SU1265736A1 - Electromechanical voltage stabilizer - Google Patents

Abstract

The invention relates to a secondary power supply of radio equipment. The purpose of the invention is to increase the stability of the output voltage of an electromechanical voltage regulator. This is achieved by supplying power to the primary winding 2, part of the magnetic flux passes through the middle rod 5, and the main magnetic flux through the secondary winding 3. From the winding part 3, the voltage flows through the voltage regulator 11 and the rectifier 10 to the winding 9 solenoid. At the same time, the core 8 is drawn into the coil 9 of the solenoid and by means of the articulated levers 1 lifts the magnetic shunt 4. At this moment the non-magnetic plate 6 blocks partly the magnetic flux, changing its value. As a result of this, the voltage at the output of a hundred (L bilizer reaches the nominal value. 2 Il.

Description

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Claims (1)

USu 1 The invention relates to electrical engineering, voltage control systems and can be used as an electrical appliance for powering electronic devices. The aim of the invention is to increase the stability of the output voltage. FIG. 1 depicts the proposed electromechanical voltage regulator; in fig. 2 - the same electrical circuit. Voltage stabilizer has a spherical core 1, on which primary 2 and secondary 3 windings are located, a movable magnetic shunt 4 installed in the gap of core 1 on the same axis as the middle core 5 of core 1. On the lateral surface of the magnetic shunt 4 inside the core , the non-magnetic plate 6 is fixed, and the shunt 4 itself is connected via a hinge-clamping mechanism 7 to a movable core 8 of the coilloid, the winding 9 of which is connected through the regulator 10 and the voltage regulator 11 to the secondary winding 3, the Straightener 10 and adjusts p 11 voltage soboytipovye are radioelements. At medium level 5, core 1 is fitted with a non-magnetic gasket 12. The voltage stabilizer operates as follows. When the input voltage is applied to the primary winding 2, a part of the magnetic flux passes through the Middle rod 5, and the main magnetic flux (; „) through the secondary winding 3.3 of which induces an initial voltage lower than the nominal voltage by approximately 20%. of the secondary winding 3, the voltage is supplied through the voltage regulator 11 and the transducer 10 to the winding 9 from the lenoid. At the same time, the core 8 is drawn into the coil 9 of the solenoid and by means of the screw levers 7 lifts the magnetic shunt 4. At this moment the non-magnetic plate 6 blocks partly the magnetic flux Ф ,, changing its value. As a result, the regulator reaches the nominal voltage quantities. If the voltage Ugj decreases, then the voltage in the secondary winding 3 will begin to decrease, the core 8 of the solenoid will begin to rise 361 s, and the magnetic shunt 4 will go down. By reducing the effect of the non-magnetic plate 6, the magnetic flux in the secondary winding 3 increases, the voltage across the coil 9 of the solenoid increases, and the magnetic shunt 4 stops to descend. As a result, the voltage I) g, f, decreases to a much smaller extent than the input voltage of the stabilizer. If the voltage Oj increases, then the voltage in the secondary winding 3 begins to increase, the solenoid core 8 will start even more pull in the solenoid, magnetic shunt 4 rise. By increasing the effect of the non-magnetic plate 6, the magnetic flux in the secondary winding 3 decreases, decreases. The voltage across the coil 9 of the solenoid is applied, the magnetic shunt 4 stops rising. As a result, the voltage and, will be maintained within the rated voltage. The voltage at the output of the stabilizer Ug, can be adjusted within a small range by the voltage regulator 11. The non-magnetic strip 12 prevents the magnetic shunt 4 from sticking at the time of applying the voltage and gj (the chain consisting of the resistor 13 and the capacitor 14 is a damper. Thus, the introduction of negative voltage feedback is due to a solenoid whose movable core connected through pivotally connected levers by a movable magnetic shunt, on which a nonmagnetic plate is located inside the core, allows to obtain a stabilized output voltage. current at its output is approximately 80% of the nominal, which is especially valuable when connecting radio equipment, electronic computing technology.The invention.An electromechanical voltage regulator containing W-shaped core, on the Extreme rods of which are placed the primary and secondary winding respectively movable Magnetic shunt with a non-magnetic plate fixed on its side surface, impacted as part of the middle core of the core, characterized in that, in order to ensure stability of the output voltage, it is equipped with a moving-core solenoid, an articulated lever mechanism, a straightener, a voltage regulator A part of the secondary winding is connected through a voltage regulator and a rectifier connected in series with a solenoid winding, and the moving core of the solenoid is connected via a lever mechanism anus, non-magnetic aaastina on which is fixed inside the core. "N /