DE688439C - Process for producing halftone photographic images - Google Patents

Description

Process for producing halftone photographic images The present Invention relates to the known method, on one with photosensitive Lenticular lenticular sheet provided with a layer to produce a plurality of images by d.that you have the individual images through a taking lens or through a faded out Part of the same exposed, which differs from picture to picture relative to the lenticular plate relocated. This creates the lenticular lens plate behind each elementary lens a large number of separate pixels on the photosensitive layer, which come together to form an overall picture when played back.

Since the rays passing through the elementary lenses are the light-sensitive Do not enforce the layer strictly parallel, image impressions arise in this layer, which are the narrowest on the grid plate and which become larger as the layer thickness increases advertising. Since the individual image impressions in order to achieve as many pixels as possible are placed as close together as possible, becomes the practically usable number of images limited by the fact that the pixels are at least in the deeper parts of the photosensitive Overlap the layer and thus falsify the blackening reproduction.

Such an overlap of the image points is also used in color film technology perceived as annoying. It manifests itself in color falsifications. To compensate for this, the well-known proposal has therefore already been made to distribute the overlaps in such a way that that the color distortions caused are evenly distributed over all filter colors will. This goal is achieved in the copying process optically, namely by application of masks of a certain shape. A careful separation of the pixels finds therefore does not take place in the known method. But such turns out to be necessary if, as already mentioned above, a large number of pixels are behind each elementary lens of the lenticular lens plate is to be recorded. Since furthermore in the known optical compensation method, the degree of elimination of the overlaps neighboring pixels of the exact adherence to a certain layer thickness depends, there can be overlaps caused by unavoidable fluctuations in the layer thickness caused, not eliminated.

But this is the case with the present invention, which in a Process for the production of raster photographic image impressions consists in which the image impressions only on the parts of the light-sensitive parts adjoining the grid plate Be restricted to shift.

For the practical implementation of this inventive concept, there are numerous embodiments. For example, you can adjust the exposure from the start Make so weak that the light rays only in those adjacent to the grid plate Parts of the photosensitive layer give a photographic effect. To the the resulting, possibly very weak, differences in transparency between Increasing exposed and unexposed areas can be seen in photography use known various types of reinforcement methods. -Example is it is possible when using a silver halide emulsion as the photosensitive layer the developed silver particles through the accumulation of colored parts or through Conversion into colored inorganic or organic compounds into less transparent ones Changing bodies, when playing back you can still see the differences in transparency strengthen by converting the image impressions into a colored compound and shines through the grid plate with complementary colored light.

Another embodiment of the inventive concept consists in that by coloring the photosensitive layer and using a more or less complementary colored lighting affects the image impression on that of the Grid plate adjacent layers of the photosensitive material limited. In normal picture photography, this effect is known and is known as the dup effect used to produce any number of graduated positives from a negative.

Another embodiment of the inventive concept consists in that you first have a latent or developed image in the total depth of the photosensitive Layer generated and then this image recording in the one further away from the grid plate lying layer parts eliminated. Since these more distant parts of the layer are included the halftone photographic material close to the free surface of the photosensitive Layer, this removal does not cause any technical difficulties. For example the latent image can be layered by using a silver halide emulsion destroy by using oxidizing or halogenating compounds. On the other hand, a finished silver image can be obtained by means of known attenuation solutions remove layer by layer. By adding suitable diffusion-inhibiting compounds, such as neutral salts or dextrin, alcohol, etc., one can add to the attenuating solutions the speed of migration of the attenuating solution in the photosensitive Reduce the layer so that you have enough time to apply the desired effect To slow down the layer depth. For this one uses solutions that have the effect of the attenuator or the like, but these solutions: no diffusion-inhibiting agents added will. -The idea of the invention is explained schematically in the accompanying figures. Fig. Z shows on an exaggerated scale a bent grid plate with a cast photosensitive layer. Such bending occurs easily with the standard one Manufacture of grid plates by warping the material. Through this as well due to unavoidable irregularities in the application of the emulsion and in the drying process Different layer thicknesses arise at different points on the grid plates: The grid plate r has, for example, lenticular elevations on one side ä and on the plan side 3 the light-sensitive layer 4 .. Since the grid plate is depressed in the shape of a bowl, is the depth of the liquid poured light-sensitive Layer in the middle of the plate larger than at the edges - and accordingly the The thickness of the layer after solidification is also greatest in the middle of the plate.

Fig. Z shows, on a greatly enlarged scale, a fraction of a grid plate. The blackening of the layer corresponding to the individual image impressions is schematic shown as cone 5115b etc. As can be seen, the blackening penetrates one another cones in the parts of the light-sensitive layer facing away from the grid plate, as indicated in the heavily hatched triangles 6Q, 6b, etc., namely are the overlaps the stronger the greater the layer thickness is. As a result of irregularities in the layer thickness, the overlaps are the Image impressions in the individual plate areas of different strength, so that the finished Raster image has a certain blotchiness. Due to the restriction according to the invention the image impression in the layer parts adjacent to the grid plate is achieved that the overlaps are either avoided at all, or at least they are are reduced to such an extent that they are no longer noticeable in a disturbing manner.

Claims (3)

PATENT CLAIMS: i. Process for the production of halftone photographic Images in which a large number of pixels are behind each elementary lens of the grid is generated, characterized in that the image impressions on the grid plate adjacent parts of the photosensitive layer are restricted. 2. Procedure according to claim i, characterized in that the image impression is initially in the overall depth the photosensitive layer and then turned away in the grid plate Layer parts is destroyed again. 3. The method according to claim i and 2, characterized characterized, i.e., the image having a shallow layer depth by means of enhancement o. the like, is made more opaque. q .. method according to claim i to 3, characterized in that the image impression is converted into a colored image or is generated immediately in color.