DE1175985B - Process for making electro-photographic images - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Cl .:

G 03 c

Jefzf Kl ₄ *? " /

German class: 57b-10Paf. Bl ₁

Number: 1175 985

File number: A 33197 IX a / 57 b

Filing date: November 5, 1959

Opened on: August 13, 1964

The invention relates to electrophotographic processes in which an insulating, photoconductive Layer charged and after imagewise exposure with a fine, consisting only of a toner Developer powder or aerosol is colored. A large part of the previously known development processes provides images with the annoying property that larger ones need to be colored Surfaces only the edges or at least the edges are colored more strongly than the interior of the surfaces. The cause of this phenomenon is assumed to be that the field strength at the edges and therefore the force of attraction on the charged developer particles is particularly great.

It has now been found that using a photoconductive, on a sufficient conductive base layer after charging imagewise exposure and development by means of a developing powder consisting only of a toner Evenly colored images are obtained if the photoconductive layer is inhomogeneously charged and with an uncharged or only slightly charged toner with high electrical polarizability is being developed.

In contrast to the known method, the present one does not use the forces that between the charged toner and an equally or oppositely charged surface exist, but the forces that act in inhomogeneous fields on uncharged toner particles. Here Both the photoconductive layers and the toners used have properties required, some of which are in sharp contrast to those required in known processes.

Processes are already known in which an originally homogeneous charge distribution is thereby achieved is made inhomogeneous that a grid is exposed before, during or after the image exposure. The inventive method differs from this fundamentally in that the photoconductive Layer is charged inhomogeneously from the outset and develops an electrically uncharged one Toner having a large polarizability is used.

An inhomogeneous charge distribution can be achieved in various ways. For example can in the case of corona charging, the charging voltage can be selected so that in the photoconductive layer the breakdown field strength is exceeded. The voltages required are, for example with a layer of 10 to 30 μ thick made in a known manner from zinc oxide in silicone resin about 7 to 15 kV. The adjustment of the necessary processes for the production of electrophotographic pictures

Applicant:

Agfa Aktiengesellschaft,

Leverkusen, Kaiser-Wilhelm-Allee 24

Named as inventor:

Dr. Gerhard Heyl, Cologne-Stammheim,

Dr. Hildegard Haydn, Leverkusen

ao voltage can also be achieved with the aid of a control electrode known per se. With the so far known methods are carefully avoided in contrast to the breakthrough described here, and it gets to charge evenly

as respected.

Due to the statistically distributed breakdowns over the area, small area elements become more or less, but very rarely fully discharged; the charge distribution and thus also the Field strength over the layer becomes inhomogeneous. The charging voltage required for the breakdowns depends on the layer thickness for each photoconductive layer. To achieve a large number of small, partially discharged islands, the layer thickness must be constant, uniform and free of pores. The dielectric strength of the layer can be influenced in a desired manner that in it finely divided substances are incorporated. Due to the size and distribution of the built-in substances, combined with the choice of the charging voltage, the desired size of the punctures can be determined achieve partially discharged islands. The polarity of the charge also affects the breakdown process Influence. In the case of a negative charge, the surface elements are mostly partially discharged smaller. According to Auslegeschrift 1098 814, the finely divided substances used so far are those which differ in terms of photoconductivity from the photoconductor used, while it in contrast to this, in the case of the present method, on the dark conductivity of the substances and / or on their influence on the dielectric strength of the

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Area parts is also about 10 to 1000 μ. A coarser structure is unsuitable.

The shape of the surface structure can also be chosen very differently. She can be so-5 be linear as well as punctiform, both regular and irregular. Particularly proven have irregularly distributed hemispherical or conical elevations of various types Size.

It is very important for the present process that the resolving power not be determined by the structure the charge distribution is determined. For example, with a suitable choice of the charging voltage no complete Ent through the carbon copies

Shift arrives. As far as the added substances are more conductive in the dark than the photoconductor, is based its effect on the fact that the charging of small islands is already carried out during or shortly after charging drains. Due to the additives, the required charging voltage can be very strong, e.g. B. except for about 500VoIt, be reduced. In this case, of course, the ions can no longer pass through a Corona discharge can be produced. The already known generation of ions with io has proven itself by means of radioactive ionizers and the deposition of the ions on the electrophotographic material in a relatively weak field. It has been shown that with the addition of conductive substances in higher

Concentrations as about 40% based on the 15 charge. The one that occurs in the event of a breakdown Photoconductor, the discharge of the charges from the charge density difference, on the one hand, causes such a individual islands regardless of the charging great inhomogeneity of the field that a direct voltage he follows. At low concentrations, large areas are moderately colored. Another- and / or in the case of poor conductivity on the one hand, the remaining charge is still large built substances, the latter mainly work through 20 enough to create a developable, the lowering of the dielectric strength so as to provide electrostatic contrast. Corresponding the inhomogeneity of the charge only applies above one to the charge by friction, certain charging voltage arises. The grain size The properties of the for the invention

of the added substances is preferably about the same method to distinguish optimally suitable toner like that of the photoconductor, but can be up to about 15 μ 25 significantly different from the previously required. It is be. a particular merit that an uncharged toner

A large part of the toner mentioned in the German Auslegeschrift 1 098 814 is used as an additive, for example with the help of a carrier or a toner, although its photoconductivity for corona discharge or due to friction is superfluous in this process. For installation 30 is. In the case of homogeneous charging, a number of, preferably uncolored, processes described here that are suitable for this yields organic or inorganic substances which are present in the very sharp edge effect without coloring suitable grains and the specific areas to be colored. Instead of the resistance between 10 ⁷ and 10 ¹³ ohms / centi charge of the toner occurs with the meter according to the invention, z. B. metal oxides, sulfides, selenides, 35 processes the polarizability of the toner particles.

carbonates; Photoconductors such as lead sulfide, lead selenide, selenium, zinc oxide; organic substances such as anthracene, Hydroquinone, polyvinyl acetate, starch or cellulose powder.

The polarizability of the toner must be great so that it is as great as possible in inhomogeneous fields Force can act on the particles. Thus the inhomogeneity of the charge distribution due to the toner

As a further possibility to produce inhomogeneous ₄₀ on larger, uniformly inked areas ner charge distributions has not made visible when charging, the toner must not be proven by friction, to make the surface of the photoconductive layer uneven. So far are

only known electrophotographic materials -

to be fine. Grain sizes of about 5 to 20 μ have proven to be particularly favorable.

The polarizability of the toner become invention in which achieved in contrast to the ER ₄₅ in accordance with one or more of the following Maßfindungsgemäßen material took the pad with a. As a toner material, grids have been provided, while the surface of the substances with a large dielectric layer is even and suitable with charged development constants, but a powdered version is better. In the present invention, the conductivity of the toner is sufficient. These conductive processes are the ones that are always present, but can be achieved both by a conductive toner substance and by additions to an inherently insulating toner substance. Furthermore, the inherently insulating toner particles can be surrounded with a conductive shell. More than toner-bearing areas, the lower-lying substance, are known, low-area areas less charged or not charged at all. Melting plastics that are colored with soot and fining will mean the desired inhomogeneity of the charge. As conductive additives and / or and thus the field strength achieved. Due to the size of the unevenness as a conductive preparation of the surfaces, the size of the substances known per se for the antistatic charged surface parts can be specified. The 60 preparation in question such as B. sulfurized oils, the size of the charge density differences and thus the alkyl sulfonates, long-chain alcohols, ethers or inhomogeneity can be influenced by the depth of the uneven esters, phosphoric acid esters, polymetracrylic acid, and polyunities. As a suitable size of the ethylene oxide derivatives. Finally, due to the shape of the toner particles produced, for example, by means of an embossing roller, the surface structure in inhomogeneous fields can be increased by a mean distance 65 on the force acting on the latter.

the intended purpose mostly inadequate unevenness of the surface, for example by suitable Casting conditions consciously developed. When rubbing against an uneven surface, the

the unevenness of about 10 to 1000 μ at a depth of 1 to 20 μ. The middle distances partially discharged by punctures

Rod-shaped particles are in inhomogeneous fields because of the greater polarization with very attracted much greater force than spherical ones.

Development is carried out by any of the heretofore known methods, preferably the Deliver edge effect, e.g. B. by sprinkling and then shaking off or blowing off the toner from the shift. Because, in contrast to the previously known methods, the inhomogeneity of the field is required, a developing electrode must not be used close to the layer during development will.

Unavoidable charging of a toner has no effect, regardless of the sign, as long as it is the charge does not exceed a certain limit and / or the toner particles a certain limit Do not fall below the grain size. Because the previously used Coulomb forces of attraction are essentially proportional to the surface, whereas the dielectric forces used here are proportional the volume, the dielectric forces prevail all the more under all other conditions, the larger the toner particles are. Since the toner is independent of a possibly existing charge is attracted in the inhomogeneous field of the charged surfaces, a positive image is created. The procedure is suitable for line copies with large areas to be colored as well as for halftone images. It is applicable to electrophotographic material in which the photoconductive Layer is applied to a metallic base or in which the photoconductive substance in one Binder is applied to a sufficiently conductive base.

According to the method of the invention, the electrophotographic images are uncharged or slightly charged toner. This makes the creation of the image essential facilitated, since the more effort requiring charging of the toner, which is known difficult to control and always leads to uneven charging of the toner, ceases to exist. The quality of the images obtained is also essential in the method according to the invention better, because a more even and, above all, stronger coloring of larger areas and halftones is possible.

The method is to be explained in more detail by the following exemplary embodiment.

A. Photoconductive layer.

10 parts by weight of silicone resin, 60% in toluene, 10 parts by weight of zinc oxide pa, 5 parts by weight Calcium sulfate and 20 parts by weight of toluene are ground in a ball mill.

This solution is applied as a layer on paper by methods known per se.

B. Toner

A toner made from bitumen and graphite is mixed with a wetting agent in a solution of 20 g a solution of two parts of a butyl phosphoric acid ester in one part of diethanolamine per liter Water introduced. The toner is filtered off, dried at 55 ° C in a drying cabinet, in one Crushed and sifted mortar.

C. Charging and Development ₆

Charging takes place with a corona discharge, spray voltage 6 kV, distance between spray wire and layer cm.

After exposure, the toner is scattered and the image is formed by moving the Toner developed over the exposed area.

In the above embodiments, instead of 5 parts by weight of calcium sulfate, 3 parts by weight Glass powder or 5 parts by weight calcium carbonate can be used.

The charging can continue instead of a corona discharge with Perlon or Dralon plush be generated.

If no additives are used for the layer, one is sufficient for uneven layers inhomogeneous charging probably due to friction, but not due to a corona discharge in the case of voltage generated below 5 kV.

A dispersion of 2 g of stearyl ester in 11 of water can also be used to prepare the toner will. In both cases, if the charge is homogeneous, the toner only yields a narrow and sharp coloring of the edges, whereby unexposed areas remain white.

By using different photoconductors and different toners as well as by different charging options a large number of embodiments result for the method.

Claims (11)

Patent claims: 1. A method for producing electrophotographic images using a photoconductive layer applied to a sufficiently conductive base, which is electrostatic Charge is exposed imagewise and developed by means of toners, characterized in that that the photoconductive layer is charged inhomogeneously and with uncharged or only slightly charged toners with high electrical Polarizability is developed. 2. The method according to claim 1, characterized in that the inhomogeneity of the charge distribution be generated by electrical breakdowns in the photoconductive layer. 3. The method according to claim 1 and 2, characterized in that in the known per se Corona charging the breakdowns are generated by a sufficiently high voltage applied to the spray wires and / or is placed on a control electrode. 4. The method according to claim 1 to 3, characterized in that the electrical breakdown strength the photoconductive layer by additives whose conductivity is greater than that Dark conductivity of the photoconductor used is lowered in fine distribution. 5. The method according to claim 4, characterized in that the inhomogeneity of the charge distribution by an additive with a grain size up to 15 μ is generated. 6. The method according to claims 1 to 6, characterized in that when charging due to friction, the inhomogeneity of the charge distribution due to an embossed surface structure with a depth of 1 to 20 μ and a distance of 10 to 1000 μ is generated. 7. The method according to claim 1 to 6, characterized in that toner with a large Dielectric constants can be used. 8. The method according to claim 1 to 7, characterized in that toner with a good conductivity be used. 9. The method according to claim 1 to 8, characterized in that toners are used, whose polarizability is achieved by conductive additives to an insulating toner substance. 10. The method according to claim 1 to 9, characterized in that toner is used whose polarizability is ensured by a conductive capable encasing of the insulating toner particles is achieved. 11. The method according to claim 1 to 10, characterized in that toner particles are used whose polarizability is due to a rod-shaped structure that deviates from the spherical shape Shape is achieved. Considered publications:
German interpretative document No. 1 098 814. 409 640/329 8.64 © Bundesdruckerei Berlin