SU710096A1 - Frequency converter - Google Patents

Description

t

The invention relates to the field of converting the industrial frequency of alternating current to a higher frequency and can be used in factories and in design organizations, the design and manufacture of electrical frequency inverters for different industries and special equipment.

Known motor-generator converters, consisting of a three-phase asynchronous or synchronous motor and a synchronous generator with its own pathogen or with independent excitation, as well as converters, consisting of a three-phase asynchronous or synchronous motor and asynchronous converter 1.

The disadvantages of motor-generator frequency converters are the large installed power of the machine, large mass and size, low efficiency due to the double conversion of the entire power.

In addition, a frequency converter is known, consisting of an electric motor with a three-phase core winding and asynchronous

2

Machines with a three-phase inductor and a three-phase core block, 1-stone 2. This converter-i drive has a falling out-of-band characteristic and, therefore, an unstable voltage during a load change and low mass-size indicators.

The purpose of the invention is stabilization {output voltage and improvement of the mass-dimension characteristics of the converter.

This is achieved by the fact that the three-phase main winding of the motor is connected in series with the three-phase and inductor winding acHi; a fine machine.

Claims (2)

The drawing shows a frequency converter containing a rotor 1 of a vopolynol synchronous motor with a starting (damper) winding in the grooves of pole pieces, a stator 2 with a synchronous motor with a boom separate phase windings connected in series with the phases of the three-phase stator winding of an asynchronous motor, a stator of 3 asynchronous motors, and 3 asynchronous motors. rotor 4 asynchronous machine with three-phase winding and slip rings, capacitors 5 connected to the output terminals of the converter in order to increase its cosv5i and efficiency ipaHCformat 6, feeding through the semiconductor rectifier 7 at the output of the current transformer, the main control winding of the automatic regulator of the output voltage (PH) 8, frequency meter 9, feeding the correction PH circuit, resistance 10 connected to the synchronous motor winding circuit during asynchronous start , contactor P, switching the winding of the air of a synchronous motor, and the resistance 10 to the PH at the end of the asynchronous start. The frequency at the output of the transforms. A-g of the bodies is provided by the use of a synchronous motor, and its value fj is determined by the alternation of phases and the ratio of the numbers of pairs of poles of the synchronous and asynchronous machines: f. and m is the number of drug poles of the asynchronous machine; R, d - the number of pairs of poles of a synchronous machine. The sign - corresponds to the consonant direction of rotation of the rotor and zero of the stator of the asynchronous machine, and the sign + - the opposite direction of rotation of the rotor and the floor. The stabilization (regulation) of the output voltage of the converter is ensured by cascading the primary and stator windings of the asynchronous and synchronous machines and the corresponding change in the excitation current of the synchronous machine. When the excitation current of the synchronous machine changes, the voltage of the network applied to the three-phase windings of the synchronous and asynchronous machines is redistributed. In addition, when the load on the inverter output changes, the active component of the current in the primary windings of the synchronous and asynchronous machines is due to a change in the power density (©) of the synchronous motor, which also causes a change in the magnetic flux of the ASH1 machine and contributes to the stabilization of the output voltage. The network voltage Ui is equal to the geometric sum of the voltages on the windings of the stators 2 and.), And with increasing load of the converter, the inequality will increase. Since the phase currents of the synchronous motor of the stator winding of an asynchronous machine (connected VL) are the same, the magnetic systems and the number of turns of both windings connected in series must be calculated so that the electromagnetic moment of the synchronous motor at the maximum calculated load of the converter would be about 10% greater than the electromagnetic one the moment of the asynchronous maishna, In the general case, taking into account the ratio of the numbers of pairs-poles of both machines, the ratio of their uncoupled voltages can be determined on the basis of equality (Us-d). ... Ra. /Ua.Ns/ Ts.l /Uc.U/Ua./-4o5/U,/ The stabilization of the output voltage of the converter is determined by the sensitivity of the drive current regulator of a synchronous machine. PH can be performed on magnetic or semiconductor elements with high speed. To improve the dynamic characteristics of the process of stabilizing the output voltage of the converter when the load in the PH changes, positive feedback on the load current is used. The invention frequency converter, consisting of an electric synchronous motor with a three-phase core winding and an asynchronous machine with a three-phase inductor and a three-phase core motor, characterized in that, in order to stabilize the output voltage and improve the mass-dimensional characteristics of the transducer, the three-phase head and the frame and the frame. in series with the three-phase inductor winding of an asynchronous machine. Sources of information taken into account in the examination 1. US Patent G 3237065, cl. 322-16, 1966. 2. Richter R. Electric Machines, vol. 4, GONTI, M.-L., 1939, p. 353-354. Uiif fconsi A Bt Cf O O O //