SU1653010A1 - Electromagnet having built-in rectifier - Google Patents

Abstract

The invention relates to electrical engineering and can be used to control electromagnetic drives of alternating current contactors from a three-phase network. The aim of the invention is to reduce power consumption and overall dimensions of an electromagnet. When the control contacts 16 and 17 are closed, three-phase voltage is applied to windings 1 and 2 power The formed operation of the electromagnet occurs. In this case, the contact 20 is opened, and the windings are connected in series and according to. 2 з.п f-ly. 2 yl

Description

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The invention relates to electrical engineering and can be used to control electromagnetic drives of AC contactors from a three-phase network.

The purpose of the invention is to reduce power consumption and mass and size parameters of an electromagnet.

Figure 1 shows an electromagnet with an embedded rectifier; FIG. 2 shows a device using a current-limiting element.

The electromagnet (figure 1) contains the first and second windings 1 and 2, respectively, connected in series and according to the magnetic relation. The same ends of the windings 1 and 2 of the same electrodes are connected to the first 3 and second 4 diodes, respectively. The third diode 5. connected in opposite to diodes 3 and 4, connects the two opposite ends of windings 1 and 2. The electromagnet is powered from three leads 6.7, and 8 three-phase voltage source, to which respectively through the closing contacts 9, 10 and 11 the contactor is connected to the terminals 12. 13 and 14 of the load 15. The first 16 and second 17 closing contacts of the control are mechanically connected and connected by one terminal respectively to the first 6 and second 7 terminals of the three-phase voltage source, and the other terminals respectively to the same ends and the elec trodes windings and diodes 1,3 and 2,4. The opening contact 18 controls one terminal connected to the third output 8 of a three-phase voltage source, and the second terminal connects to the fourth diode 19, which is connected opposite to the second diode 4. The same electrodes of the first 3, third 5, fourth 4. fourth 19 diodes are connected via an auxiliary break contact 20 contactor. The common point of the first winding 1 and the first closing contact 16 of the control is connected directly or via the limiting element (Fig. 2) and the contact 9 of the contactor to the first terminal 6 of the three-phase voltage source.

The device (Fig. 1) works as follows.

Close the contacts 16 and 17 of the control. Three-phase supply voltage is applied to windings 1 and 2. The current is consumed from the network by each winding 1 and 2 through pins 6. 7 and 8 during 2/3 of the voltage period. During the 1/3 period of the voltage, the current in each of the windings 1 and 2 is closed, respectively, through their shunting diodes 3 and 4. A forced connection is made. The contactor electromagnet and its contacts 9,10 and 11 are closed, ensuring the load 15 is connected to the network, and the auxiliary contact 20 is opened. The windings 1, 2 are connected in series and in accordance with. After that, pins 16 and 17

open, and windings 1 and 2 are energized by a one-half-period rectified voltage from terminal 12 and terminal 8.

This reduces the current flowing through the windings to a value sufficient

to hold the core in a tightened position.

The connection of the winding 1 to the terminal 12 of the load 15 through the current-limiting element allows windings 1 and 2 to be made

starting and additionally reduce the weight and dimensions of the electromagnet and the power consumed by it. As a current limiting element, a resistor parallel to the resistor-capacitive circuit, a zener diode, controlled and uncontrolled thyristors, can be connected according to the additional winding 21 (FIG. 2) of the electromagnet, made in the form of a retaining, with

diode 22 or without it, etc. The use according to the included winding 21 makes it possible to further reduce the power consumed by the electromagnet, since with a given safety factor for the electromagnetic force (or for the holding MDS) in this case, the current in the electromagnet windings in the core-hold mode can be reduced.

Thus, the use of the inventive invention provides, in comparison with the prototype, a reduction in power consumption, mass and dimensions of an electromagnet due to the effective use of winding

the wire reached by connecting the windings in series in the holding mode and increasing the force level in the contactor switching mode.

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Claims (3)

1. Electromagnet with a built-in rectifier containing two windings connected in series and in accordance with magnetically, three diodes, the first and second of which of the same electrodes are connected to the same terminals of the first and second windings, respectively. and the third diode is connected by the same electrode to the first diode, three leads for connecting a three-phase voltage source, at least two make contacts for switching a load, connected between two leads for connecting a three-phase voltage source and two load terminals, first and second control contacts mechanically interconnected and connected by one terminal to two terminals for connecting a three-phase voltage source, and the other terminals are connected respectively to the first coil and with the third diode, as well as opening contacting and auxiliary contact, characterized in that. that, in order to reduce power consumption and weight and size parameters, a fourth diode was inserted into it, two opposite ends of two windings were connected via a third diode, and a fourth diode was connected with the same electrode to the electrode of the second diode not connected to the third diode, and the second electrode the fourth diode through the control break contact is connected to the third output to connect the power source a three-phase voltage, the auxiliary contact is disconnected and connected between the same electrodes of four diodes, and the connection point of the first control closing contact and the first winding is connected to the first terminal for connecting a three-phase voltage source through the closing contact for connecting the load. 2. Electromagnet according to claim 1, characterized in that. that one of the windings is made starting, another - holding. 3. The electromagnet of claim 1, wherein the windings are made starting, and the connection point of the first control closing contact and the first winding is connected to the first terminal for connecting a three-phase voltage source through the current limiting element.