SU1721639A1 - Device for controlling temporary magnet - Google Patents

Abstract

The invention can be used in electrical engineering for the forced switching on and off of electromagnetic devices. The device provides control of a direct current electromagnet from a single-phase AC network and allows to regulate the electromagnet current from zero to forcing current, having a high speed. 1 sludge.

Description

The invention relates to an electric apparatus and can be used to force the switching on and off of DC electromagnets powered from a single-phase AC network, for example, contactors coils, relays, electro-valves, and other devices containing electromagnets.

The purpose of the invention is to increase the reliability of the operational capabilities of the device.

The drawing shows a circuit diagram of the proposed device for controlling an electromagnet.

The device includes a winding of an electromagnet 1 connected to a single-phase alternating current source through a thyristor 2 with an open angle control system consisting of diodes 3 and 4, a capacitor 5 and an adjusting resistor 6, which is shunted by an electromagnet pin 7. The diode 3 is connected to the control electrode of the thyristor by the cathode, and the anode to

the anode of diode 4, both anodes connected to a capacitor 5, one plate of which is connected to the cathodes of thyristor 2, and the second to the auxiliary contact 7 and a resistor 6, which is connected to the cathode of the diode 4 by the second end, and the last contact 8 relay 9 is connected to the common point of connection of the winding of the electromagnet with the anode of the thyristor 2.

In addition, the device contains a buffer diode 10 and a discharge resistor 11 connected in parallel to the winding of the electromagnet through the changeover contacts 12 and 13 of the relay 9, and the discharge resistor 11 is connected through a normally closed contact 12, and the buffer diode through a normally open contact 13, is bridged spark arrester 14..

The device works as follows.

The command to turn on the electromagnet is supplied from any external devices and the control relay 9 is perceived, the normally open contact 8 of which turns on the thyristor control system, and the flip contact 12 and 13 turns off the discharge resistor 11 and parallel to the winding of the electromagnet turns on the buffer diode 10. The thyristor opens at low control angle, since the adjustable resistor 6 is shunted by an electromagnet 7 blocking contact.

Through the winding of the electromagnet 1 flows a large current of forced mode. Electromagnet is triggered. At the end of the stroke of the movable part of the electromagnet, the associated block-contact 7 is opened. At the same time, it enters the resistance of the thyristor with the resistance of the resistor 6, increases the angle of control of the thyristor 2, the electromagnet is transferred to the steady state of holding the core. The voltage on the winding of the electromagnet and its current decreases by a factor of 8-10.

The holding current of the electromagnet can be adjusted by adjusting the resistor 6.

The block contact of the electromagnet clearly fixes the position of the core and opens when the measles are already retracted, i.e., at the right moment. The inclusion of the auxiliary contact 7 in the thyristor control circuit improves the reliability of the device and its durability, since in connection with the switching of the auxiliary contact of very small currents (fractions of a milliampere), its wear is practically excluded. Instead of the electromagnet blocking contact, any switch can be used that fixes the reverse position of the core, including the reed switch.

Buffer diode 10 ensures reliable operation of the device by removing switching overvoltages from the circuit elements and preventing bounce of the electromagnet core.

The shutdown command, as well as the start, senses the control relay 9, which by contact 8 removes the control signal from the thyristor, and the change-over contact 12 and 13 switches the discharge resistor 11 parallel to the electromagnet winding and disconnects the buffer diode 10 from it.

The spark-arresting capacitor 14 prevents sparking at pin 13 when the buffer diode is turned off.

When the discharge resistor is switched parallel to the electromagnet winding and the buffer diode is turned off, the constant time of current decay in the electromagnet winding decreases.

Thus, the proposed DC electromagnet control device from a single-phase AC network has a simple circuit that allows the installation to regulate the electromagnet current over a wide range from zero to forcing current, contains a small number of elements, has a high speed not only in the process of switching, but also in the process of shutting down.

Claims (1)

Claims An electromagnet control device comprising a thyristor connected to an AC network in series with leads for connecting an electromagnet winding, a buffer diode shunting leads for connecting an electromagnet winding, and a thyristor control unit comprising two diodes, a resistor and a capacitor, and a cathode thyristor through a capacitor connected to the anode of the first diode, the cathode of which is connected to the control electrode of the thyristor, the junction point of the capacitor and the anode of the first diode One of the terminals of the resistor, characterized in that, in order to increase reliability and operational capabilities, control relays with two closing and one opening contacts, a discharge resistor, a second capacitor, and terminals for connecting the electromagnet block contact, A single resistor is connected in parallel to the terminals for connecting the electromagnet winding through the disconnecting contact of the control relay, the first closing contact of the specified relay is shunted by a second capacitor and included in the buf circuit A diode, anode of the thyristor through the second closing contact of the control relay is connected to the cathode of the second diode of the thyristor control unit and another output of the resistor of the specified node, the terminals for connecting the electromagnet contact are bridged by the thyristor control unit resistor. D-, to / v ig / nomes). uet-eo ҐUl --Ky ./ but but