SU1683091A1 - Safety fuse - Google Patents

Abstract

The invention relates to electrical engineering, namely fuses, designed to disconnect the protected circuit. The purpose of the invention is to increase the breaking capacity, reduce the weight of the fuse and increase its manufacturability. The fuse consists of a housing 1, inside of which there is a melting insert 2, connected to the blade contacts 4. The inner cavity of the housing for the entire length of the melting insert 2 is filled with granular powder filler, which is a hollow glass microsphere, which is a separate fraction of heat ash. power plants. During the melting of the insert, an electric arc arises and, as a result, the temperature rises, due to which thin walls of hollow spheres are destroyed and a gas mixture enters the near-arc space, containing NZ, contributing to the extinguishing of the arc. 1 il. (L S o 00 CJ o y

Description

The invention relates to electrical engineering, namely fuses, designed to disconnect the protected circuit.

The aim of the invention is to increase the breaking capacity, reduce the weight of the fuse and increase its manufacturability,

On. # Yrtv ke presented fuse,

The fuse consists of a porcelain housing 1, inside of which is placed a melting insert 2, rigidly connected by spot welding to washers 3 cut contacts 4. At the ends, covers 5 are screwed onto the housing 1, hermetically sealing the housing by means of asbestos gaskets 6. The internal cavity of the housing for the entire length of the fuse link 2 is filled with powder filler 7, which is a hollow glass (ceramic) microsphere, which is a separate fraction of fly ash from the CHP plant.

The fly ash of thermal power plants that use coal has a fraction (0.5–5% of the total volume), which is hollow spherical particles (cenospheres). These hollow particles are formed during the combustion process in the boiler of small coal particles and are filled inside with gaseous combustion products: C02, N2.

The fuse works as follows.

When an electric current flowing through the fuse, of a predetermined value is exceeded, the melting insert melts and an electric arc arises. Since the insert is surrounded by hollow microspheres having a thin wall of 2–10 µm and a melting point of 1100–1300 ° C, as a result of an increase in the temperature of the wall of the microspheres, the gases inside (C02, N2) increase, thus extinguishing the arc. Thus, in this case, an additional effect arises - increased gas formation at the place of formation of the arc and its extinction under pressure.

formed gases. Since gas contains only coal combustion products, they do not contribute to arc burning. In addition, arc quenching efficiency is achieved by increasing the filling density.

corpus by volume (not an increase in density by weight), since the particles all have a strictly spherical shape and a wide range of diameters (25-500 µm), the largest number of particles is in the range

50-200 microns. Since the bulk density and true density differ by only 20%, the filling density by volume of the body reaches 80%.

Increasing the efficiency of arc suppression allows to increase the breaking capacity of the fuse.

Claims (1)

Invention Formula Fuse Containing an insulating body in which the melting insert is located is connected to the knife contact pins, and a bulk filler, characterized in that, in order to increase the breaking capacity, reduce the weight of the fuse and increase its processability, hollow glass microspheres ash are used as the bulk filler. ablation of thermal power plants.