EA027846B1 - Fuse - Google Patents

Abstract

The invention is related to electric engineering, to the field of low-voltage apparatus, in particular, to low-voltage current-limiting fuses. The objective of the present invention is higher reliability of operation by shortening the arc time, a simpler manufacturing process, and longer service life. The objective is attained by that in a known fuse comprising a body that accommodates a fuse link connected to contact terminals, and a loose filler, the loose filler is impregnated with an organosilicon fluid, and the loose filler comprises artificial microspheres containing SF6 gas, or hollow glass microspheres containing fly ash from thermal power plants, or quartz sand. Use of the proposed invention improves reliability of the fuse operation, simplifies the fuse manufacturing process and extends its service life.

Description

The invention relates to electrical engineering, to the field of low-voltage apparatus engineering, in particular to fusible low-voltage current-limiting fuses.

Known fuse comprising a housing, contact leads, at least one fuse element and a solid filler obtained by impregnation of silica sand with a solution of liquid glass, while in the structure of the solid filler introduced alumina cement in an amount of 20-70% of the content of quartz sand (ed. St. No. 1198602, class N01H 85/18, publ. 15.12.85, bull. No. 46).

The disadvantage of the fuse is that the solid filler does not allow to reduce the arc time and, accordingly, the time of its extinction and the complexity of its manufacture, because Alumina cement, which is part of the filler structure, must be evenly distributed and a sufficiently long time is required to cure the mixture.

The closest is a fuse containing a housing, contact leads, at least one fuse element and a solid filler obtained by impregnating silica sand with a solution of liquid glass, while sodium silicofluoride in the amount of 8-15% of the content of silica sand is introduced into the structure of the solid filler ( ed. St. No. 1198603, class N01N 85/18, publ. 15.12.85, bull. No. 46).

The disadvantage of this fuse is also the low breaking capacity and manufacturing complexity, because the solid filler obtained by impregnating the bulk filler of quartz sand with an aqueous solution of liquid glass requires subsequent drying of the formed structure under appropriate conditions or to speed up the hardening process, an additional consumption of sodium silicofluoride reagent in the amount of 8-15%.

The objective of the present invention is to increase the reliability of operation by reducing the arc time, simplifying its manufacturing technology, increasing the service life.

The object is achieved by the fact that in the known fuse containing the housing in which the fuse is located, connected to the contact leads and the bulk filler, according to the invention, the bulk filler is impregnated with an organosilicon liquid. At the same time, artificial microspheres containing eligase, or hollow glass microspheres of fly ash of thermal power plants, or quartz sand are used as bulk filler.

Impregnation of granular filler (artificial microspheres containing eligas, hollow glass microspheres of fly ash of thermal power plants, silica sand) with organosilicon liquid ensures reliable operation of the fuse in the cyclic loads and overload conditions and creates more favorable conditions for arc extinction.

In a compacted bulk filler of an extinguishing medium, due to the thermal effect of the energy released in the fuse during the switching process, fulgurite tubes are formed containing an electric arc inside the bulk structure of the filler, and the impregnation of the bulk filler with organosilicon fluid prevents the arcs from fusing and breakdown between the elements, because the liquid evaporates under the influence of thermal energy without ionizing its vapor, which leads to the appearance of steam blasting with the removal of copper ions from the fusible zone of the fusible element, which arise in it due to the thermal ionization of copper of the fusible element during the burnout.

Thus, in the burnout zone of the fusible element, the arcing medium will not be ionized and the inherent dielectric properties of it will not allow an electric arc to appear in the formed gap of the intercontact discharge and breakdown of the dielectric medium in the discharge gap of the blown fusible element. Therefore, the fuse response time is reduced only to the magnitude of the pre-arcing time, which reduces the fuse tripping time and increases its protective characteristics and thereby increases its reliability. The destruction of the proposed fuse will not occur when it is triggered, which will lead to an increase in its service life.

Impregnation of a bulk filler with organosilicon liquid simplifies its manufacturing technology, because long and expensive drying operation is eliminated and the need for additional materials to accelerate this operation is eliminated.

The drawing shows the design of the fuse.

The fuse consists of an insulating body 1, a fusible insert 2 with a fusible copper element, a node for output cutting contacts 3, a cover 4, asbestos gaskets 5, granular filler 6, cutouts in the ribbons of the fusible insert 7, a tin ball 8, a cavity expander 9.

The insulating body may be made of arc-resistant materials, such as fiberglass or organosilicon plastics, etc.

The fuse operates as follows.

When exceeding the electric current flowing through the fusible insert 2 with the copper element and the notches 7 of the specified value, the fusible copper element of the fusible insert 2 is melted and an electric arc arises. In the medium of granular filler 6, impregnated with a silicone fluid, an electric arc does not occur and there will be no breakdown between the elements, because the liquid evaporates under the influence of thermal energy without ionizing its vapor. The energy of the electric field in the fuse at the moment of its operation is much less than the ionization energy of the liquid, which leads to the occurrence of blasting by non-ionized steam with the removal of copper ions from the burnout zone of the fusible element through the steam expander cavity 9., which arise in it due to thermal ionization of copper of the fusible element 2 when the set current value is exceeded.

Claims (4)

CLAIM 1. Fuse, comprising a housing in which a fuse insert is located, connected to the contact points, and a bulk filler, characterized in that the bulk filler is impregnated with a silicon-organic liquid. 2. Fuse according to claim 1, characterized in that artificial microspheres containing gas are used as a bulk filler. 3. Fuse according to claim 1, characterized in that hollow glass microspheres of fly ash from thermal power plants are used as a bulk filler. 4. Fuse according to claim 1, characterized in that quartz sand is used as a bulk filler.