SU807968A1 - High-voltage spark gap - Google Patents

Abstract

HIGH VOLTAGE SPARK. A discharger containing three main electrodes, the middle of which is made of polm, forming; two successively connected spark gaps, and two igniting electrodes installed in the holes of the middle main electrode, a voltage divider connected to the main electrodes and the ignition pulse generator with a power source, connected to the ignition electrodes of the discharge, o T characterized in that, in order to simplify the design and facilitate the operation of the arrester, one of the arms of the voltage divider is made with an intermediate terminal, the input terminals of the firing pulse generator are connected The power supply to the ignition pulse generator is autonomous, with the pulse generator and the autonomous power source located in the cavity of the middle main electrode. I (L00o • vifo »00

Description

The invention relates to the field of high-voltage pulse technology and can be used to automatically control the moment, triggering spark gaps of the megavolt range of operating voltages. A device for initiating a discharge in a high-voltage switch is known, comprising a pulse voltage generator made according to the Arkadyev-Marx scheme, an additional stage capacitor, a spark and an intermittent generator. The delay line is connected to the high-voltage switch section and the other end - through the intercepting gap of the generator to the condenser of the additional step of the generator. In this device, the start of the cut-off discharge occurs automatically when the spark gaps of the pulse voltage generator trigger by discharging additional capacitance through the delay line. The disadvantage of the device is its cumbersome at obtaining large delays. So, with a delay in triggering a shearing discharge of 1 MKS, a 200 m cable is required. In addition, this device works stably only with a positive polarity of the switching voltage. The closest known technical solution to the invention is a high-voltage spark discharge containing three main electrodes, which form two consecutively connected spark gaps, and two ignition electrodes installed in the holes x hollow medium main electrode, a voltage divider connected to the main electrodes, and a pulse generator with a power supply connected the first output terminals to the igniter electrodes arrester. The disadvantage of this discharge is that it is controlled by a source of starting pulses connected to ground, and must be designed for full switching voltage. This necessitates the use of a separating element between the starting pulse generator and the high-voltage switching voltage. living At the same time, the dimensions of this element often exceed the dimensions of the main device — the spark discharge. The aim of the invention is to simplify the design and facilitate the operation of the gaps. The goal is achieved in the proposed high-voltage spark discharge containing three main electrodes, the middle of which is hollow, forming two gaps, and two igniting electrodes installed in the holes of the middle main electrode, a voltage divider connected to the main electrodes, and an ignition pulse generator with a power source, connected by output clips to the ignition electrodes of the surge generator, one of the shoulders of a voltage divider is completed with an intermediate terminal, the input terminals of the generator The ignition pulses are connected to the intermediate terminal of the voltage divider arm and to the middle main electrode, and the power source of the ignition pulse generator is autonomous, with the ignition pulse generator and autonomous power source located in the cavity of the middle main electrode. The schematic diagram of the glitter is shown in the drawing. The discharge consists of three main electrodes 1, 2 and 3, of which middle electrode 2 is hollow, reHepaTqpa of firing pulses located inside the middle main electrode and consisting of a time delay unit 5 and a source of triggering pulses 6, voltage divider with resistors 7, 8 and 9 and an independent power source 10 of the source of triggering pulses 3. Threshold device 4 input terminals connected between the intermediate terminal of the divider arm formed by the resistor E 4 and 5 and an average main electrode. The output terminals of the source of the triggering pulses 6 are connected to the igniting electrodes 11 and 12. The discharge device operates as follows. A variable resistor 8 sets the trigger voltage of the threshold device 4, and a time delay is required in delay unit 5. When a pulse voltage is applied to a spark, a current flows through a voltage divider with resistors 7, 8, and 9. Upon reaching the set voltage level at the variable resistor 8, the threshold device 4 is triggered, which produces a voltage pulse whose amplitude does not depend on the amplitude of the applied voltage on the spark. From the threshold device 4, the voltage pulse arrives at the delay unit 5 and after a set delay time the voltage pulse arrives at the start of the source of the triggering impulses 6. The source triggers and the control electrodes 11 and 12 of the spark discharge receive the firing voltage pulse to breakdown of igniting gaps and triggering a spark gap. The advantages of the proposed high voltage discharge device are as follows. There is no need for an ignition pulse generator (or s separating element) calculated on the policy switch voltage F Simplifies maintenance of the high-voltage discharge device because it does not require operator intervention after the adjustment, as the source of triggering pulses produces ignition pulses after a predetermined time delay. Therefore, when the switching voltage is changed within certain limits, the gap clearance is not required. The location of the ignition pulse generator inside the mid-core electrode significantly reduces electromagnetic interference to the trigger circuit of the arrester.

Claims (1)

HIGH VOLTAGE SPARK · DISCHARGE containing three main electrodes, the middle of which is hollow, forming; two spark gaps in series, and two ignition electrodes installed in the holes of the middle main electrode, a voltage divider connected to the main electrodes and an ignition pulse generator with a power source, connected by output terminals to the ignition electrodes of the arrester, characterized in that, with in order to simplify the design and facilitate the operation of the arrester, one of the arms of the voltage divider is made with an intermediate output, the input terminals of the ignition pulse generator are connected They are connected to the intermediate terminal of the arm of the voltage divider and to the middle main electrode, and the power source of the ignition pulse generator is made autonomous, and the connecting pulse generator and autonomous power source are located in the cavity of the middle main electrode. SU., „807968 1 807968 2