SU1709486A1 - Small electric drive - Google Patents

Abstract

The invention relates to electrical engineering and can be used to control collector spur engines. The purpose of the invention is to increase the torque. The device contains a single-phase collector electric motor with a core winding 4 and with two half windings 5, 6 of excitation. The anchor winding 4 of the motor link is connected via a switch to the source 1. In parallel with the half windings 5 and 6 and the root winding 4, capacitors 9 and W are connected. In this device, through the capacitors 9 and 10, originated /] 1it < phase shift of the excitation current,. The magnetic flux in phase coincides with the drain of the core, which provides an increase in the rotating mis-MisHTa. 3 ill. F. ^ ^ Oy Ü.00oFig.1Ij'Iffi- ^ ic

Description

The invention relates to electrical engineering and can be used in low-power electric drives with single-phase collector motors of alternating current. The aim of the invention is to increase the torque. Figure 1 shows the electrical circuit diagram of the electric drive; 2, 3 - diagrams of his work. The electric drive (Fig. 1) contains a source of 1 single 4) alternating current to which a collector electric motor of alternating current with a core winding 4 and a field winding divided into two equal half windings 5 and 6, each of which are located at its main magnetic pole and connected to one of the terminals with its brush 7 and 8 of the electric motor. There are also the same capacitors 9 and 10, connected by one output to the source 1, and the other to the brush of the electric motor. The drive works as follows. When the switch 3 is on, the source voltage 1, i.e. Ui, is applied to series-connected windings 5, 4. b of an electric motor, so that a sinusoidal alternating current flows through these windings, significantly lagging behind the voltage Ui-f, without capacitors 9 and 10, i.e. in the classical scheme of switching on an AC collector motor, the magnetic flux F is lagging behind the current of the motor windings by an angle y (Fig. 2), so that the electromagnetic moment corresponds to the wave diagram m and its average value is M, since m C i F; M С I Фсо8 1р. Due to the shift of the wave diagrams of the current and the magitite flux, the mean value of the moment decreases, and its pulsations increase due to the appearance of negative values of t. the phase shift of the excitation current U to the front side (Fig. 3) occurs. The magnitude of the capacitors 9 and 10 is chosen so as to provide a current shift IB at an angle p with respect to the current cor 1 (the forward side). Then the magnetic flux Ф will coincide in phase with the current cor 1 and the electromagnetic moment m will be maximum. Usually, the indicated alignment (i / 0) can be provided in collector motors for any one mode, for example for a nominal mode or a maximum load mode. In other modes, there is a partial moment increase. In addition, the presence of capacitors increases the power factor of the drive as a whole. Formulas and Inventions A low-power electric drive containing a single-phase alternating current collector motor with two excitation half-windings, each of which is placed on its main magnetic pole, and these half-windings are turned on symmetrically with respect to the main winding of the electric motor connected via a switch to the power supply, two a capacitor, each of which is connected by one output to a common point of the power source and the second output of one of the semi-windings spinning, characterized in that, in order to increase the torque, the second terminals of the capacitors connected to the common point and the other anchor coil poluobmotki excitation.

Lj L

Claims (1)

Claim A low-power electric drive containing a single-phase alternating current collector electric motor with two field windings, each of which is located on its main magnetic pole, and these half windings are connected symmetrically with respect to the armature winding of the electric motor connected via a switch to a power source, two capacitors, each of which one terminal is connected to a common point of the power source and the second terminal of one of the excitation half-windings, characterized in that, in order to increase the torque, the second terminals of the capacitors are connected to a common point of the armature winding and other excitation half-windings.