DE905049C - Device for determining the resistance of earth electrodes - Google Patents

Description

Preparation for determining the resistance of earth electrodes Endings in High-voltage systems, especially high-voltage systems, generally have to be included be carried out with great care. If the grounding is inadequate, voltages can occur between . Plant parts and earth occur which endanger people and equipment will. It is particularly important that the workmanship is flawless, Through which considerable currents are continuously or temporarily conducted to the earth.

These currents cause a voltage drop in the earth resistance, which may not exceed certain limits for reasons of operational safety. As a rule, however, earthing resistances depend on weather conditions and water level and other influences. As a result, care must be taken to ensure that the resistance value even under the most varied of conditions at any time within the permissible limits remain.

From time to time you can measure the correct resistance by measuring the resistance Check the condition of the earthing. Such monitoring of the earth resistance is Particularly advisable for operating earths for high-voltage direct current transmission, because here by electrolytic effects (rotting of the earth electrode, polarization the earth, gas separation, etc.) considerable changes in the earth resistance can enter.

According to the invention, the earthing resistance should now be constantly automatic be monitored.

This can e.g. B. happen in such a way that from the flowing over earth Operating current and the voltage drop caused by this in the earth resistance the respective value of the earth resistance is displayed in a quotient meter. It is more useful, however, if one is always on additional electricity is routed via the earthing to be monitored. iDIamit can then also be used for the Case that the operating current conducted over earth fluctuates within very wide limits and is held approximately at the zero value for a longer period of time, or only occurs in the event of an error, - enable perfect monitoring. To this to eliminate any influence on the measurement by the fluctuating operating current as far as possible. it is advisable to use an external type of current or Frequency to use. Currents of other frequencies are then, for example due to disorder of blocking circuits to keep the measuring circuit free.

A particularly suitable Überwadiungsanordnung can thereby Obtain that the earthing consists of two single earths or two groups of single earths is formed and for the operational earthing these beMen earth electrodes or groups of earth electrodes in parallel are switched while the Nfeßstrom is slid through them in series. Are the earth electrodes or groups of earth electrodes so dimensioned that their earthing resistances are approximately the same, and laid at such a spatial distance from each other, that they do not significantly influence each other, it is thereby achieved that the measured series resistance Rr R1 + R2 about four times that for the operational earth decisive parallel resistance is Rp = R1 R2 / R1 + R2. This relationship remains approximately preserved even with moderate differences between R1 and R2, but grows with it increasing diversity. as, on the other hand, also with an increase in both resistance, ds values the measured series resistance increases. When the measured series resistance is reached Rr a value that exceeds four times the permissible earth resistance Rp, is this a clear sign that either one of the two resistances Rl, R2 or both have deteriorated and a closer examination of each Grounding is required.

In this case, the monitoring device is a disruptive influence due to alternating current components occurring in the operating current, in particular a direct current largely withdrawn from the same or different frequency as the measuring current.

In the drawing is a device for the mood of the game stand illustrated by earth electrodes according to the invention as an embodiment.

The energy source A then supplies power to the via a line L. Consumer B, while the return of the current takes place via earth. To the earth terminal Ider the energy source are on the two halves of the winding of a transformer T, the can also be replaced by a voltage divider choke, the two earth electrodes resp. Grounding groups R1, R2 connected. One on a special winding of the transformer T or alternating voltage source connected to one terminal of the voltage divider, whose voltage is monitored by a voltmeter V drives a current by connecting the two earth electrodes R1 and R2 in series. As a measuring device M can with constant Measurement voltage an ammeter, otherwise a quotient meter can be used.

If the permissible resistance value is exceeded, Can in an acoustic or optical signals or the like are triggered in a known manner. In addition or instead of this, the measurement results may also be specified by means of a writing device into consideration. The earth electrodes R1, R2 are not necessary to be the same, but may also be of different sizes and designs can be applied.

Claims (7)

P A T E N T A N S P R Ü C H E: I. Device for determining the Resistance of earth electrodes, especially in the case of operational earthing for direct current high-voltage systems, characterized by constant, automatic monitoring of the earthing resistance. 2. Apparatus according to claim I, characterized in that for Idie Monitoring of the earth resistance a current is used, which is independent of the over The operating current conducted to earth is constantly conducted through the earth. 3. Apparatus according to claim 1 and 2, characterized in that the current used to monitor earth resistance from the facility current is different in current type or frequency. 4. Apparatus according to claim I and 2, characterized in that the earthing consists of two individual earths or groups of lsingle earths that are used for the measuring current in series, for the operating current are connected in parallel. 5. Apparatus according to claim 4, characterized in that the two Earth electrode Earthing groups have resistance values of the same order of magnitude and are laid at such a spatial distance from one another that the series resistance corresponds in order of magnitude to four times the parallel resistance. 6. Device according to claim I or the following, characterized in that that for the monitoring of the earth resistance next to or instead of display devices recording or signaling or both is used. 7. Apparatus according to claim 4 or 5, characterized in that the measuring current is introduced into the series circuit via a transformer winding, the middle of which forms the conclusion for the operating current.