SU1372378A1 - Boosted d.c.electromagnet supplied from a.c. voltage source - Google Patents

Abstract

The invention relates to the field of electrical equipment and can be used as a discrete action drive for a series of actuating elements of relay contact devices. The aim of the invention is to simplify, reduce the size and increase the reliability of the device. During start-up, the winding 11 of the electromagnet is connected to the power source. Through the key element 3. In the hold mode, the key element 3 is opened and a ballast capacitor P is introduced into the power circuit of the winding 11. When disconnected, the capacitor 10 is discharged through the winding 3. 1 sludge. i (L

Description

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The invention relates to electrical equipment and can be used as a discrete action drive for a series of actuators of relay-contactor apparatuses and other technical means of automation, acting on various components and devices that are connected with closing and opening contacts, valves, valves, spools. and etc.

The purpose of the invention is to simplify and reduce the dimensions and increase the reliability of the device.

The drawing shows the proposed scheme of a forced-current DC electromagnet powered by an alternating voltage source.

The device contains terminals 1 and 2 for connecting the source, and it is directly from the terminals, and the other through key element 3 is connected to an input diagonal of a bridge rectifier composed of a diode 4-7, diodes 8 and 9 and a capacitor 10. To the output diagonal of a bridge rectifier The coil 11 is connected by its terminals 12 and 13. The terminal 1 for connecting the source, connected to the key element 3, pg is spun off by one terminal of a capacitor 10, the other terminal of which is connected to the midpoint of a serial connection of two diodes 8 and 9. Extreme points of diodes 8 and 9 are connected to terminals 12 and 13 of the coil (to the output diagonal of the rectifier), with the cathode 8 attached to the positive terminal 12, and the anode of the diode 9 to the negative terminal 13.

The device works as follows.

When the source is connected to the terminals 1 and 2 (start mode), the key element 3, which can be used as a break contact mechanically connected to the moving system of the electromagnet, is in a conducting state, therefore, a straightened two-wavelength voltage is applied to the winding 11 source and the winding flows a large starting current sufficient to trigger the electromagnet. The current through the capacitor 10 does not flow, because the capacitor is shunted by a key element.

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After the electromagnet is triggered (hold mode), the key-element 3 goes into a non-conducting state, and a current limited by the resistance of the capacitor flows through the winding 11: at a positive half-wave, the voltage along the path is

I - capacitor 10 - diode 8 - winding 1 1 - diode 7 - terminal 2; with negative voltage half-wave along the route, terminal 2 - diode 6 - winding

II- diode 9 - capacitor 10 - terminal 1. Since the full-wave voltage of the source is applied to winding 11 in the operating mode, the sound of chatter (hum) of the core is almost absent.

In contrast to the known device, where the average output is used

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points of the coil, which complicates its manufacturing technology, uses a diode half bridge (diodes 8 and 9), designed for a lower current than

5, a main diode half bridge (diodes 4 and 5), and it is also possible to use a smaller capacitor.

The use of the invention allows to eliminate the technological complexity when winding a coil (to exclude the middle point), to increase the reliability and durability, to reduce

Claims (1)

weight and size indicators. Invention Formula A forced DC electromagnet powered by an alternating voltage source, containing a full-wave bridge rectifier whose output diagonal is connected to the winding and the input diagonal is connected to the power supply terminals via a key element, a capacitor, one of the plates of which is connected to the connection point terminals for connecting the power source and the key element, characterized in that, in order to simplify, reduce the size and increase the reliability of the device, There are two diodes, the anode of the first and the cathode of the second diode are interconnected and connected to another capacitor plate, the cathode of the first diode is connected to the positive terminal of the output diagonal of the bridge rectifier, and the anode of the second diode to the negative terminal. five 0