DE1140282B - Circuit arrangement for measuring the resistance of an earth connection in alternating current supply networks - Google Patents

Description

Circuit arrangement for measuring the resistance of a ground connection in alternating current supply networks The invention relates to a circuit arrangement with an indicating measuring device for determining the resistance of a ground connection in AC supply networks, one from the network via a transformer alternating low voltage taken as measurement voltage and the neutral conductor of the network as Auxiliary earth is used and in which the secondary winding of the transformer on the one hand connected to a connection for the neutral conductor of the network and on the other hand via a low resistance and a switch with a connection for the to be measured Earth connection is to be connected.

There is already a facility for testing the protective measures in electrical systems with zero or. Earth conductor connection became known in the one Current of a certain strength of a test transformer via a load resistor a load on the neutral or earth conductor circuit under non-hazardous low voltage and the loop resistance is determined using the current-voltage method.

However, this known arrangement has the disadvantage that the determined measurement result of a possibly existing zero potential, d. H. the Voltage between neutral and earth, is influenced and, on the other hand, that the measurement of the resistance not directly, but according to the current-voltage method by means of two measuring devices takes place. It is true that the use of ohmmeters is involved Continuity and insulation measurements are known, but there is a network dependency in Purchase must be made.

Proceeding from this prior art, the object of the invention is based on creating a circuit arrangement of the aforementioned type in which the Measurement voltage does not have to have a precisely determined value and the accuracy of the measurement due to any differences between the nominal and the actual mains voltage is not influenced, at the same time the influence of the possibly existing zero potential (i.e. the voltage between neutral and earth) is eliminated and the resistance can be read on an ohmmeter.

According to the invention this is achieved in that as a measuring device an ohmmeter is provided, which in addition to an adjustable series resistor through a Changeover switch in one position of the same and in the closed position of the between the low resistance and the connection for the earth connection lying switch between the end of the secondary winding of the transformer not connected to the neutral conductor and the connection for the earth connection to be measured parallel to the low-resistance one Resistance can be connected that in the other position of the switch and at open switch between the changeover switch and the connection for the to be measured Earth connection an auxiliary winding of the transformer is switched on, the one Voltage that compensates for the voltage drop on the secondary winding of the transformer supplies, and that a second switch is provided, which allows the ohmmeter to separate both sides from the low resistance and thus by connecting of the ohmmeter on the one hand with a second auxiliary earth connected to a connection and on the other hand with the sliding contact of one between that provided for the neutral conductor Connection of the transformer secondary winding and the connection point of the low-resistance Resistance potentiometer connected to the switch is a per se for earth resistance measurements to form known bridge circuit.

A potentiometer is advantageously connected in parallel to the auxiliary winding, at which the compensation voltage is taken.

According to a further feature for the configuration of the arrangement of the invention is between the primary winding of the transformer and the terminals A polarity reversal switch is arranged for phase and neutral.

The invention will be explained in more detail with reference to the drawing, namely Fig. 1 shows an embodiment of the circuit arrangement, and Fig. 2 shows a part the circuit arrangement according to FIG. 1 in a different representation.

In Fig. 1 is between phase and neutral of the light network with the A transformer 1 is connected to terminals 3 and 4 via a polarity reversal switch 20. A with an unspecified series resistor provided neon tube 5, the between terminal 3 and a terminal 8 for connecting the earth connection to be measured lights up when terminal 3 is connected to the phase conductor. One is then make sure that terminal 4 is connected to the neutral conductor. The secondary winding of the transformer 1 is on the one hand a high load contactor 6 via a terminal 18 (for backup) and the terminal 4 connected to the neutral conductor and on the other hand via a small fixed resistor 7 and a pressure switch 9 on a terminal 8, the is connected to the earth connection to be measured.

An ohmmeter 13 with a fixed series resistor 15 and an adjustable one Series resistor 12 can either be parallel to the resistor with the aid of a changeover switch 10 7 are switched or - via an auxiliary winding 21 of the transformer 1 with it parallel potentiometer22 - between the live end of the secondary winding and terminal 8 can be switched. The ohmmeter 13 and series resistors can be used with Using a changeover switch 11 can also be switched into a line between a second auxiliary earth, not shown, to be connected to a terminal 19 is, and the sliding contact of a potentiometer 17, which is between terminal 18 and the Connection point between the fixed resistor 7 and the switch 9 connected is.

In the latter case there is a pressure switch 16 with the ohmmeter 13 in a row.

The circuit arrangement works as follows: First, the changeover switch 11 brought into position A and with the pressure switch 10 depressed, the ohmmeter 13 set to maximum deflection with the help of its adjustable series resistor 12.

The current flows from the secondary winding via the Ohnuneter 13 with the series resistors 15 and 12, the auxiliary winding 21, the one to be measured Earth connection at terminal 8, the earthed star point of the lighting network and the Neutral conductor back after the secondary winding. Since the resistances of the two groundings, d. H. the earth connection to be measured and the neutral point earth, and the resistances of the neutral conductor and secondary winding are small in relation to the total series resistance 12, the ohmmeter with its series resistors receives practically full voltage the secondary winding, the z. B. is nominally 24 V, but due to deviations in the Mains voltage can be slightly higher or lower. In series with this secondary Voltage lies the eventual zero potential, at least that component of it which is in phase with the secondary voltage.

If the Ohnuneter 13 is set to the maximum deflection, then the pressure switch 10 is released and the pressure switch 9 is depressed.

It then flows a fairly large current from the secondary winding Via the resistor 7, the pressure switch 9, the earth to be measured at terminal 8, the earthed star point and the neutral conductor after the Secondary winding back. This Current is z. B. maximum 10 A if the earth to be measured has a resistance of 0 ohms, the resistances of the neutral point-earth and neutral conductor are negligible, the resistor 7 has a value of 1.9 ohms and at 10 A the transformer 1 in its secondary winding has a voltage drop of 5 V. Has the earth connection to be measured at 8 a certain resistance, then this current will of course be smaller.

The ohmmeter 13 is now together with its series resistors 15 and 12 parallel to the resistor 7 and thus measures the voltage drop caused by the strong Current through the resistor 7 is caused.

A resistance is then read on the scale of 13, calibrated in ohms from, which is equal to the sum of the resistances of the earth connections to be measured 8, the Neutral point-earth and the neutral conductor.

It is clear that the strong current flowing in this measurement will cause a considerable voltage drop in the transformer 1, the did not occur when setting 13 to maximum deflection. To compensate according to the invention, the auxiliary winding 21 is provided, which when setting the Ohmmeters counteracts the maximum deflection of the voltage of the secondary winding. Since this counteraction will be smaller when the line voltage drops, the compensation received will be correct. When calibrating, the compensation can be made using of the potentiometer 22 connected in parallel with the auxiliary winding 21 is set will.

The calibration takes place in that one after the other a number of known Resistors is switched on instead of the earth resistance to be measured, i.e. between terminals 8 and 18, and the places indicated by the pointer on the obmineter's scale occupies, are marked with the values of these known resistances. Through this empirical calibration are any phase differences between the voltage of the auxiliary winding and the voltage of the loaded secondary winding can no longer play a role. In practice it has been found that even if it is 50% too low Mains voltage, the result of the measurement is sufficiently accurate.

Most of the time, one just wants to check whether the resistance is the one to be measured Earth connection is equal to or not less than a prescribed maximum value. If the sum of the resistances read off before is below this maximum, then needs not to continue the measurement. Otherwise the switch will be in position B. brought, whereby a Wheatstone bridge is formed as shown in FIG. 2. When closed Pressure switches 9 and 16 adjusts the potentiometer 17 in such a way that the ohmmeter 13 is de-energized, after which it is possible to read off which part of the previously measured total resistance for the earth connection to be measured. The second hip earth is allowed to do so have a large resistance value because at equilibrium the bridge does not pass any current this auxiliary earth 19 flows.

With this bridge measurement, the zero potential that may occur be a disruptive factor because this potential is only in one of the bridge branches is effective, namely in the branch between terminal 18 and the earth of the lighting network. In order to be able to eliminate this disturbing factor, is between the primary winding of the transformer 1 and the terminals 3, 4 for the phase or the neutral conductor, a polarity reversal switch 20 attached. You now carry out two bridge measurements through, only with the polarity reversal switch 20 in one position and then in the other position. from the mean value is taken from the two measurement results.

For the series resistor 7 and the potentiometer 17 are suitable values indicated in the drawing. The ohmmeter 13 has its maximum at these values Deflection at a current of 5 mA.

It goes without saying that instead of the neutral, a common Auxiliary ground can be connected to terminal 18 of the circuit, e.g. B. if not Neutral conductor is present. In this case, too, the measurement takes place as described above Way instead.

Claims (3)

PATENT CLAIMS 1. Circuit arrangement with an indicating measuring device for determining the resistance of an earth connection in AC supply networks, in which an alternating low voltage taken from the network via a transformer serves as measuring voltage and the neutral conductor of the network as auxiliary earth and in which the Secondary winding of the transformer on the one hand with a connection for the neutral conductor of the network and on the other hand via a low resistance and a The switch is to be connected to a connection for the earth connection to be measured, characterized in that an ohmmeter (13) is provided as the measuring device, this in addition to an adjustable series resistor (12) parallel to the low resistance (7) by a changeover switch (10) in one position of the same and in the closed position between the low resistance (7) and the connection (8) for the earth connection lying switch (9) between the end of the not connected to the neutral conductor Secondary winding of the transformer (1) and the connection (8) for the to be measured Ground connection can be connected in parallel to the low-resistance resistor (7) that in the other position of the switch (10) and with the switch (9) open between the changeover switch (10) and the connection (8) for the earth connection to be measured Auxiliary winding (21) of the transformer (1) is switched on, which is the voltage drop supplies compensating voltage to the secondary winding of the transformer (1), and that a second switch (11) is provided which allows the ohmmeter (13) on both sides to be separated from the low-resistance resistor (7) and thus connected of the ohmmeter (13) on the one hand with a second applied to a terminal (19) Auxiliary earth and on the other hand with the sliding contact one between that for the neutral conductor provided connection (18) of the transformer secondary winding and the connection point of the low resistance (7) with the switch (9) connected potentiometer (17) to form a bridge circuit known per se for earth resistance measurements. 2. Circuit arrangement according to claim 1, characterized in that A potentiometer (22) and the compensation voltage are connected in parallel to the auxiliary winding (21) is removed from it. 3. Circuit arrangement according to one of the preceding claims, characterized characterized in that between the primary winding of the transformer (1) and the terminals (3, 4) a polarity reversal switch (20) is arranged for phase and neutral. Considered publications: German Auslegeschriften Nr. 1 569, 1 010 161, 1 034 758.