SU691110A3 - Material for developing electrostatographic images - Google Patents

Description

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This invention relates to electrography.

A known material for the development of electro-electrographic images, which is a color intrusion, containing particles of a transparent resin and an organic coloring pigment 1. The disadvantage of this material is that when using such turns, especially in the case when the yellow turn is used in an automatic electrophotographic device, the known yellow dye consists of 0.92-1, 08 parts by weight. 3,3-dichloro, 4bis (2 -atsetsh1-2 -azo-oatsetotluidid) -biphenol per 10 parts by weight almost transparent resin.

The difficulty of using such a dye is that it can evenly disperse in a transparent resin, and its undesirable triboelectric properties are even more important, which, when using this material, produce pale images with low contrast and short life. The triboelectric properties of the resulting turn are not preserved under conditions when the turn is subjected to mechanical abrasion, high temperatures and high humidity of the environment, i.e. under those conditions that are common in electrophotographic devices. This leads to poor transfer of the substance in the surface of the drum to the copy sheet and maintaining the cleanliness of the drum.

The aim of the invention is to improve the triboelectric properties of the material and increase its lifetime.

This goal is achieved by using a dye with the general formula as a dye for a turn.

 TO

SeNts

bN11 Any suitable transparent resin can be used to obtain a turn. Especially good results are when using vinyl resins and polymer esterification products of d-carboxylic acid and diol compounds containing diphenol. P1xtag1Sh1Sh T rsrSh1 Dukt condensation of the polymer of diol and dicarboxylic acid, which is part of the turn, greater sharpness and density of images is achieved. (In order to obtain a turn, any known mixing and grinding methods can be used. Particle sizes can be any. The most preferred average particle size is in the range of 10 to 19 µm, which is 1X6F the maximum density.

Sources of information taken during the examination

5bNi

Claims (1)

1. US patent N 3345293, cl. 252-62.1, 1967 (prototype). 4 The carrier particles for the developing material can be electrically conductive, insulating, magnetic or non-magnetic, but in this case, the carrier particles must receive charge of the Opposite sign in relation to the charge: a number of frequent bends, and due to the turn of the cable surround the nskitel particles. The carrier can be used in any suitable bearer relationship Formula of the invention of the Material Dagger of Electrostrographic Image Ensuring, containing the carrier and the turn consisting of a resin with the dye included in it, and so on. that, in order to improve tribo-electrical properties and increase the service life of the material, the dye has the general formula