DE1522745B2 - ELECTROPHORETOPHOTOGRAPHIC PROCEDURE - Google Patents

Description

3 4

bound and thereby dispersed against damage by non-conductive carrier liquid. the

Protected from contact with other particles. The term »light-sensitive« refers to the

By the invention it is achieved that an electrical present description on the property of a Particle image produced by phoretophotographically, that it is when it is on the injecting very simply very reliably located on one of the 5 electrodes, under the influence of an electrical Electrode used to create images can be fixed to the field and an exposure by activating electrocan. In addition to the actual imaging, magnetic radiation is purely from this electrode a brief warming of the migrates in question. Located near the liquid suspension 4 Electrode to carry out the cooling itself- a second electrode 5, which in the following also as take action. The particle image fixed in this way is called the "blocking electrode" and the one with the is abrasion-proof and resistant to mecha- a pole of a voltage source 6 is connected. The other pole of the voltage source 6 is via a with its carrier layer also pulled away from the electrode switch 7 with the injecting electrode 1 so that the electrode is tied for further, so that when the switch is closed between Imaging is available. 15 the electrodes 1 and 5 an electric field on the

According to one embodiment of the invention, the liquid suspension 4 and the thermoadhesive a layer of layer 13 is produced when the layer becomes sticky when heated. One from a light source 8, from a binding agent and a solvent, which benur a transparency 9 and an objective 10 in which heat dissolves the binder. standing image projector is used to expose the sus-through this embodiment is achieved that as 20 pension 4 with a photo of the to be reproduced Solvent e.g. B. a fabric can be used, transparent original image 9. The electrode 5 has which is solid at room temperature and at a lower level takes the form of a roller with a conductive core 11 Increasing the temperature melts. This is what is provided to which the voltage source 6 is connected to «* Binder layer is sticky and enables inclusion. The core is with a layer one embedding of the particles brought into contact with it. 25 barrier electrode material 12 coated, made of barite according to an embodiment of the invention can be made of paper. "The particle suspension will between 0.5 and 4 parts by weight of solvent each exposed to the image to be reproduced, while Part by weight of binder used. Through this, by closing the switch 7 between, the locking configuration a particularly good fixation quality electrode and the injecting electrode is achieved. 30 Irish field is generated. The role 5 is on the

A surface of between 0.003 and 0.1 mm of the injecting electrode 1 is preferably guided,

thick sticky layer used. With one during the switch 7 when exposing the image

such layer thickness will have a good equilibrium closed. Thereby pigment particles,

between image transmission quality and the required which are located on the electrode 1 and exposed

borrowed material costs reached. 35 are required to migrate through the liquid

An electrophoretophotographic device is cranked until it is on the face of the barrier electrode for carrying out the method of the invention. On the surface of the thermoadhesive with two electrodes, one of which is a plate-shaped layer 13, an image of the pigment substance remains that is transparent and corresponds to a particle suspension of the original image 9. The particles adhering to the surface of the barrier between the electrodes can expediently be formed by this in such a way that one - possibly electrically conductive - electrode can be removed by cleaning, and the end - which become sticky when heated, can therefore be exposed be repeated. ^ visible layer on the plate-shaped electrode by this additional exposure and cleaning .0 is arranged. The electrophoretophotographic steps of the barrier electrode, however, the color purity device can also be designed 45 and the color balance of the image is improved. After exposure to a peelable layer of hydrated cellulose, the relatively volatile carrier evaporates on the plate-shaped electrode and on the cellulose, leaving behind an image of the pigment. To loose a layer - if necessary electrically conductive - at this point in time, the pigment substance image is very sensitive. These two possible fronts of any objects, since they only consist of loose directions, differ in that depending on the bound particles. The image can be fixed, if required, an image can be fixed directly on the plate-shaped electrode by heating the thermoadhesive layer or it can be fixed together with the 13 by means of the infrared lamp 14 . 55 is described and causes the

In the figure, a transparent electrode 1 is a particle. The thermoadhesive layer can then be shown again, which harden from a layer optically transparent, after which it consists of the injecting electrode glass 2, which is peeled off with a thin, optically transparent and coated without dirt or other visible layer 3 of tin oxide. This corruption can be handled.
In the following, electrode is also referred to as "injecting electrode". On this electrode 1 is a method according to the invention, the pigment substance layer 13 made of thermoadhesive material can be applied, suspension 4 applied directly to the glass surface 13, which is as a coating on a cellophane layer (not, the thermoadhesive layer being shown on the) and the at Heating is provided by a barrier electrode.
Infrared lamp 14 becomes sticky. 6g The thermoadhesive layer 13 can be made of any

About this solidified thermoadhesive layer 13 which suitable substances exist. The only ones

is a thin layer 4 of finely divided light requirements are that they are applied to room-sensitive particles that are stable at a temperature and with an appropriate increase

become soft and sticky with the temperature. If the layer is to be applied directly to the injecting electrode, it must also be required that it has conductive properties. If the thermoadhesive layer is applied to the barrier electrode surface, as described in Example II below, this layer should have a resistance between 10 ⁸ and 10 ^1δ ohm cm. The thermoadhesive layer preferably consists of a binder and a solvent which becomes effective through heat. The latter consists of a substance that is solid at room temperature and melts when the temperature is slightly increased. This makes the binder layer sticky and enables the particles brought into contact with it to be embedded. If the image produced is to be made visible by projection, the thermoadhesive layer must be transparent.

Any suitable mixture of a binder resin and a thermal solvent can be used in the process of the present invention. Optimal results were achieved with mixtures of a vinyl chloride-vinyl acetate copolymer with an arylsulfonamide-formaldehyde copolymer, of polyvinylpyrrolidone-vinyl acetate copolymer with an arylsulfonamide-formaldehyde copolymer and a vinyl chloride-vinyl acetate copolymer with a mixture of chlorinated diphenyls and chlorinated triphenyls. Furthermore, the best results were achieved with the mixture of 1 part by weight of a vinyl chloride-vinyl acetate copolymer with 1 part by weight of a sulfonamide resin dissolved in 10 parts of acetone, which is then also preferably used. This mixture is preferably applied with a thickness of 0.013 mm and dried. However, other mixtures of a binder resin with a solvent can also be used. Typical binding resins are polyethylene, polystyrene, copolymers of vinyl chloride and vinyl acetate, copolymers of vinyl pyrrolidone and vinyl acetate, polyvinyl methacrylate, polyvinyl propylene, polyvinyl chloride, cellulose acetate, chlorinated rubber and mixtures and copolymers of these substances. Typical solvents with bracketed indicated melting points above room temperature, are easy: triphenyl phosphate (48 ° C), Dizyklohexylphthalat (63 ° C), diphenyl phthalate (69 ° C), chlorinated polyphenyl (46 to 52 ⁰ C), N-ethyl-p -Toluenesulfonamide (58 ° C), sulfonamide-formaldehyde resin (62 ° C), N-cyclohexyl-p-toluenesulfonamide (82 ° C), azenaphthene (94 ° C), acetanilide (113 ° C), o-acetoneazeto-toluidide ( 105 ⁰ C); o-acetotoluidide (101 ⁰ C), o-chloroazetoazetanilide (103 ° C), 2-chloro-4-nitroaniline (106 ⁰ C), p-dibromobenzene (87 ⁰ C), p, p'-methylenedianiline (93 °) , alpha-naphthol (95 ⁰ C), beta-naphthol (85 ° C), 2-naphthylamine (110 ° C), m-nitroaniline (112 ° C), 4-nitrodiphenyl (97 ° C), Sorbitolhexoazetat (98 ° C), 2,4-toluenediamine (97 ° C) and mixtures of these substances.

The ratio of binder to solvent is chosen so that 0.5 to 4 parts of binder resin meet some solvent. The best results are achieved with a ratio of 1: 1. This can vary slightly depending on the fabrics used. The strength of the thermoadhesive layer should preferably be between 0.003 and 0.1 mm. The best balance for good image transfer and the economy is achieved with a layer thickness of about 0.013 mm.

The present invention is further illustrated with reference to the following examples with regard to the use of thermoadhesive layers for fixing electrophoretophotographic images. Unless otherwise stated, the proportions and percentages given relate to weight. The examples contain descriptions of various preferred embodiments of the method according to the invention.
All examples are carried out with an arrangement as shown in the figure. In the examples, however, the thermoadhesive layer is applied not only to the glass surface but also to the barrier electrode surface. The glass surface is connected in series with a switch, a voltage source and the conductive core of a roll of baryta paper coating. The roller has a diameter of 6.5 cm and is guided over the surface of the plate at a speed of 1.45 cm / sec. The plate has a size of 7.5 X 7.5 cm and comes with a

ao illuminance of 86400 lux, measured on the uncoated glass surface, exposed. Unless otherwise stated, 7 percent by weight is the cited pigment substances in each example suspended in kerosene fraction, and the applied voltage is 2500 volts. The exposure is by means of a lamp of 3200 ° K with a colored transparency carried out.

B e i s ρ i el I

Equal parts by weight of a vinyl chloride-vinyl acetate copolymer and an arylsulfonamide-formaldehyde copolymer are dissolved in acetone and placed on cellophane film with a thickness of 10 microns applied, which is then brought to the glass surface. A three component mixture consisting of a cyan pigment (alpha-form metal-free phthalocyanine, CI. No. 74100), from a fuchsin-colored Pigment [3,3'-dimethoxy-4-4'-diphenylbis- (1 "-phenyl-3" -methyl-4 "-azo-2" -pyrazolin-5 "-one), C.I. No. 21 200] and from a yellow pigment substance (CI. No. 70 600), in about 100 parts of the above specified carrier liquid dispersed and on the cellophane layer covered with the thermoadhesive material applied to the glass surface. A voltage is applied to the suspension, and a Image is produced in the manner described above. After that, the carrier liquid will evaporate brought and heated the coated cellophane with an infrared lamp until the thermoadhesive material becomes soft. A roll with a surface made of polyfluoroethylene is over the thermoadhesive layer rolled to press the particle image into it. Then the heating is interrupted and the thermoadhesive layer can harden again. An excellent picture is obtained with a hard, surface resistant to abrasion.

Example II

Equal proportions of a vinyl pyrrolidone-vinyl acetate copolymer and an arylsulfonamide-formaldehyde copolymer are dissolved in acetone. The solution is applied to a barrier electrode surface made of baryta paper approximately 10 microns thick applied and then dried or hardened. A three-component mixture is made up from cyan pigment, the beta form of copper phthalocyanine, C.I. No. 74160, made of fuchsin-colored

Quinacridone pigment and from the yellow pigment l, 2,5,6-di- (C, C'-diphenyl) -thiazole-anthraquinone, CL No. 67,300. This three-component mixture is about 100 parts of the carrier liquid specified above dispersed. It is applied to the glass surface and an image is produced as in Example I. Die The barrier electrode is cleaned of unwanted pigment particles and then heated until it is sticky

will. Then the roll is guided over the surface and picks up the image particles and embeds them. The thermoadhesive layer can then harden again. The baryta paper with the thermoadhesive layer containing the pigment is removed from the roll and checked. It is an image of excellent quality with a tough, abrasion-resistant one Surface available.

1 sheet of drawings

309 515/347

Claims (6)

1 2. Must be photoelectrophoretic and obviously the claims: polarity of their own charge when exposed to an activating electromagnetic radiation through 1. Electrophoretophotographic process, changing interaction with one of the electrodes, in which a particle image between two electrodes 5 In a single-color process, particles made that uses an electrode with the adherent of a single color that is a monochrome Particle image is removed and the particle image is fixed Image becomes according to the conventional black and white, characterized in that produce photographic. At a multi-colored club Electrode (1) with a sticky when heated, the pictures will be natural colors Layer (13) used while or io testifies as mixtures of particles of two or after the production of the particle image heated, several different colors, which are only for light from the other electrode (5), as is known, either a special wavelength or a narrow one removed and cooled down again. Wavelength band are sensitive, can be used 2. The method according to claim 1, characterized. The particles used for this must be intensely marked, as they become sticky when heated, and be pure in color and very sensitive to light.
Layer (13) a layer of a binder After the exposure and the partial and a solvent that is only used in the heat chenwanderung the electrodes from each other, the binder is used. separated so that the carrier liquid can evaporate. 3. The method according to claim 2, characterized thereby remaining on one or both electrodes records that between 0.5 and 4 parts by weight 20 images returned from selectively deposited particles Solvents per part by weight of binder persist. The carrier liquid can have a low is turned. Part of a wax or other binding agent 4. The method as claimed in claim 1, characterized in that the particles are bonded to one another draws that a thickness between 0.003 and 0.1 mm serves one another. However, it gets more than just a sticky one Layer (13) to be used is used. If a small proportion of binder is used, this is how it works 5. Electrophoretophotographic apparatus undesirably affect the image Implementation of the method according to claim 1. Therefore, the images are in with two electrodes, one of which is plate-shaped, sensitive and easy to destroy, and is transparent, and a particle suspension It has been proposed to put a transparent film over it between the electrodes, characterized in that the images are placed or the images with a through-hole to spray a - if necessary electrically conductive - visible binder resin to protect you when Heat the tacky, clear coating to produce it. With careful execution Layer on the plate-shaped electrode - this coating protects the image, and often it will is ordered. but during the application of this protective layer 6. Electrophoretic photographic device 35 damaged. This procedure is therefore for a full-time Implementation of the method according to claim 1 mechanized device cannot be used. Furthermore, the with two electrodes, one of which is plate-shaped, risk of contamination or another and is transparent, and a particle suspension impairment of an unfixed image is very great, between the electrodes, characterized when the image is transferred from its electrode to another that a peelable layer of hydrated image carrier is to be transferred. Cellulose on the plate-shaped electrode and the object of the invention is to provide one on the cellulose layer - optionally an electrophoretophotographic process, which electrically conductive - when heated sticky the simplest possible fixation of the generated becoming, transparent layer is arranged. Particle image ensures that a 45 results in a resilient and permanent image, which is indelible and therefore suitable for universal use Twist is suitable. The object of the invention is based on a electrophoretophotographic process in which 50 a particle image is produced between two electrodes, The invention relates to an electrophoretoph'oto- the one electrode with the adhering particle image graphic process in which a particle image is removed and the particle image is fixed, and is produced between two electrodes, the one elec- characterized in that an electrode with a trode with the adhering particle image removed and the sticky layer used when heating, the particle image is fixed. 55 during or after the production of the particle image A process of this kind has already been preheated, struck by the other electrode as is known, with which it is possible to remove colored images and cool again,
using photoelectrophoretic particles A sticky substance that becomes sticky when exposed to heat, to manufacture. Different colored light are also referred to below as thermoadhesive absorbent particles in a non-conductive support layer allows embedding the particles of a liquid suspended. The suspension is between the particle image and its permanent bond brought two electrodes, an electrical potential re-hardening. This thermoadhesive layer can difference exposed and exposed with an image. When applied as a coating on each of the electrodes Carrying out these steps will find a selective one on which an image is to be generated. To Particle migration takes place in a pictorial configuration, 65 or during the generation of the image whereby a thermoadhesive layer softens on one or both electrodes, whereby the parbaren Image is generated. Essential components are embedded in it. When hardening again this process are the suspended particles that make up this layer, the particles are permanent in it