DE613690C - Three-phase current meter with two diametrically arranged drive systems acting on a common disk - Google Patents

Description

Three-phase energy meter with two diametrically arranged drive systems acting on a common disk The subject of patent 596 267 is a method for eliminating the rotary field dependency of three-phase meters with two diametrically arranged drive systems acting on a common disk, in which the winding of the voltage magnet of each system apart from the action of the associated measuring voltage is still exposed to the action of another voltage of the three-phase network, in such a way that the ampere-turns producing the voltage drive flows are shifted in phase in both systems in opposite directions to the measuring voltages.

For this purpose you can according to an advantageous embodiment this Process the voltage windings of the two systems with one end at each one of the phases in which the current coils lie, and with their other end over connect a common choke coil to the third phase of the three-phase network. The choke coil has the same time constant as the windings of the voltage magnets. The use of a choke coil, however, requires a modification of the counter structure. At the very least, a larger meter housing than normal is required if the choke coil with consideration of the shortest possible switching connections within the meter housing should be accommodated.

The invention overcomes this deficiency. According to the invention, the choke coil divided into two parts and wound onto the tension bars of the measuring systems. This ensures that the choke coil can be conveniently accommodated within the meter without deviating from the usual arrangement of the individual parts of the meter must become.

The three-phase electricity meter according to the invention should be based on the drawing are explained in more detail. In all figures there are corresponding parts provided with the same reference numerals.

In Fig. I the circuit diagram of a counter is shown in which the Choke coil halves are connected in series.

Fig. Z is the associated vector diagram of the voltage winding.

In the phases R, S; T of the three-phase network, the current coils 1, z of the two drive systems A and B are switched on. The voltage magnet of system A carries the voltage winding 3 and one half qQ, the voltage magnet of system B carries the other voltage winding 5 and the second half qb of the choke coil. The voltage windings 3 and 5 are connected with their one end to the phases R and T, with their other end jointly connected to the phase S via the choke coil halves 4 "and 4.b connected in series. As can be seen from the circuit diagram, the Voltage magnet of system A seated winding can be designed as a tapping coil.

The choke coil halves can also be connected in parallel instead of in series be. The circuit diagram of such a circuit is in Fig. 3 and the associated one Vector diagram shown in Fig. 4.

As can be seen from Fig. 3, one end is each voltage coil with one end of the throttle half sitting on the same iron directly tied together. In this case the winding on each tension iron can be used as a tapping coil are executed. However, the tap winding must then be used in one of the voltage magnets inside and outside of the winding in the case of the other voltage magnet Avoid potential differences within the windings.

Claims (3)

PATL.N TANSPIZÜCHE: i. Three-phase energy meter with two diametrically arranged, drive systems acting on a common disk, in which according to patent 596 267 the windings of the voltage magnets to eliminate the rotating field dependency one end to one of the phases in which the current coils are located, and at its other end via a common choke coil to the third phase of the Three-phase network are connected, characterized in that the choke coil divided into two parts and wound onto the tension magnets of the drive systems is. 2. Three-phase current meter according to claim z, characterized in that the inductor coil halves are connected in series, one half with the one on the same voltage magnet seated voltage coil is designed as a tap winding. 3. Three-phase energy meter after Claim i, characterized in that the choke coil halves are connected in parallel and the windings on the voltage magnets are designed as tapping coils are. q .. three-phase current meter according to claim 3, characterized in that in the one Voltage magnets the tap winding inside and. With the other voltage magnet is outside the winding.