DE685129C - Blind consumption meter or meter with a similar internal adjustment of the drive fields - Google Patents

Description

Dummy consumption meters or meters with similar internal balancing der Triebfeider While with active consumption meters for alternating current the meter drive system such an internal balance has that in the case of phase equality of current and voltage the voltage drive field is shifted from the current drive field by go0, a blind consumption meter must be used are adjusted in such a way that if there is a phase equality between current and voltage the current and voltage drive flux are also in phase.

Such a balancing of the drive system presents various difficulties.

It is known to use blind consumption meters on the main current magnet to arrange two magnetically opposing windings, the parallel current branches form. In this counter, the main current drive flow is determined by the difference between the Amperewin.dungen of both windings, which in the - phase lags considerably behind the main current. The details of such counters are, however, relatively strongly dependent on the frequency and depending on the temperature.

The invention has the task of changing frequency and temperature to eliminate the measurement errors caused.

According to the invention, the circuit contains the counter-winding of the main current magnet a predominantly ohmic resistance that is practically independent of temperature, for example by making the counter-winding itself from suitable resistance wire or if it is made from a different material, a correspondingly higher one, from the Temperature independent resistor is connected upstream. In this version is the short-circuit current, which is due to the magnetic counter-circuit through the two Windings closes, practically independent of frequency and temperature, because also the impedance of the entire short circuit is essentially due to the temperature-independent Ohmic resistance is determined.

However, the current is in the reverse winding because of the ohmic Resistance is smaller than in the known embodiment, and thus also the phase angle by which the current drive flow lags the main current is smaller.

In order to still achieve the desired internal balance, the voltage coil, for example, an ohmic resistance that is independent of the temperature upstream. This changes the phase angle between voltage and voltage drive accordingly reduced.

If the frequency increases, it decreases because of the high level of self-induction in the circuit of the Voltage drive magnet the phase angle between Tension and tension instinct flow. But this is due to a corresponding increase the phase shift angle between current and current drive flow balanced. These Increase in the phase angle arises from the fact that the current is due to self-induction the main winding of the circuit becomes smaller in relation to the current of the predominant counter-winding forming an ohmic resistance, and since the phase lag of the Current drive flow against the current mainly through the turns of the opposite winding is caused, there is a strong phase shift.

The series resistance of the voltage coil can easily be adjusted in this way that the phase changes caused by frequency deviations for the voltage and current drive flow are equal. The information from the counter is then based on the frequency independent. By using a material with a suitable temperature coefficient The counter can easily be adjusted in this way for the series resistance of the voltage coil that it has practically no temperature errors at all.

The invention will be explained in more detail with reference to the drawing: I in Fig. I is the main current magnet with the main winding 2 and the one made of resistance wire existing reverse winding 3.

4 is the voltage drive magnet with the excitation winding 5 and the ohmic one Series resistor 6. 7 is the counter disk.

Fig. 2 shows the vector diagram. U is the voltage, Eu the voltage drive flow, J the current, J3 that through the counter winding 3, J2 that through the main winding 2 current flowing, taking into account that through the two windings closing short-circuit current. 13 is the current that will be delivered by J2 must to get the ampere-turns J2-J3 to be energized for the flow EI. w J is the phase angle between the current 1 and the drive flux w, which is equal to that Winkelwu, the phase angle between the voltage U and the voltage drive flux #U.

Claims (4)

PATENT CLAIMS: 1. Blind consumption meters or meters with a similar one internal alignment of the drive fields with two magnetically opposing each other Main current windings, characterized in that the circuit of the opposite winding has a predominantly ohmic resistance and is predominantly made of one material with there is a relatively small temperature coefficient. 2. Counter according to claim I, characterized in that the counter winding consists of resistance wire, the conductivity of which is practically dependent on the temperature is independent. 3. Counter according to claim I, characterized in that the counter-winding made of a highly conductive material, such as copper, and the opposite winding a correspondingly higher ohmic resistance that is practically independent of the temperature is. 4. Counter according to claim 1, characterized by a practically of the temperature independent series resistor for the voltage coil of such Size that the change in the phase angle caused by the change in frequency between voltage and voltage drive flow approximately equal to the change in phase angle is between current and current drive flow.