SU1582211A1 - Electromagnet with built-in rectifier with forging - Google Patents

Abstract

The invention relates to electrical equipment and can be used to form power supply to drive electromagnets. The aim of the invention is to simplify and increase the degree of forcing. Winding 1 is included in the diagonal of the bridge rectifier. Auxiliary contact 2 provides a hold mode. The winding of the electromagnetic mechanism is used as the ballast element. 1 il.

Description

SL

00 GO number

The invention relates to an electrical apparatus and can be used for forced powering of primed electromagnets.

The purpose of the invention is to simplify the core of the magnet and increase the degree of forging.

The drawing shows an electromagnet control device with a built-in Lorsirovan rectifier.

The control unit for an electromagnet with a built-in rectifier with a force contains a winding 1 of an electromagnet with a middle lead, with which the auxiliary normally closed contact 2 connected with its other end with the first lead 3 for connecting a power source, a bridge four-diode rectifier , the second input of which is formed by connecting the diodes 4 and 5 is connected to the second terminal 6 for connecting the power source, the winding 1 of the electromagnet is connected to the outputs of the bridge rectifier, between th input is formed by the diodes 7 and Compound 8, and the first source terminal 3 for connecting a ballast element included in vi- de winding 9 of the electromagnetic mechanism. As a winding of an electromagnetic mechanism, a second additional winding of an electromagnet switched on by a Lorslanted one or the winding of another electromagnet can be used.

An electromagnet control device with a built-in rectifier with Lorsing works as follows.

When applying to the terminals 3 and 6 of the alternating voltage, the source current through the auxiliary contact 2 in one half-period of the voltage closes through one of the winding half-windings 1 and in series with the diode in the next half-period - through the other half-winding and the other diode. The device provides two-full-time power to the electromagnet and it is activated by force, and contact 2 is open. If the winding 9 is used to wind the other electromagnet, then it is triggered. In this and in the previous case, the inductive resistance of the winding 9 sharply increases, which significantly reduces the current consumed from the source to a value sufficient to keep the electromagnets in the attracted position.

Pins 3 and 6 can be supplied with a constant voltage, however, the limitation of the current consumed from the source after the opening of contact 2 will be determined by the active resistance of the winding 9.

Using the proposed electromagnet control device with a built-in Lorsi rectifier allows to simplify the electromagnet, since there is no need to use special fasteners to install the ballast element. When powering an electromagnet from an alternating voltage source, the winding 9 can be made with a small turn and from the same winding wire as the winding 1. In addition, the device allows to increase the degree of power loss of electromagnets from an alternating voltage network at a given heat loss power the ratio of the magnetomotive force when turned on to the magnetomotive force while keeping the korea in the attracted position), since the currents in the windings are limited mainly by the inductive resistance of the winding 9-15 result from there is a need to use an additional circuit (its contact of an electromagnet operated by force, for switching on after an electromagnetic mechanism is triggered. The device can be powered both from a variable source and a constant voltage, which expands its operational capabilities.

Claims (1)

Invention Formula Electromagnet with a built-in rectifier with a force containing a medium output winding, an auxiliary normally closed contact, a bridge rectifier, a ballast element and outputs for connecting an AC power source, the electromagnet winding being connected to the outputs of the bridge rectifier the opening contact is connected to the first terminal for connecting the AC power source and the first terminal of the ballast element, the second 15Y22I A swarm whose output is connected to the primary is that, with the aim of The second input of the bridge rectifier, the second one, the device simplification and enhancement by the Steroi, is connected to the second power supply; a winding is used to connect the source element to connect the source element. power supply of alternating current, about t of l and - the electromagnetic mechanism.