SU961018A1 - High voltage distributing apparatus - Google Patents

Description

(54) HIGH-SPEED DISTRIBUTION DEVICE

one

The invention relates to electrical engineering, in particular to electrical switchgears of high voltage 110 kV and above.

Switchgear high voltage devices are known that contain circuit breakers connected to a ring circuit with connecting elements of an electrical network between them, for example, power lines and transformers, jumpers with circuit breakers, each of which bypasses three series-connected ring circuit breakers. Each element of the electrical network is connected through three switches 1.

The disadvantages of these circuits are low operational reliability, since the damaged element is switched off by three power switches, and the cost is high (twelve switches are used in the circuit for nine connections).

The closest technical solution to the proposed one is a high voltage switchgear, including automatically controlling switching devices connected in a VOLTAGE polygon scheme

and shunted. by a total power switch, included in its diagonal

T2

The low cost of the known circuit is obvious, however, it uses disconnectors as automatically controlled switching devices and the short circuit current is turned off by a power switch after disconnecting disconnectors, the disconnection time of which is about 8 seconds. Thus, the short circuit time of the short circuit current is delayed by 10 s, which is unacceptable for modern power grids due to the large equipment damage during the indicated flow time of the short curtain current 20. In addition, the number of connections is limited to four. With an increase in the number of connections in the event of a short circuit on one of them, two or

25 more connections for a long time (25 seconds), which entails a complete shutdown of all mechanisms of consumers and violation of the technological regime of enterprises. The purpose of the invention is to increase reliability, speed, efficiency and increased functionality. This goal is achieved by the fact that in a high voltage switchgear, it turns on automatically controlled cathode devices connected in a multi-gang scheme and shunted by a common power switch included in its diagonal, the switchgear device contains an additional polygon and four load switches, pairwise connected between the points of attachment of the common shunt power switch of one polygon and diametrically opposite vertices of another multi-shaped The most distant from the points of connection of their common shunt power switch, at the same time, the automatically controlled switching devices of the specified polygon are made in the form of load switches. The drawing shows a diagram of the proposed high voltage switchgear. The device consists of two polygons 1 and 2, formed by switches 3-14 of the load (first) and secondly - of the switches 15-26 of the load, having respectively one common shunt switch 27 and 28 of power, each of which is included in its diagonal poly angle Polygons 1 and 2 are interconnected by load switches 29-32. The switches 29 and 31 of the load switch between the points of connection of the common shunt switch 27 of the power of polygon 1 and the diametrically opposite vertices of the other polygon 2, the most distant from the points of connection of their common shunt switch of the 28 power. A second pair of load switches 30 and 32 are connected between the common connection points of the shunt switch L 28 of the power of the polygon 2 and the diametrically opposite vertices of Polygon 1, the most distant from the connection points of the common shunt switch of the power 27. Polygon 1 has 33-40 connected in the form of power lines or transformers, polygon 2 has similar connections 41-4. All connections are provided with disconnectors (not shown) that operate automatically. The device works as follows. During a short circuit, for example, at connection 34, the breakers 3.5 and 29 of the load are turned off, the short circuit current is turned off by the common shunt switch 27 of the power of the polygon 1. In case of successful reclosure of the shunt switch of the power 27, the circuit is restored by turning on the breakers 3.5 and 29 of the load .. In case of unsuccessful reclosing, the switch on the load 4 is turned off, the load switch 3 is turned on, the load switch 29 and the common shunt switch 27 of the power of the polygon 1 are on. After disconnecting the damaged connection 34 azedinitelem (not shown) included in the cycle automatically incorporated - load switch 4, and switch the load 5, is reduced than the original scheme. If the switch fails 3 load or switch. 5, the action of the circuit breaker failure protection device circuit is switched off by the load switch 14 or the load switch 6 respectively. In this case, the intact connection 33 or 35 is disconnected. Upon failure of the common shunt switch 27 of the power of the polygon 1 (CWP; operation as follows. The switch 10 is turned off load, load switch 3, load switch 25, switch 26, connections 35, 36 and 37 are turned off by switches on the opposite side, then a short-circuit current Whose circuit is disconnected by common shunt power switch 28 of polygon 2. Thus, mutual redundancy of shunt power switches 27 and 28 is performed when one of them fails in the process of switching off the short circuit current at any of the connections. In case of unsuccessful automatic resetting of shunt power switch 28 in case of a short circuit at connection 34, the load switch 4 is turned off, the load switch 9 is switched on, and the connections 35, 36 and 37 are switched from the opposite side and obpschy shunt switch power polygon 28 2. If a successful reclosure diverter general power switch 28 are turned off load switch 4, a load switch 9, the switch 5 are turned on and the load attachment 35,36 and 37 of the switches of the opposite side. Damaged shunt switch 27 power; Polygon 1 is having

disconnected from all sides, 3,4,9,10,29 and 31 loads.

In the event of a short circuit at connection 35, the switches 5,7,25,26 are disconnected and the short circuit current is turned off by the common shunt switch 28 of the power of the polygon 2.

Thus, the switching devices of the first and second polygons interact, which allows to manage only one power switch in each polygon, and only the damaged element will be disconnected, whereas if the same damaged element 35 is disconnected in the case of operation polygon (switches 29-32 loads off. are turned on) it is necessary to disconnect the switches 6.3 loads and the general shunt switch 27 of power, i.e. together with the damaged attachment 35, the non-damaging attachment 34 will also be disabled.

Failure of the switch 5 load or switch 7 load will entail the work of breaker failure and shutdown switch 4 load or switch 8 load. This removes the intact connections 34 - or 36 respectively.

With the elimination of the short-lock on the connection 35 and the failure of the total shunt power switch 28 (the switches 5,7,25,26 load off) the scheme works as follows.

The switches 19,10,3 of the load are disconnected, as well as the connections 36,37,45,46,47 and 48 of the switches on the opposite side. The short-circuit current shuts off the common shunt power switch 27. The load switches 20.6 and 30 are disconnected during the dead time, the common shunt power switch 27, the load switch 10, connections 36,37, 45-48 (on the opposite side) are turned on.

Connections 36,37,45-48 disconnecting the OAC for a time of 0,36-0,4 s, which can be considered acceptable for distribution networks 110-220 kV, especially since the failure of the switch according to statistics of Soyuztechenergo occurs 1 time in 25-30 years .

Thus, the circuit has twice the reliability than is known, since the failure to disconnect the common shunt power switch in the switchgear according to the well-known pattern leads to full redemption of the latter, and only half of the connections in the proposed circuit.

This increase in the reliability of operation is achieved by the fact that in the proposed scheme the refusal to turn off the shunt power switch of one polygon is reserved

by disabling the shunt power switch of the second polygon. In addition, the advantage of the switchgear circuit is its speed due to the use of load breakers in it, the turn-on and cut-off times of which are 100 ms. While the prototype circuit uses disconnectors, the time

5 enable or disable which is 8 seconds. Such a significant time to enable or disable the disconnector does not allow to realize the known scheme, since

By disconnecting a short circuit at any connection, most consumers turn off, the technological process of which does not tolerate such a long-term reduction in the supply voltage.

five

The proposed switchgear scheme provides increased efficiency as compared with the known one, because those connections that are further for their polygon shunt switch are near for the second polygon shunt switch, which allows for a short

5 closure at any connection of both polygons disable only the damaged connection. At the same time, in the well-known scheme with eight connections and short-circuits further from the shunt connection switch (out of eight connections of the scheme, four of these are disconnected together with the damaged and intact connection 5, which reduces the cost-effectiveness and reliability of the scheme.

The constructive solution of the proposed scheme does not cause any special difficulties in the implementation of the switchgear, as the use of rigid busbar and longitudinal equipment in one row (multiple sectioning) gives a simple solution to a technical problem.

55

Claims (2)

Invention Formula A high-voltage switchgear, including automatically controlled commutation apparatus / connected in a polygon pattern and shunted by a common power switch included in its dia45, gonal, is different By the fact that, in order to increase reliability, speed, efficiency and expand functionality, the switchgear contains an additional polygon and four load switches connected in pairs between the points of connection of the common shunt power switch of one polygon and diametrically opposite vertices of another polygon most distant from the points connecting its common shunt power switch, while the automatically controlled switching devices of these polygons are designed as load switches. Sources of information taken into account in the examination l 1. USSR author's certificate 349053, cl. H 02 B 5 / 00,29.10.66. 2. USSR author's certificate 92507, cl. H 02 J 3/04, 20,12,49.