SU1740986A1 - Method of express-testing in field of eccentricity of air gap of electric motors of fodder preparation machines and agricultural machines - Google Patents

Abstract

Usage: agriculture, in particular, in the methods of express control of the performance of harvesting machines and agricultural units. SUMMARY OF THE INVENTION: The EMF value is simultaneously measured in each winding during the rotation of the rotor, and the difference in these values determines the eccentricity of the air gap between the stator and the rotor. 4 il.

Description

The invention relates to agriculture, in particular, to methods for expressly monitoring the performance of feed machines and agricultural machines.

A known method for controlling the eccentricity of the air gap of electric motors of feed preparation machines, which is realized only in the conditions of specialized workshops. To do this, remove the engine from the feed preparation machine and take it to a specialized enterprise, where it is necessary to disassemble it and measure the eccentricity of the air gap using calibrated rods.

The closest to the proposed method is to control the air gap unevenness of asynchronous machines, according to which the AC voltage is applied to the terminals of the test machine, gradually increasing it until the machine starts rotating, in order to determine the degree of air gap unevenness according to the magnitude of the troop voltage.

However, this method is not accurate enough, since the voltage of the moving electric machine depends on the position of the rotor.

The purpose of the invention is to simplify the process of controlling the non-uniformity of the air gap of a three-phase asynchronous electric motor with a squirrel cage without connecting to a voltage.

This goal is achieved by the fact that the proposed method of express control of the eccentricity of the air gap of electric motors of feed machines and units consists in bringing the rotor of the electric motor into rotation at a constant speed, simultaneously measuring the EMF value in each winding during the rotation of the rotor and determining the eccentricity of the air gap between stator and rotor on the difference of these values.

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Distinctive features of the prototype are: firstly, the ability to measure eccentricity in a production environment; secondly, the ability to measure without connecting the monitored motor to a voltage. The control of air gap unevenness is greatly simplified and safer.

The proposed method allows to obtain a new positive effect - simplifying the processes of monitoring the unevenness of the air gap of three-phase asynchronous motors of feed preparation machines and agricultural units.

FIG. 1 shows a schematic diagram of the express control of the eccentricity of an electric motor of a feeding machine, the windings of which are connected in parallel; in fig. 2 is a diagram for an electric motor connected by a star; in fig. 3 - for an electric motor, the windings of which are connected in delta; in fig. 4 - beating scheme.

The circuits contain a drive motor 1, which rotates the rotor 3 through a connecting shaft 2 of a controlled induction motor of a feed preparation machine with a constant speed equal to n const; p (0.5-1.5) mon, where n is the rotation frequency.

In the windings L of the stator A, B, C, the residual magnetic field of the rotor is induced by EMF, which is measured by VA, VB and Vc voltmeters connected to the stator windings, as shown in the diagrams.

According to the detected maximum difference in EMF between the windings EE, referred to their average value. The vessel is about the unevenness of the air gap in the electric motors.

HER

: Wed

: min

-sr

where ESp - the average measured value of the EMF;

Emin is the smallest measured EMF value.

Example, Controlled asynchronous motor of a shredder of succulent feed ISK-5M is accelerated to a rotational speed of n 1000-1500 rpm by a drive motor.

The following readings appear on voltmeters connected to the stator windings according to scheme 1: VA 14.6 V, VB 7.6 V, Vc 14.5 V, Find the average value of the emf by the formula

Eur

EA + EB + EU

Yu

14.6 +7.6 + 14.5 12 | 2В

15

Then we define

HER ESR-Emin 12.2-7.6 tcpIz./

Thus, the rotor eccentricity exceeds

0,1 „0.1 3.79 times.

Using the proposed method allows to reduce the number of operations in the conduct of measurements, as there is no need to dismantle the engine, reduce

Claims (1)

measurement time and safeguard the measurement, since all measurements are carried out by an electric motor that is not connected to the voltage network. Invention Formula The method of express control under production conditions of eccentricity of the air gap of electric motors of feed preparation machines and agricultural units, including bringing the rotor of the electric motor into rotation at a constant speed and measuring the values of the difference in EMF induced in the stator windings, that, in order to simplify the control processes, the EMF values are measured simultaneously in each winding during the rotation of the rotor, while the eccentricity value e e of the air gap between the stator and the rotor is determined by the formula ЈE  Esr Emin E where ESp - the average value of the measured values of the EMF; Emin is the minimum value of the measured EMF values. / FIG. one Yas FIG. 2 J Fig 3 Yar