• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Verfahren zum Gravieren von Druckformen unter Verwendung von gerasterten Vorlagen mittels eines im Fokus verstellbaren Abtastsystems. Das vom Abtaster gelieferte Signal steuert nach Verarbeitung in einem elektronischen Rechner ein Graviersystem. Zur Abtastung von gerasterten Vorlagen wird das Abtastsystem unscharf gestellt, und der dadurch entstehende Verlust an Bildinformation wird durch elektronische Unscharfmaskierung kompensiert.
    公开号:SU1614755A3
    申请号:SU813261935
    申请日:1981-03-20
    公开日:1990-12-15
    发明作者:Бенито Сциарретта Бенито
    申请人:Др.-Инж.Рудольф-Хелль Гмбх (Фирма);
    IPC主号:
    专利说明:

    The invention relates to methods of engraving printing plates and can be used when reading screened originals.
    I
    The purpose of the invention is to improve the quality of engraving.
    Figure 1 shows the scheme of the device for the implementation of the proposed method; FIG. 2 shows the illumination and sweep reading systems; in FIG. 3 an additional device for increasing the contrast by means of electronic defocus masking.
    In Figures 1-3, the following designations are accepted: original 1, scanning reading cylinder 2, optoelectric scanning readout system 3, phototransducer 4, signal processing unit 5, control device 6, engraving tool 7, rotating copper cylinder 8, matching unit 9, 10 of the system 3 optoelectric scanning reading, light source 11, focusing optics 12, focus point 13, converting optical system 14, tilting mirror 15, specular surface 16, focusing optical system 17, photoconverting Spruce 18, bus bar 19 from the primary traffic channel and the amplifier stage 20.
    The device works as follows.
    Original 1 consisting of a rasterized layout that is used in
    offset printing or photosetting, is placed on a developmental reading cylinder 2 rotating at a constant speed around its longitudinal
     axis. The system 3 serves for the optical scanning reading of the original and is equipped with well-known means, (not shown), to bring the original 1 to the focus. Photoconversion 4, for example, a photomultiplier
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     SP
    ate

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    It is designed to convert the light signal reflected from the original 1 into an electrical signal, this electrical signal reproducing the brightness of the reflected light. The signal processing unit 5 processes the electrical signals received from the photovoltaic converter 4 and transmits them to an electromagnetic device.
    . 6, which serves to control the engraving tool. The engraving depth, which is created by the engraving tool 7, depends on the amplitude of the electrical signal received from the control unit 6 and, consequently, on the brightness of the reflected light signal from the block 5. The printed form itself is obtained by engraving. A rotating copper cylinder 8 mounted on the same axis as the development cylinder rotates at the same speed
    : As a development cylinder, and engraving tool 7 engraves in 25
    : copper surface printed elements,
    which, when printed, take in the ink and transfer it to the paper.
    If system 3 is precisely focused at focus 13. Photovoltage converter 4 receives light reflected from the original through converting optical system 14. The system defocusing is done by changing the distance of the scanning head from the original by f 1.25 mm. The step of masking the defocus is added to the stage of the normal sweep reading to compensate for the loss of image information due to the defocus.
    20
    Fig. 3 shows a device for improving contour reproduction, i.e. image sharpness, which can be additionally provided inside the head of the Z. system. On the path of the rays between the system 14 and the photovoltage converter 4 there is a perforated inclined mirror 15, which has a deposited grain around the perforation (hole). This layer is wide enough to read the vicinity of the reading focus 13. The light reflected from the mirror surface 16 reaches another Focusing Optical
    ; ™: IT-: L E - e.
    s- .. i -i-v-x JCl
    Ginal 1 on the corresponding raster: the engraving tool 7 causes the appearance of moire.
    : The proposed method envisages one more step before the stage of unfolding reading of the original — defocusing of the original. Thus, the optoelectric reamer reading system 3 must be defocused near the exact focus, respectively, of the original being used, i.e. in accordance with the original length.
    The preferred value for the defocus amount of the system from the exact focus position is about 1.25 mm. This length corresponds to about 1 1/4 turn of the adjusting screw (double arrow A) to set the focus in the engraving tool.
    The entire reading head can be moved with a change in the relative distance to the sweep.
    In the housing 10 of the system 3, which is often referred to as the scan head, there is a source 11 of light, the light from which is focused through the focusing optics 12 on the original 1 exactly
    35
    40
    .15
    50
    55
    bodies 18, and the output signal of the converter 18 together with the output through the bus J9 from the main information channel, i.e. from the output of the photovoltage converter 4, the retracted signal is fed to the amplifying stage 20, which forms one difference signal from both signals. This differential signal is then supplied along with the main signal, i.e. with the output of the photovoltaic converter 4, at block 9, in which the differential signal of the stage (stage 20) is again superimposed on the main signal.
    The applied rasterized opnrfins can be transparent raster films that are mounted on a white spreading drum, or photographic paper on the exposed rasterized layouts.
    The advantage of the invention is the ability to read screened originals in the presence of screened offset color separations, combining them directly for intaglio printing.
    The use of the invention improves the quality of engraving.
    to
    (s 14755l
    ke focus 13. Photovoltage 4 through the converting optical system 14 receives the light reflected from the original. The system defocusing is done by changing the distance of the scanning head from the original by f 1.25 mm. A masking defocusing step is added to the normal scanning readout stage to compensate for the loss of image information due to the defocusing.
    Fig. 3 shows a device for improving contour reproduction, i.e. image sharpness, which can be additionally provided inside the head of the Z. system. On the path of the rays between the system 14 and the photovoltage converter 4 there is a perforated inclined mirror 15, which has a deposited grain around the perforation (hole). This layer is wide enough to read the vicinity of the reading focus 13. The light reflected from the mirror surface 16 reaches another Focusing Optical
     e.
      e.
    35
    0
    15
    0
    five
    bodies 18, and the output signal of the converter 18 together with the output through the bus J9 from the main information channel, i.e. from the output of the photovoltage converter 4, the retracted signal is fed to the amplifying stage 20, which forms one difference signal from both signals. This differential signal is then supplied along with the main signal, i.e. with the output of the photovoltaic converter 4, at block 9, in which the differential signal of the stage (stage 20) is again superimposed on the main signal.
    The applied rasterized opnrfins can be transparent raster films that are mounted on a white spreading drum, or photographic paper on the exposed rasterized layouts.
    The advantage of the invention is the ability to read screened originals in the presence of screened offset color separations, combining them directly for intaglio printing.
    The use of the invention improves the quality of engraving.
    Figg
    fi,
    权利要求:
    Claims (1)
    [1]
    Claim
    The method of engraving printing plates, which consists in reading a rasterized original image by means of an optoelectric scanning readout system, obtaining a first electrical signal corresponding to the brightness of the original, obtaining a second electrical signal by adding a unsharp masking signal to the first signal, obtaining the third electrical signal from the first two signals by adding electrically converted rasterization signal and control of the third electric signal th engraving printing forms
    according to the first electrical signal, characterized in that, in order to increase the quality of engraving, between the first rasterized image signal and the added rasterization signal, before reading the rasterized signal, the opto system, 0 electric roll-out reading, is out of exact focus, and the resulting blurriness is compensated by adding an unsharp masking signal to the first sig, 5 nal, from the second signal obtained in this way is formed by adding The rasterization signal is the third signal to control engraving of the printing form.
    1614755
    16 I
    fig.Z
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    同族专利:
    公开号 | 公开日
    US4975784A|1990-12-04|
    JPS624232B2|1987-01-29|
    AT7633T|1984-06-15|
    EP0036548A2|1981-09-30|
    EP0036548A3|1982-03-17|
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    EP0036548B1|1984-05-23|
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    JPS56161167A|1981-12-11|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    FR997932A|1945-09-07|1952-01-11|Method and device for making imitation engraving clichés and resulting product|
    US2543393A|1948-12-31|1951-02-27|Publication Corp|Method of preparing intaglio printing plates|
    GB706689A|1950-06-19|1954-04-07|Gravure Entpr Inc|Photogravure printing surfaces|
    GB706688A|1950-06-19|1954-04-07|Gravure Entpr Inc|Photographically produced intaglio printing surfaces|
    US2691696A|1950-10-27|1954-10-12|Eastman Kodak Co|Electrooptical unsharp masking in color reproduction|
    DE1039842B|1957-08-14|1958-09-25|Rudol Hell Dr Ing|Process for the artificial increase of contrast on tone value cracks and contours in clichés to be produced by means of electronic cliché machines|
    US3024111A|1958-07-21|1962-03-06|Gravure Entpr Inc|Gravure|
    NL256633A|1959-10-09|
    DE1588313A1|1967-12-06|1970-12-10|Hell Rudolf Dr Ing Fa|Method for driving drum printing machines|
    CH608633A5|1973-07-09|1979-01-15|Toppan Printing Co Ltd|Halftone photoengraving method|
    GB1549714A|1975-05-12|1979-08-08|Ecrm|Making halftone reproductions|
    US4065788A|1976-02-09|1977-12-27|Mcdonnell Douglas Corporation|Realtime image processor|
    DE2805237C3|1978-02-08|1984-09-06|Dr.-Ing. Rudolf Hell Gmbh, 2300 Kiel|Arrangement to increase contrast|
    DE2805874C3|1978-02-11|1987-04-16|Paul 4300 Essen De Pfau|DE3116654C2|1981-04-27|1983-04-21|U.E. Sebald Druck und Verlag GmbH, 8500 Nürnberg|Process for producing a printing form for moiré-free gravure printing with sharply contoured lettering|
    JP2602305B2|1988-11-29|1997-04-23|凸版印刷株式会社|Gravure printing method|
    IL98004A|1991-04-30|1997-02-18|Scitex Corp Ltd|Apparatus and method for descreening|
    GB2296788B|1995-11-28|1997-03-12|Stonemate Ltd|Method and apparatus for image transfer|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE3010880A|DE3010880C2|1980-03-21|1980-03-21|Raster conversion process for engraving printing forms|
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