SU708543A1 - Power setting device of regulator of electric arc furnace electric mode - Google Patents

Description

The invention relates to the field of electrothermal, in particular, to devices for regulating the electric mode of an electric arc furnace. Known power setting devices of an electric mode regulator for an electric arc furnace, containing a current transformer connected to the primary winding of the first isolation transformer, to the secondary winding of which the input diagonal of the first rectifying bridge connected to the first input of the first active capacitive filter and the second is connected an isolation transformer, to the secondary winding of which the input diagonal of the second rectifying bridge is connected, connected by a negative terminal to The first input of the second arte-capacitive filter, the second input of which is connected to the second input of the first filter 1 and (2. A disadvantage of the known devices is the insufficient speed. In order to improve the speed, each separation transformer is equipped with two additional secondary windings connected in series in accordance with the common point of which is connected to one output of the input diagonal of the additional rectifying bridge, the second output, which is connected to the extreme output of one of the additional windings Through a resistor, with an extreme output of the second - through a capacitor, the negative output of the additional bridge in the circuit of the first isolation transformer is connected to the positive output of the first rectification bridge, the negative output of the rectification bridge in the circuit of the second distribution transformer is connected to the positive output of the second rectification bridge, and a positive the output of each additional bridge is connected to the common point of the two filters. FIG. 1 shows the scheme of the proposed controller power regulator; in fig. 2 output voltage timing diagrams; Curve 1 - the upper bridge 16; curve 2 - rectification bridge 17; curve 3 is the total voltage applied to the filyr 20.

The electric arc power regulator consists of a power supply 1, a block of 1.1 insensitivity zones 1, a reverse thyristor converter 3, an electric motor 4 of mixing electrode 5 and a potentiometer 6

negative feedback on the voltage of the electric motor. The power adjuster contains a measuring current transformer 7, the output of which is connected to the primary winding of the first isolation transformer 8 with the secondary winding 9 and additionally introduced windings 10 and 11, the isolation transformer 12co with the secondary winding 13 and additionally introduced windings 14 and 15, the first rectifier bridge 16 and additionally inserted bridge 17, connected in series and connected to the secondary windings 9, 10 and 11, additionally introduced rectifying bridge 18 and second bridge 19, connected between each other in series and connected to secondary windings 13, 14, 15, active-capacitance filter 20 connected to series-connected rectifier bridges 16, 17, active-capacitance filter 21 connected to series-connected rectifier bridges 18 and 19 and connected in series with the filter 20, the arc voltage setting potentiometer 22 connected to the output of the active-capacitive filter 21, the arc current setting potentiometer 23 connected to the output of the active-capacitive filter 20.

The middle points of the potentiometers 22 and 23 are connected to the input of the dead zone unit 2. Winding 10, 11; resistor 24, capacitor 25 and windings 14, 15, resistor 26, capacitor 27 form static phase shifters. The parameters additionally introduced capacitors 25, 27 and additionally introduced resistors 24, 26 are chosen such that

The voltages at the output of phase shifters supplied to the input diagonals of the rectifying bridges 17 and 18 were equal and out of phase with respect to the voltages supplied to the input diagonals of the rectifying bridges 16 and 18, at an angle of 90 el. hail.

A signal proportional to the arc current from the measuring transformer 7 and a signal proportional to the voltage across the arc are respectively supplied to the primary windings of the isolating transformers 8 and 12. The voltage from the secondary windings of these transformers is fed to the rapid bridges 16, 17, 18, 19 and then through active capacitive filters 20 and 21 to potentiometers 23 and 22, setting current and arc voltage, respectively. When the voltages taken from potentiometers 22, 23 are equal, the signal at the output of power setting device 1 is absent. The voltage at the control input of the thyristor converter 3 is zero. Electric motor 4, moving. Electrode 5, fixed. When the preset mode is violated, a signal appears in the furnace at the input of the dead zone unit 2, the polarity of which depends on the nature of the interruption of the mode (arc break or short circuit). As soon as this signal exceeds the deadband threshold, a voltage appears at the control input of the thyristor converter 3, and the motor 4 accelerates, moving the electrode 5 in the direction of error compensation.

FIG. Figure 2 shows that the frequency of the total voltage U2 o applied to the input (the filter 20 is twice the frequency of the ripple of the output voltage, for example, a rectifying bridge 16, and at the frequency of the output voltage 100 Hz is 200 Hz, and the amplitude of the ripple This makes it possible to reduce the capacitance value of the filter capacitors 20 and, similarly to the filter 21, which, in turn, reduces the inertia of the power setting device 1.

Thus, the introduction of additional rectifying bridges with static phase shifters and output voltages equal to the voltages at the outputs of current and voltage transformers, respectively, and shifted relative to the latter by 90 el. hail., reduces the inertia of the setting device and increases the speed of the power regulator, which leads to a decrease in the melting time.

Claims (1)

Invention Formula The power setting of the electric mode regulator of an electric arc furnace, containing a current transformer connected to the primary winding of the first isolation transformer, to the secondary winding of which G1, is connected to the input diagonal of the first rectifying bridge connected to the first input of the first active capacitor bill, and the second separating transformer to the secondary winding of which the input diagonal of the second rectifying bridge is connected, connected by a negative terminal to the first swing second active-capacitive filter, a second input coupled to a second input of the first filter, characterized in that, with a view to the Enhance operating speed, each isolating transformer is provided with two additional secondary windings, with