RU2283502C1 - Device for estimating and predicting technical state of isolation of electric motor - Google Patents

Abstract

FIELD: measuring equipment engineering, possible use for diagnostics of isolation of windings of three-phased electric motors.

SUBSTANCE: in accordance to invention, device contains generator of rectangular impulses, meant for connection to winding of electric motor, synchronization block and analog-digital converter, serially connected by their inputs to clamp of electric motor winding. First input of analog-digital converter is connected to output of synchronization block. First input of block for synchronization of interfaces is connected to output of analog-digital converter, first output - to second input of analog-digital converter, second input - to output of personal computer, second output - to input of rectangular impulse generator.

EFFECT: expanded functional capabilities.

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Description

The invention relates to instrumentation and can be used to diagnose the insulation of the windings of three-phase asynchronous motors.

A device for diagnosing the windings of electric machines, containing a rectangular pulse generator that generates and delivers rectangular pulses with specified parameters to the winding of the studied electric machine, three differentiators that process the received signal, a key, an output unit and a voltmeter that displays the measurement result. The output of the rectangular pulse generator is connected to the beginning of the winding. The end of the winding of an electric machine is connected to the input of the first differentiator. The output of the first differentiator is connected to the input of the second differentiator and the first input terminal of the key. The output of the second differentiator is connected to the input of the third differentiator and the second input terminal of the key. The output of the third differentiator is connected to the third input terminal of the key. The output terminal of the key is connected to the input of the output unit. From the output unit, the measuring information is fed to a voltmeter (see Belousova N.V., Kalyavin V.P., Mozgalevsky A.V. Experience in test diagnosis of windings of electric machines. - L.: LDNTP, 1989. - P.19-21, fig. 6).

This device has narrow functionality, as it allows you to obtain a diagnostic parameter, with which only after mathematical processing such characteristics as resistance and winding capacity of an electric machine relative to the housing are determined. Moreover, in practice, the assignment of calculation functions to the measuring unit is of decisive importance, since the attendant electrical personnel do not always have the opportunity to carry out cumbersome mathematical calculations. In addition, such narrow functionality of the device in question does not allow determining the value of the residual life of the insulation of electric motors, which is the most significant.

A device for assessing the technical condition of the insulation of the motor windings, used as a prototype, contains a rectangular pulse generator designed to connect to the beginning of the studied motor winding, an amplifier-limiter, a period meter, a peak detector, a control unit, a mode indicator, an analog signal storage unit, a voltmeter . The beginning of the motor winding is connected to the output of the rectangular pulse generator, and the end of the motor winding is connected to the parallel inputs of the amplifier-limiter and peak detector. The output of the amplifier-limiter is connected to the input of the period meter. The first, second and third inputs of the control unit are connected, respectively, with the outputs of the period meter, peak detector, and square-wave generator. The first and second outputs of the control unit are connected, respectively, with the inputs of the storage unit of the analog signal and the display unit. The voltmeter is connected to the output of the analog signal storage unit (see RF patent No. 2208234, IPC ⁷ G 01 R 31/12, 31/14).

This device allows you to measure a number of diagnostic parameters, but has narrow functional capabilities, since it does not allow the analysis of these diagnostic parameters, to predict the residual insulation life of electric motors and at the same time take into account their design features, operating mode and operating conditions. In addition, the described device does not allow for the visualization of input data and obtaining the result, which contributes to the increased complexity of the staff.

The present invention solves the problem of expanding the functionality of the device, as well as ensuring the visibility of the input data and display the result in a convenient form.

To achieve this technical result, a matching unit and an analog-to-digital converter are introduced in series with the inputs of the motor winding and connected to the motor winding in a device for evaluating and predicting the technical state of the insulation of the motor windings, which is designed to connect to the motor winding, and the first input is an analog- the digital converter is connected to the output of the matching unit, the matching unit interfaces, the first input of which is connected n to the output of analog-to-digital converter, the first output - to the second input of the analog-digital converter, the second input - to the output of the personal computer is further inserted, the second output - to the input of the generator of rectangular pulses. In this case, the input of the personal computer is connected to the third output of the interface matching unit.

The expansion of the device’s functionality and visualization is achieved through the use of a matching device, an analog-to-digital converter, an interface matching device, and a personal computer. Using these elements allows you to convert the analog diagnostic signal into digital form, convenient for further processing of the signal using a personal computer. In this case, software is used that allows calculating the value of the diagnostic parameter and the residual life of the motor insulation using the signal parameters. In addition, in these calculations, parameters are used that characterize the design features of electric motors, its operation mode and operating conditions. They are entered interactively into the computer's memory and stored in it for a specified period of time.

The drawing shows a structural diagram of the proposed device for assessing and predicting the technical condition of the insulation of the electric motor.

A device for assessing and predicting the technical state of insulation of a motor contains a rectangular pulse generator 1, designed to connect with the beginning of the winding of the investigated motor 2, matching unit 3, analog-to-digital converter 4, matching unit interfaces 5, personal computer 6. One of the terminals of the motor winding 2 connected to the output of the rectangular pulse generator 1, and the other output to the input of the matching unit 3. The output of the matching unit 3 is connected to the first input of analog-digital converter 4. The second input of the analog-to-digital converter 4 is connected to the first output of the interface matching unit 5. The output of the analog-to-digital converter 4 is connected to the first input of the matching unit of interfaces 5. The second and third outputs of the matching unit of interfaces 5 are connected, respectively, with the inputs of the generator rectangular pulses 1 and a personal computer 6. The output of a personal computer 6 is connected to the second input of the interface matching unit 5.

The rectangular pulse generator 1 generates rectangular pulses with a duration of 1 ms and an amplitude of 1-5 V. It has a powerful amplifier stage at the output, which allows it to be connected to motors with a low resistance of the phase-case circuit, which is typical for high-power asynchronous motors. The coordination unit 3 provides the connection of the electronic part of the device to an induction motor. The device is made in the form of an emitter follower, which provides it with a large input and low output impedances. This ensures that there is no distortion of the signal received from the induction motor caused by the load of the entire device. An analog-to-digital converter 4 converts a continuous ramp signal into its digital equivalent with a resolution of 16 bits. The sampling period for analog values is 10 μs. The interface matching unit 5 provides coordination of the electrical parameters of the signals generated by the device with the electrical parameters of the PCI bus of the personal computer 6, and a logical interface. It serves to transfer the sampled values of the signal under study from the analog-to-digital converter 4 to the memory of the personal computer 6 and the signals controlling the operation of the device — the start signal of the rectangular pulse generator 1 and the initiation of the analog-to-digital converter 4 — from the personal computer 6 to these elements of the device. The personal computer 6 performs the following functions:

- generates a start signal for the generator of rectangular pulses 1;

- starts up the analog-to-digital Converter 4 and reads a digital code from it;

- provides the introduction of the values of the reference diagnostic parameter, the diagnostic parameter obtained in the previous diagnosis, and the time elapsed since the last diagnosis;

- calculates the value of the current generalized diagnostic parameter, the operating time of the diagnosed engine before failure;

- provides a display of input values, device operating modes and measurement results.

A device for assessing and predicting the technical condition of the insulation of the motor works as follows.

Upon a command from a personal computer 6, the interface matching unit 5 generates a start signal for the rectangular pulse generator 1. From the output of the rectangular pulse generator 1, a single diagnostic pulse is applied to one of the terminals of the motor winding 2. From the other output of the motor winding 2, the signal is fed to the input of the matching unit 3, ensuring the absence of distortion of this signal, which may be caused by the operation of the inventive device. From the output of the matching unit 3, the signal is fed to the input of the analog-to-digital converter 4. The personal computer 6 sends a signal through the matching unit of interfaces 5 to the second input of the analog-to-digital converter 4, which puts it into operation. In the analog-to-digital converter 4, the diagnostic signal is converted into a digital code, which is transmitted through the interface matching unit 5 to the personal computer 6. The signal is read out by the personal computer 6 for a time equal to the duration of the pulse generated by the rectangular pulse generator 1. The personal computer 6 processes In accordance with the program incorporated in it, the data received. The necessary data is requested from the user in a dialogue mode.

To assess the residual life, for example, a multi-factor deterministic forecast model developed by I.A. Gutov (I. Gutov, Prediction of the condition of electric motors based on the use of multifactor models of insulation aging: Diss .... Candidate of Engineering Sciences: 05.20 .02. - Barnaul, 1997 .-- 259 p.). Estimated service life using this model is possible by the following expressions:

t _ost = Tt;

where t _ost - residual life, months .;

T - full service life after commissioning, months .;

t - time elapsed since the start of operation, months;

F _beg - the initial value of the generalized diagnostic parameter, p.u .;

F _cr - the critical value of the generalized diagnostic parameter at which the probability of failure of the electric motor is highest, p.u .;

b and c - model parameters depending on operating conditions, p.u.

The values of the parameters b and c are stored in the memory of the personal computer 6 and are selected by it depending on the values of the parameters of the operating conditions (average air humidity, operating mode, ambient temperature). As a result of the calculations on the monitor of the personal computer 6 displays information about the current value of the diagnostic parameter and the value of the remaining service life in months.

The advantages of the proposed device are the increased measurement accuracy due to the large bit depth of the analog-to-digital converter and reduction of the sampling time, an expanded set of functions, a higher visibility of inputting the initial data and obtaining the results.

Claims (1)

A device for assessing and predicting the technical condition of insulation of an electric motor, comprising a rectangular pulse generator for connecting to a motor winding, characterized in that a matching unit and an analog-to-digital converter are introduced in series with the inputs of the motor winding and the first input is an analog-to-digital converter the converter is connected to the output of the matching unit, the matching unit of the interfaces, the first input of which is connected to the output of analog-digital about the converter, the first output is to the second input of the analog-to-digital converter, the second input is to the output of the additional input personal computer, the second output is to the input of the rectangular pulse generator, while the input of the personal computer is connected to the third output of the interface matching unit.