SU382187A1 - METHOD FOR LIMITING DURABLE VOLTAGE - Google Patents

Description

one .

Known controllable: and uncontrollable arresters, using a deionic lattice as arc suppressors. To reduce the thermal effect, the movement of the arc in the lattice is ensured by the interaction of the arc current and the magnetic field of the serial coil flowed around the current of the loot. The arc extinction in some cases occurs when the current passes through zero, in others when the source voltage becomes less than the voltage across the arc.

It is also known to use α-ion lattices for protection from overvoltages. However, at medium and low currents, the speed of movement of the arcs over the plates is significantly reduced, which causes a large curvature of the plates and even their destruction. In addition, it is known to use a deionic lattice to extinguish the arc, when the arc is not set in motion, being in the lattice, and the thermal stability of the plates is provided only by their heat capacity.

The proposed method of limiting long-lasting overvoltages at the point of the controllable gaps of the controlled arrester allows to increase the reliability of the protection of $ 1.; this is compatible with it; that create a number of followers, one another short, time arcs, and each of the following arcs is initiated at the initial stage

the horns of the discharger at the moment when the previous arc enters the arc arrester.

The drawing is a block diagram explaining the method described.

The circuit consists of the control device 1, the igniter 2, the horns 3 and the deion grating 4 discharge. Protected installation is connected to points a and b. In the nominal mode of the chain of horns

3 is open and energy is not consumed. When an overvoltage wave appears, when the accumulation between points a and b exceeds a certain value, using the device / and the igniter 2 create an initiating arc closing the horns during its movement under the action of a magnetic field. The main arc between the horns formed on the horns gradually lengthens and enters the deion lattice 4. At the moment of formation of this arc, the voltage on it (in the initial part) is initially small and then increases as the arc lengthens arc to ion lattice. Immediately after

.as. The arc entered the deionic interstitial and the voltage on it increased to a certain maximum value. In the initial part of the horns, a new arc was created. So, as the voltage on it is significant

arc located in the deionic lattice, then

this newly formed short arc shunts the arc in the lattice. The latter is extinguished, and the newly formed short arc begins to move towards the lattice. After reaching this arc grating, the process is repeated until the voltage on the tires ensures that the arc is burning in the grid. The magnitude of the voltage on the deionic lattice during the arc burning in it is in strict accordance with the control device, since a new arc is generated only at a certain voltage on the lattice. The arc travels over the horns at high speed for almost the entire ler overvoltage period, which ensures the full thermal stability of the horns and the chamber. In this case, due to the low thermal load of the chamber can be made of thin plates. In addition, it is easier to move the arc along the horns by an order of magnitude than to ensure the movement of the arc in the chamber. If the distance between the horns is greater than 3-5 mm, then no safe means in the range of ten ampere-ten amperes of the amperage are required to safely move the arc along them. For the external circuit (load), the current flows continuously, redistributing only inside the device itself.

With a single deionic lattice, several pairs of horns can be used with simultaneous initiation of several arcs and simultaneous movement into the chamber. This makes it possible to reduce current surges during its switching (transfer) from the grid to the horns.

Subject invention

A method of limiting long-lasting overvoltages by using a controlled spark gap with an arcing grill, characterized in that, with a view to increasing reliability, a series of successive arcs following each other is created, each of the following arcs being initiated at the initial portion of the horn of the arrester at the time of entry previous shower in the arc chute.

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