SU525187A2 - High voltage switchgear - Google Patents

Claims (2)

This voltage is switched on according to the improved one-and-a-half scheme. The switches switch sixteen elements of the electrical network (with connections} 25-4 O; of them there are all eight transravatal blocks (bridges) for the transmission of direct current 25-32, four transmission lines, two groups of synchronous compensators 37 and 38 connected via transformers, and two three-phase batteries of static capacitors 39 and 4 O. In some cases, the backup phase of the battery of static capacitors 41 and the switches 42 and 43 may be additionally included. At least two switches are connected between all single connections, o they are included in the so-called staggered order, which guarantees that two of them are not simultaneously disconnected when any switch is removed for repair and in the event of an accident with any other switch or with an electrical network element (attachment). accidents - shutdown of two opposite connections, in case of short circuit (or in case of failure to close short circuit) in a switch In some cases, for example, due to stability, short circuit current limiting, provide In order to ensure reliable operation of the grid control, etc., long-term operation of the switchgear is preferable (Fig. 1 in the form of two separate parts, in this example, when the switchgear is divided in half. For this, it is enough to turn off the switches 4, 2О, 8, 24. In this case, each half of the circuit will switch eight connections; four conversion units, two lines, one synchronous compensator and one battery of static capacitors. When indicated in FIG. When these connections are switched on, the network elements of the same name will remain on at the distance of two switches. However, angular connections, for example 35, 30, 38 and 31, on the right-hand section will not be turned on after three, but after two switches. This will cause, for example, when switching the switch 16 to repair and for an accident (short circuit or failure) of switch 22, the connections O, 32, 38 go off, there are three connections. there will be several cases in both sections; in total, in the switchgear, there is some chance of three power outages; In cases where the operation of the divided sections is long, this reduces reliability and is undesirable. In cases where the power and responsibility of the installation and the detachment of the separate operation mode are large and this disadvantage is significant, it can be eliminated, according to the invention, by inserting internal and longitudinal jumpers in each pair, in FIG. 1 between switches 1–8 and 4–5, as well as 17–24 and 2 –21 in the middle of the circuit, four disconnectors 44, 45, 46 and 47, 48, 49, 50, and 51, respectively, connected in a square circuit. At the same time, switching the circuit to the partition. The two parts work as follows. Normally, switches 42, 43 are disconnected or absent, disconnectors 44, 45, 48 and 49 are on, and disconnectors 46, 47, 50, 51 are disconnected, that is, the circuit operates as a whole. For dividing the circuit into two parts (half), the switches 4, 20, 8, 24 are turned off; disconnecting switches 44, 45, 48, 49 are disconnected (since these disconnectors are located in jumpers already disconnected by the corresponding switches, the disconnection is unrestricted without any current), switch on disconnectors 46, 47, 50, 51. After that, both halves ( the parts of the switchgear are turned on again with improved one-and-a-half circuits, when each connection is switched on through three switches, and continues to operate as reliably as the original combined circuit worked; disabling the three connections will not take place. It is significant that already after switching off the switches 4, 2О, 8 and 24, the circuit is partitioned and operates normally, as a result of which switching of the disconnectors can be performed without haste, which guarantees no errors. The disconnectors in the jumpers can be switched on and as shown in FIG. 2. In this case, the disconnector 48 is not installed, and it is used as already existing in the circuit to disconnect 52 to switch off & 2O, This inclusion saves two disconnected grids. If in one of the sections the odd number of connections, for example in FIG. 1, there is no {; connection to the connector 37 and, therefore, the switch 8 is not installed, the jumps with the disconnectors 44, 45, 46, 47 are made to the left of the switch 4. After being divided into two sections, the switch 4 (during avoiding the inclusion of ZOR and 35 connections under one switch) will turn on to the right section. If necessary, to provide fast and automatic (without switchings of connectors) combining sections — an additional switch is provided in the scheme, for example, as shown in FIG. 3, with the switch 42, which is turned on, sections are connected, and then the disconnectors 48, 49 are turned off, the disconnectors 50 and 51 are disconnected (this is possible because they are bypassed), and then the disconnectors in the upper jumper are switched and the switch 42 is disconnected. the two parts are mode events and are rarely performed, so there is enough time for switching operations, which virtually eliminates errors. In some cases, the circuit provides an element of the electrical network, which can, if necessary, be connected to one or the other part of the circuit. Such an attachment may be, for example, the backup phase of the capacitor bank 41. In this case (Fig. 1), a switch 43 is additionally installed and the backup phase of the capacitor battery is switched between the switches 42 and 43, which are performed with phase drives, which allows the backup the phase of the battery in place of any phase of the main capacitor batteries 39 and 4O. In this case, the jumper with switches 42 and 43 is also used for quick 25 33 26 switching on parts for joint operation, for which the disconnectors of the backup phase of capacitor battery 41 are temporarily disconnected. The described example relates to a transformer substation, however, the same procedure can be performed substations or power plants. The circuit can be applied not only in three-phase installations of alternating current, but also in single-phase, as well as in single-pole or two-pole distribution devices of direct current, and the voltage can be medium or low. The switchgear is intended primarily for open three-phase high voltage switchgear, but can also be used in closed switchgear. Claims 1. High Voltage Switchgear in Aut. St. No. 349O53, characterized in that, with a safety circuit, when the switchgear is divided into two parts, each pair of internal and external longitudinal jumpers in the middle part of the circuit are fitted with disconnectors between the switches, on both sides of which disconnectors are connected between the jumpers. 2. Device pop. l, different from the fact that, in order to provide automatic connection of the switchgear parts, an additional jumper with a switch is installed between their extreme connections. 35 fa 36 30 V for "ff Fi9.3