SU613432A1 - Power-diode discharger - Google Patents

Description

(54) VENTRY DISCHARGE

FIELD OF THE INVENTION The invention relates to an oversized voltage field.

Known ti1; 1st races for protection against overvoltages, containing a series-connected non-linear operating resistor and spark gaps with a ml of voltage distribution 1.

The closest of the known technical solutions to the invention is a valve-gage containing a nonlinear operating resistor connected in series and the main spark gaps, uniformly calibrated with a CTOpai ni 2 cut.

In this device, to ensure effective alignment of the pre-piercing and repairing. discharge voltage calibration resistors are made non-linear, which allows for operating voltage (nominal) to limit the current to a value that is not dangerous for the operating resistor and other structural elements but overheating conditions, and to ensure the flow of predischarge current , the value of which (50 mA) is at least an order of magnitude greater than the magnitude of the current for a long time and running: by the influence of the operating voltage.

However, a deep decrease in the calr ;; l 1 triggering of the glitch causes

that the calibrated cuts selected by the thermal mode (from the conditions of operation at nominal operating voltage) stresses do not ensure proper alignment of the pre-breakdown stresses 1), since their resistance is not sufficiently reduced due to the small difference between the operating and breakdown voltages discharger. The increase in калиб chen;) calibration resistors several times increases by the same amount 30 times the current in them at nominal voltage and, hence, the release of energy in a closed box: the volume of the arrester element.

The purpose of the invention is to increase the stability of the triggering of the discharge under conditions of contamination and humidification by improving the measurement of the pre-breakdown voltage.

This is achieved by the fact that the valve arrester, containing, es, the user, connects: a): the first working resistor and power spark gaps, shunted by a uniform calibration gauge: the 1st resistors), is equipped with additional cables: connected in parallel different parts of each calibration cut; 1 stor, which is triggered at a voltage less than z / nt, a day: -1k, with additional spark gaps located far from s; lov dl

the exclusion of the T11 light, which ensures the switching of the mpe-n gauge characteristics of the calibration gauges.

FIG. tAI tavlena electrically Lredlbzh.gg of the gadget; in fig. 2 - the same, - in-arAa.nt with calibration resistors, made in the form of two arallel branches, in one of which a sufficient spark gap is included; in fig. 3 - diagram of the discharge, applied, as well as schemes on FI | G. 2 and 3, in order to obtain an enhancement of the breakdown voltage compared with the nominal worker.

The discharge consists of a nonlinear working resistor /, a connector one subsequently with a force; .mp spark pro.meshutkgo. P; 2, shunted calibration resistors 3 and 4, in parallel with parts of which additional sparking plugs are connected. 5. In addition, the output of the igniting spark gaps 5, included in obychnye: m shamama m.

Unsupported by additional sparks and interleavers, 5 parts of calibration resistors 5 and 4 of choice: It turns out to provide such a predischarge current, at which the voltage of the discharge ground is distributed satisfactorily (here and then the current calibration resistors in front of the possibility of the accumulation of the arrester, as well as in front of the possible cathode processing of the armature, i.e. due to the regenerating paRp.p.

Consider the operation of the proposed spark switch with the switch volts am-volt characteristics of calibration resistors.

If the arrester consists of several successively connected blocks, each of which contains all the indicated elements enclosed in porcelain tires with flanges, then due to the influence of the infestation and parasitic capacitances and humidification, the voltage is distributed unequally across the blocks.

Driven at a voltage higher than the working voltage, first break through the additional spark gaps of the most loaded unit, and then the additional spark gaps of the other blocks. In this case, the current in the gage resistors increases substantially, and the voltage across the blocks is distributed more evenly.

With a further increase in the voltage on the distributor, the current increases even more. When the voltage rises to breakdown, and if the ignition spark gaps are detected, these run-off ducks are crushed; and the cascade operation of silo spark gaps will be called, after which the arc in the additional spark gaps will go out.

If the arrester does not work (overvoltage below the setpoint), the current of the calibration resistors will be cut off at the first zero crossing. This mode is also characteristic of the limiting values of the voltage recovered on the discharge voltage.

The application of the proposed gage will reduce the variance of the creeping and quenching stresses, and, consequently, the "ai-more breakdown voltage of the creeper" and the lowest quenching voltage will increase, which is favorable for the protection of electrical superhigh voltage. 1200 kV and above).

Claims (2)

1. US Patent No. 3087094, cl. 317-70, 1963. 2. US Patent M 515934, cl. 316-36, I960. P. V Q Y Puz 2 -G