SU1534659A1 - Variable synchronous generator - Google Patents

Abstract

The invention relates to electrical engineering, in particular to the device of adjustable magnetoelectric machines. The aim of the invention is to expand the range of regulation. The generator combines the beginning and the end of each phase of the winding through two oppositely connected controlled keys, the common electrode of which is connected to the midpoint formed by the beginning and end of the parts of the phase. The generator contains a three-phase stator winding from groups 1 and 2. The ends of group 1 are connected to the ends of parts 2, and keys 3 and 4 are connected to each other at the beginning and end of each phase, the common electrode of which is connected to the midpoint of the phase. With open keys, the control current, the passage through the windings, bias the stator back and the output voltage decreases. The additional effect of regulation is due to the voltage drop in the winding of the core and the controlled rectifiers. 1 il.

Description

The invention relates to electrical engineering, in particular to the device of electric generators, controlled by changing the magnetic resistance of the parts of the magnetic circuit.

The purpose of the invention is the expansion of the range of regulation of the generator.

The drawing shows a circuit diagram of the stator winding of the generator.

The winding contains successively connected groups 1 and 2. The ends of the group »^ <) are connected to the ends of group 2 (Χ ₂ , Υ _ζ , Z _a ). To the beginning and end of each phase are connected string-sequentially connected "ranzistors, etc.), the common bus of which is combined with the midpoint of the phase.

Consider the process of stabilizing the voltage of the generator by the example of the idle mode, when it is necessary to ensure its maximum multiplicity, while the keys 3 and 4 are fully open (diode mode of operation of the keys). The control current passes through groups 1 and 2 through the keys 3 and 4 from the common bus to their beginnings. Since the m-phase winding is made circular, covering the stator back, the magnetomotive force of the winding created by direct current causes the unidirectional magnetic flux from the stator back, which displaces the magnetic excitation flux from the stator back, and the favorable voltage decreases. In addition to the shown bias effect

The armature backs in the generator have an additional regulation effect due to the voltage drop in the ballast load, the role of which is played by the stator winding itself. The maximum control current in the no-load mode corresponds to the rated current in the nominal load mode, while with the inductive nature of the ballast load, the voltage drop in it can reach up to half the nominal, i.e. diahedron regulation range expands in

1.5 or more times compared with the known generator.

Thus, the use of the proposed generator allows us to significantly expand the range of regulation of the output voltage in magnetoelectric machines, controlled by the magnetization of the back of the armature.

Claims (1)

2θ Claims Adjustable synchronous generator _Ρ τορ containing stator c. a t-phase winding, covering the yoke, each 25 phase of which contains successively connected coils in two groups, each group having coils displaced by two pole divisions of the rotor, and the groups shifted by one pole division of the rotor, and the regulator voltage, distinguished by the fact that, in order to expand the range of regulation, these groups are connected in the opposite direction, the regulator is made in the form of chains of alternately connected control keys for each phase connected between the beginning and end of the corresponding phase, and the point сё40 „, the distance of the groups of coils of each phase is connected to the connection point of the controlled keys of the chain connected to this phase.