SU1629209A1 - Device for manufacturing reproductions - Google Patents

Abstract

The invention relates to devices for the manufacture of reproductions, can be used in the printing industry and is intended to increase productivity. In the device, when receiving electrical signals corresponding to a color separations positive image, the image is projected onto a plate with photodiodes, the electrical signals from which, corresponding to the color separation optical image, enter the amplifier unit. The amplified signals are sent to the storage unit of the memory unit. From the storage nodes, electrical signals are simultaneously and separately fed to the inkjet process control unit, which regulates the operation of the ink-feeding apparatus of the inkjet-type printing unit. 7 il.

Description

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The invention relates to devices for the manufacture of reproductions and can be used in the printing industry.

The aim of the invention is to increase productivity.

FIG. 1 is a block diagram of a device for making reproductions; in fig. 2 is a view A of FIG. one; in fig. 3-5 are schemes for the entry of paints into the nozzles of a vertical row (respectively, second, third, thirteenth); in fig. 6 is a view B in FIG. one; in fig. 7 is a view of B in FIG. one.

The device contains a source of light for illuminating transparent originals, sources of light 2 and 3 for illuminating opaque originals, an original 4 having a frosted glass (not shown) for shooting transparent color originals (slides) with a color original 5 installed on it, lens 6 of the main channel with a carousel 7 color separation filters (Fig. 2). The device also contains a block of 8 photodiodes, lenses 9 and 10 additional channels with carousels 11 and 12 color separation filters (Fig. 2), while the lens 6 of the main channel serves to project the original 5 through a corresponding color separation light filter and sat down 7 color separation filters onto the plate with the photodiodes of the unit 8, and the lenses 9 and 10 are designed to project the image of the original through the respective color separation filters of the carousels 11 and 12 into the input windows of the television cameras 13 and 14 corresponding permanently. The television camera 14 is connected to the television projection unit 15 via the phase inverter 16 and the signal adder 17, and the television camera 13 is connected to the television projection unit 15 via the signal adder 17. The reflecting mirror 18 serves to direct the rays to the semi-transparent mirror 19 through the optical focusing unit 20 from a television projection unit 15 to a plate with photodiodes of unit 8, which is a dielectric material plate (for example, a textolite) in which in parallel rows on dinakovom rasoe th

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Standing 0.5–1 mm from each other, photodiodes (FIG. 7) of the same diameter equal to 0.5–1 mm are mounted, and the outputs of each photodiode are connected to an amplifier unit 21 consisting of many individual amplifiers (microcircuits) the number of which is equal to the number of photodiodes of the plate, designed to amplify the electrical signals generated by the action of light impinged on the photodiodes from the translucent mirror 19, having a single-channel (conducted) connection with the memory block 22, which consists of four separate memory nodes, employees to remember No information: nodes P (magenta) and F (yellow) - electrical signals corresponding to the color separations color-corrected positive optical image of the original, formed on the plate with photodiodes of the 8 magenta or yellow color unit, respectively, node G (cyan) - electrical signals corresponding to the color separation position1 .. the image of the original blue paint (highlighted blue paint does not require color correction), the node H (black) - electrical signals corresponding to the image of the original black color ki representing the sum of the three electrical signals from the outputs removed ies storage nodes F, D, F, the summation of which is effected by the adder 23, the signals of which three outputs coupled to three outputs of block 22 of memory (ie. E. The outputs of the storage nodes G, P, F), and its output - with the unit 24 controlling the process of inkjet paint application through the node E with single-wire connections; in turn, the storage units G, P., F are connected with the unit 24 of control by supplying paints also by a single-wire connection directly. The control unit 24 serves to control the inkjet-type printing unit 25 and regulates the supply of inks — cyan, magenta, yellow, black — to the nozzles 26 (only thirteen are shown in vertical rows, in a vertical row), in which the supply of liquid inks used for color synthesis is combined in one flow, and the nozzles are arranged in parallel rows similar to the arrangement of photodiodes on a plate with the photodiodes of block 8 (Fig. 6, the sizes of the nozzles entrance holes depend on their sizes), the paint-supply devices 27-30 serve for supplying blue, purpu yellow, black in the nozzles 26 of the printing unit 25. The position 31 denotes the material to be printed (for example, paper), and the position 32 denotes the paper guide.

Color separation filters in the device are lenses 6, 9 and 10 with corresponding optical carousels 7, 11 and 12.

After switching on, the device operates as follows.

For the manufacture of four-color reproduction, a blue color separation filter of the carousel 7 light filters is installed. The original 5 (for example, a slide), illuminated by the sources of light 1, is projected through this filter by the lens 6 of the main channel onto the plate with the photodiodes of the block 8. At the same time, the image

the original is projected by the lens 10 of the first additional channel, the main optical axis of which is oriented parallel to the main optical axis of the lens 6 through the green color separation

the light filter of the carousel of the 12 light filters into the input window of the television camera 14. In the television camera 14, the monochrome green optical image is converted into black and white and in the form of electrical signals goes to the phase inverter 16,

0 which converts these signals to inverse proportions (a positive image is converted to a negative). Then the converted signals are received in the adder 17 signals. At the same time, the image of the original is projected by the lens 9 of the second additional channel, the main optical axis of which is also oriented parallel to the main optical axis of the lens 6 through the corresponding color separation filter of the blue carousel 11,

0 into the input window of the television camera 13, in which the monochrome blue optical image is converted to black and white and enters the signal adder 17 as electrical signals. In the adder 17 signals from television cameras 13

5 and 14 are summed up and fed into a television projection unit 15. In a television projection unit 15, the electrical signals are converted into light signals and form on the reflecting mirror 18 an optic black and white mask image, which is projected by the node 20 and the semi-transparent mirror 19 on the plate with the photodiodes of block 8. On the plate of block 8 two optical images of the original and a mask are combined. Photodiodes

5 plates of the block 8. sample the colorized color-corrected optical positive image of the original yellow paint and convert the light energy into electrical energy, which in the form of electrical signals comes from each photo diode into the amplifier block 21. The amplified electrical signals are fed to the memory node W of memory unit 22, where they are recorded in its memory.

In the same way, electrical signals are obtained that correspond to the color5 divided color-corrected positive image of magenta ink, but in this case a green color separation filter of the carousel 7 light filters is installed when projecting the original image through the lens of the main channel, a red color separation filter of the carousel 12 light filters when projecting the original image through the lens 10 additional channel, green color separation filter roundabout 11 light filters when projecting the image of the original through the lens 9 of the second additional channel. The photodiodes of the plate of block 8 sample the color-separated color-corrected optical positive image of the original magenta ink and convert the light energy into electrical energy, which in the form of electrical signals comes from each photodiode into the amplifier block 21. Reinforced electrical signals go to the storage unit 11 of the memory block 22, where recorded in his memory.

When receiving electrical signals corresponding to the color-separation positive image of blue paint, a red color-separation filter of the carousel 7 of the light filters is installed and the image is projected onto a plate with photodiodes of block 8, electrical signals from which, corresponding to the color-separation optical image of blue ink, enter the amplifier unit 21. The amplified signals enter the storage node G of memory unit 22, where they are recorded in its memory.

Upon receipt of electrical signals corresponding to black paint, three electrical signals of nodes W, P and D are summed up using a signal adder 23 and fed to a memory node H of block 22, where they are recorded in its memory.

From the storage units G, P, F, H, electrical signals are simultaneously and separately fed to control unit 24, which controls the operation of the ink-jet apparatus 27-30 of the inkjet-type printing unit 25, determines the amount of each ink supplied — cyan, magenta, yellow, black nozzles 26. Then the electrical signals simultaneously and separately arrive at four pneumatic devices for cyan, magenta, yellow, respectively. and black ink of the printing unit 25, of which the ink at the same time in an amount corresponding to the incoming electrical signal enters the nozzles 26 (Fig. 3-5), where it is mixed, and then, from which it enters the printed material 31 advancing along the paper line guide rail 32.

The use of a device for the manufacture of reproductions reduces the time

to produce a four-color reproduction, to expand the possibilities of inkjet printing due to the simultaneous formation of a multi-color image, to increase productivity.

Claims (1)

Invention Formula A device for making reproductions containing an original holder, a light source, color separation filters, a photodiode unit, a printing unit with a nozzle system, hydrodynamically coupled to an ink supply unit and electrically connected to the corresponding outputs of the ink supply control unit, characterized in that, in order to improve performance it is equipped with additional light sources installed on one side of the original holder before the color separation 0 light filters, television cameras, a television projection unit, a phase inverter, signal accumulators, an amplifier unit, a memory unit and an optical system including a reflecting one 5 mirror, translucent mirror and optical focusing unit; the optical axis of the first color separation filter is centered relative to the original detector and the surface of the photodiode unit; the optical axis of the translucent mirror is located at an acute angle to the optical axis of the first color separation filter, the second and third color separation filters are located on both sides of the first color separation filter, and their optical axes are parallel to the optical axis of the first color separation with and are located on the optical axis of the respective television cameras, the electrical output of the first television camera is connected via a phase inverter to the first input of the first signal adder, the second input of which is connected to the electrical output of the second television camera, and the output connected to the input of the television optical unit, optically coupled through a successively positioned reflecting mirror and its optical focusing unit and a translucent mirror with the surface of the photodiode block; rows, which unit outputs via electrical amplifiers associated with the information 0 inputs of a memory unit connected by information outputs to the corresponding information inputs of the control unit and inputs of the second signal adder, the output of which is connected to the control input of the memory unit connected by the control output with an additional input of the control unit, the light source being connected to another original side. Bud A 2 Fm.z Fua FIG. five Vid 6 Vid