DE701687C - Process for the production of multicolored copies - Google Patents

Description

Method of making multicolored copies The present The invention relates to a method for producing color photographic images, especially of three-color images, using a three-layer recording material and a copy material with three image layers that were already in place before exposure the three dyes required for image formation of cyan, magenta and may contain yellow color.

It is known that multilayer materials can be used for the recording of a multicolor image with pre-colored layers can only be used under special circumstances, namely then when each of the layers contains a dye that absorbs the light in the Layer to be recorded part color and also the light in those arranged behind it Layers to be recorded partial colors lets through. Do you want the in the recording material take up blue partial color separation in the first layer, it follows that this layer must be permeable to blue light rays, but otherwise also -dem green and red light must allow the passage into the deeper layers. There have already been used recording materials in which the front layer during the recording is colorless and is colored afterwards, while the second layer a yellow dye that acts as a filter and is used to build up the image later contains.

To the ones recorded on this known material and in colored Images converted images directly without the interposition of individual intermediate copies of the partial color separations recorded therein on a pre-colored multilayer It was previously necessary to copy material, also in this copy material to leave the first layer colorless and to color it only after exposure. The separate treatment of the top layer of the copy material required for this can. can be avoided according to the present invention.

For this purpose a new copy material is used and the Treatment of the Recording material has the properties of: copy material in a certain way, namely in such a way that the image generated in the recording material immediately onto the three-layer copy material with three layers of final coloration can be copied. The procedure thus allows the use of materials in which all layers of the copy material already during manufacture are finally colored and where in the recording material only a single during must remain undyed during manufacture.

The special nature of the copy material required for this purpose is that the color emulsion intended for the yellow part of the image is the rear Layer is arranged and that the intended for the other two partial images, purple and blue-green colored emulsion layers over the yellow emulsion layer lie. To enable exposure of this material, each of the three layers is differently sensitized, namely the lowest, in a known way for the outermost part of visible red light or sensitive to infrared light Layer colored yellow. The next layer is for blue light and the top layer sensitized to one of the colors red or green. So that the blue rays of light only affect the middle layer in which they are supposed to take effect, so that they above all not in the bar above, sensitive to red or green light Emulsion also create a developable image, becomes the top emulsion layer made from an emulsion that is many times less sensitive to light than the underlying blue-sensitive emulsion. One can hereby from the measures Make use of those already used in the manufacture of receiving tripacks are, if it was intended, the red or green partial color separations in the front layer, the blue separation, however, which is less important for the appearance of the multicolor image record in the back layer. These measures result in the lowering of the sensitivity to blue exist, have not prevailed in the recording materials, in particular, because this also reduces the color sensitivity for green or red Light is connected. The front layer cannot therefore be made so insensitive be that on the one hand there is practically no effect of the blue light rays in this Layer takes place, but on the other hand with the short exposure times necessary for the exposure and light intensities limited the green or red light rays sufficiently to be recorded. The same point of view does not apply to the copy material Role because you have to choose the copy light intensity and the duration of the copy exposure has much greater freedom. In this case one can find a thousand times less sensitive Front layer sensitive to green or red light over the other Arrange layers. The one below for copying the partial image into the bar blue-sensitive layer, this layer is not influenced and only speaks for sufficiently strong intensity of the red or green copy light on these light rays at.

The difference in sensitivities, which is necessary for the separate recording of the blue light rays in the blue-sensitive middle layer, can be determined by calculation. The following consideration of an example is based on the presence of the image dyes in the colored layers, but also applies in the same way if these image dyes are only used subsequently. In order to be able to reproduce a colored object faithfully or artistically satisfactorily by means of a subtractive three-color image, the dyes must be available in a concentration that is higher, the higher the concentration. the scope of the object to be represented. For practical needs, namely to reproduce an object size of 2.5, an optical dye density of around 2.5 in logarithmic units is sufficient, i.e. the subtractive effect of the dyes in all three colored layers of the film together approximates that of a silver deposit of the density 2.5. If gray values are reproduced in such layers by colored partial images with a gradation y = i or y approximately between the limits o, 8 and 1,2, the dye images reproduce the object scope and the brightness gradations of the object correctly or artistically satisfactory. In order to copy from a colored master copy into the layers mentioned, the colored image of the master copy must image-wise graduate the copying light used for its copying, and for the production of a photographic copy with sufficient brightness gradation it is necessary that the colored partial image of the master copy is in the Copy light behaves like an ordinary black and white copy master, the y of which is at least about 0.5 . This means that the greatest differences in brightness, which the copy master brings about for the intensity of the copy light, are at least half as large as the object circumference, ie at least 0.4D. If one wants to achieve that the copying light, the differences of which at the brightest and darkest points are at least about 0.41) in logarithmic units, only influences the blue-sensitive layer but not the green-sensitive layer above it, the green-sensitive layer for blue light must be at least numerus o, 4D times less sensitive than the green-sensitive layer is for the blue copying light. With a dye density of around 2.5, the green-sensitive layer must be at least 0.4 # 2, 5, ie one logarithmic unit or ten times less sensitive than the layer behind it. For the sake of greater security, however, it is advisable to reduce the sensitivity even more, since this can be relatively easily compensated for by increasing the intensity of the copying light. You can practically reduce the sensitivity to a hundred to a thousand times.

As already stated above, the blue-sensitive layer contains usually no other sensitizer, just one to build up the image certain dye, for example a magenta dye such as this Diphenylguanidinsalz des Chlorantinrot 8B (Schultz, Farbstofftabellen, Leipzig 193i ,. 7th edition, i. Vol., No. Q.25), which opposes the usual photographic treatment baths is stable, but using those previously indicated by the inventor Baths, such as thiocarbamide solutions or hydrohalic acids, depending on the Silver image can be locally destroyed. A yellow dye of the same kind as the diphenylguanidine salt of chrysophenin G (Schultz, color tables, Leipzig 1931, 7th edition, i. Vol., No. 726), is sensitive to infrared light Back layer present, while the front layer has a blue-green dye of the same Kind of how the ß-naphthoquinolinium salt of diamine pure blue PF (Schultz, dye tables, Leipzig 1931, 7th edition, i. Vol., No. 5io), which is transparent to infrared light is. Possible sensitizers for red are pinacyanol, for green benzothiopseudocyanone iodoethylate, for infrared cryptocyanine.

The production is based on the copying material described colored copies in the following way: A three-layer film serves as recording material, the front layer of which is sensitive to blue and colorless during the exposure, the middle layer Layer with the diphenylguanidine salt of chrysophenin G colored yellow and sensitive to green and its back layer with benzopurpurin io B (S c h u 1 t z, color tables, Leipzig 193 i, 7th edition, i. Vol., No. 489) purple-red, colored and sensitive to red is. After the exposure and development of the silver images is carried out imagewise Destruction of a yellow partial image from the dye contained in the yellow layer, from the dye contained in the magenta layer a magenta partial image and. in the originally colorless, front layer according to any method, a corresponding one Dye image produced in such a color that is practically permeable to blue and green light rays, but absorbs infrared light well. In this The blue separation becomes the multicolor image through an infrared-absorbing one, the green separation represented by a yellow and the red separation by a purple-red partial image. This image is optical or in contact with blue, green and infrared light copied onto the new copy material described above. The copy light can be used at the same time contain a mixture of these rays, or the individual copy lights can be used one after the other come into use. The infrared components of the copying light are transmitted through the one made up of infrared absorbing dye, corresponding to the blue separation Partial image of the master copy is graded in terms of images and act in this image-like manner Gradation through all layers to the lowest, which is sensitive to infrared Layer of copy material in which you create a latent image of the blue separation. The green components of the copying light are made up of the purple-red dye The sub-image of the master copy constructed, corresponding to the red separation, is graduated in terms of images and act on the uppermost, sensitive to green light and colored blue-green Layer of copy material in which they create a latent image of the red separation. With regard to the very low sensitivity of the green-sensitive front layer is the exposure time or the intensity of the green, copy light or his Share in the mixture of the different copying lights so far increased; that despite at least z. B. a hundred to a thousand times lower sensitivity sufficient Exposure of the front layer with green light is achieved.

The blue components of the copying light affect the insensitive Front layer not one; they are indicated by the yellow, which represents the green excerpt Dyestuff image of the copy master image-wise graded and work through the insensitive Front layer through to the blue-sensitive, purple-red colored one behind it Emulsion layer in which they create a latent image of the green extract.

The latent images in the copy material then all become at the same time developed, and the developed, possibly fixed copy material will then in a dye-destroying solution of the same type as that used for the treatment of the recording material used, treated by the in each individual layer of The dye contained therein is bleached depending on the silver image. Man then receives the yellow colored positive of the blue extract in the bottom layer, in the middle layer the purple image of the green abstract and in the front layer the blue-green colored positive of the red separation, i.e. the color-correct reproduction of the recorded object.

The example given above represents an embodiment of the invention Another embodiment is that when using a recording material, in which the front layer is blue-sensitive and uncolored, the second layer is red-sensitive and colored yellow, the third layer is sensitive to green and colored blue-green, the Front layer after exposure with a practically all visible light Treated transparent infrared absorbing material and this image-wise to the unexposed areas fixed. Such a copying agent is used in the top layer of which is purple-red and sensitive to red, the next layer colored blue-green and sensitive to blue and the third layer, as in the first example, yellow in color and sensitive to infrared. Infrared and red are used as copier lights and used blue light.

The new copy material can of course also be used in other cases be e.g. B. when the top colorless layer in the recording material is not to be converted into a dye image, but to produce a black one Silver picture serves. This silver image must be a positive when the dye images are made as positive dye images in the other layers, and vice versa. In this case, a bipack is used as the recording material, its front layer is arranged on a separate carrier. The other two layers on the rear supports can be of the same type as in the three-layer recording material; but the top of these two layers can also be colorless if above it, expediently behind the front layer on the single carrier, a yellow filter layer is arranged.

In the copy material, the individual layers can also contain additional, Washable or completely destructible filter dyes that are not used for image construction contain. These filter dyes can also be present in intermediate layers, namely, the use of a blue or purple filter dye is recommended behind the front layer and that of a yellow behind the middle layer, so that the rays are completely absorbed, for which the previous photosensitive Layer is sensitized.

Claims (6)

PATENT CLAIMS: i. Process for the production of multicolored copies on a copy material with three arranged one behind the other on a common carrier differently sensitized halogen silver layers using a recording material, the front layer of which is colorless and sensitive to blue, the middle layer of which is one contains yellow dye used for image formation and sensitizes for green or red and the last layer is colored purple-red or blue-green and for the remainder Spectral third is sensitized and in its colored layers those produced therein Silver images are converted into dye images, characterized in that the colorless layer of the recording material for the production of an infrared absorbent Part of the picture is used that has the same (positive or negative) character like the dye images produced in the colored layers, followed by the three partial images copied into the three layers of a copy material, in which the one for blue Light-sensitive layer is arranged behind the front layer in which the front layer from one sensitized to light rays outside the blue spectral range Emulsion consists of which the sensitivity is a small fraction of the sensitivity the underlying blue-sensitive emulsion and that in the copy material after the partial images have been copied in, silver images are generated and the three-color image is generated by local destruction of the dye. 2. The method according to claim i, characterized in that the colorless layer on one in the receiving material arranged on separate carriers and converted into a black silver image that is copied separately from the colored partial images. 3. Color photographic material for the production of three-color pictures with three in a row on a common Carrier arranged, differently sensitized halogen silver layers for the method according to claim i and 2, characterized in that the for blue Light sensitive layer behind the front layer of the Copy material is arranged and that this front layer consists of a light beam outside emulsion sensitized in the blue spectral range, its sensitivity a small fraction of the sensitivity of the blue-sensitive ones behind it Emulsion is. q .. Material according to claim 3, characterized in that the Sensitivity of the emulsion forming the front layer to blue light increases that of the blue-sensitive emulsion layer behind it behaves as at most i to the number of the product of the factor o, q. and that which can be exploited in the material Object scope. 5. Color photographic copy material according to claim 3 and q. for the production of three-color images with three in the final image colors blue-green, Purple and yellow colored and differently sensitized halogen silver layers, of which the layer furthest from the front layer for dark red or infrared light is sensitized, characterized in that the for infrared Light-sensitive layer contains the yellow image dye, that over it an ordinary, layer which is sensitive to blue light and contains one of the other image dyes and that the front layer consists of one colored with the third image dye Halogen silver emulsion consists, the sensitivity of which is only a small fraction of the sensitivity of the blue-sensitive emulsion and that of the green or red light transmitted by the image dye it contains is. 6. Photosensitive material according to claim 3, q. or 5, characterized in that that the photosensitive layers or filter layers arranged over them contain a washable or uniformly destructible filter dye that which absorbs light rays for which the previous photosensitive layer is sensitized. Color photographic material according to Claim 5, characterized in that that there is a yellow colored backing layer sensitive to infrared light, a blue sensitive, purple colored middle layer and a blue-green colored, compared to the blue sensitive one Layer weakly sensitive front layer with the addition of a sensitizer for Contains green.