SU1275580A1 - Fuse insert - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to fuses. The purpose of the invention is to improve the protective characteristics of the fuse. The melting element contains a narrow section I of reduced cross section and a wide part of foil strips arranged in parallel 2-4. The sections of 5 lanes adjacent to the narrow isthmus are perpendicular to the plane of the narrow isthmus. The ends of the fusible element are attached to the contact pins 6. The increased total thickness of the wide part of the fusible element contributes to more intensive heat removal to the contact pins 6, and the implementation of the first part as separate strips 2-4 greatly increases the heat removal surface of the filler. The improved heat transfer from narrow necks 1 allows the fuse insert to increase its rated current without increasing its size, and separating the arc into several parallel arcs in the 2-4 strips creates the best conditions for extinguishing the arc. 4 il.

Description

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

The aim of the invention is to improve the protective characteristics of the fuse.

FIG. 1 and 2 depict two projections of a fusible element with one section of reduced section; in fig. 3 and 4 are two projections of a fusible element with two consecutive, sections of reduced cross section.

The fusible element contains a narrow section 1 of a reduced cross section and a wide part of stripes 2-4 of foil arranged in parallel, each of which may have the same or different thickness of the narrow isthmus. Sections of 5 lanes that are not in the plane of the narrow trans-. . the neck and the adjacent 1e to it are located perpendicular to the plane of the narrow isthmus7 The ends of the fusible element are attached to the contact pins 6.

During operation of the fuse, the highest temperature in it has a section with a maximum current density - a narrow neck of 1 fusible element. At the same time, the temperature of the narrow neck I is determined not only by the current density in it, but also by the heat sink from it. The thermal conductivity of the material of the fusible element is much higher than the thermal conductivity of the filler and therefore the heat removal from the narrow neck 1 takes place not so much directly in the adjacent filler as in the wide sections of the bands 2-4 of the melted element. The increased total thickness of the wide part of the fusible element contributes to the more intense heat sink to the contact pins 6, and the execution of this part as separate strips significantly increases the heat removal surface of the filler. Intensive heat transfer from the narrow neck 1 makes it possible to increase the current density in it, i.e., to increase the rated current of the fuse link without increasing its size, which is equivalent to reducing the size of the fuse. The process of triggering the fuse during emergency currents begins by melting the narrow isthmus 1, followed by

in place of the narrow isthmus 1, an electric arc occurs. After the narrow isthmus I burns out, the burning of the sections of the bands 2–4 begins, at which the arc separates and instead of one arc several parallel arcs appear. In sections 5, the currents in the arcs go in opposite directions, as a result of which electrodynamic forces arise, repel each other. The flow of metal vapors into each arc is limited by the small thickness of the corresponding sections of the strips 2-4 of the fusible element. Thus, favorable conditions for arc suppression are created by separating one arc into several parallel arcs and due to electrodynamic repulsion of arcs from each other, burning on both sides of narrow isthmus 1 in parallel sections of the fusible element, as well as due to the limited flow of vapor metal in every arc.

The effectiveness of the proposed fusible element was tested on the model of the fusible insert. In the tests, the length of fulgurite, the Joule integral and the arc burning time after the operation of the proposed fusible element with three parallel-connected were compared. in a wide part and a fusible element with one thickened three times wider part. After the operation of the proposed fusible element, fulgurite is 15–20 mm shorter, the Joule integral is 1.3–1.5 times shorter, and the arc burning time is 1.7–2 times less than that of the known fusible element.

. The combination in the proposed melting element of an intensive heat supply and from a narrow neck of land with improved arc suppression makes it possible to reduce the size of the fuse-link fuse and improve its protective characteristics, thereby achieving

0 saving of materials and expanding the possibilities of placing fuses in distribution devices. The proposed fusible element can be rationally used in safety devices both of general use and in high-speed fuses designed to protect semiconductor devices.

Formula

the invention

. A fuse element of the fuse containing at least one strip with one or several sections of reduced cross section and wide sections having a greater thickness than areas of reduced section, characterized in that, with a chain of improvement of the protective characteristics of the fuse,

These sections are formed by one or several additional bands parallel to wide sections and electrically connected by ends with the main strip in areas adjacent to areas of reduced cross section, with sections of additional bands directly adjacent to the junction points with the main strip located perpendicular to it. .

2nd 5

X

figure 1

lh and

FIG. four

fig.Z

Claims (1)

The claims A fuse element comprising at least one strip with one or more sections of a reduced section and wide sections having a greater thickness than the sections of a reduced section, characterized in that, in order to improve the protective characteristics of the fuse, the thickness of the wide 1275580 4 sections formed by one or more additional strips parallel to wide sections and electrically connected by ends with the main strip in areas adjacent to sections of reduced section moreover, sections of additional bands directly adjacent to the junction 10 with the main strip, perpendicular to it. figure 1 _ figure.Z figure 4