DE3307177A1 - Line testing device - Google Patents

Abstract

For testing a power supply system for faults, involving current measurement between the phases of the system and earth, a low voltage source and a phase-earthing switch are located in the measuring circuit.

Description

Line tester

The invention relates to a line tester according to the preamble of claim 1.

The following electrical ones are mainly used in medium-voltage networks Faults that are determined by line testers: earth fault, short circuit, all-wire short circuit, double earth fault, wire or sheath resistance too high and Tear off the vein or sheath. These errors are made by the line tester preferably determined from a substation or a control room. Before the The four safety rules according to VDE 0105 must be observed, i.e. the network or the power supply unit that is to be checked for defects must be activated, Check that there is no voltage, must be earthed and short-circuited. First then the measuring circuit can be created.

There are known methods for determining the location of the fault, but one Assume that consumers are disconnected from the grid.

The invention is based on the object of a line tester create that allows a reliable measurement of the current without switching off the consumer. This object is achieved by the features of claim 1. Further developments of the Invention are set out in the subclaims.

The inventive training leads to the fact that with the help of the constant Low AC voltage the current is measured and from this the resistance of the Lßkreises is calculated, from which the type and location of the error is determined will can. The phase earthing switch or phase short-circuit and earthing switch is only briefly actuated for the measurement, i.e. only during the short measuring time the earthing and short-circuiting of the measuring circuit is canceled.

The invention is described by way of example with reference to the drawing, which shows a circuit diagram of the line tester.

The line tester is connected to an AC supply voltage of 220 V, which has a circuit breaker 1, a test button 2 and an on switch 4 is applied to the primary winding of the transformer 7. The transformer contains two secondary windings, one of which is connected to terminals B, C and D. AC test voltage of 5 V and the other with terminals K, L and M an AC test voltage of 50 V. The switchover takes place via a voltage switch 3 activated magnetic switch 8. There are two ammeters in the measuring circuit of the test AC voltage 13 and 14 for two measuring ranges, which can be switched by means of the measuring range switch 10 are. The supply voltage of the test device can also be connected to connections 9 and 11 be measured. The ammeter is followed by a six-stage switch 12 in the measuring circuit.

The current between phases R and S is measured in stage RS. The same applies to levels RT and ST.

In stage RE, the current between phase R and earth E is measured. The same applies to levels SE and TE. The test connections follow the switch RST and earth connected to the three phases of the network under test and earth will. A three-pole phase short-circuit and grounding switch 6, which is actuated by the electromagnet 5, which is via the test button 2 is connected to the AC supply voltage of 220 V.

The operation of the line tester is as follows.

The device is connected to the AC supply voltage of 220 V and on the other hand connected to the phases RST and earth of the network under test. In In this condition, the phase short-circuit and grounding switch 6 is closed, i.e. the phases are short-circuited and grounded to one another. It is then by means of of the voltage switch 3 selected one of the measuring voltages. Using the six-position switch 12 the phases to be measured are switched on.

The device is then switched on by the on-switch 4.

For the test process, the test button 2 is pressed briefly, whereby the phase short circuit and earthing switch 6 is opened and thus the current can be read on the ammeter 13 or 14, with the correct measuring range is switched on by the measuring range switch 10. After releasing the test button 2, the phase short-circuiting and earthing switch 6 is closed again, whereupon the six-stage switch 12 can be switched to the next stage and the measuring process can be carried out for the next phase pair. Similar measuring processes will be with respect to the phase pair ST and each of the three phases to earth.

Claims (6)

Claims X Line tester, in particular for energy supply networks with operating voltages above 1 kV, with current measurement between the phase or phases of the network and earth with at least one ammeter in the measuring circuit, characterized that in the measuring circuit a low alternating voltage source (7) and a phase earthing switch (6) lie. 2. Line tester with current measurement between the phases of a Three-phase network with one another and between each phase and earth according to claim 1, characterized in that a three-pole phase short circuit and earthing switch in the measuring circuit (6) lies. 3. Line tester according to claim 1 or 2, characterized in that that the distance between the contacts of the phase earthing switch (6) is chosen so that the spark gaps serve as arresters. 4. Line tester according to one of claims 1 to 3, characterized in that that the phase earthing switch (6) can be actuated by a test button (2). 5. Line tester according to one of claims 2 to 4, characterized in that that the phase short-circuit and earthing switch (6) with a six-stage switch (12) is connected. 6. Line tester according to one of claims 1 to 5, characterized in that that the low AC voltage source (7) emits two measurement voltages.