DE1085423B - Process for the production of photographic transfer images - Google Patents

Description

The invention relates to a photographic copying and transferring method for reproduction of templates in which a photopolymerization system is used.

There are a number of known methods for reproducing documents in which different hardened silver salt emulsion layers are used and non-hardened layers of these layers on top of one another Carrier, preferably paper, are transferred. In general, the so-called reflex copying method is used applied, in which an emulsion layer is exposed through its support and a positive image is a Document or another template is received. Such methods are e.g. B. U.S. Patents 2,592,368, 2,596,756, 2,716,059 and in German patent specification 1,015,313.

These above-mentioned methods are based on the use of photosensitive, practically uncured Silver halide emulsions that are hardened differently after exposure by exposure to it a gelatin tanning (hardening) silver halide developer, e.g. B. catechol, 3,4-dioxydiphenyl, 2,5-Dioxydipheny] or the like. Be exposed. Some of these processes use the emulsion a developing agent and a color-forming component are added so that when developing in different hardening and color formation occurs in the treated emulsion. The disadvantages of this method consist in the simultaneous use of silver halide emulsions and treatment solutions, wherein the latter are subject to temperature regulation and progressive exhaustion.

A simple method of making positive copies by a transfer process has now been developed, in which a polymerizable vinyl monomer dispersed in a colloidal carrier and a photosensitive polymerization catalyst on a support, such as. B. paper, film or the like, is applied, whereupon the emulsion layer is exposed reflectively behind a suitable original and then after slight moistening against another carrier, such as. B. paper, is pressed until the not polymerized Parts of the exposed coating are transferred to the second support. The parts of the layer that are transferred can then be used by further photopolymerization and / or by treatment with a dye Enhancement of the contrast can be hardened.

In the method according to the invention, for. B. applied to paper a coating made of a vinyl monomer, such as. B. acrylamide, and a crosslinking agent such. B. Ν, Ν'-methylene-bis-acrylamide, there is a certain amount of a colloidal binder, such as. B. gelatin, and a photosensitive photopolymerization catalyst, such as. B. a water soluble method of manufacture
photographic transfer images

Applicant:

General Aniline & Film Corporation,
New York, NY (V. St. A.)

Representative: Dr. W. Schalk, Dipl.-Ing. P. Wirth,

Dipl.-Ing. G. E. M. Dannenberg

and Dr. V. Schmied-Kowarzik, patent attorneys,

Frankfurt / M., Große Eschenheimer Str. 39

Claimed priority:
V. St. v. America December 30, 1958

Andre Kurt Schwerin, Binghamton, N.Y.,

Steven Levinos, Vestal, NY,
and Fritz Walter Hellmut Mueller,

Binghamton, NY (V. St. A.),
have been named as inventors

Silver salt, such as silver nitrate, is added. The above compounds are dissolved in water and the solution in a thickness of 5 to 10 μ on a suitable transparent support, such as. B. paper applied.

The paper provided with the coating is brought into intimate contact with the original to be reproduced and reflectographically with an incandescent light source through the coated substrate exposed. After exposure, the surface of the layer is slightly moistened by z. B. some Seconds is exposed to a fine stream of water vapor, and then firmly against a transfer paper pressed, which can consist of ordinary white paper with a slightly roughened surface. After some Seconds the papers are peeled from each other, it being found that layers of the unpolymerized Parts of the coating or emulsion have been transferred to the second paper. That did not polymerize transferred material can then be further exposed so that it photopolymerizes into a hardened mass will. After re-moistening the coating, this transfer process can be repeated several times be repeated.

To achieve a visible high-contrast image on the transfer paper, either the coating or the transferred material can be colored with a water-soluble dark printing ink by adding it to the Ink dipped or the ink applied with rollers

009 550/305

3 4

will. In this case, the transfer paper must have a fluorimen, oxyfluorimen or oxyfluoronen, in which

water-repellent surface, e.g. B. a wax surface, the unsaturated, the two Benzoiinge connecting

so that the printing ink does not get into the paper fibers carbon atom through a phenyl radical and thiazines

can penetrate. 'is substituted. All of these photopolymerization catalysts

Preferably, the clay separation is achieved by using in 5 catalysts in catalytic amounts between about the emulsion coating is brought into connection, 0.5 to 25 percent by weight, based on the monomer, which are used according to the invention after transfer to the receiving paper. Becomes zinc oxide delivers a blue-black copy image. For this or titanium dioxide alone or together with the above purposes if silver iodide is used either as a promoter called photopolymer, it is in large quantities cation catalyst or in addition to the catalyst effective up to twice the weight of the monomer, used. When using silver iodide, the coating of the monomers and the photopoly Transfer layer a sensitizer for a negative emulsion containing a silver merization catalyst iodide, such as B. Monomethyl-p-aminophenolsulfat, o-, m- consists of a colloidal carrier in which the mono- or p-dioxybenzene, 4-amino-6-sulfo-a-naphthol or the like mers and the catalyst are dispersed. Included in the photo. During exposure, the silver iodide will generally be de-graphed as such a carrier holding top layer due to the copying effect gelatine, polyvinyl alcohol, carboxymethyl cellulose, blue black. Casein or the like. Used.

Preferably the difference between the The advantages of the method according to the invention are

polymerized and unpolymerized parts, since instead of exposure.

the negative emulsion is enlarged by adding a small 20 and transferring levels of the previously known ones

Amount of a gelatin hardening substance, such as. B. photographic hardening (tanning) based

Chrome alum, admittedly: drive only one exposure and transfer stage

Instead of the acrylic mentioned as vinyl monomers is required. Subsequent or interim

amides can also be used in other water or solution washing stages, and are not needed to achieve this

average, such as B. acetone, butyl acetate, alcohol or the like., 25 of a positive image need silver halide emulsions

soluble polymerizable vinyl compounds are used and treatment solutions are not used at the same time

will. Suitable monomers are e.g. B. acrylonitrile.

N-oxyethyl acrylamide, methacrylic acid, acrylic acid, CaI- The following examples serve to illustrate

cium acrylate, methacrylamide, vinyl acetate, methyl meth- the process according to the invention,

acrylate, methyl acrylate, ethyl acrylate, vinyl benzoate, 30

Vinyl pyrrolidone, vinyl methyl ether, vinyl butyl ether, Example 1

Vinyl isopropyl ether, vinyl isobutyl ether, vinyl butyrate, The following ^{solution, designated A 5} m, was obtained

Butadiene or mixtures of ethyl acrylate with vinyl made:

acetate, acrylonitrile with styrene, butadiene with acrylonitrile A 1 "d 180 s
and the like. All of these monomers were found to be 35 N ^ .Ehykn-bis-acr'ylamide '.'. '.'. '.'. '. '.'. '. £ 20
in the method according to the invention in the presence ™. ■ <20 σ
a photopolymerization catalyst sufficiently cured so that the unpolymerized material can be transferred onto a rigid paper support without the polymerized coating being produced:
Material is also transferred. 4 °. ₅ 15 e

Crosslinking agents such. B. the aforementioned N, N'-Me- ^ q ₀ ; ' inert gelatin 30 g

ethylene-bis-acrylamide, are used to increase the mol- 68% ° aqueous solution of Ag NO ₃ "."! 2.5 g

kulargewichts and thus at the same time to increase the g ₀ ; Saponin 25g

physical hardness of the photopolymerization,

obtained polymers. The use of encryption ⁴ ^ After drying, the paper was treated with a crosslinking agents is therefore appropriate, and it is brought to printed template into contact and through diesemZweckeineungesättigteVerbindungmitwenigstens its carrier (reflex copying process) with a two terminal vinyl groups, each with an active light source (500 watt projector, distance about carbon atom in a straight chain or in a 2.10 m, 20 seconds) exposed. After the exposure ring connected are used; An example of the -5 ° was the surface of the paper lightly covered with watery compounds is Ν, Ν'-methylene-bis-acrylamide. Steam moistened and immediately brought into contact with a transfer agent. Other agents that can be used are those of Kropa and paper (common paper with a slightly roughened surface - Bradley in "Industrial and Engineering Chemistry", surface). The superimposed 1939, Vol. 31, No. 12, described crosslinking agents, papers were rolled with a rubber roller and after such. B. triallyl cyanurate, divinylbenzene, divinylketone 55 deducted from each other for a few seconds. One obtained and diglycol diacrylate. In general, the brownish positive image on the transfer paper, crosslinking agent is used in an amount of 10 to 50 parts, depending on the partial transfer of the reduced silver monomer per part of crosslinking agent. nitrates from the negative emulsion.

It can do a variety of photopolymerization.Clear, sharp lines and letters were obtained,

catalysts are used, such as. B. photosensitive ⁶ °

borrowed silver salts or silver salt emulsions, the mixtures of Example 2

of super compounds and amphoteric metal oxides, _{£ s was a} negative emulsion of the following ingredients

Highly sensitive organic peroxides such as B. _{Licht- Sammense} t _ZUIlg used:
sensitive di-tert-butyl peroxide; photosensitive

Diazonium compounds, such as. B. those in the USA - 65 A ⁵ m 15 g

Compounds described in U.S. Patent 2,471,959; 10% inert gelatin 30 g

Benzoquinone; Zinc oxide or titanium dioxide alone or in titanium dioxide 4 g

Mixture with 1) Mercury, Thallium or Iron Rose Bengal, 8 mg

salts, 2) organic oxidizable carboxylic acids, of which 10% chrome alum 0.5 ecm

Salts, aldehydes, phenols and amides, or 3) amino- 70 8% saponin 2.5 ecm

Using the same exposure and transfer procedure as in Example 1, a positive image was obtained on the transfer paper.
π. -ίο

A negative emulsion of the following composition was produced:

10 ° / ₀ merte gelatin '!!!!!!!!!!!!!!!! 30 g
68% aqueous solution of AgNO ₃ .... 2.5 ecm silver iodide 2 5g

10 ° / ₀ chrome alum '!!!!!!!!!!!!!!!!!!! 0 ^ 5 ecm
8% saponin 2.5 cm

The same exposure procedure as in Example 1 was used. The one used as the transmission medium The following solution was coated on paper:

Resorcinol 3 g

Sodium sulfite 8 g

■ ^ y _asser jQQ _K

The paper was dried prior to transfer. After the transfer, appeared on the transfer paper a positive image that quickly turned blue-black. The lines and letters of the printed matter were reproduced in clear outline. The transfer process could after re-moistening the negative emulsion Repeated 4 to 5 times.

^ice P ^ie

The following solution, designated W-5, was made:

Acrylamide 180 lbs

Ν, Ν'-methylene-bis'-acrylamide ". '.'. '.'. '.'. '.'. '. 7 g
Water 120 g

The following coating was applied to a stiff paper support:

W-5 10 ecm

ΙΟ «/ ,, Gelatin solution '!!!!!!!!!!!!!!!!!!!! 35 ecm Silver fluoride emulsion (commercial type) 5 ecm

After drying, the coating was in contact with a printed master for 2 minutes illuminated by refiex with a 500 watt spotlight placed about 28 cm from the coating became. After exposure, the coating was pressed against damp transfer paper for 1 minute. That Transfer paper was then peeled off and exposed to polymerize the transferred monomeric coating. This created a direct copy or an original on the transfer paper and a Original opposite image formed on the exposed material.

Claims (12)

Patent claims: 1. A method for producing photographic transfer images, characterized in that one is a photosensitive emulsion located on a support, the one in a colloidal support containing dispersed polymerizable vinyl monomer and a photopolymerization catalyst, reflectographically exposed until the exposed SteEen hardens, then the emulsion with a transfer film brings into contact until the transfer of the unpolymerized areas of the emulsion on the transfer film is done and the transfer film is separated from the emulsion. 2. The method according to claim 1, characterized in that a crosslinking agent is added to the colloidal carrier ^ ₁₁₁₁ ^3. Process according to Claim 1, characterized in that ^a photosensitive silver compound is used as the photopolymerization catalyst 4. The method according to claim 1, characterized in that the photopolymerization catalyst a photosensitive silver salt emulsion is used. ^. Method according to claim 1, characterized in that that as a photopolymerization catalyst activated by an amphoteric metal oxide photosensitive silver compound is used. (,. Process according to claim 1, characterized in that _em light-sensitive organic peroxide is used as the photopolymerization catalyst. 7. The method according to claim 1, characterized in that the photopolymerization catalyst a metal oxide, in particular zinc oxide or titanium dioxide, is used. 8. The method according to claim 1, characterized in that the photopolymerization catalyst Zinc oxide or titanium dioxide is used, which by using a heavy metal salt, in particular Thallium, mercury or iron sac is activated. 9. The method according to claim 1, characterized in that the photopolymerization catalyst a photosensitive diazonium compound is used. ¹⁰ · The method of claim 1, characterized in that a water-soluble or organic solvent-soluble Vmylmonomeres m and a water-soluble or soluble in organic solvents Photopolymensationskatalysator be used. 11. The method according to claim 1, characterized in that a photosensitive, silver] odide containing emulsion and a transfer sheet containing a sensitizer for silver iodide are used will. 12. The method according to claim 1, characterized in that the photopolymerization catalysts Zinc oxide or titanium dioxide are used, which are produced by an oxidizable organic compound, in particular organic carboxylic acids whose salts, aldehydes, phenols and amides are activated. I _3- process according to claim 1, characterized in that zinc oxide or titanium dioxide are used as photopolymerization catalysts which are substituted by a dye, in particular aminonuorimes, oxyfluorimes or oxyfluorones, in which the unsaturated carbon atom connecting the two benzo rings is substituted by a phenyl radical and thiazines, is activated.