DE1522622A1 - Xerographic plate or drum - Google Patents

Description

Xerographic Plate or Drum The invention relates to a xerographic plate or drum having improved properties.

xerographic sheets are already known, the photoconductor layer of which consists of selenium in amorphous form. These plates are characterized by useful mechanical and electrical properties. With regard to the range of photosensitivity, however, there is still something to be desired, the known layers are essentially or exclusively sensitive in the ultraviolet range, not at all or only insufficiently in the red range of visible light. Likewise, with the known plates, it is not possible without the use of an additional electrode to develop halftone originals. Without a development electrode, there is a strong emphasis on the contours, which is not desirable. The object of the invention is to create a xerographic plate or a drum which has an increased sensitivity in the red range of visible light and, in addition, has a considerably increased ability to reproduce halftone originals. According to the invention, the plate, which is still vapor-deposited in a vacuum and has a layer of about 50 microns selenium in amorphous form, is exposed under the influence of heat through a photographic grid that is pressed closely to the selenium layer. During this exposure with simultaneous exposure to heat, the amorphous selenium is transformed into the gray metallic form of the: elene in a grid pattern. The gray metallic form of selenium is generally not suitable for xerographic purposes because its dark resistance is too low and the layer is therefore unusable for storing electrostatic charges. On the other hand, metallic selenium has excellent sensitivity in the red region of visible light. In the proposed method, the halftone dot made of metallic selenium is embedded in amorphous selenium and is thus isolated; so it is initially able to hold a charge.

The plate obtained in this way has, under the same conditions, a considerable j4 increased sensitivity to red, which in practice is an increase in general sensitivity affects.

It was also determined that the leaf according to the foundation also has an increased ability to reproduce halftone originals; apparently the screen produced according to the invention acts on the charge image after exposure like a multitude of imperfections, so that instead of a homogeneous field an inhomogeneous one consists. Such an inhorrogenic field is known to develop in xerographic Process almost completely black, as opposed to a homogeneous one in which only the Edges are developed.

The plate according to the invention can be used under various working conditions getting produced. Without intending to limit the invention, therefore an example called werrlen.

A 50 micron thick layer of the purest selenium is vapor-deposited onto an aluminum plate of high purity and uniform surface oxidation. The temperature of the aluminum plate is approx. 600G during vapor deposition and the vapor deposition time is approx. 12 minutes.

After removing the plate from the vapor deposition chamber - if necessary after the surface has been slightly polished - the plate is closely covered with a photographic grid and brought to a temperature of 60 to 950C for about 1 to 10 minutes. The temperature depends essentially on the type of master used, the thickness of the grid plate and the fineness of the grid. During the treatment period, the plate is exposed to a powerful lamp through the grid. The exposure time and intensity are of course dependent on the lamp power, the grid density and the thickness of the grid plate. As a lamp has, for example, an iodine - Q 't $ cz-LaanpE- Bew = IHRT, at a distance of about' tco to 150 mm vcn the grid plate is held away and for a period of about 2 - applied for 3 minutes. in practice, the method has proved to be simple and not critical, but, of course, the photoconductive Eigensohaften change according to the different Rufdampf- and N :: chbehandlungsbedingungen. It is understood da3 too long exposure and heating, as well as too high Erhitzurg renders the platen unusable for xerographic purposes.

It has been found that the plate experiences a pronounced increase in sensitivity especially when instead of an aluminum base a glass or plexiglass plate with a conductive intermediate layer xmä, for example, IndLum base is used, then a layer of amorphous selenium from e.g.

-o to 6o blicron vapor-deposited and " the plate is exposed to a . Obviously, making the red sensitivity of the metallic screening noticeable, which is so illuminated by the red amorphous be round. the various kasteruaigsfeinheiten are usable, but they need depending on the fineness different Behandlaugszeiten.

In a further embodiment of the invention, a grid can be used can even be completely dispensed with. In this case it has proven to be useful ex have shown to shorten the exposure time to prevent complete crystallization do achieve. Apparently it did, but again the type of before the treatment was carried out Polish have some effect on the result.

Claims (1)

Patent claims 1 xerographic plate or cylinder, characterized in that a layer of amorphous selenium is applied in a known manner to a substrate, in particular by vacuum vapor deposition, the plate or drum thus obtained is optionally polished and then subjected to heating and exposure . Xerographic plate or drum according to claim 1, characterized in that the exposure and heating simultaneously ER- follows. j Xerogral: Hische disk or drum according to claim 1, characterized in that the exposure is performed by a grid. 4 Xerographic plate or drum according to one of the preceding claims, characterized in that the exposure is carried out by a short-wave IR emitting radiator, for example an iodine-quartz radiator . 5 Xerographic disk or drum according to one of the preceding claims, characterized in that the belichtun @ ', is effected by a xenon burner, the emission region contains kurzwelligemr..IR also high levels of UV. 6 Xerographic plate or drum according to one of the preceding claims, characterized in that the evaporation of the selenium layer takes place at a temperature of the evaporation base of 20 to 950C and the evaporation time is between 2 and 45 minutes . 7 Xerographic plate or Trcmrel according to any one of the preceding claims, by * in that the layer thickness of the amcrF: ren selenium between 1 and Zoo microns, preferably between 2o and # 3o blikron. Xerographic plate or drum according to one of the preceding claims, characterized in that the crystallization of parts of the layer or of the layer which takes place as a result of the aftertreatment is only superficial, not through the entire layer thickness and at most up to , . ..: = r Sehich - #: ic: e - 019 -