DE1271254B - Circuit for testing a single-pole earthed AC network that opens into a two-pole protective contact socket - Google Patents

Description

Circuit for testing one on a two-pole protective contact socket opening, single-pole earthed AC network The invention relates to a circuit For testing a single-pole socket that opens into a two-pole protective contact socket earthed alternating current network for the presence of the mains voltage as well as a inadmissibly high loop resistance, based on one of the switching status of a display relay evaluated comparison of the results when switching on a Load resistance to the network and with the help of a half-wave rectifier Voltage of one network half-wave with that resulting in the unloaded state Voltage of the same mains half-wave.

A circuit arrangement is known which, by comparing the loaded positive mains voltage half-wave with the unloaded positive mains voltage half-wave indicates a loop resistance that is too high. This switching arrangement determined on two Capacitors a differential voltage, and generating the differential voltage that controls the display part is done by a number of switches that are motorized be operated.

The disadvantage of this circuit arrangement is the great expense of switching means by using two capacitors and five switches according to the program must be actuated. Since switches are known to always have failures and unsafe contacts must be expected, loses this circuit arrangement of operational safety. In addition, the disconnection of the load is not permitted high loop resistance (to prevent voltage transfer) through the Program switching set to a predetermined time, which is a few seconds and endangers the measuring staff.

Another known testing device also works with a comparison circuit. The phase determined with a changeover switch is activated via a key via the load resistance and loaded via the protective conductor loop. The tension when loaded is positive Half-wave and the negative half-wave when there is no load is stored in two separate capacitors stored and the voltage difference displayed by means of a bridge circuit.

The disadvantage of this arrangement is that the lack of tension between Phase and protective conductor as well as an extremely low loop resistance (i.e. good indication) are indistinguishable. The provision for readiness must be done manually take place, in addition, asymmetries of the voltage result in measurement errors.

The invention is based on the object of the aforementioned shortcomings to fix. The task will be solved according to the invention, as stated in claims 1 and 2 is described in more detail.

The essence of the invention is to be explained in more detail with reference to FIGS. 1 and 2 will.

Dept. 1 shows the basic current flow of a circuit according to the invention. The two socket network poles A and B are connected in series in opposite directions Directional conductors 16 and 17 connected to one another. The between the common point the two directional conductors and the protective conductor connection C through half-wave rectification the applied alternating voltage loads pulsating direct voltage, e.g. B. in the negative half-wave, via the high-resistance one formed from resistors 1 and 4 Voltage divider a capacitor 3 to almost the peak value of the open circuit voltage U1 on. The directional conductor 2 causes an unwanted discharge of the capacitor 3 avoided during the following half-wave. However, the capacitor 3 discharges by a voltage AU across the parallel discharge resistor4 during this Half-wave, so that the voltage across the capacitor 3 is U1-d U. With help of a Pushbutton switch 15 can be between the common point of the directional conductor and the Protective conductor connection C resulting pulsating DC voltage via a low-resistance Resistance 13 are loaded. The resulting load voltage U2 passes over Inputs 21 and 23, the voltage Ul-A U of the capacitor via an input 21 a display relay 20, which responds as soon as U2 due to impermissibly high power and contact resistances in the potential-carrying mains pole A or B and protective conductor connection C lying branch of the line is smaller than U1-j U by a certain amount.

In A b b. 2 is one equipped with a bistable multivibrator Circuit shown in detail. the Socket power polesA> and B are connected via the directional conductors 16 and 17 connected in series in opposite directions. Via the high-resistance voltage divider formed from resistors 1 and 4 the capacitor 3 is charged to almost the peak value of the open circuit voltage U1-d U. At the same time a transistor 7 becomes conductive, the display relay 20 picks up, and its Changeover contact 18 assumes its working position. Through a coupling resistance 8 a transistor 10 is blocked. By pressing the push button switch 15 is the Contact closed, and between the potential-carrying mains pole A or B and The line branch lying to the protective conductor connection C is connected via the normally open contact of the Changeover contact 18 and the load resistorl3 loaded. Decreases as a result of high Transition resistances in the line branch tested reduce the voltage U2 below the value of U1-d U, the transistor 7 can no longer be turned on, and the display relay 20 falls off. If the pushbutton switch 15 remains pressed, it now comes over the break contact of the changeover contact 18 and voltage divider resistors 12 and 14 such a high voltage to the transistor 10 that it becomes conductive, via a Coupling resistor 9 blocks the transistor 7 and thus the display relay 20 continues remains in the fallen state. Through another contact, not shown of the display relay 20, the relay will drop out if the line branches are too high signaled to the outside.

Claims (2)

Claims: 1. Circuit for testing one on a two-pole Earthing contact socket outlet, single-pole earthed alternating current network to the Presence of the mains voltage as well as an impermissibly high loop resistance, based on a comparison evaluated by the switching status of an indicator relay which occurs when a load resistor is connected to the network and with the help a half-wave rectifier resulting voltage of a mains half-wave with the in the unloaded state resulting voltage of the same mains half-wave, thereby marked that the two for connection to the socket outlet Network poles serving Connections (A, B) of the test circuit via two half-wave rectifiers in opposite directions (16, 17) are interconnected that the interconnection point of the rectifier (16, 17) via the load resistor (13) and a pushbutton switch which is open in the idle state (15) with the connection (C) used for connection to the socket protective contact the test circuit is connected that in parallel with the series circuit from the Load resistor (13) and the push button switch (15) a series circuit of one Capacitor (3) with discharge resistor (4), a half-wave rectifier (2) and a Charging resistor (1) is that parallel to the charging resistor (1) the indicator relay (20) lies that the resistors (1, 4, 13) and the capacitor (3) are dimensioned so that when there is mains voltage in the open state of the pushbutton switch (15) the Display relay (20) assumes its working position and with the push button closed (15) only in the case of an impermissibly high loop resistance in the rest position goes, and that the display relay (20) has such a large dropout delay that it during the time between two mains voltage half-waves of the same polarity in the Working position remains. 2. Circuit according to claim 1, characterized by one of the display relay (20) upstream, this in the output circuit of one (7) of its two switching elements (7, 10) containing bistable multivibrator and one of the display relay (20) actuated changeover contact (18) by the in the non-energized state of the display relay (20) the load resistor (13) is switched off and the otherwise switched off, the Control circuit of the switching means that does not contain the display relay (20) on the output side (10) the multivibrator is made effective. Considered publications: German Patent Specifications No. 951655, 954358, 954 359, 1137802, 1154196; German exploratory documents No. 1042752, 1,044,953, 1162474; British Patent No. 888,327; Electrical Review, 163 (1958), pp. 280 to 282.