DE454041C - Overvoltage protection device arranged in an isolator - Google Patents

Description

Overvoltage protection device located in an isolator. It is already known to arrange overvoltage protection devices in an isolator. Included the arrangement of the protection device rests itself on the bottom of the insulator, which connected to the main insulator body by a thin wall. When the Protective device breaks off the thin wall and the supply line that connects to the floor of the insulator, coincides: with the bottom from the insulator, so that a visible sign of the uselessness of the protective device is given is. However, this arrangement has the disadvantage that after breaking off the thin wall the insulator body is unusable and must be replaced by a new insulator got to.

According to the invention, this disadvantage is avoided because the The overvoltage protection device only responds to the overvoltage protection device Lein insulator falls off by a lead held by a limp mask. The supply line can be fastened in an intermediate piece, which is designed as a plate Enamel mass rests. The plate rests on the bottom of the isolator and is stressed by the actual overvoltage protection device under pressure. Even the supply line can be fastened directly in the melt mass formed as a plate be so that the plate itself is between the bottom of the insulator and the actual Overvoltage protection device is located. It is also possible to use the supply line to be fixed in a sleeve, which is connected to the plate by a melt is. A spring arranged between the sleeve and the plate may endeavor to pushing the lead away from the insulator.

In the figures, exemplary embodiments according to the invention are shown.

Fig. I and 2 show the attachment of the supply line to an intermediate piece, Fig. 3 the attachment to the melting mass formed as a plate and Fig. Q. the fastening of the feed line by means of a sleeve to the plate.

According to FIG. I, an overvoltage protection device is seated in the main insulator part ii in the cylindrical recess i2, in which a number of resistance elements 13 are arranged. These form an Eni: charging path for normal overvoltages in the line to be protected. The resistance elements 13 are arranged in a disk shape and can be separated from one another by insulating spacers i4, so that a number of small air gaps are created between them. Several such units are assembled to form a column. A main insulating gap 15 is provided above this column of resistance elements. Both are pressed by a compression spring 16 against the bottom 17 of the insulator body ii, which closes the cylindrical recess i2 at the bottom. The heavy current line i8 ends in the upper part of the protective device i9, which is attached to the main insulator part ii by a binding agent. The earth line 2o, which is passed through the opening 2i of the bottom 17 of the insulator and is fastened in the intermediate piece 22, leads into the lower part of the insulator ii. This rests on the melted mass 23, designed as a plate, which is somewhat smaller than the extent of the resistance elements 13. The opening 21 in the base 17 can be filled with potting material. At the same time, the bottom 17 effectively prevents the resistance elements 13 from falling out after the protective device has responded and after the earth line 2o has dropped.

The arrangement according to the invention works in the following way: Step in the overvoltage protection device after it has responded as a result of the current flowing through it a heat development, the intermediate piece 22 is heated and the melting plate 23 melted, so that the spring 16 of the overvoltage protection device is the intermediate piece 22 through the opening 2i of the floor and the ground line 2o from falls off the isolator. This interrupts the discharge through the device and given a visual indication of the uselessness of the protective device. There Such protective devices: are mostly arranged on pylons, so can the damage to the protective device from the lower part of the mast is easy be perceived because the connection line fell out of the fuse housing and hangs down from the mast.

In Fig. 2, the intermediate piece 22 is particularly curved and designed in such a way that that the heat on the lying on the edge of the bottom 17 part of the melting plate 23 is directed. This results in faster melting of the plate 23 and an accelerated interruption of the current through the damaged protective device brought about.

In FIG. 3, the supply line 2o is attached directly to the melting plate 23 and the resistance elements 13 are stored directly on it .9. When the Melting plate 23 put the resistance elements 13 directly on the edge of the bottom 17 of the insulator body.

In FIG. 4, the end 2, 4 of the supply line 2o is fastened in a sleeve 25. The sleeve is fastened in the conical part 27 by a melt 26. Of the The conical part sits in the melting plate 23. The sleeve 25 has a flange 28; A spring 29 is arranged between it and the melt 23. Will the Plate 23 is heated, so after the melting mass 26 has melted, the sleeve 25 of the supply line 2o released and the supply line falls with the participation of the spring 29 quickly from the isolator.

The arrangement according to the invention has the advantage that that after inserting a new melting plate and attaching the earth line 2o at this the overvoltage protection device can be used again without essential Parts of the protective device have become unusable.

Claims (4)

PATENT CLAIMS: 1. Overvoltage protection device arranged in an isolator, @ characterized in that when you respond only to the overvoltage protection device The lead held by a molten mass drops from the insulator. 2. Surge protection device according to claim i, characterized in that the supply line is in an intermediate piece is attached, which rests on the plate formed as a melt on the This isolator rests on the bottom and the actual overvoltage protection device is pressurized is claimed. 3. Overvoltage protection device according to claims i and 2, characterized in that the feed line is in the melt mass formed as a plate is attached, und_that also the plate between the bottom of the insulator and the actual overvoltage protection device is located. 4. Overvoltage protection device according to claims i to 3, characterized in that the supply line in one is attached to the plate by a melt connected sleeve, and that further a spring arranged between the sleeve and the plate, the supply line from the insulator strives to push away.