DE1182327B - High voltage switchgear - Google Patents

Description

High-voltage switchgear High-voltage switchgear is becoming more recent Increasingly over the years, it is composed of individual switching cells, each of which Power switch, disconnector, converter, relay and the like. Contains. Usually the above-mentioned components are mounted on a common switch truck and can be pulled out. With such a structure, each cell reaches a height of almost 2 m, and one more or less extensive switchgear arises from the fact that correspondingly many Cells are placed side by side. This has the consequence that a corresponding large floor space is required.

Sheet-encapsulated high-voltage switchgear has also become known, those made of box-shaped components, those next to each other and in isolated rooms stand on top of each other, are built up. In this arrangement, the box-shaped Modules are not independently operational components, they only contain circuit breakers, while a busbar system is located centrally within the encapsulated high-voltage cell is located.

Switch panels that can be assembled according to the modular principle are also known for high voltage purposes. Form at least two different building blocks an operational switchgear cell. The individual components of a complete switching cell can be stacked, and several such cells are next to each other erectable. Such an arrangement takes up a lot of space and means an unfavorable use of space. It is also known to have high voltage composable panels to be designed for wall mounting, with back-to-back installation possible is.

The invention relates to a high-voltage switchgear composed of switching cells, Each switching cell has circuit breakers, disconnectors, converters and the like, as well as all of them contains essential lines, which is characterized in that the switching cells Can be set up back to back one above the other and side by side in a manner known per se are.

Each cell consists of a withdrawable circuit breaker part and a plate-shaped part that contains all essential lines (compressed air lines) Power connections, busbars, control and reporting lines and the like. Of the The plate-shaped part is made up of a disk consisting primarily of cast resin formed, in which at least a part of the lines is embedded.

This design makes it possible to create switching cells, their overall height is less than, depending on the breaking capacity of the circuit breaker used 1.5 m. In this way it is possible to have the switching cells on several floors to be arranged one above the other. The individual complete switching cell is with optimal use of space to be arranged side by side, back to back and on top of each other.

An embodiment of the invention is shown schematically in the drawing. The system consists of a number of juxtaposed switching cells 20, each of which, as already mentioned, consists of an extendable and a fixed part. As suggested elsewhere, the fixed part is plate-shaped and contains all pipelines, power connections, control and signaling lines, which are at least partially embedded in cast resin. The withdrawable part contains the circuit breaker poles, which are set up one behind the other in the direction of withdrawal and are brought into connection with the busbars 21 by means of special entry contacts. For this purpose, the circuit breaker poles are raised or swiveled by a smaller amount after they have been retracted. The connection can also be established by adjusting the mating contacts on the busbars by a small amount in the direction of the circuit breaker poles after retraction.

The cells mentioned are in greater number in the exemplary embodiment placed next to each other and on three floors I, II, 111 also one above the other. the Busbars 21 indicated in the drawing each traverse one of these Floors. The busbars on each floor can be arranged horizontally or be arranged in a plane inclined to the direction of extension. The busbars are designed as pipes and are used including the pipes already mentioned in the fixed part of each cell as a collecting space for the switching gases. For sound absorption there are damping devices at a suitable point in the pipes, but also Filter or the like installed. Flap valves can also be arranged in the pipes in this way be that for the outflow of the switching gases a path in a certain direction in each Trap is respected. At a suitable point in this pipeline system, which is separated into phases a venting device is provided, from which the switching gases are led into the open can be.

Instead of the grouping of cells shown in the exemplary embodiment next to and on top of each other, a grouping can also be selected in which the cells Stand back to back, possibly on several floors.

At a suitable point of the entire system shown in the drawing, components 22 can be provided which contain all the pipelines for the overall system, in particular the pipelines for the air supply and the blown air.

In addition, cells 23 can be provided elsewhere in the overall system where the built-in and withdrawable circuit breakers are used to to couple the busbars arranged in the individual floors. It is namely in such a way that the totality of the cells on a floor is already one in itself closed system with a corresponding number of branches and that through preferably cells arranged one above the other can optionally be coupled. Each individual cell represents a junction field. Within the system, suitable Place special switch cells constructed in the same way that Form separating fields for the longitudinal busbar separation.

A common compressed air ring line can be used for the compressed air system are provided.

Any type of switch can be used for a system of this type will. In the case of low-oil switches, the busbars are expediently not as shown in the embodiment, above but below in the cells.

In order to also use the two-circuit breaker method for a system of this type To be able to use, an empty field is provided that only contains the compressed air tank contains.

The side of each cell facing the service aisle has a metal plate, that is grounded. At this point, measuring instruments, operating devices and, if necessary mimic diagrams must also be attached.

Basically, according to the invention, the cabinet for the necessary Protective relay installed separately from the switchgear shown. In this Relay cabinet can have the relays in the same grouping as the switching cells be arranged. The arrangement can also be made so that in the relay cabinet the relays are grouped according to type and function. To extend the one or another cell is a device that can be moved in front of the cell wall in the manner of a forklift truck intended.

Claims (1)

Claims: 1. High-voltage switchgear composed of switching cells, each switching cell containing circuit breakers, disconnectors, converters and the like, as well as all essential lines, characterized in that the switching cells (20) are back to back, one above the other and next to one another in a manner known per se can be set up. 2.High-voltage switchgear according to Claim 1, characterized in that each cell (20) consists of a retractable circuit breaker part and a fixed plate-shaped part which contains all the essential lines (compressed air lines, power connections, busbars, control and signaling lines, etc.) according to claims 1 and 2, characterized in that the individual cells (20) consist to a substantial extent of insulating material, in particular cast resin. 4. High-voltage switchgear according to claims 1 to 3, characterized in that the side of all cells (20 ) carries a grounded metal wall. 5. High-voltage switchgear according to claims 1 to 4, characterized in that the grounded front wall of the cells (20) is designed as a switchboard, is provided with measuring instruments and operating devices and optionally carries a mimic diagram. 6. High-voltage switchgear according to claims 1 to 5, characterized in that d ate the pipe system, possibly including the tubular busbars (21) , forms a collecting space for the switching gases with phase separation. 7. High-voltage switchgear according to claim 1 to 6, characterized in that the busbars (21) of each floor (I, TI, 11I) traverse the entire cells (20) and are supported by the plate-shaped components. B. High-voltage switchgear according to claim 1 to 7, characterized in that the entirety of the cells (20) of one floor forms a system and a busbar coupling can optionally be made by cells (23) preferably arranged one above the other. 9. High-voltage switchgear according to claim 1 to 8, characterized in that each individual cell (20) represents a junction field and that within the system special separating fields with circuit breakers, which serve as line isolators, are set up. 10. High-voltage switchgear according to claim 1 to 9, characterized in that the cabinet belonging to the system for the relays, in particular protective relays, is set up separately from the switchgear. 11. High-voltage switchgear according to claim 1 to 10, characterized in that the relays are arranged in the relay cabinet in the same grouping as the switching cells. 12. High-voltage switchgear according to claim 1 to 11, characterized in that the relays are combined according to type and function in the relay cabinet. 13. High-voltage switchgear according to claim 1 to 12, characterized in that a mobile device in the manner of a forklift truck is arranged in front of the cell wall for extending a cell (20). Considered publications: German Patent Nos. 940 662, 966 538; German patent application S 9896 VIII d / 21 c (published on February 5, 1953; German utility model No. 1768 267; French patent specifications No. 1 155 192, 1243 406; Swiss patent specification No. 351318.