DE1200129B - Xerographic reproduction process - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. α .:

Number:
File number:
Registration date:
Display day:

German class: 57b-10 '

M 49026IX a / 57 b
September 29, 1956
September 2, 1965

The invention relates to a method for producing images in which an electrophotographic Recording material charged with a photoconductive and an insulating layer, imagewise exposed, the charge image is transferred and / or developed.

It is known for such xerographic reproduction processes To use devices as shown in FIG. 1 shows schematically.

The device consists of a projection apparatus 10 from which a light image is projected , if necessary through a filter 15, past a corona source 11 onto a xerographic recording material 12. The recording material is connected to a conductive base 13 . A direct current high voltage system is connected between the corona source 11 and the recording material 12 . A device 14 for developing charge images is arranged at the lower front edge of the recording material 12 .

The recording material 12 is exposed imagewise by the projection apparatus 10 , and a developer from the device 14 is set free in the form of an aerosol, a sufficiently large potential difference being established between the substrate 13 and the corona source 11 . The charge image on the recording material 12 and the large potential difference between the substrate and the corona source 11 have the effect that the aerosol is image-wise deposited on the recording material. If the aerosol consists of dyes, the copy made is directly visible.

The object of the invention is to improve the previous xerographic reproduction processes, d. H. the simple and particularly fast production of single or multi-colored copies. Also should neither a loss of contrast nor fogging occurs.

The invention is a xerographic reproduction process in which a photoconductive Layer and an optionally transparent, electrically insulating layer containing xerographic Recording material charged, exposed imagewise, the charge image transferred and / or is developed, which is characterized in that the xerographic recording material opposite charged before charging and imagewise during opposite charging is exposed.

In special embodiments of the method, vitreous selenium is used as the photoconductive layer Xerographic reproduction process

Applicant:

Minnesota Mining and Manufacturing Company, St. Paul, Minn. (V. St. A.)

Representative:

Dr.-Ing. H. Ruschke, patent attorney,

Berlin 33, Auguste-Viktoria-Str. 65

Named as inventor:

Donal G. Kimble,

Clarence O. McMaster,

Byron W. Neher, St. Paul, Minn, (V. St. A.)

Claimed priority:
V. St. v. America September 30, 1955
(537 647)

and polyvinyl acetate is used as the electrically insulating layer. Preferably the opposite is used Charging and the imagewise exposure carried out immediately one after the other.

A projection apparatus 10 according to FIG. 1 is usually used for imagewise exposure of the xerographic recording material. It contains a light source 101, a slide 102 with a line image and a lens system 103 for projecting the light image onto the; Recording material 12. Similar systems project an image from an opaque master copy or transmit an image of an illuminated object. Like F i g. 1 shows, the aerosol of developer particles is generated at the device 14 by electrically heating part of the wire 141 which is coated with a thin layer 142 of the developer. The cloud of developer aerosol rises in front of the recording material 12 as a result of convection currents. The rate of heating must be high enough to achieve complete evaporation of the developer material without any appreciable decomposition. Convection currents generated by the heating device or by the heated developer aerosol are sufficient to move the aerosol particles quickly over the surface of the recording material 12 .

509 659/437

Multi-colored reproductions can also be produced by using a multi-colored, transparent master copy and is exposed one after the other through suitable color filters, while for a corresponding succession of colored aerosols from the device 14 is provided.

A preferred recording material contains a photoconductor binder layer on a flexible one Layer support with comparatively high electrical conductivity. The photoconductive layer can also be applied to less flexible plates or other objects with a conductive surface although a flexible support is preferred for most uses.

The photoconductor can either be attached to the substrate not or directly connected by means of an intermediate binder. In the latter Trap is selenium in the form of a layer on the conductive layer, ζ. B. by vapor deposition on a Metal plate or foil, produced layer can be used. Anthracene, anthraquinone and sulfur are also effective as photoconductors, but cause an undesirable one in the layer obtained Color and are fickle under some conditions.

Also suitable are recording materials with a layer support made of paper which are made using of zinc oxide, zinc sulfide, yellow cadmium sulfide, titanium dioxide, barium titanate or phosphors based on zinc oxide, zinc sulfide and cadmium sulfide or mixtures thereof as photoconductors getting produced.

The support for the recording material used according to the invention is compared to the photoconductive layer, which has a relatively high resistance, is electrically conductive. Untreated paper has been found to be usefully conductive under normal humidity conditions. Transparent, regenerated cellulose is particularly suitable as a layer support. A slightly increased one electrical conductivity can be achieved by incorporating conductive salts into the substrate; however, the conductivity of the product obtained varies with the humidity of the environment. Non-hygroscopic, powdery electrical conductors, such as acetylene black or aluminum dust, can also be incorporated into the substrate. The electrical conductivity of such However, the substrate is not uniform and the product may be discolored. Metal plates or films are very suitable as layer supports, but they are expensive, difficult to handle and show other disadvantages.

Much better results are obtained when a recording material is used in which a very thin metallic layer is placed directly under the photoconductive layer. One such Recording material is shown in FIG. 2 explains where the substrate 20, ζ. B. made of paper, and a thin metal layer 23 is shown, made of evaporated aluminum or a very thin one, with aluminum foil connected to the substrate. On this metal layer 23 is then the photoconductive layer 21 applied. A recording material constructed in this way is particularly useful because a particularly smooth surface is formed, making more accurate and sharply delineated copies develop.

Since the production of reproductions is a main field of application of the invention, this is Developer material used to make the aerosol is usually black or clearly colored Substance. Certain dyes that are stable under normal storage conditions, i. H. at normal temperatures do not evaporate and discolour the adjacent surfaces does not bleach or discolor excessively when exposed to sunlight and which does not decompose rapid heating are particularly well suited for this purpose. About these dyes include Alizarine Irisol N (CI. 60 725); Anthraquinone Sky Blue B base (C.I. 62,100); Oil Red O

(C. I. 26 125) and Oil Yellow (C. I. 11160).

The method according to the invention makes the production of reproductions within surprising reached in a short time. The reproductions are excellently haze-free and show the finest Details that could still be projected by high quality optical systems. the Reproductions are permanent without the need for subsequent fixing or further processing were. The reproductions can be in any color desired including black and white, getting produced. Areas of the same brightness are colored evenly and not at the edges as in many electrophotographic reproduction processes. Developing the picture can be continued to any desired thickness of the image. This is how printing forms are for known reproduction methods, ζ. Β. for hectographic processes or for planographic printing, easy to manufacture.

example

High quality dense paper with a smooth surface was made with a Coated extremely thin aluminum layer, which was applied by vacuum evaporation. the Aluminum surface showed strong reflection. A thin layer was then applied to the aluminum layer Layer of a viscous mixture obtained by dispersing 55 parts by weight of zinc oxide powder in a solution of 5 parts of a copolymer composed of more than 50 percent by weight of styrene and less than 50 weight percent butadiene in 40 parts toluene was applied and then dried at a moderately elevated temperature. The dried layer had a thickness from 0.0025 cm. The zinc oxide (pro analysi) had a particle size of 0.1 to 0.5 μm.

This 17.5 x 17.5 cm recording material was then placed in a device such as they in Fig. 1 is shown taking it from a flat metal plate as a backing with the photoconductive Layer was worn outwards. The projection apparatus 10 was at a distance of 90 cm from the pad and had a 100 watt bulb and an f-8 lens aperture. the Corona source 11 consisted of a grid of fine, parallel to each other at a distance of 5 cm arranged wires, was placed at a distance of 7.5 cm from the recording material and was moved back and forth. A negative potential of 20,000 volts was applied to the corona source 11, while the other pole of the voltage source was connected to the base. With diffuse

Light became a photograph of a negative line art master projected onto the recording material while it is under the influence of the corona discharge was standing. Just before and during the generation of the aerosol and while the projected If the light image continued to act on the recording material, the voltage potential at both the Underlay and at the corona source vice versa. The aerosol was applied to the device 14 by heating of the wire 141, the layer of developer 142 evaporating practically immediately became. The developer used consisted of "Alizarine Irisol N" (C.I. 60 725), which with a low Amount of paraffin had been mixed. A brief treatment that was just enough to get that Letting the aerosol rise in front of the face of the recording material produced an enlarged one negative reproduction of the negative master copy, since the blue aerosol does not exposed parts of the image was deposited.

The picture was distinguished by extremely fine details and high contrast. The white ones Lines were practically free of dye and the lines of the drawing reproduced were sharp limited. The blue background had a uniform density.

In another embodiment of the method described above, the base was initially positively charged with 40,000 volts and the grid connected directly to earth, whereupon Potential and earth are reversed. The quality of the generated image remained unchanged, but is simplifies the electrical installation.

Slightly less high-contrast images were obtained than the tension on the base and on the grid was lowered to 10,000 volts.

The dye in the aerosol has been mixed with paraffin to reduce smudging of the image. The same purpose can also be achieved when using a small amount of paraffin or Paraffin oil is added to the binder solution which is used to produce the recording material. The presence of this sticky material on the surface of the recording material served to hold the extremely fine particles of the aerosol developer.

The zinc oxide of the recording material described in the example provides a white surface, which is very suitable as a substrate for the dyes used as developers. Other photoconductors can have the same or greater photoconductivity, but are often significant because of their color less suitable. Cadmium sulfide is e.g. B. of yellow-orange Color and ineffective as a substrate with developers of the same color, although there is one has high photoconductivity. A thin layer of titanium dioxide over the cadmium sulfide layer overcomes these disadvantages without losing the photoconductivity of the recording material.

In many cases, mixtures of photoconductors show additional advantages over the individual ones Substances. For example, a mixture of one part of zinc oxide and three parts can be advantageous Zinc sulfide can be used in place of the zinc oxide of the example.

Claims (4)

Patent claims: 1. Xerographic reproduction process in which a photoconductive layer and a optionally containing a transparent, electrically insulating layer, xerographic Recording material charged, imagewise exposed, the charge image transferred and / or is developed, characterized in that the xerographic recording material opposite charged before charging and during opposite charging is exposed imagewise. 2. The method according to claim 1, characterized in that the photoconductive layer vitreous selenium is used. 3. The method according to claim 1 and 2, characterized in that as electrically insulating Layer of polyvinyl acetate is used. 4. The method according to claim 1 to 3, characterized in that the opposite charging and the imagewise exposure are carried out one immediately after the other. 1 sheet of drawings 509 659/437 8.65 © Bundesdruckerei Berlin