DE3543450A1 - Gas-insulated switching apparatus - Google Patents

Abstract

A gas-insulated switching apparatus has a gas-filled housing part (3a, 3b, 4, 5) which is connected to another gas-filled part via a gas line (50, 60, 70) into which a gas manometer (52, 62, 72) or a switch that responds to pressure is connected. The gas manometer (52, 62, 72) or the switch that responds to pressure indicates the occurrence of an (internal) defect and the point where this defect occurred. <IMAGE>

Description

Title: Gas-insulated switchgear

Gas Insulated Switchgear The invention relates generally to Improvements to gas-insulated switchgear and in particular to the monitoring the gas pressure in a gas-insulated switchgear.

A typical well-known gas-insulated switchgear is shown below described with reference to Fig. 1 in structure and mode of operation. The switching device according to Fig. 1 comprises an airtight housing divided into busbar sections 3a, 3b 1, a supply line or feeder part 4 and a circuit breaker or circuit breaker part 5. The busbar section 3a has a busbar 31a and a circuit breaker 32a, while the busbar section 3b has a busbar 31b and a Has disconnector 32b. The circuit breaker part 5 contains a circuit breaker or circuit breaker 33. These parts are separated from each other by separators 2a, 2b, 2c and 2d separated. The housing is filled with an insulating gas such as gaseous SF6.

For each housing part there is a pressure switch 10 with an interposed one Valve 8 is provided. These pressure switches 10 detect abnormal pressures in each part.

A normally closed valve 9 is opened for maintenance purposes, whereupon the gas pressure is measured by means of a manometer 12. Becomes an abnormal Pressure measured, a gas cylinder is connected to a connection 11, whereupon Introduced gas into the relevant part 3a, 3b, 4 or 5 via the valves 9 and 8 will.

Since this known gas-insulated switching device each have a pressure switch 10 is required for each housing part, the device is complicated as a whole and expensive.

The object of the invention is to provide an improved gas-insulated switching device to provide which is simple in structure and therefore high in operational reliability guaranteed.

The invention relates to a gas-insulated switching device that is characterized is a connecting means through at least three housing parts filled with an insulating gas to connect the gas-filled parts concerned with one adjacent one gas-filled part in rows with one another and gas pressure gauges equipped with drag pointers to measure the gas pressure in each lanyard.

In a further embodiment, the invention relates to a gas-insulated one Switching device, which is characterized by several housing parts, each with an insulating gas are filled, connecting means for connecting the various gas-filled (housing) parts in order to keep them at the same pressure, and on Pressure-sensitive switches that are in the respective, held at the same pressure gas-filled parts are switched on or connected to them.

The following are preferred embodiments of the invention in comparison to the prior art explained in more detail with reference to the drawing. They show: FIG. 1 a schematic representation of a previous gas-insulated switching device, FIG. 2 a schematic representation of a gas-insulated switching device according to one embodiment of the invention, Fig. 3 is a schematic representation of another embodiment of the invention and FIGS. 4 to 6 are schematic representations of further embodiments the invention.

After Fig. 1 has already been explained at the outset, are in the following preferred embodiments of the gas-insulated switching device according to the invention based on 2 to 6 described.

The gas-insulated switching device shown in Fig. 2 comprises an in several busbar sections 3a, 3b, a supply line or feeder part 4 and a circuit breaker or circuit breaker part 5 divided, airtight Case 1. The bus bar section 3a includes a bus bar 31a and a Isolating switch 32, while the busbar section 3b is a busbar 31b and a circuit breaker 32b.

In the circuit breaker part 5 is a circuit breaker or circuit breaker 33 provided. The parts are separated from one another by separators 2a, 2b, 2c and 2d and filled with an insulating gas such as gaseous SF6. A gas line 50 as a connecting means connects the feeder part 4 to the busbar section 3b. Another gas pipe 60 as a connecting means connects the Busbar section 3b with the busbar section 3a. Another gas line 70 as a connecting means connects the busbar section 3a to the circuit breaker part 5. Each gas line 50, 60 and 70 have a considerably smaller volume than the respective gas-filled ones Parts 3a, 3b, 4 and 5 and is equipped with a pressure gauge 52, 62 or 72 with a drag pointer tied together.

If in the supply or feeder section (feeder section) 4 an inner Fault occurs, only the drag pointer of the gas pressure meter 52 shows a high Pressure on. In the event of a malfunction occurring in the feeder part 4, the pressure rises in the former quickly. The high pressure is through the gas line 50 from the feeder part 4 to Transfer busbar section 3b. The pressure increase in the gas line 50 corresponds approximately that in the feeder part 4. Accordingly, the drag pointer shows the Gas pressure gauge 52 to the high pressure. On the other hand, the one with the gas pipe shows 60 connected gas pressure meter 62 does not show the high pressure, because the from the feeder part 4 transmitted high pressure in the busbar section 3b sufficiently distributed and therefore is not transmitted to gas line 60.

If a failure occurs in the busbar section 3b, they show The drag pointer of the gas pressure gauges 52 and 62 indicate a high pressure. If a malfunction occurs in the busbar section 3b, the pressure in this has risen rapidly. As a result, high pressure becomes high from the busbar portion 3b via the gas pipe 60 to the busbar section 3a and via the gas line 50 to the feeder part 4. The pressure increases in the gas lines 50 and 60 correspond approximately to the pressure increase in the gas-filled busbar section 3b.

Accordingly, the drag pointers of gas pressure gauges 52 and 62 point, respectively high pressure. On the other hand, the shows connected to the gas line 70 Gas pressure gauge 72 does not show high pressure because the gas pressure from the busbar section 3b spreads or distributes to a sufficient extent to the busbar section 3a, so that no high pressure is transmitted to the gas line 70.

A malfunction occurring in the feeder part 4 causes a high pressure display on gas pressure meter 52. An internal fault in busbar section 3b has high pressure indicators on the gas pressure gauges 52 and 62 result. A fault in the busbar section 3b is shown as a high pressure display on gas pressure gauges 62 and 72 while a fault in the circuit breaker part 5 a high pressure display on the gas pressure meter 72 has the consequence.

In other configurations, three, five or more gas-filled Parts are present.

Fig. 3 shows another embodiment of the gas-insulated switching device according to the invention. A pressure switch 100 is connected to the feeder part via a valve 8 4 connected. Another pressure switch 110 is connected to the circuit breaker part via a valve 8 5 connected. The valves 8 are normally open and assigned, normally closed valves 9 are connected to associated connections 11. Busbar sections 3a, 3b are connected via normally open valves 14a, 14c and

14b, 14d connected to the feeder part 4, so that the busbar section 3a, 3b and the feeder part 4 are kept at the same gas pressure.

With one either in the feeder part 4 or one of the busbar sections 3a, 3b occurring malfunction, the pressure switch 100 becomes effective. In the case of an internal The pressure switch 110 responds to a fault in the circuit breaker part 5.

If the pressure switch 100 works in the event of a fault in the feeder part 4, the valves 14c and 14d are closed by hand. When closing this (manually actuatable) valves 14c and 14d can admittedly a small amount of decomposed gas in the busbar sections 3a and 3b flow, but this amount of gas is not so great that it would have a harmful influence. The gas-insulated switching device can therefore remain temporarily operational.

For maintenance purposes, a normally closed valve 9 opened and the gas pressure measured by means of the gas pressure meter 12. If doing a abnormal pressure is measured, an unillustrated gas cylinder with a Connection 11 connected, and the parts 3a, 3b and 4 are via the valves 8 and 9 charged with gas.

In the embodiment according to FIG. 4, one gas pressure meter 12 to a branch between two valves 14a and 14c and a branch between two valves 14b and 14d be connected.

In a further embodiment (Fig. 5) the feeder part 4 is a Valve 14b connected to the busbar section 3b.

In the embodiment according to FIG. 6, there are three pressure switches 100, 110 and 120 provided.

As described above in various exemplary embodiments, possesses the gas-insulated switching device according to the invention compared to the prior art Technology has a considerably simplified structure, so that there is consequently a higher operational reliability offers.

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Claims (4)

Claims: 1. Gas-insulated switching device, characterized by at least three housing parts (3a, 3b, 4, 5) filled with an insulating gas, connecting means (50, 60, 70) for connecting the respective gas-filled parts with one each adjacent gas-filled part in rows with one another and equipped with drag pointers Gas pressure gauges (52, 62, 72) for measuring the gas pressure in each connecting means. 2. Switching device according to claim 1, characterized in that each The connecting means is a gas pipe. 3. Gas-insulated switching device, characterized by several housing parts, which are each filled with an insulating gas, connecting means for connecting the different gas-filled (housing) parts in order to keep them at the same pressure hold, and pressure-sensitive switches that are in the respective, on the same Gas-filled parts maintained under pressure are switched on or connected to them. 4. Switching device according to claim 3, characterized in that each The connecting means is a gas pipe.