SU1120448A1 - Device for protecting high-voltage switch-gear against overvoltage - Google Patents

Abstract

1. DEVICE FOR INPUTS FROM OVERVOLTAGE OF HIGH-VOLTAGE DISTRIBUTION DEVICES, containing in each phase an overvoltage suppressor with a resonant volt-ampere characteristic, made of sound elements with an intermediate output and connected between a body and a lead-in device and an adapter. devices, characterized in that, in order to increase the efficiency with an increase in the number of protected objects, the limiter Overvoltage is additionally introduced a third element connected between its intermediate terminal and the phase of the switchgear, to which this phase shunt reactor is connected. i 2, The device according to claim 1, distinguishes it with the fact that, in order to facilitate the operating conditions of the overvoltage suppressor when the reactor is disconnected, a threshold element is additionally introduced into the circuit for connecting an element of the overvoltage suppressor with ground to affect the switching apparatus switching in the circuit shuning reactor. About 4a 00

Description

. 1 The invention relates to electrical engineering, in particular to overvoltage protection of high voltage switchgear. A high voltage switchgear containing lines, transformers, a reactor and switching devices connecting them, which are protected from overvoltages of dischargers, is connected (connected to the objects to be protected and made in the form of nonlinear spark resistors with magnetic arcing for extinguishing the arc) The disadvantages of overvoltage protection of such a switchgear are the inability of this type of arresters to limit overvoltages to ground below .Um, where H φ is the amplitude of the largest operating phase voltage of the switchgear, the need to install a large number of arresters in the branched switchgear and insufficiently effective limiting of the recoverable voltages at the contacts of switching devices, which leads to their appreciation. The closest to the invention to the technical essence is Overvoltage protection device of a high-voltage switchgear device containing an overvoltage suppressor in each phase eny (OPN) with rezkolineynoy volt-ampere characteristics, made of two parts with an intermediate terminal and a ground and between the exception schunti ruyuschego phase reactor, through which com mutational apparatus attached to sootvetstvuyuschey.faze, switchgear. The use of a surge arrester with a rezclinear current-voltage characteristic makes it possible to achieve a limitation of overvoltages on the phases of the switchgear with respect to the ground to a level of 1.6-1.8 Uq, 2 However, for a known device, it is necessary to install a large number of arrays in the branched switchgear effective limitation of the restoring voltages at the contacts of switching devices, which leads to their appreciation. The purpose of the invention is to increase the economy with an increase in the number of protected objects and to facilitate the operating conditions of the overvoltage suppressor when the reactor is turned off. The goal is achieved by the fact that, in an overvoltage protection device of a high-voltage switchgear device, in each phase contains an overvoltage suppressor with a reshonlinear volt-ampere characteristic, made of two elements with an intermediate terminal and connected between the ground and the shunt reactor phase, which through the switching device is connected to the corresponding phase of the switchgear, the third element included in the overvoltage suppressor is additionally introduced Between its intermediate output and the phase of the-; The switching device to which this phase shunt reactor is connected. In addition, a threshold element is additionally introduced into the circuit of the connection of the element of the surge suppressor with the ground to influence the switching apparatus switching on the shunt reactor circuit. The drawing shows in a single-line design the connection diagram of the three-element overvoltage suppressor to the reactor connection. A shunt reactor 3 is connected to power line 1 through a switching device 2 (switch or on / off switch). This connection is protected from overvoltages by an overvoltage limiter 4, element 5 of which is connected between line 1 and midpoint 6 of limiter 4. Limiter 4 element 7 is on between point 6 and ground, and element 8 between point 6 and reactor 3. A threshold element 9 is introduced into the grounding circuit of element 7, affecting switching on switching device 2. Limiting overvoltages in various modes is thrown as follows. In the operation mode of line 1 with disconnected reactor 3, overvoltages on the line are limited only by elements 5 and 7 of limiter 4, since the circuit element 5 - element 8 reactor 3 has obviously higher resistance. When reactor 3 3 is connected to line 1 by switch 2, two modes of operation of limiter 4 are possible. If elements 5 and 8 are the same, when switch 2 is turned on, overvoltages are limited to connecting elements 5 and 8 connected to earth through element if elements 5 and 8 are made with different protective levels, overvoltages are limited through the element with a lower protective level (usually element 5) and element 7. Another operation mode of the device takes place in the process of switching off the reactor 3 with switch 2. The peak of the high-frequency overvoltages on the reactor 3, which occur when the reactor current is cut off, is limited by elements 7 and 8. The peak of the recovery on the switch 2 voltage is limited by elements 5 and 8. Thus, in different modes of operation of the reactor overvoltage, the overvoltages are limited a combination of elements of the limiter 4; To improve the working conditions of elements 5 and 7 of the limiter, when protecting line 1 with reactors 3 disconnected, An example of a current sensor that, when a current in it is higher than a predetermined level, gives a command to turn on switch 2. As an installation, a current can be taken that corresponds either to the leakage current when voltage is applied on the line above 1.1-1.2 UQJ, or the operation current at commutation overvoltages. 484 Thus, an overvoltage suppressor with three elements in phase in its protective functions is similar to the three standard overvoltage suppressors. As estimated calculations have shown, the number of resistor disks from which a three-element arrester is completed is approximately 1.1-1.5 of the number of disks in a standard arrester of the same voltage class. An overvoltage limiter with three elements can protect not only reactor connections. It can also be used with switches that do not synchronize and on which the antiphase mode cannot exist for a long time .; In addition, three-element arresters can protect circuits with different nominal voltages, such as medium and high voltage windings of transformers and autotransformers. In principle, the number of arresters can be more than three, however, in this case, there are certain difficulties with the distribution of voltage across the elements in normal modes of transmission, depending on the on or off state of the protected objects. The effectiveness of a star-shaped arrester is also due to the fact that by forcing the value of the restoring voltage applied to the switch protected by it to 1, & 2 and 2, it is possible to ease the design of the switch up to a decrease in the number of modules in the pole.

Claims (2)

1. DEVICE FOR PROTECTION AGAINST VOLTAGE HIGH VOLTAGE DISTRIBUTION DEVICE, containing in each phase an overvoltage limiter with a sharply linear 'volt-ampere characteristic, made of the sound of elements with an intermediate terminal and connected between the ground and the phase of the shunt reactor through the corresponding phase, which is connected to the shunt reactor switchgear, characterized in that, in order to increase efficiency while increasing the number of protected objects, the limiter is moved conjugation additionally introduced a third element connected between the intermediate terminal and its phase switchgear which is connected to this phase shunt reactor. 2. The device according to π. 1, characterized in that, in order to facilitate the operating conditions of the surge suppressor with the reactor turned off, a threshold element is additionally introduced into the connection circuit of the surge suppressor element to the ground to influence the switching apparatus in the shunt reactor circuit. . 1120448. 1 1120448