DE1034237B - Long rod insulator, preferably made of ceramic building materials - Google Patents

Description

The ever increasing demands on the Outdoor insulators, especially in terms of strength, require full utilization of the mechanical values given by the insulation material Strength. It is known that through suitable structural design and shape, z. B. in porcelain, significant increases in strength can be achieved.

It is obvious, ζ. B. the rod-shaped outdoor insulator, from an electrotechnical and from a manufacturing point of view, the shape of a cylindrical To give an insulating body, which is provided with screens to extend the creepage distance. At the ends of the insulating body metallic connection caps are attached by means of cement, which the insulating body there include. Here it is known to have the insulating body in the region of the mounting point with the end face to form from conically tapering ends.

Such an insulating body now shows certain weaknesses when subjected to high tensile stress the putty places certain additional loads, which are caused by the transition from metal - putty · - Are caused by porcelain, so that experience has shown that the body predominantly at the edge of the cap when subjected to tensile loads' the connection fitting breaks. The experience shows The break-up values found are mostly lower than those from the mechanical strength values of the porcelain can be expected and also show a considerable scatter. The latter is included depending on the type and care of the putty and the putty itself.

The invention has set itself the task of finding a solution through which to the endangered Places through appropriate cross-sectional dimensioning the insulating body, e.g. the porcelain, the additional forces caused by the cement from the z. B. made of porcelain long rod can be added without it to the socket Break goes. It must be achieved that the long rod under tensile load according to the actual Strength of the ceramic material in the middle or at least at a certain distance from the Putty is broken, with the break outside the additional stress zone by the putty must lie.

According to the invention this is achieved in that the shank cross-section of the long rod insulator tapers from both ends beyond the cemented point of the connection cap to the area of the middle of its total length, i.e. the conicity of the shank continues from the end face of the insulator into the aforementioned area . The trunk of the long rod receives z. B. the shape of a steep double truncated cone, the weakest cross-section in the long rod insulator,
preferably made of ceramic building materials

Applicant:

Siemens-Schuckertwerke

Corporation,

Berlin and Erlangen,

Erlangen, Werner-von-Siemens-Str. 50

Dr. Martin Mehmel, Redwitz / Rodach,
has been named as the inventor

In the middle of the total length of the long rod. The diameter of the weakest cross-section of the long rod is decisive for the type of isolator.

The stem diameter is z. B. 75 mm for type L 75. The deviation from the cylindrical shape is given by the angle α of the conicity. This depends on the type of cement and the one used Putty and in the best case is at least 5 ° for Type L 75.

The conicity of the shank need not extend over the entire length of the insulator, so that the middle part of the trunk can retain its previous cylindrical design. The length of the However, the cone must be so large that a break in the cylindrical part is guaranteed under tensile load. It it is advantageous that the length of the conical part at both ends of the insulator is at least a quarter to one fifth of the total length. The transition from the conical to the cylindrical part must be continuous take place.

If one assumes an additional additional load of 20 to 25% due to the putty, then one would Diameter enlargement at the greatest end of the conical part by 13% compared to the diameter be able to absorb the additional forces caused by the cement in the cylindrical part. This Diameter ratio determines the angle α of the conicity and, as already mentioned, is dependent on the type of cement and the cement used, so that the values given are only certain minimum values represent.

In Figs. 1 and 2, embodiments of the invention are shown.

809 577/292

1 shows a full-core insulator with long rods, the shank 1 of which extends beyond the cemented point 2 from the ends for the connection of the fitting 3 is tapered towards the "center, i.e. conical. In the center of the Long rod, the shank 1 is cylindrical. The cone at the two ends is defined by the angle α given, depending on the type of cement and the cement used in the best case for the type L 75 is at least 5 °.

Fig. 2 shows a long rod insulator, the shank 1 is designed as a double cone without it in the Center has a cylindrical part.

Claims (2)

Claims 1. Long stabilizer, preferably made of ceramic see building materials with conically tapering endia from the insulator face, those puttied on from metallic connection caps are included, dadttrch characterized in that the trunk cross-section of the long rod insulator from both ends over the putty of the connection cap tapers to the area of the middle of its total length, so the conicity of the stalk is from the end face of the insulator continues into the aforementioned area. 2. Long rod isolate according to claim 1, characterized characterized in that the length of the tapered parts of the insulator is at least a quarter the total length is. Considered publications:
Swiss Patent No. 102 388;
U.S. Patent Nos. 1,520,984, 1,501,688,
981 1 sheet of drawings ® 809 577/292 7.58