TH65426A - Induction or induction furnace feeding method - Google Patents

Abstract

DC60 methods have been proposed for feeding induction furnaces or inductors with at least At least one inversion (2A, 2B, 2C), which is fed with at least one rectifier (1,1A, 1B, 1C) through at least one intermediate voltage circuit at With capacitors In an intermediate circuit (21A, 21B, 21C), at least one resonant capacitor (17,18) is supplied with the inductive component (19) and the non-reactive component (20) of the Resistive-inductive loads (16), which are assembled by an induction or inductive furnace, are assembled into a circuit. In parallel (15), depending on the current load voltage (URL) and the current load current (P1), the modulation factor (m) is generated and rated. Enter To the pulse width modulator (7), which is used herein to produce the conductivity time (tm) for the semiconductor circuit. Which can be turned off Of the inverse of the initiation of each conductivity time (tm), and that is, the opening of the semiconductor switch is performed with a precise rhythm. With the cut-off position through the zero of the load voltage And when the current-carrying semiconductor switch is Deactivated is limited to a function of conductivity time (tm). A method has been proposed for supplying at least induction or inductive furnaces. The most inverse one. (inverter) (2A, 2B, 2C) which is fed with at least one rectifier. (rectifier) (1,1A, 1B, 1C) through at least 1 intermediate voltage circuit with at least one resonant capacitor in the intermediate circuit (21A, 21B, 21C). Nz (17,18) is coupled with the inductive component (19) and the non-reactive component (20) of the resistive-inductive load (16), which is assembled by an induction furnace or Inductor which is assembled into A parallel waveform circuit (15) depends on the current load voltage (UR1) and the current load current (P1), then a modulation factor (m) is produced and Was supplied To the pulse width modulator (7), which is used herein to produce the conductivity time (tm) for the semiconductor circuit. Which can be turned off Of the inverse of the initial conductivity (tm) time, and that is, the opening of the semiconductor switch is performed in a precise rhythm with Cutting position through the zero load voltage And the time in which the current-carrying semiconductor switch will Deactivated is limited to a function of conductivity time (tm).

Claims (5)

1.Feeding method for induction furnace or inductor with at least one inverters (2A, 2B, 2C) fed with at least one rectifier (1,1A). , 1B, 1C) through at least 1 intermediate voltage circuit with at least one resonant capacitor (21A, 21B, 21C) in the intermediate circuit (21A, 21B, 21C). Together with the inductive component (19) and the non-reactive element (20) of the resistive-inductive load (16), which is assembled by the induction furnace or the inductor, which is assembled as A parallel waveform circuit (15) is characterized by that - depending on the current load voltage (UR1) and the current load (P1), the wave combination factor. (modulation) (m) is generated and is It is supplied to the pulse width wave hair (7), which is used herein to produce the conductivity time (tm) for the semiconductor circuit. Which can be turned off of the inverse - the start of each conductivity time (tm) and that is the opening of the semiconductor switch. It will be acted in an exact rhythm with the cut-off position through the zero load voltage. And the time at which the substance switches The semiconductor whose current will be deactivated is determined. It is limited to a function of conductivity time (tm) - where the operating frequency of the induction cooker or the inductor is exactly equal. It is equal to the resonant frequency of a parallel waveform circuit. And in the case of The tuned circuit parameters change during operation, where the operating frequency is automatically matched with the changed resonant frequency - and during the activation process The values of the load voltage (U RL), the inverse output voltage (U inverse), the sonant capacitor voltage (U C1) and the rectified circuit input current (I) have The value is always zero. 2. The method, according to claim 1, is characterized by that the wave mixing factor (m) is limited to the limit of the maximum wave mixing factor, which has been induced in a manner that Functions of the input current of a modulated circuit (I sigma) 3. Method according to claim 1 or 2, which is characterized by regulation of pressure Load by determining the minimum limit of the load voltage setting and the Mix waves using a pressure regulator (3). 4. Method for any one of the foregoing claims which is characterized by Adjusting the control of loading By defining the initial limit of the setting of loading and causing Wave Mixing Factor By using the power regulator (4) 5. Any method of claim 3 or 4 which is characterized by the analog gate circuit (5) for the realization of the wave mixing factor (m) to be fed to the Mix the pulse width wave (7) in such a way as a function of the organized wave mixing factor. Supplied from a pressure regulator and a power regulator.