DE876564C - Multi-phase power transformer or choke coil with an extinguishing coil connected to the star point of the power winding - Google Patents

Description

Multi-phase power transformer or reactor with an im The neutral point of the power winding connected quenching coil The invention relates relying on a multi-phase power transformer or reactor with a star-connected Power winding that is used to quench the earth fault current in high-voltage networks A quenching coil is connected at the star point of the power winding, which in the event of an earth fault only takes over part of the phase voltage.

In the case of extra-high voltage transformers, it is already known that the voltage At the star point in the event of an earth fault, this means a fraction of the phase voltage lower that one is connected to the power winding in addition to the star point Earth fault choke on the terminals of a winding connected in an open polygon another choke coil is connected, which in the event of a ground fault the remaining part of the phase voltage takes over.

The invention is based on the object with the same division the earth fault voltage either a special iron core for the second reactor or to save both the iron core and the choke coil itself by using both Parts can be combined with the transformer to form a structural unit.

According to the invention is for this purpose in a polyphase power transformer or choke coil with star-connected power winding at its star point an earth leakage reactor is connected, which is only for a part the Phase voltage is designed, the rest of the phase voltage through appropriate training of the transformer iron core is taken over by the phase winding. This is z. B. achieved by giving the iron core at least one free magnetic yoke there, which leads the asymmetry flow in the case of a ground fault and the conclusion or conclusions provided with air gaps which are dimensioned so that their ampere turns requirement opaque in-phase earth fault extinguishing current in the windings of the transformer Generates voltage drops that make up a substantial fraction of the phase voltage, while the earth-fault quenching coil takes over the remainder of the earth-fault voltage. The conclusions can optionally carry adjustable windings, which from a winding arranged on the main legs and connected in an open polygon be fed. The number of turns of the windings accommodated on the yokes must therefore be made roughly equal to the number of turns in one phase of the polygon winding. Such an arrangement has the advantage that it is harmful and uncontrollable before alone Yoke flows, as they are in the case of a version with unwound inferences set in the event of a ground fault.

Various exemplary embodiments of the subject matter of the invention are shown in the drawing reproduced.

The Fig, i shows the case of a transformer with unwound backlinks, FIG. 2 shows an arrangement in which the conclusions are provided with windings.

In Fig. I, i denotes the main legs and 2 denotes the return legs of the iron core. 3 represents the high voltage winding, q. the low voltage winding. Both windings are connected in star. The high-voltage winding is grounded at the star point o via an earth-fault extinguishing coil 5, which takes over part of the phase voltage in the event of an earth fault. The star point of the low-voltage winding is free. The magnetic resistance of the yoke legs 2 is artificially increased by the arrangement of air gaps. The air gaps are expediently distributed over the length of the back section leg. It is important to avoid the yoke flows occurring in the arrangement according to FIG. B. with heavy load on the star point, then it is advisable to choose an arrangement according to FIG. Here, the main legs of the iron core, which have no air gaps, are again denoted by i, and by 2 core conclusions containing the air gaps. 3 is the star-connected high-voltage winding that is earthed at the star point o via an earth-fault extinguishing coil 5. q. is also the star-connected low-voltage winding. With a 6 arranged in addition to the power windings on the main legs, connected in an open triangle winding is indicated. The winding 6 feeds the on the yoke legs q. attached, series-connected windings 7. These have approximately the same number of turns as the individual phase windings of the winding 6 connected in an open triangle. The yoke legs are also dimensioned in the arrangement according to FIG Windings 3 of the transformer, the current flowing in windings 7 just covers the ampere turn requirement of the conclusions. A higher saturation can be allowed for the conclusions than for the main legs. The course of the earth fault extinguishing current i. in the windings 3 is indicated in FIG. 2 by arrows. The current flowing in the windings 6 and 7 is accordingly Here, ü is the transmission ratio of winding 3: winding 6.

In the event of an earth fault, the vector diagram shown in FIG. 3 results. 1, T, Tl, W represent the voltages on the winding legs in normal operation. The diagram shows that in the event of a ground fault in phase W, the voltage and thus the saturation on the healthy legs 0 U and 0Y only correspond to that of the inferences allowed unbalance flow goes up. The unbalance voltage induced by this flux is labeled L #.

Instead of making the iron core in one piece, it is also possible to divide it into a number of single-phase cores corresponding to the number of phases. However, according to FIG. Q. Each single-phase core has, in addition to the return leg leading the operating flow, a further compensating leg for the unbalance flow occurring in the event of an earth fault. The yoke leg leading the operating flow is to be dimensioned in its cross-section according to the normal phase flow in undisturbed operation, the compensating leg leading the -LTnsymmetry flow, which is provided with air gaps, only needs to be dimensioned for the asymmetry flow occurring in the event of a ground fault. A higher saturation will expediently be allowed for the limb leading the asymmetry flow than for the other limbs. When the multi-phase transformer is subdivided into an arrangement consisting of several single-phase units, a winding must always be arranged on the equalizing leg leading the unbalance flow, which is fed by a winding connected to the corresponding windings of the other legs in an open polygon . An exemplary embodiment is shown in FIG. 4. Here, the main limbs of the iron core are designated by io, the compensating limbs provided with air gaps for the asymmetry flow and by 4.o the yoke limbs without air gaps. The star-connected high-voltage winding is indicated by 30. This is earthed in the neutral point via an earth-fault suppressor5o. 6o are arranged on the main legs, connected in the open polygon windings and 70 windings for the asymmetrical flow, which sit on the compensating legs.

When executing multi-phase power transformers according to FIG the invention is compared to known arrangements with the same division of the earth fault voltage not only the inductor to be connected to the delta winding, but also the 'triangular winding on the main legs of the transformer itself is saved. If the transformer is carried out according to FIG Saving of the iron weight of the choke coil, since it is provided with choke windings Conclusions are also required with the known arrangements. Furthermore there is still a saving in iron weight in the return legs, their Saturation according to the invention can be higher than in the conclusions of the known Transformer assemblies.

Claims (9)

PATENT CLAIMS: i. Multi-phase power transformer or reactor with an earth-fault extinguishing coil connected to the star point of the power winding, which only takes over part of the phase voltage in the event of an earth fault, characterized in that that the rest of the phase voltage by appropriate formation of the iron core of the phase windings of the transformer or the inductor is recorded. 2. Transformer according to claim i, characterized in that the iron core of the Transformer or reactor one or more provided with air gaps has unwound conclusions,; which lead to the unbalance flow in the event of an earth fault and are dimensioned so that the earth fault extinguishing current covering their ampere turn requirement there are voltage drops in the phase windings of the transformer or reactor which make up a substantial fraction of the phase voltage. 3. Transformer according to claims i and 2, characterized in that the iron core of the transformer or the choke coil one or more conclusions provided with air gaps owns, 'which lead to the unbalance flow in the event of a ground fault and that this possibly adjustable windings carried by one on the main legs of the transformer arranged, in the open Polvgon connected winding are fed. . 4. Transformer according to claim i to 3, characterized in that the number of turns of each of the the coil or coils arranged approximately equal to the number of connections Phase of polygon winding is done. 5. Transformer according to claim i and 2, characterized characterized in that the main legs have no air gaps. 6. Transformer according to claims i to 5, characterized in that the one or more the asymmetry flow leading back yoke legs are dimensioned in cross section so that there is a results in higher saturation than for the main limbs. 7. Power transformer according to Claim i, characterized in that the iron core is in one of the number of phases Number of single-phase cores is divided and that each of these single-phase cores except the return leg leading the operating flow a further compensating leg for the unbalance flow occurring in the event of an earth fault. B. Power transformer according to claims i and 7, characterized in that the Yoke leg in its cross section corresponding to the normal phase flow in undisturbed operation is measured. 9. Power transformer according to claim i, 7 and 8, characterized in that the compensating leg leading the asymmetry flow Has air gaps and in its cross-section only for in the event of a ground fault occurring unbalance flow is measured. 1o. Power transformer according to claim 9, characterized in that the leg leading the symmetry flow is higher is more saturated than the rest of the legs. i i. Power transformer according to claim 1, 7 to io, characterized in that the compensating leg leading the asymmetry flow carries a winding, which is held by a lying on the excited main pelvis, in the open polygon switched winding is fed.