DE959516C - Photographic process for image formation by contact transfer and material for carrying out the process - Google Patents

Description

ISSUED MARCH 7, 1957

/ 7471IV aj 57 b

The invention relates to a photographic process, in particular a transfer process, in which a latent image is developed in a silver halide emulsion and the undeveloped Components of this emulsion are transferred to another layer to form a To effect a deduction in this other layer. The invention also relates to an implementation material suitable for this process.

There has been proposed a transfer method using one of a silver halide emulsion layer existing photosensitive film by spreading a treatment composition or liquid in a thin layer over this film perform. This distribution of the treatment liquid is preferably achieved by spreading the Liquid reached between the exposed film and another film, which is preferably as Recording film is used for the print. The layer-like distribution can, however, also be achieved by spreading, Application by means of rollers or by applying the treatment liquid in some other way directly on the surface of the exposed film or by spreading this liquid on or can be achieved in the surface zones of a further film, which is then layer on layer with the exposed film is brought together. Processes of this type are characterized in that the treatment mass, which is distributed in a layer, the only source of liquid in the

processing represents and when distributing between the exposed film and another film in the essentially trapped between the outer surfaces of the films during the treatment process is. The treatment liquid contains a developer or forms a developer solution Apply to the photosensitive film. It must therefore in order for the developer to work make, have a pg value, which is preferably to above ii.

The treatment of a silver halide emulsion by applying a single solution without its Obviously, having to take refuge in additional baths is of great benefit, especially if if the only treatment results in a finished positive print, then it no longer needs to be treated with a liquid. Because the effect of the reagents in this type of treatment however, it is essentially limited to the ao solution involved and it is not so washed out can be as when using the usual baths, is exposed in the and in the The film receiving the print creates a highly alkaline environment which, if left to stand, s5 multiple sources of instability results in what detrimental to the preservation of the image over time. Such phenomena are noticeable to a lesser extent when the alkalinity of the image receiving film is within a proportionate can be effectively reduced shortly after the transfer.

According to the invention a treatment is proposed with a liquid which contains an alkali, which is capable of holding value during the development of the latent image in the exposed film, and during the formation of the contact sheet on a larger amount of the p _H, wherein the alkalizing agents in the main of a volatile amine, which is prevented from volatilization before and during development, but which can volatilize after image formation. The developer solution can be applied both to the exposed and to the unexposed layer.

This treatment liquid is hermetically sealed in a container, and this forms part of the material used for the process.

The invention also proposes a photographic process which uses the above processing liquid to form a transfer proof of a latent image contained in the silver halide emulsion of an exposed film and in which a single application of liquid to that film produces a finished proof of improved durability produces, the process being characterized in that an alkaline treatment liquid is brought into contact with the photosensitive film in such a way that the emulsion is penetrated by the treatment liquid, this liquid containing at least one volatile amine as one of its alkaline constituents, and another Place film on the exposed film, thereby trapping the processing liquid between the two films until the latent image develops and a print with the opposite brightness values of this latent image in one takes the print nth layer of the entire assembly is formed and that the two films are then peeled off from one another to allow the amine to evaporate from this layer. The method is particularly effective when it is carried out with treatment liquids which are in hermetically sealed containers until shortly before use, such as are e.g. B. in German Patent 912 294 are described. Usable for this purpose are amines whose ι η solution has a _pH value above 10 and which are relatively volatile, that is, a boiling point of about 175 ° or below. Examples of suitable amines are: ammonia, diethylamine, triethylamine, diisopropylamine, allylamine and ethylamine. They are preferably used alone, but mixtures with less volatile and more common alkalis, e.g. B. alkali hydroxides apply. Aliphatic amines with boiling points in the range mentioned are preferred. Of course, amines are generally more volatile and therefore more useful in this regard than alkali hydroxides such as e.g. B. Sodium hydroxide, the boiling point of which is around 1400 ⁰ . It is also known that certain amines are more volatile compounds, e.g. B. carbonates are able to form when exposed to air; the usefulness of such amines depends on the volatility of these reaction products.

The reduction of the alkalinity of the print-receiving film by applying the volatile alkalizing ingredients can be completed when the latter is mixed with the less volatile alkalis using special acidifying agents of the general type are used, from the German patent specification 940 505 and from the USA patent specification 2 635 048 is known.

These and other objects of the invention are discussed below.

Please refer to the drawings for a better understanding.

Fig. Ι is a schematic, enlarged cross section by arranging the films while performing one form of the novel according to the invention Transfer process, with the thickness ratios of the different layers are greatly enlarged and not necessarily in proper proportion to each other;

Fig. 2 shows a shape of the print-receiving film used for performing the Process in connection with a photosensitive film is used, this receiving the print Film possesses hermetically sealed containers which are attached to it and which are novel Treatment liquid included.

The invention encompasses improved methods and means for carrying out the same in which a positive Deduction in a single procedural stage

can be obtained by appropriately treating a latent image-containing silver halide emulsion with a uniformly coated layer of a liquid. Preferably, this liquid is viscous and is spread as a layer 14 (FIG. 1) between the photosensitive film 10 and a film 12 receiving the print. As can be seen, the photosensitive film consists of a support _{10 a} and a silver halide emulsion 10 &, while the film receiving the print is primarily suitable for receiving the halogen silver and for this consists of a support 12 ₃ on which a layer 16 which precipitates the silver is applied . In this form of the process, the liquid substance develops the latent image in the emulsion and at the same time forms a soluble complex with undeveloped silver halide. This soluble complex is at least partially transported in the direction of the print-receiving film 12 and the silver from it largely precipitated in the layer 16 for the purpose of forming a positive image.

It has been suggested to use certain substances in the layer falling on the silver, their presence during the transfer process depends on the amount and character of the precipitated Silver works favorably. Suitable substances for such purposes, e.g. B. metal sulfides and selenides, thiooxalates and thioacetamides are e.g. B. from German Patent 940 505 known.

Other precipitants have also been proposed, e.g. B. colloidal metals and especially Colloidal Silver. It is also desirable, as described in relation to the above, as a vehicle for the silver precipitating agents in layer 16 a macroscopic to apply uninterrupted film made up of sub-macroscopic conglomerates smaller Particles of a suitable water-insoluble, inorganic, preferably silicon-containing substance, such as B. a silica gel. When using such a carrier for the precipitant the silver is aggregated to precipitate in the most effective form for imaging will.

As already said, the treatment liquid is preferably viscous, usually in it in solution, a sufficient amount of a solid, film-forming thickener is dispersed to to give it the desired viscosity. By proper selection of thickener and treatment the surfaces of the print receiving film and / or the photosensitive film Film makes it possible to form the essentially solid film that is left behind as the treatment liquid remains to be deducted from each of the two films. In general, the residue film adheres on the film receiving the print. However, there are various types of treatment substances and methods for the surfaces of the print-receiving film and / or the photosensitive film Films in which the residual film adheres to the developed film when the latter is separated from the Print-receiving film is peeled off.

It is also possible to dispense with the silver-precipitating layer 16 as such and to provide suitable silver precipitating agents in the treatment liquid, so that the silver is mainly precipitated in this liquid. This can e.g. B. done in the manner known from German Patent 932,344. In this type of transfer method, it is preferred that the residue film formed by the treatment liquid and in which the transfer print is formed is adhered to the carrier I2 _a when the latter is dated. exposed film 10 is peeled off.

To the desired control of the alkalinity of the trigger receiving film after the formation of the transmission trigger of the present invention is provided in the treating agent 14 an alkali compound from the class of relatively curse- So term amines whose 1 η solution has a _pH value above 10 and whose boiling point is below about 175 °. The amine should preferably be soluble in water. However, relatively water-insoluble amines can also be used if the treatment liquid consists at least in part of a substance which dissolves the amine. Applicable amines are ammonia, diethylamine, triethylamine, diisopropylamine, allyl amine and ethylamine. g ₀

The liquid layer 14 in Fig. 1 is through Spreading the treatment substance received. This treatment liquid preferably contains except the alkali, the developer for the silver halide and a substance for forming a soluble silver complex with the undeveloped silver halide, d. H. a silver halide fixer. These substances are located preferably in aqueous solution. However, the silver halide developer can of course be used and / or the fixing agent partially or completely to the treatment liquid as soon as or after it is spread between films 10 and 12, the Reagents are located in or on the surface of one or both films so that they can be passed through the iog Treatment liquid are dissolved or reacted when this liquid with the Comes into contact with the surface.

The liquid treatment substance can be distributed as a layer 14 between the films 10 and 12, by allowing it to run out of an elongated, easily destructible container 20 which, as shown in FIG can be seen, is at least as long as the surface to be treated with this liquid agent Film is 10 wide. The individual containers can be manually or mechanically between the trigger receiving and photosensitive films are applied in the same way as from the U.S. Patents 2,435,718 and 2,543,180 are known is. One or more loading containers 20 can also be attached to one of the films 10 or 12 will. In Fig. 2, two such containers are separated on the print receiving surface of the film 12 applied in the longitudinal direction to the film, the distance being at least the length of the individual image fields of the light-sensitive

Films ίο corresponds. The films ίο and 12 can be connected to each other so that they can be placed on top of one another with the container so that the latter can drain its contents in the form of a liquid S layer between the two. The container 20 is preferably intended to be inexpensive, easy to manufacture, and constructed to be a liquid treatment agent Can keep for a relatively long time without loss of substance due to evaporation or oxidation occur. A suitable container of this type will consist of a single, three layer comprehensive. Slide made. The inner layer, which is the inner surface of the container, is formed from a material that is compatible with the reagents in is chemically inert to the treatment agent and not to the liquid part of the agent is penetrated. A suitable material for this purpose is polyethylene. The intermediate layer is supposed to be impermeable to the steam of the treatment agent, it consists z. B. from a metal foil, ζ. B. a lead, aluminum or silver foil. the Outer layer that adheres to the film is made of a strong, malleable, proportionate cheap material, e.g. A Kraft paper, as the container 20 is best made by one single. Sheet of the described three-layer material folds in the middle at 22 and then the side parts 24 and the longitudinal parts 26 of the two folded sheets firmly together connects, whereby a space or a cavity 28 is created to receive the treatment liquid able. The closure on the long sides 26 should be slightly weaker than that of the side parts, so that this creates a cast rim which is practically parallel to the long side of the container.

When filling the container you can close the longitudinal sides 26 and one of the side parts 24, the Fill the container through the other side part and then close it.

The film 10 can be any commercially available silver halide photosensitive film. The term "film" also includes photographic papers with applied emulsions. The products of the present invention are particularly useful in improving transfer processes using highly sensitive, photosensitive silver halide emulsions such as. B. with relatively highly sensitive orthochromatic films with an ASA speed of 0200 and an ASA exposure time of 50, and the extraordinarily highly sensitive panchromatic emulsions, e.g. B. those with an ASA sensitivity of 0400 and an ASA exposure time of 100 can be carried out. The film 12 can be produced by placing it on a suitable support i2 _a , e.g. B. baryta paper, a coating of a suspension or a sol of the silicic acid containing the silver precipitating agent. This sol is allowed to dry, which results in layer 16. The silica suspension can be obtained by adding the silica z. B. dispersed in water and then either adding the silver precipitating agent directly or introducing salts into the sol, which react with one another to form the precipitant. The sol can also be applied to the sheet without the silver precipitating agent and this can then be immersed with the silica layer in a solution or mixture of the silver precipitating agent in order in this way to deposit the precipitant in the layer.

As already stated, the new volatile alkaline agent of the invention can be used in treatment liquids apply that already have other common alkalizing agents, e.g. B. sodium or potassium hydroxide. In a preferred Form of the invention, the relatively highly alkaline amines make the predominant alkaline ones Agents in the treatment liquid, d. H. they immediately give it more than two Third of the alkalinity of the solution. But you can also use smaller molar amounts of these substances in a mixture apply with other less volatile alkalis, in which case a slightly lower reduction the alkalinity of the print-receiving film after film formation is maintained because the evaporation of the volatile alkalizing agent is weaker, making it desirable proves the acidification of the print-receiving film by using more suitable Acidifier z. According to the U.S. Patent. 2 635 048 to be added.

Examples of the novel methods of the invention for forming positive silver images will now be given given. However, it should be expressly pointed out that these examples are only illustrative serve and that the invention is not limited by the substances mentioned therein and their amounts will.

example 1

A treatment liquid is made by mixing the following ingredients:

Water 35 °> ο ecm

Sodium carboxymethyl cellulose

(average viscosity) 25.0 g ^{lt> 5}

Diethylamine 25.0 ecm

Sodium hydroxide 4.0 g

Sodium sulfate, 15.6 g

Sodium thiosulfate 2.9 g

Hydroquinone 10.4 g

Methyl p-aminophenol sulfate (Metol) .. 0.4 g

Chlorobenzotriazole 0.4 g

A print-receiving film 12 is made by dipping a coated with barite Sheet of paper in a mixture composed as follows:

Silica airgel (e.g. Santocel C) 300 g

i% sodium sulfite solution 2800 ecm

Cadmium acetate 30 g

Lead acetate ig

Zinc nitrate 30 g

Water 100 ecm

The paper was immersed for approximately 10 seconds. The sheet removed from the mixture

was freed from excess mixture using a squeeze roller. The paper was then dried and washed in water to remove a substantial portion of the soluble salts from it remove so that a layer of silica airgel remained, which mainly contained metal sulfides.

The treatment liquid is spread in a layer approximately 0.05 to 0.075 ^mm thick between the treated barite surface of the film 12 and the silver halide emulsion _{6 of} the photosensitive film 10. The emulsion ro ₆ is a relatively highly sensitive emulsion which has been exposed and thus contains a latent image, its carrier io _{a being} a white paper. The layer 14 produced by the spreading of the treatment agent between the films 10 and 12 is left untouched for approximately ½ to 1½ minutes, preferably ι minute; at the end of this time, film 12 is peeled off film 10. The film 12 removed in this way bears a positive silver image of the object of the latent (negative) image of emulsion io _b. In this form of the process, the adhesive in the layer 14 of the treatment liquid

Sodium carboxymethyl cellulose contained in it the surface of the film 12 on which it has solidified to form a film.

Those still in the unexhausted film containing the print either in the surface of the Film 12 or amount of amine contained in the residue of layer 14 begins shortly after it is peeled off of the one containing the deduction. Film to evaporate from the photosensitive film, so that the The alkalinity of the film containing the print is soon reduced to the point that stains and others Sources of! Instability do not arise.

In the process just described, other substances can be used in other amounts to a considerable extent. So z. B. the film-forming material in the treatment agent, through which this achieves the desired viscosity, can be replaced by one of the high molecular weight polymers that are resistant to alkalis and soluble in aqueous alkaline solutions. It can e.g. B. other plastics such as oxyethyl cellulose, carboxymethoxyethyl cellulose, polyvinyl alcohol and the sodium salts of polymethacrylic and polyacrylic acid can be used. Desirably, these materials should be present in the treatment composition in such amounts that the liquid at a temperature of about 24 ⁰ reaches a viscosity of 1000 cP. The viscosity of the treatment agent should preferably be between 1000 and 200,000 cP.

As a developer z. B. can be used: ρ - aminophenol hydrochloride, bromohydroquinone, Chlorohydroquinone, diaminophenol hydrochloride, toluhydroquinone, monomethyl - ρ - aminophenol sulfate, a mixture of hydroquinone and p-oxyphenylaminoacetic acid in equal parts by weight and a mixture that is a quarter by weight from hydroquinone, and three quarters from p-oxyphenylaminoacetic acid composed.

Other complexing substances can be used to form the soluble silver complex Sodium thiocyanate, ammonium thiocyanate and ammonia can be used.

The carrier i2 _{a of} the film 12 can be made of gelatin, cellophane, polyvinyl alcohol, sodium alginate and cellulose ethers, e.g. B. methyl cellulose, and its derivatives, e.g. B. Oxyäthylcellulose exist.

An example of a treatment liquid whose only alkalizing agent is an amine, is following:

Example 2

Water 370.0 ecm

Carboxymethoxyethyl cellulose 20.0 g

Diethylamine 38.0 ecm

Sodium sulfite 15.0 g

Sodium thiosulfate 4.0 g

Hydroquinone 12.9 g

-Methyl p-aminophenol sulfate (Metol) .. 0.4 g

Chlorobenzotriazole 0.14 g

85 Example 3

The concentration of sodium hydroxide in the treatment composition of Example 1 can be increased so that equivalent amounts of sodium hydroxide and amine are present in the composition, in which case the stabilizing effect of the volatile amine is completed by placing on the print-receiving film 12 of Example 1 applies a further stabilizing composition containing 4.6 percent by weight of gum arabic and 10 percent by weight of dimethyl oxalate, as a result of which a thin gum arabic coating containing dimethyl oxalate is formed on the silica airgel layer 16 of this film. Arabol, an aqueous solution, can be used as gum arabic of gum arabic, the solids content of which varies between 57 and 6 ° / o and the viscosity of which varies between 1500 and 5000 cP.

Another print-receiving film 12 which is particularly useful if the stabilizing effect of the volatile amine is to be improved, is produced exactly as described in example 1, only the washing out of the excess is refrain from soluble salts, so that these no can help stabilize the positive deduction.

Example 4

When a release liner is provided on the surface of the print-receiving film, one can use the remaining carboxymethyl cellulose film with the photosensitive film instead with the film receiving the print. This is done by brushing the treated surface of the print-receiving film of FIG. B. with the help of the smooth surface of a polished metal drum, with a 5% polyvinyl alcohol solution in a layer thickness of about 0.025 mm. Instead of polyvinyl alcohol, the equivalent weight of oxyethyl cellulose or polymethacrylic acid can be used.

Another example of a treatment liquid, its only alkalizing agent is an amine is the following:

Example 5

Water 400.0 ecm

Carboxymethyl cellulose 20.0 g

28% ammonia solution 15.0 ecm

Sodium sulfite 25.0 g

Sodium thiosulfate 5.6 g

Chlorobenzotriazole 0.4 g

It should be understood that the practical use of volatile amines as photographic agents depends at least in part on proper volatilization of these reagents is prevented before it is applied to the photosensitive emulsion. The container 20 that holds the ao contains hermetically sealed treatment agent and prevents losses due to volatilization of the amine, enables together with the treatment agent of the invention in a novel way Manufacture of a practical and useful photographic product.

It has already been mentioned that some reagents of the treatment liquid in or on the films, which are treated with the treatment liquid can be contained in order to be released from this as soon as the liquid is squeezed out of the container 20 and applied to the films. The contents of the container can be made from an aqueous solvent, a film-forming thickener and the volatile amine, while the other reagents consist of the treatment liquid are contained in solid form in or on the surface of the films 10 and 12 with the liquid to be treated.

As mentioned above, the silver precipitating agent which can reduce and precipitate the metallic Silver supported in the positive deduction, in which developer will be included. A liquid that is in This way is well applicable and in which there is a special silver precipitation layer on the den

■ 45 print-absorbing film is unnecessary, is composed as follows:

Example 6

Water 4iS, o ecm

Sodium carboxymethyl cellulose

(mean viscosity) 11.0 g

Sodium sulfite 25.6 g

Sodium thiosulfate 15.6 g

Hydroquinone 17.1 g

Metol 2.25 g

Diethylamine 50.0 ecm

Sodium sulfite (i% solution) 14.0 ecm

Lead acetate 0.11 g

Cadmium acetate 0.08 g

This liquid is as in Example 1 between a photosensitive emulsion and the with barite coated surface of a flat barite film distributed. After about 1 minute it will peeled the barite layer from the emulsion; the solid residue then adheres to the baryta layer of the distributed liquid. The silver precipitate that makes up the positive is mainly in this one Residue film is formed and gives a positive proof of good quality, high resolution and excellent stability.

Claims (13)

PATENT CLAIMS: i. Photographic process for making a contact transfer coming print with the aid of a latent image that is present in the silver halide emulsion an exposed film is included and in which only a single liquid treatment produces a stable image, characterized in that one uses an alkaline treatment liquid 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 that places the treatment liquid between the outer surfaces of the photosensitive film and the applied sheet is enclosed until the latent image developed in the silver halide emulsion and a print with the opposite brightness values of this latent image emerged in the image receiving layer of the entire arrangement and that the two layers are separated from one another and the volatile amine evaporated leaves. 2. The method according to claim 1, characterized in that that the treatment liquid is spread in a layer between the photosensitive film of the image receiving sheet. 3. The method according to claim 1 or 2, characterized in that a treatment liquid which is a solid film under normal working conditions contains forming thickener, ■ the residue of which is the layer receiving the print results. 4. The method according to claim 1 or 2, characterized in that only part of the surface the image receiving sheet is used as the image receiving layer. 5. The method according to any one of claims 1 to 4, characterized in that the treatment liquid between the light-sensitive film and the image recording sheet by opening a hermetically sealed iao senen container is distributed. 6. A method according to any one of claims 1 to 5, characterized in that an amine is used that has a lower than 175 °, boiling point and has a _pH-value over 10 in 1 η solution. 7 · The method according to any one of claims ι to 6, characterized in that a water-soluble amine is used. 8. The method according to any one of claims ι to 7, characterized in that as volatile Amines ammonia, diethylamine, triethylamine, diisopropylamine, allyiamine or ethylamine be used. 9. Alkaline treatment solution for carrying out the method according to claims 1 to 8, characterized in that it is mainly a volatile alkaline component Contains amine, which is prevented from volatilization before and during development, but disappears after the development without any special aid measures. 10. Treatment liquid according to claim 9, characterized in that it is in one Container is located to prevent the volatilization of the volatile amine it contains able. 11. The container with a solution according to claim 10, characterized in that the volatile amine contained therein has a boiling point lying below 175 ⁰ and having a _pH-value over 10 in 1 η solution. 12. The container with a solution according to claim 10 or 11, -dadurch in that the treatment liquid has a _pH value about. 11 13. Container with solution according to one of the preceding Claims, characterized in that the treatment solution contains water and a volatile amine dissolved therein. Considered publications:
U.S. Patent No. 2,525,532. For this 1 sheet of Zedchnuiigen © 609617/445 8.56 (609 833 2. 57)