SU1067542A1 - Regulating inductor with biasing - Google Patents

Abstract

CONTROLLABLE REACTOR WITH MAGNIFICATION, containing a magnetic conductor with non-magnetic gaps, on the rods of which a winding of alternating current and a winding of magnetic current are placed, and the magnetic winding is placed on different squares of the magnetic cable and there is a different background of a different background of a different background of a different background of a different background, and a different background of the different background of the other; different in that. that, in order to save energy consumption and expand the adjustment thresholds, it is equipped with a power take-off winding, a high-voltage device and a current regulator, the magnetic core is made of a three-bar, the power take-off winding and the AC winding are placed on three rods of the magnetic coil, and part of the control windings located on the extreme rods are interconnected in parallel and in accord, and a part of the windings located on the middle rod is connected in series with parts of the windings located on the edge their rods, winding bias placed on the outer rods and the yoke is connected to the winding (L PTO device through rectifying unit and a current regulator Torr, non-magnetic gaps are arranged between the middle pin and yokes magnetoconductance water.

Description

The invention relates to electrical engineering, in particular to ferromagnetic devices controlled by wetting, and can be used as an arc coil to compensate for currents to earth. A known choke coil with a longitudinal bias, containing a three-core magnetic circuit, on the middle core of which an alternating current winding is located, and on the extreme rods there are bias windings that are fed from an external source G1. However, in the known device, the regulation of the inductance of the alternating current winding is carried out by a constant magnetisation of the magnetic conductor by a bias winding fed from an external direct current source, which leads to an additional loss of energy. A controlled reactor with bias is known, containing a magnetic wire, on one of the rods of which containing nonmagnetic gaps. AC is located on the other two, located side by side, there are two connected in series and opposite winding of the magnetization covered by another alternating current winding connected in parallel and in accordance with the first one, it is equipped with two additional DC windings connected in opposite 2. The known controlled bias reactor is designed to work as an arcing coil in electrical networks. Regulation of the inductance of the reactor winding is carried out by permanently magnetizing iron from an external DC source. According to its purpose, the arc coil must be ready for operation at any time of the occurrence of a ground fault current, therefore, it is constantly supplied with a bias current regardless of whether the short circuit current flows to the ground or not. The constant feeding of the arc-quenching coil by bias current creates additional energy losses. In addition to this, for the operation of an arc-extinguishing coil, a device is required that generates a bias current, which is also constantly in operation. The purpose of the invention is to save energy consumption and expand the range of regulation. The goal is achieved by the fact that a controlled magnetization reactor containing a magnetic core with nonmagnetic gaps, on the rods of which an AC winding and a bias winding are placed, the bias winding being placed on different rods of the magnetic circuit and parts of it placed on different rods, interconnected in series-counter, provided with a power take-off winding, a rectifying device and a current regulator, the magnetic core is made three-rod, the power take-off winding and the winding alternating current placed on three rods of the magnetic circuit, with parts of the said windings located on the extreme rods of Xiax, interconnected in parallel and according to each other, and part of the windings located on the middle rod connected in series with the parts of the windings located on the extreme rods of The bias winding is placed on the extreme rods of the magnetic circuit and connected to the power winding through a rectifying device and a current regulator, non-magnetic gaps are located between the middle rod and the rma magnet wires. The drawing shows the proposed device. The controlled magnetizing reactor contains a three-core magnetic core 1, an alternating current winding 2 (base), a magnetic biasing winding 3, a power take-off winding 4, a rectifying device 5, a current regulator 6, non-magnetic gaps 7 between the middle rod and the magnetic cores, a signal winding 8 The alternating current winding 2 and the power take-off winding 4 are placed on three rods of the magnetic circuit, with parts of said windings located on the outermost rods connected in parallel and in agreement, and part of the windings p memory location in the middle rod, connected in series with winding portions arranged on the outer rods. The magnetic bias winding 3 is placed on the extreme rods of the magnetic circuit and its parts located on the extreme rods are interconnected in series with each other. The bias winding 3 is connected to the power winding 4 via a rectifying device 5, the regulator b. The signal winding 8 is located on the middle rod. The required voltage is removed from the current regulator b and fed to the rectifying device 5, from which the bias winding 3 is energized. The rectifying device 5 is assembled according to the four-shoulder bridge scheme. The current regulator can be made of various designs from the simplest potentiometer to the most complex. The received arrangement and connection of the device windings ensures the sinusoidality of the controlled current.

The device works as follows.

When a voltage appears on the main winding 2 of the device, a current arises in it, the value of which is determined by its inductive resistance. At the same time, a voltage is applied to the current winding 4 of the MS, which is applied to the current controller 6. Depending on the setting of the current controller, part of the applied voltage is applied to the rectifier device 5 and causes a single current to flow through the magnetic winding 3. Magnetization of iron occurs simultaneously with the appearance of current in the main winding 2 of the device. Degree of magnetization

is determined by the installation of the current regulator 6, since the magnitude of the voltage taken off the regulator 6 determines the magnitude of the unidirectional current flowing in the bias windings and the amount of current that the circuit flows in the power extraction winding 4. Simultaneously with the influence of the bias, the inductance of the main winding 2 is affected by the demagnetizing effect of the magnetic flux of the power take-off winding 4, which increases the depth of adjustment.

The use of the proposed device saves energy consumption due to the fact that the bias winding does not feed from an external source.

Claims (1)

MAGNETIZED CONTROLLED REACTOR, containing a magnet wire with non-magnetic gaps, on the rods of which there is an alternating current winding and a magnetization winding, the magnetization winding being placed on different rods of the magnet core and its parts placed on different rods are connected in series, are interconnected, that, in order to save power consumption and expand the limits of regulation, it is equipped with a power take-off winding, a rectifier and a current regulator, d is made of three rods, the power take-off winding and the alternating current winding are located on three rods of the magnetic circuit, and parts of the mentioned windings located on the extreme rods are interconnected in parallel and in accordance, and part of the windings located on the middle rod are connected in series with the parts of the windings located on the terminal rods, the magnetizing winding is located on the terminal rods of the magnetic circuit and is connected to the power take-off winding through a rectifier and current regulator, non-magnetic Zora disposed between the middle pin and yokes magnetoconductance water. J