DE739423C - Electrical high-voltage switchgear with longitudinal and cross coupling device for a separable double busbar system with isolating switches and only one circuit breaker - Google Patents

Description

Electrical high voltage switchgear with line and cross coupling device for a separable double busbar system with disconnectors and only one Circuit breaker The invention relates to a high-voltage switchgear for a in the longitudinal direction split double busbar system, in which the h.j. one behind the other Have the busbar system coupled to one another in the longitudinal and transverse directions, and although it is a switchgear in which in a manner known per se the disconnectors are arranged parallel to the busbars one behind the other in such a way that that their switch blades are parallel to the busbars when closed. In particular, the invention relates to a coupling system in which all connections for longitudinal and cross coupling with only one circuit breaker.

A circuit diagram of such an arrangement is shown in FIG. I and 1I are two busbars that are used at. 5 and ö in I; interrupted in the longitudinal direction are un (, are to be coupled with one another as required. Cables arranged, in which the disconnectors i, 2, 3 and .4 are installed. 7 is the only existing circuit breaker. For example, if the system i should be in the longitudinal direction are coupled, so the circuit breaker 5 are inserted, so are initially the disconnectors i and 3 closed and then the circuit breaker 7 inserted. The disconnector 5 can then be closed and the longitudinal connection can be established. The same procedure is used for the connection or solution: of System II. The systems I and II can also be coupled to one another, with the disconnectors accordingly i and 2 and circuit breaker 7 are inserted.

The specified circuit brings it with it; that a larger number of disconnectors is required to make the required longitudinal or Ouer connections the busbars with each other. Systems of this type needed therefore so far a fairly large space for the arrangement of these circuit breakers and circuit breakers.

In the invention is now a form of arrangement for the disconnectors and circuit breakers specified for such a clutch shift, in the case of the best possible space utilization only one field division for the entire coupling system with all switches is required. This is achieved according to the invention: in that the to each Circuit breaker disconnector sets belonging to a busbar system on both sides of the corresponding longitudinal separator in just one field division are arranged, with the width dimension of a high-voltage branch as the field division, seen in the direction of the busbars is to be understood. Above the disconnector a six-fold field overvoltage is carried out in a field division over which the ', # connections of the circuit breaker with the corresponding disconnectors take place.

In Fig. 2 is a plan view of a plant according to the invention is shown. With I that is a busbar unit, with II the other busbar unit designated.

are the three circuit breakers for the three phases. The insulating chains of the first busbar system are denoted by 8, 9 and io, and the insulating chains of the second busbar system are denoted by 11, 12 and 13. 14 to i9 are the six field overvoltages that provide the connection between the disconnectors and the circuit breakers. The disconnectors arranged one behind the other in rows i to 6 each correspond to disconnectors i to 6 in the circuit diagram in FIG. In rows 5 and 6, the two line disconnectors 5 and 6 of FIG. the other disconnectors are in accordance with the circuit diagram in Fig. i, shown. According to the invention, these disconnector sets, each belonging to a Saamniel busbar system, for example in rows i and 3, are arranged on both sides of the corresponding longitudinal disconnectors in row 5, namely below the busbars. As shown in FIGS. 2 and 3, all disconnectors are arranged with their blades parallel to the busbar. The current flows can be easily recognized when the circuit shown in FIG. I is compared with the circuit in FIG.

The line disconnectors (rows 5 and 6) can expediently = under the outer ones, the others between the inner phases of each busbar system be arranged.

As the plan shows, everyone can use the longitudinal and transverse coupling required disconnectors and circuit breakers arranged in a field division without causing dangerous approximations between the different tension Enter lines.

Claims (1)

PATENT CLAIMS: i. Electrical high-voltage switchgear with line and cross coupling device for a separable double busbar system finite disconnectors and only one circuit breaker, in which the disconnectors are arranged parallel to the busbars one behind the other and with their switching blades. lie parallel to the busbars in the closed state, characterized in that the disconnector sets (i, 3 or a, .1) of the circuit breaker (;) belonging to a respective Samirtelbar system (I or 11) on both sides of the corresponding line disconnector (5 or 6) are arranged in only one field division, where the field division is to be understood as the width dimension of a high-voltage branch in the direction of the busbars. =. Switchgear assembly according to Claim i, characterized in that the line is routed from the disconnector to the circuit breaker by means of a six-fold field overvoltage in a plane above the busbars. 3. Switchgear according to claim i and z, characterized in that the line disconnectors are arranged between the outer phases of each busbar riser s ysteins.