SU1051660A1 - Motor-thyratron-type source of three-phase stable-frequency voltage - Google Patents

Abstract

MACHINE-VENT.ILNY SOURCE VOLTAGE PHASE STABLE FREQUENCY comprising asynchronous frequency converter, the windings of which are made with a number of pairs of poles P and induction exciter winding which is formed with a number of pole pairs 21 arranged on the same shaft, the rotor windings are interconnected setpoint frequency connected to the input of an asynchronous exciter, power switch 1 switch connected to the output of an asynchronous frequency converter, characterized in that, in order to simplify the design and improve weight and size and, on the rotor frequency of the asynchronous converter stacked three phase winding with an additional number of pairs of poles of the rotor winding connect to an asynchronous driver circuit, and the output induction coil § frequency converter is made of three one-phase) winding GOVERNMENTAL shifted in space by an angle RzEl. grad., with the number of pairs of poles related by the relations: Р, ЗРз Р, 2Р, + Р, sl о о:

Description

The invention relates to electrical engineering and can be used in autonomous power sources that require a stable or regulated frequency of the output voltage at a variable frequency of drive rotation (aircraft, river and sea vessels, railway transport, etc.). Autonomous sources are known to obtain a stable or variable frequency with variable frequency of rotation of the ClJ drive. A disadvantage of the known device is the increased weight and size parameters, low efficiency and reliability due to the presence of complex mechanical A synchronous generator - rectifier - inverter system that does not have mechanical intermediate links 2 is known. The disadvantage is the poor quality of the output voltage waveform and the complex control system of semiconductor switches, which reduces reliability. The synchronous oscillator-frequency converter with direct connection has the same drawbacks. The closest to the offer is a machine-valve three-phase voltage source with Ability frequency, made in the form of two asynchronous frequency converters, the rotors of which are rigidly connected to each other, the three-phase root winding of one of the converters is connected to zero points of three three-phase main windings of the other, and the outputs of these windings are connected with inputs of semiconductor switches. The excitation windings of the asynchronous converters are connected to a voltage source of a fixed frequency C3. The disadvantage of this device is the bulkiness of the electric generator due to the presence of two output windings connected to the power switch, as well as the presence of contact rings and current, reducing its reliability. The purpose of the invention is to simplify the design, improve the weight and size parameters and increase reliability. . This goal is achieved by the fact that in a machine-valve source of three-phase voltage at a stable frequency, there is an asynchronous frequency converter, oQMOTKa of which is made with the number of pairs of poles P and an asynchronous exciter, the windings of which are made with the number of pairs of polarity p2 located on one shaft , the rotor windings of which are interconnected, frequency master, connected to the input of the asynchronous driver, power switch connected to the output of the asynchronous frequency converter, on the rotor of the asynchronous transformer The frequency consignor has a three-phase additional winding with the number of pairs of RZ poles connected to the rotor winding of an asynchronous exciter, and the output winding of the asynchronous frequency converter P is made of three single-phase windings shifted by an angle of 3-RZ electr., and the number of pairs of poles are related by ratios P 2 P + J. p. p p t g 2, G- - J Gd. In Fig. 1 is a diagram of the proposed device; in fig. 2 curves EMF. The asynchronous frequency converter 1 and the asynchronous exciter 2 are located on the same shaft and are made in the same package, the windings 3 and 4 of the asynchronous frequency converter are made with the number of pole pairs P, the windings 5 and 6 of the asynchronous exciter with the number of pole pairs p2. The rotor windings of the asynchronous frequency converter and the asynchronous driver are interconnected. The winding 6 is connected to the frequency adjuster 7, and the winding 4 to the power switch 8. On the rotor of the asynchronous frequency converter there is a three-phase winding 9, made with the number of pole pairs P and connected to the rotor winding 5. The output winding 4 of the asynchronous frequency converter is designed as Three single-phase windings with a full chagm shifted in space by an angle of 22Lp; The device works as follows. When the rotor rotates and the winding feeds b from the frequency adjuster in the winding 5, an EMF is induced with a frequency equal to (I, where W is the angular frequency of the rotor rotation; U / JJ is the angular frequency, determined by the frequency ratio. The rotor windings 3 and 9 are the load winding 5, the emf in the winding 4 with the flow of current p0; the windings 3 and 9 are equal to U, u, () - uj (2; W u;. w (P24P3) + U) (3) As a result of the addition of two emfs, a resultant Emf whose ampere varies with beating frequency, () 0

Claims (1)

MACHINE-VENT SOURCE OF THREE-PHASE VOLTAGE OF STABLE FREQUENCY, comprising an asynchronous frequency converter, the windings of which are made with the number of pairs of poles P ₁ and an asynchronous exciter, the windings of which are made with the number of pairs of poles P ₂ located on one shaft, the rotor windings of which are connected between themselves a frequency adjuster connected to the input of the asynchronous exciter, a power switch connected to the output of the asynchronous frequency converter, characterized in that, in order to simplify the design and improve m overall dimensions, a three-phase additional winding with the number of pole pairs P _e connected to the rotor winding of the asynchronous exciter is laid on the rotor of the asynchronous frequency converter, and the output _e winding of the asynchronous frequency converter is made of three single-phase windings shifted in space by a angle of ^-1 R _e el. hail., and the number of pairs of poles connected by the relations: = 2P ₂ + P ₃ , Pi = 3P _S SU L 051660