DE421395C - Device for regulating the voltage of a dynamo machine - Google Patents

Description

Device for regulating the voltage of a dynamo machine. It is one Known control device (patent specification 383150, Fig. I), in which to the in the shunt one with three brushes between one of the main poles and the auxiliary brush Dyn.amomaschi; ne lying winding a second winding is added to the on the one hand with the auxiliary brush and on the other hand alternately with one or the other connected to the other of the main poles by means of a vibration regulator with two contacts will.

Another control device (patent specification 392141, Fig.7), in which one in the shunt between the two main poles Dynamo machine lying winding a second winding is added to that of the Is subjected to the action of a vibration controller with two contacts, the Circuit of this second winding and the vibration regulator are shown in Fig.7 of the above mentioned patent 392141 can be shown or that according to Fig. 1 the patent 383150.

The present invention has the purpose of providing the mentioned second winding, referred to in each of the two cases mentioned, by two or more windings to replace, each of which is subject to the action of a vibration controller with two contacts is subject, which is ordered under the same conditions as the only one Regulator of the aforementioned cases.

This facility has the following advantages: i. The application limits of the known device are for dynamo machines with much greater capacity expanded.

2. The ills of accidental poor working of a vibration regulator are diminished.

In Fig. 1 and 2, two new circuits according to the invention are shown.

With i is the armature of the dynamo machine, with 2 the field magnet, the one in the shunt between the main brush A and the auxiliary brush C (Fig. i) or between the two main brushes, 4 and B (Fig. 2).

3 and 31 are the two auxiliary control windings, each of which is between the auxiliary brush C and the armature 4 or 41 of a two-contact vibration controller is switched. 5, 51 and 6, 61 are the fixed contacts of these regulators that run through Lines or resistors, such as i o, i o1, with the main brushes A and B of the dynamo machine are connected.

7, 71 are the electromagnets, which are on the plates of the vibrator works. The windings 8 and 81 of these electromagnets are shunted the pole terminals of the dynamo machine.

9, 91 are the counter springs attached to fixed points, which the Pull plates 4 and 41 against contacts 5 and 51.

The field magnet windings 2, 3 and 31 are connected as follows: i. If plates 4 and 41 are constantly touching contacts 5 and 51, add is the ampere-turns of these various windings, and their total number is like the one that would have to have a single field magnet winding, that of a dynamo machine should excite so that they are at normal tension and the next normal speed delivers the greatest amperage.

2. When plates 4 and 41 are constantly touching contacts 6 and 61, the ampere-turns of the windings 3 and 31 are different from that of the winding 2 is deducted, and the difference is equal to or a little less than the number of Ampere-turns that a single field magnet winding would have to have to ensure the voltage does not exceed the voltage required for idling the dynamo and normal Maximum speed is prescribed.

If z. B. A is the maximum number of ampere turns that the only field magnet winding mentioned above under i must have, so you can determine the windings 2, 3 and 31 so that they have: the first 3/5 A and the second and third i each / 5 A, i.e. together (if they match) 3I5 + 1I5 + 1 / 5A-A.

Under these circumstances and when the third brush is an equal distance from the main brushes (as is the case with a dynamo for lighting a Train that has to run in both directions) is the mode of operation as follows: When starting and until the moment when a certain speed, for which the devices are adjusted is reached, the plates q remain. and ; 11 in constant contact with the fixed contacts 5 and 51-, the windings a, 3 and 31 match and their ampere-turns add up, so that the dynamo machine receives the highest tension compatible with its speed.

From the moment when the tension that cannot be exceeded reaches the vibration regulator comes into action to first reduce the currents, which circulate in the windings 3, 31, and then, if necessary, these currents reverse according to the speed of the dynamo and its load.

At the limit (maximum speed, zero load) the Plates q. and: 11 be in constant contact with the fixed contacts 6 and 61. At that moment the resulting number of ampere-turns of the three windings becomes be approximately 3i, -_ 1i5 1 5 A - 1/5 <`1. This arrangement (in the ratio of 5: 1) the resulting number of ampere-turns, which for the normal least and the greatest speed is necessary, corresponds in size to that which im generally required for dynamo machines for lighting railway trains.

It can be seen that each of the two vibration regulators only controls its own has to perform for a field magnet, the consumption of which is 1.5 of that of a single Field magnets of an ordinary dynamo machine of the same efficiency like the one mentioned above is.

You can also see that each of the field magnets acts separately and that if one of these apparatuses is not regulated for exactly the same voltage as that others that do not cause difficulties. It takes z. B. the one controller only. start vibrating when the other is already in his inverted position is blocked.

In addition, in the event that one of the devices does not work, the disadvantage is much less severe than if the whole scheme of the AiLage was only made by depends on a single vibrator.

The various circuits that looked at each of the individually Vibration regulator concern, as well as the corresponding field magnet winding, -the in the patents 383150 and 392141 are described can of course also for apply to the present case.

The use of the new facility naturally also allows dynamo machines, in which they are used, the properties of the machines with automatically limited Amperage to an extent that depends on the type of branching off of the shunt winding a (according to Fig. 1 or Fig. a).

It is clear that the device can be used on a dynamo machine of any great capacity can be extended on condition that one has a Sufficiently large number of vibration regulators and corresponding field magnet windings used in place of just two of these apparatuses and these tapes.

Finally, for all the cases considered above, the windings the electromagnet of all vibration regulators and these electromagnets themselves into one the only ones acting on independent vibrating plates. the This simplifies the overall arrangement of the controller.

Claims (1)

PATENT CLAIM: Device for regulating the voltage of a dynamo machine variable speed and load with a different between contacts Polarity oscillating armature, which shares part of the excitation with a third Auxiliary brush of the armature is connected, characterized in that a field winding connected between both main brushes or between a main and auxiliary brush and two or more further field windings each between the auxiliary brush and each an armature of the vibration controller or controllers are connected, the mating contacts of which are connected directly or with the interposition of resistors with the main brushes of the dynamo machine are connected.