DE667314C - Arrangement for stabilizing the parallel operation of direct current compound generators - Google Patents

Description

GERMAN EMPIRE

ISSUED ON
NOVEMBER 9, 1938

REICH PATENT OFFICE

PATENT LETTERING

M 667314 CLASS 2Id ¹ GROUP 72 oi

Dr. Karl Haas in Nuremberg

has been named as the inventor.

Patented in the German Empire on June 23, 1937

When operating DC compounding machines in parallel with field amplifying series winding especially when idling there is a risk that, as a result of unequal speeds, unequal voltages or unequal internal Resistances of one generator as a motor is fed by the other and as a result of the action the series winding is accelerated more and more in its speed. Now set the prime mover of this generator a relatively high resistance to acceleration because, for example a controller seeks to set the prime mover to a constant speed, then the generator acting as a motor consumes more and more current and thus loads the another generator. The cooperation of the two machines is therefore idle and for Partly not sufficiently stable even with small loads. According to a well-known suggestion an attempt was made to stabilize the operation by removing the inter-series ■ Closing excitation winding and the anchor points of the generators connected by a compensating line. This measure leads in particular Especially not to the goal if the two generators are spatially far apart, because then the resistance for the current path of the equalizing current is too large and the Compensation made difficult. In addition, the compensation line that have large cross-section must, relatively expensive and requires special switching devices.

A compensation line with a relatively low resistance forces both machines always the same armature voltage. But it is not the resistance of the compensation line sufficiently small, then one machine can accept a higher voltage than the other Machine; one machine will then act as a generator, the other as a motor. In the Acting as a generator machine, the series winding results in a main field reinforcing Arousal, so it increases even further

their armature voltage. In the case of the machine acting as a motor, on the other hand, the series winding weakens the main field excitation and causes the voltage of this machine to drop even further and the machine to lower one draws a higher current.

Stable operation is impossible under these conditions, even if one is after Another "" well-known proposal is the Ma-ο machines are not compounded directly, but for each of the machines working in parallel Instead of the series winding, an additional winding that reinforces the main field is used, which is fed by an excitation machine excited by the current from the main machine.

The invention eliminates the deficiencies outlined. She also makes of direct current generators Use each one that

so main field reinforcing, in their excitement dated Machine current-dependent additional winding, in which a compensating line the between the armature of the main engine and the exciter through which the main current flows

a5 winding of the exciter lying points connects.

According to the invention, the additional windings fed by the excitation machines are in the circuit Means are arranged that always force the same current direction. This will achieved that regardless of the current direction of the main machine, the auxiliary winding is always in same sense, i.e. always has a reinforcing effect on the field of the main machine.

The invention will be explained in more detail with reference to the drawing. I, II in FIG. 1 are two direct current compound generators which feed the network N in parallel. 1 are their shunt exciter windings. 2 are additional excitation windings which reinforce the field of the windings 1 and are fed by excitation machines 4 via rectifiers 3. The machines 4 are excited by the current of the main machines I, II by means of the windings 5 and are alternating current or alternating current generators. 6 is a compensation line.

In Fig. 2, the current i of the windings 2 is plotted as a function of the current / the main machine. The current i is roughly proportional to the current /, but always has the same direction, even if / changes its sign. The additional EMF that is created by the field of winding 2 is approximately proportional to i. The system works roughly as follows: If, for some reason, the voltage of machine II becomes smaller than the voltage of the machine when idling, current flows from the machine as a generator to the machine. This current excites the machines 4, which feed the additional windings 2 with an approximately proportional current. In the machine I working as a generator, the voltage increases somewhat. The same increase in voltage also results for machine II operating as a motor, because the sense of the excitation of winding 2 is independent of the direction of the current in the main machine. The increase in voltage on machine II prevents greater power consumption. The machine II is also prevented from running faster; the operation is therefore stable.

3 shows another circuit for the exciter 4. The rectifiers 3 are here connected in full-wave circuit to the excitation winding 2, the excitation machine 4 can a Be a direct current or alternating current generator. If machine 4 is a DC machine, so it can be provided with a series winding 7 which reinforces the field of the winding 5 will.

In the diagram of FIG. 2, the two branches of the curve have a symmetrical course with respect to the i-axis. W ^T is ill them for any reason, for example for the purpose of increasing the stability, giving an asymmetrical course, as indicated in broken lines, then one can, as Fig. 4 shows the excitation winding into two branches 21, split 22 and the two winding parts in the bridge branches the rectifier circuit. The windings are made differently effective, possibly controllable, by giving them different turns or adjusting the resistances in their circuits accordingly.

Of course, the direction of the excitation current, which always remains the same, can be in the Winding 2 can also be achieved by means other than rectifiers, e.g. B. can be switched by responding relays when the main engine current is reversed. Always Constant excitation in the additional windings of the main machines can also be achieved achieve by rectifier circuits in the circuit of these machines by z. B. the Excitation for the excitation machines via a shunt resistor and a rectifier arrangement feeds from the circuit of the main machines or the branched rectified and current always forced in the same direction instead of the exciter immediately no an additional winding of the main machines.

Claims (6)

Patent claims: i. Arrangement to stabilize parallel operation of direct current compound generators, which have a main field amplifying, have additional windings that are dependent on the machine current in their excitation of excitation machines and a compensating line that connects the armature the main machine and the exciter winding through which the main current flows connects lying points, characterized in that in the circuit of the energized by the excitation machines Additional windings means are arranged which always force the same current direction. 2. Arrangement according to claim i, characterized in that the excitation machines Alternating or three-phase generators excited by the current from the main engine are used to control the auxiliary windings via a rectifier circuit the main engines feed. 3. Arrangement according to claim 1, characterized in that the excitation machines DC generators excited by the current from the main engines are used a full wave rectifier circuit (bridge circuit) the additional windings of the Main machines feed. 4. Arrangement according to claims 1 and 3, characterized in that in the Both tracks of the full wave rectifier circuit for the exciter are different effective additional windings, in particular with different numbers of turns the main engine are turned on. 5. Arrangement according to claims 1 to 4, characterized in that the excitation machines with series windings reinforcing the main field of the exciter are provided. 6. Arrangement according to claim 1, characterized in that the excitation of the as DC generators running excitation machines via a rectifier arrangement is derived from the circuits of the main machines or that the derived excitation current is directly additional windings the main engine feeds. 1 sheet of drawings