SU146845A1 - Valve bit - Google Patents

Description

The protective action of the valve discharge depends on the ratio of the discharge voltage Uj ,,., Its spark gap to the quenching voltage t / dash at which it can interrupt a given current (if, ep}

i.e. from K

With any performance of single interstitial days, of which the spark gap of the whole arrester is made, an increase in the number of consecutively connected interstices allows an increase in the voltage U ,,,. at a constant current, either to increase the current io6p at a constant voltage and, „, or to partially increase the current Uggp and the voltage U ,,. However, at the same time, the voltage Upaa also increases, which limits the number of single gaps that can be switched on in series.

In order to provide the possibility of increasing the number of single gaps connected in series, and thus at a given single gap characteristic (at a given current ioffj, increase the voltage U ,,,,, or the current i „. Without increasing the voltage Up, , the discharge, or, without changing the number of gaps, reduce the voltage and, without changing the voltage of the current and current gg, it is proposed to shunt about half of the discharge gaps of the discharge with an auxiliary discharge, a conductive ignition gap.

In this gap, the shunt resistances are absent or the resistances in it and in the part of the main gaps shunt to them must be chosen so that together they provide about the same distribution of the restoring voltage across the discharge as in the absence of the auxiliary shunt spark.

No. 146845-2 The drawing shows the electrical circuit of the proposed valve bit. The selection of resistances indicated above in the main and auxiliary arrays must satisfy the condition:

g (g-r g,) g, 1 -t- H-

In this case, when an overvoltage is applied to the entire glitter, the spark gap of the auxiliary spark gap is initially punched, after which the entire voltage falls on the shunted part of the main spark gap, the spark gaps of which break through. After that, all the voltage is applied to the current limited to it, the resistance of the auxiliary arrester and to the part of the spark gap of the main arrester it shunts. Thus, the response voltage of the entire discharge of the NIC is significantly reduced.

After the breakdown of the auxiliary spark gap, the voltage on the non-shunted part increases, and after its breakdown I: pa to the shunt part of the main discharge occurs at high speed (in fractions of a microsecond). As a result, the breakdown of the main gaps when exposed to any voltage occurs with a pulse ratio less than unity, since the pulse ratio of modern gaps at waves with a steep front is much less than unity.

Only a short cut-off current pulse flows through the auxiliary gaps, which can be limited to several amperes at a fraction of a microsecond, and the voltage starts to recover only after the arc is quenched in the main discharge, i.e., almost half a time after the current has passed.

The proposed gating scheme can be applied to any existing design and even to gaps in operation, without requiring a long time to develop and test new types of spark gaps.

Subject invention

The valve gaps using an ignition gap, characterized in that, in order to reduce the discharge voltage of the spark gap, the ignition gap is designed as an auxiliary spark gap, which bypasses half of the spark gaps of the main spark gap.