RU2428707C1 - Microcontroller device for diagnostic operation of insulation of asynchronous motor winding - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: device includes microcontroller 1, voltage divider 2, controlled reference voltage source 3, controlled switch 4, indicator 5, constant voltage source 6 and inductance 7 (asynchronous motor winding). The first output of constant voltage source 6 is connected to the first output of inductance 7 the second output of which is connected to the first output of switch 4. Switch control output is connected to microcontroller 1. Control input of reference voltage source 3 is connected to output of pulse-width modulator of microcontroller 1. Output of reference voltage source 3 is connected to the first input of analogue comparator of microcontroller 1. Intermediate output of voltage divider 2 is connected to the second input of analogue comparator of microcontroller 1. One extreme output of voltage divider 2 is connected to the second output of inductance 7. The other extreme output of voltage divider 2 is connected to the second outputs of switch 4 and constant voltage source 6. Indicator 5 is connected to microcontroller.

EFFECT: enlarging functional capabilities.

2 cl, 1 dwg

Description

FIELD OF THE INVENTION

The invention relates to electrical engineering, in particular to devices for monitoring the quality of insulation, characterized by its breakdown voltage, and can be used in tools for diagnosing the state of interturn insulation of the winding of an induction motor or transformer.

State of the art

As a result of aging of the insulation of the winding of an induction motor, its breakdown voltage and resistance are reduced, which in turn leads to a sudden failure of the motor. To timely prevent damage to the insulation, its diagnosis is necessary, i.e. quality control (condition) of interturn isolation.

A device for measuring the resistance and quality control of insulation of a network with an asynchronous motor, comprising a switching device with power contacts, the first output key is connected to the movable contact of the first switch, the left fixed contact of which is connected to the first phase output of the winding of the induction motor, and the right stationary contact of the first switch connected to the right fixed contact of the second switch and to the second phase terminal of the induction motor winding, left fixed contact of the second switch is connected to the third phase terminal of the induction motor winding, the movable contact of the second switch is connected to a common point of the right fixed contact of the third switch, the first terminal of the generator and measuring device connected in parallel, the left fixed contact of the third switch is connected to the common point of the second terminals of the generator and measuring device, and with the second key terminal, the movable contact of the third switch is grounded (see US Pat. R.F. No. 1832223, class G01R 27/18). A disadvantage of the known solution is limited functionality.

A device for measuring the capacitance and dielectric loss of a capacitor sensor is known, which contains a microcontroller, an indicator, two generators, timing RC circuits of the generators. A capacitor sensor is used as one capacitive element, between the plates of which there is an insulating material. The microcontroller in a certain sequence using controlled keys connects the known resistors of the timing RC circuits, measures the time constant of the RC circuits and calculates the resistance of the insulation material, the value of which is displayed on the indicator (see Pat. RF No. 2252532, class G01R 27 / 26).

A disadvantage of the known solution is limited functionality, the device does not allow to control the state of interturn isolation of inductors.

The closest in technical essence to the claimed invention and adopted by the authors as a prototype is a device for measuring dielectric resistance, containing an amplifier, a microcontroller, an indicator, two keys controlled by a microcontroller, a capacitor sensor, in the cavity of which is an insulating material, the resistance of which must be measured. The capacitor sensor is connected to the non-inverting input of the amplifier with the first lining, the second lining is connected to the first output of the first key, the second output of which is connected to the positive terminal of the power supply, the inverting input of the amplifier is connected to a common wire, the amplifier output is connected to the analog input of the microcontroller, the second is connected in parallel with the capacitor sensor a controlled key, control key outputs, as well as an indicator connected to the microcontroller (see Pat. RF No. 2252532, class G01R 27/26).

A disadvantage of the known solution is limited functionality — the device does not allow monitoring the state of interturn isolation of inductors.

Disclosure of invention

The technical result, which can be achieved using the present invention, is to expand the functionality of the device.

The technical result is achieved by the fact that in the microcontroller device for diagnosing the insulation of the winding of the induction motor, containing a constant voltage source, a microcontroller, an indicator, a key, the indicator being connected to the microcontroller, the key control terminal connected to the microcontroller, the first key terminal connected to the first terminal of the constant voltage source a controlled reference voltage source, a voltage divider and inductance are introduced, the second terminal of a constant voltage source under It is connected to the first output of the inductance, the second output of which is connected to the second output of the key, the control input of the controlled reference voltage source is connected to the microcontroller, the extreme terminals of the voltage divider are connected to the terminals of the key, the middle output of the voltage divider is connected to the first input of the analog comparator of the microcontroller, to the second input of which the output of the controlled reference voltage source is connected, the induction motor winding is turned on as an inductance.

Brief Description of the Drawings

The drawing shows a structural diagram of a microcontroller device for diagnosing insulation of the winding of an induction motor.

The implementation of the invention

The microcontroller device for diagnosing the insulation of the winding of an induction motor contains a microcontroller 1, a voltage divider 2, a controlled reference voltage source 3, a controlled key 4, an indicator 5, a constant voltage source 6 and an inductance 7 (induction motor winding).

The first output of the DC voltage source 6 is connected to the first output of the inductance 7, the second output of which is connected to the first output of the key 4, the control terminal of which is connected to the microcontroller 1, the control input of the reference voltage 3 is connected to the output of the pulse-width modulator (not shown) of the microcontroller 1 , the output of the reference voltage source 3 is connected to the first input of the analog comparator (not shown) of the microcontroller 1, the middle output is connected to the second input of the analog comparator of the microcontroller 1 2 elitelya voltage, the first voltage divider output last 2 connected to the second terminal of the inductor 7, a second end of the voltage divider output 2 is connected to the second terminal of the key 4 and a DC voltage source 6, the indicator 5 is connected to the microcontroller 1.

A microcontroller device for diagnosing the insulation of the winding of an induction motor operates as follows.

The microcontroller 1 sets using the internal pulse-width modulator (not shown) at the output of the controlled reference voltage source 3 a predetermined reference voltage level and closes the key 4. In the circuit: the first output of the constant voltage source 6, inductance 7, key 4, the second output of the constant source voltage 6 flows increasing current. At some point, the microcontroller 1 opens the key 4, the self-induction EMF appears on the inductance 7, which is applied to the voltage divider 2. If the voltage at the output of the divider exceeds the reference voltage, then the analog comparator of microcontroller 1 will change the logic level at the output, according to this signal, microcontroller 1 estimates the value EMF amplitudes of self-induction. In the absence of defects in the interturn isolation, the value of the self-induction EMF will be maximum. If the insulation contains defects that reduce the breakdown voltage, and also has a low resistance, then part of the energy stored in the inductance at the time of opening of the key 4 will be dissipated in the form of heat on the inter-turn and interphase insulation resistances. In this case, the self-induction EMF will be below a certain value, and the analog comparator will not change the logic level at the output.

Then, the microcontroller 1 proceeds to the next cycle of measuring the amplitude of the self-induction EMF. The microcontroller 1 reduces the voltage at the output of the controlled reference voltage source 3 and closes the key 4 again, the cycle is repeated until the microcontroller 1 determines the value of the amplitude of the self-induction EMF, which is displayed on digital indicator 6. The insulation state is estimated by the value of the amplitude of the self-induction EMF.

For an objective assessment of the state of isolation, it is necessary to have experimental data from past experience, i.e. Dependence of EMF of self-induction on the state of isolation. The insulation state, characterized by its resistance and breakdown voltage, can be determined either by theoretical methods or experimentally using other methods and means designed to carry out the corresponding types of tests.

The present invention in comparison with the prototype and other known solutions has the advantage of having increased functionality, namely, it allows you to control the state of interturn isolation of inductors, which expands the scope of its application.

Claims (2)

1. A microcontroller device for diagnosing insulation of the winding of an induction motor, containing a constant voltage source, a microcontroller, an indicator, a key, the indicator being connected to the microcontroller, the key control terminal connected to the microcontroller, the first terminal of the key connected to the first terminal of the constant voltage source, characterized in that a controlled reference voltage source, voltage divider and inductance are introduced into it, and the second terminal of the DC voltage source is connected to the first the inductance terminal, the second terminal of which is connected to the second terminal of the key, the control input of the controlled reference voltage source is connected to the output of the microcontroller, the extreme terminals of the voltage divider are connected to the terminals of the key, the middle terminal of the voltage divider is connected to the first input of the analog comparator of the microcontroller, to the second input of which output of a controlled voltage reference source. 2. The device according to claim 1, characterized in that the inductor of the induction motor is turned on as an inductance.