SU1576908A1 - Dc electromagnet with forcing - Google Patents

Abstract

The invention relates to electrical equipment and can be used in electromagnetic direct current drives. The aim of the invention is to increase the force ratio. When voltage is applied through windings 1, 2 and 3, the full-wave rectified current flows when the windings are connected in parallel. After the electromagnet is triggered, the key elements 13, 14 and 15 are opened. The windings 1, 2 and 3 are switched on in series and transferred to power with a half-wave rectified current. 1 il.

Description

The invention relates to electrical apparatus and can be used in electromagnetic DC drives.

, The purpose of the invention is to increase the coefficient of forcing.

! The drawing shows a circuit diagram of the proposed electromagnet.

Electromagnet DC "current ^ _v with boost winding contains 1-3 included in the diagonal of the bridge you ^l rectifiers, whose shoulders are formed by diodes 4-7. A diode 8 is connected between the opposite leads of the windings, and a diode bridge formed by diodes 3-12 is connected in series with the diode 8, the winding 3 of the electromagnet is included in the diagonal of the direct current. In addition, between the conclusions of the same name K _f , K _? and Η _η , H ₂ and parallel to the diode 8 are installed nodes, breaking the circuit, made in the form of breaking contacts 13-15.

The electromagnet operates as follows.

. · In the initial position, when the electromagnet is disconnected, contacts 13-15 are closed. When the circuit is connected to an AC voltage source through the windings 1-3, the electromagnet flows a half-wave rectified current (when windings 1-3 are connected in parallel). After the operation of the electromagnet, the contacts 13-15 are opened and, due to DIODE 8, the windings 1-3 are switched on sequentially while the rectifier circuit is switched to single-pulse mode.

The proposed electromagnet in the presence of three windings provides automatic six-fold boosting current. In addition, in the proposed> 5 electromagnet, contactless switching elements can be included instead of the NC contacts.

A higher boost coefficient is an advantage of the proposed technical solution in comparison with the known ones.

Claims (1)

Claim Forced DC electromagnet containing two windings, two disconnecting key elements, a diode and a diode bridge rectifier, connected to the terminals with inputs for connecting a single-phase AC network, the first disconnecting key element being connected between the rectifier diodes connected by their cathodes, and the second between the diodes connected by their anodes, one of the windings of the electromagnet is connected between the first terminals of the first and second disconnecting key elements, and the other between their second terminals, one n of the terminals of the diode is connected to the first terminal of the second disconnect key element, characterized in that, in order to increase the boost coefficient, a third winding, a third disconnect key element and a second diode bridge rectifier are introduced into it, and the other terminal of the diode is connected to one from the inputs of the second diode bridge rectifier, the other input of which is connected to the second output of the first disconnecting key element, the third winding is connected to the output diagonal of the second diode bridge rectifier, the third p The connecting key element is connected in parallel with the diode.