SU102869A2 - Method for measuring vapor pressure or gas in an electrical discharge device - Google Patents

Description

Basically auth. St. No. 97173, it is a method of measuring (or recording) the pressure of a gas or vapor in an electric discharge device by determining the voltage between the cathode of the device and the auxiliary electrode introduced into the device. A positive voltage is applied to the auxiliary electrode (relative to the cathode) of such a magnitude at which the mode of periodic current interruptions in the specified electrode circuit is established.

However, to measure the density of steam or gas in the conductive period using the above method, it is necessary to probe the device under investigation with another discharge device, which requires an additional valve and quite complex switching equipment. In addition, the density is measured, although at the first moment, but still after the cessation of the flow of current in the valve under study, which introduces some errors in the measurement result.

According to the present invention, in order to measure, not only in the absence, but also in the presence of current through the monitored device, the auxiliary (measuring) electrode is fed from a pulsed voltage source and the vapor or gas density is determined from the break current on the measuring electrode.

The drawing shows the curve of the dependence of the arc breakage current on the auxiliary electrode on the density of mercury vapor.

The proposed method for measuring the vapor or gas pressure is based on the dependence of the current at which the arc breaks on the density of the mercury vapor. As an auxiliary electrode, a flat end apode of positive dimensions is used (for example, 2 mm in diameter} fed from a pulsed voltage source.

The pulsed power supply of the auxiliary electrode is necessary because, in continuous operation, the current density at which the arc breaks out would cause an excessive thermal load on the electrode and its failure.

The moment of arc interruption on the auxiliary electrode is recorded on an oscilloscope, and on the oscillogram "Auxiliary electrode-cathode appears voltage (or several peaks) voltage of several tens or hundreds of volts. The magnitude of the current of the arc break at this point can be judged on the density of mercury vapor. The current density of the arc break on the secondary electrode is one to two orders of magnitude greater than the operating current density of the main arc, whereby the plasma of the main arc does not affect the magnitude of the arc break current on the auxiliary electrode. For the same reason, measurements of the density of mercury vapor can be made both in the reverse half-period (i.e. when the main arc plasma is removed) and in the forward half-period with a discharge current density not exceeding 1.5 a / cm.

The value of the vapor density in the device can also be judged by the magnitude of the current in the circuit at which a peak appears (d) 1) and on the oscillogram "auxiliary electrode - cathode." It is practically more convenient to read the break current value not by using its direct oscillography, but with the help of a set of calibrated resistances included in the electrode circuit, selecting from them such that voltage peaks appear on the oscillogram.

The impulse power supply of the optional emulator can be carried out from any circuit that gives a current pulse as a result of discharge of a precharged capacitor or a long line.

Graduation Auxiliary

Electrode can be used in any lamp that has a mercury cathode and a pilot arc, and the lamp should be completely submerged in water to create a reliable pressure. Calibration is carried out as follows. At a certain density of mercury vapor in the lamp, set by the cooling water temperature, by gradual increase of the current from the pulsed voltage source, the arc is broken at the auxiliary electrode, judging by the appearance of a voltage peak at the auxiliary electrode-cathode. The magnitude of the arc interruption current at the auxiliary electrode will determine the density of mercury vapor in the lamp. The counting of the current of the arc interruption can be made1; it can be done directly in the direction of the lie of the rheostat knobs that regulate the magnitudes of the current from the pulsed voltage source.

Subject invention

The method of measuring the pressure of steam or gas in an electrical discharge device according to claim 1, author. St. No. 97173, characterized in that, for the purpose of producing a measurement, not only in the absence, but also in the presence of current through the monitored device, the auxiliary (measuring) electrode is supplied from a pulsed voltage source and, according to the magnitude of the break current on the measuring electrode, determine the vapor density or gas.