SU849128A1 - Device for electrostatic charging of electrographic medium surface - Google Patents

Description

STATE OF ELECTROSTATIC APPLICATION

(54) ELECTROGRAPHIC SURFACE ON THE SURFACE in which recharge of the carrier is used during the exposure. . - Known devices for infecting a carrier, made on a two-sided substrate, (1) are two rows of structurally equivalent semi-blocks located on either side of the carrier. The semi-blocks are combined into two groups containing three semi-blocks, with the corona electrodes of the semi-blocks of each group being electrically connected with each other and with one of the poles of a high voltage source that are different in polarity with respect to the midpoint connected to the housing. grounded. The semi-blocks included in one group are also included in the same series. The opposite polar corona discharges excited on both sides of the carrier lead to the deposition of charges of different polarity on opposite sides of the carrier l. The disadvantage of the known devices is their low reliability, due to the increased likelihood of electrical breakdown between any half block and the case, since all discharge electrodes are at a high potential relative to the case (ground). In addition, they have narrow functionality, as they are able to charge the surface of the carrier to a certain potential, which is not enough to use these devices in electrophotographic processes, including the stage of carrier recharging. It is also known a device for applying an electrostatic charge on

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The surface of the electrographic carrier, containing two rows of one semi-blocks located one against the other and a power source, to whose poles the corona-containing and screening electrodes of the semi-blocks 2 are connected.

A disadvantage of this device is also low reliability, due to the increased probability of an electric zRobo between any half block and a grounded body, since all the corona and shielding electrodes are under high voltage relative to the body (ground), in addition, it has narrow functionalities opportunities, since it cannot be used in electrographic processes, including the stage of carrier recharging.

The purpose of the invention is to increase the reliability of the device and expand its functionality.

The goal is achieved by the fact that the device has additional semi-blocks placed in one of the rows, while the shielding and shielding electrodes of the neighboring semi-blocks of one row are connected to different poles of the voltage source.

The drawing shows the proposed device.

The device contains a high voltage source 1 and two rows of semi-blocks 2 located on opposite sides of a carrier consisting of a dielectric base 3 and a photosemiconductor layer 4. The surface of the photosemi-layer layer can have a coating in the form of a thin dielectric film 5. The semi-blocks contain corona electrodes 6 and shielding electrodes 7. The shorting electrodes are thin wires, TOJsofiHoA 50100 µm, or a set of needles. Screened electrodes are made in the form of rods, more than a few hundred microns thick, or in the form of plates of various shapes. Other semi-blocks can also be used.

The semi-blocks A, D, C are one group, and the semi-blocks B, D, C belong to another group. The corona electrodes of the semi-blocks of groups A, D, and c. The shielding electrodes of groups B, F, and C are connected to each other and are connected to the positive pole of a high voltage source. Electro-284 screening groups B, G, D and screening electrodes

childbirth groups A, D, are also connected together by themselves and connected to a grounded pole of the source.

The device works as follows.

When high voltage is switched on, the corona arises at the corona electrodes of the semi-blocks of groups A, D, and the corona arises positively, and at the corona electrodes of groups B, D, and C - negative. The semi-blocks A and G charge the carrier by charging one polarity, i.e. the upper surface has a positive potential with respect to the lower semi-blocks B and D, located behind the semi-blocks A and G in the direction of movement of the electrographic carrier, re-charge this carrier, i.e. a charge of opposite sign is deposited on the charged surfaces of the carrier, as is required when recording an electrostatic image in recharging processes. Wherein,

The same high voltage source is used for peeosing, having only one high-voltage output of one pg.

The unpaired semi-blocks B and B act as an overcharge neutralizer, i.e. that charge, which is not compensated by the screening charges and arises due to the different mobility of negative and positive ions in the air, as well as due to the asymmetrical arrangement of the carrier relative to the semi-blocks of positive and negative corona. The presence of this excess charge leads to sticking of the carrier during its further passage along the path. In order to fulfill their functions, unpaired semi-blocks belonging to different groups should be located one after the other on each side of the carrier, as shown by dashed lines in the drawing.

Claims (2)

1. A device for applying an electrostatic charge on the surface of an electrographic carrier, containing two rows of one half opposite each other and a power source, to the poles of which are connected the corona and screen electrodes of the half blocks, different 5849128А By the fact that, in order to increase reliable-Sources and formats, These operations and functional extensions are taken into account in the examination features it has hosted in one of the series of additional half- J. Patent of Great Britain the blocks, with the corona and screens, s 1.203.267, c. 03 G-5/12, 1976. neighboring electrodes of adjacent semi-blocks one p yes connected to different fields 2. US patent No. 3.651.323, source of voltage itself. Ci 03 6 15/02, 1972 (prototype).