DE226875C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVl 226875 CLASS 21 d. GROUP

in FRANKFURT a. M.

Contains switching stages.

Patented in the German Empire on November 7, 1909.

The regulation of AC consumers with the aid of induction regulators is particularly advantageous in many cases when it is a question of regulating gradually, without jolts. Such a type of regulation with gradual regulation and at the same time a large regulation range is inter alia by the British patent 1874/1905 z. B. Fig. 1 is known become. In the case of the latter patent, the consumer is sent to several in succession Switching stages of a step transformer are placed, and between the individual stages there is a gradual increase in voltage with the help of the winding of an induction regulator performed.

The arrangement of the present invention is an improvement on such an arrangement.

The known arrangement has the disadvantage that the transformer has intermediate stages (Taps with switches), in which the current is not at all via the additional induction regulator is conducted, which therefore represent an undesirable increase in switching devices. In addition, the winding of the Induction regulator can be connected to a switching device (slip rings), if a turning of the induction regulator should be made possible in one and the same sense. If you wanted these additional switching devices or taps with the known arrangement omit the transformers windings, one would have to use an induction regulator winding of which a part (e.g. half) is unused. These Induction regulator winding would therefore contain more (e.g. twice as much) copper than actually is required. The arrangement according to the present invention avoids the mentioned Disadvantage.

The new arrangement is that the induction regulator winding a (Fig. 1) between the switching stages, two separate ones. Transformer windings is switched. So there are two separate transformer windings d and e , each of which has switching stages f, g and h, i . By means of the switches f, g, h, i , the induction regulator winding is now switched on when one group of control stages f, i is switched on in one sense, when the next group is switched on ^; of control stages g, h connected in series in opposite directions with the windings of the main transformer.

The invention is. particularly advantageous when operating several AC consumers: (Fig. 2). In this case, the winding a is provided with a tap, and a connection line 0 is led from the tap to the one pole of each power consumer or each power consumer group m or η . During normal operations, no noteworthy flows in connection line 0

Current, provided the entire arrangement is symmetrical. Rather, there is also a series connection of the windings d, a, e and the power consumers or the power consumer groups m, n. If a transformer d (Fig. 2) or a power consumer m is defective, you can easily switch the Refrain from associated transformer switches f, g by, if it is z. B. is an electro-magnetically influenced switch that interrupts control lines leading to the switches; the other half of the circuit, consisting of transformer winding e, induction regulator winding α and power consumer η , then remains operational. The then remaining operable part represents the known arrangement with the respective utilization of one or the other half of the induction regulator winding, while in normal operation, as explained above, both halves of the induction regulator winding α are continuously used.

The switching process itself will be explained in more detail using the exemplary embodiment, FIG. 2. According to FIG. 2, for example, two contactors are used for each motor, the additional induction regulator being dimensioned approximately for Y _{8 of} the power of the main transformer if, as assumed here, the voltage is to be changed from 1 to 2.

First the contactor switches, f, i are closed; the induction regulator delivers the maximum counter voltage to the transformer voltages b and c, so the voltage is the lowest. Then the induction regulator is turned until it delivers maximum additional voltage to b and c. Then the contactor switches g, h are closed and thus the parts k and I are switched on. With respect to this, the induction regulator now has maximum counter voltage; at the same time, the short-circuit current of the transformer parts k and I is suppressed, since the voltage of the secondary coil of the induction regulator is equal to the voltage of one of the transformer winding parts k and /. One can now open f, i without causing a spark; the voltage voltage is now made up of the voltages d, e and the maximum counter voltage of the induction regulator. Then the induction regulator is gradually turned through a further electrical 180 ° until it again supplies maximum additional voltage. This means that the highest voltage has been reached in this example.

From FIG. 2, the omission of the center conductor ο and the one power consumer results in the application to a single power consumer (FIG. 1). 6c

. Of course, the idea of the invention is not limited to the use of two contactors per motor, but the number of contactors is arbitrary and is in inverse proportion to the size of the induction controller, such that, for example, when using three contactors on one motor each, the output of the controller is only Y ₁₂ the power of the main transformer to allow a voltage change from 1 to 2 or vice versa.

Claims (3)

Patent Claims: 1. A method for regulating AC consumers by means of induction regulators in conjunction with transformers with multi-part winding, each part (d, e) of which contains switching stages (f, g or h, i) , characterized in that the induction regulator winding when the one group of Control stages (f, i) in one sense, when the next group of control stages (g, h) is switched on, the effective winding parts of the main transformer are connected in series in the opposite sense previous control levels can be switched on at the same time. 2. Device for regulating We.chselstrom consumers according to claim 1, characterized by the use of a subdivided (tapped) induction regulator winding, the two partial voltages of which can be made usable for one or a group of the alternating current consumers to be regulated, in such a way that the arrangement of connecting lines (0) between the tapping point and one pole of each power consumer, each power consumer or group is operable on its own. , ·. ■ 3. embodiment of the Induktionslogler according to claim 1 and 2, characterized in that the maximum voltage; the secondary coil (a) of the regulator is equal to or approximately equal to half the total voltage of two of the separated parts (switching coils k, I) of the transformer winding. ■: '. For this purpose i sheet of drawings.