SU1111128A1 - Corona-type electrolyzer for electrographic medium - Google Patents

Abstract

1. CORONARY ELECTRIZER FOR CHARGING ELECTROGRAPHIC: ECONOMIC MEDIA, containing a grounded shield, a corona wire, a control electrode and its potential control unit connected to the screen and the control electrode, which is In order to increase the charging efficiency, the control unit consists of a chain of counter-connected Zener diodes, each of which is connected to a diode of opposite polarity. 2. The electrolyzer according to claim 1, which is based on the fact that the control electrode is made in the form of a conductive plate with evenly spaced holes, the ratio of the total area of the holes to the area of the conductive plate being 0.51, 25 ... 1

Description

The invention relates to electrography, in particular, to electrization by corona discharge of an electrographic carrier, and can be used in electrophotographic apparatuses for electrophotographic and electrophotographic carriers for charging. and its potential control unit connected to the screen and control of the HJ electrode. A disadvantage of the known device is the low charging efficiency, which is determined by the small value of the initial current and the low rate of charging of the surface of the electrographic monitor to the operating potential. In addition, this device has large dimensions as well as low reliability due to the increased likelihood of electrical breakdown between the corona electrodes separated by an insulating partition. The purpose of the invention is to increase the charging efficiency. This goal is achieved by the fact that in a corona electrifying apparatus for charging electrographic carriers, there is a grounded shield, a corona thread, a control electrode and a control unit for its potential connected to the shield and control. the electrode, the control unit, consists of a chain of counter-connected stabilitrons, each of which is connected to a diode of opposite polarity. The control electrode is made in the form of a conductive plate with evenly spaced holes, and the ratio of the total area of the holes to the area of the conducting plate is 0.5-1.25. The essence of the proposed invention is that the use of a non-linear element, a zener diode and a diode in the control unit results in the effect of compensating for the active resistance of the gap between the control electrode and the electrographic carrier, In the initial moment of charge, the resistance of this gap is small and the ions from the corona electrodes penetrate unhindered to the carrier surface, charging it. As the carrier charges, the resistance of the gap increases and, when the carrier potential is reached, which is close in magnitude to the potential of the control of the efficiency electrode, it becomes large, tending to infinity. The function of the non-linear elements connected in this sequence is to maintain a certain potential of the control electrode and a stable corona, to promote efficient and reliable charging of the electrographic carrier. An increase in charging efficiency is achieved by increasing its speed by increasing the initial current. The power consumption of the device is also reduced, since there is no need to use an additional power supply to control the electrode. The design feature of the control electrode contributes to the effective penetration of ions to the surface of the carrier under the action of the electric field of the corona at the initial moment of charging and preventing their penetration into the electrographic carrier at the moment of its charging to the working potential. The drawing shows the principle of the circuit of the corona electrified. The charging device contains a high voltage source 1, a switch 2, a contact 3, an electrolyzer of the scorotron type, consisting of a grounded shield 4, a corona electrode 5, an insulating rack 6, a control electrode 7 located between the corona electrode 5 and an electrographic carrier 8 with a grounded substrate 9. The control electrode voltage control unit, which consists of a chain of counter-switched Zener diodes 10 and 11, each of which is connected to diodes 12 and 13, is located directly on screen 4, connected n between the gate electrode 7 and the grounded elektrizatora screen. The device works as follows. When a high voltage source 1 is connected to the corona electrode 5 with the help of switch 2, the ions in the electrolyte under the action of the corona floor penetrate through the holes of the control electrode 7 to the charging surface of the carrier 8. As a result, this potential creates a potential difference between the control electrode and the grounded frame of the electrator. which causes current to flow through the zener diodes and diodes. The magnitude of the current in the control electrode gradually increases at a constant value of its potential, and the charge current of the carrier decreases and becomes minimal when the potential of the carrier compares in magnitude with the potential of the control electrode. In the case of a positive charge carrier, the voltage of the required magnitude at the control electrode is automatically maintained as a result of the flow of current through the zener diodes 10 and the diodes 13.

In the case of a negative charge. The device operates similarly, however, the voltage on the control electrode is due to the flow of current through the zener diodes 11 and diodes 12. The voltage on the control electrode is selected by means of the zener diodes 10 for positive polarity and the zener diodes 11 for negative polarity and may be the same or different depending on the design features of the copier.

Zener diodes of the corona discharge SG-301С, SG-302С and SG-ZOZS are recommended as the zener diodes 10 and 11, and high-voltage semiconductor diodes, for example, CD-105G or CD-203, are used as diodes 12 and 13.

The control electrode can be made of steel, brass or dural tape 0.5-1.7 mm thick, in which holes are regularly located (} with a diameter of -6-13 mm. The ratio of the total area of the holes to the area of the conductive plate is within 0.5-1.25.

The use of the proposed device will make it possible to increase the efficiency of charging an electrographic carrier, which is extremely necessary for increasing the productivity of copying and duplicating machines.

0 An advanced voltage control unit in combination with a control electrode design allows the device to be successfully used in copiers,

5 reducing their energy consumption, as there is no need to use a high voltage source for the control electrode. The proposed device effectively and reliably charges the carrier to the operating potential, helps to protect it from breakdown and premature failure, and thereby increases the life span of the electrographic carrier by 1.2-1.5 times.

Claims (3)

1. CROWN ELECTRICIZER FOR CHARGING ELECTROGRAPHIC BUT- screen, A MASTER containing a grounded corona thread, a control electrode and a control unit from which is connected to a diode of opposite polarity. 2. Electric power supply according to π. 1, characterized in that the control electrode is made in the form of a conductive plate with evenly spaced openings, and the ratio of the total area of the holes to the area of the conductive plate is 1.25. 0,5po- ~ 220V ⁷³ OI '13 " 7 ///////// 7 ^ 77 ///// A I 11.11128