SU470829A1 - Electrostatic recording method - Google Patents

Description

(54) METHOD OF ELECTROSTATIC RECORDING

This invention relates to the field of electrography. Electrostatic recording methods are known based on deposition of an electric charge on a carrier using main and exciting discharges. The disadvantage of the known method of electrostatic recording on a dielectric medium is the large deviations of the sizes of the recorded elements from their average size. In order to eliminate these drawbacks, the recording process is performed in such a way that the exciting discharge is first formed, and then the main discharge is formed with the already burning exciting discharge. In FIG. 1 shows a diagram of an apparatus for carrying out an electrostatic recording method; in fig. 2 is a graph of voltages. The recording is made by a device consisting of a control electrode 1, a firing electrode 2 and a coitroelectrode 3 by deposition of electrical charges on the recording medium 4. The electrodes 1 and 2 are separated and electrically isolated from each other by a gasket 5. To limit the current of the exciting discharge resistor 6 is applied. To carry out the recording, three voltages i / i, Uz and f / 3 are applied to the electrodes for the duration of each, respectively, Гь TZ and Гз- Voltage and AND are connected in series so that they are summed up and connected between the control electrode 1 (through a resistor 6) and the firing electrode 2. The voltages t / i and U must be of such a magnitude that their sum is large enough to ensure the ignition of the exciting discharge for a time not exceeding T / zap , where T is the duration of the smaller of the voltage pulses, zap is the duration of the state of charge on the carrier. A voltage Uz is connected between the counter electrode 3 and the common connection point of the voltages Ui and f / 2. In this case, the voltages f / s and i / 3 become connected in series between the ignition electrode 2 and the counter electrode 3. The voltage Uz is connected in such a way that it is subtracted from t / 2. The voltage Vz should be of such magnitude that the condition where t / is the maximum voltage L / 23 between the electrodes 2 and 3, at which the latent image on the recording medium is not formed, is fulfilled. The duration Gz of the application of voltage Oz must be equal to the length of the recording is determined, based on the required value of the image element.

3

The recording process is as follows.

After the time ta (where lh is the delay time of the onset of the excitation discharge), an exciting one arises from the moment of application of the stresses, and with it the main discharge. However, the image is not formed, since After the voltage t / 3 drops to zero and the voltage rises, accumulation of the latent image charge on the recording medium begins. The process of accumulating the image charge is stopped, reducing the voltage Ui or the voltage f / 2 (or both) to zero. Thus, the duration of image formation tsan Ti-Gz (or) and is a constant value set in advance and independent of ts.

The irregularity of the recording with this method depends on the instability of the pulse duration Гь TZ and Гз, which is determined by the tolerance on them.

The size of the recorded elements of the image is regulated within wide limits by changing the time of the zap and can be reduced to small sizes. When reducing the image elements, the density of the charges that form them decreases, so reducing the size of the image elements is limited by reducing the optical density of the developed images to the minimum acceptable value.

Subject invention

An electrostatic recording method based on the deposition of an electric charge on the carrier using the main and exciting discharges, characterized in that, in order to increase the recording resolution, the excitation discharge is formed and the main discharge is formed during the hot excitation discharge.

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