SU564741A2 - Automatic regulator of induction melting furnace electric conditions - Google Patents

Claims (1)

(54) AUTO1LTICAL REGULATOR OF THE ELECTRIC MODE OF AN INDUCTION MELTING FURNACE Or 17 and 18 binary reverse j. J. 9, l and back of the 2O and threshold elomeyga 21. The control unit of the excitation unit from a 22 h and 226 magnetigototogotogojotogoogooogoigoogo 21, 18, 18, and 222 and a threshold elomeiig 21. The unit for adjusting the excitation from a hiristor 22 and a 226 magnetigotogo 21, and the excitation control unit from a hiristor 224 and a 226 magnetigogo, 21 h and 21 mm and 22 e and the threshold 21. Koioporo through diode 25 is connected to a voltage sensor. The connection of a current with a winding 24 is made through a quadratic amplifier 26 connected in series, a transformer 27, a rectifier 28, an RC filter 29, a diode 30. A control winding 31 of the magnetic amplifier is connected with a semiconductor switch 33, the input of which is connected through the element OR-NOT 34 to the outputs of the receiving storage circuits, the oscillating circuit equivalent displacement torus consists of the threshold elements 35 - 38 connected to current sensors and transmitters (logical elements of the 39 and 40 and The key element 41. The device operates as follows: In the absence of signals at the inputs of the element 34, the key 33 is turned on, and the control winding 31 of the magnetic amplifier 23 is given a signal, which causes the generator to be energized. 31, in opposite directions. At low generator currents, the diode 30 is closed, and the diode 25 is open, and the excitation controller operates with voltage feedback, ensuring its rigid stabilization. When the effective value of the generator current exceeds the value, diode 25 will close, open “rf: diode 30, as a result of which the voltage feedback will be turned off and the feedback will be turned on for the generator current. The regulator provides a rigid stabilization of e4x1) of the objective current value by reducing the voltage. If the power factor is outside the specified zone, then a signal appears at one of the two outputs of the sensor 13, which is memorized by one of the memory receiving chains 14.15, and passes through the elements 34, which causes the switch 33 to turn off and generator field windings. After the generator voltage drops below the trigger threshold of the element 21, the counter 19 and capacitor groups 3,4 are switched using the ne {.) Switches 9, 10. After the time determined by the element 16 receiving a circuit 14, 15 c6pouje Hbi, key 33 and field winding are included. If the jitter does not restore the setpoint of the power factor as a result of the sj switching, the next switching will be carried out in an analogous way. In addition to CTa6njni3amui voltage or current and maintaining the set power factor {1x}) of the power output, the device provides for switching the inductor power supply circuit at certain ratios of current and voltage. When elements 35 and 36 are triggered at the same time, AND 39 is turned on, and when elements 37 and 38 are triggered, AND 4O is turned on. The inclusion of one of the elements 39, 4O leads to switching with the help of the element 41 of the switches 7, 8 and a stepwise change in the desired direction of the equivalent matching of the oscillating circuit of the furnace. Claims of the Automatic Electric Regulator of the Induction Melting Furnace According to Auth. swith N9 443499, characterized in that, in order to increase the control accuracy, the output of the current sensor and the anode of the corresponding diode are connected to a series-connected quadratic current converter, coherent transformer, Tejfb filter and an R-C filter.