DE268870C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

TENTSCHRIFT

- JVe 268870 CLASS 21 d. GROUP

an additional machine.

Patented in the German Empire on March 7, 1912.

In order to counter-compound Leonard generators, one already has the use of one proposed small additional machine whose excitation winding through the whole or through a certain part of the electricity generated by the generator has flowed through it, and their Armature has a weakening effect on the excitation of the main engine.

However, this solution is

Hg, as ■ -

i. the magnetic circuit of the additional machine must always be removed from saturation, otherwise the countercompounding would be ineffective in the event of overload, and as

2. At medium load, this additional machine constantly changes the field of the generator weakens what is disadvantageous from the start, especially with regard to the use of material.

According to the invention, these disadvantages are considerably alleviated if the The auxiliary machine is provided with two excitation windings, one of which is externally excited and the field of the main machine tends to enlarge, while the other of the whole or is traversed by a certain part of the main stream and a demagnetizing Has an effect. For a certain change Δ Φ in the field of the main machine from

Idle to overload it is always possible that the auxiliary machine, if one the ampere turns of your two excitation windings correctly calculated the voltage 45

the terminals of the main engine reinforced as long as the load is a certain value does not exceed. The disadvantage mentioned under 2 above is apparently avoided in this way; but also the one mentioned under 1. is very reduced because the working point of the additional machine now to the right, now to the left of the ordinate axis of the idle characteristic so that this point can be removed from saturation zones much more easily for a some change Δ Φ in the field of the main machine.

The use of a separate excitation could require an additional switch in the systems, in which one changes the direction of the current generated by the main engine by reversing the excitation.

According to the invention, this disadvantage disappears if one z. B. the winding constant excitation replaced by a shunt winding connected to the terminals of the Main machine is turned on.

In this way the current direction in this winding changes by itself when the polarity of the main machine is reversed without having to do anything special Changeover switch required.

The drawing illustrates the invention using several exemplary embodiments.

In "the arrangement according to FIG. 1, the excitation winding E of the main dynamo D is connected in series with the armature of the additional dynamo A and the assembly thus formed with any-

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an excitation source S connected. The dynamo A is provided with two opposing excitation windings, one of which, B ¹ , is connected to the terminals of the main engine, while the other, B ² , is traversed by all or a certain part of the current generated by the main engine D. will.

With such a circuit, the

ίο Effect of the winding B ¹ in the event of an overload, so that the counter compounding is reinforced, which is very advantageous. The circuit diagram of Fig. Ι can also be modified without departing from the scope of the invention. So z. B. the armature A feed a special field winding instead of being connected in series with the field winding. Among other things, generators with adjustable voltage

ao voltage, the current flowing through the winding B ¹ can be regulated by means of a control device either automatically or by hand, so that it follows a certain law when the voltage between the terminals of the main machine changes.

You can also provide the additional machine with two separate magnet systems, one of which carries the winding B ¹ , the other the winding B ² , so that ζ. Β. the magnetic circuit of the first system becomes saturated and its field becomes less sensitive to changes in savings, etc.

As mentioned, you can get on by using a shunt excitation winding the additional machine avoid an additional changeover switch instead of a winding with separate excitation, even considering the direction of the electricity generated by the main engine must reverse by reversing the excitement.

The same result (FIG. 2) can be obtained if this winding B ^{1 is connected} to the terminals of the excitation source 5 through the changeover switch H. If you want to avoid the effect of the rule resistor G on B ¹ , this winding B ¹ must be connected in parallel to the series formed by the main excitation winding E and the control resistor G. This solution is illustrated by FIG. This gives all the advantages of energizing winding B ¹ with a constant source, even though only a single changeover switch is used. If, on the other hand, you want the variable resistor G to act on the excitation current of B ¹ , you can either connect this winding to the terminals of the excitation winding E or connect it in series with it, as FIG. 3 shows. According to FIGS. 2 and 3, the auxiliary machine A feeds a special field winding jF of the main machine D, but it can also be connected in series with the main field winding E , as FIG. 1 shows.

Finally, the additional machine A can also be provided with additional windings that, for. B. are intended to accelerate the production of the main stream.

Claims (2)

Patent Claims: 1. Method of counter-compounding a Leonard generator using an additional machine, of the two opposing excitation windings one of the whole or a certain part of the main current flows through and the other is externally excited, characterized in that in the case of medium loads, the additional machine due to the predominance of its external excitation the excitation of the main engine with increasing load to a decreasing extent or vice versa intensified and only in the event of severe overload due to the predominance of their main current excitation, the excitation of the Main machine weakens for the purpose of increasing material utilization. 2. The method according to claim 1, characterized in that the external excitation of the Additional machine shunted to the main machine or to its excitation power source is switched so that it automatically reverses when the polarity of the main machine to change the direction of rotation of the motor. 1 sheet of drawings.