DE1121710B - Closed fuse link with sluggish properties - Google Patents

Description

Closed fuse link with inert properties For closed ones Fusible links with inert properties are usually made of copper used with an active ingredient at one point on the conductor surface. The application of the active ingredient on each individual fusible link results in a cumbersome and time-consuming process Working method. Attempts have already been made to use fusible conductors for sluggish fuse links to use made of an alloy of copper as the main component and a or several substances exist as minor components. Served as secondary ingredients z. B. Tin. The fuse element made of this alloy has an opposite The electrical conductivity of the fusible conductor made of pure copper is reduced. The reduction in electrical conductivity requires an increase in the Conductor cross-section, which increases the inertia during the cutting process. It has shown, however, that this increase in inertia is not sufficient to achieve the same To achieve properties such as one provided with a specially applied active ingredient Fusible conductor made of copper.

On the closed inert fuse link according to the invention the fuse element made of an alloy of copper as the main component and several Substances as minor components. According to the invention, silver serves as secondary constituents and phosphorus, the fusible conductor including its surface from this Alloy is formed. On the fuse link according to the invention is the conductivity of the fusible conductor is reduced by the presence of the secondary components. In particular the phosphorus component contributes to this. Since with a given nominal amperage due to the reduced conductivity, the cross-section of the fuse element can be made larger must, the fuse insert receives an increased inertia when melting. The minor ingredients of the alloy also have the property that they are in the electrochemical series are nobler than copper. They therefore do not form a protective layer when the Fusible conductor. This property contributes to a further increase in inertia at. The active ingredient here is the oxygen in the inside of the fusible link air is present. The alloy according to the invention for the fusible conductor promotes a particularly effective scaling of the fusible conductor for introduction of the interruption process. With the help of the alloy according to the invention for the fusible link a fuse insert can be produced which has the same inertial properties like the well-known fusible links, whose fusible link has a specially applied one Possess active ingredient. The application of the required on the known fusible links Active ingredient on the fusible link is always a cumbersome and time-consuming work process. Since the application of the active ingredient in the fusible link according to the invention If the fusible conductor is omitted, the manufacture of the fusible conductor is considerably simplified. An alloy of 80% has proven to be particularly advantageous for the fuse element Copper, 15% silver and 511 / o phosphorus.

Fusible conductors have already been used for fuse inserts from consist of an alloy of silver and copper. These fusible conductors are in contrast to the fusible conductor of the fusible link according to the invention with a plating or provided with a coating of pure silver or a high silver alloy, to increase the aging resistance.

An exemplary embodiment of the invention is shown in the drawing. The figure of the drawing shows a fuse link in section.

The closed fuse link has a ceramic cartridge body 1, the interior of which is closed off by the contact caps 2, 3. 4 is the fusible conductor, which is embedded in a filling compound 5 inside the cartridge. The fusible conductor has a flat, rectangular cross-section in order to give it a large specific surface. It consists of an alloy of copper as the main component and several substances as secondary components. According to the invention, silver and phosphorus serve as secondary components. The secondary components are substances that are more noble than copper in the electrochemical series. Such a fusible conductor has a lower conductivity than a fusible conductor made of pure copper. The fusible link, including his. The surface consists of the alloy, must be provided with an enlarged cross-section. There is no protective layer on the surface of the fuse element that prevents the fuse element from oxidizing when it is heated. This oxidation, which represents a scaling, is used to initiate the interruption process. It is advisable to give the fusible conductor as large a specific surface as possible so that the oxygen present in the fusible link has a sufficiently large surface to attack it to form scaling. An alloy of 80% copper, 150/0 silver and 5% phosphorus is particularly suitable for the fuse element.

The fuse link according to the invention has a flat turn-off characteristic curve corresponding to the inertia. The production support fuse links is simplified by the invention and cheaper, as the fuse elements are delivered for the manufacture of Schmelzeinstäze in a state> may - allows a direct installation without additional operation.

Claims (2)

PATENT APPLICATION: 1. Closed fusible link with inert properties, the fusible link of which consists of an alloy of copper as the main component and several substances as secondary components, characterized in that silver and phosphorus are used as secondary components, the fusible link including its surface being formed from this alloy. 2. Fusible link according to claim 1, characterized in that the fusible conductor 80% copper, 1501o silver and 5% Contains phosphorus. Publications considered: German Patent No. 947 631.