SU1686383A1 - Rotation speed measuring device for direct current collector engine - Google Patents

Abstract

The invention relates to measurement technology and can be used in regulators of rotation frequency of collector electric motors. The aim of the invention is to increase the sensitivity and expand the upper limit of measurements. The variable component of the main current flowed through the branches of bifilar primary winding 3 induces a frequency in the secondary winding 7 of the EMF which is proportional rotational speed of electric motor 2 or

Description

The invention relates to a measurement technique and can be used in regulators of the frequency of rotation of collector motors.

The purpose of the invention is to increase the sensitivity and the expansion of the upper limit of measurement

Fig. 1 shows the connection circuit of the measuring converter in Fig. 2 - electrical replacement circuit.

A device for measuring the rotational speed of a DC collector motor contains a transformer 1 on an annular magnetic core 2 of which a bifilically primary winding 3 is wound, connected to the winding circuit of a motor core 4 To the midpoint of winding 5 and to one of the winding ends 3 a capacitor 6 is connected, whose capacitance is chosen equal to the inductive resistance of the branch formed by one of the branches of the bifilary winding 3 Secondary

winding 7 is connected to the recorder (not shown)

The device works as follows. When the motor is connected to a DC source, current pulsations occur in the core circuit due to its switching processes on the collector plates. The primary current of the current transformer is pulsed by the expression i lo + AND sin al.

In this case, the constant component of the current corr. flow through the branches of the primary winding 3 does not create a magnetic flux in the magnetic core 2 of the current transformer 1. The alternating component of the current И И a) t (see Fig 2) with frequency w flows through the branches of the winding 3 with inductance L in antiphase and creates an alternating current - coupling C) - 4 L8li sin ut in the secondary winding 7 EMF In this case, the current through the capacitor b is equal to the sum of the vets currents

WITH

about

00

about

GJ 00 W

Weigh windings 3. Thus, this winding causes a variable flux coupling with the secondary winding 7 and induces an emf in it, the frequency of which is proportional to the speed of rotation:

2 - -4

W1

LB (O AND COS C / Jt,

where ol.o is the number of turns, respectively, in the primary and secondary windings.

Since the constant component of the current does not affect the operation of the device, and the effect of higher harmonics is attenuated, the current transformer is only highly sensitive to the main frequency of the current ripple of the electric motor, which increases not only the sensor

five

device, but also extends the upper limit of measurement

Claims (1)

Measurement formula A device for measuring the rotational speed of a DC collector motor, containing a measuring transducer whose input is connected to the winding circuit of a motor core, and the output to a recorder, characterized in that. In order to increase sensitivity and expand the upper limit of measurements, the measuring transducer is made in the form of a current transformer, the primary winding of which is made bifillary with the formation of a midpoint, with a capacitor connected between one of the ends of the primary winding and the midpoint. 1 B ju () jb) () Fig 2