RU2143344C1 - Method for indirect or direct color iris-effect printing with whole circular coverage - Google Patents

Abstract

FIELD: polygraphy, in particular, printing of securities such as banknotes and other color products. SUBSTANCE: method involves rolling assembled plate cylinder printing form with ink by means of gage rolls connected with plate cylinder through toothed gear; imparting forced cyclic reciprocating motion to gage rolls in axial direction and circumferentially relative to plate cylinder without disintegrating toother gear from plate cylinder, with gage roll reciprocating motion speed being within the range of 0.2-4.0 mm and ratio of reciprocating motion number and gage roll revolution number being irrational value of 2-10. Auxiliary accumulating gage roll may be used for receiving and transmitting of color pattern, when this gage is in contact with rubber webs of blanket cylinder. Boundary zone of color gage may be increased by using continuous or stepped screen scale with decreasing filling area. EFFECT: wider range of products which may be manufactured by method, increased picturesque effect by additional colors and tints and improved protective qualities of pattern. 5 cl, 1 dwg

Description

 The invention relates to printing and more specifically to a printing method known as Oryol printing (1), which is mainly used when applying a protective pattern when printing valuable documents, in particular banknotes.

 The method of Oryol multi-color printing is based on rolling up a prefabricated printing plate with ink using colorful templates, while the prefabricated printing form and colorful templates are installed respectively on the plate cylinder and on the template rollers (2). The drive of the template rollers from the plate cylinder is carried out by means of a gear transmission. This transfer provides a fixed position of the templates relative to the prefabricated printing form, which is stored during printing.

 A multi-color Oryol image is formed by creating a continuously colored line with a transition of colors. Here, by the transition of colors of such a line, we mean the coloring of its various sections in the corresponding colors. Moreover, the boundary of the transition of the line section of one color to the line section of another color is characterized by the absence of mixing zones for these inks in the indirect Oryol press and the presence of a minimal zone for mixing inks in direct Oryol printing. Thus, all colorful patterns, when applied to a prefabricated printing plate, completely cover the entire area of the pictorial field of the prefabricated form without imposing various separate colorful areas from each other.

 The construction template is a die with one hundred percent filling of the printing (ink transferring) surface. The configuration of such surfaces is determined by the pattern of reproduced multicolor image.

 As the closest analogue, the Oryol method of indirect and direct multi-color printing was disclosed, which is disclosed in the application EP 0092887, class B 41 F 11/00 (publication 02.11.83), owned by the Swiss company "DE LA RUE GIORI SA", including rolling up the team paint the printing form of a plate cylinder using template rollers, colorful patterns of which are dies of various configurations. The position of the templates is fixed relative to the prefabricated printing plate due to the gear drive of the template rollers from the plate cylinder, thus, during printing, the possibility of displacement of the template rollers relative to the plate cylinder both in the axial direction and around the circumference is excluded.

 The main disadvantage of the existing method is the lack of a mixing zone between two sections of different colors of paint in indirect Oryol printing and the small length of this zone (insufficient to produce mixed ink) in direct Oryol printing, which does not allow increasing the color gamut and the color of a continuously colored line due to them and, accordingly, the Oryol drawing itself.

 The objective of the proposed invention is to improve the quality of the products, namely the color and color gamut of the painted line, and, consequently, increase the security of valuable documents from the possibility of fakes and, in particular, to obtain a smooth transition zone of colors in the protective drawing, which allows you to create an iris effect within full circle images.

 The problem is solved in the proposed method of indirect or direct multi-color Oryol printing, which consists in rolling a prefabricated printing plate of a printing cylinder with the help of template rollers connected with it using a gear, while according to the invention, rolling the prefabricated printing plate of the printing cylinder using template rollers is carried out by giving them a forced cyclic reciprocating movement in the axial direction and around the circumference - relatively shaped cylinder (return pulsation) without disturbing the gear drive from the latter, while the reciprocating movement of the template rollers lies in the range of 0.2-4.0 mm, and the ratios between the number of return movements and the number of revolutions of rotation of the template cylinders are irrational numbers lying in the range from 2 to 10.

 The proposed method also provides for the installation of an additional accumulating template roller with forced movement within the values corresponding to the specified values of the movement of the template rollers. The specified roller is a die according to the format of the pictorial field of the prefabricated printed form and perceives - transmits a multi-color image during its contact with the rubber sheets of the prefabricated offset cylinder.

 Advantageously, the border zone of the colorful template is increased by introducing a decreasing in area of filling, continuous or stepwise raster scale, the linear dimensions and gradation characteristics of which determine the length of the zone and the smooth transition of the colors, and which is made dotted or linear, while the lineature of the raster of the said scale lies in the range values of 8-40 lines / cm.

 The gradation characteristic of the stepped raster scale corresponds to the areas of filling the fields of the raster cell 80, 60, 40 and 20%. To create three optical densities within one of the main colors of a continuously colored line, a raster scale is used with a filling area of the raster cell fields of 10, 40 and 80%.

 It is also envisaged that for each pair of basic printing inks, a certain ratio of the values of the viscosity index of the inks is selected with a total range of 20-125 poise.

 The technical result that can be obtained by using the invention is to create new artistic and technological possibilities for constructing the most colorful Oryol drawing. Iris transition zones of paints increase the overall brilliance of the picture due to the additional color and due to color shades without limiting their orientation around the circumference and length of such zones.

 In the complex, a multi-color Oryol pattern with an iris effect has higher protective properties, including the exclusion of the reproduction of this pattern on color copying machines, which is crucial in the production of securities (banknotes).

 In FIG. 1 illustrates the basic provisions for the formation of a zone of smooth mixing of two colors with the formation of additional color.

 The following are examples of the method.

 When rolling a prefabricated printed form of a plate cylinder, the template rollers are given the possibility of constant cyclic reciprocating movement relative to the plate cylinder in the axial direction and around the circumference, without disturbing their gear drive from the plate cylinder. The magnitude of this movement of the template roll lies in the range from 0.2 to 4.0 mm, which corresponds to the displacement of the template relative to the central position in the range from 0.1 to 2.00 mm in both directions. The cyclicity of such a movement from one extreme position to another for the ratio of the diameters of the template cylinder and the offset offset cylinder equal to 1: 2 is 2-10 full revolutions of the offset offset cylinder, i.e. the ratio between the number of return movements and the number of revolutions of rotation of the template cylinders are irrational numbers lying in the range from 2 to 10.

 The method also includes the introduction of an additional accumulating template roll with forced rolling within the above values, which ensures uniform mixing of paints in the zone of their smooth transition. The accumulating template is a die according to the format of the pictorial field of the precast printed form. The accumulating template roller does not have a colorful apparatus and receives and transmits a multi-color image during its contact with the rubber sheets of the prefabricated offset cylinder. In direct Oryol multi-color printing, the installation of an accumulating template roll with forced rolling is associated with the setting of an additional die template due to the location of the prefabricated printing form and colorful templates on one plate cylinder.

 A raster scale has been introduced into the design of the colorful template, in its border zone, the density of which is specified by the different filling area of the raster cell. Regarding the border of the template, this area decreases, making up a series of values from 100 to 0%. The raster scale itself can be stepped or continuously decreasing. The dimensions and characteristics of this raster scale are decisive in the formation and formation of a zone of smooth mixing of colors in a continuously colored line.

 The lineature of the raster of such a scale lies in the range of values of 8 - 40 lines / cm. Width of raster transitions - VAR from 0 to 50 mm.

 The length of the smooth transition zone of paints is determined by the overall size of the raster scale and lies in the range of values from 1 to 25 mm and above. The very smooth transition of the paint in this area depends on the gradation characteristics of the raster scale. These requirements are met, for example, by a five-field scale with a field filling area of 80, 60, 40 and 20%.

 Using a raster scale, for example, with a filling area of 10, 40, 80%, allows you to get at least three optical densities, within the same primary color of a multicolor continuously colored line. Here, the different optical density of the line is created by reducing the thickness of the ink layer on it due to a change in the fill area of the raster scale of this colorful template.

 The smoothness of mixing inks and identifying a zone with a complementary color in a continuously colored line depends not only on the color characteristics of the inks, but also on the selection of viscosities of the main printing inks forming this zone. The selection of viscosity indicators of printing inks is carried out in the range of values of 20-125 poise. For example, the viscosity values of two printing inks, forming a zone of a smooth transition of inks for indirect Oryol printing, are respectively 70 and 80 poises.

 For direct Oryol multi-color printing, when the prefabricated printing form and colorful templates are located on the same plate cylinder, the zone of smooth mixing of paints in a continuously colored line is achieved by forcibly moving the prefabricated rollers according to claim 1 and installing an additional template - a die and an accumulating prefabricated roller with forced moving under paragraph 2, subject to the requirements of paragraphs. 3, 4.

 Templates of red and blue colors 1, 2 have raster scales with the following values of its filling: 80, 40 and 20%. Accordingly, the imposition of patterns in the formation of a continuously colored line leads to the formation of zones for combining colors a, b, c. There are three such zones for combining paints: 3a = 1a + 2a, 3b = 1b + 2b and 3c = 1c + 2c. The area of filling these zones according to the raster scales of patterns of blue and red colors, respectively, is the following row: 3a - 80% + 20%, 3b - 40% + 40%, 3c - 20% + 80%. A smooth transition zone of colors between the main blue and red inks cannot be obtained in the usual methods of Oryol indirect and direct multicolor printing. Here, due to the lack of mixing of colors, the raster pattern of a continuously colored line goes into a multicolor image on print 3 (Fig. 1).

 Forced movement of the template rollers, subject to paragraph 1, 2, 3, 4 leads to the formation on a continuously colored line of the mixing zones of colors 4a, 4b and 4c with the appearance of a zone of complementary color 4b. The full color range, taking into account the mixing zone of paints on a continuously colored line in the above example, appears as the following smooth transition of colors: blue - blue-red - violet - red-blue - red. Thus, according to the proposed invention, in the structural component of the Oryol print pattern - a continuously colored line - a zone of a smooth transition of color from one ink area to another ink area is introduced. In this case, in contrast to the known method of iris printing (4), the iris effect in the figure is formed within the full coverage of the directions of orientation around the circle. Thus, this zone of a smooth transition of inks in a continuously colored line now does not depend on its orientation relative to the axis of the printing cylinder of the printing press.

 The proposed method is implemented in more detail in a parallel application for the grant of a patent for the invention "Multicolor Oryol printing press with the reproduction of the iris effect within the full coverage of the circumference".

Sources of information:
1. Nemirovsky EL, "Oryol press". FLEXO Plus Magazine, 1998, N 2-4.

 2. Designs and calculation of printing machines. Book VI. Rotary printing machines. M., 1954, p. 39-43.

 3. Nemirovsky E. Flexography in the palette of special printing methods. The magazine "Computer", 1999, N 3.

 4. Stefanov S.I. A guide to the world of printing. M., IF "Uniserv", 1998, p.209.

Claims (5)

 1. The method of indirect or direct multi-color Oryol printing, comprising rolling up a prefabricated printing plate mold plate using the associated gear transmission of template rolls, characterized in that the rolling paint prefabricated printing plate form plate using template rollers is carried out by giving them a forced cyclic reciprocating - translational movement in the axial direction and around the circle - relative to the plate cylinder without violating the gear drive them from the latter, while value reciprocating pattern rollers lies in the range 0.2 - 4.0 mm and the ratio between the number of return movements and the number of rotation revolutions of the chablon cylinders are irrational numbers lying within the range from 2 to 10.  2. The method according to p. 1, characterized in that they install an additional accumulative template roll, which receives - transmits a multi-color image during its contact with the rubber sheets of the prefabricated offset cylinder and is a die according to the format of the pictorial field of the prefabricated printing form, while the above-mentioned accumulative template the roller is informed of forced movement within the values corresponding to the indicated values of the movement of the template rollers.  3. The method according to claim 1 or 2, characterized in that the border zone of the colorful template is increased by introducing a decreasing in area of filling, continuous or stepwise raster scale, the linear dimensions and gradation characteristics of which determine the length of the zone and the smooth transition of the colors and which is made point or linear, while the line of the raster of the said scale lies in the range of values of 8 - 40 lines / cm.  4. The method according to claim 3, characterized in that the gradation characteristic of the raster step scale corresponds to the areas of filling the fields of the raster cell 80, 60, 40 and 20%.  5. The method according to any one of claims 1 to 4, characterized in that for each pair of basic printing inks, a certain ratio of the values of the viscosity index of the inks is selected with a total value range of 20-125 P.