DD140804A1 - DEVICE FOR PRODUCING CONTRAST-CONTROLLED COPIES OF PHOTOGRAPHIC PICTURES - Google Patents

Abstract

The device for producing contrast-compensated or Contrast enhanced copies is especially for photogrammetric Intended purposes. To avoid a cathode ray tube and the their inherent defects, the relatively large volume, the required aufv / endigen power supply, the low Light intensity for scanning the images and a necessary Imaging optics, become one for contrast control Liquid crystal matrix used. This is in the telecentric Beam path of a light source preferably emitting white light between a polarizer and an anaerist arranged and is partially increased in their light transmission. - Figure -

Description

Includes apparatus for making contrast controlled copies of photographic images

Field of application of the invention;

The invention relates to a device for the production of contrast-controlled copies intended for photographic, in particular photogrammetric, use of a light source of variable intensity generating light source, a scanned by the light beam photographic negative, a photosensitive layer, which is a light beam downstream of the negative and of the at least a part of the light beam reaches a photoelectric receiver.

Chara kteristik the known technical solutions ^ The known devices (Swiss Patent 345 797) for the production of copies that have no points of almost complete opacity or almost complete transparency, which are thus contrast-balanced, have a cathode ray tube for scanning a negative with the aid of a light beam and for controlling the intensity of the light beam. The use of a cathode ray tube generally acts trend of development korapendiöser devices entgegenV Apart from the size of the used cathode ray tube needs this for its operation a number of electronic devices such · B ₀ a high-

voltage part and power amplifier for the control, which represent a relatively high cost * In addition, "cathode ray tubes are generally not used for contrast compensation of color photography.

Finally, the amount of light available for color photography to scan the image is relatively low and in some cases insufficient

The cathode ray tube is regularly downstream of the Ge ₅ rates an imaging optics, which images the appearing on the screen of the cathode ray tube spot on the scanned image This imaging optics charged the devices constructive and in use and is the cause of unwanted influences on the scanned Lichtstrahlenbündelο In addition, an arrangement for multi-color display is known (BRD-OS 2 329 618), in which by the interconnection of nematic liquid crystal rotary units several colors with a high degree of effect • generated degree ', For contrast compensation this order and assignment of their not suitable for individual elements

Aim of the invention; '

The invention therefore seeks to obviate the stated shortcoming of a cathode ray tube, to simplify the construction of a contrast control device and to improve its function.

The object of the invention is to provide a universally uniform over the entire light spectrum training 30. Contrast control, which simultaneously high light intensities and short exposure times enabled by the application of a nematic liquid crystal matrix succeeds in treading a new path for contrast control «,

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According to the invention, this object is achieved in that between the light source and the image, in the vicinity of the image successively a polarizer, a liquid crystal matrix and an analyzer are arranged, that the light beam passing through the polarizer, the liquid crystal matrix and the analyzer is parallel-beamed and that photoelectric receiver, electronic control means for controlling the liquid crystal matrix depending on the transmittance of the image are assigned.

For the contrast compensation of color photographs, it is important that between the white light emitting light source and the liquid crystal matrix, a liquid crystal cell is arranged, which receives preselectable voltage values and even acts as a color neutral filter to compensate for different sensitivities of the photosensitive layer,

The liquid crystal matrix can be used by a digital photoreceiver matrix to produce not only contrast-compensated, but also contrast-enhanced color and black-and-white copies. "

The use of the liquid crystal matrix reduces the volume, heat and expense of power in a contrast control device. In spite of the polarizer and analyzer in conjunction with the liquid crystal matrix, a greater amount of light is available for contrast compensation than in contrast control devices using a cathode ray tube. Finally, the usable light source (halogen lamp) allows to significantly increase the light emission for short times in the copying process.

Execution date is: '^; The invention will be explained in more detail adjoining the schematic drawing.

Light beams 2 emanating from a light source 1 are directed parallel to one another by a concave mirror 3 and reflected to a polarizer 4. The polarizer 4 uniformly illuminated by the parallel-beamed white light beams 2 specifies the plane of oscillation of the light which leads to a liquid crystal matrix 5, whose light transmittance is partially changeable. "The liquid crystal matrix 5 is followed by an analyzer 6, which adjusts the polarization

The direction of the light entering in it, with the direction of rotation produced by it, compares to the analysis. Sator 6 are an original to be copied 7 and a photosensitive layer 8 in the copy plane downstream Here, the analyzer 6 is in one

ic, distance of only a few millimeters from the copying plane _e The original 7 and the photosensitive layer 8 x lie in the same plane, they are pressed by the simplicity means not shown to each other to a maximum resolution of the copy on the photosensitive layer 8 to "Behind the photosensitive layer 8 is located in .parallelen beam 2, a concave mirror 9 * which directed the light beams to a photoelectric receiver 10. An amplifier 11 'and a Lichtmengensummierer 12 and a column drive I3 ensure that the generated in the photoelectric receiver 10, The electrical signals proportional to the optical signals arrive as amplified and prepared signals as control information for the liquid crystal matrix 5 and partially change their transparency. The liquid crystal matrix 5 acts like a blurred mask on the original 7 to be controlled in contrast. The light source is connected via a switch 14 and a lamp control _o switched addition, the start of a frequency generator for • gate 17 is performed by the switch 14 via a delay element 16, whose pulses are not visible columns x ^, to _Xn of Flüssigkristallrnatrix

-5- 208 2.41

direct drive ,, By a divider 18 Tflird the generator clock in the ratio r · η · 1 divided and used the resulting impulse for a line driver. After the divider 18, the clock pulses are once again divided by a divider 20 in the ratio y · η: 'and the output signal of the divider 20 is used as a stop pulse for the clock generator 19. As a result, the entire process after the scanning of all pixels of the matrix is defined ended. By the feedback of the photoelectric receiver 10 with the liquid crystal array 5, it is possible to compensate for extreme differences in brightness in the original 7 during the copying process on the photosensitive layer or too low brightness differences in the original 7 make the copy clearer ".

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Claims (1)

Invention claim: Apparatus for producing contrast-controlled copies of photographic images, comprising a light source generating a variable intensity light beam, a photographic image scanned by the light beam, a photosensitive layer downstream of the image in the light beam, and at least a portion of the light beam onto a photoelectric Receiver, characterized in that between the light source and the • image in the vicinity of the image successively a polarizer, a Jtsiissigkristallmatrix and an analyzer are arranged, that the light beam passing through the polarizer, the liquid crystal matrix and the analyzer parallel beam and that the photoelectric receiver electronic control means are assigned to control the liquid crystal matrix as a function of the transmittance of the image * 19.O2.1979
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