DE1671590B1 - Process for the production of a hectographic printing form and printing plate for this - Google Patents

Description

¹ 2

There are already imaging methods known, the gungsmatrize known in which a ^ sheet with a

work with layer transfer of a colored fabric, dye-containing layer and one adhering to it

however, they are complex and difficult to break through. Layer a breakable, hydrophilic, alcohol-containing layer

lead, as they ah- impermeable organic colloid against a by photochemical reactions

hang and generally a specific layer - 5 moist, adhesive photographic image is pressed,

substances for the two functions of the image-wise until it adheres to the colloidal layer. then

require shared transfer and image coloring. the adhesive picture is removed again, whereby

A typical example of the intricate structures parts of the colloidal layer sticking to it,

and the sensitive substances used, which are known on the sheet, resulting in image-wise dispersed

The process is described in US Pat. No. 3,091,529, uncovered areas of the dye-containing layer, see above

described. This known method is not only that it can be used as a duplicating template

as a result of separate substances for image coloring and image can.

moderately distributed transmission complicated, but also this procedure is complicated and unwieldy.

imagewise- "distributed transfer hangs in general, especially because it is damp and sticky

of a light induced chemical 15 photographic image required. However, it leads to one

Reaction that changes the adhesive force of the layer. The image that will be used as a reproduction stencil

Effectiveness of this photochemical reaction depends on the can and thus the mass production

in turn made possible by the random behavior of the copies.

used catalysts, the temperature, the pH The object of the invention is now a

Value and many other factors that influence the 20 process of making a hectographic

speed and the effectiveness of chemical reaction printing form to create that while avoiding the

generally influence actions. Many known method disadvantages of known methods a fast and M

Ren use light-sensitive diazo compounds, which allows easy imaging and a ^

which, with regard to its sensitivity to light, is known to lead to the printing form, which is used as a reproduction matrix

react notoriously slow. Furthermore, as a result, they are versatile and have good quality copies

their complexity and their critical properties.

mostly difficult and costly at first. Such a method is according to the invention

to set up and continue to be trained only by trained persons,

to execute. A production of copies in large a) that one uses a plate that consists of a

Number in the manner of a rapidly executable carrier layer with one applied thereon

Duplication is not possible with this method.

lich. Tic radiation-activatable image layer

In French patent specification 1 478 172 there is a description of an imaging process on a receiving sheet, in which a layer of a tough-soft photosensitive substance is applied over a large area of a tough-soft photosensitive substance, with the on one or both -, - substrate is used. This substance is activated, the layers provided on the sides of the image substance layer by treating it with a swelling agent or a solvent that is partially effective for electromagnetic radiation, which is a permeable substance,
makes its surface slightly sticky and b) first of all structurally softened on the image material layer in such a way that it is applied along an activating agent,
sharp line that delimits the image to be reproduced c) then activates the plate with an image pattern, can be broken more easily. The electromagnetic radiation exposure and activation step can, however, be omitted if simultaneously exposed to an electric field g (1.) the layer contains enough residual solvent from d) "and finally the carrier layer from the" coating process, (2.) the layer of 45 Receiving sheet separates.

turned out to be sufficiently soft that they are desired in. According to the invention, a support surface is provided

ter way breaks, or (3.) see the receiving sheet with a cohesive-softer light-sensitive

is coated with a substance which is present in the image substance when heated, as well as a receiving sheet

Image material layer flows into it and so softens it, one side of which is a uniform layer of one

that it breaks in a pictorial distribution. After the 50 soluble duplicating agent, dispersed in one

A receiver, wax or resin binder is present to activate the image layer. After the act

sheet placed on them. An electric field is generated across at least the image material or the reproduction

of this multiple plate produced during an exposure folding layer with a suitable swelling agent or

the coated

reproducing image is made. When separating 55 surfaces of each layer carrier with one another

tion of the carrier layer brought into contact with the receiver sheet, thereby creating between the layers

breaks the image layer along which a bond is created by the light. Then there is an electric field

Shadow pattern of exposure to specific lines. generated on this multiple plate, while a

Part of the image layer is based on the receiving exposure with a light-shadow pattern.

sheet transferred while the remainder of the carrier layer 60 speaking made the image to be reproduced

adheres so that a positive image becomes on one surface. When separating the carrier layer and the one with the

and a negative image on the other surface produces a duplication layer of coated receiver sheet

will. Such a method produces contrast breaks the soft photosensitive image material along the

Rich and sharp images, however, is equally good for one due to the light-shadow pattern of the exposure

. Masseijhers ^ elhiSgi ^ on copies of a picture to cost- 65 definite lines. Because of the cohesive bond to

It's playful and complicated. the boundary layer between the image material and the

US Pat. No. 2,898,852 describes a duplicating layer as both substances as one

Transferred method for the production of an alcohol duplicating unit. In this way you will be certain

i 671 590

Parts of the image material on the receiving sheet transfer components of this layer preferably in such a way and completely cover the underlying duplication, so that they are on the one hand very sensitive to light wrinkle layer. The other parts of the surface remain, on the other hand, have an intense color, so the fabric on the underlying carrier layer that a high-contrast image can be created. So adhere, however, it will be covered with the duplication layer 5, for example, in the case of the two-phase the standing arrangement peeled off from the receiving sheet became intensely colored photosensitive. In this way, depending on the pigment used, for example blue Exposure, a positive or negative alcohol * phthalocyanines, red quinacridones and the like. The crystal duplication matrix - Metal-free phthalocyanines, for example, on the carrier layer and linear forms corresponding negative or positive on the i ° wise the alpha form, special represent preferably Receiving sheet, Is the receiving sheet transparent or pigment substances for use in the invention uniform translucent, it can be used as a projection method, as it has a very strong light-sensitive image be used. The same applies to the Hch are. It should be noted, however, that the Carrier layer. intensive coloring of the photosensitive material itself

The method according to the invention is simple and, although preferred, can also be carried out cleanly for high-quality images, since it is not critical with contrasts, since the binding agent itself works with a specially generated adhesive image. With additional coloring agents either in the one * exposure and field generation, the two-phase or two-phase system are colored or carried out at the same time, so that pigmentation can also be carried out more quickly. Therefore, even through the flow is guaranteed. The special advantage is that ² ° visible substances are used, in the creation of a negative and one each suitable light-sensitive substance can be used

Positive image, both of which can be used as matrices, can be applied to the method according to the invention, and if they are carried out appropriately, its selection being largely based on the required documents also being suitable as projection images. borrowed photosensitivity, the sensitivity-a provided for the implementation of the process ² 5 .Spektrum, the desired contrast of the final printing plate is designed in such a way that a carrier image depends on the choice of a heterogeneous or homogeneous layer with a thin system applied to it and similar considerations . Ty = - cohesively soft photoconductors peculiar to electromagnetic radiation are: Substituted and non-activatable image material layer, on a layer on a substituted phthalocyanine, quinacridone, zinc oxide, receiving sheet or intended duplication- 30 mercury sulfide, Algol Yellow (CI No. 67 300), layer and that the layers of scarlet toner (CI No. 71140), zinc sulfide, selenium, provided on one or both of the cadmium sulfide, cadmium selenide, inddfast brilliant sides of the fabric layer, consist of a substance capable of electromagnetic radiation through antimony sulfide, mercury oxide, indium trisulfide, ^ Tilbaren . tandioxide, arsenic sulfide, Pb ₃ O ₄ , gallium triselenide, zinc

The invention is described below on the basis of cadmium sulfide, lead iodide, lead selenide, lead sulfide, lead Figures illustrated embodiments telluride, lead chromate, gallium telluride, mercury ^ wrote. It shows selenide and iodides, sulfides, selenides and tellurides

1 shows the section of a pressure plate for converting bismuth, aluminum and molybdenum. Furthermore the A twist in the process according to the invention, more soluble organic photoconductors (which the

F i g. 2 facilitate the cut of another embodiment 4 ° production of homogeneous arrangements), a printing plate, especially in connection with small quantities

F ig 3 shows the sequence of the comparison of the invention (up to about 5 ° / ₀₎ of suitable Lewis acids. Typical driving and such organic photoconductors are: 4,5-Diphenyl-

FIGS. 3a and 3b are sectional images, which in FIG. 3 are imidazolidinone; 4,5 - diphenylimidazolidine ethione; illustrated process steps illustrate, 45 4,5-bis (4'-aminophenyl) 'imidazolidinone; 1,5-dicyano

In FIG. 1, a supporting carrier layer 11 is darge naphthalene; 1,4-dicyanonapb.thalene; Aminophthalo which is provided with an image layer 12. dinitrü; Nitrophthalidinitrile; 1,2,5,6-Tetraazacyclo-In the manufacture of the picture plate, hereinafter octatetrain- (2,4 ₃ 6,8); 3,4-di- (4'-methoxyphenyl) r7,8 ^ di ^ also is referred to as a multiple plate, is the picture phenyl - 1,2,5,6 - tetraazacyelooetatetrain ^ (2,4,6,8) ·. Layer of fabric 12 applied as a coating to the carrier layer 11 5 ° 3,4-di- (4'-phenoxyphenyl) -7,8-diphenyl-1,2,5,6-tetraso that it adheres to this. At the azacyclooctatetrain- (2,4,6,8); 3,4,7,8-tetramethoxy ^ illustrated embodiment consists of the fig- l, 2,5,6-tetraazacylooctatetrain- (2,4,6,8); 2-mercapto fabric layer 12 made of a disbenzothiazole in a binder 14; 2-phenyl-4-diphenylidene oxazolone; 2-Phepersed photoconductive pigment 13. This di-nyl-4-p-methoxy-benzylidene-oxazolone; The 6-hydroxyphase system forms a preferred 55 2-phenyl-3 - (ρ-dimethylaminophenyl) -benzofurane form of the image layer 12. However, 6-hydroxy-2,3-di- (ρ-methoxyphenyl), benzofurane can also be used ; homogeneous layers, for example from a. 2,3,5,6-Tetra- (p-methoxyphenyl) -furo- (3,2f) -benzor single portion or a solid solution of two or furan; 4-dimethylamino-benzylidene-benzhydrazide; consist of several proportions, are used, wherein 4 - Dimethylaminobenzylidenisonicotinsäurehydrazid; these layers have the desired lipid sensitivity 6 ° furfurylidene - (2) - 4 '- dimethylamine - benzhydrazide; and have physical properties. The for the 5'Benziüden-amino-acenaphthen; 3-benzylidene-ami image material includes 12 desirable basic physinp-carbazole; (4-N, N-Dimethylarmno-benzylidene) vp-N, Kalishe property is that it is breakable N-dimethylaminoaniline; (2-nitro-benzylidene) -p-bromine and a relatively low cohesive force either aniline; N, N- Dimethyl-N '- (2-nitro-4-cyano-benzylidene) -in the state as a coating or after still to be 65 ρ - phenylene - diamine; 2,4 - diphenyl - quinazoline; has been activated in writing. Since the 2- (4'-Arriino-phenyl) -4-phenylehinazoHn; 2-phenyl image layer 12 the photosensitive and also 4- (4'-dimethyl-aminophenyl) -7-methoxyquinazoline; The coloring element of the process is said to be 1,3-diphenyl-tetrahydroimidazole; 1,3-di- (4'-chloro-

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5 6

phenyl) tetrahydroimidazole; 1,3-diphenyl-2,4'-dime- and tetrachlorophthalic acid; - oc - /? - dibromo- / Sformylthylammo-phenyl) -tetrahydroiniidazole; 1,3-di- (p-to-acrylic acid (mucobromic acid); dibromomaleic acid; lyl) -2- [quinolyl- (2 '-)] tetrahydroimidazole; 3- (4'-Dime-2-bromo-benzoic acid; gallic acid; 3-nitro-2-hythylamino-phenyl) -5 - (4 "-methoxy-phenyl-6-phenyl-hydroxyl -1-benzoic acid; 2-nitrophenoxyacetic acid , 1,2,4-triazine; 3-pyridil- (4 ') - 5- (4 "-dimethyl-amino-phe-5 2-nitrobenzoic acid; 3-nitrobenzoic acid; 4-nitroben-nyl) -6-phenyl-1, 2 ₅ 4-triazine; 3- (4'-aminophenyl) -5,6-dizoic acid; 3-nitro-4-ethoxybenzoic acid; 2-chlorophenyl-1,2,4-triazine; 2,5-bis [ 4'-aminophenyl- (l ')] - 4-nitro-l-benzoic acid, 2-C-Mor-4-nitro-l-benzoic acid, 1,3,4-triazole; 2,5-bis- [4' - (N-ethyl-N-acetyl-amino) -J-Nitro-4-metb.oxy-benzoic acid, 4-nitro-1-methylamino) -phenyl- (1 ')] -1, 3,4-triazole; ljS-diphenyl-S-me- 'benzoic acid; 2-chloro-5-nitro-1-benzoic acid; 3-chlorothylpyrazoline; 1,3,4,5-tetraphenylpyrazoline; 1-Me- io 6-nitro-1-benzoic acid; 4-chloro-3-nitro-1-benzoic acid; ethyl 2- (3'4'-dihydroxymethylene-phenyl) -benzimidazole; 5-chloro-3-nitro-2-hydroxybenzoic acid; 4-chloro-2- (4V dimethylaminophenyl) benzoxazole; 2- (4'-meth-2-hydroxybenzoic acid; 2,4-dinitro-1-benzoic acid; oxyphenyl) -benzthiazole; 2,5-bis- [p-aminophenyl- (l)] - 2-bromo-5-nitrobenzoic acid; 4-chlorophenylacetic acid; 1,3,4-oxidiazole; 4,5-diphenyl-imidazolone; '3'-amino-2-chlorocinnamicacid; 2 - cyano - cinnamic acid; carbazole; Copolymers and mixtures of these substances. 15 2,4-dichlorobenzoic acid; 3,5-dinitrobenzoic acid; Any suitable Lewis acid (electron acceptor) can include 3,5-dinitro-salicylic acid; Malonic acid; Mucic acid; along with many of the above better acetosalycylic acid; Benzilic acid; Butane-tetra-carboxyl-soluble organics and with many of the acid; Citric acid; Cyanoacetic acid; Cyclohexane-poor soluble organics uses dicarboxylic acid; Cyclohexanecarboxylic acid; 9,10-Di werden, causing substantial increases in light 20 chlorostearic acid; Fumaric acid; Itaconic acid; Reveal levulin sensitivity. Typical Lewis acids are: acid; (Levular acid); Malic acid; Succinic acid; 2,4,7-trinitro-9-fluorenone; 2,4,5,7-tetranitro-9-fluoro-alpha-bromostearic acid; Citraconic acid; Dibromomernone; Picric acid; 1,3,5-trinitrobenzene chloranil; stinic acid; Pyrene-2,3,7,8-tetracarboxylic acid; Wine benzoquinone; 2,5-dichlorobenzquinone; 2,6-dichloric acid; organic sulfonic acid such as 4-toluenesulfonobenzoquinone; Chloranil; Naphthoquinone-Cl ^); 25 acid and benzenesulfonic acid; 2,4-dinitro-1-methyl-2,3-dichloronaphthoehinone- (1,4); Anthraquinone; 2-benzene-6-sulfonic acid; 2,6-dinitro-1-hydroxybenzenethylanetrachinone; 1,4-dimethylanthraquinone; 1-chloro-4-sulfonic acid and mixtures of these substances, anthraquinone; Anthraquinone ^ carboxylic acid; 1,5-Di- Furthermore, other photoconductors can be connected by connecting

chloranthraquinone, 1-chloro-4-nitroanthraquinone; one or more suitable Lewis acids with Phenanthrenequinone; Acenaphthenquinone; Pyran-30 polymers are produced, which normally do not have any threnquinone; Chrysenequinone; Thionaphthenquinone; Photoconductors are. Typical for these compounds Polymers suitable for anthraquinone-l ^ -disulfonic acid and anthraquinone are: polyethylene terephthalate, 2-aldehyde; Triphthaloylbenzene aldehydes such as bromal, polyamides, polyimides, polycarbonates, polyacrylates, 4 - nitrobenzaldehyde; 2,6 - dichlorobenzaldehyde-2, polymethyl methacrylate, polyvinylnuoride, polyvinyl-ethoxy-1-naphthaldehyde; Anthracene-9-aldehyde; Py-35 chlorides, polyvinyl acetates, polystyrene, styrene-butadienrene-3-aldehyde; Oxindole-3-aldehyde; Pyridine-2,6-dialde- copolymers, polymethacrylates, silicone resins, chlorohyd, Biphenyl-4-aldehyde; organic phosphorous rubber and mixtures and copolymers of these Acids such as 4-chloro-3-nitrobenzenesophosphorous acid; Substances, thermosetting resins such as epoxy resins, phen-nitrophenols such as 4-nitrophenol and picric acid; oxide resins, phenols, epoxy-phenol copolymers, Acid anhydrides, for example acetic anhydride, 40 epoxy-urea-formaldehyde copolymers, epoxy-succinic anhydride, Maleic anhydride; phthalic melamine-formaldehyde copolymers and their geeigsäureanhydrid, Tetrachlorophthalic anhydride; Peryne mixes. Other typical resins are Epoxydlen-3,4,9,10-tetracarboxylic acid and Chrysen-2,3,8,9-te- esters, vinyl epoxy resins, tall oil modified epotracarboxylic acid anhydride; Dibromaleic anhy- xyds and their usable compounds. drid; Metal halides of metals and metalloids 45 In connection with the heterogeneous arrangement, let of Groups IB, II to VIII of the Periodic Table, pointed out that the photoconductive particles z. B. aluminum chloride, zinc chloride, iron chloride, even from any suitable one or more of the pre-tin tetrachloride, (tin chloride); arsenic trichloride; tin The photoconductor mentioned above is either organic oxychloride; Antimony pentachloride, magnesium chloride, or of an inorganic nature can be dispersed Magnesium bromide, potassium bromide, calcium iodide, 50 in solid solution in or copolymerized with each Strontium bromide, chromium bromide, manganese chloride, suitable non-conductive resin, the resin itself Cobalt chloride, cobalt chloride, copper bromide, cerium may or may not be photoconductive. This special kind chloride, thorium chloride; Arsenic triiodide; Boron halide of particles in particular can be used to facilitate the compounds, for example boron trifluoride and boron dispersion of the particles, as well as non-trichloride; Ketones such as acetophenone benzophenone; 55 desired reactions between binder 14 2-acetyl-naphthalene; Benzil; Benzoin; 5-benzoyl and the photoconductor or between the photoconductor and acenaphthen, biacen-dione, 9-acetyl-anthracene, 9-ben- dem activating agent for similar purposes verhinzoyl-anthracene; 4- (4-dimethylamino-cinnamoyl) -l-ace- to the. Typical such resins are polyethylene, tylbenzene; Acetoacetic anilide; Indanedione- (1,3) -polypropylene, polyamides, polymethacrylates, poly- (1-S-diketo-hydrindene ^ acenaphthene-monon-dichloride; 60 vinyl chlorides, polyvinyl acetates, polystyrene, polysilo-anisil, 2,2-pyridil; Furil; Mineral acids such as xanes, chlorinated rubbers, polyacrylonitrile, epoxies, Hydrogen halides, sulfuric acid and phosphorus phenols, hydrocarbon resins and other natural acids; organic carboxylic acids, such as acetic acid, and resins, such as rosin derivatives and mixed anders Substitution products; Monochloroacetic acid; genes and copolymers of these substances. Dichloroacetic acid; Trichloroacetic acid; Phenylessig- 65 The volume ratio of the photoconductor 13 to acid and 6-methyl-coumarinyl acetic acid- (4); Malein binder 14 can be used in the heterogeneous arrangement acid, cinnamic acid; Benzoic acid; l- (4-diethyl- for example between 10: 1 and 1:10, however amino-benzoyl) -benzene-2-carboxylic acid; In general, phthalic acid was found to be between 1: 2 and

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2: 1 the best results are possible, which is why this is any soluble dye that is inherently a beder is the preferred range used. shows the right color, for example at

As already described, the image layer 12 has the dyes for the conventional alcohol clubs Relatively low cohesive force is the case either in the multiple state, and also in transferable of the fresh coating or after suitable active substances with latent coloring, which when combined with fourth. Of course, this applies to the homogeneous use of a suitable reactant an intensively and the heterogeneous arrangement too. A process for producing colored substance. This intensely colored Realization of low cohesive force in the substance can then be transferred to a copy sheet Layer 12 consists in being relatively soft cohesively or as a coating on a copier fabric Low molecular weight used io sheet reactants present will direct them on will. For example, one is formed from an inventory. Suitable alcohol-soluble substances are partially existing homogeneous image layer 12 a known, for example crystal violet, methyl violet, monomeric compound or a polymer with little malachite green, nigrosine, magenta, victoria green, etc. Molecular weight, combined with a Lewis acid, other suitable copy-generating substances are provided, a high light sensitivity of the 15, for example, that in US Pat. No. 3,170,395 Layer to get. Color-forming reaction pairs are described for the image material layer 12. That As a homogeneous layer two or more component binders for the duplication layer can be made from chosen in solid solution, either or both should be any conventional wax or resin or mixtures Components of the solid solution of low molecular weight consist of these substances, for example paraffin wax, so that the layer has the desired 20 microcrystalline wax, petrolatum, beeswax, low cohesive force. This also applies to carnauba wax, ethyl cellulose or the like the heterogeneous image material layer 12 in FIG. 1 to. Wrinkle layer can consist of a suitable combination although the binder 14 in the heterogeneous nation of different waxes, resins, oils and copy order can itself be sensitive to light, it must consist of generating substances. You can also light these Property does not necessarily have, so that substances 35 contain sensitive substances, for example those for such as microcrystalline wax, paraffin wax, poly image layer 12 used to make a response low molecular weight ethylene and others with a light-shadow pattern when exposed Low molecular weight polymers as binding agents. The copy-producing material should be sufficient means solely on the basis of the physical intrinsically soluble in a duplicating liquid, examples and the fact that 30 white can be used in an alcohol mixture so that at that again they without taking into account their light-sensitive moistening of the duplication layer with are non-conductors. This also applies to a part of the copy-generating liquid from two of these liquids Components existing homogeneous arrangement too, fabric repeated on a variety of copy sheets in which non-photosensitive substances are transferred with the desired in a known manner. Will an in th physical properties in solid solution with 35 alcohol soluble color, such as B. crystal violet, sensitive to light Fabric can be used. turns, a part of this is printed on each copy sheet Any other method of achieving a color transferred until it lowers from the reproduction Cohesive force in the image material layer 12 layer has disappeared. The color reaction can be can also be used. For example, partners are used so that part of a reaction is appropriate Mixtures of incompatible substances, such as a partner from the replication layer to the Polysiloxane resin with a polyacrylic ester resin as another reactant to form the intensely Binder layer 14 transferred colored substance in a heterogeneous arrangement. Suitable solution or, together with a "homogeneous" arrangement, means for transferring part of the copy-producing in which the light-sensitive substance is either water, alcohol, benzene, acetone or the like. one of the incompatible components (together with a 45 When activating the image layer 12 or the VerLewis acid) or a special additional inventory diversification layer 15 creates a strong bond is part of the shift. The thickness of the image material layer 12 is the boundary layer between these two substances, is not critical, there were layer thicknesses between when they are in surface contact, about 0.5 and about 10 microns are used. Because of that relatively strong bond and breaking

The receiver sheet 16 has a uniform 50 of the image material layer and the duplicating layer Duplication layer 15 is provided and is part of the image material from the upon exposure Image layer 12 in contact. Although the entire carrier layer is transferred to the receiving sheet and Multiple plate in the in F i g. 1 as there covers those parts of the usual reproduction four-layer arrangement can be carried out, layer that does not apply simultaneously to the donor surface the receiving sheet can be transmitted with the duplicating 55. The replication layer will layer 15 can also be provided as a separate sheet, which is peeled off from the receiving sheet and used as a coating does not adhere to the image material layer 12 from the beginning. on the untransferred parts of the image slip layer In the in F i g. 1 illustrated embodiment of the transferred to the carrier layer. The carrier layer Multiple plate can have the backing layer 11 and that is covered with the duplicating layer receiver sheet 16 from a fabric with a relatively good 60 parts and image fabric parts the die for the multiplier Conductivity exist, for example from folding according to the present invention. Ob Cellophane, at least one of these elements of this image being a positive image or a negative image of the is optically transparent, the exposure of the original image depends on the amount in the image material layer 12 To enable fabric layer 12. used photosensitive substances as well as from the

The duplication layer 15 contains a large 65 polarity of the applied field, as follows Proportion of a soluble copy-producing substance which will be described later.

is dispersed within a suitable binder. Between the adhesive force of the image material layer 12 on

The term “copy-producing” relates to the carrier layer II and the duplication layer 15

009585/290

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A state of equilibrium or 19 is to be used on the receiving sheet 16, enables the application prevail, with a non-conductive polymer with high strength during imaging, at a little stronger adhesive force of the image material layer on, for example, polyethylene, polypropylene, Mylar (poly carrier layer should rule. Accordingly, the ethylene terephthalate), cellulose acetate, saran (vinyl fabrics for the carrier layer 11 and the receiving 5 chloride-vinylidene chloride copolymer) and the like 16 selected. One way of easily making these types of high strength polymers This state of equilibrium consists in the fact that not only does it provide a solid foundation for the producers the carrier layer 11 and the receiving sheet 16 th images, but additionally are electrical to use the same substances. As noted, locks between the electrodes and the image material step upon activation of the image material or the reproduction layer 12 as well as the reproduction layer 15 folding layer at the boundary layer between the two, which forms an electrical breakdown of the assembly materials prevent a strong bond either adhesive or tension.

of a cohesive nature when both substances are in surface. Combinations of the in FIG. 1

sticky contact. This is easily achieved, and FIG. 2 shows structures for carrying out the

by using the same binder 15 according to the invention for the two layers,

is used, so for example paraffin wax or with a relatively conductive layer directly with

microcrystalline wax. When activated, both form one side of the image material layer or the reproduction

Layers form a strong cohesive bond, whereby the transmission layer 15 is in contact and a conductive one

a very specific deposited insulating layer consisting of two phases on the other side

Results in substance which during the action of an electrical 20 of the multiple plate in contact with the multiplier

tric field and exposure with a pattern folding layer 15 or the image material layer 12,

breaks easily from light and shadow. At least one example of such a combination is shown in Fig. 3a

The carrier layer or the receiving sheet are shown through.

Another embodiment of the invention, so that an exposure of the multiple plate 25 according to the multiple plate is that it is possible from each side. There may be separate duplicating layers of the receiving sheet with an electrode coated on opposite sides of the thin layer of a binder, such as the backing layer and the receiving sheet provided it is used in the manufacture of the image layer 12, which enable the creation of the field. Furthermore is. After activation of the layers can be treated, the electrodes directly on the rear plate ₃₀ multiple in the manner described above surfaces of these parts as a direct component, with the result that a part of Verbefinden. Another type of field generation is a possible diversification layer from the receiving sheet to the borrowed when the carrier layer and / or the receiving carrier layer is transferred. The use of this sheet consist of a conductive substance. At least one embodiment is advantageous if one of the two elements is transparent, so that a duplication layer 15 and the image layer 12 exposure of the image layer through this electrode use different binders and this takes place. The image material layer then realizes the adhesive forces between the two layers for the two properties of photosensitivity as well as the firm bonding of both layers are insufficient.
of the coloring agent for at least one of the final results. By producing the receiver sheet in the images produced, however, other coloring agents, such as dyes and pigments, can be added to the binding between these two substances in the production process Color of the final images can be generated, while strengthening or modifying during image generation if a relatively strong cohesive bond between the should be of importance. Coating and the image material layer 12 is created. Election while in FIG. 1, one of the simplest forms of identification, the thin layer of the binding agent can contain a proportion of light-sensitive pigment substances and is shown in FIG. 2 shows another embodiment in which, similar to the image material layer 12, the image material layer 12 is then linked to one of the above. An additional advantage of this embodiment with FIG. 1 may have the forms described. form consists in that the thin coating of the In the arrangement according to FIG. 2, the image material 50 receiving sheet is the duplication layer while layer 12 on the non-conductive carrier layer 17 protects the activation from leaching, since the applied with a conductive electrode activator a solvent for the layer 18 is deposited. The remainder of the multi-duplicating layer-containing dye plate consists of a duplicating layer 15, represents.

which is on a non-conductive receiving sheet 19 55 from the in F i g. 3 shown in the diagram Located with a conductive electrode, that is the first step of the imaging process layer 21 is deposited. The replication layer 15 is the activation. In this process step and the image material layer 12 are located in the flat, the multiple plate open and the activation mode Contact. In this arrangement too, means can either be applied to the image material layer 12 or to the one or both pairs of layers 17 and 18 or 19 to 21 60 duplication layer 15 applied, after which both be see-through to allow exposure of the image material layers to be reassembled like this layer 12 to enable. Flexible, see-through, emerges from the second step shown. That conductive materials, such as B. Cellophane, which is in the activating agent can be used by any suitable management form according to FIG. 1 can be used, for example with a method are mostly cohesive, relatively soft fabrics, 65 a brush, with a smooth or rough roller, whose selection range is limited. The in F i g. 2 by pouring, by steam condensation or the like, arrangement shown, in which a non-conductive in the first shown schematically in Fig. 3a Carrier layer and a non-conductive receiving sheet 17 two process steps, the activation

11 12

liquid 23, however, on the image layer 12 of the pionate and butyl lactate, ethers, such as diethyl ether, di-multiple plate isopropyl ether, dioxane, tetrahydrofuran, ethylene sprayed out of a container 24. After applying the activating glycol monoethyl ether, aromatic and aliphatic liquid is the arrangement by means of a roller 26 hydrocarbons, such as benzene, toluene, xylene, hexane, closed, which also serves to squeeze out any 5 cyclohexane, gasoline, heavy gasoline and white mineral excess activation fluid. The active oil, ketones, such as acetone, methyl ethyl ketone, methyüsovierungsmittel creates a bond between the butyl ketone and cyclohexanone as well as vegetable oils, Image layer 12 and the duplication layer 15 such as cocoa nut oil, babussu oil, palm oil, olive oil, rizi- and reduces the cohesive force of both grain oil, peanut oil and bone oil and mixtures bound layers 12 and 15 (in the following also io of these substances.

called combined imaging layer). In certain cases, the first two can be in

thus a bond is created on the intermediate layer, FIG. 3 a, which are parallel to the surfaces of the carrier layer 11 and which are parallel to the surfaces of the carrier layer 11, are dispensed with. Cohesive force perpendicular to these surfaces is decreased 15 However, it is generally more beneficial to activate. The activating agent should also have a high step in the imaging process with specific resistance so that it does not relate to anything, because stronger and more permanent image-electrically conductive paths are then present in the combined image layers 12 and 15, which enables the generation layer and this also storage during imaging and the electric field generated during exposure. It is better to withstand transport and after the picture is taken it is generally advantageous because the handling results in more permanent pictures.
to clean the usual activating agents, so that the image layers 12 and 15 have the correct ones

impurities, which cause a higher conductivity, get physical properties, so is at the are not present. This is created by using multiple plate and an electric field a tone filter or any other suitable cleaning process achieved. Generally speaking, should take. When separating the carrier layer 17 and the the activating agent from a suitable solution receiving sheet 16 breaks up the combined image agents with the above properties generating layer along the edges of the exposed and the described effect on the combined surface parts on the surface with which they are on the carrier-imaging layer exist. In the present 30 layer 17 or on the receiving sheet 16 is adhered. To Description is intended to include the term "solvent" complete separation on the carrier type It is understood that not only the solution layer 17 parts of the image material layer 12 with a medium in the conventional sense, but also partial coating of parts of the replication layer 15, wise solvents, swelling agents or softeners while the remaining parts on the receiving sheet 16 means for the image material layers 12 and 15 meant to adhere 35, as a result of which a are. It is generally beneficial if the activation - a high-contrast positive image on the other part solvent gives a relatively low boiling point, high-contrast negative image. The one with the so that after imaging by solution coating of the duplicating layer provided medium evaporation with at most a slight Er carrier layer is used as a replication matrix according to fixation is possible. However, 40 of the invention is used. Whether the exposed parts on it should be noted that the invention does not apply to the carrier layer 17 or the receiving sheet 16 This relatively volatile activation adhesion depends on what is in the image material layer 12 in each case medium is limited. It can also be used photosensitive material as well as from the non-volatile Activating agent with a very high boiling point reduces the polarity of the acting field. If the are used, for example silicone oils, such as di- 45 initial adhesive strength of the combined Bilderzeumethylpolysiloxane and normally as transmission layers 12 and 15 only slightly higher on the Formator oil used long-chain aliphatic carrier layer 11 is than on the receiving sheet 16, so High boiling point hydrocarbon oils such as B is the combined imaging layer Wemco-C transformer oil. These oils were ultimately on the carrier layer 17, if not the also successful in the combined effect of the exposure and the one-imaging process according to the invention used. Although this less effective field is used for the adhesive strength of the recipient Activating agent does not dry by evaporation catch sheet 16 at the combined imaging, an image fixation can be achieved, in-layer added, thereby increasing the adhesive force of the bond which the final image formed on an absorbent between the combined imaging layer and Sheet is unrolled, for example on paper, which 55 of the carrier layer 17 would be exceeded. To this absorbs the activation liquid. It can so a reinforcing effect is achieved, and it can any suitable volatile or non-volatile "solvent" will result in layer transfer with relatively low activating agents be used. Typical Lö- rather exposure.

Solvents are Sohio Odorless Solvent 3440, a generation of the required electrical

aliphatic hydrocarbon fraction (kerosene); Te- 60 field is relatively easy. For some substances it results carbon trachloride, petroleum ether, Freon 214 (tetra- but a preferred polarity. So fluorotetrachloropropane), other halogenated carbons, for example, are made of finely divided Hydrogen, such as chloroform, methylene chloride, tri-particles of metal-free phthalocyanines, dispersed in chlorethylene, perchlorethylene, chlorobenzene, trichloro a microcrystalline wax, existing image monofluoromethane, Tetrachlorodifluoroethane, trichloride layer 12 produces the best images when the trifluoroethane, amides, such as formamide, dimethylform carrier layer on the illuminated electrode, the amide, ester, such as ethyl acetate, isopropyl acetate, butyl is negative, while the unlit electrode acetate, amyl acetate, cyclohexyl acetate, isobutylpro- is positive. The voltage source is correspondingly 2 $

13 14

in Fig. 3 b connected in such a way that its negative pole is connected to the carrier layer 11 and the receiving sheet 16

the pad 18 is connected, through which the applied field in biid-like distribution

the exposure to the light rays 29 made adhering parts of the image material layer 12 to the

will. Good images are produced with field strengths caused by receiving sheet 16, while the complementary

19700 to 157500VoIt per millimeter thickness of the 5 tariff background surface parts on the carrier layer 11

Multiple plate. The preferably used field to which the image material layer 12

strength, however, is on the order of 39400 more firmly attached. Because of the bond between image

up to 78,800 volts per millimeter. Is the thickness of the composite layer 12 and duplication layer 15

well known, the voltage to be applied can move the materials from one to the other

can be easily calculated for image generation. io speaking of the stronger adhesive force of the underlying

In general, the copying is transferred to the material on its base,
The receiving sheet 16 provided with layer 15 is applied to the active If a relatively volatile activating agent is applied to the fourth image material layer 12 with the voltage switched on, for example, petroleum ether or tetra is rolled off. However, in order to avoid air gap flashovers on the chlorocarbon, so occurs a fixation of the image on the roll gap, which cause a generation of the receiving sheet almost instantaneously according to the Lichtenberg pattern, a fairly separation of the layers occurs because the relatively low high resistance is preferred with The voltage amount of the activating liquid in the thin source is connected in series to the current flow and the image material layer evaporates quickly. If the charging speed of the volatile activating agent, for example Sohio, formed by the multiple plate is somewhat slower, it must be reduced. A high ao Odorless Solvent 3440 or Freon 214, which are mentioned above resistance in the order of at least, can speed up the fixing, about 5000 to 20,000 megohms is required for this purpose by blowing air over the images, or the M , though the highest resistance ^{values images are heated to about 65 0} C, while at ^ increase the contrast somewhat. This resistance can be dispensed with for the even less volatile activating agents, such as when the sheets are placed on top of one another before the electrical, for example transformer oil, fixing by means of an Irish field is generated. However, suctioning off the activating agent into another is also then the resistance preferably in the layer, such as. B. a paper backing is reached, leave the circuit in order to protect the load to which the image is transferred. A person skilled in the art is familiar with many other merit and a limitation of the energy available in one drive for fixation and protection of the image such as arcing when covering, applying a transparent thermal, accidental flashover in a crack or a pore plastic film or the like , the slide occurs. Another important function of the increased durability and strength of the image resistor 30 in Fig. 3b is that it is also discharged at a suitable rate by treatment with a curing capacitor medium for the image material or with a hard poly to cause an arc during the Separation 35 mers solution is achieved which does not wet the image material, but the carrier layer and the receiving sheet, but not the carrier layer,
prevent. In general, the device for transit

A source for visible light, ultraviolet light guidance of the above-described imaging or another activating electromagnetic method, the type of radiation shown in FIGS. 3a and 3b, is used to expose the elements according to the invention as well as an additional device for mounting multiple plates. Better quality of the images to bring the activation fluid, a pinch roller is obtained upon exposure of the support layer side to remove excess activating liquid, the image material layer side, and the receiving sheet 16 is a device for generating an electric g, accordingly, of the other layers field to the multiple plate, a Belichtungsein - "of the multiple plate shortly after the image exposure 45 direction as well as a device for separating the separated, whereby both electrodes are connected to the voltage carrier layer and the receiving sheet after the image source. This process generates a generation. The opening of the multiple plate for active current flow, since when the layers are separated from one another, the closing of the arrangement for exposure reduces the capacitance of the multiple plate and opening to separate the layers from one another reduces the charge stored in this capacitor as well as the image formation through one of the resistance flows back into the circuit, can be undertaken in a number of known processes, in which it is consumed as heat loss. A simple way to do this is to feed the image materials into delays in separating the layers into the form of long ribbons that are passed over rollers of the exposure that have no detrimental effect on the opening and closing of the images produced. Essentially, the arrangement shows the same result during the image generation process if separation is possible after shutdown.

the voltage is made, since the charge stored in the capacitor The following examples serve the person skilled in the art to provide a better understanding of the invention. They are not meant to be generated, however the images are generally somewhat of a limitation, merely poor execution. It should be noted that the disabled 60 examples of the invention are also understood.
Voltage source still as part of an between the. .
Resistance and the two electrodes lying B e 1 s ρ 1 e 1 1
A 0.05 mm thick Mylar receiving sheet is provided with an output of a £ C filter consisting of inductance and capacitance of a uniform alcohol-duplicating layer. It is assumed that a laser 65 is dispersed from Crystal Violet coated in a microcrystalline dung difference between the exposed and un- NEN wax (Sunoco 1290) exposed with a melting point surface parts of the image material layer 12 currency 8I ⁰ C. The coating is 5 microns thick according to the process, so that upon separation and contains about 25 percent by weight crystal violet.

A 5 micron thick, even coating of metal-free phthalocyanine in a microcrystalline Wax (Sunoco 1290) is applied to a 0.05 mm thick Mylar film in subdued light. The relationship from phthalocyanine to wax binder is about 1: 1. This coating is heated to about 60 ° C heated to dry in the dark. This support surface is on a tin oxide surface of a NESA glass plate (glass plate transparently coated with tin oxide), with the phthalocyanine coating the free surface forms. The side of the receiving sheet coated with Crystal Violet is placed on the Support surface placed. Then a sheet of black, electrically conductive paper is placed over the receiver sheet laid, whereby the complete multiple plate results. The receiving sheet is raised and the An image layer consisting of phthalocyanine and wax is applied with a quick brush stroke of a wide camel hair brush saturated with petroleum ether. The receipt sheet is then put back on, and a roll is slowly pushed over the closed multiple plate with low pressure Removing the excess petroleum ether carried over. As can be seen from Fig. 3b, the negative pole of a DC voltage source of 8000VoIt with the NESA coating over a 5500 megohm resistor connected, while the positive pole with the black, electrically conductive paper on the Receiving sheet is connected and grounded. When the voltage is applied, an exposure is made for 5 seconds made through the NESA glass with a white incandescent lamp of approximately 1.076 lux. After exposure, the receiver sheet is separated from the assembly, with the voltage switched on remain. This separation results in an inversion of the original on the receiving sheet, the inversion surfaces made of Crystal Violet, dispersed in the microcrystalline wax and coated with a Layer of phthalocyanine dispersed in a microcrystalline wax. The small proportion Petreolum ether evaporates within a second or two of separation, giving the reverse image is fixed to the receiving sheet. A picture corresponding to the original is located on the support surface Duplicate in the form of an alcohol duplication layer. This die consists of a mylar pad with a microcrystalline wax binder and phthalocyanine dispersed therein in the non exposed areas, coated with a spirit duplication layer made of Crystal Violet dispersed in a similar microcrystalline wax binder. With this matrix many excellent copies of alcohol can be made, including well-known ones Procedures are applied. After the die is worn out, it is inserted into a projector and used as a projection image, the opaque surface parts of the image material layer having a passage prevent the projection light and result in a projected image corresponding to the original image.

60 Examples II and III

The procedure from Example I is repeated with the difference that in Example II Algol Yellow GC, Color Index No. 67300, as pigment in the image layer and, in Example III, zinc oxide as pigment is used in the image material layer. After separating the layers is on the receiving sheet a reverse image of the original image and a spirit reproduction stencil corresponding to one Duplicate of the original image on the carrier layer. A large number of excellent jobs can be made with this die Spirit copies are made.

The main property of the method of the invention is that (1.) the image material layer either remains on the support surface or is transferred to the duplicating layer on the receiver sheet or (2.) the duplicating layer either remains on the receiver sheet (and from the Image material layer is coated) or is transferred to the support surface (and the remaining Image layer covered). A reproduction matrix and a raised relief image are created at the same time generated, which can be used, for example, as a projection image.

Claims (12)

Patent claims: 1. A method for producing a hectographic printing form, characterized in that a) that a plate is used, which consists of a carrier layer (11 or 17) with one on it applied thin, cohesively soft, activated by electromagnetic radiation Image material layer (12) consists on which one provided on a receiving sheet (16 or 19) Duplication layer (15) lies flat, with the one or both Sides of the image material layer (12) provided layers (11 or 17; 15; 16 or 19) consist of a substance permeable to electromagnetic radiation, b) that an activating agent (23) is first applied to the image material layer (12), c) then the plate is exposed to an image pattern of activating electromagnetic radiation and at the same time exposed to an electric field d) and finally the carrier layer (11 or 17) separates from the receiving sheet (16 or 19). 2. Printing plate for performing the method according to claim 1, characterized in that a carrier layer (11 or 17) with a thin, cohesively soft, applied thereon, through electromagnetic radiation activatable image material layer (12) on a receiving sheet (16 or 19) provided duplication layer (15) and that on one or both Sides of the image material layer (12) provided layers (11 or 17; 15; 16 or 19) of a material permeable to electromagnetic radiation. 3. Printing plate according to claim 2, characterized in that the duplication layer (15) from a dye soluble in an organic solvent, dispersed in a binder, consists. 4. Printing plate according to claim 3, characterized in that the dye is also in water is soluble. 5. Printing plate according to claim 2, characterized in that the duplication layer (15) consists of a substance with a latent color, dispersed in a binder, and that this substance on a copy sheet with a reactant 009585/290 is reacted, resulting in an intensely colored substance. 6. Printing plate according to claim 2, characterized in that the image material layer (12) consists of a particulate photosensitive material (13) dispersed in a non-conductive binder (14) low strength. 7. Printing plate according to claim 6, characterized in that the photosensitive substance (13) is metal-free phthalocyanine. 8. Printing plate according to claim 6, characterized in that the non-conductive binder (14) is a wax. 9. Printing plate according to claim 6, characterized in that indicates that the non-conductive binder (14) is a low molecular weight polymer. 10. Printing plate according to one of claims 2, 3 and 5, characterized in that the duplication layer (15) contains a particulate photosensitive material. 11. Printing plate according to one of claims 2 to 5 or 10, characterized in that on the duplication layer (15) a coating is provided which consists of a thin layer of a binder for the image material layer (12). 12. Printing plate according to claim 2, characterized in that the supporting base (11 or 17) is flexible. 1 sheet of drawings