DE899973C - Electrical compensation device for AC mains regulators working in parallel - Google Patents

Description

Electrical compensation device for AC mains regulators working in parallel Voltage regulators are used to keep the voltage of smaller AC networks constant (AC mains regulator) used, which act in such a way that before the consumer automatically variable control systems in their resistance, z. B. Resistances Coal columns, are switched. The change in the resistances of the controlled systems is caused by a sensing system connected to the regulated voltage, which the resistance required to achieve the required control voltage value adjusts. Operationally there is often a need to have two or more controllers to work in parallel.

But this is not possible without special means. Because it would be that Load distribution on both controllers due to the unavoidable voltage deviation (tolerance) between the two different, which leads to overloading of one or the other apparatus can lead.

For direct current systems there are equalizing circuits through which it it becomes possible to run several controllers in parallel without the above mentioned Malfunctions occur. In AC systems it was previously common to have network regulators in parallel; by mechanically coupling them together. From this it follows a number of operational disadvantages: i. Because of the inevitable deviation the resistance of the controlled systems of the controllers connected in parallel from one another are these unevenly charged; a. if also the forces between the systems are small, the mechanical coupling is an additional one Source of friction and makes the regulation less precise; 3. through the mechanical coupling you are forced to mount the controllers directly next to each other. But they are common There are spatial conditions where a separate arrangement is desired, especially because because these will mostly be larger controller models.

The described invention overcomes these disadvantages by means of a compensation circuit by electrical means. This is when the regulator initially has a through its tolerance have a conditional deviation of their control values, the alternating current resistance of the sensing circuit changes and thus causes both regulators to be at the same voltage value set and assume the same load. This principle of compensation can be used both Apply to both DC and AC powered sensing systems. In the enclosed The illustration shows the circuit for AC mains regulator as an application example DC-fed sensing circuit shown. The mode of action is closer to this explained.

In the figure, Ai, A2 mean controlled systems, e.g. B. Resistors from coal columns, the regulator, F1, F2 sensing systems of the regulator, Di, D'2 choke coils in the controller sensing circuit, B1, Cl, B2, C2 current windings on the choke coils.

A throttle Di. or D'2, on the core of which there are two further windings Bi, Cl and B2, C2 are located. The latter are traversed by the currents of the controlled systems, namely one of the one through the controlled system of one controller and the other of the partial flow going through the controlled system of the other. These partial flows flow through the two windings in magnetically opposite directions, i.e. H. if the size is the same, the flows generated by them increase at every moment on. "But if the two streams differ by a certain amount, it arises an additional flow in the iron, corresponding to the flow difference, which the generated by the actual inductor winding in which a regulator strengthens, in weakens others. This increases in one and decreases in one the other choke is the inductive resistance, which in turn means that at Correctly selected connection of the current coils the control voltage of the working too deep heightened, the too high-working humiliated. This increase continues until both have adjusted to the same control value. The remaining current difference Both controlled systems can be arbitrarily dimensioned by dimensioning the number of turns can be kept small.

The throttle cores are expediently provided with an air gap in order to easily affect the size of the influence by choosing its length, and moreover To be able to compensate for deviations in the properties of the core iron used.

For sensing systems that are fed directly with alternating current, leave the compensating windings are applied directly to the core of the sensing coil, so that the sensing systems take over the task of the throttles.

Claims (5)

PATENT CLAIMS: i. Circuit for the purpose of equal load distribution on AC mains regulators working in parallel, characterized in that choke coils (Dl or D2) are located in the sensing circuit, the alternating current resistance of which is caused by an arbitrarily small selectable current difference in the controlled systems (Ai, A2, e.g. coal columns) is changed so that two additional current windings (BI., Cl and B 2, C2), one of which is from the flow of the controlled systems of the one assigned to it, the other in the magnetically reversed sense of the controlled system current of the other controller, an additional positive or. negative Induce magnetic flux and thereby influence the sensing systems so that the currents become the same in both controlled systems. z. Application of the circuit according to claim i on AC mains regulators working in parallel, characterized in that at DC-fed sensing system, the throttle in the AC part of the sensing system lies. 3. Circuit according to claims i and a, characterized in that the The iron core of the chokes is provided with an adjustable air gap. q .. use the circuit according to claim i to AC mains regulators operating in parallel, their Sensing system is operated with alternating current. 5. Circuit according to claim ¢, characterized characterized in that the current coils are directly connected to the controller sensing coils (Fi resp. F2) are attached and the throttles come in forifall.