SU665388A2 - Device for automatic control of autonomous electric power plant - Google Patents

Description

The device consists of internal combustion engine 1, synchronous generator 2, resonant circuit 3, ring full-wave demodulator 4, electromagnetic regulator 5, converter 6, the input terminals of which are connected to the terminals of two phases of the synchronous generator 2, output terminals of the converter 6 are connected to the input terminals rectifier bridge 7 and magnetic amplifier 8, the control inputs of the converter are connected to the terminals of the supply frequency sensor 9, the terminals of the sensor of the resonant frequency 10 are connected to the terminals of the transducer And nsformatora resonant circuit 3 and the annular-wave demodulator 4.

The effect of increasing the stabilization of the frequency of a synchronous generator in a stand-alone installation in the low-frequency zone is ensured by the operation of the resonant circuit at elevated frequencies received from sensor 10, whose frequency at the nominal rotational speed of the synchronous generator exceeds the industrial frequency by n times contour.

The power frequency of the remaining elements is 400 Hz, which is determined by the standard operating frequency of the magnetic amplifier and is set by sensor 9.

As a frequency converter 6, a self-contained inverter is used in the device, the output frequency of which is set by sensor 9 and selected to be 400 Hz, which reduces the size of the magnetic amplifier and the entire device.

The device works as follows.

The occurrence of a deviation of the frequency of rotation of a synchronous generator from a predetermined frequency of 50 Hz causes a change in the frequency of the voltage of the sensor 10 supplying the resonant circuit and the ring full-wave demodulator. The resonant circuit 3 is tuned to a resonant frequency equal to the voltage frequency of the sensor 10 at the nominal frequency of the synchronous generator. The output current of the ring full-wave demodulator flows along the control winding 12 of the magnetic amplifier 6, varies in magnitude and sign depending on the magnitude and direction of the frequency deviation from the resonant frequency of the circuit 3.

The load of the magnetic amplifier 8 is the winding of the electromagnetic regulator 5, which is simultaneously connected through the resistor 13 to the output of the uncontrolled rectifier bridge 7. The power supply of the winding of the electromagnetic regulator 5 from unregulated and controlled sources

provides a reduction in the required power of the adjustable source, which reduces the size of the magnetic amplifier. The load current of the magnetic amplifier 8 varies with the current in its

the control winding 12, which provides for a change in the fuel supply of the internal combustion engine and its rotational speed, reducing the deviation of the rotational speed from a predetermined value.

Claims (1)

Invention Formula A device for automatic control of an autonomous electric power installation according to aut. St. No. 262229, characterized in that, in order to extend the functionality by ensuring frequency stabilization in the low frequency zone, the device is equipped with a frequency converter with input terminals for connecting to the generator voltage, an alternator rotor rotation frequency sensor and a resonant frequency sensor more than n times the generator frequency, the output terminals of the frequency converter are connected to the input terminals of the rectifying bridge and the magnetic amplifier, the control inputs of the frequency converter are connected to the output a rotor frequency sensor of the generator, and a resonant frequency sensor output is connected to the terminals of the transformer primary winding.