SU1134925A1 - Device for corona electrization of photosensitive layer - Google Patents

Abstract

A DEVICE FOR CORONARY ELECTRIZATION OF A PHOTO-SENSITIVE LAYER, containing a low-voltage power source, a dc-to-ac converter, a transformer with an additional winding, a voltage sensor, a high-voltage rectifier, a filter, a corona electrode, a control system, which, in order to improve the quality, a voltage generator, to improve the quality, to improve the quality of the voltage, a corona-forming electrode, a control system, in order to improve quality; For example, by stabilizing the surface potential, it has a transistor key and an additional filter, and the additional winding bands through low series ltny rectifier and a power transistor switch circuit connected to the low voltage power source, and the transistor switch control circuit connected to the output of the control system, the output of the high voltage rectifier is coupled via an additional filter and a voltage sensor with an input of the control system.

Description

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18 The invention relates to electrophotography oolasts and can be used in the printing and textile industry in paint coating technology, as well as in gas cleaning techniques. A device for corona electrification of a photosensitive layer, comprising a non-voltage power supply, a DC / AC converter, a transformer with an additional winding, a voltage sensor, a high-voltage rectifier, a filter j corona electrode, a control system lj, is known. A disadvantage of the known device is the poor quality of charging. The purpose of the invention is the improvement of the quality of the charging of surface stabilization potential. To achieve this goal, a device for corona electrification of a photosensitive layer containing a low-voltage power source, a DC / AC converter, a transformer with an additional winding, a voltage sensor, a high-voltage terminator, a filter, a corona electrode, a control network, has a transistor switch and an additional the filter, and the strips of the additional winding through a series-connected low-voltage circuit breaker and the power circuit of the transistor switch are connected to low. tnym power source, and the transistor switch control circuit soy dinena yield control systems with high yield vshr DC converter is connected via an additional filter and a voltage sensor with a control system Rin house. To create high-quality contrast images in electrophotographic devices, it is necessary to have a fairly stable level of electrization of the photosensitive layer. The magnitude of the charging potential of this s should be not lower than 1500 V with an exact i5%. The fatigue phenomenon of the photo layer significantly reduces the level of potential of the layer charge. The proposed device is a stabilized power source having a high-voltage constant and variable components at the output. The variable component voltage on the load stimulates the ionization process in the corotron, and the constant component gives the directional movement to ions of the corresponding polarity. As a result, the corona current density increases several times, which in turn reduces the working voltage Upoe kV. The high voltage variable component also eliminates fatigue. The drawing shows the function. The scheme of the proposed device. The output of the low-voltage power source t, containing a step-down transformer 2, rectifier 3, LC filter 4, is connected to the poles of the power supply circuit of the inverter 5 by direct current. To the terminals of the secondary winding of the transformer is connected an alternator, in series with which an LC filter is connected. The inverter output is connected to the poles of the primary winding 6 of the transformer 7, the latter has two secondary windings: high-voltage 8 and additional 9. The poles of the high-voltage winding 8 are connected to the input of the high-voltage rectifier 10, the output of which is connected in series through the first filter t1. The load 12, the second filter 13, the voltage sensor 14 is connected to the input of the control system 15, the outputs that are connected to the inputs of the inverter 5 and the transformer switch 16. The poles of the auxiliary winding 9 are connected to the input of the low-voltage terminal 17, the output of which is through a series-connected transistor switch 16. Connected to the output of a low voltage power source. The control system 15 includes, for example, two master oscillators and a frequency divider on. The output of the first oscillator is connected to the input of the frequency divider, and the latter outputs to the bases of the transistors of the power amplifier. The second master oscillator is a voltage converter in the pulse duration. Its input is connected to the output of the voltage sensor 14, and the output is connected to the base of the transistor switch 16. The device operates as follows. When the supply voltage is applied to the input of a low-voltage power source at the output of the latter, i.e. In the inverter's DC power supply circuit, the voltage appears to be a constant current. The inverter starts to operate at a frequency determined by the system, control 15 At the terminals of the windings of the transformer 7 a variable square voltage acts, the value of which is determined by the number of turns of these windings. The rectified and filtered voltage of the winding 8 through the blocks 10-14 enters the control system 15. The latter produces pulses whose relative duration is proportional to the difference between the voltage at the output of the second filter 13, weakened by the sensor 14 and the applied voltage, the fourth control system i.e. as the output voltage of the filter 13 increases, the duration of these pulses increases, and when it decreases, it decreases. These pulses are different for key 16. During the last open state, the output of the rectifier 17 is connected to the output of the LC filter of the low-voltage source, when the voltage on the windings 8 decreases by K, where K is the ratio of the number of turns of the winding 9 to the number of windings of the winding 6. The discharge of the whale with the energy recovered in the form of a return current. The parameters of the filter 11 are selected in this way. NTO has a smoothing effect only for the fundamental frequency of the inverter and has a small constant time {esh1, since the voltage of the inverter has a rectangular shape. The frequency of the unlocking of the transistor switch 16 is significantly lower, therefore, in the voltage across the load 12, there is a nepe-variable component in the form of almost rectangular pulses of negative polarity. The parameters of filter 13 are chosen so that it suppresses the pulses of all components of the frequency spectrum of the voltage across the load, which means that the voltage at its output is equal to the actual value of the load voltage. The latter is the sum of a constant positive voltage and negative square impulses; moreover, the effective value of the positive voltage on the load is stabilized. Thus, the fatigue phenomenon of the photo layer, which negatively affects the image quality (lack of contrast) in the proposed practicality device, is eliminated. In addition, the image quality in the proposed device is enhanced by stabilizing the effective voltage value on the corona electrode, as this results in a more uniform electrification of the photosensitive layer. The image contrast is characterized by the level of charging potential. In the known devices, for example, the BVN-1 base object, the photollo charging potential does not exceed 1200 V. A value of at least 1500 V is required for obtaining a satisfactory picture contrast. The proposed device provides the required photollo charging level with an accuracy of i: 5% .

Claims (1)

DEVICE FOR CROWN ELECTRIZATION OF THE PHOTOSENSITIVE LAYER, containing a low-voltage power supply, a DC-to-AC converter, a transformer with an additional winding, a voltage sensor, a high-voltage rectifier, a filter, a corona electrode, a control system, characterized in that, in order to improve the quality of charging by stabilization of the surface potential, it has a transistor clutch and an additional filter, and the additional winding bands through series-connected low-voltage The output rectifier and the power circuit of the transistor switch are connected to the low-voltage power supply, and the control circuit of the transistor switch is connected to the output of the control system, and the output of the high-voltage rectifier is connected through an additional filter and voltage sensor to the input of the control system. SU-, 1134925