DE2755983B2 - Device for testing the earth resistance in networks equipped with residual current circuit breakers - Google Patents

Description

The invention enters into a portable device for testing earth resistance in earth leakage circuit breakers equipped networks can be connected to the network by means of a t> o through a test button Voltage divider, with the division point of which the protective conductor is connected.

There are measuring devices known with which the earth resistance, the contact voltage and / or others Quantities can be measured in protective earthed networks. However, such measuring devices are not suitable for stationary installation, for example in house installations or for use on construction sites, since the Operation of this device is reserved for qualified personnel

From DE-AS 11 36 003 a proposal is known to the outer conductor (phase) and the middle conductor (neutral conductor) one with a residual current circuit breaker equipped network, a series connection of a test switch with wiping contact and a choke with a tap to which the protective conductor is connected, or instead of the choke a voltage divider to connect. The one between the tap of the choke or the dividing point of the voltage divider and the partial resistance lying in the middle is chosen in such a way that it is precisely that for man permissible contact voltage of 65 V drops. The other partial resistance must be dimensioned so that over between him and the permissible earthing resistance of the protective conductor, a current flows that is equal to the tripping current of the residual current circuit breaker or slightly larger. The residual current circuit breaker should trip if the test switch during one of the tripping times of the residual current circuit breaker Is operated for a period of time and the earthing resistance is sufficiently small Triggering the circuit breaker leading current can, however, significantly from the nominal residual current of the Circuit breaker differ, so that the information obtained with the circuit described is not sufficient for sure is

The invention is based on the object of a simple to develop an easy-to-use, portable test device that is independent of the Residual current circuit breaker indicates whether the earthing resistance is in the permissible range or the exceeds permissible value.

According to the invention, this object is achieved in that to avoid a response of the Residual current circuit breaker of the rating of the partial resistances of the voltage divider is lower than that permissible contact voltage and a lower than the permissible earthing resistance are used and that to the partial resistance connecting the dividing point of the voltage divider to the center conductor a rectifier arrangement to which one input of at least one (comparator) is connected other input a reference voltage generated in a power supply unit by pressing the test button can be fed and at the output of which a display device is connected.

With this tester, the earthing resistance can be measured safely and easily, especially on construction sites Can also be checked by a non-specialist, as the contact voltage is a low, selected a value that is far below the permissible voltage and the device z. B. via a supply line with Schuko plug can be connected to a socket. Due to the use of a limit value for the earthing resistance that is less than the permissible earthing resistance, for example half as large, need the accuracy of the partial resistances of the voltage divider and the stability of the mains voltage no high demands are made. To protect the device against damage as a result of incorrect polarity of the connection line, there is a glow lamp between the outer conductor and the protective conductor and a relay connected between the protective conductor and the center conductor, the breaker of which if the polarity is incorrect Interrupt the power supply and its normally open contact the output of the power supply unit that supplies the reference voltage

shorts

The drawing shows a basic circuit diagram and an exemplary embodiment of a test device for more detailed information Explanation of the invention shown.

The in F i g. The test circuit 1 shown in Fig. 1 contains a voltage divider consisting of the partial resistances R _s and R _p , which can be connected on the one hand to the center conductor JV and on the other hand via a test button T to the outer conductor L of a protective earthed network The protective conductor PE is at the division point 2 ι ο of the voltage divider connected. This test circuit is based on the measuring principle. As a measurement voltage, the resistance at the portion R _s falling, dependent on the respective resistance of the protective conductor with respect to ground (earth resistance Re) contact voltage used for the contact voltage that is selected to be smaller than the permissible contact voltage, the relation

/ + RJR ₅ + RJR ₁ :

(D

20th

I / means the mains voltage.

This results in the calculation of the partial resistances R _s and R _p

R / + "I.

(2)

Using this formula, the partial resistances R ₅ so and Rp can be determined by using the selected value of the contact voltage for Ub and a limit value that is smaller than the permissible earthing resistance for the earthing resistance Re.

A circuit arrangement 4 for galvanic isolation and rectification of the measuring voltage is connected to the partial resistance R _{1 of the test circuit.} The output DC voltage of the circuit arrangement ¹ is fed to one input of a comparator 5, at the other input of which there is a reference voltage generated in a power supply unit 3 and corresponding to the level of the selected contact voltage.The output signal of the comparator controls a display device 7, for example via a memory 6 which contains e.g. a green and a red light-emitting diode The <r, green light-emitting diode shows, for example, that the earthing resistance is less than the selected limit value, while a lighting up of the red light-emitting diode means that the earthing resistance is greater than the selected limit value is this ad is independent w from leakage circuit breaker, as this is due to the smaller selected than the permissible values limits the contact voltage and earth resistance also not triggered when the grounding resistance within the permissible range to π achieve a unique display is recommended to set the limit values low, because then fluctuations in the fault current, which can amount to up to 50% of the nominal fault current of the residual current circuit breaker, and tolerance deviations in the measuring t, o resistances cannot have any effect. The contact voltage occurring during a test process

Ub = U- R ₁ Z (Rp + Rs)

is limited to harmless values. The maximum b5 value which it assumes with an infinitely high earth resistance is in each case smaller than that after the Regulations permissible value (Fig. 3).

F i g. 2 shows the circuit of a portable test device with electronic components in detail. To check the earthing resistance in connection with residual current switches for different nominal residual currents, several, for example four, voltage dividers R _p 1 to Rp ₄ , Rs 1 to Rs * and a changeover switch 8, 9 each to select the required voltage divider as well as a glow lamp 10 and a relay 11 is provided. Furthermore, the power supply line can be routed through an adapter with a separate connection option for the protective conductor. The power supply unit 3, which supplies the direct current supply for the electronic components and the reference voltage, is connected to the outer conductor L and the center conductor N. If the test device is connected to the mains with the wrong polarity, the power supply is interrupted by the switches 11.1 and 11.2 of the relay 11 and the output of the power supply unit is short-circuited by the switch IU of the relay 11. A transformer 12 is connected in parallel to the partial resistors R _{s of} the voltage divider, the output alternating voltage of which is proportional to the measuring voltage is fed to a rectifier 13. The other output of the power supply unit can be connected to the other input via the test button 7.

Only when the test button is actuated is the selected voltage divider connected to the network via its switches t \ and ti and, at the same time, the glow lamp 10 is switched off by a further switch h. The output of the comparator 14 controls, for example, a green light-emitting diode 17 via a transistor 16, and the output of the comparator 15 controls a red light-emitting diode 19 via a transistor 18. The display "green" (earth resistance is within the permissible range) or the display "red" (earth resistance exceeds the permissible value) is displayed as long as the test button is pressed.

As an example of the dimensioning of the partial resistances R ₅ and Rp of a voltage divider, assume that a network is equipped with a residual current circuit breaker with a nominal residual current of 0.5 A. The contact voltage permitted for humans is currently set at 65 V, for animals at 24 V. This means that the permissible value of the earthing resistance is 130 ohms or 48 ohms. If a limit value of 70 ohms is selected for the earthing resistance - approximately half of the permissible value - and a limit value of 4.5 V for the contact voltage, then, according to formula 2, the resistances R ₁ and R _P and, depending on this, for the maximum contact voltage t / fl _m "and the maximum fault current F _max, for example, the following values

70 100 150 270 390 «N 1676 1972 2285 2662 2842 U _{:! Nax} (V) 8.8 10.6 13.5 20.3 26.5 ¹ F max (" ¹ A) 131 112 96 83 77 Curve in Fig. 3 1 II HI IV V

In this example, the limit value for the contact voltage results from the selection of the reference voltage in the amount of 5.8 V taking into account one

5 6

The conditional correction factor is expediently set for the test device by the transformer 12 and the rectifier 13. Combination is chosen which has the curve with the largest In F i g. 3 are for the five specified combination slope results, since then error influences by tensioning R _s and R _p, the contact voltages Ub in voltage fluctuations and component tolerances, the low-dependency on the earthing resistance Re is plotted. 5th effect on the measurement result.

1 sheet of drawings

Claims (6)

Patent claims: 1. Portable device for testing the earthing resistance in networks equipped with residual current circuit breakers by means of a voltage divider that can be connected to the network by a test button, with the division point of which the protective conductor is connected, characterized in that the measurement of the partial resistances (R * R ₉ ) of the voltage divider are based on a lower than the permissible contact voltage and a lower than the permissible earth resistance and that at the partial resistance (R ₅ ) connecting the division point (2) of the voltage divider with the middle conductor (N ) via a rectifier arrangement (4) the an input of at least one (comparator (5) is connected, the other input of which is supplied with a reference voltage formed in a power supply unit (3) by actuation of the test button (T?) and at the output of which a display device (7) is connected 2. Apparatus according to claim 1, characterized in that the display device (7) has two light-emitting diodes (17,19) of different colors. 3. Apparatus according to claim 2, characterized in that a plurality of residual current circuit breakers of different nominal residual currents jo voltage dividers (R _s \ to R _sA , R _p 1 to R _p4 ) are arranged in parallel and can be selected by means of a changeover switch (8, 9). 4. Apparatus according to claim 3, characterized in that between the outer conductor (L) and the i ^r > protective conductor (PE) a glow lamp (10) and between the protective conductor and the middle conductor (N) a relay (U) is connected whose breaker (11.1, 11.2) if the polarity is incorrect, interrupt the power supply and its normally open contact (IU) short-circuits the output of the power supply unit (3) that supplies the reference voltage. 5. Apparatus according to claim 4, characterized in that the test button (T ) is mechanically coupled to an opener (t 2) arranged in the circuit of the glow lamp (10) and to a normally open contact (tZ) in which the partial resistances (R _s ) is arranged with the conductor connecting the middle conductor (N). 6. Apparatus according to claim 5, characterized in that the device connecting to the network ^r> o supply cable is fitted with an adapter to which the protective conductor (PE) can be connected separately.