RO115455B1 - Installation for exfoliating selenium from waste xerographic rollers - Google Patents

Abstract

The invention relates to an installation for exfoliating selenium from A 3 - A 4 - format waste xerographic rollers, for recovering the same. The installation comprises a vessel (1) having stainless steel walls with thermal insulation made of cork (2), which contains liquid nitrogen (11). A tilting cover (3) allows the access of a xerographic roller (12) into the liquid nitrogen mass (11) in vessel (1), wherein, after 3...5 min from the total immersion, the selenium layer (13) is exfoliated from the aluminium roller (12). The xerographic roller (12) is handled outside the vessel (1), by using a cylindrical plate (10), joined with a rod (4) provided with a handle (5).

Description

RO 115455 B

The invention refers to an installation that allows selenium to be exfoliated from the surface of used xerographic cylinders, A3 - A4 format, in order to recover it.

Selenium left on the used xerographic cylinder, after recovery and simple processing, can be used to coat a new cylinder.

for this purpose, an installation is known, consisting of an enclosure heated to 180°C, equipped with a rotating support on which the used xerographic cylinders are placed, the selenium layer being peeled off manually after about 30 min of heating: bibliography ("HANDBOOK OF MATERIALS AND PROCESSES FOR ELECTRONICS" Ed. Charles A. Harpef Mc. Graw - Hill book Company New York, 1970, Chap. 5 - 50).

The disadvantage of this installation consists in the appearance of hard-to-exfoliate areas on the cylinders due to uneven wear of the selenium layer, or even melted selenium, which releases toxic vapors and can only be removed by evaporation.

The problem that arises consists in performing the exfoliation of the selenium layer in order to recover it from a used xerographic cylinder, in a high-performance installation, with a high recovery yield and without the release of toxic vapors.

The installation according to the invention solves this problem, by recovering the selenium layer from the surface of a used xerographic cylinder, by immersing it in a vessel with liquid nitrogen, with the help of a mobile support, manually operated by a rod provided with a handle outside the vessel, which allows the repeated axial translation of the xerographic cylinder, in order to completely remove the detached selenium layer due to the differences in the coefficient of thermal expansion between the selenium and the aluminum support.

By applying the invention, the following advantages are obtained:

- the selenium layer is completely removed from the aluminum support;

- the surface of the aluminum support is not damaged;

- no toxic products appear;

- the installation is reliable and easy to handle.

An example of an embodiment of the invention is given next, with reference also to the figure, which represents a longitudinal section through the installation according to the invention.

A xerographic cylinder consists mainly of a conductive aluminum support on which an amorphous selenium layer is deposited, with a thickness of several tens of microns.

during the operation of a photocopier, the selenium layer on the cylinders is constantly subjected to friction by the developer, the xerographic paper and the erasing system, so that after 30,000 - 40,000 copies it becomes unusable due to scratching, dulling or even partial detachment from the aluminum support.

The installation according to the invention, for the exfoliation of selenium from used xerographic cylinders, consists of a stainless steel vessel 1, with double walls, between which there is a layer of cork 2, provided with a hinged cover 3 and an opening a, through which it passes a rod 4 in connection with a handle 5.

The rod 4 is guided inside the vessel 1 through a metal sheath 6, solid with the inner wall of the vessel 1 thanks to some supports 7, 8.

At the lower part of the rod 4 is mounted an arm 9 that supports a cylindrical plate 10, provided with some holes b that facilitate its movement in a mass of liquid nitrogen 11.

Opening the lid 3 allows both the filling of the vessel 1 with liquid nitrogen 11 and the penetration into it of a xerographic cylinder 12 whose selenium layer 13 is to be exfoliated.

Claims (1)

RO 115455 B The evacuation of liquid nitrogen 11 and exfoliated selenium 13 is done through a valve 14, 50 of appropriate size, located at the bottom of vessel 1. According to the invention, after filling the vessel 1 with liquid nitrogen 11, the cylindrical plate 10 is brought with the help of the handle 5 to the hole created by opening the cover 3 and the xerographic cylinder 12 is placed on it, in a vertical position. The cylindrical plate 10 is then lowered inside the vessel 1, together with the xerographic cylinder 55 12, and the cover 3 is closed. When 3...5 minutes have passed since the immersion, the handle 5 is energetically acted upon several times, moving it along the axis for a distance of 15...20 cm to completely separate the selenium layer 13 from the surface of the xerographic cylinder 12. Then the cover 3 is opened and the xerographic cylinder 12 is taken out, visually checking the quality of its surface. If there are still traces of selenium 13, the xerographic cylinder 12 is again immersed in the mass of liquid nitrogen 11, repeating the mentioned operations. Claim 65 Installation for the exfoliation of selenium from used xerographic cylinders, characterized by the fact that it consists of a thermally insulated vessel (1), filled with liquid nitrogen (11) and provided at the top with a hinged cover (3), which allows the penetration the xerographic cylinder (12) having a selenium layer (13) inside the vessel (1), using for this purpose a cylindrical plate (10), operated from the outside with a handle (5) in connection with a rod (4) which slides in a metal sheath (6), integral with the inner wall of the vessel (1), and a liquid nitrogen discharge valve (14) containing the selenium (13) exfoliated by thermal embrittlement. The president of the examination committee: Eng. Anghel Radu Examiner: Eng. Arghirescu Marius