SU1056426A2 - Device for adjusting a.c. motor - Google Patents

Description

The invention relates to electrical engineering and can be used to regulate the voltage of single-phase loads, for example, power transformers of welding devices, landing machines and To By. A device for variable voltage control, containing thyristors, whose control circuits through threshold elements connected are connected with a resistor-capacitive driver for control pulses connected in parallel to the input pins, each of which is shunted by a transponder-switched auxiliary via one of the thyristors And the disadvantage of the circuit is the presence of a constant component of the load due to the asymmetry of the opening of counter-connected thyristors due to the scatter of the parameters of the circuit elements, which limits the possibility of practical implementation of devices with deep voltage regulation wives The aim of the invention is to reduce the asymmetry of switching on the thyristors of the device over the entire voltage control range, improving the shape of the output voltage. This goal is achieved by the fact that stabilizing elements, diodes and trimming resistors are inserted in pairs in the device, each of the latter is connected in series between the corresponding capacitor and the resistor of the control pulse shaper, each stabilizing element is connected in parallel to the corresponding trimming resistor, each of the additional diodes is turned on between the corresponding threshold element and the capacitor of the driver control pulse, while the anode of the additional diode is connected the cathode and the cathode with the output of the trimmer resistor motor. The drawing shows a diagram of the proposed device. The device contains a resistance-capacitive driver of control pulses, connected directly to the input gates 1 and 2, of capacitors 3 and 4, resistor 5, and trimmers 6 and 7, connected in series between the corresponding capacitor and the resistor of the driver, the stabilizing elements 8 and 9, connected in parallel to the quick-junction resistors, the shunt diodes 10 and 11, the anodes of which The cathodes are connected to the input terminals, respectively, to the common connection point of the trimming resistors with the resistor of the control pulse shaper, diodes 12 and 13, the anodes of which are connected respectively to the common connection point of the trimming resistor with the capacitor, and the cathodes with the trimming resistor motor, threshold elements T and 15 made in the form of dinistors, the anodes of which are connected to the sliders of the corresponding trim resistors, and the cathodes with control electrodes of the thyristors of the power part of the device, and the power part devices consisting of two pairs of interconnected thyristor 16 and diode 17, thyristor 18 and diode 19, the thyristor cathodes connected to the input terminals and the anodes to the output terminals 20 and 21 of the device to which the load 22 o is connected in the following way . At a positive half-wave of the supply voltage at the input terminal 1 through the circuit diode 10 - resistor 5 trimming resistor 7 capacitor C a capacitor is charged, the charge current of the capacitor creates a drop 1; (apr the trimmer resistor 7, the value of which is stabilized by 9 The threshold element 15 receives the voltage from the trimmer resistor 7, equal to the sum of the voltages on the capacitor and the inserted part of the trimming resistor 7 When the voltage on the threshold element reaches the threshold is triggered, the latter is switched, a positive potential is supplied to the control electrode of the thyristor 18, and the capacitor k, diode 13, the threshold element 15, the thyristor control transition, capacitor A, passes through the circuit, the current pulse of the capacitor discharge flows, the thyristor 18 opens and enters the input pin 1 - diode 17 - load 22 - thyristor 18 - input plug 2 will load the load current. At another half-wave of the feed charge, the capacitor 3 is charged in the same way as described, 31 opens

The resistor 16 and the input output circuit 2 diode 19 load 22 thyristor 16 input output 1 will flow the load current opposite to the previous half period direction, by varying the resistance of resistor 5, you can change the charging time of capacitors 3 and thereby adjusting the turn-on phase of the thyristors 16 and 18 and, ultimately, the magnitude of the alternating current in the load; Threshold elements and 15 are applied respectively to the charging voltage of the capacitors 3 and to the constant voltage determined and varied by the positions of the sliders of the adjusted resistors 6 and 7, thereby compensating for the trigger thresholds I and 15. As the threshold thresholds are compensated for by constant voltage, independent of the resistance of the resistor 5, the device ensures the symmetry of the thyristors 16 and 18 in the entire control range. It is convenient to use a dynistor as a threshold element. When, for example, the potential at the anode of the dynistor 15 reaches the switching voltage of the dynistor in the corresponding half-period, the latter opens and the capacitor — diode 13 — dynistor 15 — control thyristor 18 — capacitor C — flows through the circuit. , providing a steep front and the required amplitude of the current pulse at any position of motion. SS of the trimming resistor 7, With the other half-period of the supply voltage, the process is similar to that described. Dinistors Ij and 15 provide a control current pulse with a steep front, even with current through pe56ff26.4

Sistor 5 is much smaller than the unlocking current of the control thyristors 16 and 18, which reduces losses and reduces the dimensions of the forwarder elements,

Thus, the proposed device, having the advantages of the known, due to the introduction of trimming resistors and stabilizing elements, allows to improve the symmetry of the thyristors in the whole range while reducing the dimensions of the driver elements and the loss of electric power on its elements;

The symmetry of the opening of the thyristors determines the magnitude of the constant component of the controlled voltage, which on the load of the alternating voltage represents the loss of electrical energy, therefore improving the symmetry of opening the thyristors increases the efficiency of the installation.

The improvement in the symmetrical opening of the thyristors in the proposed device makes it possible to increase, in comparison with the known, the range of control of the alternating voltage by 6 times, I

The proposed technical solution is used instead of a voltage regulation block 717IR, 90.01, A, 000 in an electric heading machine 717IR and allows to expand the technological capabilities of the machine and improve the qualities of landing parts due to a wider range of smooth adjustment. voltage, increase the efficiency in the whole range of regulation by reducing the losses from the constant component on the high-voltage transformer and in the driver from the thyristor control currents,

Claims (1)

DEVICE FOR REGULATING VARIABLE VOLTAGE according to ed. If 575757, characterized in that, in order to improve the form of additional diodes and tuning resistors, each of the latter is connected in series between the corresponding capacitor and the resistor of the control pulse generator, each stabilizing element is connected in parallel to the corresponding tuning resistor , each of the additional diodes is connected between the corresponding threshold element and the capacitor of the shaper control pulses, while the anode of the additional diode is connected to SU „„ 1056426