SU89301A1 - Extinguishing device for oil switch - Google Patents

Description

The subject of the invention is a damping device for oil circuit breakers consisting of a damping chamber (without an intermediate contact) connected to an air tank.

In known extinguishing devices, after an electrical circuit is opened, an arc is formed, causing the insulating liquid to evaporate, which leads to an increase in pressure in the chamber. The movement of gases and the pressure create more favorable conditions for extinguishing the arc.

However, the arc-suppressing properties of these devices are not sufficient to generate significant power while ensuring reliable damping of small and medium currents.

The reason for this is that in these damping devices, arc blowing is produced by ionized gases created by the arc itself. Significantly better results can be obtained by blowing an arc extinguished with non-ionized gas or oil, for example, if there is another gas-generating arc separated from the arc extinguished by a layer of oil, which is proposed in the described design of the damping device.

The pressure in the chamber fluctuates sharply, since the hot gases have a high speed (500-1000 m / s) and occupy a relatively small volume, which is formed by moving the moving / contact and leaving it from the chamber, as well as by ejecting oil from the chamber . At the moment of the amplitude value of the current, when the energy release in the chamber is large and the gas formation is intense, the outflow of gases through the extinguishing slots is impeded by counteracting the arc, as a result of which the pressure in the chamber increases. As the current approaches zero, when the energy release and gas generation decreases sharply, the pressure in the chamber also drops sharply. So at the moment

No. 89301

zero current, when it is necessary to have high pressure to create effective damping properties, it is low. On the contrary, at the moment of the amplitude value of the current, the pressure increases, threatening the destruction of the chamber and thereby limiting its power.

The advantage of the described extinguishing device is that due to the use of the air reservoir, the intensity of the oil blow increases at the moment the current in the electric arc passes through a zero value.

It is now proposed to provide such switch chambers with an air tank, which makes it possible to increase their arc-suppressing properties and thus provides greater breaking capacity with reliable damping of all current values.

The accompanying drawing shows the diagrams of the described chamber in three versions (I, I, III) with the following designations: 1-fixed contact, 2-moving contact, 3-tank, 4-quenched arc.

Near the amplitude value of the current, when the pressure in the chamber is high, the air is compressed. As the current approaches zero, the pressure in the chamber and in the exhaust gap drops, and the compressed air in the tank tends to be pushed into the gap of the intermediate layer of oil between the tank and the gap. In this way, the oil that pushes the gas layer surrounding the arc into the gap is moved. At this stage, the arc is subjected to an oil blow, which ensures very high arc-suppressing properties of the switches.

Due to the air reservoir, the volume that is free from the incompressible oil provided to the gas is equal to the sum of the volumes of the reservoir and the volume separated from it occupied by the arc volume consisting of the volume released by the oil displaced from the chamber and released by the contact.

Since the volume occupied by the arc is relatively small, a small reservoir can significantly increase the total oil-free volume in the chamber occupied by the elastic gas. As a result, the pressure drop in the chamber when the current approaches zero, will be significantly slowed down, which will ensure the maintenance of significant pressure at the time of zero current, and hence a significant increase in the arc-suppressing properties of the chamber.

Subject invention

An extinguishing device for an oil switch, equipped with a damping chamber without an intermediate contact, characterized in that, in order to increase the intensity of the oil blow when the current in the electric arc passes through a zero value, the damping chamber is supplied with a reservoir communicating with the internal volume of the damping chamber.