RU2003109426A - DATA MEDIA WITH THE PRINT OBTAINED BY THE METAL PRINT METHOD AND METHOD FOR CONVERTING THE ORIGINAL IMAGES INTO LINEAR STRUCTURES AND IN PRINTING ELEMENTS OF THE PRINTING FORM - Google Patents

Claims (36)

1. A storage medium with a printed method of metallographic printing halftone image, which is made in the style of engraving, ie represented by irregular linear structures, and consists of repeating printed structural elements, characterized in that the structural elements are at least partially superimposed on small structures present within the structural elements in the form of white spaces. 2. The storage medium according to claim 1, characterized in that the structural elements are lines. 3. The information storage medium according to claim 2, characterized in that the small structures are formed by continuous or discontinuous sections extending along the midline of these lines, at the edges of which the contour contiguous, bounding them, is almost completely preserved. 4. The storage medium according to claim 2, characterized in that due to the superposition of the fine structure on the line, their ends are reproduced as having a cirrus or fringe appearance, or one line is divided at least in some of its sections while maintaining its original width into several spaced apart from a friend, mostly parallel to individual thinner lines. 5. The storage medium according to claim 1, characterized in that the structural elements are mutually intersecting lines. 6. The storage medium according to claim 5, characterized in that the small structures are formed by unsealed sections of lines. 7. The storage medium according to claim 5, characterized in that the mutually intersecting lines have gaps in the place of their intersection in the form of white spaces. 8. A storage medium with a printed method of metallographic printing using a grayscale image, which is made in the style of engraving, i.e. represented by irregular linear structures, and consists of repeating printed structural elements, characterized in that the structural elements are at least partially superimposed by small structures by which these structural elements are interrupted by signs or symbols printed in black and white. 9. The storage medium according to claim 8, characterized in that the structural elements are lines. 10. The storage medium according to claim 1 or 8, characterized in that the small structures are formed by text labels, alphanumeric characters, logos, symbols, geometric shapes, or combinations of such elements. 11. A storage medium according to any one of the preceding paragraphs, characterized in that the small structures are reproduced in the form of an eversion image, i.e. in the form of white spaces on a sealed background, and in the form of a positive image. 12. The method of converting the original image into the printing elements of the printing plate for metallographic printing, namely, that a) prepare the first digital graphic data presented in the form of pixel data on which the original image is decomposed, and describing this original image, b) the original image is presented in a form that is accessible for visual perception based on the data of its pixels, c) create irregular linear structures, while the contours and halftones in different parts of the original image are reproduced by various linear structures based on the operator’s commands, d) information about the created linear structures is stored in the form of the second digital graphic data describing them in a vector graphic format, e) individual lines of linear structures, if necessary, are processed while maintaining the processed second graphic data and f) on the basis of the processed second graphic data, a precision engraving device is controlled by performing recesses corresponding to the linear structures on the surface of the printing blank for metallographic printing. 13. The method according to p. 12, characterized in that when processing in stage e), a fine structure is at least partially imposed on the lines, by which these lines are interrupted by individual signs or symbols reproduced in the form of a positive image. 14. The method according to p. 12, characterized in that when processing at stage d) on the line or place of their intersection at least partially impose a fine structure, which is reproduced within these lines or within their intersection in the form of an eversion image. 15. The method according to any one of claims 12-14, characterized in that when controlling the engraving machine in step e), the corresponding depth to which this line is engraved is calculated using software tools based on a given line width. 16. The method according to any one of paragraphs.12-15, characterized in that a certain engraving depth of a single line or group of lines is set by the operator. 17. The method according to any one of paragraphs.14-16, characterized in that at least one line is not continuous, but with a blank, not engraved middle line. 18. The method according to any one of paragraphs.14-17, characterized in that the mutually intersecting lines of their intersection are not engraved. 19. The method according to any one of paragraphs.14-17, characterized in that of the two mutually intersecting lines, one of them is completely engraved at the point of its intersection with the other line and thereby is continuous, and the other line is not engraved at this intersection of lines and thereby performing interrupted, as a result of which both of these mutually intersecting lines do not touch each other. 20. A method according to any one of claims 12-19, characterized in that a feathery or fringe appearance is imparted to one line in at least some of its sections. 21. A printing plate for metallographic printing, characterized in that it is made by the method according to any one of paragraphs.12-20. 22. The method of creating a graphic image consisting of irregular linear structures, which consists in the fact that a) prepare the first digital graphic data presented in the form of pixel data on which the original image is decomposed, and describing this original image, b) the original image is presented in a form that is accessible for visual perception based on the data of its pixels, c) create irregular linear structures, while the contours and halftones in different parts of the original image are reproduced by various linear structures based on the operator’s commands, d) information about the created linear structures is stored in the form of the second digital graphic data describing them in a vector graphic format, d) individual lines of linear structures, if necessary, are processed and f) a fine structure is at least partially superimposed on the linear structures, placing in this way within at least one line or within mutually intersecting lines of the image, which are represented as inverted images and whose contours stand out against the background of such lines, and the processed second graphic data. 23. The way to create a graphic image consisting of irregular linear structures, which consists in the fact that a) prepare the first digital graphic data presented in the form of pixel data on which the original image is decomposed, and describing this original image, b) the original image is presented in a form that is accessible for visual perception based on the data of its pixels, c) create irregular linear structures, while the contours and halftones in different parts of the original image are reproduced by various linear structures based on the operator’s commands, d) information about the created linear structures is stored in the form of the second digital graphic data describing them in a vector graphic format, d) individual lines of linear structures, if necessary, are processed and f) a fine structure is at least partially superimposed on the linear structures, interrupting at least one line in the form of signs or symbols represented as a positive image, and the processed second graphic data is stored. 24. The method according to PP.13, 14, 22 or 23, characterized in that the fine structure forms a text label, alphanumeric characters, logos, symbols or geometric shapes. 25. The method according to PP.12, 22 or 23, characterized in that for the preparation of these pixels in stage a), the original image is converted into digital form, while the original image is decomposed into separate pixel-shaped image elements for each such image element determine and store in memory its coordinates and its optical density value on a gray scale or the value of optical color density. 26. The method according A.25, characterized in that the conversion of the original image into digital form is carried out using a scanner, video camera or digital camera. 27. The method according to any one of the preceding paragraphs, characterized in that the pixelated image is subjected to retouching by electronic means. 28. The method according to any one of the preceding paragraphs, characterized in that in the process of retouching a digitally displayed and pixelated image, the contrast of at least some of its sections is changed. 29. The method according to any one of the preceding paragraphs, characterized in that the representation of the image in a form that is accessible for visual perception in stage b) consists in reproducing it on a monitor screen. 30. The method according to any one of the preceding paragraphs, characterized in that when creating linear structures in stage c), the shape and direction of the line are manually set by the operator using input tools that allow two-dimensional coordinates to be recorded. 31. The method according to p. 30, characterized in that the input means using a computer mouse, graphics tablet, trackball or joystick. 32. The method according to any one of the preceding paragraphs, characterized in that the linear structures during their creation and processing at stages c) and d) are presented directly and without delay in a form that is accessible to visual perception. 33. The method according to any one of the preceding paragraphs, characterized in that when representing linear structures accessible for visual perception, they are reproduced against the background of the original image reproduced on the basis of its pixel data. 34. The method according to any one of the preceding paragraphs, characterized in that when processing the lines in step e), their thickness is varied or the geometric shape of their ends is changed. 35. The method according to clause 34, wherein the ends of the lines give a semicircular, rectangular or pointed shape. 36. The method according to any one of the preceding paragraphs, characterized in that when processing the lines in stage d) they are thickened, thinned or curved.