SU568980A1 - Cutout fuse - Google Patents

Description

(54) FUSE FUSE ELEMENT

lagged destruction of the second layer of low-melting solder. The conductor material /, in addition to the base, contains alloying additives of metals whose melting point is lower than 400 ° C, for example, lead, cadmium, tin, indium, etc., in quantities that exceed the limit of their solubility in the solid metal of the base of the fusible element. With such amounts of dopants, an insoluble part of them is discharged along the boundary m (or in the intercrystalline space) 4 crystallites of the base 5 (Fig. 2), creating conditions for more efficient destruction of the conductor / melt of the low-melting solder 5. Almost 3 known low melting point solders can be used, in particular metals and alloys of antimony, zinc, lead, cadmium, thallium, bismuth, tin, tin, hali with a melting point of 380 ° C and lower.

The introduction of more than 35% by weight of conductor / alloying metals into the material is undesirable due to a significant decrease in the electrical and thermal conductivity of the material.

The proposed fusible element works as follows.

When passing the edge current, conductor 1, heating, melts a layer of low-melting solder 5. Once solder 5 melts, it easily melts the metal solution, quickly penetrates into intercrystalline space 4 of conductor / and displaces the crystallites 5 of the conductor base metal into the melt (Fig. 3). As a result of this process, the body of the conductor in the zone 2 of contact with the solder 3 rapidly decreases in cross section, the resistance of this area increases sharply and its complete destruction occurs.

Thus, in the proposed element, the temperature of the destruction of the conductor /, and, consequently, the temperature of the fusible element as a whole, is determined by the temperature of complete dissolution in the melt of the low-melting metal alloying layer 3 contained in the destruction zone 2 of the conductor. Since the solubility of metals used as a dopant is higher than that of a base ,; and the quantity is less, the destruction of conductor 7 occurs at a temperature lower than the temperature of destruction of the same

conductor / without alloying additives.

For example, a fusible element with a conductor made of aluminum, alloyed with 25% saints and a layer of solder composition (% by weight): Bi - 45.3, Pb - 17.9, Sn - 24.5 and Cd - 12, 3,

has a response temperature at a boundary current of -95 ° C.

Having a sufficiently high electrical and thermal conductivity with a relatively small volume of metal and very low heating at nominal and boundary currents, the proposed fusible elements can significantly reduce the heating of structural elements and power losses in fuses, improve the protective characteristics at currents close to the boundary, and to provide at the same time the high disconnecting ability. Fusible elements, in the main, will find wide application in inertia-like fuses and fuses that combine current and thermal protection.

Claims (1)

Invention Formula The fuse element is made of metal, namely aluminum, copper or silver, onto which a layer of low-melting solder is applied to create a metallurgical effect, characterized in that, in order to improve the protective characteristics, metal alloying elements are introduced into the material of the fusible element The melting point of which is lower than 400 ° C, in an amount of x, is large enough to dissolve them. There is a solid metal. Fsh 2