RU2031510C1 - Three-phase gear for compensation of reactive power and method of its disconnection - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: gear includes three-phase capacitor bank coupled via three-pole commutation device. Three-pole commutation device with successive connection of contacts of three poles is placed in one phase and additional commutation device is placed in two other phases. Two consecutive pole contacts of additional commutation device are coupled in series and are connected in second phase and contact of third pole is placed in third phase. Additional commutation device can include resistor placed in parallel to one of two pole contacts of commutation device coupled in series. Principal commutation device can be cut off first and additional commutation device is disconnected after it. EFFECT: enhanced safety and reliability of operation. 13 cl, 2 dwg

Description

 The invention relates to electrical engineering, in particular to devices for reactive power compensation.

 A three-phase device for reactive power compensation [1] is known, which contains a three-phase capacitor unit connected to the network via a three-pole switch and a single-pole separator connected in series to one of the phases and shunted by a resistor [1].

раз амплитуды восстанавливающегося напряжения на первой отключаемой фазе выключателя в сравнении с последующими отключаемыми фазами и увеличенной амплитуды восстанавливающегося напряжения в 2 раза из-за остаточного напряжения на конденсаторной батарее установки; снижение надежности из-за увеличенных броска тока и перенапряжений вследствие наличия повторных дожиганий дуги при отключении выключателя.The disadvantage of this known device is the insufficient electric strength and the presence of repeated ignition of the arc on the switch due to the increased

times the amplitude of the recovering voltage at the first switch-off phase of the circuit breaker in comparison with the subsequent switch-off phases and the increased amplitude of the recovering voltage by 2 times due to the residual voltage on the capacitor bank of the installation; decrease in reliability due to increased inrush current and overvoltage due to the presence of repeated afterburning of the arc when the circuit breaker is turned off.

 A three-phase device for reactive power compensation [2] is known, which contains a three-phase capacitor unit connected through three single-phase circuit breakers, one of which is shunted by a resistor, and circuit breaker on and off control circuits. This device is adopted by the prototype of the claimed invention.

раз амплитуды восстанавливающегося напряжения на первой отключаемой фазе выключателя (равной высоте треугольника линейных напряжений) в сравнении с последующими отключаемыми фазами (равной половине линейного напряжения) и увеличенной амплитуды восстанавливающегося напряжения в 2 раза из-за наличия остаточного напряжения на конденсаторной батарее установки.The disadvantage of the prototype is the lack of electrical strength, the presence of repeated ignition of the arc on the switch and increased inrush currents and overvoltages during repeated ignition of the arc due to an increase in

times the amplitude of the recovery voltage at the first switch-off phase of the circuit breaker (equal to the height of the line voltage triangle) in comparison with the subsequent switch-off phases (equal to half the line voltage) and the increased amplitude of the recovery voltage by 2 times due to the residual voltage on the capacitor bank of the installation.

 The aim of the invention is to increase the breaking capacity (increase electric strength and the exclusion of repeated ignition of the arc) of the switching device using the optimal (minimum) number of contacts of the switch.

 The goal is achieved in that a three-phase device for reactive power compensation, comprising a three-phase capacitor unit and a three-pole switching device with automatic on and off control circuits, is equipped with an additional three-pole switching device, and a switching device with three series-connected contacts is included in the first phase of the network and an additional switching the device is included in two other phases of the network, and two serially connected pole contacts will complement An integral switching device is included in the second phase of the network, and the contact of the third pole is included in the third phase, and the control circuit, when the device is disconnected from the network, is configured to disconnect the switching device first, and then the additional switching device.

 In addition, the device is equipped with resistors, one of which is connected in parallel to one of the terminals of the poles of the switching device, and the other is connected in parallel to one of the two series-connected contacts of the poles of the additional switching device.

 The goal is achieved by increasing the number of series-connected contacts on the first disconnected phase of the switching device to the value of the series-connected contacts of the other two phases of the switching device by using as a unipolar tri-pole switching device with series-connected pole contacts; by using an additional three-pole switching device and a series connection circuit for disconnecting other phases.

 Figure 1, 2 presents the electrical circuit diagram of the device.

 Three-phase capacitor unit 1 is connected to a three-phase network through a three-phase switching device. Three-phase switching device contains a three-pole switching device 2 with series-connected contacts of 3-5 poles and an additional three-pole switching device 6.

 The three-pole switching device 2 is connected in one of the phases (for example A), and the additional switching device 6 is connected in two other phases (for example B and C), the reception in the second phase B is connected in series with contacts 7 and 8 of two poles, and in the third phase C pin 9 is connected.

 To limit the inrush current during switching on and possible repeated ignition of the arc when disconnecting in parallel to one (for example 5) series-connected contacts of the poles of the switching device 2, a resistor 10 is connected and parallel to one (for example 8) of two series-connected contacts of the poles of the additional switching device 6 is connected a resistor 11.

 The device operates as follows.

 The device is disconnected in the following sequence: first, the switching device 2 is turned off (the first phase of the network), and then the switching device is turned off (the other two phases of the network). The device is turned on by simultaneously switching on the switching devices 2 and 6. The current limitation when the device is turned on and when it is turned off with possible repeated ignitions of the arc in the switching devices is achieved using resistors 10 and 11.

Claims (2)

 1. A THREE-PHASE DEVICE FOR COMPENSATION OF REACTIVE POWER, comprising a three-phase capacitor unit and a three-pole switching device with automatic on and off control circuits, characterized in that it is equipped with an additional three-pole switching device, and the switching device with three series-connected contacts is included in the first phase of the network the switching device is included in two other phases of the network, and two serially connected pole contacts will complement An integral switching device is included in the second phase of the network, and the contact of the third pole is included in the third phase of the control circuit, when the device is disconnected from the network, they are configured to disconnect the switching device first and then the additional switching device.  2. The device according to claim 1, characterized in that it is equipped with resistors, one of which is connected in parallel to one of the contacts of the poles of the switching device, and the other is connected in parallel to one of two series-connected contacts of the poles of the additional switching device.

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