DE760694C - Substation for high voltage switchgear - Google Patents

Description

Substation for extra high voltage switchgear The invention relates to a substation for extra high voltage switchgear, for example wise for 400 kV, with double lines and transformer feeders together can be switched. In Fig. I one of the like investment lead usual. Design shown. i and 2 is one after the one, 3 and 4 one @ to-the other direction outgoing Dbppe @ l- management. These: were previously possible via separating switch 5, circuit breaker 6 and two -Other disconnectors 7> and. $ as required with the Samrnelschi.enensystem.9 or .dem Collective media system #ro in connection with .be brought. ii is a transformer that can also be connected to both busbars via circuit breakers r2 and, disconnectors r3 _and 14. r.5: is a coupling switch that enables the two busbar systems to be coupled via the disconnectors 16 and 17.

In the case of such a system of known type, the overhead lines must mostly right, angled to the cable run. bent and to the double busbars be introduced. In systems for particularly high voltages: under this Under certain circumstances, the .necessary angular scaffolding is very bulky and requires a very high Expense. In addition, the space required for the system is s ° lir great. The great spatial expansion and the type of approach of the overhead lines also makes it difficult to get an overview of the entire system.

According to the invention, these disadvantages are eliminated in that the busbars in the natural train which is designed as a double ring line Long-distance line are arranged and form components of these lines. So while the usual construction method so to speak corresponds to a rail terminus, the system according to the invention is designed in the manner of a passage courtyard. This eliminates the need for angled scaffolding and also eliminates the actual busbar system saved and a reduction in the number of disconnectors and circuit breakers required achieved. While in the system shown in Fig. I a total of seven circuit breakers and eighteen circuit breakers are required. can be by an arrangement according to the invention with approximately the same switching possibility both the total number the circuit breaker as well as the disconnector reduce it.

Exemplary embodiments of the invention are shown in FIGS. In Fig. 2, g and io are the busbar systems. which in the present case with lines 1, 2. 3 and .I are identical. ii is the one transformer . 18 the other. Circuit breakers ig and 2o are switched on in the busbars or lines g and io. 21 is a coupling switch. via the disconnector 22, 23, -24. and 25 can be used in a known manner for connecting the busbars or lines in series and across. 26 and 2; are the disconnectors along the lines on one side. 28 and 29 the first-mentioned circuit breakers on the other side. In the circuit according to FIG. 2, just as in the known circuit according to FIG. The substation branches ii and 18 can also be connected to one or the other Sainmelscbienensvstein. The circuit breaker 21 can be used to make diagonal couplings via the isolating switches 23 and 24. So essentially all important circuits can be made. which are possible when setting up the system according to FIG. The switch can also be used for series coupling with the aid of circuit breakers ig and 20. The total number of circuit breakers in this circuit is five and the circuit breaker is twelve. Compared to a system according to FIG.

If you want to do without the coupling switch, a system can be added Fig. 3 or .4 be set up. In the circuit of Fig. 3 are except the Disconnectors only the circuit breakers ig and 20 in the course of the lines. In the circuit according to Fig.. F are power switches at the input and output of the Continuous lines arranged in series with disconnectors. In general, the switching option according to FIGS. 3 and d will suffice to all practically necessary «-earth circuits. The savings on switches Incidentally, is greatest in the embodiment according to FIG. 3. In place of or next to the L "mspaima branches can of course also branches of other types of the ones described Way to be connected. It is also irrelevant whether it is a supply or discharge acts.

3 and 6, a system according to the invention is shown in elevation and plan. It can be seen how, in the course of the busbars 1 and 2, overhead lines are brought in on both sides via the disconnectors 26 and 27 on the one hand and 28 and 29 on the other. The system otherwise corresponds to the system according to FIG. 4. E: two L "mformer branches ii and 18 are arranged.

Claims (3)

PATENT CLAIMS: i. L rnspannwerk for extra high voltages with double busbars, characterized in that the busbars are arranged in the natural train of the long-distance line designed as a double ring line and are components of these lines. 2. Substation according to claim i, characterized. that in the in busbars Passing double ring circuit disconnectors and circuit breakers are classified. 3. substations, verk according to claim i with two L "mspannabzweigen, characterized in. That between the two exhaust branches to the L" mspannwerk dome switches are arranged, which allow a diagonal, longitudinal or Ouerverbindung busbar or line sections . d .. L'mspannwerk according to claim i, characterized in that the circuit breakers arranged in the course of the continuous lines are parallel to one another and to the coupling switch and that disconnectors are switched on in the connecting lines of the poles of these three circuit breakers. 5. Substation according to claim i, characterized in that a circuit breaker is switched on in the trunk lines between the transformer branches and that the side of the substations are switched on after the line in the lines disconnectors. 6. Substation according to claim i, characterized in that on both sides of the branches to the substations, circuit breakers and disconnectors are attached in the longitudinal direction of the lines. To distinguish the subject matter of the invention from the state of the art, the following publication was considered in the grant procedure: German Patent NTr. 447 64c9.