SU454605A1 - Method of processing electrodes of gas-filled dischargers - Google Patents

Description

one

The invention relates to electrovacuum technology.

A known method of treating electrodes of gas-filled arresters by applying an alternating voltage voltage to the electrodes is large enough to produce a discharge in the arrester, with operating current limited using ballast resistance. In this treatment, local heating of the working sections of the electrodes by an arc occurs and the formation of an active layer with a high emissivity on their surface.

When applying alternating voltage due to insufficient emissivity of raw electrodes, instead of an arc, a glow discharge often occurs that covers a large surface of the electrodes, including non-working areas. In this case, instead of local heating of the working sections of the electrodes to the required temperature, the overall heating of the device occurs, and the electrodes are not activated, i.e., the processing target is not reached.

This can be eliminated by the fact that during each half-period of the alternating voltage supplied to the electrodes, pulsed breakdown is preliminarily performed; interelectrode bit gap, and

the pulse energy is chosen sufficient to form a further half-period over the spark channel formed by the pulse breakdown of the arc fed by the half-period voltage without the appearance of a glowing discharge. Pulsed breakdowns are performed during each half cycle of alternating alternation applied continuously to the device during the entire treatment time of the electrodes, as a result of which the possibility of the appearance of a glowing discharge is eliminated during the processing. As a result, electrode processing efficiency and instrument quality are improved.

The proposed method can be implemented, for example, by connecting in parallel the discharge of a capacitor. In this case, during each half-period, the capacitor first accumulates with a voltage of one half-period before the voltage of the breakdown gap, followed by a pulse breakdown of the gap due to the discharge of the capacitor. An arc forms between the electrodes and forms a spark channel,

supported by a half period voltage. After reducing the voltage of the half-period to the magnitude of the arc-burning voltage, the discharge goes out, and during the next half-cycle, the process repeats in reverse polarity. The capacitance of the capacitor is chosen to be sufficient so that after the pulse discharge of the capacitor, the arc discharge between the electrodes is reliably formed due to the voltage of the half-period and at the same time that the capacitor has time to charge for approximately the first half of the half-period before the breakdown voltage with the available ballast resistance and variable source voltage. To implement this method, other known devices can be used that allow pulses of sufficient power to be applied to the electrodes during each half period. Subject of the Invention A method for treating electrodes of gas-filled arresters by applying an alternating voltage discharge to the electrodes, which is sufficient in magnitude for firing the discharge and limiting the discharge current using a ballast resistor, characterized in that during each half-cycle of alternating voltage, preliminary pulsed breakdown of the interelectrode discharge gap is made, and the pulse energy is chosen sufficient to cial during a half cycle eliminates the formation of a glow discharge.