SU1061100A1 - Device for electrographic medium charging - Google Patents

Abstract

DEVICE FOR CHARGING ELEC TROGRAFICHESKOGO carrier containing site of discharge and the control element trodes coupled to block grounding boiling resistors and high voltage converter connected to the controller torus voltage comparator and the switch, characterized in that, in order to increase the quality of the charging, it It has a driver of control signals, a storage unit and an information erasing unit, while the output of the driver of control signals is connected to the first input of the switch connected to the output of the control unit erasing the if information by the third input to the first output of the storage unit connected by the second output to the controller input for the voltage | Ne, the switch output is connected to the first comparator output, the second output of which is connected to the output of the grounding resistor unit. .,eight

Description

The invention relates to electrography and can be used as a device for charging an electrographic carrier.

A device for charging an electrographic carrier is known, containing tqee knot / f of corona and control electrodes, connected to a unit of grounding resistors and a high-voltage converter connected to a voltage regulator, a comparator and a switch fij,

A disadvantage of the known device is the low quality of charging.

The purpose of the invention is to improve the quality of charging.

The goal is achieved by the fact that a device for charging an electrographic carrier, containing a node of corona and control electrodes, connected to a grounding resistor unit and a high-voltage converter connected to the voltage regulator, the comparator and the switch have a driver that controls the SIGNSHOV, STOPPING BLO-K

and an information erasing unit, wherein the output of the control signal generator is connected to the first input of the switch connected by the second input to the output of the information erasing unit and the third input to the first output of the help unit connected to the second output of the voltage regulator and the output of the switch is connected with the first output of the comparator, the second of which is connected to the output of the block; grounding resistors.

The drawing shows a block diagram of the device.

The device contains discharge electrodes 1 in housing 2, control electrode 3, grounded through resistors 4, comparator 5, switch b, storage unit 7, voltage regulator 8 and high-voltage converter 9. Controller 10 is connected to control unit I: I Signs and block 11 erase information.

Near the discharge electrode 1 there is a charged electrographic layer 12 with a grounded conductive substrate 13 applied onto the substrate 14.

The node of the corona and control electrodes contains corona electrodes 1 in the housing 2 and the control electrode 3.

The grounding resistors block consists of resistors 4, while the output of the control signal generator 10 is connected to the first input of the switch 6 connected by the second input to the output of the information clearing unit 11 and the third input to the first memory output of the block 7 connected to the second output voltage regulator 8, the switch b output being connected to the first output of the comparator 5, the second output of which is connected to the output of the grounding resistor unit

Block 11 is a logic circuit that forms the reset of the counter of block 7 upon a command from the control circuit.

The control electrode 3 is made in the form of a metal grid mounted above the charging layer 12.

Switch b is a matching logic. The storage unit 7 consists of a serially connected counter and a digital-to-analog converter. When a signal is received from block 10 to switch 6, the pulses of the generator included in the Comparator 5 are fed to the input of the counter of the storage unit 7 until the voltage on the resistors 4 of the control electrode 3 reaches the trigger voltage of the comparator 5. The pulses on the block counter 7.

The voltage regulator 8 is a voltage stabilizer for which the output voltage of the digital-to-analog converter 7 is the reference.

Electrographic recording media, such as microfiche, consists of a base 14 (polyethylene terephthalate 175 μm thick), a conductive transparent layer 13 deposited on it (platinum, nickel, etc.) and a photosensitive layer 12 (sensitized polyvinylcarbazole and others 3-5 μm thick ).

Other embodiments of the various elements of the device are possible. Experiments have shown that the potential unevenness in the recording area of a standard microfiche (105 X 148 mm) when using this device is 20-25%, which leads to unequal optical density of the subsequently displayed image. In addition, the excess of potential at the edge of the microfiche compared with the normal level increases the defectness in this area due to the increase in the number of breakdowns of the layer,

The potential adjustment of the corona electrodes is made immediately prior to the dissolution of charge carriers on the sensitive layer. This eliminates the effect on the end result of charging atmospheric conditions, the composition of the gas in the charge, etc., since during charging time, usually no longer than a few seconds, these parameters do not change significantly. The presence of elements in the charge zone with a potential different from the potential of the surface of the sensitive layer leads to a change in the magnitude of the current in the gap of the grid layer and to the light ((tangential force changing the current density on the layer. The change in the current value in the gap of the control grid - the layer being charged leads to a change in the grid potential. The change in the grid potential affects the magnitude of the total current from the corona electrode approximately quadratically and significantly changes the current distribution between different electrodes in the charging zone. A change in the total current from the co1 electrode and the current distribution causes a corresponding change in the current in the gap of the grid charged layer and thus compensates for the increase or decrease in the density of the charging current due to the effect of the electric field strength along the layer surface. as follows: Immediately before the recording medium enters the charging zone, the signal from block 10 through switch b connects comparator 5 to the recording unit 7 The signal from the voltage regulator 8 controls the magnitude of the voltage on the corona electrode 1 produced by the high voltage transducer 9. The corona current flowing to the control electrode 3 creates a certain (depending on the magnitude of the potential on the corona electrode 1 and the charging conditions) voltage drop across the resistors 9.. The signal removed from them is compared with the reference one at comparator 5. It outputs a differential signal that changes the control voltage applied to the high-voltage converter 9c of the voltage regulator b. Depending on the magnitude of this signal, the voltage on the corona-free Electrode 1 and, consequently, the magnitude of the corona current to the control electrode 3, continues. This continues until the current value to the electrode 3 reaches the specified one. Simultaneously, the signal arriving at the voltage relay 8 is memorized by block 7. After the required charge current is established, the electrographic carrier enters the charging zone and, from a signal from block 10, the switch b disconnects the storage unit 7 from the comparator circuit 5 - control electrode 3. The signal, memorized by block 7, maintains a constant potential value on corona electrode 1 during the charging time. After the release of the recording medium from the charging zone by the signal of block 10, the switch b connects the storage unit 7 to the information erasure unit 11. When charging the next recording medium, the cycle is repeated. The use of the invention improves the quality of the charge.

Claims (1)

'' DEVICE FOR CHARGING AN ELECTROGRAPHIC MEDIA, containing a corona and control electrode electrode assembly connected to a block of grounding resistors and a high-voltage Converter connected to a voltage regulator, a comparator and commu a tator, which, in series, and the block, the output of the driver of the control signals is connected to the first input of the switch connected to the output of the unit by the second input to erase information φ by the third input to the first output of the storage unit, connected by the second output to the input of the voltage regulator, and the output of the switch is connected to the first output of the comparator, the second output of which is connected to the output of the block of grounding resistors.