SU410595A3 - - Google Patents

Description

one

This invention relates to electrophotography.

Devices for the generation of latent electrostatic imaging are known, in which a two-component developer is cascaded onto a photoconductive surface or applied with a rotating impeller. With this method of application, the powder is partially sprayed, polluted the air in the workshop.

To eliminate the above drawbacks in the proposed device, the movable photoconductive surface is in contact with a certain amount of the developer placed in the housing of the developing device.

In order to enable the developer to spill out, the surface of the photoconductor moves to the upper part of the developing device, so that the developer near the surface of the photoconductor moves due to friction forces. Upon release, the developer returns from the surface of the photoconductor to the wall of the bunker, which is mounted vertically to improve the mixing of the developing powder.

In addition, an adjacent cavity with openings in the bottom part may be formed in the device for replenishment in the developing zone of the developer stock.

FIG. 1 shows a general view of the described device; in fig. 2 — interaction of the developing powder with the photoconductor surface; in fig. Figure 3 shows the flow pattern of the propeller.

The photoconductive surface of the cylinder 1 moves in the direction of the upper part of the body 2, which contains a two-component developer, so that the nuclear powder 3 moves in the same direction under the action of friction forces. At the same time, the powder layers removed from the surface of the photoconductor move in the opposite direction.

The magnitude of the development zone is determined by the magnitude of the flow path of the developer in contact with the surface of cylinder 3. As the photoconductive surface moves in the development zone, a latent image appears.

Then, the developing powder with a reduced toner concentration is moved to the back of the device, where it is replenished with toner through the holes in the bottom of the adjacent cavity as it moves down.

To increase the flow rate of the developer, the reflective wall is positioned vertically. Good quality of the appearance is achieved at a flow rate of 200 to 400 times less than with a cascade appearance. The cylinder 1 rotates on the shaft 4, and the main units for carrying out the electrophotographic process are placed in the usual 5 way: A is the charge deposition zone; B is the exposure zone where a latent electrostatic image is created; B, a development zone where toner particles are deposited on a latent electrostatic image; 10 G is the transfer zone where the developed image is transferred from the photoconductive surface onto the material to be printed; D is the zone of cleaning and neutralization of the photoconductive surface. The housing 2 is arranged with a cylinder 1 having a drive. The cylinder and the developer come into contact in the development zone (section M – H). In the proposed device, fresh toner 20 is supplied better due to the tapering of the vertical reflective wall 6 installed between the end walls 7. The adjacent cavity 8 is formed by the wall 6 and the inclined wall 9, as well as the end walls 25 by the walls 7. The distribution device 10 consists of a base plate and a distribution platform 11 that overlaps the lower part of the adjacent cavity. On the distribution platform, there are 30 rows of longitudinally arranged holes 12 through which toner is supplied. Directly below the platform, a movable metering element 14, also having a number of longitudinally arranged openings, is located on the guides 13. By shifting the metering element, the toner supply can be adjusted by blocking the holes. A new toner, introduced in the flow zone, is mixed with the developer and quickly discharged into the main stream of flow moving at the baffle wall 6. The subject invention 1. A device for producing a latent electrostatic image on a photoconductive surface that can be moved towards the top the part of the bunker containing the developer, characterized in that, in order to improve the conditions of the moving of the developer, it contains a reflective wall mounted vertically directly at the photo boiling water surface. 2. A device according to claim 1, characterized in that a container is formed between the reflective wall and the wall of the bunker in the device case, the bottom of which has openings for replenishing the developer's stock in the developing zone.