SU421054A1 - ELECTRICAL CONTACT FOR VACUUM CONTACTORS - Google Patents

Description

one

This invention relates to contacts for high-current electrical apparatus, in particular for vacuum circuit breakers and contactors.

Electrical contacts are known for vacuum contactors containing high conductivity material, the contact surface of which has recesses filled with a material with a low cutoff current.

The purpose of the invention is to improve the switching properties of the contact, as well as to eliminate the interaction of high conductivity material with a material having a low cutoff current.

This is achieved by using several materials with different properties in one contact.

The essence of the invention is that the shell of a refractory material is made in the form of a stack, the bottom of which has a number of recesses, while their shape is similar to the shape of a glass. The recesses on the outside of the glass are filled with a material with a low cutting current, and the inside of the glass is filled with a material of high electrical conductivity. The role of the refractory shell is the elimination of the interaction of these materials.

The drawing shows the electrical contact (one of the options).

The shell 1 of refractory material is made in the form of a round section beaker, the bottom of which has coicentral recesses filled from the outside with material 2 with a low cut-off current, for example, antimony, lead, bismuth, zinc, cadmium, corrugation or their alloys, and with an internal sides - with material 3 with high electrical conductivity, for example, copper, silver or their alloys.

When the contacts of the contacts A are closed, they coexist, and a current flows through the contact points. Since the thickness of the crucible material in this place is 0.5–2 mm, and the high conductive material is located further, the heat is well removed from the contact points and the temperature of the co-tact remains low. This allows long currents to be passed through such contacts (above 400-500 a).

When the contacts open, the resulting arc heats the material 3 to the temperature of the evaporation and further burns in the vapors of this material. If co-activation proceeds along surfaces A, then after opening the contacts, the arc should burn on these surfaces. But it is well known that the arc is unstable on materials with a large increase in the current cut, and it changes, but on the surface of the co-tact, a material with a low cut-off current, on which its burning stability is higher, hits. In this case, the contact wear should increase dramatically, but the presence of a concentric groove causes the arc to move to the non-contact area of the nodes by the action of electrodynamic forces of its own origin. Because of this, the burning time of the arc on a material with a small current cutoff value is sharply reduced and, therefore, wear is greatly reduced. Therefore, despite the short arc time on the surface A, the amount of steam that entered the contact gap during this time is sufficient for the arc to burn steadily and at low currents. It is known that the rate of evaporation of a material increases sharply with increasing temperature. The temperature of the supporting points of the arc reaches several thousand degrees, therefore at these temperatures the rate of evaporation of matter is large, and the amount of evaporated matter depends on the rate of evaporation and time. It is known that refractory metals cannot be used as contacts when switching currents in

several kiloamperes due to their good emission properties at high temperatures. When a lower melting material is in contact, it evaporates, but covers the surface of the melting material and practically reduces the emission to zero. The film of the lower melting material also plays the second role - it reduces the weldability of the contacts when switching large currents.

Subject invention

Electrical contact for vacuum contactors containing high material

electrical conductivity, the contact surface of which has depressions filled with a material with a low cut current, is also distinguished by the fact that, in order to improve the switching properties of the contact, to eliminate the interaction of high conductivity material with a material having a low cut current, a barrier layer of a toner is located between them material that does not form alloys and compounds with them.