DE224294C - Buffer arrangement in single or multi-phase AC systems - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 224294 CLASS 21 ^. GROUP

Patented in the German Empire on April 17, 1909.

The invention relates to a buffer arrangement for single or multi-phase AC systems, with a converter acting on the mains circuit, the DC side of which is connected to a buffer battery, a variable tension is imposed. The new arrangement is peculiar because that in the AC circuit a rotatable control transformer 2, 7 of those Kind is switched on, in which in a known manner the regulation by a movable one Constant or variable torque added to part happens automatically in such a way that the voltage decreases with increasing current strength and vice versa. Strange for The new arrangement is also that the regulating transformer is not in the AC circuit, but rather only needs to be switched on in the AC supply lines of the converter.

In single or multi-phase AC systems, mainly in those in which the load on the network is subject to strong fluctuations, it is often desired to keep the load on the power generator constant so that the prime movers work economically. This is z. B. thereby achieved that the system is provided with a backup battery, whose buffer effect by using converters and special buffer units on the alternating current network is transmitted.

In converter systems, in which some converters on calm, others on restless Operation, the intermittent operation of some converters can be harmful Influence the voltage of other, equally loaded converters, and especially when all converters on the alternating current side have the same busbar system are connected. Attempts have also been made to remedy this deficiency by means of similar institutions has connected a buffer battery to the unsteadily working converters, its effect then increased by buffer machines such as those suggested by Pirani, Highfield, and others.

A buffer device in AC systems is also known, in which the one AC voltage supplied to the converter is regulated automatically. . This arrangement but has the disadvantage that inductive resistors are used to regulate the voltage are, which by producing wattless currents large voltage drops in the Generators and generate in the transmission lines. Furthermore, the buffer effect of the Accumulator battery limited by the inductors themselves by charging the battery the alternating current voltage impressed on the converter is always smaller than the existing one Mains voltage is forced to remain. The battery can only be discharged when the voltage drop generated by the reactors becomes large and all the transmission from the generators to the electricity consumers is thus associated with large voltage losses. However, overexcitation of the converter can have a somewhat more favorable effect can be achieved, but this does not require one

insignificantly more extensive dimensioning of the converter. In addition, this is known Arrangement does not entirely prevent the alternator from certain load variations are subject, and these, in connection with the evoked currents without watts, will be attached to other parts make tangible of the pipeline network.

When using the new buffer arrangement

On the other hand, all these disadvantages do not apply. Thus, the buffer effect occurs with almost complete avoidance of wattless currents, in that the phase shift resulting from the control transformer can be practically neglected in the size of the additional voltage in question here Induction regulator generated additional voltage is increased without it being necessary to strengthen the magnetic field of the converter. So while the buffer effect in the mentioned known. If the arrangement occurs through the artificial generation of a voltage drop in the line network, in the new arrangement the buffer effect is brought about by an additional voltage that is applied to the converter, which is positive or negative depending on the load. ^: lung transformer used, the rotatable 'rotatable part moves automatically in a known manner that the same from the outside; a constant torque is added ;; the latter is usually generated by a disk placed on the axis of rotation with a weight attached to it, and should be in the. The following description is based on this embodiment.

Illustrated on the drawing:
Fig. Ι a current diagram of a three-phase system, in which the buffer effect on the; Three-phase network takes place and the control.

transformer in alternating current main current; circle is:

Fig. 2 takes place, a current diagram of a three-phase, transformer system, in which the buffering effect on the DC power and 'the control transformer in the AC supply lines of the converter is located.

In Fig. Ι 1 represents a three-phase generator , 2 the rotary control transformer, 3 a single armature converter and 4 a backup battery. 5 is the line that leads to the consumption point or points. The regulating transformer is in the usual way with the Generator connected so that the stator is in series with the main circuit while the rotor is connected in parallel to this. The single-armature converter is on according to the figure the AC side, namely on the network side of the control transformer with the Generator and connected in parallel to the buffer battery on the DC side. The administration after the consumption points goes from the connection line between the control transformer and the converter. The buffer effect now happens as follows. If the load on the network is low, this is possible Weight of the regulating transformer down, thereby reducing the voltage imposed on the converter increases; As a result, the converter supplies power to the backup battery on the direct current side away. If, on the other hand, the load on the network is high, the weight is increased by the increased torque of the control transformer raised, whereby the alternating voltage impressed on the converter drops, so that now the backup battery drives the converter in reverse and thus drives the alternator supports. The output of the alternator is kept almost constant. The buffer effect can be regulated by adjusting or changing the one attached to the control transformer. Weight or by a cell switch on the backup battery, etc.

Another example is a buffer arrangement in converter systems for a direct current consumption network to be named. According to Fig. 2, 6 means a three-phase network, 7 the control transformer, 8 a single armature converter, 9 a backup battery and 10 the direct current network. The control transformer is connected to the converter in a known manner and can therefore be used to regulate the AC voltage supplied to the converter can be used. If you think of it now The rotor of the control transformer is free to move and the converter is idling the rotor adjust itself to such a position of equilibrium at which the current strength is approximately zero in the stator; because every equalizing current between the three-phase source and the converter will immediately generate a torque which turns the rotor back into this equilibrium position.

If now the rotor z. B. by attaching a weight to the attached to the rotor shaft Disc brought out of equilibrium, namely z. B. in such a Direction that the voltage supplied to the converter increases, the converter is forced to to charge the backup battery, and the regulator is in the new equilibrium position at which the torque from the weight is in balance with that developed by the stator current. If electricity is now consumed in the direct current network, the current level output by the converter remains same, so that the charging current of the

Buffer battery becomes smaller according to the load. If the mains current exceeds that The backup battery becomes the value that corresponds to the weight attached to the rotor forced to deliver the excess electricity to the grid by now the direct current voltage of the converter through the control transformer below that of the backup battery is regulated down.

Claims (2)

Patent Claims: i. Buffer arrangement in single or multi-phase AC systems, with one The converter acting on the mains circuit, the DC side of which is connected to a buffer battery, is a variable Voltage is applied, characterized in that a rotatable control transformer in the AC circuit (2, 7) of the type is switched on, in which the control in a known manner by a constant or variable torque added to the moving part happens automatically in such a way that the voltage decreases with increasing current strength and vice versa. 2. Buffer arrangement according to claim 1, characterized in that the control transformer not switched on in the AC main circuit, but in the AC supply lines of the converter is, for the purpose that the buffer effect is not in the AC circuit, but in the DC circuit connected to the converter is created. 1 sheet of drawings.