DE739504C - Device for regulating or keeping the voltages of a multi-phase network constant - Google Patents

Description

Device for regulating or keeping the. Tensions one Multi-phase network The invention relates to a device for regulating or keeping the voltages of a multi-phase network constant by means of a regulating transformer (Step transformer, induction regulator, etc.), which is automatically controlled by a AC motor is adjusted.

It is known to control the variable motor of transformers with the help of contacts of a relay monitoring the mains voltage or the mains current in such a way that the motor circuit depending on the deviation: the monitored voltage from the setpoint in one direction or in the other is switched on. These control devices. have the: Disadvantage that the contacts that switch frequently during operation only have a limited service life. It has therefore also already been proposed that the drive motor be designed in two phases and that it be built into the supply line with the aid of an oscillating circuit. one phase of the motor is switched on to control. Depending on the voltage on the network, a voltage that is also used to control the motor is created on the oscillating circuit; such an institution works without any contacts. A disadvantage of this arrangement, however, is that it always only responds to fluctuations in one phase, which is undesirable in that it is usually the task of regulating the voltage of a multi-phase network.

According to the invention, therefore, in a device for regulating the voltage of a multi-phase network by means of a -N1ator operated Control transformer .the arrangement made so that the stator winding or the Stator windings of the motor. Via combinations of apparent resistances like that are connected to the network to be controlled, so that the motor only runs if the Average value of all phase voltages from a given setpoint in revolutions is moved.

For details :! Explanation of the invention are in the drawings - exemplary embodiments shown.

In Fig. I, the three-phase network to be controlled is labeled R, S, T. The regulating transformer i connected to the network, the z. B. as a step transformer is formed, is on the primary side directly on the network, while his control voltages your network presses on via the three-phase auxiliary transformer 2. For adjustment of the regulating transformer is used: the three-phase motor 3, its individual stator windings to two phases each of the three-phase network, which is to be kept constant with regard to its voltage lie. Control devices are in the supply lines to two stator windings .4 or @ in the form of resistance structures made of iron and air choke coils or Baus Parallel connections of inductors and capacitors switched on. These resistance combinations will. second explained in detail below. In addition, they are known per se.

The mode of operation of the arrangement according to Fig. I is as follows. At a Deviation of the voltage R S or S T from the nominal value is determined by the control device .l or 4 a corresponding increased voltage deviation at the motor phase 5 or 6 is generated, so that the voltage at the motor phase 7 is a finite connection A rotating field is created. When the line voltage R S goes up and the line voltage S T deviate downwards from their nominal value by the same amount, the generated ones stand out Control voltages on motor phases 5 and 6, and the motor remains at rest. First if the mean value of the mains voltages changes, a rotating field is created on the: motor. So if the line voltages R S and S T both in the same sense from their setpoints deviate or the deviation in a different sense and with a different amount occurs, an adjustment of the motor takes place, which the deviation occurs by actuation of the regulating transformer reverses.

In Fig. 2 a further embodiment of the invention is shown, which is particularly suitable for a three-phase network with a neutral conductor or with an artificial zero point. The drive motor 3 for the transformer i has a four-phase design. In the leads to the windings 5, 6 and 7 each show a control device is d., 4 'or q. "In the form of a resistor combination. The motor windings 5, 6 and 7 are here of the line voltages RS, ST and TR of the to regulated network, the motor winding 8, on the other hand, is connected to the single phase voltage O R. In this arrangement, the adjustment of the regulating transformer takes place in the same way as in the arrangement shown in Fig.

In the arrangement according to Fig. 3, a special three-phase motor 3, 13 and 23 is provided for each two of the three phases. The three motors act on a common axis that adjusts the transformer, which is indicated by to. One of those connected in a triangle. The stator windings of the motors are connected to various phase conductors in the network via a resistor combination .I or 14 or 24. The Mitfelanzapfungen 9 ', i9' or 29 'of these stator windings and the respective opposite corner points 9 or i9 or 29 are connected, possibly via transformers 1i, 21, 31, to the zero point and one of the phase conductors. It can be seen that in this case, too, the adjustment of the axisfo and thus of the regulating transformer takes place only as a function of a change in the mean value of the interlinked voltages of the network RST .

In Fig..I it is shown in which way the resistor combinations can be formed in the supply lines of the adjusting motor. An arrangement according to Fig. I is assumed. The stator winding 7 of the motor 3 is directly connected to the network, while the windings 5 and 6 are fed by the secondary windings of the transformer forinators 15 and 16, respectively. The primary windings of these transformers are in half. 25 'and 25 "or 26' and 26". The winding. 25 'is connected on the one hand to the phase conductor R and on the other hand to the phase conductor T via the choke coil 35. The winding 25 "is also connected to the phase conductor R and via the choke coil 35 'to the phase conductor T. The windings: 25' and 25" have such a winding sense that the effects of the currents flowing in them cancel each other out at the nominal value of the voltage RT and do not generate a transformer flux. If, on the other hand, the voltage RT is calibrated upwards or downwards from its nominal value, either the current in the winding 25 'or the current in the winding 25 "predominates, so that a voltage in the motor winding 5 is in phase or in phase opposition to the voltage The same considerations apply mutatis mutandis to the Trausforinator 16 with the primary windings 26 'and 26 "and the two choke coils 36 and 36'. One of the two choke coils in the game resistance combination is each provided with a saturated iron core, while the other choke coil is unsaturated or is designed as an air gap choke coil or air choke coil. In this way, if the phase voltage differs, RT bz «-. ST increases the resulting control voltage accordingly.

Instead of the unsaturated choke coils 35 'and 36' can also Capacitors are used, in which case the winding direction of the windings is z5 "or 26 "must be reversed" compared to the previously described arrangement. Since the current the capacitors against the current, the iron inductors 35 resp. 36 is shifted by 180 electrical degrees, the transformers can in this case 15 or 16 can be omitted at all. A facility like this is then created she z. B. is shown in Fig. 5. In one feed line for each of the stator windings 5 and 6 there is a parallel connection of an iron choke coil 35 and 36, respectively and a capacitor 45 or 46. In series with this parallel connection is a further capacitor 55I or 56.

Fig. 6 shows a further, in many cases particularly advantageous embodiment of the invention. The motor 3, which is again used to drive the transformer, has a three-phase stator winding 5, 6, 7 connected in a triangle. The winding 5 is connected to the phase conductors S, T via a resistor combination designed as a bridge circuit. A phase voltage shifted by 90 ° with respect to the voltage S ' T is also fed to the motor at points 9 and 9'. This voltage can e.g. B-. Can be tapped from the neutral conductor and the phase conductor R, if necessary via an unspecified transformer. The bridge circuit used for control consists of two series-connected resistors 22 and 23, which form one half of the bridge and have a constant value. The other half of the bridge consists of two resistances or apparent resistances that change as a function of fluctuations in the mains voltage. In the present case, two controllable carbon pressure resistance columns 32 and 33 are used. These coal columns are in a known manner by coils 36 and 37 and corresponding drive means at. Mains voltage setpoint held in a central position. To feed these excitation coils 36 and 37 is used, for. B. a rectifier arrangement 38, which is three-phase connected to the network. The three-phase connection has the effect that the excitation of the coils 36 and 37 and thus the resistance of the carbon columns 32 and 33 always changes as a function of the mean value of the voltages in the network.

The coils 36 and 37 act on the cabbage: columns 32 and 33 in detail in such a way that when the voltage supplied by the rectifier increases, the a column, e.g. B. 32, compressed and at the same time the other column 33 loosened will. This changes the balance of the bridge circuit, so that at the Motor winding 5 a voltage becomes effective. When the level of the rectifier 38 The voltage supplied is generated on the motor winding 5, a voltage in the opposite direction Direction, since now the coal column 32 is loosened and the column 33 presses together will.

Fig.7 shows a similar arrangement as Fig.6, but there are here, which is advantageous in many cases, the two coal columns 32 and 33 too a structural unit with a single excitation coil 39 combined.

Fig. 8 shows a further combination of resistors, which can be used according to the invention to control a three-phase drive motor. A transformer 69 is shown here in a V connection; if necessary, however, a star connection can also be used. The primary windings 7o and 7i are connected to one another and also directly (or via the third phase in the case of star connection) to the phase conductor T of the network. The outer. Connections of the windings 7o and 71, however, are each via a pair of inductors 72 and 73 bz-, V. 74 and 75 placed on the phase conductors R and S. The choke coils 72 and 74 are highly saturated and thus have a flat magnetization characteristic, while the coils 73 and 75 are weakly saturated or designed with an air gap or as air choke coils. The choke coils 72 and 75 are connected to the phase conductor S, the coils 73 and 74 to the phase conductor R. The geometrical differences between the currents in the coils 72 and 73 or 74 and 75 then flow in the windings 70 and 71. At the nominal value of the mains voltage, the currents JI in the winding 70 and JII in the winding 71 are the same. The voltages on the windings 70 and 71 then have no shift in relation to one another. However, if the mains voltage deviates upwards from its nominal value, then in the windings 7 o and 71 currents J 1 and J 1, which have a phase shift with respect to one another. A rotating field then arises in the iron core of the transformer 69. At the terminals 78, 79, 8o of the secondary windings 76 and 77 of the transformer 69, a three-phase current can then be picked up to feed the drive motor for the regulating transformer.

The choke coils 72 and 74 can be summarized to form a choke coil 81 as shown in FIG. 9, as can the choke coils; ,, and 75 to a choke coil 82, which is optionally provided with an air gap. The transformer 69 can also, as FIG. G shows, be designed as an autotransformer.

In addition to the arrangements shown, there are of course other embodiments possible within the meaning of the invention. It just depends on the resistance combination train and switch on in such a way that the drive motor of the regulating transformer is always influenced by the mean value of all phase voltages.

Claims (7)

PATENT CLAIMS: i. Device for regulation or maintenance the voltages of a multi-phase network by means of a regulating transformer, which automatically is adjusted by an AC motor, characterized in that the stator winding or the stator windings of the motor via combinations of apparent resistances are connected to the network to be controlled in such a way that the: motor only occurs in the event of a deviation of the mean value of all phase voltages from a nominal value in rotation will. 2. Device according to claim i for three-phase networks, characterized in that that two stator windings: gene of the drive motor over each a combination of apparent resistances connected to two different line voltages of the network to be regulated are, while the third stator winding, un.g directly or via a transformer is applied to the third line-to-line voltage. 3. Device according to claim i for Three-phase networks with neutral conductor, characterized in that the drive motor for the regulating transformer has four stator winding phases and that three of these stator windings via a resistor combination each to one of the linked voltages of the network are connected, while the fourth winding is directly connected to a line phase voltage lies. d .. Device according to claim i or one of the following, characterized in that that the resistance combination of saturated and unsaturated choke coils or consists of saturated inductors and capacitors. 5. Device according to claim r or one of the following, characterized in that the resistor combination contains a transformer whose primary winding is connected to a center tap a phase conductor of the network, while the two ends of the primary winding via a saturated bz «-. an unsaturated inductor or capacitor to another phase; n-1: pus are connected, and that the secondary winding of the transformer is used to feed one phase of the drive motor. 6. Establishment according to claims i to 5, characterized in that the resistance combination consists of there is a parallel connection of saturated choke coil and capacitor and the parallel connection in turn is in series with another capacitor. 7. Device according to claim i to 5, characterized in that as a resistor combination a bridge circuit is used. B. Device according to claim 7, characterized in that that two branches of the bridge circuit formed by carbon pressure resistance columns «-Earths, which are excited from a rectifier arrangement, which of all Phases of the network to be monitored is fed. G. Device according to claim 8, characterized in that only in the supply lines of a stator winding of the drive motor a bridge circuit is and @ that the ': motor another, shifted by go ° on the other hand Hiifphase voltage is supplied. ok Device according to Claims 2 to 4, marked with gz by a star-connected regulating transformer, one of which is primary winding directly connected to one phase conductor of the three-phase network to be monitored while each of the other two primary windings has a saturated resp. an unsaturated inductor (or capacitor) on the, two other \ etzphasenleitern lies, and that on the secondary side of the transformer, the supply voltage for the drive motor is removed.