DE756683C - Test device for direct current meter - Google Patents

Description

Allgemeine Elektricitäts-Gesellschaft, Berlin-Grunewald At test facilities The test currents or test voltages have been common up to now for direct current meters has been obtained by means of accumulator batteries. About the different test currents resistance units were used, or they were not used Also the cells of the battery are switched so that they are either in series or in groups used in parallel. According to the invention, on the other hand, the Measuring circuit (current or voltage circuits) from an alternating current network via rectifier are fed, the connection of the rectifier cells to the AC network takes place via a transformer control device, so that the cell voltage can be changed by AC control between zero and the full value can, and the rectifier cells either individually or in series or in parallel or connected in series and in parallel to the measuring circuit. You can, especially as far as this takes into account the resilience for the setting the various current or voltage values required, optionally switchable be. In this case, the meter can be checked through the windings including of the measuring lines caused resistance through into the WIeßlinien switched on fixed series resistors on the various, on the Adjust the output terminals of the rectifier circuit to the voltages that are established.

The test facility for direct current meters can then avoid special accumulator batteries simply via the usually available AC connection operate. The regulation of the cell voltage on the AC side results in this still the special advantage that the setting of the test current and the test voltage is possible in a particularly simple manner and the losses in the otherwise for the setting The necessary resistance aggregates are no longer necessary.

The drawing shows an embodiment of the invention, The individual parts of the test station are represented by symbols. It is A is a three-phase power supply network, from which a regulating transformer can be regulated through zero B a step transformer C is fed. There are two batteries on the high voltage side D, E of rectifiers each consisting of four cells and arranged in a three-phase circuit connected. The four cells of battery D are the same as those of battery E. connected in parallel with each other. The positive pole is connected to the terminal F for the meters to be tested are connected up to H5, the negative pole with the connection terminal G. In the course of the conductor leading to terminal G there is a switch that controls the terminal G connects D or E to the negative pole of the rectifier battery.

Up to a certain test current strength, for example 5 amps the meters to be tested either direlit or via fixed series resistors It is connected to the battery D. There is a shunt resistance in the current path L for an ammeter M, which thus shows the current strengths present in the circle. Each of the cells of the rectifier battery D-E gives a voltage of 6 V and is Loadable up to 3 amps.

Above the current strength of 5 amps, the from the positive pole closes Battery D outgoing circuit via the negative pole of battery E, its positive pole is led to the negative pole of battery D.

The voltage path of the test device is approximately via a single-phase voltage regulating transformer N and a full-wave rectifier connected to a step transformer in single-phase circuit O-P fed.

The sieve chain serves to dampen or suppress harmonic voltage Q. By means of a switch R either the rectifier 0 alone is connected to the voltage path with the voltmeter S switched, or the rectifiers 0, P are connected in series switched.

According to Fig. 2, a battery of eight rectifiers I to VIII accepted. A rotary switch with four switch positions can be used the connection terminals for the meter to be tested the currents 3, 5, I0, 20 Amp Take off 48, 24, 12 and 6 V.

For this purpose, the arrangement is made so that the rectifier cells either all in parallel or in groups in series or in parallel.

The first switch position corresponds to the series connection of all rectifier cells I to VIII with one prevailing at the output terminals With a voltage of 48 V and a load capacity of up to 3 amps, contacts I are closed to g and open contacts 10 to 23.

With an output voltage of 24 V and a load capacity of up to 6 Amp., second position, are the peer cells. I to 4 and also the rectifier cells 5 to 8 in series and both groups connected in parallel. It is then contacts I to, 20, I4, 6 to 9 are closed. Contact 5 is open.

In the third position, with an output voltage of GV and contacts I, 2, I8, 12, 4, 20 are closed with a load capacity of up to I2 Amp. 14, 6, 22, l6, 8, 9, and contacts I0> II, I9, 13, 5, 21, I5, 23, 17.

In the fourth position, all rectifier cells are parallel switched so that a voltage of 6 V and a current of up to 24 Amp. Contacts I, I0, II, I8, I2, I9, 13, 20, 14, 21, I5, 22, 16, 23, I7, 9. Contacts 2 to 8 are open.

At the same time, contacts 24 to 27 are closed, which put the series resistor ever needed in the measuring lines. The order can also be made in such a way that further steps are taken within the four levels, so that, if the individual contact positions are maintained, further contact positions result in each of which the required series resistance and, if necessary, shunt resistance is switched on.

In the event that such a test device is used for testing in the uniform load method is applied, the equal load test counter 31 for each flowing in the measuring line Amperage always the same current supplied. So it is through contacts 28 to 30 to switch a shunt resistor 32 for the load counter 31 so that under Taking into account the various at the Output terminals prevailing Voltages always results in such a voltage drop, on the basis of which the measuring circuit of the equal load test meter is flowed through with one and the same amperage. Possibly the series resistor can also be used as a shunt resistor for the constant load meter be tapped.

If there are other currents within the individual current levels should be adjustable, this can also be done by connecting them to the output terminals Shunt resistances for the coils of the meter to be tested take place. The shunt resistors can be permanently installed and optionally through additional contacts on the rotary switch be switched on.

Claims (5)

PATENT CLAIMS: I. Test device for direct current meters, thereby characterized in that the measuring circuits (current or voltage circuits) from an alternating current network are fed via rectifier cells, the cell voltage being transformed on the AC side is regulated, and the cells optionally in series or can be connected in parallel or in series and in parallel or individually to the measuring circuit. 2. Testing device according to claim I, characterized in that the Electric circuits are fed via multi-phase rectifiers, the voltage circuits via single-phase rectifiers will. 3. Test device according to claims I and 2, characterized in that that by means of the rectifier cells to or. switching switch at the same time according to the current to be generated to the current at the connection points Voltages matched resistors are switched into the measuring circuit. 4. Test device according to claims I to 3, characterized in that that a built in the manner of a package switch rotary switch with one to be set Current stages corresponding to the number of switch positions at the same time a shunt resistance for a constant load test meter to be connected to the measuring circuit switches in stages. 5. Test device according to claims I to 4, characterized gekennz.eicbnet, that within the individual current stages the test items via permanently installed, if necessary Shunt resistors to be switched on by the step switch connected to the measuring circuit are.