μm and dried.

In order to perform color printing, the photosensitive original plate 20 requires at least three types of photosensitive original plates as shown in FIG. In the R photosensitive original plate as the first photosensitive original plate, an R photosensitive material that is cured when exposed to red light is applied to the base material 23. In the G photosensitive master plate as the second photosensitive master plate, a G photosensitive material that cures when exposed to green light is applied to the base material 23. In the B photosensitive plate as the third photosensitive master plate, the B photosensitive material that cures when exposed to blue light is the substrate 2
It is coated on 3.

Each of the photosensitive materials is a polymerizable substance that is cured by polymerization, a photopolymerization initiator that reacts with light to initiate the polymerization of the polymerizable substance, and the photosensitive wavelength of the photopolymerization initiator is adjusted. And a wavelength sensitizer for the purpose. Furthermore, each photosensitive material is not cured by the energy of the transmitted light and needs to be cured when the energy of the reflected light from the original is applied. The photosensitive material having such characteristics can be obtained by specifying the polymerizable substance as follows.

That is, the polymerizable substance is composed of an acrylic compound such as acrylic acid and its salts, acrylic acid esters, acrylamides, methacrylic acid and its salts, methacrylic acid esters, methacrylamides, and derivatives thereof. The polyfunctional acrylic acid ester having a functionality of 3 or more is contained in an amount of 30 to 80% by weight based on the whole polymerizable substance.

Specific examples of such polyfunctional acrylic acid esters include trimethylolpropane triacrylate, pentaerythritol triacrylate, triacrylate of ethylene oxide 6 mol adduct of trimethylolpropane, and propylene oxide of trimethylolpropane. Examples thereof include triacrylate of 3 mol addition product, dipentaerythritol hexaacrylate, polyacrylate of dipentaerythritol caprolactone addition product, polyester acrylate, polyurethane acrylate and the like.

As the photopolymerization initiator, a direct cleavage type, hydrogen abstraction type, bimolecular type initiator or the like can be used.

Specific examples of these initiators include aromatic carbonyl compounds, acetophenones, organic peroxides,
Diphenylhalonium salt, organic halide, 2, 4,
6-Substituted-S-triazines, 2,4,5-triarylimidazole dimers, azo compounds, dye borate complexes, metal arene complexes, titanocene compounds and the like can be mentioned. Desirably, benzophenone, benzyl, xanthone, thioxanthone, anthraquinone, acetophenone, 2,2-dimethyl-2-morpholino-4'-methylthioacetophenone, benzoyl peroxide,
3,3 ', 4,4'-Tetrakis (t-butyldioxycarbonyl) benzophenone, diphenyliodonium bromide, diphenyliodonium chloride, carbon tetrachloride, carbon tetrabromide, 2,4,6-tristrichloromethyl-S- Triazine, (η ⁵ -2,4-cyclopentadien-1-yl) [(1,2,3,4,5,6-η)
-(1-Methylethyl) benzene] iron (1+) hexafluorophosphate (1-) and the like. Also,
These photopolymerization initiators may be used alone or as a mixture of two or more kinds.

Furthermore, the polymerizable substance and the photopolymerization initiator may be used in common with the R photosensitive material, the G photosensitive material, and the B photosensitive material, or the optimum ones may be selected individually. Is also good.

On the other hand, since the wavelength sensitizer is used for adjusting the photosensitive wavelength of the photopolymerization initiator, different photosensitive materials used for the respective photosensitive original plates are used. Specifically, a xanthene dye,
Coumarin dyes, merocyanine dyes, thiazine dyes, azine dyes, methine dyes, oxazine dyes,
Phenylmethane dye, cyanine dye, azo dye,
Anthraquinone dyes, pyrazoline dyes, stilbene dyes, quinoline dyes, etc. can be used. More specifically, squarylium dyes, thiazine dyes, cyanine dyes, and merocyanine dyes are preferably used as the R photosensitive material, and styryl dyes are used as the G photosensitive material. , Xanthene dyes,
Azine dyes, azo dyes, stilbene dyes, cyanine dyes, and merocyanine dyes are preferable, and those used for the B photosensitive material include coumarin dyes, styryl dyes, azo dyes, pyraroazone dyes, stilbene dyes. Series dyes, quinoline series dyes, cyanine series dyes, and merocyanine series dyes are preferable.

Next, the method for producing each photosensitive material will be described in detail.

20 g of the urethane acrylate, which is the above-mentioned polymerizable substance, and polyethylene glycol diacrylate 8
0 g was mixed while being heated to about 50 ° C., and 2 g of a squarylium dye which is a wavelength sensitizer and a photopolymerization initiator (η ⁵ -2,4-cyclopentadien-1-yl).
[(1,2,3,4,5,6- [eta])-(1-methylethyl) benzene] iron (1+) 6 g of hexafluorophosphate (1-) is added and dissolved to obtain an R photosensitive material. .

Separately from this, urethane acrylate 20
g and 80 g of polyethylene glycol diacrylate are mixed, and the merocyanine dye 3 which is a wavelength sensitizer is further mixed.
g and 5 g of the photopolymerization initiator used for producing the R photosensitive material are added and dissolved to obtain a G photosensitive material.

Separately from this, urethane acrylate 20
g and 80 g of polyethylene glycol diacrylate are mixed, and further 3 g of coumarin-based dye which is a wavelength sensitizer
And 3,3 ', 4,4'-tetrakis (t-butyldioxycarbonyl) benzophenone 1 which is a photopolymerization initiator
g and dissolved to obtain a B photosensitive material.

Next, a method of making a color printing plate from each of the photosensitive original plates will be described with reference to FIGS. 2 to 7.

In the color printing plate of this embodiment, an intaglio plate is prepared by using a transparent color positive original 1 as a color arrangement original. As shown in FIG. 2, the color positive original 1 is a color printed matter and includes a, b, c, d,
The portions e, f, g, and h are sequentially color-coded into eight colors of black, blue, red, magenta, green, cyan, yellow, and white (transparent). Using this color positive original 1, a cyan printing plate 14 composed of an R photosensitive original plate
a, a magenta printing plate 14b made of a G photosensitive original plate, and a yellow printing plate 14c made of a B photosensitive original plate, respectively.

First, as shown in FIG. 3, a color positive original 1 is arranged below an incandescent lamp 2 which is visible light as an exposure light source, and the illuminance on the surface of the color positive original 1 is 50.
The position of the incandescent light bulb 2 is adjusted so that it becomes 00lux. Next, between the R light source plate 20a and the color positive original 1, a lens 12 as an optical means is arranged at a position where the image transmitted through the color positive original 1 can be magnified to a desired size. Is exposed for 10 seconds. As a result, in the R photosensitive material 13a, portions exposed by light including red light, that is, c, d, g, and h are selectively cured, and other a, b, e, and f are cured. do not do. Immediately after that, the R photosensitive original plate 20a is washed with water to remove the R photosensitive material 13a in the uncured portion.
As shown in (1), a magnified intaglio 14a for cyan printing is obtained by filling the area where the R photosensitive material 13a is removed with cyan ink having a complementary color relationship with red to perform printing.

Similarly, when the G photosensitive original plate is carried out, in the G photosensitive material, the portions exposed by light including green light, that is, e, f, g and h are selectively cured, and other than that. A, b, c and d of No. 1 do not cure.
Therefore, the G photosensitive original plate after the exposure is washed with water to remove the G photosensitive material in the uncured portion, and as shown in FIG. 4B, the magenta ink having a complementary color relationship with green is removed.
An enlarged intaglio plate 14b for magenta printing, which is filled in a portion where the photosensitive material has been removed and is used for printing, is obtained.

Further, when the B photosensitive plate is also carried out,
In the B photosensitive material, portions exposed by light including blue light, that is, b, d, f, and h are selectively cured, and other a, c, e, and g are not cured. Therefore, the exposed B photosensitive plate is washed with water to remove the B photosensitive material in the uncured portion, and as shown in FIG. 4C, the yellow ink having a complementary color relationship with blue is transferred to the B photosensitive material. The intaglio printing plate 14c for yellow printing, which is to be filled in the area from which is removed for printing, is obtained. In this way, the enlarged intaglio plates 14a, 14a that are color printing plates for performing color printing
b and 14c can be plate-made.

Next, each enlarged intaglio 14a, 14b, 14c
A method of performing color printing by using will be described.

Printing ink, for example, cyan of emulsion ink is applied to the entire surface of the magnified intaglio plate 14a for cyan printing, and the ink applied to the convex surface of the magnified intaglio plate 14a is wiped with a doctor blade to ink only the concave part. After leaving the image, the enlarged intaglio plate 14a and the image receiving paper 10 are superposed and pressed from above to transfer the ink to the image receiving paper 10. Similarly, the magnified intaglio 14b for magenta printing
Then, printing ink such as emulsion ink green is applied to the entire surface, and the ink applied to the convex surface of the enlarged intaglio plate 14b is wiped with a doctor blade so that the ink remains only in the concave portion. The image receiving paper 10 and the image receiving paper 10 are overlapped and pressed from above to print on the image receiving paper 10. Further, printing ink, for example, yellow of emulsion ink is applied to the entire surface of the enlarged intaglio printing plate 14c for yellow printing, and the ink coated on the convex surface of the enlarged intaglio printing plate 14c is wiped with a doctor blade to leave ink only on the concave portions. After leaving it, the engraved intaglio 14c and the image receiving paper 10 are overlapped and pressed from above to print on the image receiving paper 10. As a result, as shown in FIG. 5, a printed matter in which the color positive original 1 is enlarged is formed.

On the other hand, in the case of making a reduced color printing plate, by changing the position of the lens 12 and carrying out the same steps as in enlarging, the reduced intaglio plate 24a for cyan printing shown in FIG. 6A is formed. The reduction intaglio 24b for magenta printing shown in FIG. 6 (b) and the reduction intaglio 24c for yellow printing shown in FIG. 6 (c) are produced, and printing is performed on the image receiving paper 10 using each reduction intaglio. As shown in FIG. 7, a printed matter in which the color positive original 1 is reduced is produced.

As is apparent from the above description, in the plate making method of the color printing plate of this embodiment, the photosensitive original plate 20 composed of the base material 23 coated with the photosensitive material 13 corresponding to a specific wavelength range is used. , The color positive original 1 on the side coated with the photosensitive material 13, and the color positive original 1 and the photosensitive original 20
Lenses 12 are respectively arranged between the color positive document 1 and the color positive document 1 to irradiate the light emitted from the incandescent lamp 2, and an image in which the light is reflected or transmitted from the color positive document 1
The photosensitive original plate 20 is exposed by being enlarged or reduced by the lens 12, and is partially and selectively cured according to the color arrangement of the color positive original 1, and then the photosensitive material 13 of the photosensitive original plate 20 is not cured. Part of the photosensitive material 13
Since it is possible to create a color printing plate by removing the above, it is not necessary to prepare an original for plate making dedicated to each color used for the color positive original 1, and after enlarging or reducing the color positive original 1. , Rather than making a color printing plate, enlarge from the color positive original 1 itself,
Alternatively, since the reduced color printing plate is produced, it is possible to accurately produce a color printing plate having a desired size.

The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the invention. For example, although the intaglio printing plate is described in detail in this embodiment, it can be used as a stencil printing plate. In this embodiment, a rectangular plate made of aluminum was used as the base material 23, but instead, a mesh sheet formed with a polyester mesh structure (mesh spacing is about 23 μm) was cut into a size of 150 mm × 100 mm. Use one. In this case, since it becomes unstable when the original is placed, the mesh sheet is pasted on a stable table such as glass, the photosensitive sheet described above is applied to the mesh sheet by a bar coater, and then, It is exposed in the same way as intaglio. After the exposure, by washing only the mesh sheet with water, the cured parts of each photosensitive material become clogged, place the stencil for printing each color on the image receiving paper, and further penetrate the ink of each color from above. When a sponge is placed and pressure is applied, the ink passes from the non-clogging portion of the mesh sheet to print each color on the image receiving paper.

In this embodiment, the transparent color positive original has been described, but instead of the color positive original,
A positive image may be printed by letterpress printing using a color negative film. In this case, the thickness of each photosensitive material on the base material 23 should be about 0.5 mm,
By repeating coating and drying several times, an R photosensitive master plate, a G photosensitive master plate, and a B photosensitive master plate are obtained. Furthermore, as a manuscript, there are 3
Using a color negative film obtained by developing a film photographed with a 5 mm camera, each photosensitive original plate is subjected to contact exposure in the same manner as in this example. After that, by washing with water to remove the uncured portion, a relief printing plate for each color similar to that of this example is obtained. The difference from the present embodiment is that there is a large difference in level between the portion where the photosensitive material is cured and the portion where it is not cured. This is to ensure that the ink is applied only to the areas where the respective photosensitive materials are cured when printing on the image receiving paper.
In this way, positive printing can be performed from a negative document.

Although a transparent original is used in this embodiment, a color print such as a general magazine or a photographic print may be used. In this case, an optical component is required to collect the reflected light from the document and form an image on the surface of each photosensitive original plate. The exposure time (time to turn on the light source) is preferably set to be twice as long as that of a transparent original.

Further, when a continuous tone original such as a photograph is used, a so-called halftone dot is formed on the photosensitive original plate by inserting a contact screen, which is generally used for printing plate making, between the original and the photosensitive original plate and exposing. Is formed, and as a result, a more faithful color image can be printed on the image receiving paper.

Further, in the present embodiment, color printing is performed by using the color plate of three colors of cyan, magenta and yellow, but in addition to this, color printing may be performed by four colors including black. In this case, a black printing plate is prepared using a photosensitive original plate provided with a photosensitive material having a photosensitivity over the entire visible light range. Such a photosensitive material can be obtained by selecting a plurality of dyes used as a wavelength sensitizer and mixing them.

[0042]

As is apparent from the above description, the method for making a color printing plate of the present invention is the same as that described above for a photosensitive original plate made of a substrate coated with a photosensitive material corresponding to a specific wavelength range. A color arrangement original is provided on the side coated with the photosensitive material, an optical means is arranged between the color arrangement original and the photosensitive original plate, and the color arrangement original is irradiated with light emitted from an exposure light source. Reflected from color originals,
Alternatively, the transmitted image is magnified by the optical means,
Alternatively, the image is reduced, and the photosensitive original plate is exposed to light and partially and selectively cured according to the color arrangement of the color arrangement original, and then the uncured photosensitive material of the photosensitive material of the photosensitive original plate is removed. By removing it, it is possible to create a color printing plate, so there is no need to prepare an original for plate making dedicated to each color used for color arrangement originals.
Also, after enlarging or reducing the color arrangement document,
Since a color printing plate that is enlarged or reduced from the color arrangement original itself is made instead of making a color printing plate, a color printing plate of a desired size can be made accurately.

At least red and green,
The photosensitive material used for the R photosensitive original plate includes a photosensitive original plate corresponding to blue, and is cured when exposed to light in a wavelength range including red. The photosensitive material used for the G photosensitive original plate includes green. It cures when exposed to light in the wavelength range, and the photosensitive material used for the B photosensitive original plate cures when exposed to light in the wavelength range containing blue, and it cures among the photosensitive materials of each color photosensitive original plate. By removing the non-existing portion, the cyan printing plate, magenta printing plate and yellow printing plate required for full color printing can be made. Can be printed.

Further, in the photosensitive material, the photosensitive wavelength of the photopolymerization initiator is adjusted by the wavelength sensitizer, and the wavelength of light reflected or transmitted from the color arrangement original is the same as the adjusted wavelength. In this case, since the polymerizable substance is polymerized and cured by the photopolymerization initiator, it can be surely cured for each color, and further, the wavelength at which the polymerization is started can be adjusted to a visible light region, Since an incandescent light bulb can be used as the light source, it is possible to obtain effects such as inexpensive color plate making.

[Brief description of drawings]

FIG. 1 is a perspective view of a photosensitive original plate which is the basis of color plate making.

FIG. 2 is a diagram illustrating an example of a color-colored original document for performing color printing.

FIG. 3 is an explanatory diagram when making a color plate.

4A and 4B are diagrams showing a color printing plate enlarged and made by the method of this embodiment, FIG. 4A shows an enlarged intaglio for cyan printing, and FIG. 4B shows an enlarged intaglio for magenta printing. , (C) show enlarged intaglio plates for yellow printing.

FIG. 5 is a diagram in which the color printing plates shown in FIG. 4 are overlapped and printed on an image receiving paper.

6A and 6B are views showing a color printing plate reduced and made by the method of the present embodiment, FIG. 6A shows a reduced intaglio for cyan printing, and FIG. 6B shows a reduced intaglio for magenta printing. , (C) show reduction intaglios for yellow printing.

FIG. 7 is a diagram in which the color printing plates shown in FIG. 6 are overlapped and printed on an image receiving paper.

[Explanation of symbols]

 1 Color Positive Manuscript 2 Incandescent Light Bulb 10 Image Receiving Paper 12 Lens 13a R Photosensitive Material 14a Cyan Printing Enlarged Intaglio 14b Magenta Printing Enlarged Intaglio 14c Yellow Printing Enlarged Intaglio 20a R Photosensitized Plate 23 Base Material

Claims (3)

[Claims] 1. A photosensitive original plate composed of a base material coated with a photosensitive material corresponding to a specific wavelength range, an exposure light source, and a color arrangement original document installed on the side coated with the photosensitive material. The light emitted from the exposure light source is transmitted through the color arrangement original document or reflected by the color arrangement original document, and the photosensitive original plate is exposed to expose a photosensitive material in accordance with the color arrangement of the color arrangement original document. In a plate making method of a color printing plate, which is selectively cured, and then the photosensitive material in the uncured portion is removed, an image transmitted through the color arrangement original document or magnified an image reflected by the color arrangement original document, Alternatively, a color printing plate is produced by using an optical means capable of reduction and exposing an image magnified or reduced by the optical means onto the photosensitive original plate. Method. 2. A photosensitive original plate corresponding to at least red (R), green (G), and blue (B),
The photosensitive material used in the R photosensitive master plate is cured when exposed to light in the wavelength range including red, and the photosensitive material used in the G photosensitive master plate is cured when exposed to light in the wavelength range including green. The plate-making method for a color printing plate according to claim 1, wherein the photosensitive material used for the B photosensitive original plate is cured when exposed to light in a wavelength range including blue. 3. The photosensitive material comprises a polymerizable substance that is cured by polymerization, a photopolymerization initiator that reacts with light to initiate polymerization of the polymerizable substance, and a photosensitive wavelength of the photopolymerization initiator. A plate-making method for a color printing plate according to claim 1, wherein a plate made of a wavelength sensitizer for adjusting the above is used.