RU2082615C1 - Printing machine - Google Patents

Abstract

FIELD: printing machines. SUBSTANCE: printing machine uses printing plate in the form of net, means for application of printing ink onto plate, and means for selective forcing of printing ink through net cells and its transfer onto surface of printed matter. Net is made for filling of all its cells with printing ink, and means for selective forcing of printing ink through net cells is made as a light beam laser with device for its focusing to the size of net cell, and device for deflection of this beam by cell rows. EFFECT: improved design. 3 cl, 2 dwg

Description

 The invention relates to printing devices. More specifically, the invention relates to means for printing various printing products, both simple and highly artistic.

 Known printing machines containing a printing form in the form of a stencil deposited on a grid, means for applying ink to the form and means for forcing ink through the through cells of the stencil and transferring it to the surface of the printed material. In a known printing machine (Japanese application N 55-34970, class B 41 M 1/12, publ. 11.03.80, N 53-108988), the printing form is made in the form of a grid coated with a layer of photosensitive emulsion, which when exposed through a photoform under the action of UV radiation is duplicated in areas of gaps to be filled. Unbroken portions of the emulsion are washed out. The blown-out emulsion is subjected to curing by heat treatment and coated with a special composition for protection against acids or alkalis. In the printing process, ink is applied to the mold, which is squeezed through the open cells with the squeegee and transferred to the paper. After printing is completed, the doughed layer is removed from the grid, which is again covered with a photosensitive emulsion for the manufacture of the next stencil.

 The disadvantage of such machines is the need to produce and assemble a printing form for printing each run. This process is not only long in itself. The current situation in printing is characterized by small circulations of publications, as a result of which the time it takes to prepare the machine for work becomes comparable with the time of printing itself, i.e. expensive equipment is used inefficiently.

 The objective of the invention is to create a printing machine, which immediately after printing of the previous edition could start printing the next edition without replacing the printing form.

 The problem is solved due to the fact that in a printing machine containing a printing form in the form of a grid, means for applying ink to the form and means for selectively punching through the grid cells and transferring it to the surface of the printed material, the grid is configured to fill all its cells with ink, and the means for selectively forcing paint through the mesh cells is made in the form of a quantum light beam generator with a device for focusing it to the mesh cell size and a device for deflecting this beam in series I will give cells.

 In addition, the task is solved due to the fact that the quantum light beam generator is equipped with a beam diameter modulator to expand the zone of simultaneous beam coverage of the mesh cells, and the machine is equipped with a means for forcing the shape mesh cells to be cleaned of ink not transferred to the surface of the printed material after completion of one light beam sweep cycle.

 With this embodiment, the machine does not need to change the form, working out the program directly from the computer, allowing you to get printing products with gradations of color in a wide range. In addition, the machine completely eliminates overflow with paint of mesh cells of the form, not used in one printing cycle.

 Figure 1 schematically shows a printing machine; in Fig.2 a fragment of a grid with cells from which paint is knocked out by a ray of a quantum generator.

 As shown in FIG. 1, the proposed printing machine comprises a plate cylinder 1, made in the form of a grid with cells 2, and a printing cylinder 3, between which the paper web 4. is moved. The plate cylinder 1 is connected to the ink tank 7 by means of rollers 5 and 6. Inside the cylinder 1 there is a slotted nozzle 8 through which compressed air is supplied. Inside the cylinder 1 there is also a means 9 for selectively forcing paint through the mesh cells 2, made in the form of a quantum generator 10 of a light beam 11 with a modulator 12 of the beam diameter, with a device 13 for focusing the beam 11 to the size of the mesh cell and a device 14 for deflecting this beam along rows of its cells 2.

 The proposed printing machine operates as follows.

 From the drive (not shown in Fig.), The plate cylinder 1, the printing cylinder 3, the rollers 5,6 rotate in the direction of the arrows, the paper web 4 moves and the air is forced into the nozzle 8. By means of the rollers 5, 6, the paint from the container 7 is applied with a uniform thin layer onto the grid of the plate cylinder 1, filling its cells 2. The light beam 11 of the quantum generator 10 is focused, rotates in a horizontal plane along a number of cells 2 of the grid of the plate cylinder 1, and, in accordance with the program, knocks out the paint in each of its rows, which P transferred to the paper web 4. Paint is knocked out in accordance with the discovery of the “Light-hydraulic effect (diploma N 65 BI N 19 for 1969) when a light beam of a quantum generator is absorbed inside the liquid, resulting in a shock pulse. Figure 2 shows a fragment of the form mesh cylinder 1, from which the paint is knocked out from cells 2. Cells 2 of the plate cylinder 1, from which the paint is not transferred to the canvas 4 after passing through the scanning zone of the light beam 11, are forcibly released from the paint by blowing them with compressed air from 8 la.

 The shape of the proposed printing machine does not have to be cylindrical. It can also be, for example, flat and perform reciprocating movements relative to the beam being developed across it.

 The shape can also be fixed, and the beam of a quantum generator can turn around its entire field.

 The proposed printing machine can also print multicolor products. To do this, it must contain several of the printing sections described above, and the paper web 4 will move sequentially between the cylinders 1 and 3 of these sections.

 The printing machine is designed to print various printing products, both simple and highly artistic.

Claims (3)

 1. A printing machine containing a printing form in the form of a grid, means for applying ink to the form and means for selectively forcing ink through the grid cells and transferring it to the surface of the printed material, characterized in that the grid is configured to fill all its cells with ink, and the means for selective forcing paint through the mesh cells is made in the form of a quantum light beam generator with a device for focusing it to the mesh cell size and a device for deflecting this beam in a row m cells.  2. The machine according to claim 1, characterized in that the quantum generator of the light beam is equipped with a modulator of the diameter of the beam to expand the zone of simultaneous coverage of the grid cells with the beam.  3. The machine according to claim 1, characterized in that it is equipped with a means for forcibly cleaning the cells of the form mesh from ink that has not been transferred to the surface of the printed material after the completion of one cycle of scanning the light beam.

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