SU259221A1 - - Google Patents

Description

OPEN

The invention relates to power plants, which include open high voltage switchgear (ORU). In installations with a large number of waste circuits (lipids, power transformers, etc.), the use of high-reliability circuits for electrical connections is recommended. Such schemes include one-and-a-half schemes, polygons and others.

The previously used circuits and designs of the switchyard had relatively low reliability or did not allow the circuit to be changed in the process of developing an object and expanding it with sequential queues from the simplest (for example, bridge or triangle schemes) to the most complex circuits used in power engineering ( for example, a partitioned "half-hour or its modification" one-and-a-half bus — transformer, "associated polygons, etc.).

Also known are open high-voltage switchgears made of switch chains connected in a one-and-a-half scheme, containing switch cells located in one row, portals located on opposite sides of switch cells, and busbar bridges.

They are widely used since the transition from a cell to a single chain cell, as well as the output of lines in the opposite direction from its bus switch, require the occupation of adjacent unequipped cells and the construction of sections of auxiliary busbars. This significantly increases the occupancy of the open switchgear area and the cost of building tire portals with their foundations, cable communications, highways along the switchyard, insulation and busbar of the open switchgear, etc.

The proposed device differs from the known ones in that series-connected terminals of the switches of each chain are simultaneously connected to opposite portals and bus bridges are installed between the indicated terminals of the switches. FIG. 1 shows an example of the filling circuit of the device described with its development from the “triangle” circuit (position a) through intermediate circuits “quadrilateral or bus circuits - transformer (position b) to the circuit“ one-and-a-half bus - transformer (position c) or “one and a half in pure form (position d); in fig. 2 - device diagram, section. HIGH VOLTAGE DISTRIBUTION DEVICE

devices and the occupation of three adjacent cells for equipping one chain of a one-and-a-half scheme. Between each busbar system 4 and the equipment of the cells, output portals 5 are installed in two rows, and the connections of the chain of one-and-a-half schemes are made zigzagged with the help of "skew links 6 tensioned between opposite output portals of neighboring cells connecting the end of one and the other cells Due to this, the circuit nodes 7 of the little ones for affixing the branches are provided on the output portals on both sides of the device, which allows for the withdrawal of any branch in either direction. In this regard, there is a need for additional adjacent cells, as well as sections of optional busbars to make such a conclusion.

Thus, the described structure of the switchgear allows it to carry out any of the schemes used in the power industry and expand it with a corresponding change in the scheme in the necessary sequence from the simplest to the most complex. This requires a very small amount of work on the reconstruction of the switchyard and the minimum shutdown time

individual cells for its implementation (dismantling or installation of individual sections of the field in the limits of individual cells).

In addition, the open switchgear structure allows easy separation of both buses by switches, which requires three cells, as well as any of the common schemes for connecting pull-by reactors: blind to the line, through switches to the line or to the outdoor busbars.

Subject and s about b

An open high-voltage switchgear, made from the toggles of switches connected in a one-and-a-half scheme, containing 1, its switch cells located in one row, portals located on opposite sides of the switch cells, and busbars, in order to simplify devices and the possibility of switching to other connection schemes; the successively connected terminals of the switches of each cenochka are simultaneously connected to opposite portals and between the indicated terminals of the switches Lei installed bus bridges.