DE1939376A1 - Electrostatic photography - Google Patents

Description

PATENT ADVOCATE

7 STUTTGART 1, MOSERSTRASSE 8 ■ TELEPHONE (0711) 844003

August 1, 1969 / P - R 85 -

KABUSHIKI KAISHA RICOH, No. 6-3, 1-chome, Nakamagome, Ohta-ku, Tokyo (Japan)

Electrostatic photography

The subject of the invention is an electrostatic photograph, in the case of photoelectrically conductive photosensitive layers on both sides of a support of a photosensitive Plate are provided and with the back of the plate either during, before or after a charge is exposed by corona discharge to produce reproductions on both sides of the photosensitive plate can.

In the case of a photosensitive plate for use in electrostatic photography with photoelectrically conductive ones Layers on both sides of your carrier material will be the Back of the plate when charging the layer on the front side by corona discharge or other devices with charged, as the photoelectrically conductive layer

009812/1478

BATH ORIGINAL

has a high electrical resistance on the back in the dark, even if the carrier material has a low electrical resistance should be used. After the photoelectrically conductive layer is exposed to an image on the front side and thus on this layer a latent electrostatic image has been formed, the electrical charge remains on the photoelectrically conductive one Layer on the back, in this way, on the non-copied or unpictured unexposed areas of the photosensitive paper severe smearing, and in addition the sharpness and the contrast of the image is lost when the latent image develops and becomes visible on the photosensitive paper is made.

A method to get rid of these! Laughed! Ie is specified in Japanese Patent 3 ^ 13/196 "O. In a photosensitive plate according to this proposal, photoelectrically conductive layers are provided on both sides of the carrier material, an end section of both sides of the conductive carrier material being exposed to light This suggestion that the entire surface of the photosensitive plate cannot be effectively used, since the conductive material on one side of the plate is exposed. In addition, a special electrode must be provided in the exposure and development device which comes into contact with the exposed, lightening carrier material in the case of charging by corona discharge. A practically feasible copier in which all the work processes (charging, exposure and development) of an electrostatic photograph are carried out, results in a complicated structure in order to bring the electrode into contact with the electrically conductive substrate tion to bring and to move away again, this process is necessary every time the photosensitive plate is inserted or removed from the device or is moved in the device.

009812 / U78 ^{- /} ~

The present invention is based on a completely different premise and consideration than the aforementioned known Proposal and aims to cover the entire surface of the to be able to effectively exploit photosensitive plate and to provide a method for electric photography, in which the unexposed part of the photosensitive paper does not smear in the course of the development process.

With common electrostatic duplication processes becomes a layer of zinc oxide and a resin mixed or a selenium vapor deposited layer for photoelectrically conductive photosensitive papers used. Such photoelectrically conductive materials have a relatively high specific Resistance, more than 10 ohm cm in the dark

no that on 10 ohms, or lower fourth at exposure falls off. On the other hand, these materials have good conductivity for the discharge current, e.g. in a Corona discharge. The invention makes use of these properties of photoelectrically conductive materials. if a photosensitive plate (or paper) with a photoelectric conductive sensitive layer on both sides of the carrier material charged i, "ir-ä, the layer is on which the charge is not to be applied, i.e. the layer on the back of the plate, at the same time moistened in order to reduce the electrical resistance, so that this layer is conductive or permeable to the discharge current and thus the barrier to the Corona discharge is eliminated. In this way you can an effective and "flawless charging process" on the photoelectric Perform conductive layer on one side, on which latent electrostatic images are then applied will. At the same time, a charge is generated on the photoelectric Conductive layer on the back on an extremely kept low or largely prevented.

009812 / U78

BATH ORIGINAL

The invention is illustrated below with reference to the drawing Example embodiments explained in more detail.

Fig. 1 shows an enlarged schematic cross section of a photosensitive plate for use in of the present invention,

2 shows an enlarged cross section through an arrangement for carrying out the invention and

3 shows an enlarged cross section through another arrangement for carrying out the invention.

Referring to Fig. 1, a light-sensitive one used in the present invention contains Plate for electrostatic photography, a carrier layer 2 made of paper, plastic, metal or other material, on both sides of which photoelectrically conductive and photosensitive layers J and 4 are provided are. For these photosensitive layers 3 and 4, those in ordinary electrostatic photography can be used inorganic or organic photoelectrically conductive substances used are used, for example Selenium, zinc oxide, zinc sulfide, cadmium sulfide, etc., or N-vinylcarbazole or mixtures of these substances with one Silicone resin, alkyd resin or a vinyl resin.

Fig. 2 shows a charging device for use in the invention with a corona discharge part 5 * of a high-voltage supply unit 6, a light source 7 for the exposure and an electrode δ for the corona discharge, which are essentially is translucent. For this transparent electrode For example, a material known under the trademark "NESA GLASS" can be used, which consists of a transparent glass with an "iJesa" layer. Electrodes are also possible, consisting of a transparent glass or plastic plate, which carries a thin layer 8a of copper iodide or cadmium oxide applied by vacuum vapor deposition. Layer 8a is grounded.

-A 009812 / U78

BATH ORIGINAL

The photosensitive plate 1 according to Pig. 1, which is placed on the transparent electrode 8, now learns charging via the corona discharge part 5 while at the same time the photosensitive layer 4 located on the back or underside of the plate through the transparent one Electrode 8 is exposed through ". In this way, the electrical resistance falls with the transparent Electrode in contact with photosensitive layer 4, while the photosensitive layer charging on the top.

By means of a suitable optical system between the light source 7 and the translucent electrode 8, the exposure light are compressed at the point where the corona discharge takes place.

Fig. 3 shows another exemplary embodiment for a charging arrangement, which can be used in the invention. At position 9 and 10 there are components for implementation a corona discharge intended for a double charge procedure connected to a high voltage supply 11 are connected. At position 12 there is a light source and at position 13 there is an electrical shield provided opposite the corona discharge. The screen Ip can in this case have an opening so that the light from the light source 12 can fall. The screen or the plate Γ5 can be made of a transparent electrode consist of the material specified above. The success intended by the present invention is also achieved in a charging device achieved with a double corona discharge system.

From the preceding examples it can be seen that the photosensitive layer on the underside in the course of the Corona discharge exposed. Because the decreased electrical resistance of the photoelectrically conductive material is not

009812/1478

BATH

immediately goes back to its high V.'ert after the light is switched off vjorden, Ιιε.ηη the electrical Charging can still be carried out after the. the incidence of light on the back of the sensitive plate has taken place. It is also not possible to recharge first perform and the on the photosensitive Layer on the back side of the charge due to subsequent lighting or Be Ii ent ar.; -? only the back to eliminate by making the photosensitive layer conductive, so that the charge on this layer the back is significantly reduced.

According to the invention, it is therefore possible to use both sides of one light-sensitive plate for copier ζ -, / corner to use, being on both sides of the with photosensitive * layers provided carrier material an excellent quality is achieved.

009812 / U78

BAD ORIGfNAi.

Claims (2)

PATENT ADVOCATE 7 STUTTGART i, MOSERSTRASSE 8 TELEPHONE | 07t! J 244003 Kabushikl Kaisha Ricoh, »* l · Tokyo (Japan)> August 1, 1969 / P - R 85 - Claims V method of making an electrostatic photograph, characterized by using a photosensitive plate on both sides of a support material has photoelectrically conductive photosensitive layers, the rear side of the photosensitive plate exposed either simultaneously with, before or after charging by means of a corona discharge process. 2. The method according to claim 1, characterized in that the incident on the back of the photosensitive plate JLightens on the spots during the corona discharge will be concentrated », each of which is currently being charged. 00S812 / U78 Blank page