• 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:

    公开号:SU1487825A3
    申请号:SU833652705
    申请日:1983-10-06
    公开日:1989-06-15
    发明作者:Eberkhard Khennig
    申请人:Hell Rudolf Dr Ing Gmbh;
    IPC主号:
    专利说明:

    The invention relates to devices for reproducing marks, can be used in the manufacture. The invention relates to devices for reproducing marks and the MSG · can be used in the manufacture of reproductions.
    The aim of the invention is to improve the image quality when reading the original.
    FIG. 1 shows a schematic of deployment principles; in fig. 2 .- distribution of the beam of optical fiber or photoelectric converters, respectively; in fig. 3 is a block diagram of a device when aperture is selected using a universal memory unit; in FIG. 4, tozhe, with the aid of several blocks of memory storing constants.
    FIG. 1-4, the following notation is used: system 1 deployment
    reproduction and allows to improve the image quality when reading the original. In the device, individual fibers of the corresponding bundle of light-guided fibers are supplied to individual photodetectors. Through the use of electronic switching means, the electrical output signals of these photodetectors are selected so that their combination is a diaphragm process. Through fast switching, you can change the time of the deployment process the geometry of the diaphragm and thus align the resulting reproduction with the data of the originals.
    2 p. ·:, And 2 c.p. fg-ly, 4 Il.
    WZ. „1487825 A 5
    the image, the node 2 of the original, the light guides 3, additional light guides 4, while the image deployment system 1 reproduces a partial image of the original on the face side > matched to each other.All the fibers ί to the 5 cores of the beam (in Fig. 2 are represented by hatching) arrive at the photodetector of light, the electrical output of which is supplied to the electrical point ku summation, in addition, in Fig. I4 also shows the photodetectors 6 and 7, the latter form a node of the photodetectors, electronic switches 8, switch 9, node 10 ;
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    2
    signal, the control inputs 11, 12 of the switch 9, the middle part 13 of the fiber. If the edge light guides 3 and 4 are divided into four quadrants 1-ΐν, then the four corresponding individual fibers 14 of each quadrant together are fed to one photodetector 6. With the same effect, their number decreases by 1/4 of the number of required photodetectors 6 and switches 8.
    FIG. 1-4 show a node 15 of photodetectors, a converter of 16 signals, blocks 17, 18 of memory, element 19, drive 20, elements 21 and a clock generator 22.
    The device operates as follows.
    For the deployment of unwritten halftone originals, edge luminaries 4 can advantageously be joined together for background deployment. The middle part of the beam acts as the main diaphragm. Thus electronic blurring is possible to increase the contrast.
    The unconnected portion of the middle part 13 of the optical fiber bundle may consist of one thick separate optical fiber or may be realized by means of a photoelectric converter (for example, a photodiode).
    The entire fiber bundle can also be replaced by appropriately arranged photoelectric converters (for example, diodes), as shown. in figure 2 '. The system 1 image deployment, made for this case, mainly. as a variooptic, it is then consistent with the increasing scale of the image areas to be developed with the actual magnitude of the arrangement of the diodes.
    A matrix-like arrangement of photoelectric converters with the properties of a memory unit can also serve as a photodetector (Figs. 3 and 4). A photoreceiver of this type has a large number of semiconductor elements of a regular structure that store the projected image as an image of charge carriers.
    If, as is usually the case for such structural elements, the state of the charges is polled
    separate image points in the period of a certain oscillator 22 and this sequence of analog brightness signals after conversion into digital form in the converter 16 is entered into the memory block 17, then it can be intermediately stored the image projected on the photodetector as an image of charge carriers. By external mounting of the universal memory unit, it is possible to determine which points of the image are evaluated while reading and which are not. Thus, a certain part of the accumulated part of the image can be electronically “diaphragmized”, and the “diaphragm” can be given the desired shape, size, and position in angle.
    This, as shown in FIG. 3, mo -... can, for example, be implemented by applying memory block 18, in the bit original of which the shape, size and position of the aperture angle are entered, i.e. intended for the evaluation of points accumulated in the block
    17 of the memory of the image. For clearer visibility, FIG. 3, the shape of the diaphragm is indicated schematically on the memory blocks 17 and 18. Data entry or reading from both blocks · 17 and 18 of memory, respectively
    as well as the node 15 of the photodetectors are controlled by a common clock T of the generator 22, this clock mainly reproduces the non-constricting operating cycle sensor, which is mounted on the same axis as the cylinder of the originals of the color separation or engraving machine. The encoding of the diaphragm memory block 18, which often changes during the deployment process, according to the formulation of the task, can be carried out using a co-driving control mask or also using a program memory block synchronized with the rotation and can be led to the memory block 18 via the explorer V.
    The output signals of the diaphragm block 18 of the memory and block 17 of the image memory are supplied to the element And 19, which only then outputs the output signal when both the blocks 17 and 18 of the memory give the corresponding signal.
    A variant of the one depicted in FIG. 3
    devices as presented on
    3
    Ή87825
    four
    FIG. 4, is the use as a diaphragm memory block of a number of other fast sampling data storage devices 20, in which various forms of the diaphragm are memorized, and through a number of elements And 21, corresponding to the current requirements, by yn ^. Equalizing signals on the conductors of the w / -B ,, are activated. In this case, the control signals and the clock can come from the same elements that make up the device according to FIG.
    15
    The use of the invention improves image quality when reading the original.
    权利要求:
    Claims (4)
    [1]
    Claims 20
    1o A device for reproducing marks, containing an original unit, a light guide, connected by outputs to the inputs of a photodetector unit, a switch 25 and a sum signal node, characterized in that, in order to improve the quality of the image when reading the original, it is equipped with the optical deployment system 30 of the original, it is equipped with optical image deployment system, additional light-guides placed along the generatrix of the outer contour of the main optical fibers, and additional photodetectors optically connected to the output s more optical fibers, the assembly of the original image through the optical system associated with the deployment ..os- inputs to the basic and additional light guides, wherein the photodetector output node and outputs the additional photodetector through a switch node connected to the input sum signal.
    [2]
    2. The device according to π, 1. About tl and -. that the node of photodetectors and additional photodetectors are made multi-input
    and optically connected to the outputs of the respective main and additional optical fibers.
    [3]
    3. A device for reproducing characters, containing the original unit, a photodetector unit, connected by an output to the input of a signal converter, a sum signal unit, and a clock generator, characterized in that, in order to improve image quality by memorizing image elements, it is equipped with an optical image deployment system, the And element and memory blocks connected to the inputs of the And element, the output of the clock generator is connected with the control inputs of the photodetector assembly and the signal converter, with the input of the first memory and the first input of the second memory block unit, the signal converter output is connected to the second input of the second memory block, the output of AND gate connected to the input node of total
    . signal, the node of the original through the optical system deploying the image is optically connected to the node of the photodetectors, and the sync output is connected to the control inputs of the first memory block.
    [4]
    4. The device according to claim 3, characterized in that the first memory block is equipped with AND elements and accumulators connected by outputs to the first inputs of the AND elements whose outputs are combined and are the output of the first memory block whose input is the interconnected inputs of the drives and the second The inputs of the AND elements are its control inputs.
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    类似技术:
    公开号 | 公开日 | 专利标题
    SU1487825A3|1989-06-15|Versions of apparatus for reproducing symbols
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    SE7812291L|1979-06-03|OPTICAL MULTIFAXIAL LENS FOR AN OPTICAL READING HEAD IN A FACSIMILE SYSTEM
    JPS61179740A|1986-08-12|Laser plate making apparatus
    IT8863254V0|1988-05-11|MODULE FOR AN ELECTROSTATIC PHOTO REPRODUCER.
    JPS63163418A|1988-07-06|Focus detecting device
    JPS57131177A|1982-08-13|Photoelectric converting device
    JPS6022879A|1985-02-05|System for controlling sensitivity of solid-state image pickup device
    JPS5458035A|1979-05-10|Image pickup device
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    JPS5994180A|1984-05-30|Picture inputting device
    JPS5379311A|1978-07-13|Solid image pickup unit
    JPS5394719A|1978-08-19|Removing system for defective picture element of photoelectric conversion pickup unit
    JPH04123331A|1992-04-23|Optical pickup
    JPH01223886A|1989-09-06|High resolution camera
    JPH03107130A|1991-05-07|Image pickup device
    同族专利:
    公开号 | 公开日
    AU1932683A|1984-04-12|
    CA1209486A|1986-08-12|
    DE3266409D1|1985-10-24|
    AU564737B2|1987-08-27|
    EP0105946A1|1984-04-25|
    JPS5999439A|1984-06-08|
    US4616266A|1986-10-07|
    EP0105946B1|1985-09-18|
    AT15740T|1985-10-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US2691696A|1950-10-27|1954-10-12|Eastman Kodak Co|Electrooptical unsharp masking in color reproduction|
    US3225329A|1963-10-30|1965-12-21|Control Data Corp|Optical logic reading machine|
    US3775559A|1970-11-12|1973-11-27|Xerox Corp|Aperture designs for facsimile scanning apparatus|
    US3991318A|1973-09-28|1976-11-09|Bell Telephone Laboratories, Incorporated|Optical detection systems utilizing organ arrays of optical fibers|
    DE2748266B2|1977-10-27|1979-12-06|Siemens Ag, 1000 Berlin Und 8000 Muenchen|Arrangement for optoelectronic scanning of a previous day|
    US4311357A|1980-09-08|1982-01-19|Raymus K. Payton|Annular scanning light pulse system|
    US4403258A|1980-11-07|1983-09-06|Ringier & Co., Ag.|Method and device for sequentially imaging an original|
    JPS6258590B2|1981-04-14|1987-12-07|Dainippon Screen Mfg|CA1255130A|1983-02-28|1989-06-06|William H. Taylor|Optical scanner|
    JPH0365710B2|1984-11-09|1991-10-14|
    US4721851A|1985-04-30|1988-01-26|Ricoh Company, Ltd.|Image reading device using fiber optic bundles configured differently at each end|
    DE3614888A1|1986-05-02|1987-11-05|Hell Rudolf Dr Ing Gmbh|OPTICAL ARRANGEMENT FOR LINEAR LIGHTING OF SCAN TEMPLATES|
    US5121445A|1986-07-01|1992-06-09|Konica Corporation|Method and apparatus for reading image|
    US4958218A|1987-12-16|1990-09-18|Canon Kabushiki Kaisha|Image processing method and apparatus with dot-processing|
    US4926267A|1989-05-26|1990-05-15|Nynex Corporation|Reproduction of halftone original with reduced moire|
    JPH0344372U|1989-08-31|1991-04-24|
    US4987496A|1989-09-18|1991-01-22|Eastman Kodak Company|System for scanning halftoned images|
    US5317523A|1990-10-18|1994-05-31|Texas Instruments Incorporated|Integrated reflective image sensor|
    DE4104467A1|1991-02-14|1992-08-20|Hell Ag Linotype|METHOD AND ARRANGEMENT FOR GENERATING SIGNALS THAT CORRESPOND TO THE INFORMATION CONTENT OF SCREENED IMAGES|
    DE4119563C2|1991-06-14|1996-05-09|Hell Ag Linotype|Device for scanning originals|
    US5515182A|1992-08-31|1996-05-07|Howtek, Inc.|Rotary scanner|
    JP3098448B2|1997-04-18|2000-10-16|日本電気ロボットエンジニアリング株式会社|Image input device|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    EP19820109373|EP0105946B1|1982-10-09|1982-10-09|Electrically controlled scanning apparatus and method for the moire-free scanning of raster copies|
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