RU203205U1 - GAS-INSULATED SWITCHING UNIT CELL - Google Patents

Abstract

The utility model relates to electrical engineering and can be used in gas-insulated switchgears. The essence of the utility model lies in the fact that in a known cell of a complete switchgear with gas insulation, containing a supporting metal structure, a switch, a first electrical circuit connecting the first terminal of the switch with the first busbar, a second electrical circuit connecting the second terminal of the switch with the second busbar, as well as current transformers, disconnectors-earthing switches and current conductors, according to the utility model, in the first electrical circuit the switch, the current transformer, the disconnector-earthing switch and the first busbar are connected to each other in series in the specified order, and the current transformer is installed so that its longitudinal axis parallel to the longitudinal axis of the circuit breaker, while the longitudinal axis of the current transformer of the second electric circuit is oriented perpendicular to the longitudinal axis of the circuit breaker. Execution of the cell according to the formula of the utility model reduces the length of the first and second electrical circuits, the weight and height of the cell to a size sufficient for transportation when assembled. 2 ill.

Description

The utility model relates to electrical engineering and can be used in gas-insulated switchgear (GIS).

Known cell of a complete switchgear with gas insulation, containing a supporting metal structure, a switch, a first electrical circuit connecting the first terminal of the switch to the first busbar, a second electrical circuit connecting the second terminal of the switch to the second busbar, as well as current transformers, disconnectors, grounding switches and conductors (catalog EA ELECTRIC APPARATUS, p. 11, bottom photo on the right).

The disadvantages of this cell, adopted as a prototype, are: increased overall size, for example, in height and, therefore, the need to transport the cell disassembled and assemble it at the installation site of the switchgear.

The objective of this utility model is to create a gas insulated switchgear cell with reduced overall dimensions, for example, in height, for transporting the assembled cell.

The solution to this problem is achieved by the fact that in a known cell of a complete switchgear with gas insulation, containing a supporting metal structure, a switch, a first electrical circuit connecting the first terminal of the switch to the first busbar, a second electrical circuit connecting the second terminal of the switch to the second busbar, and also current transformers, disconnectors-grounding switches and current conductors, according to the utility model, in the first electrical circuit, the switch, the current transformer, the disconnector-grounding switch and the first busbar are connected to each other in series, in the specified order, and the current transformer is installed so that its longitudinal axis parallel to the longitudinal axis of the circuit breaker, while the longitudinal axis of the current transformer of the second electric circuit is oriented perpendicular to the longitudinal axis of the circuit breaker.

The essence of the utility model is illustrated by drawings: FIG. 1 shows the main view of the inventive cell, FIG. 2 is a top view of the cell.

The cell consists of a supporting metal structure 1 (Fig. 1 and Fig. 2), a switch 2 with first 3 and second 4 terminals and a drive 5, a first electrical circuit connecting the first terminal 3 of the switch 2 with the first busbar 6, a second electrical circuit connecting the second terminal 4 of the switch 2 with the second busbar 7. In the first electrical circuit, the switch 2, the current transformer 8, the disconnector-earthing switch 9 with the drive 14 and the first busbar 6 are connected to each other in series in the indicated order, while the current transformer 8 is made with lateral connection to the first terminal 3 of the switch 2 and is installed so that its longitudinal axis is parallel to the longitudinal axis B of the switch 2. The second electrical circuit contains a current transformer 10, the longitudinal axis T _{2 of} which is perpendicular to the longitudinal axis B of the switch 2, as well as an earthing switch 11 s drive 15 and conductors 12, 13. The supporting metal structure 1 is made in the form of a frame with fastening elements for the busbars 6, 7 and spruce 2.

The claimed cell works in the usual way.

In the "on" position of the switch 2 and disconnectors 9 and 11, the current of the first busbar 6 flows through the first electrical circuit, through the switch 2 and the second electrical circuit to the second busbar 7. In the first electrical circuit, the switch 2, the current transformer 8, the disconnector-earthing switch 9 and the first busbar 7 are connected to each other in series, there are no conductors between them, which reduces the length of the first electrical circuit to a minimum. The position of the current transformer 8, in which its longitudinal axis is parallel to the longitudinal axis of the circuit breaker 2, makes it possible to reduce the installation height of the current lead 12 and shorten the current lead 13, which shortens the length of the second electrical circuit and reduces the height of the cell to a size sufficient for its transportation when assembled (less than 2, 4 m). If the layout of the cell is made in such a way when the cell is rotated in space by 90 ° and the switch 2 with the drive 5 are located vertically, then the reduction in the overall size of the cell will be along its length.

Thus, the implementation of the cell according to the formula of the utility model reduces the length of the first and second electric circuits, the mass and height of the cell to a size sufficient for transportation when assembled. This testifies to the solution of the task at hand.

The declared utility model has been implemented at ZETO CJSC (Velikiye Luki) in the KRUE-110 cell.

Claims (1)

A cubicle of a gas-insulated switchgear containing a supporting metal structure, a circuit breaker, a first electrical circuit connecting the first terminal of the circuit breaker to the first busbar, a second electrical circuit connecting the second terminal of the switch to the second busbar, as well as current transformers, disconnecting switches and conductors , characterized in that in the first electrical circuit the switch, the current transformer, the disconnector - the earthing switch and the first busbar are connected to each other in series in the specified order, and the current transformer is installed so that its longitudinal axis is parallel to the longitudinal axis of the switch, while the longitudinal axis of the transformer current of the second electric circuit is oriented perpendicular to the longitudinal axis of the switch.

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