SU1274118A1 - Device for assured supply of electric power with stable frequency - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to systems of guaranteed power supply with increased requirements to the quality of the output voltage, and can be used in autonomous systems. The aim of the invention is to increase the stability and reliability of operation while improving the weight and size parameters. The device contains the main generator of dual powering, the rotor of which is mechanically connected with the flywheel and the rotor of the auxiliary electromachine converter made in the form of a combined electric. machines (SAM) with two rotor and two stator windings

Description

The invention relates to electrical engineering, in particular to guaranteed power supply systems with increased requirements for the quality of the output voltage, and can be used in stand-alone systems.

I

The aim of the invention is to increase stability and reliability while improving weight and size indicators.

The drawing shows a functional diagram of the device.

A device for guaranteed stable frequency power supply comprises a main dual-power generator 1 with a stator winding connected to a load (not shown) mounted on a common shaft 2 with a flywheel 3 <and auxiliary electromachine converter 4, the first stator winding of which 5 is combined simultaneously with the rotor winding of the main generator 1 dual power supply and with the input of an adjustable frequency converter 6, connected by its output to the first rotor winding 7 of the auxiliary electric machine pre of the educator 4. The latter is made in the form of a combined electric machine with additional second stator 8 and second rotor 9 windings; b the number of pairs of poles _; not less than the number of pairs of poles of the first stator 5 and first rotor 7 windings by at least one, while the input of the comparison element 10 of the actual Uj and reference U is connected to the combined rotor winding of the main dual power supply generator 1 and the first stator winding 5 of the combined electric machine 4 _o stresses. The output of the comparison element 10 through the minimum voltage level regulator 11 is connected to a controllable block 12 of on-parallel connected thyristors _f connected between the terminals of the second stator winding 8 of the combined electric machine 4, and the second rotor winding 9 of the latter is connected to the industrial network.

As an adjustable frequency converter 6, an electric machine converter with a constant shaft speed drive (not shown) can be used.

The device operates as follows.

The comparison element 10 compares the actual voltage Up taken from the combined rotor winding of the main dual power generator 1 and the first stator winding 5 of the combined electric machine 4, and the reference voltage U _o . When the inequality Uj <U _{o is} fulfilled, the mismatch signal aU at the output of the comparison element 10, arriving at the minimum voltage level regulator 11, causes a change in the control angle of the block 12 of the on-parallel-connected thyristors, which acts as a short-circuit ring of the second stator winding 8 by a combined, electric machine 4 when AU = 0. If there is a mismatch signal AU, the thyristor turn-on angle increases and thereby limits the current in the second stator winding 8. At the same time, the shaft speed decreases, increase slip and voltage Up proportional to this slip, changes to a level that stably provides the necessary excitation power of the adjustable frequency converter 6.

When stringent requirements are imposed on guaranteed power supply systems in terms of the sinusoidal shape of the output voltage waveform, an electric machine converter with a constant shaft speed drive can be used as an adjustable frequency converter 6. In this case, a high sinusoidal output voltage is ensured and the quality of the entire system is improved.

Thus, the invention allows to increase the stability and reliability of the system while improving the overall dimensions of the latter.

Claims (1)

1 The invention relates to electrical engineering, in particular, to a guaranteed power supply system with high demands on the quality of the output voltage, and can be used in autonomous systems. I The aim of the invention is to increase the stability and reliability of operation while improving the weight and size parameters. The drawing shows the functional diagram of the device. The device for guaranteed power supply of a stable frequency contains a main generator 1 of dual power supply with a stator winding connected to a load (not shown), mounted on a common shaft 2 with a flywheel GI auxiliary electromachine converter 4, the first stator winding 5 of which is combined simultaneously with the rotor winding of the main generator 1 dual power supply and with an input of an adjustable frequency converter 6, connected by its output to the first rotor winding 7 of an auxiliary electric machine About the converter 4. The latter is made in the form of a combined electric machine with additional second stator 8 and second rotor 9 windings, b number of pole pairs different from the number of pole pairs of the first stator 5 and first rotor 7 windings by no less than one. The combined rotor winding of the main generator 1 of dual power supply and the first stator winding 5 of the combined electric machine 4 are connected to the input of the comparison element 10 of the real Uj and the reference U, voltages. The output of the comparison element 10 is connected via a minimum voltage level controller 11 to a controlled unit 12 of parallel-connected thyristors connected to each other by the terminals of the second stator winding 8 of the combined electrical machine 4, and the second rotor winding 9 of the latter is connected to the industrial network. As an adjustable frequency converter 6, an electric machine converter with a drive of fixed frequency of shaft rotation (not shown) can be used. The device works as follows. 18 Comparison element 10 compares the actual voltage Ur taken from the combined rotor winding of the main generator 1 of the dual power supply and the first stator winding 5 of the combined electric K-bus 4, and the reference voltage U,. When the inequality is fulfilled, H. the mismatch signal DK at the output of the element of comparison 10, is applied to the minimum level regulator 11 and causes a change in the angle of control of the block 12 of countercurrently connected thyristors acting as a shorting ring of the second stator winding 8 of the combined electric by machine 4 at uU 0. With the presence of a 6U error signal, the turn-on angle of the thyristors increases and thereby limits the current in the second stator winding 8. At the same time, the shaft rotation frequency decreases, increasing Slip and voltage Uf, proportional to this slip, changes to a level that consistently provides the required excitation power of adjustable frequency converter 6. When the guaranteed power supply systems are subject to strict requirements regarding the sinusoidal shape of the output voltage curve, as an adjustable converter The 6th frequency can be used by an electric machine converter with a drive of a constant frequency of rotation of the shaft. In this case, the sinusoidal output voltage is high and the quality of the whole system increases. Thus, the invention makes it possible to increase the stability and reliability of the system while at the same time improving the weight and dimensions of the latter. Claim 1. Device for guaranteed power supply of stable frequency, containing main dual power generator with stator winding connected to load, mounted to common shaft with flywheel and auxiliary electric inverter, the first stator winding of which is combined simultaneously with the rotor winding of the main J1 double power generator and with the input of an adjustable frequency converter connected by its output to the first rotor winding of an auxiliary electric motor Another converter, characterized in that, in order to increase stability and reliability while simultaneously improving mass and dimensions, the electric machine converter is made in the form of a combined electric machine with additional second stator and second rotor windings with the number of pole pairs differing from the number of pole pairs of the first stator and the first rotor winding is not less than 1, while to the combined rotor winding of the main generator of dual power supply and the first stator winding combined The 1-4 electric machine is connected to the input element of the comparison of real and reference voltages, the output of which is connected via a minimum voltage regulator to a controllable block of anti-parallel connected thyristors connected between the terminals of the second stator winding of the combined electric machine, and the second rotor winding of the latter is connected to industrial network. 2, the device according to claim 1, wherein, in order to improve the quality of the output voltage, a motor-machine converter with a drive of a constant frequency of rotation of the shaft is used as an adjustable frequency converter.