SU1359834A1 - Commutator device - Google Patents

Description

The invention relates to electrical engineering and can be used to protect electrical circuits and equipment components from the effects of dangerous lightning and switching overvoltages, as well as in high-speed systems of high-voltage pulsed technology.

The aim of the invention is to reduce the response delay of the switching device.

The drawing shows a switching device for removing overvoltages in power transmission lines.

The device contains two main electrodes 1 and 2 with terminals 3 and 4, control electrode 5, to which an extended conductive element 6 is connected, made in the form of a tension Up along the three-wire line 7 with an incident wave Up, wires. Terminal 3 of the main electrode 1 is connected to one of the protected wires of line 7, and terminal 4 of the main electrode 2 is connected to the ground conductor 8,

The conductive element 6 can be made not only in the form of a wire, but also depending on the specific design of other elements of the device in the form of plates, grids, etc.

The switching device works as follows

In the normal operating mode, the magnitude of the floating potential on element 6 and control electrode 5 is determined by the amplitude and phase of the voltage applied to the main electrode 1, and in general it is proportional to the voltage on electrode 1, and the magnitude of the proportionality coefficient is determined by the ratio geometric capacitors formed by element 6, respectively, with wires of line 7 and grounding conductor 8 (ground and control electrode 5 with main electrodes I and 2. The choice of this ratio is This is done by selecting the shape, size and distance from the conductor 8 to the current-conducting element 6 in this way.

VNIIPI Order 6158/52 Circulation 625

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so that in the normal operation of the line, there would be no gap between the control electrode 5 and the main electrodes I and 2; When a surge voltage rushes along with a steep front along the line 7 on the element 6, a voltage wave also appears that is applied to the control electrode 5, the gaps between the electrodes 1, 2 and 5 are triggered, the wire of line 7 connected to terminal 3 of the main electrode 1 is connected to the ground conductor B, and the overvoltage wave is led to ground.

When all the wires of the line are protected, several (by the number of wires in the line) pairs of main electrodes and control electrodes are installed, which can be connected to a single conductive element through separation capacitors.

Thus, the launch of the proposed switching device is carried out by an initiating pulse arriving at the electrode 5 simultaneously with the appearance of an overvoltage wave on the main electrodes, which reduces the device response lag and increases the effectiveness of the protection

The use of the proposed device allows the protection of energy circuits and equipment components from the effects of overvoltages using a conductive element without the use of complex ignition timing blocks.

Claims (1)

Invention Formula A switching device containing two main electrodes, one of which is connected to a line with an incoming voltage wave, and the other is grounded, and a control electrode, about m VP, which is for the purpose of-. to reduce the delay, it is provided with a conductive element connected to the control electrode and located under the specified line from the side: the voltage wave rushes in. Subscription