SU1159071A1 - D.c.electromagnet with forcing - Google Patents

Description

P1

to I1 The invention relates to electrical equipment and can be used in direct-current electromagnetic drives supplied from an alternating current network through a honeycomb rectifier, in particular in electromagnetic contactors, magnetic starters, as well as power electromagnets equipped with auxiliary opening contacts. A permanent electromagnet is known. current with force, in which the coil is made of two sections, each of the sections is connected to a diode half-bridge, the midpoints of which are connected to the source at alternating voltage. In addition, an interrupting contact is mechanically connected with the moving system of the electromagnet between the two points of the same name, and a ballast capacitor is connected between the two other points of the same name. This electromagnet can have a large forcing coefficient with a slight wear of the auxiliary contacts. The disadvantage of this device is the presence of two windings with labeled leads and the inability to use standard diode bridges, which complicates the design and the process of assembling an electromagnet with force. Since each winding is powered by half-wave voltage (180 ° offset), a large starting current flows through the contacts, the contacts wear out quickly, which leads to a decrease in the reliability of the electromagnet. This disadvantage is also inherent in devices for the forced switching on of an electromagnet (l21 and L3 J, in which half of the windings in the start-up mode are fed by half-wave voltage. Besides, a disadvantage of these devices is the isolation of losses in the ballast resistors in which the winding is included in the diagonal of the bridge rectifier, and in the AC circuit, a capacitor is connected in series with the rectifier, and the capacitors of which are closed at the moment of switching on (with the help auxiliary contacts or another capacitor) and open in the working position 4. 12 The capacitor used as a powerless ballast element reduces power consumption in the operating mode.This device can be obtained a high forcing factor in the absence of losses in the ballast capacitor and with a slight ripple of current in the unwinding, as the rectifier circuit is full-wave. However, when the contacts shunt the charged capacitor are closed, a large discharge current flows through the contacts and the contact wear increases. The aim of the invention is to increase reliability by reducing the wear of the break contacts when they are closed. The goal is achieved by the fact that a direct current electromagnet with a force containing a winding, an auxiliary contact, a bridge rectifier, a capacitor and outputs for connecting an alternating voltage source, the electromagnet winding being connected to the output of a bridge rectifier, one of the terminals dp connection of the alternating voltage source is connected to one of the capacitor plates and through an auxiliary disconnecting contact with one of the inputs of the bridge and the mittel, the other input of which is connected to Another terminal for connecting an alternating voltage source, the winding is filled with a medium output, and the said winding terminal is connected to another capacitor plate. The drawing shows a diagram of the device forcing an electromagnet. An alternating voltage source connected to terminals 1 and 2 is connected in series with the opening contact 3, the series circuit being connected to the input diagonal of a bridge rectifier composed of diodes 4-7. An output terminal 8 is connected to the output bridge diagonal of the rectifier by its extreme leads 9 and 10. The capacitor 11 is connected to the connection point of the source and auxiliary contact, one other terminal of which is connected to the middle terminal 12 of the winding. 3 When the source is connected to terminals 1 and 2, the auxiliary contact 3 is initially closed, therefore, a two-half-voltage source voltage is applied to the winding 8 and a large starting current is flowing through the winding that is sufficient for the electromagnet to operate. The current flowing through the capacitor 11 flows and the cherkzez winding, whereby the starting current increases slightly. pin 12 - part of the winding between the middle newode 12 and the outermost view 10 - diode 7 - terminal .2; with a negative half-wave along the route - terminal 2 - diode 6 - extreme output 9 - part of the winding between extreme output 9 and middle output 12 - capacitor 11 - terminal 1. Despite significant ripple currents in each part of the windings, a chattering sound (buzzing) of the core 1 4 is practically absent, so the variable components of the currents of the parts of the windings are in antiphases. Unlike the prototype, the capacitor 11 discharges when the source is disconnected from terminals 1 and 2 and the contact 3 is closed through one of the winding parts, therefore the discharge current of the capacitor through the contacts is much less than in the prototype, the contact wear decreases, and the reliability of the device as a whole increases. Since, in the starting mode, the windings are connected in series and fed with full-wave voltage, the current flowing through the contacts with the same VAT is two times less than in known devices with full-wave powering of the windings during start-up. The development of the proposed device in control circuits for driving electromagnets of direct current makes it possible to reduce the drive's overall dimensions and increase its speed.

Claims (2)

FORCED DC ELECTROMAGNET, containing a winding, auxiliary disconnect contact, bridge rectifier, capacitor and output 'for connecting · an AC voltage source, and the electromagnet winding is connected to the rectifier output, one of the terminals for connecting an AC voltage source is connected to one of the capacitor plates and through an auxiliary opening contact with one of the inputs of the bridge rectifier, the other input of which is connected to another output for connecting the variable source voltage, which entails the fact that, in order to increase reliability, the winding is made with an average terminal, and the indicated terminal of the winding is connected to another capacitor plate. uaeffrr'Hg'- ⁰ 2.