DE1223036B - High voltage fuse - Google Patents

Description

High-voltage fuse The invention relates to a high-voltage fuse, when inside a closed housing fusible link in an incombustible one Fillers are arranged, the housing made of metal, preferably aluminum, and provided with an insulation layer, preferably an oxide layer is.

To the delivery of the arising within a fuse housing To improve heat and increase the strength of the housing, it is known to use metal ones instead of the usual porcelain fuse boxes. In order to ensure the dielectric strength on the outer fuse housing Insulation is provided between the caps and the cylindrical jacket of the housing. It is also known to make the caps and the cylindrical housing from aluminum, which has an oxide layer on an outer surface that serves as insulation. Such fuse housings are only for the because of the low insulation Suitable for use at relatively low voltages.

According to the invention, this disadvantage is eliminated in that the jacket of the fuse housing from several stacked or interlocking there is annular parts, each part preferably on its entire Provide the surface with an insulation layer, preferably an oxide layer is. With such an arrangement of aluminum, on the surface Ring-shaped parts provided with an oxide layer follow the insulation the jacket of the fuse housing significantly improved and for higher voltages made suitable.

The invention will be explained in more detail with reference to the drawings.

The F i g. 1 shows a fuse with a housing designed according to the invention in a longitudinal section. The fusible conductor 1 is embedded in a granular extinguishing agent 2 and conductively connected to the cap 3 at the top and to the end plate 4 at the bottom. The fuse housing, designed as a tube, consists of several parts 5, 6, 7 and 8 which are provided with cylindrical cross-sectional gradations and which are made of an aluminum alloy and have an aluminum oxide layer on their surface. However, there is also the option of using another suitable insulation application. The parts 5 to 8 overlap each other with the cylindrical cross-sectional gradations, whereby a sufficiently tight seal of the fuse housing is achieved. The sections 5 to 8 can be firmly connected to one another by pressing them together. They can also be glued to one another, a silicone-based adhesive being preferably used because of its high temperature resistance. It is also possible to glue and press together at the same time. The cap 3 and the end plate 4 are connected to contact blades 9 and 10 . In this arrangement, the casing of the housing is interrupted several times over the length by intermediate insulation, which creates the possibility of handling higher voltages.

The F i g. 2 also shows a detail of a longitudinal section of a housing in which the overlapping parts are conical. This results in pressing surfaces between the individual parts 11 and 12 of the assembled fuse housing. This arrangement has the advantage that the hard aluminum oxide layers cannot damage one another when the parts 11 and 12 are pressed onto one another. The conical surfaces are offset and merge into flat surfaces that are perpendicular to the securing axis and limit the lengthways pressing together. Instead of this, however, the conical surfaces can also taper off in a pointed or sharp-edged manner on one or both sides.

The F i g. 3 is again a detail from a fuse housing in longitudinal section. Here, the housing is made up of two types of ring-shaped parts 13 and 14, which are dimensioned so that the identical parts 13 do not touch each other after being pressed together, but leave an insulating space 15 between them. Likewise, no contact occurs between the identical parts 14 at the end faces, so that insulating spaces 16 remain. This arrangement takes into account the fact that an oxide layer with high insulation strength is difficult to produce on sharp edges.

The wall thicknesses of these housings are for the sake of clarity in all Figures shown more strongly than is necessary when using metal. Of the The cross-section of the housing can be circular, square, oval or otherwise be trained.

The F i g. 4 shows in principle the composition of a housing from several sheet metal sleeves 17 which are identical to one another and which have stiffening ribs 18 with regard to their thin walls. If a flattened oval cross-section is selected for the fuse housing, the stiffening ribs are advantageously only provided on the flat sides, which is easier to manufacture. The sleeves 17 are conical so that they can be pressed tightly into one another. The stiffening ribs 18 simultaneously serve as additional cooling ribs to improve the dissipation of heat. The sleeves 17 can be made from a self-contained ring. But they can also be made from a sheet metal strip, the ends of which are firmly connected to one another by welding, soldering, riveting, gluing or folding.

Claims (2)

1. A high voltage electric fuse accommodated in a housing with incombustible filling fusible conductors, wherein the fuse housing made of metal, preferably aluminum, and with an insulating coating, preferably by an oxide layer, is provided, wherein d a d urch in that the casing of the fuse casing from consists of a plurality of annular parts arranged axially one behind the other, of which each part is preferably provided with an insulation coating, preferably an oxide layer, on its entire surface. 2. Electrical high-voltage fuse according to claim 1, characterized in that the annular parts are placed one on top of the other with their front sides. 3. Electrical high-voltage fuse according to claim 1, characterized in that the annular parts are pushed into one another at their front sides and partially overlap (F i g. 1). 4. Electrical high-voltage fuse according to claim 1 and 3, characterized in that the lateral surfaces of the annular parts are conical towards the front sides (F i g. 2). 5. Electrical high-voltage fuse according to claim 1, characterized by the use of rings with a triangular cross-section (F i g. 3). 6. Electrical high-voltage fuse according to claim 1 and 3, characterized in that the annular parts consist of conical sheet metal sleeves which are preferably provided with stiffening ribs (F i g. 4). 7. Electrical high-voltage fuse according to claim 1 and 6, characterized in that the stiffening ribs are only provided on the flat sides of an oval fuse housing with a flattened cross-section. Documents considered: German Patent No. 627 528.