RU2005110714A - ELECTRIC FILTER POWER DEVICE (OPTIONS) - Google Patents

Claims (2)

1. A device for powering an electrostatic precipitator, comprising an adjustable high voltage source with a storage capacitor, a regulator, a rectifier and an output transformer, two high-voltage valve switches connected by the first unlike power electrodes through a common inductor to the first output of the electrostatic precipitator, two pulse valve switches, a chain of series-connected the first conclusions of the resonant inductor and the first isolation capacitor connected by the second output to an ode to one of the pulse gate switches, a voltage sensor on the electrostatic precipitator and a control unit connected to the control inputs of the high voltage and pulse gate switches and the regulator of the regulated high voltage source, and an input connected to the output of the voltage sensor on the electrostatic precipitator, characterized in that a second isolation capacitor and two inverters made on controlled key elements, one of the inverters is included in the regulated source circuit as a high voltage, the primary winding of the output transformer of an adjustable high voltage source is connected to the output of this inverter, a storage capacitor is connected between the input terminals of the inverter, and the first input terminal of the inverter is connected to the first output terminal of the rectifier of the adjustable high voltage source through a serial circuit from the inductor and controller side of the alternating current connected to the mains, and the first output of the smoothing capacitor, while the second output the rectifier and the second terminals of the storage and smoothing capacitors are interconnected, the first terminal of the first secondary winding of the output transformer of the adjustable high voltage source is connected through the respective capacitors to the second unlike power electrodes of the high-voltage valve switches, interconnected via a chain of two diodes in series, the connection point of which connected to the second terminal of the electrostatic precipitator and the second terminal of the first secondary winding the output transformer of the adjustable high voltage source, the second secondary winding of the output transformer of the adjustable high voltage source is connected to the power electrodes of the pulse gate switches through the corresponding rectifiers and filter chokes, the second isolation capacitor is connected between the connection point of the first isolation capacitor and the resonant inductor and the anode of the second pulse gate switch , and the second output of the resonant inductor and connected to the first output of the electrostatic precipitator, the second inverter with the output transformer and the storage capacitor at the input is connected by the input terminals through the protective inductor and rectifier to the mains, and the secondary windings of the output transformer of the second inverter are connected respectively to the control circuits of high-voltage and pulse valve switches, while the device includes a load current sensor, a current sensor of the first inverter and a voltage sensor on a smoothing capacitor, the sensor outputs are connected respective input terminals of the control unit and the control unit control panel administered inverters connected to respective output terminals of the control unit connected to the control inputs of the key elements of the respective inverters. 2. Device for powering an electrostatic precipitator, comprising an adjustable high voltage source with an accumulating capacitor, a regulator, a rectifier and an output transformer, two high-voltage gate switches, two pulse gate switches, a voltage sensor on the electrostatic precipitator and a control unit connected to the corresponding outputs with control inputs of high-voltage and pulse gate switches and the regulator of an adjustable high voltage source, and the input connected to the output of the sensor is voltage electrostatic precipitator, characterized in that a high-voltage isolation transformer and two inverters made on controlled key elements are introduced into it, one of the inverters is included in the circuit of the regulated high voltage source, the primary winding of the output transformer of the regulated high voltage source is connected to the output of this inverter, between the input the inverter leads a storage capacitor, and the first input inverter output through a serial circuit from the inductor and controller connected to the first output terminal of the rectifier of an adjustable high voltage source, from the AC side connected to the supply network, and the first output of the smoothing capacitor, while the second output terminal of the rectifier and the second terminals of the storage and smoothing capacitors are connected to each other, the first terminal of the first secondary winding of the output transformer adjustable source of high voltage through the corresponding capacitors is connected to the first unlike power electrodes of the pulse valve ommutatorov interconnected through a chain of two series-connected according to the diode connection point which is connected to the first terminal of the electrostatic precipitator, the second high-voltage electrodes heteronymic power switch gate through the primary winding of the high voltage isolation transformer connected to the second terminal of the electrostatic precipitator; the second secondary winding of the output transformer of the regulated high voltage source through the rectifier and the corresponding secondary windings of the high-voltage isolation transformer is connected to the power electrodes of the pulse gate switches, while a blocking capacitor, a second inverter with an output transformer and storage capacitor at the input connected to the input the outputs through the protective inductor and rectifier to the mains, and the secondary windings of the output transformer of the second inverter are connected respectively to the control circuits of the high-voltage and pulse gate switches, while the load current sensor, the current sensor of the first inverter and the voltage sensor on the smoothing capacitor, the sensor outputs connected to the corresponding input terminals of the control unit, and inverter control panels, connected to the corresponding output one conclusions of the control unit connected to the control inputs of the key elements of the corresponding inverters.