SU926730A1 - Electromagnet control device - Google Patents

Description

(54) DEVICE FOR CONTROLLING AN ELECTROMAGNET

The invention relates to a low-voltage electrical apparatus and can be used to force the inclusion of electromagnetic devices in automation systems. A device for controlling an electromagnet, the winding of which is connected to an AC network via a rectifier containing a control key, two capacitors, diodes and thyristors tl}, is known. A disadvantage of the known device is its low reliability. Closest to the proposed technical essence and the achieved result is a device for controlling an electromagnet, containing a first diode connected in parallel to a power source and a shunt electromagnet, the cathode of the first diode is connected to the cathode of the thyristor, the control electrode of which is connected to the cathode of the second diode. connected to the first capacitor connected to the first resistor connected to the power source, the first capacitor is shunted by the second resistor, the second capacitor third resistor 2. The disadvantages of this device is the large size and weight of current-limiting capacitor which lead to an increase in the weight and dimensions of the entire device. The purpose of the invention is to reduce the weight and size of the device. This goal is achieved by the fact that the device is equipped with a third diode, the cathode of which is connected to the cathode of the second diode, the anode of the third diode is connected to one plate of the second capacitor, the second plate of which is connected to the cathode of the first diode, and the third resistor zistor.

In the drawing, an electrical circuit diagram of a device for controlling an electromagnet is shown.

A device for controlling an electromagnet includes a winding 1 of an electromagnet, in parallel with which a first diode 2 is connected. One of the terminals 3 of the winding 1, connected to the first diode 2, is connected to the terminal k of the AC mains through the thyristor 5. The control electrode 6 of the thyristor 5- connected to the terminal A of the network through a series-connected second diode 7, the first capacitor 8, shunted by the second resistor 9, and the first resistor 10. The cathode 11 of the third diode 12 is connected to the control electrode 6 of the thyristor 5, and the anode 13 of the third diode 12 is connected to torym capacitor connected to the power electrode 15 of the thyristor 5 and the third resistor 1b is connected to terminal A and the first resistor network 10 -,

The device works as follows.

When applying alternating voltage to the input terminals of the device, the thyristor during the charging time of the first capacitor 8 transmits positive half-waves of the line voltage to the winding .1 of the elec- tromagnet at small control angles. In this case, a large forcing current flows through the winding 1, under the action of which the electromagnet is rapidly activated. As the charge of the first capacitor 8 goes, the current in the control branch containing, besides the last one, the second diode 7 and the first resistor TO decreases to Tsul. Then, the thyristor 5 is controlled by the second diode, the second capacitor and the third resistor. Each negative period and most of the positive half-cycle of the network, the potential at cathode 11 exceeds the potential at the anode 13t, and the second diode is closed. In the short half-period of the network, when the second capacitor 14 is recharged, the second diode opens and through the control electrode 6 is discharged the second capacitor 14 opens the thyristor 5. In the established operation mode, the thyristor 5 continues to pass the positive half-waves of the supply voltage to the winding of 1 electromagnet, but

at large steering angles. In this case, the average value of the voltage on the winding 1 of the electromagnet and the current of the electromagnet are reduced to values that ensure that the electromagnet core is depressed. Thus, the force of the magnet in this device is carried out by automatically increasing the angle

control thyristor 5 as a function of time. The maximum steering angle achieved in steady state operation is determined by the ratio of the parameters of the second capacitor

I and the third resistor 16. The second diode separates the control branch, which forms the maximum control angle, from the control branch with the first capacitor 8, and the plug for

thyristor protection 5.

After disconnecting the mains voltage, the first capacitor 8 is discharged at the second resistor 9, thereby preparing the control circuit

for the next power up.

With the usual ratios of the parameters of the second capacitor 14 and the third resistor 16, at which the required maximum angle is reached

Claims (2)

control, the amplitude of the voltage on the second capacitor 14 is an order of magnitude smaller than the amplitude of the mains voltage. Therefore, the dimensions and mass of the second capacitor 14, proportional to its nominal voltage, are small. In the known device, the voltage amplitude on the current-limiting capacitor is equal to the amplitude of the network voltage. As a consequence, the dimensions and weight of the proposed device are smaller than that of the known. Claims An electromagnet control device comprising a first diode connected in parallel with a power source or a shunt winding of an electromagnet, the cathode of the first diode is connected to the cathode of the thyristor, the control electrode of which is connected to the cathode of the second diode, the anode of which is connected to the first capacitor connected to the first a resistor connected to a power source, the first capacitor is shunted by the second resistor, the second capacitor and the third resistor, characterized In order to reduce the mass and dimensions of the device, it is equipped with a third diode, the cathode of which is connected to the cathode of the second diode, the anode of the third diode is connected to one cover of the second capacitor, the second plate of which is connected to the cathode of the first diode, and the third resistor connected between the second capacitor and the first resistor. Sources of information taken into account in the examination 1, USSR Author's Certificate No., cl. H 02 P 3/0, 1977.. 2. USSR author's certificate in accordance with application Н2б13035 / 21 -07, cl. H 01F 7/18,1978.