SU819890A1 - Method of diagnosis of sliding contact of electric motor - Google Patents

Description

one

The invention relates to the field of electric machines and is intended for use in the course of operation in assessing the technical condition of a sliding contact, in particular, in diagnosing electric motors of aviation electromechanisms.

Methods are known for diagnosing direct current electric machines, which consist in measuring various parameters characterizing the processes of switching and current collection in a sliding contact. However, the diagnosis with such methods is not sufficiently reliable 1.

There is a known method for diagnosing a sliding contact of an electric motor based on simultaneous measurement of peak and average voltage values of voltage pulsations, generation of a controlled signal proportional to the ratio of the specified voltage values during monotonic variation of the rotation frequency of an electric motor, determination of the sign of the derivative of the monitored signal from the operating mode parameter and comparison with a setting of 2.

The disadvantage of this method is the complexity of the diagnostic process, due to the need to control the rotation frequency and the use of highly stable regulated voltage sources.

The purpose of the invention is to simplify the diagnostic process.

To achieve this goal, the motor is supplied with a constant voltage, the rotational speed is varied by changing the load moment, the current consumed by the motor is used as a mode parameter, and the presence of defects is judged by the positive sign of the derivative of the current signal.

The complexity of any diagnostic process can be characterized by the complexity of the implementation of its individual operations. In particular, when performing the operation of controlling the rotational speed during its monotonous change according to a known method (2J, it is noted that for many DC motors of low power (and, first of all, sequential and mixed excitations),

Having built-in tachometers, this operation can be performed with the required accuracy only by measuring the frequency of a certain (for example, collector) component of the electric current ripple.

The use of such components as a rotational frequency signal requires the use of relatively complex pulsation signal processing rates. For example, in the simplest case, it is necessary to select a certain component of the spectrum, amplify and normalize in amplitude, and convert the pulse signal to analog. Moreover, in the event of even minor defects of the sliding contact, the task of extracting a stable signal about the frequency of rotation from the current pulsations is complicated and requires the use of the following bandpass filters in the measuring channel.

All this indicates the relative complexity of the implementation of individual operations by a known method.

At the same time, it is known from the theory of electrical masking that between the frequency of rotation and the current of an electric motor (at a constant supply voltage) there is an unambiguous relationship determined by the speed characteristic, which in general has the form:

i-un

  1 (f-

where n, J, R, P -, respectively, rotational speed, current consumption, resistance of the circuit and magnetic flux of the electric motor; .i - electric motor supply voltage; K is a constant coefficient.

Therefore, similarly to the known method, the sign of the derivative of the monitored parameter of the ripple voltage versus current makes it possible to unambiguously judge the presence of defects in the sliding contact with the difference that since the relationship between the current and rotational frequency of the electric motor is inverse (in the sense that an increase in the rotation frequency corresponds to current and vice versa), the defects of the sliding contact will correspond to the positive sign of the derivative.

At the same time, the fact of a significant simplification of the diagnostic process is obvious, since the implementation of the measurement operation of the current consumed by the electric motor is much simpler, the operation of measuring the rotation frequency.

Since the unambiguous relationship between the frequency of rotation of the motor and the current is maintained at a constant voltage, the change in the frequency of rotation (and hence the current) can be accomplished by changing the moment of load.

However, the need to use such a method of changing the rotational speed is not difficult either when diagnosing an electric motor on a stand (where there is always the possibility of controlling the load torque), or when diagnosing on an object (for example, on board an aircraft), as ) in real conditions of operation, the moment of load on the motor shaft changes (within the mechanism transfer cycle) in the range of not m It ± 10% from the average and up to 50% when joining the coupling operation restricting torque.

This allows, without additional operations, to implement the proposed method of diagnosis on board the aircraft. Wherein

The essential point is that in this case there is no need to regulate the supply voltage to change the rotational speed, and this makes it possible to use an unregulated source (for example, a battery) as a power supply unit and thus eliminates the need to use adjustable voltage sources, which (taking into account the need for a small ripple level in the output voltage)

they are relatively complex devices, especially at high power (100 watts or more). Moreover, the use of batteries as a constant voltage source of a fixed value makes it possible to eliminate

the need to connect to the plug, but the connector of the electromechanism, which, given the difficult access on board the aircraft to some of them, makes it possible to reduce the laboriousness of work when performing diagnostics.

Thus, a new set of features of the proposed method allows to significantly simplify the diagnostic process, which leads to a reduction in the cost of diagnostics

an account of the possibility of using simpler diagnostic tools, as well as reducing the complexity of diagnostics. The latter allows to reduce downtime for maintenance and increases the efficiency of use of controlled objects, for example, aviation, which contain a large number of DC motors (60-80 units or more).

Estimated economic effect

from the implementation of the proposed method (as applied to the electric motors of the mechanisms of the Yak-40) for the cruise control 100 masin is 96100 RUR / g.

Claims (2)

1. USSR author's certificate No. 60950, cl. H 02 K 15/00, 1940. 2. USSR author's certificate for application No. 2632542 / 24-07, cl. H 02 K 15/00, 1978 (prototype).