CZ380792A3 - Lightning arrester failure indicator - Google Patents

Abstract

It comprises two opposed electrodes (1, 2) united, on the one hand, in series by a low-voltage varistor (3) through which pass possible lightning waves and, on the other hand, in parallel via a resistor (7) which does not react during a lightning wave but rises in temperature during passing of the current generated by the grid in order to at least partly destroy a sleeve (11) surrounding the indicator. <IMAGE>

Description

The present invention relates to a device that operates as an indicator of faults or short circuits and is intended to provide flushing devices fitted to high or medium voltage power lines.

Lossvadní stsv techniques

Devices of this kind are known, for example those described in FR-A-2603413 (FERRAZ), which have a built-in visual signal in order to provide a perfectly visible indication of a possible lightning arrester to which the device is mounted.

Such a device is provided with an elastically deformable tape, one end of which is connected to the fuse being released as soon as a fault occurs in the lightning arrester associated with the device. The means for releasing the surge arrester depends on an electric filter consisting of two parallel windings, one of which is inductive and is designed to override the current generated by lightning discharges of high di / dt, while the other winding is resistive and prevents possible short-circuit current. pass through the induction line in series with the safety wire, the melting of which leads to the release of the indicator.

However, this indicator is less sensitive as it does not operate above 70 amps. In addition, the electrical filter system requires a self-induction value that is very difficult to realize on an industrial scale and at a low cost. Finally, the principle of selecting currents on the basis of their time course has the disadvantage that it does not let important flux currents pass through the fuse wire in the event of a lightning discharge. However, the duration of the lightning discharge is not sufficient to break the fuse wire, but it may cause premature metal aging if the lightning discharge occurs frequently.

The improvements object of the present invention are to eliminate these disadvantages and to enable the lightning arrester fault indicator to be implemented, which is actuated by the function of the intense value of the current generated in the mains after a short circuit in the lightning arrester.

The adi-i-cat-ad in ad-po-1-e-invention is de-gerinated in the formula 1.

The nature of the lift

This irradiator has two opposing electrodes which are connected in series to a series of devices characterized by a non-linear voltage such as a spark gap or a low voltage varisror and through which eventual lightning discharges pass and, on the other hand, has a parallel resistor which does not respond to lightning but the temperature of which is increased when the current generated by the power line is passed and thus the casing surrounding the indicator at least partially breaks in the event of an accidental short-circuit of the surge arrester connected in series with the indicator.

According to a further variant of the invention, an increase in temperature from the pore can break this resistance and cause the elastic tape to be discarded, the ends of which are connected to said resistance.

BRIEF DESCRIPTION OF THE DRAWINGS

With reference to the accompanying drawings, in which an exemplary embodiment of the invention is given, a better understanding of the invention and its features and advantages is provided by:

Giant. 1 is a longitudinal section of an indicator according to the invention

Giant. 2 is a cross-sectional view of II-II (FIG. 1)

Giant. 3 is an electrical diagram of a fault indicator according to the invention

Giant. 4 is a detailed perspective view of one embodiment of the invention

Examples of specific embodiments.

Figures 1 and 2 show a first embodiment of a defect indicator according to the invention, which consists essentially of two electrodes 1 and 2, preferably cylindrical, between which a low-voltage varistor 3 is provided _; two intermediate pads 4 ensuring good contact between the electrodes and the varistor. The assembly of these three elements is carried out by means of an insulating pipe 5 with a vertical groove in such a way that an inverted letter C appears in the cross-section (FIG. 2). The tube 5 is connected to the electrodes 1 and 2 by spacers 6.

It should be noted that instead of the varistor 3, it is possible to use sparks with circular electrodes or any other device with a non-linear voltage.

The resistor 7 branches in two conductors 8 and 9 to the two electrical devices 1 and 2 and is located in the tube 5a of the pipe 5. The whole of these elements is provided in a form which allows overlapping of the external sheath 10 made e.g. of silicone elastomer. The resistor 7 touches one of the outer dynamos of the sheath 10 for reasons which will be explained below.

Around the sheath 10 is provided under tension a tubular elastomeric sleeve 11, the location of which is made possible by elastic extension. The housing 11 is preferably colored.

The electrode 1 is branched by any suitable means, for example, a conductor 12 (FIG. 3) to the surge arrester 13, while the electrode is connected to the ground by a cable 14 (FIG. 3).

The function is as follows: in the event of a lightning discharge, an intense peak value is discharged to the ground by passing through varistox 3, the current discharged to resistor 7 does not cause a noticeable overheating of the resistance due to the short duration of the lightning discharge.

Conversely, in the event that, for some reason, the lightning arrester 13 is damaged, the current generated by the mains is maintained until the mains protects. Thereafter, an overheating of the resistance sufficient to melt the housing 11 is induced due to the proximity of the resistance to the housing. Thus, each operator can see that the defect indicator has worked (the housing 11 will be lost) in such a way that the respective lightning arrester is now out of service.

According to variant on cbr. 4, the housing is formed in a tape 11 'that does not occupy the entire circumference of the housing, and a space 15 is formed between the ends. Each of the ends of the tape 11 is provided with a metal clamp 11'a, 11'b. thus, means for holding the broken tape 11 in place. 11a and 11b are connected to conductors 8 and 9.

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Clamps

When the screen emits a current corresponding to the respective fault indicator after a short-circuit of the surge arrester, the current intensity leads to a breakdown of the resistor 7, thus releasing both ends of the tape 11 'which are separated from the fault indicator due to its elasticity. Thus, the operator can visually observe that the tape 11 * is missing and inferred from this that the lightning arrester is out of order.

Thus, a fault indicator has been created which particularly suits the practical requirements and which in particular allows virtually all the leakage current from the lightning arrester 13 to pass from the pore 7 so that the varistor will not age in normal operation.

It should be noted that increasing the temperature of the resistor 7 can act on the signaling circuit remotely, making it easier to know that the fault indicator has been broken.

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Patent claims

1. Lightning arrester fault indicator (13) located on the outside -

Claims (3)

A lightning arrester (13) fault indicator located on a high or medium voltage overhead power line, characterized in that it consists of two electrodes (1,2) connected on one side in series to a device (3) characterized by a non-linear voltage such as varistor or spark gap. and, on the other hand, a resistor (7) which is not connected to the lightning discharge, the temperature of which increases when the current generated by the power line is transmitted and which releases the visual signaling element (11, 11 ') surrounding the housing (10). equipment due to remelting. Indicator according to claim 1, characterized in that the resistance (7) retains both ends of the elastic band (11 ') arranged around the housing (10). Indicator according to either of Claims 1 and 2, characterized in that:. an increase in the resistance temperature (7) affects the signaling circuit remotely.