SU1020796A1 - Apparatus for charging electrographic record medium - Google Patents

Abstract

1. A ELECTROPHOTOGRAPHIC RECORDING MEDIA CHARGER DEVICE containing a wire coronaration electrodes in a housing, a power source, one pole of which is connected to the coronary electrodes, and the other to the current-carrying layer of the recording carrier and the control grid, is located between the cross section of the interface and the cross-section body of the recording body. with a conductive layer of the latter through a resistor, characterized in that, in order to increase the speed and improve charging, part or all of the control grid is made in the form of an equilateral rapetsii, the smaller base of which is located on the upstream side of the record carrier in the charging zone. 2. A device according to claim 1, characterized in that the difference between the values of the bases of the trapezoid g is 10-24 mm. (L

Description

The invention relates to electrography, in particular, to devices for recording information on electrographic carriers, which are charged in motion.

Electrographic media charging devices are known, which contain corona electrodes in a housing mounted above a charging surface and a power source, one pole of which is connected to the corona electrodes and the second is grounded. The corona-generated ions move under the action of an electric field and are deposited on the surface of the sensitive layer of the recording medium 11.

This device provides fast layer charging, however, it is characterized by low charge stability. This is due to the influence on the processes occurring in the corona discharge, as well as on the transfer of ions through the external discharge zone, atmospheric conditions and gas composition in the discharge (for example, the presence of vapors and pinning in pairs K. As the frame loading time is kept constant, there is a difference in the charge level of different frames of the recording medium. In addition, the disadvantage of this device is also the presence of an edge effect, which is expressed in the fact that the edge of the charged portion And they charge to a lower potential than the middle part due to the influence of the housing walls on the discharge processes and the transfer of oil for a row.

A device is known in which, in order to stabilize the level of charging between the corona wires and the charging surface, a control grid is installed that is connected to an additional power source 2.

The disadvantage of the device is a low charging rate. Maintaining the grid at a constant potential limits the total discharge current. In addition, to stabilize the surface potential level, the grid must be sufficiently thick, and this leads to the fact that most of the discharge current flows to the grid, and not to the layer. Because of the presence of an edge effect, the edges of the recording medium are charged to a potential equal to the grid potential even more slowly than the middle part, and to obtain a uniform surface potential, the charging time has to be further increased.

A device for charging an electrographic recording medium is known, which contains wire corona electrodes in a housing whose power source, one pole of which is connected to the corona electrode, and the second

with the conductive layer of the recording medium and the Control Grid located between the corona electrodes and the record carrier and also connected to the conductive layer of the latter through the SZ resistor.

However, this device is characterized by low speed and low quality charging.

The purpose of the invention is to increase the speed and improve the charge.

To achieve this goal, in an external electrophotographic recording medium charging device containing wire corona electrodes in the housing, a power source with one pole connected to the corona electrodes and the other with the conductive layer of the recording medium (I) and a control grid located between the corona electrodes and a record carrier connected to the conductive layer of the latter through a resistor, a part or all of the control grid is made in the form of an equilateral trapezium, the smaller base of which located on the input side of the recording medium to the charging zone.

The difference between the values of the base of the trapezium is 10-24 ml.

The drawing shows the device, the overall appearance.

The device includes corona electrodes 1, connected, with one pole of the power supply 2, a dielectric body 3, a control grid 4, a conductive screen 5. Under the control of the grid 4 there is a recording carrier consisting of a sensitive layer, a conductor layer 7, the base 8. The grid 4 is connected through a resistor 9 with the current-conducting layer 7 of the recording medium

The device works as follows.

When a high voltage is applied from the power source 2 to the corona electrodes 1, charge carriers of both polarities arise in the zone adjacent to the electrode 1. They are separated by the action of the field and ions of the same sign are transported through the rest of the discharge zone to the sensitive layer 6 of the recording medium, charging it. Part of the corona current flows to the grid 4 through the resistor 9, which creates an offset on the nai. The magnitude of the resistor 9 is chosen such that the potential difference between: layer b and grid 4 becomes locking for charge carriers when a certain potential is reached on the surface of the layer and is usually 10-100 M ohms. Near the walls of housing 3, the conditions for the corona and carrier transport differ from those at the center of the charge. This is due to the fact that part of the charge carriers is deposited on the walls of the dielectric: housing body 3, creating a component field along the corona electrodes 1. The potential value of the housing ends, as shown by measurements, is several kilovolts. Under the action of this component, the ions formed in the corona discharge at the ends of the hull drift towards the center of the recording medium, with the result that the total corona current in the side of the layer at the ends is less than in the center. A typical distribution of the charge current of a prototype device along a corona electrode has the form of a distorted letter M with maxima at a distance of 11–16 mm from the end. In the proposed device, due to the absence of a grid at the edge of the charging zone, the decrease in the total current at the wall is compensated for, as it all goes to charge the recording medium, while in the center a part of it flows to the grid. In addition, an increase in the spatial charge in the gap between the grid and the charging layer at the ends of the body creates an additional force, which causes a decrease in the amplitude of the current maximums and an increase in the region of the central minimum. Thus, the presence of a gap without a grid leads not only to the expansion of the charging zone, but also to the equalization of the y-current distribution along the corona electrode. Performing all or part of the grid in the form of an equilateral trapezium leads to the fact that the closer the surface area of the carrier to the body, the more the entire current of the box will flow to it. The measurements showed that the zone in which the edge effect takes place depending on the magnitude of the corona current, the speed of the recording medium and the shape of the body edge is usually 512 mm, therefore the smaller trapezoid base is selected 10-24 mm shorter than the larger one. .Turning the trapezium of the smaller side towards the entrance of the carrier | writing to the charging zone allows for the final adjustment of the surface potential to the required level when passing the edge portions of the recording medium under the grid. The proposed device allows to increase the speed and improve the uniformity of charging, and thereby reduce the preparation time of the recording medium and improve the quality of the recorded image.

Claims (3)

1. ELECTROPHOTOGRAPHIC RECORDING MEDIA CHARGING DEVICE containing corona wire electrodes in the housing, a power source, one pole of which is connected to the corona electrodes and the other to the conductive layer of the nose? recording device and a control grid located between the corona electrodes and the recording medium connected to the conductive layer of the last through a resistor, characterized in that, in order to increase the speed · and improve charging, part or all of the control grid is made in the form of an isosceles trapezoid, smaller the base of which is located on the input side of the recording medium in zone J 2., which varies between values. is 10-24 charging. by π, 1, about t l and the fact that the difference in the base of the trapezoid mm. is' with conductive layer carrier zaeg pisi and control grid, raspolo- ¹ fluoropyridinium between the discharge electrodes and the recording medium and also soybeans; dynamically conductive 5 of the latter through a resistor [3]. However, this unit is characterized by low speed and LOW! charging quality. The purpose of the invention is to increase speed and improve charging. To achieve this goal, in a known device for charging an electrophotographic recording medium containing corona wire electrodes in a housing, a power source, one pole of which is connected to the corona electrodes and the other to a conductive layer of the recording medium, and a control grid 2θ located between the corona electrodes. electrodes and a recording medium connected to the conductive layer of the latter through a resistor, part or all of the control grid is made 25 in the form of an isosceles trapezoid ', the smaller base of which is located on the input side of the recording medium in the charging zone. g The difference between the values of the base of the trapezoid is 10-24 ml. 30 The drawing shows a device, General view. The device includes corona electrodes 1 connected, to one pole of the power supply 2, 35 a dielectric housing 3, a control grid 4, a conductive screen 5. Under the control grid 4 is a recording medium consisting of a sensitive layer b, a conductive 40 layer 7, the base 8. The grid 4 is connected through a resistor 9 to the conductive layer 7 of the recording medium. The device operates as follows. 45 When a high voltage is applied from the power supply 2 to the corona electrodes 1, charge carriers of both polarities appear in the zone adjacent to the electrode 1. They are separated by the action of the field and ions of the same sign are transferred through the external zone of the discharge to the sensitive layer 6 of the recording medium, charging it. A portion of the corona current flows to grid 4 through a bias resistor 9 55 on it. The value of the resistor 9 is chosen so that the potential difference between the layer 6 and the grid 4 becomes locking for charge carriers when a certain potential is reached ’ 60 layer surface and usually amounts to 10-100 And Ohm. Near the walls of the housing 3, the conditions of corona and transfer of charge carriers differ from the conditions in the center of the charger. This is explained 65 by the fact that some carriers