DE1102777B - Copying process - Google Patents

Description

GERMAN

A copying process has been found which is characterized in that an original is placed under Interposition of an intermediate layer which is permeable to heat rays and hinders the conduction of heat with an electrostatically charged copier layer that is electroconductive in the heat brings, then allows heat rays to act, thereby ensuring that by means of heat-absorbing means the areas of the heat-electroconductive copying layer corresponding to the non-image areas of the original are preferably heated, and to develop the resulting electrostatic image in a known manner Way with a finely divided, optionally colored resin in contact and fixed.

As a template, you can use very different, customary, one-sided text or drawings thin materials, especially those made from cellulose products or plastics, are used.

As an intermediate layer that is permeable to heat rays and hampers heat conduction, thin Sheets made of transparent or opaque material, provided that they are still sufficiently permeable to heat rays and they are able to reduce heat conduction, are used. For example, can Films made from cellulose products, such as paper, cellulose hydrate, cellulose esters, such as cellulose acetate, cellulose propionate, Cellulose acetobutyrate, various plastics, for example polyolefins such as polyethylene, Polyprolypes, polyvinyl alcohol, polyvinyl chloride, polyvinylidene chloride, polyamides, polyesters, such as polyterephthalic acid glycol esters, Polycarbonates, polyurethanes, find use. Films made of cellulose acetate, polyolefins, and chlorine-containing polyvinyl compounds are particularly useful and polyester. It is also possible to use thin sheets of glass, however in general, flexible films are preferred.

Very different products are used as copier layers that are electroconductive in heat, especially with resin-like or plastic-like character. The suitability of these substances for the present process can be determined by the electrical volume resistance of the layer as a function determined from the temperature, which shows whether a sufficient temperature increase Decrease in resistance occurs. It is very often possible to use fabrics that are not warm enough Have resistance decrease, by adding a second substance the desired Achieve effect; for example, polystyrene does not decrease sufficiently with increasing temperature the resistance - but if you add a plasticizer, for example tricresyl phosphate, this is how the required resistance behavior is achieved.

Copying process

Applicant:

Kalle Aktiengesellschaft,
Wiesbaden-Biebrich, Rheingaustr. 190-196

Dr. Erwin Lind and Dr. Johannes Munder,

Wiesbaden-Biebrich,
have been named as inventors.

In the case of materials that are electroconductive when heated, the resistance should decrease by at least two powers of ten when heated from room temperature to the point of decomposition of the material in question. Preference is given to materials which, when heated from room temperature to the softening point, lower their resistance by more than a power of ten. It is particularly useful to use substances which, when heated from room temperature to 100 to 150 ° C, lower their resistance by more than four powers of ten. Furthermore, materials are used whose specific resistance is so high under normal conditions that they are suitable for retaining an electrostatic charge for some time. The specific resistance of such substances is generally ΙΟ ⁸ to 10 ¹⁹ ohms times centimeters.

Both natural and synthetic resins can be used as substances according to the invention and plastics in question, such as shellac, rosin, chlorine-containing polyvinyl compounds and copolymers such substances as polyvinyl chloride, post-chlorinated polyvinyl chloride, chlorinated Rubber, copolymers of vinyl chloride and butadiene, polyvinyl compounds such as polystyrene, polyacrylic acid esters, Copolymers of polyacrylonitrile, polyolefins, such as polyethylene, polypropylene, Polybutylene, polyesters, such as polyterephthalic acid glycol esters, mixed esters of terephthalic acid and Isophthalic acid, polycarbonates, coumarone resins, indene resins and maleic acid resins, ketone resins, polyvinyl acetate and copolymers of polyvinyl acetate, phenolic resins, copolymers of styrene and Maleic anhydride.

The above resins can also be used as a mixture with one another or as a mixture with organic ones

109 537/125

and inorganic pigments, especially those whose electrical resistance decreases when heated, such as zirconium dioxide or zinc oxide, or sensitizers, fillers are used. The preceding, In the heat, electroconductive layers can, as far as they are flexible, self-supporting layers can train, find use as such. But you can also as a thin layer on a carrier material be applied. A wide variety of substrates can be used as carrier material such as glass plates, metal foils, e.g. B. made of aluminum, zinc, copper, chromium, paper, cellulose products, such as cellulose hydrate, cellulose ester, plastics of all kinds, such as polyolefins, polyethylene, polypropylene, Polyvinyl alcohol, polyvinyl chloride, polyvinylidene chloride, polyamides, polyesters, such as polyterephthalic acid glycol esters, Polyurethanes.

Another expedient embodiment of the method is based on the one that is electroconductive in the heat Layer on the intermediate layer that is permeable to heat radiation and hinders heat conduction to raise.

It is also possible in the case of the self-supporting copier layers that are electroconductive in the heat Material itself can also be used as an intermediate layer. It is possible in the case where you can get the material there is sufficient thickness. Thicknesses greater than 20 to about 300 μ are considered to be sufficient thicknesses. Larger thicknesses can also be used, but this generally does not result in any further thicknesses Improvement of the effect achieved.

As a heat-absorbing material, substances are used that strongly absorb heat rays and convert it into sensible warmth. There are dark colored or made of dark material Layers in question, for example plastics or paper foils colored black in the mass. Particularly Films to which a black layer has been applied are well suited. Also photo papers or films that have been exposed to light, developed and fixed, will do well. It is also possible, a dark dye or a dark substance directly on the layers that are electroconductive in the heat, like soot, to be added and thus to have an effect. It essentially depends on dark-colored, preferably black materials in contact with the thermally electroconductive layer be it through contact of layers of these materials or through the presence of both Materials in one layer. You can expediently the heat-absorbing substance so select that it has an absorption maximum in the wavelength range in which the heat radiation source radiates.

As radiation sources for the heat rays bodies come into question, which are on enough high temperature, such as 400 to 2000 ° C, preferably 800 to 1500 ° C. Usually the Used commercially available infrared emitters.

The method is carried out in such a way that you have a one-sided printed template on a for Heat radiation permeable, the heat conduction hindering intermediate layer is placed and both together on a copy material which consists of a carrier, e.g. B. from a black paper, and one on it, there is an electroconductive copy layer in the heat. This copy layer was previously provided with an electrostatic charge, for example with the aid of a corona discharge. Man irradiates the layers lying on top of one another through the original and thus receives one of the original corresponding electrostatic image on the copy material. This can be done in a known manner by dusting with a resin powder as used in the known electrophotographic processes find, made visible and by subsequent heating or treatment with a solvent be fixed. This gives you images that correspond to the template and have a dark background

ίο own. If you use a light-colored resin powder, in this way one can obtain legible copies; if you want dark copies on a light background, use it a dark resin powder and transferred before fixing by placing a piece of paper under it and applying it a tension and thus receives a reversed image on the transfer paper. Do you want a If the right-sided image is obtained on a transfer paper, the original is placed with the image side on.

Another embodiment is that instead of a copy material, which consists of a black carrier and a copier layer that is electroconductive in the heat, a copier material used, in which the in the heat electroconductive copying layer the heat absorbing agent, for example Contains soot. Another modification is that you can use the copy material as heat radiation permeable, the heat conduction hindering intermediate layer places a film on the the side facing the copy material carries a heat-absorbing layer; for example comes in exposed, developed and fixed photographic material in question.

A particularly useful embodiment of the present method is that one on a black, heat-absorbing layer covers a copy material, which is made of the for heat rays permeable, the heat conduction hindering intermediate layer with on it, in the heat electroconductive copying layer. The copier layer, which is electroconductive in the heat, is applied the black, heat-absorbing layer. The original is then placed on this copy material and proceeds as indicated above for the rest.

Another simplified modification is that a substance is used as the copy material, the function of the intermediate layer and the copier layer, which is electroconductive in heat united. In this simplest embodiment, a material, for example, is placed on a black base a film made of a polyester, a chlorine-containing plastic or a polyolefin, the is provided with an electrostatic charge on one side, with the charge side on. Lays on the opposite side you get the template and then get an electrostatic after irradiation with the heat source Image on the copy material which is developed in the usual way after removing the black layer and fixed. This latter way of working can easily be made continuously by applies an electrostatic charge to the copy material by running it over a black roller leaves, a template and during the contact with template and black roller with the heat sources irradiated and then developed and fixed the copy material. The last one was very simple and proper operation is obtained in the case of using a thermally electroconductive one Copy material that is highly transparent, direct intermediate copies that can be paused, if necessary other procedures.

If copier material is used, which is opaque, for example due to the inclusion of pigments, is obtained one copies with good contrast.

The electrothermographic procedure described in the present case is a very simple one and is a rational method of making copies and has compared to the electrophotographic Method has the great advantage that the electrostatically charged copy layers are not exposed to the action be discharged by light, and thus with these materials before and after the generation of the charge image can be worked without exclusion of light.

example 1

Made from a high molecular weight mixed ester of terephthalic acid and isophthalic acid with glycol 10 parts by weight dissolved in 200 parts by volume of chloroform and a black colored solution with this solution Paper coated and dried. The copying material produced in this way is exposed to a corona discharge a surface potential of about 300 volts to earth is negatively charged. On the charged copy layer the intermediate layer is a 100μ thick cellulose acetate film and then a one-sided printed Template placed. Subsequently, a heat radiator is used to irradiate through the template, the resulting invisible, electrostatic image corresponding to the original with a developer treated, which consists of 100 parts by weight of glass spheres of grain size 350 to 400 μ and 2 parts by weight of a Resin consists of 30 parts by weight of polystyrene, 30 parts by weight of a maleinate resin, 3 parts by weight of carbon black by melting together, grinding and Sifting is established. It is expedient to use an average grain size of the toner of from about 20 to 50 µ. That remains with this development process black colored resin powder adhere to the electrostatically charged areas of the copy layer. It arises a non-smudge-proof image corresponding to the original, which by heating becomes a smudge-proof, dark image is converted to a dark background.

In a modification, the original is placed with the image side on the cellulose acetate intermediate film and otherwise proceed as above - up to the development step. That included obtained, reversed image of the original is transferred to a paper by this on the picture is placed, then electrostatically charges it from the back and the transferred, the right-sided image corresponding to the original is fixed by heating. Used in place of paper a transparent film, so you get intermediate originals, which can be paused directly, for example on blueprint paper. Instead of paper or a transparent film you can also use it Textile fabrics are used.

Example 2

15 parts by weight of a post-chlorinated polyvinyl chloride are dissolved in a mixture of 120 parts by volume of toluene and 80 parts by volume of methyl ethyl ketone. A cellulose hydrate film with a thickness of 80 to 100 μ is coated with this solution and then dried. The copy material produced in this way is negatively charged on the copy layer side by a corona discharge to a surface potential to earth of 400 volts and the charged layer side is placed on a plastic or paper film that is black in the mass. The original with the inscribed side is placed on the uncoated side of the cellulose hydrate film and the layers are passed together at a speed of a few meters per minute through the image plane of a focused 1375 watt ultra-red burner. The layer under the absorbent areas of the original heats up to 80 to 100 ° C, and its specific resistance there drops from about 10 ¹⁴ ohms by centimeters to about 10 ¹⁰ ohms by centimeters.

ίο This creates a laterally correct, electrostatic image corresponding to the original, created by dusting with a resin powder, as described in Example 1, is made visible. The powder image is created by heating the layer fixed. By inserting another cellulose hydrate acetate or polyvinyl film between the original and coated cellulose hydrate film can still be used some increase in image quality in terms of contrast can be obtained.

Example 3

15 parts by weight of post-chlorinated polyvinyl chloride are toluene in a mixture of 120 parts by volume and 80 parts by volume of methyl ethyl ketone dissolved. 1.5 parts by weight of carbon black are suspended in this solution coated with this suspension a precoated against the penetration of organic solvents Paper. The carbon black-containing copying layer is charged to a surface potential by means of a corona discharge negative against earth of 300 volts, put a cellulose acetate film about 200 μ thick on this layer and then the template with the image side on. Then you let through the template with the help of an infrared heater Heat rays act, whereby one corresponds to the template, but reversed, electrostatic image is obtained, which is treated with the developer described in Example 1. Afterward the powder image is transferred to another material, as described in more detail in Example 1 and thus receives a laterally correct image corresponding to the original, which by the action of heat or Solvent is fixed.

If you go to the procedure described above the original with the image side facing away and apply a developer whose toner is white pigmented is, you get correct-sided images corresponding to the original in white on a black background. The method described above can also be modified in such a way that a significantly lower one is used Amount of carbon black (2%) is introduced into the copying layer, in which case the procedure described receives a black image on a gray background.

Example 4

12 parts by weight of polystyrene are dissolved in 120 parts by volume of chlorobenzene and 80 parts by volume of toluene and another 1.2 parts by weight of tricresyl phosphate added as a plasticizer. Coated with this solution one coated with a polyvinylidene chloride dispersion to prevent the penetration of organic solvents Paper and dries. The copying layer is charged to a surface potential with the aid of a corona discharge negative to earth of about 400 volts, places a photographic film on the copy layer, which through Exposing, developing and fixing on one side carries a black silver layer, with this layer then places the original on the intermediate layer of photo film and irradiates it with an infrared source. This creates a die on the polystyrene

Template corresponding, electrostatic image, which is made visible by dusting with a resin powder and then fixed by heat treatment. This gives you a copy that can be read directly on a white background with very good contrast.

Claims (1)

Claim: Copying process, characterized in that an original is interposed with an intermediate layer which is permeable to heat rays and which hinders the conduction of heat electrostatically charged, electroconductive in the heat Bringing the copying layer into contact, then allowing heat rays to act, thereby ensuring that the the non-image areas of the original corresponding areas of the heat-electroconductive copying layer are preferably heated and the resulting electrostatic for development Image in a known manner in contact with a finely divided, optionally colored resin brings and fixes.