DE3615662C1 - Device for optically scanning documents - Google Patents

Abstract

A device for optically scanning transparent coloured documents (41) has a cathode ray tube (42, 43) which emits white light and the light of which scans the document (41) dot by dot. The light transmitted by the coloured document (41) is captured by fluorescent collectors (62, 63, 64) which are arranged stacked behind one another with narrow spacing and which cover the document (41) in the immediate vicinity on the side pointing away from the cathode ray tube (42, 43). The fluorescent collector plates (62, 63, 64) are provided at their edges with solar cells (67, 68, 69) for coupling-out the electrical video signal. <IMAGE>

Description

The invention relates to a device for optical Scanning templates with a polychromatic Light source through whose light the surface to be scanned is scanned point by point and in which the by variable properties of the surface in its intensity modulated light several for different colors sensitive fluorescent collectors that At least one solar on at least one edge have cell.

Such a device is from US-PS 43 71 897 known and has several rod-shaped fluores Zen collectors in a cylindrical mirror are arranged along a parallel to his Axial surface line an entry gap has, whereby the need for an Ab the template along lines parallel to the Entry gap results. Only a small part of that the entrance slit in the cylindrical mirror urgent light arrives after multiple diffuse Reflection to the fluorescent collector bars. As a result the imperfect light yield results in one Reduction of contrast and signal / noise reduction ratio, which in the known device only by higher light intensities or by slower down buttons can be compensated. Is constructive for provided higher luminous efficiency, the cylindrical To provide a mirror with a diameter around a Much larger than the diameter of the fluorescence is collector rods. However, this results in a high space requirement, since the depth of the known front direction at least the diameter of the cylindrical Mirror must match.

The invention has for its object a Vorrich tion of the type mentioned at the beginning, which it allowed colored templates with a high sig nal / noise ratio and good contrast quickly along to scan any scanning path, the Platzbe the light detector arrangement may be small.

This object is achieved in that the fluorescent collectors at a close distance behind plates are stacked one on top of the other close proximity to the one pointing away from the light source Cover the transparent template.

By designing the fluorescent collectors as stacked plates ensures that practically everything radiated into a half space Light reaches all three fluorescent collectors. The plate-shaped fluorescent collectors cover the entire half space from that of the template outgoing light is fulfilled.

The fact that the plate-shaped fluorescent collectors directly on the one pointing away from the light source Side of the transparent template arranged are, the light detector arrangement carries very little on. The space required on the detector side has one Height that is only slightly larger than the sum of the Thickness of the stacked fluorescence collector door panels.

In an advantageous embodiment of the Erfin are the plate-shaped fluorescence collectors each sensitive to red, green and blue light.  According to a preferred embodiment, the light source is Example of the invention a white light outside Ending cathode ray tube used.

The invention is based on one in one single figure comprehensive drawing shown Embodiment explained in more detail.

With the device shown in the drawing, an evaluation of colored templates, for example a slide 41 is possible, which is arranged in front of the screen 42 of a color monitor, which is schematically represented by a cathode ray tube 43 . The scanning movement of the electron beam 44 of the cathode ray tube 43 is carried out with the aid of a control circuit 45 , which in turn is connected to the output of a scanning controller 46 . The scan control 46 also controls via a coordinate bus 8 the address inputs of three read-only memories 54 , 55 , 56 , which are assigned to the output signals of three fluorescent collectors 62 , 63 and 64 and are location-dependent correction factors for feeding the second input of a multiplier 86 , 87 and 88 respectively hold. The first inputs of multipliers 86 , 87 , 88 are connected to the outputs of amplifiers 78 , 79 and 80 , respectively.

The white light produced on the screen 42 passes after passing rays of the slide 41 to the three series-connected fluorescent collectors 62, 63 and 64 which are closely adjacent in the immediate vicinity in front of the slide 41 and collect the colored by this way light passing through. The fluorescence collector 62 is designed so that it absorbs and converts only red light, the fluorescence collector 63 only green light and the fluorescence collector 64 only blue light. On the edge sides of the fluorescence collectors 62 , 63 , 64 arranged solar cells 67 , 68 , 69 are therefore the red portion, the green portion and the blue portion in the slide 41 associated with video signals. With the help of the stack consisting of the different colored fluorescent collectors 62 , 63 and 64 , it is therefore possible to evaluate colored slides. The signals from the solar cells 67 , 68 and 69 pass to the amplifiers 78 , 79 , 80 and from there to the multipliers 86 , 87 and 88 . The corrected video signals for red, green and blue are then available on lines 90 , 91 and 92 .

Claims (3)

1. Device for the optical scanning of templates with a polychromatic light source, the light of which the surface to be scanned is scanned point by point and in which the light modulated in intensity by the variable properties of the surface strikes several fluorescent collectors sensitive to different colors, which acts on at least one edge we have at least one solar cell, characterized in that the fluorescence collectors are closely spaced layers ( 62 , 63 , 64 ) which are in close proximity on the side facing away from the light source ( 42 , 43 ) and which are transparent cover the trained template ( 41 ). 2. Device according to claim 1, characterized in that the plate-shaped fluorescent collectors ( 62 , 63 , 64 ) are each sensitive to red, green and blue light. 3. Apparatus according to claim 1 or 2, characterized in that the light source is a white light emitting cathode ray tube ( 42 , 43 ).