SU326679A1 - - Google Patents

Description

The invention relates to the field of design and construction of descendants and is intended to receive and accelerate electrical energy of 35-220 square meters.

There is an open switchgear, made but cxeiie "duct, which holds two power cables and a jumper with a mp switch, two lines, two transformers with a circuit breaker. 1 l1p and two repair jumpers with corroded plugs.

The disadvantages of the known open-air distribution system;) Stroist1za is that the switch from the first bridge, for example, to the more advanced bus system, connected with a breaker section, connected with the prospective load growth of the energy system, is significantly complicated, since It is necessary to install switches with additional non-flexible components with a 110-piece bus-bar and pzol of mountains, which increases the cost of installation and reduces reliable operation. In addition, such a transition is associated with the need for de-energizing alternately first one and then the other half of the open switchgear.

the impractical scheme “bridge to other circuits with two additional retractables, increased case of operation, cheapening and construction ycKOpeiine, due to the refusal to use additional lines of switches, unnecessary foundations; 1 p and racks, as well as reduced size of the site.

This is achieved by the fact that the outgoing lines are provided with separators, and their exits are located below the corner 90 to the supply lines in the AiecTe mouth;

Ia fng. 1 demonstrates the proposed distribution of the high-voltage spruce device, the diagram of private connections; in fig. 2, a high voltage switchgear, plan view.

The open high-voltage switchgear is made according to the "bridge" scheme in the form of two connected through a working jumper with a switch / and a real circuit. A jumper with 2-5 parts disconnectors, each of which consists of an L11N11I cell with a switch 6, 7 , Transformer cells with a separator 8, 9 and four; 1ki of the outgoing line with a separator 10, 11 and current transformers 12, 13. The structural part of the open switchgear, made of unified reinforced concrete, consists of six carriers

supports with flexible wires suspended on insulators, foundations and a set of supporting posts for installation of switching equipment, voltage transformers 14, 15, current transformers 12, 13 and arresters 16, 17. The busbars on the remaining sections are also made with a flexible wire.

For the cells of waste, their lines are used in the end parts of the open switchgear with access to the opposite sides of each other at an angle of 90 ° with respect to the direction of the outputs of the threading lines. The proposed open switchgear design requires a minimum size site.

The open switchgear is powered by two overhead transmission lines with electricity distribution between the transformers and the outgoing lines. The presence of switch 1 in the working jumper allows, by switching, to cross-work each half of the bridge from the other half of the supply line or parallel operation of two transformers from either of the supply lines. Through the working jumper is also possible transfer of transit power. Under emergency conditions, in the event of damage on the higher voltage side within the open switchgear and in the area of current transformers, the switch 6, 7 of the damaged half of the bridge switches off automatically without disturbing the work of the intact part. In case of damage outside the range of current transformers, the corresponding section is switched off by a switch at the supply substation. The damage in the transformer or on the outgoing line is disconnected by a suitable separator 10, 1 during an empty pause, provided by disconnecting the power supply switch 6, 7 and, in some cases, disconnecting the working jumper 1, and then restoring the power of the unimproved area using automatic reclosing. If repair or revision of switch 1 of the working jumper is necessary, without repairing the operation of the open switchgear, a repair jumper with disconnectors 4 and 5 is used.

If necessary, revision or repair switch 1 working jumper without disturbing the transfer of transit power

A jumper with disconnectors 2 and is used.

Subject invention

An open high-voltage switchgear, made according to the bridge scheme and containing two supply lines, a working jumper with switches, two outgoing lines, two transformers with

separators and two repair jumpers with disconnectors, characterized in that, in order to be able to switch to other schemes without disrupting the power supply of consumers and reducing the area,

the lines are equipped with separators, and their outputs are made at an angle of 90 ° to the supply lines at the place of installation of the working jumper.

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