DE2539996A1 - THREE-PHASE ENCLOSED, COMPRESSED GAS INSULATED HIGH-VOLTAGE SWITCHGEAR - Google Patents

Abstract

The high-voltage switching installation consists of switch panels having in each case one power circuit breaker, interrupter circuit breaker and earthing circuit breaker and a converter, and having at least one common busbar. In order to prevent bends in the conductors which connect the individual abovementioned components of the switching installation, with the effect of simplifying especially the earthing circuit breaker and of implementing circuits in the manner of the 11/2 power circuit breaker method, coupling panel and H-circuit, the phase conductors (2) of the busbar (3, 4) are arranged in a plane. In the case of a horizontal busbar (3, 4) its phase conductors (2) lie in a plane one above the other and the phase conductors of a conductor outlet (5) are arranged offset with respect to one another in said conductor outlet (5), transversely with respect thereto, such that in the case of the transition of said busbar into a conductor guide (6) at right angles thereto, and subsequently horizontal conductor guide (7), the phase conductors in each case lie in a plane side-by-side, the interrupter drive (17) being arranged in the plane of the phase conductors of the conductor outlet (5). <IMAGE>

Description

Three-phase encapsulated, pressurized gas-insulated high-voltage switchgear The invention relates to a three-phase encapsulated, pressurized gas-insulated high-voltage switchgear, consisting of switch panels with a circuit breaker, disconnector and earthing switch, Converters and, if necessary, further devices and at least one busbar.

Because of the small space requirement - only about 10% compared to conventional ones Switchgear - are the aforementioned high-voltage switchgears, especially in areas high energy demand such as large cities and industrial centers.

In the known high-voltage switchgear, the phase conductors, seen in cross section, arranged in the corner points of a triangle. This requires that for the conductive connection of the individual components such as busbars, disconnectors, Circuit breakers, the conductors have to be cranked, which turns out to be particularly complex and proves impractical, especially since this geometric arrangement of the ladder makes the execution the earthing switch has an unfavorable effect, in which each switching pole has its own Drive is to be provided or a common drive can only be realized with great difficulty leaves. The aforementioned disadvantages are particularly noticeable in the implementation of circuits of the type 1 1/2-circuit breaker method, coupling field and H circuit, as they are often applied to antigens intended for export.

The invention is based on the object of arranging the phase conductors in such a way that that the production of conductive connections between the components of the high-voltage switchgear is simplified and also has a favorable effect on the arrangement of the earthing switch.

According to the invention, this object is achieved in that the phase conductors are arranged in one plane and that the capsule has an oval cross-section.

Further advantageous embodiments of the invention are set out in the subclaims contain.

The advantages achieved with the invention are in particular: that the production of conductive connections between the components of the high-voltage switchgear is possible with straight phase conductors, so that they occur in switchgear construction the circuits can be easily implemented and the phase conductors for this purpose do not require any special processing, such as crimping or twisting. aside from that the arrangement of the phase conductors in one plane creates the constructive design of the earthing switch favorably influenced, now with a simple, common Drive for the three switching poles gets by.

An embodiment of the invention is shown in the drawing and is described in more detail below.

It shows: FIG. 1 a cross section through a three-phase switchgear panel encapsulated, pressurized gas insulated high-voltage switchgear with double silicon rail, FIG. 2 shows a section in plane II-II of the switch panel shown in FIG.

The two aforementioned figures show a switchgear panel 1 of a high-voltage switchgear can be seen, the phase conductors 2 are arranged in one plane. The phase conductors 2 are in a horizontal arrangement of the busbars 3, 4 in one plane one above the other, wherein the phase conductors in a conductor outlet 5 transversely to this offset from one another are arranged (Fig. 2) that the transition to a vertical and then horizontal LeiterfuhruXlg 6, 7 are the same in one plane next to each other. Corresponding the conductor arrangement is the switchgear with an encapsulation 8 of oval cross-section which is composed of individual capsule parts which are attached to one another will. The individual components are arranged so that a circuit breaker 9 is optional can be connected to one of the two busbars 3, 4 via isolators 10, 11, while From the power switch in the direction of the outlet, a current transformer 12, outlet disconnector 13 with voltage transformer 14 and earthing switch 15 with cable termination 16 added are. Schaltstechniscll provides the aforementioned switch panel a double busbar with departure.

Likewise, other circuit examples such as 1 1/2 circuit breaker methbde, Coupling field or H circuit with regard to the conductor connections according to the invention technically easy to implement.

Claims (4)

Claims 1. Three-phase encapsulated, pressurized gas insulated high-voltage switchgear, consisting of panels with a circuit breaker, disconnector and earthing switch, Converters and, if necessary, further devices and with at least one busbar, characterized in that the Pb & sen conductors (2) are arranged in one plane, and that the island (8) has an oval cross-section. 2. Three-phase encapsulated, pressurized gas-insulated high-voltage switchgear, consisting of panels with a circuit breaker, disconnector and earthing switch, Transformers and, if necessary, further devices and at least one busbar, characterized in that the phase conductors (2) are arranged in one plane, and that the capsule (8) has a round cross-section. 3. Switchgear according to claim 1 or 2, characterized in that if the busbar is arranged horizontally, the phase conductors (2) are in one plane lie one above the other and that in a conductor outlet (5) transversely to this, its head so offset to one another that when transitioning to a vertical one and then horizontal ladder routing (6 or 7), the ladder each in one Next to each other. 4. Switchgear according to one or more of claims 1 to 3, characterized characterized in that the disconnector drive (17) in the conductor outlet (5) between Sarnrnel rail and perpendicular to the conductor guide (6) in the plane of the phase conductors (2).