RU2100207C1 - Printing method and apparatus - Google Patents

Abstract

FIELD: polygraphy. SUBSTANCE: method involves forming matrix defined by depressions in surface of gravure cylinder; filling depressions with ink; removing ink from depressions, which do not form pattern to be reproduced; transferring ink from depressions forming pattern onto carrier. Printing apparatus has device for filling all matrix depressions with ink and device for withdrawing ink from depressions which do not form pattern to be reproduced. EFFECT: increased efficiency, simplified construction and improved reproduction of patterns. 5 cl, 4 dwg

Description

 The invention relates to printing devices for means for printing both the simplest and highly artistic printed products on media of various types.

 A known printing method, which consists in placing the medium between the plate and the printing cylinder, applying the image from the ink to the plate cylinder and transferring it to the carrier [1] In the known method, a relief is formed in the plate cylinder, which is the image to be reproduced, which is to be reproduced, fill this relief with paint and transfer it to the carrier directly or first transferring it to the surface of the cylinder coated with a rubber fabric.

 The disadvantage of this method is that it is not suitable for printing operational information coming, for example, from a computer, since in accordance with the known method for reproducing each new image, it is necessary to change the relief on the plate cylinder.

 To implement the known printing method, the device described in the aforementioned patent is used, comprising a plate cylinder and a printing cylinder equipped with a drive for counter rotation, and an offset cylinder coated with a rubber fabric.

 The device also contains means for mixing the carrier between these cylinders and means for applying paint to the surface of the plate cylinder. To bring the known device into action, it is necessary to install plate cylinders with the image to be reproduced. In the process of rotation of these cylinders, the relief applied to their surface will be filled with paint and transferred to a moving medium.

 The disadvantage of such devices is the need for the reproduction of each new image to change forms to new ones, i.e. it is impossible to reproduce continuously changing images.

 The objective of the invention is the creation of such printing methods and a printing device for its implementation, which would allow reproducing a continuously changing image without changing the printing forms.

 The problem is solved in that in the printing method, which consists in placing the medium between the printing and printing cylinders, applying the image from the ink to the printing cylinder and transferring it to the medium, in accordance with the invention, a plurality of recesses are formed on the surface of the printing cylinder arranged in two groups mutually intersecting parallel rows forming a matrix, fill all the recesses with paint, remove the paint from those recesses that do not form the image to be reproduced and transfer the paint from the image the image of the recesses on the media.

 With this printing method, it is possible to create any image to be reproduced from a plurality of recesses covering the plate cylinder, transferring ink to the carrier only from those that together constitute the image to be reproduced at the moment.

 It is advisable that the recesses of the matrix are placed with each other in increments corresponding to a given resolution of the image to be reproduced.

 This embodiment of the method allows you to reproduce highly artistic images, the distances between adjacent colorful dots of which are small, and tends to the theoretically possible.

 The problem is also solved by the fact that in the printing device containing equipped with a counter-rotation drive plate and printing cylinders, means for moving the media between these cylinders and means for applying paint to the surface of the plate cylinder, in accordance with the invention, recesses are made on the surface of the plate cylinder placed in the form of two groups of mutually intersecting rows forming a matrix, with a step between the recesses corresponding to a given resolution of the reproduced The images, and that the recording apparatus is provided with means for removing ink from depressions that do not participate in the formation of a reproduced image.

 This embodiment of the device allows you to transfer paint only from those recesses of the plate cylinder, which are involved in the formation of the reproduced image, so that it is able to reproduce a continuously changing image.

 At the same time, it is advisable that the means for removing paint from the recesses of the plate cylinder contain a quantum light beam generator with a device for focusing it to the size of the area covering at the same time only one recess on the surface of the plate cylinder, and a device for its deflection along the rows of the matrix.

 This embodiment of the device will allow you to remove paint from the recesses of the matrix, located almost close to each other, i.e. create the image to be reproduced from the maximum possible number of elements.

 The invention is illustrated by a description of specific, but not limiting, embodiments of the invention, and the accompanying drawings, where in FIG. 1 shows the proposed printing method; in FIG. 2 a section through the floor of the line PP in FIG. one; in FIG. 3 a General view of the proposed printing device with direct interaction of the plate cylinder with the printing cylinder; in FIG. 4 is the same as in the interaction of the plate cylinder with the printing device of the intermediate cylinder.

 The best embodiments of the invention.

 The proposed printing method is as follows.

 The carrier 1 (Fig. 1) is placed between the printed 2 and plate 3 cylinders. On the plate package 3, the cylinder forms a lot of recesses 4, placed in the form of two groups of mutually intersecting parallel rows forming a matrix. When the shaped cylinder 3 is rotated, its recesses 4 are filled with paint 5 and removed from those recesses 4 that are not involved in the formation of the image to be reproduced. To remove paint from the indicated recesses 4, the light beam 6 of the quantum generator 7 is focused on these recesses. In accordance with the discovery of the "Light Hydraulic Effect") (diploma N 65 BI 19 for 1989) when the inside of the indentation 4 of the paint 4 is the beam 6 of the quantum generator 7, a shock pulse arises, as a result of which a drop of paint will fly out of this recess. As a result, the paint remains only in those recesses, the combination of which forms the image to be reproduced, and when the plate cylinder 3 rotates, it passes to the carrier 1, transferring this image to it.

 From the above description of the proposed printing method, it is obvious that it allows you to transfer any arbitrarily changing image onto the media without replacing the printing forms.

 To implement the proposed printing method, it is necessary to provide a scan of the light beam of a quantum generator over all recesses of the plate cylinder. This is done using the printing device shown in FIGS. 3 and 4.

 The proposed printing device (figure 3) contains equipped with a drive (not shown) for counter rotation of the mold 1 and printing 2 cylinders, means 3 for moving the carrier 4 between these cylinders and means 5 for applying paint to the surface of the plate cylinder 1, including a bath 6 s paint, a rotary drive roller 7 and a squeegee 8. On the surface of the plate cylinder 1 there are recesses 9 placed in the form of two groups of mutually intersecting rows forming a matrix, with a step between the recesses 9 corresponding to a given resolution lities of the reproduced image. The printing device is equipped with a means 10 for removing paint from the recesses 9 of the matrix, made in the form of a quantum generator 11 of the light beam 12 with a device 13 for focusing the beam 12 to the size of the area covering at the same time only one recess 9 on the surface of the plate cylinder 1 and a device 14 for rejecting this beam along the rows of its recesses.

 The plate cylinder 1 can interact with the printing cylinder 2 by means of an intermediate cylinder 15, the surface of which is covered with a rubber fabric.

 The proposed printing device operates as follows.

 When the plate cylinder 1 rotates, the recesses 9 on its surface are successively filled with rows of paint, the excess of which is removed with a squeegee 8. Beam 12 of a quantum generator 11 connected to a computer (not shown) sequentially scans the recesses 9 of each row of the matrix and, in accordance with a given program, remove the paint of those recesses that are not involved in the reproduction of the transmitted image. The helmet remaining in the recesses during further rotation of the plate cylinder I is transferred to the carrier 4, forming an image specified by the program on it.

 Similarly, the printing device operates in the interaction mode of the plate 1 cylinder with the printing 2 cylinder by means of an intermediate 15 cylinder. In this case, the colorful image from the matrix first goes to the surface of the cylinder 15, and from it to the surface of the carrier 4.

 The printing device is designed for printing without changing printing plates of various continuously changing printing products, including highly artistic ones.

Claims (5)

 1. The printing method, which consists in the fact that the carrier is placed between the plate cylinder with many recesses placed in the form of two groups of mutually intersecting parallel rows forming a matrix, and the printing organ, fill all the recesses with ink and transfer the image to the medium, characterized in that after filling all the recesses with paint, paint is removed from those recesses that do not form the image to be reproduced, and then the latter is transferred to the carrier.  2. The method according to claim 1, characterized in that the recesses of the matrix are placed with each other in increments corresponding to a given resolution of the image to be reproduced.  3. A printing device comprising a plate cylinder, a drive, a printing organ, means for moving a medium between the plate cylinder and the printing organ, and means for applying paint to the surface of the plate cylinder having recesses in the form of two groups of mutually intersecting rows forming a matrix, characterized in that it is equipped with a means for removing paint from the recesses not participating in the formation of a reproducible image, while the recesses on the surface of the plate cylinder are made in increments corresponding to depleting the ability of the reproduced image.  4. The device according to claim 3, characterized in that the printing organ is a cylinder, and the drive is configured to counter rotation of the plate and printing cylinders.  5. The device according to claim 3, characterized in that the means for removing paint from the indentation of the plate cylinder comprises a quantum light beam generator with a device for focusing it to the size of an area covering at the same time only one recess on the surface of the plate cylinder, and a device for deflecting it in rows matrices.

Images