SU1008844A1 - Voltage stabilizing device - Google Patents

Abstract

A VOLTAGE DEVICE FOR STABILIZING 14 containing reactors according to the number of loads & 1 bodies, each made with two windings, the conclusions of the first windings are intended to be switched on between the supply network and the corresponding consumer, and the second windings are connected in series, different. By the fact that, in order to increase the voltage level at consumers, successively connected second windings of reactors are connected between one of the terminals of the first winding of one of the reactors and the ground. (L eo X 4: J

Description

2. The device according to claim 1, which is the fact that as the output of the first winding of the reactor the output of the first winding of the reactor is used, intended to be connected to the supply network, and the mutual induction resistances of the branches of each reactor are equal to each other and equal .VV.25.25 c XjnX2-.X,). , 3, The apparatus according to claim. 1, characterized in that the output of the first reactor winding is used as the output of the first winding of the reactor. It is intended to connect to the consumer and the resistance of the mutual induction of the branches of each torus are equal to each other. X | - mutual induction resistance between the reactor branches; Хп - resistance of the second winding of the reactor; Vn is the internal resistance of the network from the side of connecting the second windings of the reactors; Хс - internal resistance of the supply network; number of reactors.

. one

The invention relates to electrical engineering, in particular, to the main and distribution networks of alternating current, and can be used for electrical power supply. Industrial enterprises, buildings and structures.

A device for supplying consumers with a rapidly alternating load is known, which contains a controlled double reactor to stabilize the grid voltage, the working windings (branches) of which are connected in series in the circuits of two loads are interconnected and the inductive resistance is automatically changed by direct-current magnetization in accordance with the value of the internal resistance of the supply network. Highly variable loads are fed through one branch of the twinned reactor, and all other loads, the voltage of which should be stabilized, are connected to another branch of the same dual reactor. For the device to operate, it is necessary to comply with the tuning conditions, which consist in the opposite direction of the magnetic fluxes of the individual branches of the dual reactor and in the equality of the mutual resistance of the branches of the reactor to the internal resistance of the supply network.

. The disadvantage of this device is a decrease in the level of stabilized voltage in loads, which is caused by voltage drops on the inductive resistances of the reactor dissipation, and the inability to observe an accurate balance of load currents along its branches. Although the device uses a controlled reactor, voltages of loads by changing the resistance of the reactor can not be, as this may violate the equality of the mutual resistance of the branches of the reactor with the internal resistance of the network, i.e. This dependence of the parameters, while respecting which, voltage fluctuations are eliminated. In addition, this device eliminates the mutual influence of only two groups of loads, whereas in practice it is necessary to eliminate the mutual influence of a larger number of loads.

Closest to the proposed

is a voltage stabilizing device containing reactors each made with two windings, the terminals of the first windings are intended to be connected between the supply network and the corresponding consumer, and the second windings are connected in a closed loop. To stabilize the voltage by eliminating the mutual influence of loads, it is necessary to adjust the parameters of the reactors in a certain mathematical relationship with the value of the internal resistance of the supply network. Customization

35 according to the indicated dependence ensures the equality of the internal resistance of the network to the negative mutual resistance introduced by the group of twinned reactors between any two g; loads of 2 J. However, in the known device there is a decrease in the voltage level of the loads caused by the fall-5 of the voltage on the inductive resistances of the scattering of the reactors, as well as the impossibility of maintaining an accurate balance of currents along the two branches of each dual reactor. 10 In the case of the use of controlled dual reactors in a device, it is not possible to control the voltage level of the load to change the resistance of these reactors. , (5 In these types of devices, to eliminate fluctuating voltage, the method of introduction 8 of the load circuit of the additive voltage by means of mutual induction is used. At that, the application of the device using this method to increase the average voltage level requires a separate transformer as The obligatory element of mutual induction for the introduction of an additive voltage in the load circuit, which increases the size and cost of equipment. The purpose of the invention is to increase the voltage level of the consumer. The goal is achieved by the fact that in a device for voltage stabilization, containing reactors by the number of consumers, each made with two windings, the conclusions of the first windings are intended to be switched on between the supply network and the corresponding consumer, and the second windings are connected in series, after {1) connected second windings of the reactors included one of the conclusions of the first winding of one of the reactors and the ground. In this case, the output of the first winding of the reactor was used as the output of the first winding of the reactor, Connected to the mains supply, and the mutual induction resistances of the branches of each reactor are equal and equal to 5X + 1 / o; 25x2. In addition, the output of the first winding of the reactor, intended for connection to the consumer, is used as the output of the first winding of the reactor the mutual inductions of the branches of each reactor are equal to each other and are equal to cx nc k pi k. On the other hand, D 6 and 6, before and after), the resistance of mutual induction between veT; the resistance of the second winding of the reactor j is the internal resistance of the network from the connection of the second windings of the reactors; internal resistance of the mains; number of reactors. The drawing shows a single line and device. the power system 1 through the internal resistance of the mains 2 submitted prefabricated. tires | 3, from which an arbitrary number of loads between the loads 4 and the collective shi3 included the first branch .5 of each 6, the second branches 7 of the react 6 6 are connected in series between the output of the first branch of one of the tori and the node of zero potentio. those. In a closed loop, from the second branches of the 7 reactors, the phase voltage of the output of the th branch of one of the reactors is entered. l analysis of the operation of the device is detected by the voltage drop in the network of the power supply system to the q-th load. Dp - current q-th load; 3 - power supply current; - current of the second branches of the reactor) inductive resistance of the first branch of the q-ro reactor j internal resistance of the supply network; mutual inductance between the branches of the q-ro reactor. l current of the second branches of the reactors about to write. Пх.х and - voltage output of the first branch of one of the reactors, the voltage of which is introduced into the contour of the second branches of the reactors; inductive resistance of the second branch of the q-ro reactor;

Claims (3)

(5 **) A VOLTAGE STABILIZATION DEVICE containing reactors according to the number of consumers, each made with two windings, the terminals of the first windings are intended to be connected between the supply network and the corresponding consumer, and the second windings are connected in series, characterized in that, in order to increase voltage level at consumers, the second reactor windings connected in series are connected between one of the outputs of the first winding of one of the reactors and the ground. 2. The device according to η. ^ characterized in that as the output of the first winding of the reactor used the output of the first winding of the reactor, designed to be connected to 5 power supply, and the mutual resistance of the branches of each reactor are equal to each other, 0 3, The device according to claim 1, wherein the output of the first reactor winding is the output of the first reactor winding intended to be connected to the consumer, and the mutual induction resistance of the branches of each reactor are equal to each other and are equal to% m ~ ^ ^nX 2 ^{+ X} int) 'where X ^ is the mutual induction resistance between the branches of the reactor; - resistance of the second winding of the reactor; Xg _H ”internal resistance of the network from the side of connecting the second windings of the reactors; Xc “internal resistance of the supply network; P is the number of reactors.