DE1240401B - Process for the simultaneous development or color development of at least two exposed photosensitive layers - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY Int. CI .:

G03c

GERMAN

PATENT OFFICE DeutscheKl .: 57 b -13/01

EDITORIAL

Number:
File number:
Registration date:
Display day:

1 240 401
J13831IXa / 57b
October 8, 1957
May 11, 1967

The invention relates to a method in which at least two exposed photosensitive layers simultaneously developed or color developed, each of which on a flexible support, e.g. B. Film or paper, with which they form flexible sheets and at least two of which are liquid Developers are used.

Such methods are known. In general they boil down to the creation of visible images, which by the transfer of image-forming substances from the photosensitive material to a another overlying layer arise. In numerous procedures of this type, especially in those in which two or more light-sensitive layers in the form of films are exposed and developed to produce two or more images, it is often desirable to use at least two different ones liquid developer on the exposed areas of at least two photosensitive To apply layers, which are preferably superposed and separated by an intermediate layer are separated to produce at least two images in separate layers.

It is also already a method for producing a contact transfer Proof with the aid of a latent image known that in the silver halide emulsion of an exposed Film is included and in which only a single liquid treatment produces a stable image. That The essential feature of this process is that an alkaline treatment liquid is used brings into contact with the photosensitive film as one of its alkaline components contains at least one volatile amine, so that an image receiving sheet can be applied to the photosensitive film places that the processing liquid between the outer surfaces of the photosensitive film and the applied foil is included until the latent image in the silver halide emulsion is developed and a print with the opposite brightness values of this latent image in the image receiving layer of the whole arrangement, and that the two layers are finally separated from one another and allowing the volatile amine to evaporate. Here the treatment liquid is between the light-sensitive Layer and the image layer distributed by opening a hermetically sealed container.

In another previously known method, a thin image-receiving layer is used which is applied to a carrier by means of a base which consists of two films of high molecular weight polymers, one of which is film in the process for simultaneous development or development.
Color development of at least two exposed photosensitive layers

Applicant:

International Polaroid Corporation,
Jersey, NJ (V. St. A.)

Representative:

Dr.-Ing. Η. Ruschke, patent attorney,
Berlin 33, Auguste-Viktoria-Str. 65

Named as inventor:
Edwin Herbert Land,
Cambridge, Mass. (V. St. A.)

Claimed priority:

V. St. v. America 9 October 1956 (614983)

is substantially impermeable to liquids to which the other film is substantially permeable.

In the known methods, mechanically easily destructible containers are used to hold a liquid chemical reagent, in particular developer, for treating a light-sensitive layer for Use. But there are also other aids than fragile containers or bags made of plastic Films known that can be used in the sense that they are liquids between a Bring rigid plate and foils or layers. So you can z. B. a certain amount of a viscous Apply liquid to either side of a rigid plate, either before or after the Insertion of the plate between the light-sensitive layers.

The invention is based on the object of significantly simplifying these known methods, more effective and at the same time as a result of the greatest protection of the layers involved in the process and foils to significantly improve the quality of the images obtained.

To achieve this object, the invention is based on the prior art outlined above. you The most important feature is that the liquid developer, which is known per se in fragile containers, e.g. B. made of plastic material, together with or with

709 579/403

two rigid plates between the exposed photosensitive layers or between the foils are introduced that then the films together with the rigid plate or plates between a pair of pressure rollers are passed through so that the developing liquids after the containers in which the treatment liquids are located have been broken by the pressure are, between each of the exposed photosensitive layers and the rigid plate or plates are spread in a thin layer, that then the foils together with the rigid plate or plates for the duration of the treatment are left on top of each other and that finally the rigid plate or the rigid plates are pulled out.

In a preferred embodiment of this new method, each of the two used In addition to the photosensitive layer, films have a positive image-receiving layer, which is sandwiched between the photosensitive layer and the support.

In another embodiment of the method according to the invention one proceeds so that before passing the foils through between the pressure rollers with the help of staples, rivets, seams and adhesives or the like. Stapled together on one side so that the light-sensitive layers touch with their surfaces.

A major advantage of the method according to the invention is that the intermediate layer can be noticeably stronger or stiffer than the two outer photosensitive layers, so that the latter be deformed under the influence of the pressure generated in the liquid, while the intermediate layer undergoes practically no change in shape. This causes the simultaneous spread of the both liquids in layers of uniform predetermined thickness.

Further advantages of the invention will become apparent from the description that follows, in which FIG the drawing is referred to. In the drawing is

F i g. 1 shows a view of a cross-section on an enlarged scale through a layer arrangement which the method according to the invention can be used,

F i g. 2 is a view of a section through a layer arrangement on an enlarged scale, the one Represents a process stage in which a layer arrangement according to FIG. 1 is processed,

F i g. 3 and 4 each show a view of a section through a layer arrangement in schematic and diagrammatic form enlarged representation at other stages of the method according to the invention,

F i g. 5 the view of a section through a layer arrangement and the device for implementation of the new procedure and

F i g. 6 is a schematic view, on an enlarged scale, partly in section, showing a further embodiment of the subject invention and shows another stage of the method according to the invention.

The in the F i g. The layer arrangement shown in FIGS. 1 to 4 consists of a pair of foils 12 and 22, each of which contains a plurality of layers which are carried by a flexible support. The layers 14 and 24 consist of a translucent and flexible material of the usual type, such as cellulose acetate, cellulose

triacetate or from other plastic organic substances. The supports 14 and 24 carry the positive image-receiving layers 16 and 26. The peelable layers 18 and 28 lie between the image layers and the emulsion layers in order to be able to separate the latter from the former so that the image layers can remain on the supports in the finished copy . If necessary, one of the supports 14 and 24 can be made of opaque material, e.g. B. od paper. Like., If the other carrier is translucent, because the image is supposed to be created in layers that are arranged on or between the overlying carriers.

»5 The films 12 and 22 are connected to the photosensitive layers 20 and 30 in intimate surface contact, so that both, one can be exposed through the other, at the same time while the two layers are kept in close contact. The two photosensitive layers generally include areas of equal extent suitable for exposure, and the two sheets 12 and 22 are bonded to one another at one edge of these areas so that the images produced in the two sheets are easily registered although the foils are kept at a certain distance from one another during the process. In the illustrated embodiment, the sheets 12 and 22 are held together by an attachment tape 32 which is attached to one edge of the sheets and enables the exposed and treated areas thereof to be separated while preventing lateral movement of the sheets relative to one another will. Of course, holding the foils together in this way also allows them to be separated during exposure, and the advantages of the predetermined classification are fully retained. There are of course also other conventional stapling means for holding the films together suitable for the purposes of the invention, e.g. Staples, rivets, seams, adhesives, and the like. Optionally, the backings 14 and 24 may comprise portions of a single sheet folded between the ends thereof.

The liquid reagents are applied to the foils 12 and 22 by means of a rigid plate 34 which is inserted between the foils so that the layers 20 and 30 rest on opposite surfaces of the flap. The plate 34 is practically rigid compared to the foils 12 and 22 and is at least sufficiently inflexible to eliminate deformations which could occur as a result of the hydraulic pressure created within the liquid layers when the liquids are spread on opposite sides of the plate. Accordingly, the plate 34 can have a considerably thicker cross-section than the foils 12 and 22 and consists, for. B. made of metal or organic plastic material of high strength and rigidity. One end of the plate 34 can be wedge-shaped as shown, and the other end can be suitably shaped to accommodate an excess of liquid reagents.

In the F i g. 2 through 5 of the drawing is a preferred method of applying simultaneously Liquids between the foils on opposing

th sides of the plate 34 shown, in which the foils and the plate between a pair of pressure rollers be moved through. In this embodiment, there is the facility for use a print of a pair of elongated rollers 36 and 38. The roller 38 is by means of a pair of shaft stubs 40 rotatably mounted at their ends in a frame 42 serving as a bearing, which is part of a photographic device, e.g. Camera, can be. The roller 36 has at its ends a pair of shaft stubs 44 which are movable in two Bearings 46 is so that the roller 36 are moved towards the roller 38 and away from it can. Resilient means in the form of springs 48 serve to press the roller 36 against the roller 38. The device for applying a pressure thus consists of a pair of pressure rollers, having rotatable cylindrical rollers. Since the plate 34 is rigid, it is by the hydraulic The pressure of the fluids is not deformed, so the thickness of each layer is a function of the height of the Shoulders 37, 39 or 71, 73 on one of the rollers. Accordingly, it is with the use of rollers Shoulders of different heights possible, two liquids at the same time in layers of different thicknesses to be applied, and the thicknesses of the said layers can be set precisely and evenly beforehand being held. The use of shoulders on the rollers has the further advantage of that the shoulders exert increased pressure on the edges of the foils, the liquids between seeks to hold the slides and their drainage from the gaps between the edges of the slides prevents the liquids from spreading.

The liquid developers are placed between the transparencies in the following way: They are located comes in a pair of elongated, fragile containers 50 that can be easily opened and empty their liquid contents in one direction if they are subjected to pressure as a result, that they pass between two pressure rollers. The containers of the preferred type can e.g. B. are made from a single sheet of liquid-tight, multi-layer material in such a way that the foil is folded in the middle and then the edge parts and long parts of the two are folded together Surfaces are connected to each other, so that an axially symmetrical cavity for inclusion of the liquid reagent is formed. The lengthwise termination at the edges is preferably designed in such a way that that after applying a pre-calculated force on the walls of the container within of the container a sufficiently large hydraulic pressure is created to keep the edge parts in their entirety Separate longitudinal expansion from each other. In the embodiment shown, the containers 50, each of which contains an amount of liquid indicated at 52 on opposite sides of the Plate 34 attached near its beveled wedge-shaped end which enables the plate is pushed between the foils 12 and 22. This arrangement is preferably used for fastening the container between the foils, since with such an accommodation the container collapses of the two foils when they are placed on top of each other.

After exposure of the photosensitive layers and an overall arrangement as shown in

F i g. 1, for example, the photosensitive layers are treated with liquid substances by inserting a plate 34 carrying a pair of liquid-filled containers 50, between the sheets 12 and 22 together with the containers in the vicinity of the top belt 32, roughly as it F i g. 2 shows. The foils and the plate are then moved one on top of the other between the rollers 36 and 38, starting at the end ίο near the container, so that each of the two liquids 52, after opening its container 50, forms a layer 54 between a foil and a surface of the plate 34 forms and a "sandwich" is created. Since the plate is rigid, it can advantageously be used to push the entire assembly between the rollers, or the assembly can be pulled between the rollers in accordance with the rotation of the rollers. Following the spread of liquids is allowed to overlie each other, the films during a ao predetermined period of time, each film can be stripped off the plate after which. The two foils are then brought back to their original position in which they lie one on top of the other. The liquid containers are preferably attached to the plate in such a way that they adhere firmly to the plate when it is pulled out of the foils. As previously mentioned, layers 18 and 28 are peeled off from image receiving layers 16 and 26; this can be accomplished by allowing the photosensitive layers 20 and 30 to hang from the plate as the films are peeled therefrom.

The cooperating parts that form the liquid spreading surface of each roller and keep the surface of the rigid plate apart can be on the plate itself in the form of edge shoulders or edge strips can be arranged on both surfaces of the plate. Such an arrangement has the additional particular advantage of having three separate layers with liquid reagents at the same time can apply (Fig. 6). The three liquid layers labeled 61, 63 and 65 become three Sheets 60, 62 and 64 by means of two rigid plates 66 and 68 and a pair of pressure rollers 70 and 72 spread out. Each of the two rollers 70 and 72 has raised edge shoulders 71 and 73, respectively, and one of the plates, here the plate 68, has a pair of upright shoulders 69 on their lateral edges.

Thus, the films 60, 62 and 64 may be of any type and nature be, for example, as the films 12 and 22, and to be suitable for receiving two parts of the spectrum, and the film 64 may be the other two and is adapted to also similar, to include a third part of the spectrum so that the overall arrangement of the three foils can be used to produce a three-color or three-color image. The plate 66 is flat, has no shoulders and lies between the foils 60 and 62. The shoulders 71 on the roller 70 cooperate with the plate 66 to regulate the thickness of the liquid layer 61 which is between the foil 60 and the surface of the Plate 66 is injected. The plate 68 lies between the foils 62 and 64 and comes with its shoulders 69 in contact with the foil 62 so that the shoulders cooperate with the plate 66 to increase the thickness of the liquid layer between the other upper surface.

area of the plate 66 and the film 62 to regulate. The surface of the plate 68 facing the foil 64 is, is flat, and the shoulders 73 of the roller 72 cooperate with the plate 68 in the sense that that they determine the thickness of the application of liquid in the layer between film 64 and plate 68.

The three foils 60, 62 and 64 can be bonded together and while lying on top of one another exposed, although of course only two light-sensitive layers (on the foils 60 and 62) can be in contact with each other. The two plates would then be inserted between the foils to begin treatment of the foils, and would then at the end of treatment be pulled out again. The light-sensitive layers could then be removed from the Foils are peeled off, e.g. B. by attaching to the panels. The three slides, one of which is preferable each bearing an image could then be brought into contact with two of the image carrier layers and are placed on top of one another, the third layer being determined by the material thickness of one of the foils of the other two is separated, so that the three images are related to one another can.

In general, the liquid for carrying out the method according to the invention contains a film-forming one Material, which is preferably a high molecular weight polymer, and the liquid gives a predicted viscosity. A high viscosity is very desirable because it has the allows relatively even distribution of the liquid reagent and a complete coverage of the desired Guaranteed area with the reagent. The film-forming substance is in the liquid reagent in such an amount that it has a viscosity of over 1000 cP at a temperature of 24 ° C, but preferably a viscosity in the order of magnitude of 1000 to 200,000 cP in the case of the aforesaid Temperature.

The film-forming substance must have such properties that its ability to impart viscosity, and retains its film-forming properties in an alkaline solution, so that the liquid reagent, once its ingredients have been mixed, at a given temperature for a long time remains uniformly viscous. The polymers of the film-forming substance contain this in their chemical Building groups, such as B. ethers, alkyls, hydroxyls, carboxyls and acetyls, the opposite Alkalis are resistant, and chemical groups, such as esters and acetic acid groups, oppose Alkalis are unstable. Typical examples of such polymers are those that are insensitive to alkali and water-soluble cellulose derivatives, such as sodium carboxymethyl cellulose and hydroxyethyl cellulose, and water-soluble polyalkane derivatives that are insensitive to alkali, such as polyvinyl alcohol and the sodium salts of polymethacrylic and polyacrylic acids.

A liquid with components in a thin layer between an exposed layer with Silver salt emulsion and a rigid plate can be spread to form a color image to effect in an image-receiving layer under the emulsion layer preferably contains color-forming Substances. The expression »color-forming

Substances «as used here is intended to include all types of substances or reagents, which can serve to produce a positive image in the form of a dye. The chromophore System that gives the positive image dye the desired color properties can be used in such color-forming substances may be included, or it may be such a chromophoric system as Result of a reaction after the transfer, e.g. B. after oxidation and / or after a clutch. The color-forming substance can initially be the same color as the image dye, the should be generated by them, or another color or a neutral color. This color-forming Substances are known. They do not form part of the invention and are therefore not explained in detail. The following types of color-forming substances are given for the sake of clarity mentioned that can be used in connection with the subject matter of the invention.

1. Color formers or color couplers that react with the oxidation product of dye developera react to produce a dye.

2. Self-coupling developers, e.g. B. a reagent that can develop a silver halide and with can self-couple once it is oxidized to form a dye.

3. Dye developers, these are complete dyes that have the ability to develop of a silver halogen.

4. Leuco dye developers, these are dyes that are in their leuco modification or in a reduced form Form are used and the one ability to develop a silver halogen but must be oxidized after transfer to the material receiving an image.

5. Dome dyes, this is e.g. B. a complete dye that with the oxidation product of a Color developer, e.g. B. diethyl-para-phenylenediamine, can be coupled to one not to form diffusing dye.

In the case of propagation methods with reverse transmission of the type under consideration here, one is exposed light-sensitive silver halogen layer bearing a latent color image treated with a liquid reagent, in order to obtain an image-wise distribution of spreadable color-forming substances. These The pictorial distribution of the substances mentioned is the result of being immobilized or stopped the color-forming substances in exposed areas together with the developed silver, as a result of the development of the latent image. A positive image can be obtained by transferring such color-forming substances that have not been immobilized by sucking in the developed light-sensitive layer can be produced on a superimposed, image-receiving layer. That The desired image is then revealed by following the developed photosensitive layer Lapse of a suitable soaking time peeled off from the image-forming layer.

The preferred color-forming substances are dye developers and the desired image-wise ones Distribution from a spreadable dye developer results from the immobilization of the

Dye developer that serves as a support for positive copies when developing the lat- mine, e.g. B.

th image is oxidized. Baryta paper.

An example of such a developer liquid. The image-receiving layers 16 and 26 are given in percent by weight as follows: are made of a material that is independent of the sodium carboxymethyl cellulose ⁵ dyes that have a rough viscosity in the liquid reagent) 4.5% ^ L ^{ei be det} - F ^{m for} _u ^d I ^{esen purpose eei} S S ^neter

xt _i -ij j substance is N-methoxymethyl-polyhexamethylene adip-

Sodium hydroxide 2 o / o _{amide A layer} ^ _can ^ _A £ _

Potassium bromide 0.2% bring a 15 weight percent solution

l-Phenyl-3-pyrazolidone 0.2% io ethyl alcohol can be formed as a solvent. Around

Sodium carbonate 2% prevents the image-receiving layers from adhering

Dye developer ' '.'.'.'.'.'. 6% ^de * shift supports 14 and 24 to facilitate and to

secure, additional underlying coatings are provided. The percentage content of dye 16 a and 26 a given above is provided, the polyvinyl butyral developer is only illustrative and can hold up to 15.

For example, in the range between 2 and 30, the photosensitive layers 20 and 30 can range from -12%, depending on the type of any suitable and conventional silver halide developer used. Suitable dye developers for the emulsions, preferably for special spectral purposes of the above compilation for areas sensitized, carry, so that the two liquid treatment are: 20 layers can be exposed as long as they are in

close contact with each other are in order to different For yellow: Aspects of the objects without the aid

ο τντο ^ ι, + ι , τ, ΐο ^ ν ,,, ^^^ ι,; ^^. to be able to record from filters.

z-JNapntnylazonyarocnmon; ,, .., ^,, ^

^r As already mentioned above, the high-tem-

l-Phenyl-3-methyl-4- [p- (2 ', _5'-25 dihydroxyphen--sensitive layers of the image-receiving ethyl) phenylazo] -5-pyrazolone; Layers peeled off when the treatment is complete

1- phenyl-3-cyclohexyl-carboximidodig is complete. To remove the layer

4- [p- (2 ', 5'-dihydroxyphenethyl) -phenylazo] - ^te ^ 20 and 30 to facilitate, are peel-off layers

5-pyrazolone; 18 ^un ^ 28 between the emulsion layers and the

'30 image-receiving layers are placed. These layers

Phenylazohydroquinone. _{18 and 28 are made of a} material that is used in the

For Maeenta · liquid reagents is solvable or at least

° 'becomes soft in these, e.g. B. are Hydroxyäthylcellu-

2-hydroxynaphthylazohydroquinone; _Iose and "cellulose acetate-hydrogen phthalate" for 2- [p- (2 ', 5'-dihydroxyphenethyl) phenylazo] - 35 are suitable for this purpose. The release liners 18 and 4-methoxy-1-naphthol; 28 can be prepared by looking at the

. 'Image-receiving layers an aqueous solution of l-ammo-4-phenylazo-2-naphthol. applying the following composition:. 2 weight P "r Kin ι- percent hydroxyethyl cellulose and 2 Gewichtsprorur uyanoiau ^ _{sugar Dig} film-forming substances in the Schichl, 4-bis - [^ - (2 ', 5'-dihydroxyphenyl) -äthylamino] th with the liquid reagents search solidly to weranthraquinone; as soon as the liquid is absorbed into the layers 1,4-bis [/ 3- (2 ', 5'-dihydroxyphenyl) - or from the layers verpropylamino] -anthraquinone; evaporates, and cause the layers with the _r ....,, ν.,. τ 45 light-sensitive emulsion to stick to the rigid plate 1,4 - [ω - (2,5 -dihydroxyphenyO -isopropylamm] - Layers of lead anthraquinone stick to the plate with greater affinity than they do to it

the image-receiving layers when the peel-In been dissolved to the embodiment of the invention according layers or softened, Fig. 3, two layers of liquid reagents 50 with the result that are prepared by separate removal according to the preceding example of film and plate the photosensitive layer and dye developers with the desired colors are peeled off with the plate in the longitudinal direction from the images such as cyan blue and magenta red between receiving layers. The top plate opposite to the foils 12 and 22 can surfaces of the plate 34 with a coating of a material. The films may be provided 12 and 55, which practically does not react with the verwen- 22 may be in construction and in the composition Deten dyes and be similar to each other in substantially Erfindungsim and how drawings object preferably is polyvinyl alcohol. nerisch illustrated, translucent layer support 14 As already mentioned, the color-forming and 24 of the usual film support material can have substances, preferably dye developers, other such. B. from cellulose triacetate. The exposure of the 60 superposed light-sensitive layers as housed in the liquid reagents; you can z. B. given in one of the layers can be done through the film 12 , and is accordingly, which has each film, or as layers of the substrate 24 with a suitable protective covering arranged on the surfaces of the rigid plate 24 a provided against halation. Be with one. It is also possible that the dye developer another embodiment in which it is desired to produce 65 characterized on the surfaces of the rigid plate to a positive copy that bring in reflected that the plate is coated with gelatin light is viewed, of the layer support can be made and each developer of the gelatin consist of a solution of opaque material, which generally contains 4 percent by weight and cellulose acetate water.

Claims (1)

hydrogen phthalate, which in turn is dissolved in a solution of 50% acetone and 50% tetrahydrofuran, is added. The method according to the invention can also be used to carry out other color methods in which a modified embodiment of the arrangement described and illustrated here is used. Instead of producing two or more monochromatic images, e.g. B. one of the photosensitive elements have a filter for producing two or more subtractive color recordings, while the other photosensitive element is constructed so that it produces a monochromatic recording in a third color layer, as has essentially already been described. The photosensitive layers described and shown so far are those which contain silver halide emulsions. The liquid reagents contain substances for generating positive images in the form of dyes. However, the invention can equally be used in photographic processes in which other light-sensitive materials and / or reagents are used. For example, the liquid reagents may be suitable for producing positive silver images by diffusion reverse transfer and may include a silver halogen developer, e.g. B. hydroquinone, a silver halide solvent such as sodium thiosulfate and an alkali. Liquid reagents of this type are suitable for converting the exposed silver halide into silver and for forming a soluble complex silver salt from an unexposed silver halide which can be transferred by suction to the image-receiving layer, where it is reduced to silver in order to produce a positive image. In the illustrated preferred embodiment of a layer arrangement, the image-receiving layers contain substances for retaining or absorbing the dyes which produce the images. However, in processes in which it is desired to produce images in the form of silver, the image-receiving layers preferably contain certain substances, the presence of which during a silver-halogen diffusion transfer process has a very desirable effect on the amount and character of the silver precipitated during the process Generation of the image. This layer contains silver precipitating cores of the type described in US Pat. No. 2,698,237 and in US Pat. No. 2,698,245 and which are distributed in a macroscopically continuous color carrier which contains a water-impermeable, inorganic, preferably silicon-containing substance . This layer can contain, for example, an absorbent substance such as silicon dioxide, silicon airgel, mica or talc and one of the metal sulfides, selenides, thioxalates or thioacetamides and also a colloidal metal, in particular colloidal silver. In another embodiment of the layer arrangement and the liquid reagents, for example, the photosensitive layers can contain photosensitive ferric salts which can be reduced to ferrous salts after exposure. Suitable light-sensitive ferric salts are ferric chlorides, ferric salts of organic acids such as ferric oxalate, ferrite tartrate and ferric citrate. The dissolved reagents preferably contain couplers which can differentiate between ferric salts and ferrous salts in order to form reduction products with one another which can be visibly distinguished from one another. Examples of such couplers are potassium ferricyanide, potassium ferrocyanide, the tannins, β - naphthaquinone - sulfonic acid - silver salts, platinum and palladium salts and various colloids such as gelatin and gum arabic. In a further embodiment of the layer arrangement shown, the light-sensitive layers can contain light-sensitive diazo compounds, while the liquid reagents can contain couplers which can be combined with exposed or non-exposed diazo compounds to form visually distinguishable dyes; the couplers can also be present in the photosensitive layers or other layers connected to them, while the liquids only create environments in which the coupling reactions can take place. Suitable light-sensitive diazo compounds can be created, for example, by treating aromatic amines with nitrous acids at low temperature, while phenols, naphthols and amino compounds are mentioned as suitable couplers. Other substances that can be used in the photosensitive layer contain substances that are dissolvable to different degrees by exposure and, for example, B. also contain dichromatic gelatin and the like. The layers 20 and 30 of the films 12 and 22, respectively, can have the same extent as the entire inner surface of each film (see FIG. 2), so that the photosensitive layer is also present where no treatment takes place, that is that is, in the area of the container 50. In this case, the parts of the layers which lie in this area cannot be peeled off from the image-forming layers and can remain between the two films. Since the thickness of these layers is relatively small, there is no noticeable difference in the thickness or in the registration of the images in the finished product. Optionally, the films can also remain without light-sensitive layers in that area of the container in which no treatment takes place, so that the finished product, after the treated emulsion layers have been peeled off, no longer contains any emulsion layer at all, as shown in FIG. 4 is shown. Patent claims: 1. A method for the simultaneous development or color development of at least two exposed photosensitive layers, each of which is arranged on a flexible support with which they form flexible films, and with at least two liquid developers, characterized in that the liquid developers (52) that are located in a known manner in the frangible containers (50), together with a rigid plate (34) or with two rigid plates (66, 68) photosensitive between the exposed layers (20, 30) and between the foils ( 12, 22) are introduced that then the films (12, 22) together with the rigid plate or the plates between a