SU946993A1 - Method of reproduction by printing of codeded images - Google Patents

Description

(5) METHOD OF PRINTING REPRODUCTION OF CODED IMAGES

The invention relates to printing specifically for printing stereoscopic images. A method is known that includes reproducing an original with a coded image to produce printed impressions and conducting a control to determine the correspondence of line codes of a coded image with a linear scale of Cl and 2. The method does not allow controlling the accuracy of transmission of linear dimensions of coded images to separate stages of its printing reproduction, since the reproduction and printing of coded images and whether Neural scales are produced separately, which negatively affects the quality of stereo images. The purpose of the invention is to increase the graphic accuracy of the reproduced encoded images. This goal is achieved by the fact that in the method of printing reproduction of coded images, including the reproduction of the original with a coded image to produce printed impressions and control to establish compliance with linearature lines with a linear scale, before reproducing a linear scale is placed around the perimeter of the coded image of the original and then combined reproduction, and the control is carried out by using a lens raster, which is combined with a linear scale repr rendered images. In this case, a lenticular raster with an increased line width is used to measure the magnitude of the deformation of the encoded image. FIG. Figure 1 shows the layout of the linear scale along the perimeter of the coded image on the printed impression; in fig. 2 shows the layout of the return copy of the linear scale and the lenticular raster in the raster holder of the stereo camera to expose the linear scale and the coded image on the same photo layer separately using masks; in fig. 3 frontal projection of masks. The method is carried out as follows. The linear scale 1 of the specified step is exposed on the photofiber layer together with the coded image 2, located along the perimeter of the latter. Then, the encoded image and the linear scale are reproduced to consistently produce color separations of negatives, raster transparencies, printing forms and printing impressions 3. The linear dimensions of the encoded image are controlled at all the above described technological stages by aligning the lenticular raster with the linear scale. To determine the accuracy of the alignment of inks when printing coded images, a linear scale is printed sequentially by overlaying all the inks used. The control is carried out by overlaying the lens raster on the printed linear scale. To place a linear scale along the perimeter of the coded image, a reverse copy of the linear scale, which is placed in the focal plane of the raster so that its lines are parallel to the raster lenses (Fig. 2), is fixed in the rastro holder of the stereo camera device together with the lens raster. When producing a primary stereoscopic image, separate exposures are made on the same linear layer and coded image layer, for which masks and 5 are used. Mask 4 is used when exposing a linear scale and mask 5 is used to record an encoded image. The width of the opaque scale line is 0,, 0 + mm, which corresponds to the width of the coded image element, and the linear scale pitch is chosen so that, when combining the linear scale with the lens raster, to obtain the specified mismatch of the number of lines, . The linear scale is then reproduced with a coded image for color separations of negatives, raster transparencies, printing plates and 9 printed impressions. The linear dimensions of the coded image at all stages of its reproduction are monitored by the number of moire strips based on the measurement by appropriately combining the lenticular screen with the linear scale. When ensuring the transmission of the encoded image without distortion, the number of moire bands on the basis of the measurement and the nature of their distribution should not change. When the carrier of the coded image (film, printing plate, paper) is deformed, the linear scale will deform, which leads to a change in the number of moire strips based on the measurement (for example, 9 or 11) when the lens raster is aligned with the linear scale. The change in the number of moirés on the basis of measurement characterizes the magnitude of the transverse deformation, which can be determined from the ratio d8 (). Lr.R., (where dB is the absolute amount of deformation based on the measurement; k is the calculated number of moire bands on the basis of the measurement; the number of moire 1 on the base of the lens raster. Formula (1) also allows you to determine the sign of the deformation. For example, if the formation of a differential moiré t, for K KO, the deformation is positive and for K K - is negative. To ensure a given accuracy in measuring the strain of a coded image, a lens raster with a lineature of twice the lineature of a drawing lens raster is used, since the tolerance for changing the linear dimensions of the coded image must not exceed the value of TsLL-Rqe 1.-other step of the drawing lens raster Next, a linear scale is printed by successive overlapping of all inks used to create a stereoscopic color image. Ink control during printing is done by aligning the lens

raster with printed linear scale.

In the case of inaccurate combination of colorful images on the moire stripes, colored contour lines will appear corresponding to the color of the paint that is not aligned. Since the lens raster has a large selective ability, it increases the width of the minimum misalignment strip to the step size of the control lens raster. The lens raster pitch in this case corresponds to the pitch of the drawing lens raster, which allows to determine the magnitude of the non-displacement on a linear scale and to check the presence of color contours on the encoded image itself. Inaccuracy of alignment is quantified by the width of the color outline. For example, if the selectivity of the control lens raster is 0.02 mm, the discrepancy of colors by the same amount increases to the width of the pitch of the lens raster, a mismatch of 0.04 mm is observed for two lenses, etc.

The proposed method allows to reproduce and print a coded image with the control of its linear parameters at all stages of the technological process, namely: in the manufacture of color separation negatives, raster transparencies of printed forms and printed impressions. This creates the possibility of choosing the optimal modes of certain stages of the technological process, which ensures the required accuracy of reproduction of coded images by means of printing.

Claims (2)

1. A method of printing reproduction of coded images, including reproducing an original with a coded image to produce printed impressions and conducting a control to establish conformity of lineiatures with a linear scale, characterized in that, in order to increase the graphic accuracy of reproduced images by performing control at all stages of technological process, prior to reproduction, a linear scale is placed around the perimeter of the coded image of the original, and removed by using a lenticular sheet, which is combined with the linear scale reproduced image. 2. A method according to claim 1, characterized in that a lens raster with an increased lineature is used to measure the magnitude of the deformation of the encoded image. Sources of information taken into account in the examination 1. N. Sinkov. Technologists of manufacturing photomechanical printing plates. M., Book, 137. 2. US patent number 3 20663, cl. , 19b9 (prototype). I shshshsh J xrzD / J .z ) 2 . Fi / g. J