SU904096A1 - Distributing device - Google Patents

Description

The invention relates to high voltage electrical networks with a grounding coefficient of up to 0.8, and in particular to overvoltage protection of voltage transformers.

Known electrical installations with insulated. neutral, - containing voltage transformers, the primary winding of which is connected to a star with a neutral grounded through a current transformer, and one of the secondary windings is connected into an open triangle, which is closed to parallel ballast resistors to prevent spontaneous neutral bias. One of the resistors is turned on tightly, and the second through a switching device - with an on-board control unit, the input of which is connected to the output of the current relay in the secondary circuit of the ground current transformer (1).

Closest to the proposed one is a switchgear in the network with a grounding factor of up to 0.8, the connections to the busbars of which are connected through air circuit breakers with air-filled separators, the arcing contacts of which are shunted by capacitive voltage dividers, equipped with a relay device to disconnect all connections connected to sources RE ^s cal energy at damages and voltage transformer connected to the busbars through the disconnector manually operated, obmot the higher voltage of which is connected to the star with a grounded neutral neutral, ⁰ and one of the windings of the lower voltage is connected to the star with the removed neutral [2].

With planned outages of all connections, the voltage transformer is first manually disconnected from the busbars. When avarny ¹⁵ GOVERNMENTAL connections from outages action of said relay device voltage transformer is connected to. " to the tires. Through capacitive voltage dividers, the voltage transformer remains connected to the source of electrical energy.

This leads to ferroresonant overvoltages on the busbars of the switchgear and insulation damage.

to a star with a grounded neutral, and from a low voltage winding connecting a star with a neutral, supplied a three-phase ballast resistive for the purpose of the invention - to prevent damage to the switchgear during emergency disconnection of the connections.

This goal is achieved by the fact that the switchgear contains busbars to which the connections are connected via air circuit breakers with air-filled separators, the arcing contacts of which are shunted by capacitive voltage dividers, a relay block connected to the connections connected to electric energy sources, and a voltage transformer connected to busbars through a manually operated disconnector, and the higher winding on? voltage transformer voltage is connected to one yen with a load, which is connected via an additionally introduced switching device with a control unit, the input of which is connected to the output of the relay unit, to the low voltage winding of the voltage transformer connected to the star with the output neutral.

This solution helps to prevent the occurrence of ferroresonant overvoltages when disconnecting from busbars connections connected to sources of electrical energy.

The drawing shows a diagram of the proposed switchgear.

Power lines 1 and power units 2 of the generator-transformer through switches 3 with the main contacts 4 and the separator 5, shunted by capacitive voltage dividers 6, are connected to the busbars 7 containing the relay protection unit 8, the input of which is connected to the inputs of the control units for controlling the tripping of switches 3. GO voltage transformer with a high voltage winding высшего 1 connected to a star with a-. ground tightly neutral, connected to the bus 7 through the disconnector 12. To the winding 13 ^{1 of the} low voltage of the transformer 10 connected to the star with the output neutral, a three-phase ballast resistive load 14 is connected through the switching device 15 with the control unit 16, the input of which is connected ^! dinen with the output of the block 8 relay protection.

In case of planned disconnections of connections 1 and 2 from buses 7, manually switch on the ballast resistors 14 by switching device 15. In case of emergency disconnections of connections 1 and 2 from block 8 of relay protection, the trip signal is simultaneously sent to the control units 9 of the “5 circuit breakers 3 off and into the block 16 of the control of the switching apparatus 15, including ballast resistors 14. The leading switching on of the resistors 14 is achieved by using 15 thyristor switches as a switching apparatus. The ballast resistors 14 are manually turned off after attaching to the buses 7 at least one connection 1 and 2.

With such switching of connections 1 and 2, no overvoltage occurs and insulation damage is excluded.

The use of the proposed device eliminates the need to replace the electromagnetic voltage transformer with an electrostatic one or the use of an automatic switching device for connecting an electromagnetic voltage transformer to the buses.

The economic effect of the use of the proposed switchgear with one voltage transformer is 1000 rubles. in year.

Claims (2)

The invention relates to high-voltage electrical networks with a grounding factor of up to 0.8, namely, overvoltage protection of voltage transformers. Electrical installations with insulated are known. neutral - containing voltage transformers, the primary winding of which is connected to a star with a neutral grounded through a current transformer, and one of the secondary windings is connected to an open triangle, which is closed to connected parallel ballast cuts to exclude a self-induced neutral displacement | tightly, and the second, through a switching device, with a switching-on control unit, the input of which is connected to the output of the current relay in the secondary circuit of the grounding current transformer 1. The most The switchgear in the network with a grounding factor of up to 0.8 is the one closest to the proposed one. The P1I1 connection to the busbars is connected through air switches with air-filled separators, the arcing contacts of which are shunted by capacitive voltage dividers equipped with a relay device to disconnect all connections connected to the sources of electrical energy, arrests of damage and voltage transformers, connected to PPga through the disconnector with manual drive, winding Higher voltage of which is connected in a star earthed neutral tightly, and one lower voltage winding coeipinena a star with the deduced neutral 2. At scheduled disconnecting all electrical connections x pre manually disconnected from the bus voltage transformer. In case of emergency disconnections of connections from the action of the named relay device, the voltage transformer remains connected to the cables. Through capacitive voltage dividers, the voltage transformer remains connected to the source of electrical energy. This leads to ferroresonance overvoltages on the switchgear and damage to the isolate stumps. 390 The purpose of the invention is to prevent damage to the switchgear during the emergency shutdown of connections. The goal is achieved by the fact that a switchgear containing busbars to which connections are connected through air switches with air-filled separators, arcing contacts of which are bridged by capacitive voltage dividers, is a relay unit connected to connections connected to electrical sources voltage transformer connected to the busbar through a disconnector with a manual drive, and the high voltage winding of the voltage transformer is connected on a star with a grounded neutral, and one of the low voltage windings is connected to a star with a neutral derived, equipped with a three-phase ballast resistive load, which is connected via an additionally connected switchboard with a control unit, the input of which is connected to the output of the relay unit, to the lower winding transformer voltage coupled to a star with neutral deduced. Such a solution prevents the occurrence of ferroresonance overvoltages when disconnected from the busbars of the connections connected to the sources of electrical energy. The drawing shows the scheme of the proposed switchgear. The power lines 1 and the power blocks 2 of the generator-transformer are connected via 3 switches with main contacts 4 and a separator 5 shunted by capacitive voltage dividers to busbars 7, containing a block of 8 relay terminals whose input is connected to the inputs of blocks 9 of control switches off 3. Voltage transformer GO with a high voltage winding 11 connected to a star with a tightly grounded neutral is connected to w 7 via a disconnector 12. To the low voltage winding 13 of a transformer 10 connected to neutral star, a three-phase ballast resistive to load 14 is connected via a switching device 15 with a control unit 16, the input of which is connected to the output of the relay protection unit 8. At planned disconnections of connections 1 and 2 from buses 7, the ballast resistors 14 are switched on manually by the switching device 15. In case of emergency disconnections of connections 1 and 2 from the block 8 of relay protection, the switch-off signal is simultaneously sent to the switch-disconnecting control blocks 9 and to the block 16 controls the switching device 15, including ballast resistors 14. Advanced switching of resistors 14 is achieved by using thyristor switches as the switching device. The ballast resistors 14 are manually disconnected after connecting to buses 7 at least one connection 1 and 2. With such connections of connections 1 2, no overvoltages occur and insulation damage is excluded. The use of the proposed device eliminates the need to replace an electromagnetic voltage transformer with an electrostatic voltage or use an automatic switching device to connect an electromagnetic voltage transformer to the tires. The economic effect from the application of the proposed switchgear with one voltage transformer is 1000 rubles. in year. The invention includes a switchgear containing teams, connected to which are connected via air switches with air-filled separators, the arcing contacts of which are bridged by capacitive voltage dividers, a relay unit connected to the electrical power sources, and a voltage transformer connected to the busbar via a hand-operated disconnector, the high voltage winding of the voltage transformer connected to a star with ground neutral, and one of the low voltage windings is connected to a star with neutral extracted, which is different in order to prevent insulation damage during emergency disconnection of bus connections, it is equipped with a three-phase ballast resistive load, which is connected through the additionally introduced switching device with a control unit, the input of which is connected to the output of the relay block. ka, to the winding of the lower voltage of the voltage transformer, connected in star with the neutral derived. Sources of information taken into account in the examination 1. Instructions for checking voltage transformers and their secondary circuits. Ed. 2nd M., Soyuztekhenergo, 1979, p. 82-84, fig. P-8. 2. Scheme of primary connections at the kV 220/110 kV substations. Typical design of the open switchgear 110 kV SCH1P N 407-0-13, 1974, v. 2, p. 23. I I I I / Je