SU1029292A1 - High-voltage switch-gear - Google Patents

Abstract

I. high voltage distribution devices, J Cell Cell 1 comprising two rows of opposite cells carrying structure of tires prefabricated connecting 19schie pro.tivolezhaschih cells of like phase and fixed to the supporting structure, characterized in that, in order to simplify the design and material consumption umenscheni The prefabricated ladders are made of two alternating parts: a horizontal part connecting each phase of the first row cell with the same row phase of the second row cell, and a jumper connected by a middle part to the carrier frame. uktsii connecting the phase cells of the second row with the same name of the first phase of the cell row. 2. A device according to claim 1, characterized in that said rows of cells are offset relative to each other by half the width of the cell. L w w 1C 00 1C f veu / fo

Description

The invention relates to electrical engineering and can be used in power plants, substations and industrial plants having high-voltage switchgears. High-voltage switchgear is known that contains electrical cells phase-wired by busbars 1. .. Bus-switch systems are used in these switchgears, which can be suspended in horizontal or vertical planes with the help of a conductor of insulators. Since busbars occupy a significant part of the switchgear area, reducing the space they occupy is one of the technical tasks of creating an economical switchboard layout. The closest to the invention in its technical essence and the achieved result is a high voltage switchgear comprising at least three opposite cells located on both sides of the phase connecting busbars 2. However, the horizontal busbar system of the specified device is The electrical distance between the bus phases and the ground requires a large area, up to lO-lS / q of the area occupied by the high-voltage switchgear. In addition, up to 80% of all suspended high voltage insulators of a high-voltage switchgear, which are attached to special metal structures, support the busbars. All this makes the design of the specified switchgear complex and expensive. The aim of the invention is to simplify the design and reduce the material consumption of the switchgear by reducing the length of busbars and the number of suspended wire insulators. The goal is achieved by the fact that in a high voltage switchgear containing two rows of opposite cells, a supporting structure, busbars connecting the same phases of opposite cells and mounted on the supporting structure, the busbars are made of two alternating parts: a horizontal part, connecting each phase of the cell of the first row with the same phase of the cell of the second row, and jumpers suspended by the middle part of the supporting structure, connecting the phase of the cell of the second row with the same phase cells of the first row. In addition, for optimal reduction in busbar length, the indicated cell rows are offset relative to each other by half the cell width. FIG. 1 shows the proposed device, the plan; in fig. 2 shows section A-A in FIG. one; in fig. 3 - axonometric of the proposed device. The distribution device contains two rows of opposing cells 1,2,3 and 4. Moreover, cells 1 and 2 belong to the first row, and cells 3 and 4 to the second row. The first and second rows of cells are offset relative to each other by half the width of the cell. Disconnectors of 5 cells with phases A, B, and C are used to connect cells 1-4 to collective shells. Each cell 1-4 has a three-phase disconnector 5 with phases A, B, and C, which is used to connect the cell to the teams. Busbars are made of two alternating parts: a horizontal part 6 placed at the level of electrical contacts 7 of the disconnector 5 and connecting each phase, for example, A cell 1 of the first row with a phase A of the opposite cell 3 of the second row, jumper 8, dimmed by the middle part on the bushings of the insulators 9 to the beam of the portal 10, connecting phase A of cell 3 of the second row with phase A of cell 2 of the first row. Next, phase A of cell 2 of the first row is connected by a horizontal bus 6 with phase A of cell 4 of the second row. In the same way, phases B and C of the disconnectors of 5 cells 1 4 of both rows are interconnected. The proposed design of prefabs simplifies the design of the switchgear, reduces the area it occupies by reducing the length of the busbars, simplifies installation and operation, and makes the switchgear much simpler.

Claims (2)

1. HIGH VOLTAGE DISTRIBUTION DEVICE, comprising two rows of opposite cells, a supporting structure, busbars connecting the same phases of opposite cells and fixed to the supporting structure, characterized in that, in order to simplify the design and reduce material consumption, the busbars are made of two alternating parts: the horizontal part connecting each phase of the cell of the first row with the same phase of the cell of the second row, and a bridge suspended by the middle part to the supporting structure connecting the in the cell of the second row with the first row of the homonymous phase cells. 2. The device by π. 1, characterized in that said rows of cells are offset relative to each other by half the width of the cell. ® FIG. 7