DE893831C - Circuit and arrangement of the busbars for high-voltage switchgear operating according to two-center operation - Google Patents

Description

Circuit and arrangement of busbars for after two-center operation working high-voltage switchgear For the electrical energy supply of Established, in particular, certain branches of the chemical industry, which are compulsory. do not suffer a complete interruption of the electricity supply for technological reasons allowed, a new form of operation was created under the name of two-center operation, which recently spread widely and also for those working in the network Switchgear of the power and transformer stations of the national supply has become increasingly important. According to this operating mode, the type and number of resources involved are in two electrically completely separated or not purely local disturbances automatically separating groups. The consequent observance of this Principle in the system execution guaranteed due to the extremely low Probability of total disruptions occurring in both company groups at the same time practically the required uninterrupted energy supply. Plants of this type are usually carried out with a triple busbar system, because next to the busbars A reserve busbar is essential for the two electrically independent companies applies and certain dispositional considerations, for example those usually on pairs of overhead lines (double lines) laid on the same mast, this circuit-related Apparently force equipment. The invention aims to make the busbar equipment, the structure and the operation of systems for two-center operation to simplify.

The switchgear according to the invention for two-center operation is thereby characterized in that the alternately corresponding _ units of the switch field pairs (Double lines) only to one, but both to different company busbars and optionally connectable to the reserve busbar system and preferably are arranged next to one another or opposite one another.

The essence of the invention is illustrated in the drawing. FIG. Z explains the method of switching a transformer substation according to the invention for two-center operation, such as can be used, for example, for systems of the national supply with 1, 10 or 22o kV operating voltage. The circuit breakers are indicated with small black circular areas and the circuit breakers with finite small squares. The double lines A, B, C and D, which are not subject to any special risk, are regarded as alternately corresponding switch panel pairs. The units of the field pair Umspanner i and Umspanner 2, which also correspond alternately, are subject to a special hazard in that one transformer that catches fire can affect the second one. Such field pairs are treated like the others in terms of circuitry, but are arranged at an appropriate distance from one another, unless the special hazard is excluded by suitable precautions.

Fig. 2 illustrates a single-pole schematic representation High-voltage switchgear according to the invention for medium voltages and installation in buildings. Z1 and Z2 are rows of cells in which. each a unit that alternates corresponding switch field pairs face each other and roughly through the transparent Wandb are securely separated from each other, but with a view through the wall at the control panels ci and c2 can be compared with one another and directly coordinated with one another. With al and a2 are! the lines of the units of an alternately corresponding one Switching field pair of the double line A designated. Z1 corresponds to the one, Z2 to the other center in the sense of two-center operation. Accordingly, in the invention Assign the units from Z1 only to the service busbar Ni or to the reserve busbar H, those of Z2 only connected to the service busbar N2 or to the reserve busbar H. will. This results in the previous cell structure with three busbar systems to the structure with double busbars, which is much simpler and more economical in every respect reduced while at the same time significantly increasing operational safety. Latter is caused by the simpler switching and operation of a double busbar system compared to a triple busbar system, and also from the perfect spatial Separation of the two central units and the units of the switch panel pairs related accessories; as a result, one remains in the event of any type of disturbance Unit or its busbars the complementary unit and its busbar damage free. Following this principle, it recommends. himself, in. -the connecting line to install the disconnectors t1 and t2 on the reserve busbar H.

Fi.g. 3 shows in a single-pole schematic representation an example of an embodiment according to the invention for systems with higher and highest operating voltages as outdoor switchgear. For the sake of comparison, designations that correspond to those of FIG. 2 have been chosen for the system equipment essential according to the invention. The difference compared to FIG. 2 is that here the units of the alternately corresponding switch panel pairs, which are not subject to any mutual special hazard, are arranged next to one another; In the picture, the double line A , with its units a and a2, is used, which is laid on the common overhead line pylons d in accordance with the usual rule.

Claims (7)

PATENT CLAIMS: i. Switchgear for double firing, thereby characterized in that the alternately corresponding units of the switch field pairs (Double lines) only to one, but both to different company busbars and optionally connectable to the reserve busbar system and preferably next to one another or are arranged opposite one another. 2. Switchgear according to claim i, preferential @ wise indoor switchgear with opposing units that alternate corresponding switch field pairs, characterized in that the two confronted Panel groups structured according to the rules for systems with double busbars and, preferably limited to the operating busbars, by fixed, especially transparent Walls are separated from each other. 3. Switchgear according to claim i, preferably outdoor switchgear, with adjacent units of the alternately corresponding switch panel pairs, characterized in that: three busbars in the area of each panel on the other hand, only two of them per panel are connected via switching means (disconnector) are. q .. Switchgear assembly according to Claims 1 to 3, characterized in that the auxiliary busbars is arranged between the two operating busbars, provided the busbar arrangement corresponds to that of a triple busbar system. 5. Busbar coupling for switchgear according to claims i to q., characterized in that the coupling switch on the one hand to one of the service and the reserve busbars, and to the second one on the other Operational and to the Reserve busbar can be connected and voltage converters are optionally connected on both sides of the coupling switch. 6. Alternative circuit of the busbar coupling for switchgear according to claim i to 4, characterized in that the Kuppe.lwitch on the one hand to each of the two company busbars, on the other hand to the one that can be divided into two halves Reserve busbar can be connected. 7. Switchgear according to claim 1 up to 6, characterized in that all busbars, preferably in the center of the system, can be divided lengthways. Attached pamphlets: “50 years of Berlin electricity works 18184 to r934 ", VDI-Verlag, Berlin 1934, pp. 179 to 181; German patent specification No. 749 234; Sachsenwerk-Mitteilungen, 1930, p.227.