DE2830061A1 - Laser colour light source - has individual laser, modulator and fibre bundle for each colour with projection lens to focus bundle output - Google Patents

Abstract

A laser light and optical fibre system is in close matrix form for exposing sensitised material with a colour emulsion. It is suitable for printing plate prodn. esp. of titles and advertising slogans. Each colour uses a separate optical fibre and the intensity is individually controllable. At the end of the fibre bundle is a lens to focus the colour produced. Each laser (1, 2, 3) has its own light beam (4, 5, 6) fed into a modulator (7, 8, 9), e.g. a Pockel cell, and into a polarising fiber (10, 11, 12). The output of each laser equipment is fed into a fibre bundle (131, 132, 133, and 141, 142, 143 and 151, 152, 153) so that each colour is formed as a matrix at the output of the bundle (16) for focussing by the lens (17).

Description

Password: multi-color fiber panel "

Arrangement for recording color images on light-sensitive color film material The present invention relates to an arrangement for recording color images on color photosensitive film material according to the preamble of claim 1.

In printing technology, it is desirable in various cases to use colored To have reproductions of originals that have already undergone color correction have been. A common case is that in order to perform a color correction, which is carried out in a reproduction process to be able to judge a colored one Trial image is produced. This is the case in printing technology when colored Advertisements, cover pictures or the like in the magazine printing before the final print should be judged.

Another application is with the so-called direct color engraving given, with the detour via scanning when engraving gravure cylinders Avoid color separations copied onto opal film and color corrected color images directly or want to scan color slides for the engraving.

In the DT-OS 20 24 183 a system for the production of polychromatic Image information has been described in cinema technology with the help of a camera Captures frame by frame and the color components R, G, B in the form of digital signals saves and records it again on color film with the help of a laser recorder.

This laser beam recorder has suitable beam sources for red, blue and green light, which refer to the characteristic of the spectral sensitivity matched to the color films used. The colored laser beams will be accordingly of the stored color separation signals that were previously converted from analog to digital have been subjected, intensity-modulated and directed to a point that is moved line by line over the photographic material, after which the recording a film advance is performed on one line. The deflection of the rays of light is usually carried out using rotating or tilting mirrors.

Such a rotating mirror arrangement is for example in DE-OS 24 07 839. Such deflection arrangements are complex, and since there are three Rays that have to be mapped onto a point and deflected is great precision and a high level of adjustment required.

The individual partial beams could be guided over the film one after the other, but this type of recording is very time consuming.

Such devices with deflection of the light beam are therefore used in printing technology, not used where good image quality is important.

In printing technology are used to produce color separations on film frequently so-called drum scanners are used, such as those described in U.S. Patent 3,885,244 are. With these devices, the original is clamped on a rotating scanning roller, optically-electrically by means of a scanning element which is axially attached to the scanning drum is passed, scanned and onto a likewise rotating drum, which contains the recording material, by means of an axially attached to the recording drum past recording organ recorded again. Between scanning and recording organ Corresponding color correction units are provided through which the scanned R, G, B signals are converted into ink signals mg, cy, ye, sw, which then each recorded individually in the form of color separations on the recording drum will.

The advantage of such devices is that the scanning and recording light source only be moved axially past the corresponding drums, which is a high Working speed allows and errors caused by deflection of the beam occur, avoids.

Such devices could be used to record color images instead of color separations by placing three punctiform provides colored light sources and brings them together to form a recording point. this but would have the disadvantage that the three colored light sources parallel to the recording drum would have to be led past and that there the three juxtaposed punctiform Exposure points would appear as a line structure within the Rarbbildss - ^. DenO It is already known for the recording of screened color separations, the recording light source not to be carried along for the exposure of the raster points, but via optical fibers image from a stationary light source onto the recording drum.

Such facilities are e.g. in DT-PS 19 01 101 and in DT-OS 21 07 738. With these facilities, grid points are parallel adjacent tracks recorded, with the size and shape of the grid point is determined by a defined switching on and off of the light beams.

Such arrangements are not for recording color images suitable as there is no direct switching on and off of the light sources for color images takes place, but an analog control must be guaranteed. Also join these arrangements have a line structure within the grid points, which at color image recording should be avoided.

The present invention is therefore based on the object of a To provide a recording device for color images, which is a fast line-free High reproduction quality color image recording is permitted.

The invention achieves this through the in the characterizing parts of claims 1 and 2 specified features.

Advantageous further developments of the invention are set out in the subclaims 3 and 4. The invention is described below based on Figures 1 to 4 described in more detail. 1 shows an embodiment of the recording unit, FIG. 2 shows a variant for generating the light beam, FIG. 3 shows a further example for the modulation of the light beams, Fig. 4a-4d examples of how the optical fibers the individual colors can be summarized.

Fig. 1 shows three laser beam generators 1, 2 and 3, their exiting Light beams 4, 5 and 6 are given to modulators 7, 8 and 9. The modulators are obtained through control lines 71, 81 and 91 through the original scanning and color signals subjected to color correction. Obtaining this Control signals are not described in detail because they are derived from the aforementioned US-PS 3885244 in connection with the DT-OS is known. The one in the DT-OS 2607623 signals obtained for controlling the color monitor can in the present case can be used to control the modulators, which in this patent application described color correction unit of the color correction unit described in the US patent corresponds to the modulators 7, 8 and 9, which are electrically controllable rotating crystals (Pockels cells), polarization filters 10, 11 and 12 are connected downstream, which, in conjunction with the rotating crystals, results in a modulation of the brightness the. Polarization filters exiting beam is effected. Of the The light beam emerging from the polarization filters is in each case through beam splitter arrangements 13, 14 and 15 in several partial beams 131, 132, 133 as well as 141, 142, 143 and 151, 152, 153 split. In this case, the beam is split by partially transparent ones Mirrors 134, 135, 136 and 144, 145, 146 and 154, 155, 156. Instead of this mirror arrangement other beam splitters can also be used, e.g. acousto-optical deflectors, which is driven with an ultrasonic wave with several discrete frequencies Each partial beam is split into a single optical fiber of a fiber bundle 16 coupled, the ends of the fiber bundle 16 are combined and in such a way sorted, as will be described later as examples in FIGS. 4a to 4d. In This is only shown schematically in FIG.

The light rays emerging from the fiber bundle 16 are over a lens 17 to the matrix 18, which for the sake of simplicity is shown as a rectangle is shown.

FIG. 2 shows an arrangement similar to FIG. 1, but in which Instead of the continuous wave laser with downstream modulators and polarizing filters, they can be modulated Lasers 1 ', 2' and 3 'are used.

In Fig. 3, a variant of the invention is shown in which the Modulators arranged in the individual partial beams created by the beam splitting are. For the sake of simplicity, there is only one beam splitter unit 13 with the partially transparent ones Mirrors 134, 135 and 136 shown. The partial rays emanating from the mirrors 131 ', 132' and 133 'go to modulators 137, 138 and 139, which can be of the same type as the modulators 7, 8 and 9. The modulators polarization filters 1371, 1381 and 1391 are connected downstream, which the polarization filters 10, 11 and 12 of FIG. 1 correspond. The output beams of the polarizing filters are coupled into the optical fibers 131, 132 and 133 as in FIG.

The use of the laser for the above examples allows due to the high energy density of the laser with high recording speed to work. The appropriate choice of the laser beam wavelengths also allows to address the appropriate color layers in the color material. You can make this claim meet when laser beams with wavelengths between 430 and 450, 530 and 550 as well as between 630 and 650 fnm are available. The lasers used are helium, Neon, krypton, argon, helium-cadmium lasers.

The combination of the partial beams for the recording - in the simplest way Case three partial rays per color - is advantageously done so that they one result in a square arrangement, with three optical fibers forming the edge of a square represent.

For each row and column of this square, i.e. matrix of fiber ends, each of the three colors is represented once. This ensures that the colored Images of the color separations can be exposed into one another at the same time without a line structure occurs.

FIGS. 4a to 4d show typical structures for such point matrices, whereby in individual cases the matrix can be rotated as a whole or the individual ones Optical fibers are nested with an offset to one another in the manner of a rhombus can, as shown in Fig. 4d.

4a and 4b show examples of square arrangements of 3 x 3 partial beams, where the letters R, G and B are the colors red, green and blue mean.

The present invention is not limited to 3 x 3 optical fibers, Fig. 4c shows an example for 3 x 4 fibers.

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Claims (4)

Password: "Multicolor fiber screen" claims r arrangement for Recording of colored images on light-sensitive color film material by means of several individually intensity-modulated on the material to be exposed Light beams of different colors generated by several laser beam generators are generated with different emission wavelengths, characterized in that that in the beam path of the modulated light rays of the individual colors each means for splitting the beams into several partial beams are arranged that for each Partial beam an optical fiber is provided into which the partial beam can be coupled is, and that the ends of the optical fibers of all colors are combined and that between the gathered ends and the color film material provide optics for imaging the Ends of the optical fibers is provided. 2. Arrangement for recording colored images on photosensitive Color film material by means of several merged on the material to be exposed individually intensity-modulated light rays of different colors, which from several Laser beam generators with different emission waves are generated, characterized in that in the beam path of the laser beam generators Means for splitting the beams into several partial beams are arranged that Arranged in the individual partial beams modulators for the brightness of the partial beams and that an optical fiber is provided for each modulated partial beam, into which the partial beam can be coupled that the optical fibers of all colors summarized and that between the combined ends of the optical fibers and optics are provided in the color film material for imaging the ends of the optical fibers is. 3. Arrangement according to claim 1 or 2, characterized in that each Color split into three partial beams and the optical fibers into a square Matrix are summarized, with three optical fibers representing the edge of the square and each of the three colors is represented once in each row and column of the matrix. 4. Arrangement according to claim 3, characterized in that the fibers are arranged overlapping in the manner of a rhombus.