DE2549947B1 - Worn photoconducting coatings of selenium - removed from electrophotographic plates by heating and spraying - Google Patents

Abstract

Process for dissolving layers contg. selenium from metallic substrates used for electrophotography, the substrate is heated to a temp. just below the m.pt. of the layer contg. the selenium, and the coated surface of the substate is then sprayed. The substrate is pref. heated to 200-250 degrees C. The method is used for the removal of old, worn or damaged photoconducting layers from the metal substrates so that a new photoconducting layer can be applied. The old layer is removed without distortion of the substrate nor damage to its highly polished surface.

Description

By spraying with water, the photoconductive layer experiences one Sudden cooling so that they can be polished without deforming or damaging the highly polished Completely detaches the surface of the carrier base. Also a layer of arsenic selenide can be removed with it without difficulty; the highly polished surface of the carrier pad remains completely undamaged.

Claims (2)

Claims: 1. Process for removing selenium containing Layers of metallic substrates for electrophotography, marked thereby e t that the support substrate to a temperature just below the melting point the selenium-containing layer is heated, and then the coated surface of the Carrier pad is sprayed. 2. The method according to claim 1, characterized in that the carrier substrate is brought to a temperature of 200 ° C to 250 ° C. The invention relates to a method for removing selenium containing Layers of metallic substrates for electrophotography. In electrophotography, the substrates are in the form of plates, cylindrical drums, rigid or flexible belts. As a material is a metal, for example aluminum, brass, chrome, stainless steel and the like, used. A photoconductive insulating layer is placed on such a support base Layer or a corresponding layer sequence vapor-deposited, poured on, sprayed on or applied by similar methods. The surface of the backing pad becomes previously polished to a high gloss, on the one hand to ensure good adhesion and on the other hand extremely uniform distribution of the layer or layers to be applied to ensure. As a photosensitive material in electrophotography for manufacture latent charge images, selenium is used extensively in its amorphous state. The amorphous selenium is made up of a large number of the known photoelectric Materials preferred because it is considered to be by far the most sensitive Substance is recognized and, moreover, its production is relatively simple tJm both to increase the spectral width as well as the light sensitivity of the selenium layer, arsenic is usually added to selenium. In addition to the arsenic, the selenium can be known to further improve its photoelectric properties other substances such as halogens, Oxygen, phosphorus, sulfur, antimony, tellurium and others may be added. Included The selenium can be doped selenium, but also in the form of selenium compounds or Selenium alloys are present as a single layer or in a layer sequence. Now, when used over long periods of time, signs of aging appear in such a way that, for example, the good photoelectric properties decrease or that the photoconductive layer becomes brittle or even begins to peel off. One Regeneration is then possible by removing the photoconductive layer from the carrier substrate is detached and the carrier substrate is re-coated. This now occurs Problem to peel off the photoconductive layer without deforming the support base and to damage the highly polished surface of the carrier pad. This is particular then very difficult when selenium, as is almost exclusively the case, Arsenic is added. As a result of the melting together of stoichiometric amounts arsenic is formed (As2Se3), which is very difficult to remove. So far, such a photoconductive layer has been used more concentrated, hot nitric acid. It was inevitable, however, that the polished The surface of the carrier substrate was attacked, so that a new coating could no longer adhere well or the surface of the carrier base was polished again had to become. It is the object of the invention to create a method by which The selenium-containing coating can be detached from metallic ones with simple means Can accomplish carrier documents without affecting the highly polished surface of the Damage carrier pads. This object is achieved according to the invention in that the carrier substrate to a temperature just below the melting point of the selenium-containing layer is heated, and then the coated surface of the support base with water is sprayed. This is something that can be accomplished with extremely simple means Process for detaching the selenium-containing layer was created. By a sudden Cooling down with water removes the layer completely, without the support base to damage or deform. The highly polished surface of the carrier pad remains completely undamaged. The invention is illustrated below with the aid of exemplary embodiments explained in more detail: On a metallic support base, which has a polished surface has a selenium-containing, photoconductive, insulating layer. the Support pad is in the form of a plate, a cylindrical drum or as a rigid one or flexible band. The preferred material for the support base is Used aluminum. But it can also be other metals, such as Use brass, copper, chrome, stainless steel, and the like. The surface the backing pad is polished to a high gloss to ensure good adhesion and uniformity Ensure distribution of the photoconductive layer. The photoconductive layer is made of undoped, doped selenium, one Selenium compound or a selenium alloy formed; preferably the selenium is arsenic added. Instead of just one selenium layer, a corresponding layer sequence can also be used be provided. For detaching the photoconductive layer from the metallic support base the coated carrier substrate is heated to a temperature just below the Melting temperature of the photoconductive layer heated. After that the coated The surface of the support substrate is sprayed with water. The heating temperature of the coated carrier substrate results each from the composition of the photoconductive layer. She is to be chosen that it remains below the melting point of the layer. Heating the coated The backing is usually carried out at temperatures from 200 ° C to 250 ° C. The water sprayed onto the surface of the base has preferably room temperature.