DE695224C - Overcurrent carrier fuse - Google Patents

Description

Overcurrent slow fuse It is known to have overcurrent slow fuses by producing the fusible link for the given nominal current oversized - and by applying an alloy-forming substance - the melting point belittles.

Fuses with so-called sheathed wires are also known, ie. Wires that consist of a core and an overlying coating (jacket). The melting point of the core material is lower than that of the cladding material. Both Materials do not form a chemical bond with each other, even when melting occurs no chemical compound. The speaking of this security takes place rather because the melted core material destroys the jacket. You also have fuses suggested at which. the fusible conductor consists of a tube in which Inside there are chemical substances that the fusible link when melting without Quickly consume external oxygen supply. However, these substances only occur in Function when the fuse element melts; but they do not affect the effect of the fusible conductor before it melts, d. H. the melting point and the melting characteristic of the fuse element.

It has also been suggested instead of an alloying one To use by means of a fine chemical compound, e.g. silver iodide, those at a certain temperature, which is below the melting temperature of the fusible conductor lies, the cross section of the fusible conductor weakens, so that when current flows through this point - an increased heat development and melting takes place. The one to be achieved in this way. In many cases, inertia is not enough.

It has also been suggested; lead halides on the fusible link or mixtures of lead halides. The previous procedure that Applying chemical compounds outside to the fusible link can in some Cases, however, have disadvantages, especially when the chemical substances are hygroscopic: According to the invention, therefore, in the case of an overcurrent-carrying fuse, in which chemical compounds are attached to the fusible link, which when reached a certain temperature, which is below the melting temperature of the fuse element chemically attack the fusible link, the chemical compounds inside housed at least in places hollow fusible conductor.

Examples of the invention are shown in FIGS Although FIG. i shows a plan view, FIG. z shows a longitudinal section of a fusible conductor according to the invention. Fig. 3 indicates the manufacturing process. In Fig. 4 is- the arrangement of a fuse element within one of the usual fuse cartridges shown.

In Fig. I i is the fuse element, which consists of a tube z, which is compressed at the ends 3 and 4, so, sat a self-contained A cavity is formed which contains the chemical substances 5 in its interior. To the Increasing the short-circuit strength can also reduce cross-section, for example Holes 6 should be provided.

The production of such a fusible conductor, as shown in FIGS z shown, can be done in such a way, sat in the interior of the tube 7 (Fig. 3) first a stamp 8 is introduced and then a; precisely weighed amount 9 of the chemical substance is introduced in powder form. I-Iieraüf is a stamp i o Introduced into the tube from above and the amount of powder 9 to a tablet inside of the pipe pressed. After removing the two stamps 8 and io, the Ends of the tube as shown in Figures i and z; are pressed together. the Introduction of a well-defined amount of the chemical compound means the possibility of To manufacture clay fuse cartridges with a precise degree of inertia.

The finished fusible conductor can then in the usual way in a Cartridge to be installed. The fusible link i i with its two ends g and 4 is through the end cap 1a or the foot cap 13 in the interior of the cartridge body 14 fetched. The fuse element i i is surrounded by a filler. @aMan recognizes This figure already shows one of the great advantages of the fusible conductor according to the invention compared to the previous constructions. The inner surface of the fuse element is with a chemical substance, but the entire outer surface of the Fusible conductor covered by the spark-extinguishing filler 15. So it can with this cartridge, the fire extinguishing agent 15 when the fuse element melts of the entire melting point, which of course with cartridges which the chemical compound is attached to the surface is not the case can be. It is known that there are many difficulties with such cartridges result when melting.

Alkali, alkaline earth and other metal halides can be used as chemical compounds Find use. The use of lead halides is particularly advantageous, which cause attack at a relatively low temperature. These chemical compounds can also be mixed with other chemical compounds be to the attack speed at a given temperature within certain limits to influence. In any case, the chemical substances in the Precise dosing is possible inside the fusible link, quite apart from that advantage mentioned above; Hygroscopic substances can also be used as well Substances that change with prolonged exposure to atmospheric air.

Claims (1)

PATENT CLAIMS: i. Overcurrent delay fuse, in which. .an the fusible conductor chemical compounds are attached, which chemically attack the fusible conductor when a certain temperature is reached, which are below the melting temperature of the fusible conductor, characterized in that the chemical compounds are housed inside the at least partially hollow fusible conductor. z. Fusible link according to Claim i, characterized in that the fusible link is designed as a tube, the ends of which are pressed together, while the chemical compounds are located in the remaining cavity. 3. Fuse according to claim i, characterized in that alkali, alkaline earth or other metal halides or mixtures of these substances with other metal compounds are used as chemical compounds. 4. Fuse according to claim t to 3, characterized in that the flat points of the fusible conductor have a reduced cross-section, for example holes. "A method for producing a fuse according to claims 1 to 3, characterized in that the chemical compounds or mixtures of chemical compounds are pulverized into the tubular fusible conductor and the ends of the tube are then pressed together.