RU177935U1 - Device for operational monitoring of the state of insulation of electrical equipment - Google Patents

Abstract

The utility model relates to test equipment and can be used to diagnose the condition of the windings and insulation of electrical machines and apparatuses and to predict the residual life in the operating conditions of agricultural production. The technical result is to expand the functionality of the device, reducing overall dimensions, increasing the convenience, reliability and efficiency of the device for monitoring insulation of electrical installations during maintenance of electrical equipment. The device for operational monitoring of the state of insulation of electrical equipment includes a power source, a measuring unit and an indication unit. The measuring unit contains an active resistance meter and an inductance meter with signal generators, as well as an insulation resistance meter with a generator of constant test voltage of 500 and 1000 V, switched on via the contact of the return button. All these electrical measurement circuits are controlled via a dual switch, connected to a surge protection unit and a digital display unit of a controlled parameter, receiving power from a power source with two outputs. 1 ill.

Description

The utility model relates to test equipment and can be used in the operation of electrical equipment during preventive maintenance and diagnostic checks of the insulation status of the windings of electrical machines and apparatuses and predicting its residual life in agricultural production.

Known portable device for measuring and monitoring the insulation resistance of the windings of electrical machines and devices - megaohmmeter, which contains a built-in electromechanical alternator, rectifier, measuring mechanism and auxiliary elements (Klyunin KK "Handbook of electrical measuring instruments", Edition 2 , revised and supplemented - L. Energia, 1977, p. 462, 484).

The disadvantage of this device is the presence of a manual drive of the generator with the need for uniform rotation with a strictly defined number of revolutions per unit time, as well as the need to place the device on a stable horizontal stand. The device has a complex design, high cost, is bulky and massive, and a pointer measuring system is inertial and sensitive to shocks and external influences. High weight and size and cost indicators, the inconvenience of use in operating conditions causes certain difficulties in the use of the device by the personnel of the electrical services of agricultural enterprises and farm owners.

A device for monitoring electrical circuits, containing an internal power source that is charged during operation, five LEDs and zener diodes and two small-sized sealed relays. (AS USSR No. 1800407, IPC G01 K 31/02, BI No. 9, 1993). When monitoring electrical circuits, a specific LED is displayed, and a sound signal is also given.

A disadvantage of the known device is that it is impossible to control electrical circuits containing a controlled insulation resistance.

A device for controlling the quality of electrical insulation containing a test voltage source, a large-scale voltage converter, a voltmeter, summing amplifiers, signal tracking and storage devices and an indicator (RF patent No. 2122215, IPC G01R 27/02, BI No. 32, 1998). The device allows you to take into account the presence of partial discharges in the insulation, to predict the remaining insulation resource based on the data obtained with high accuracy and objectivity of measurements.

The disadvantage of this device is the complexity of the electrical circuit design, the presence of a large number of expensive elements and the high cost of the device, as well as the inability to use agricultural production conditions.

Closest to the proposed utility model is a device for monitoring the state of insulation of electrical equipment, containing a power source, a test voltage generator of 500 V and an indication unit consisting of five LEDs illuminated over the ranges of fixed values of the measured insulation resistance of the motor windings (RF patent No. 92544, IPC G01R 27 / 02, BI No. 8, 2010).

The disadvantage of this device is the inability to control the active resistance and inductance of the stator windings of the electric motors necessary to obtain more complete information about the status and malfunctions of windings having inter-turn faults during diagnostic checks in the operating conditions of agricultural production. Equal values of the measurements in phases indicates that all windings contain the total number of turns, and their insulation is not broken. It is also impossible to measure the insulation resistance of electrical equipment with a rated voltage in excess of 500 to 1000 V.

The objective of the proposed utility model is to expand the functionality and scope of the device, reduce the overall dimensions, increase the convenience, reliability and efficiency of use for monitoring the condition of the windings and their insulation during maintenance of electrical equipment in the operating conditions of agricultural production.

As a result of using the proposed utility model, it becomes possible to periodically monitor to obtain more complete and accurate information about the insulation status and integrity of the windings of electrical machines and apparatuses, to increase the reliability and efficiency of maintenance of electrical equipment in agricultural operating conditions, to clarify the time and frequency of diagnostic checks, to reduce operating costs due to the introduction of an active meter into the measuring unit of resistance, inductance meter, as well as insulation resistance meter with digital display unit, which leads to the technical result.

The above technical result is achieved in that in the device for operational monitoring of the state of insulation of electrical equipment containing a power source, a measuring unit and an indication unit, according to the proposed utility model, the measuring unit comprises an active resistance meter, an inductance meter and an insulation resistance meter, while the input of the resistance meter is connected to the first generator of the test signal and the first input of the surge protection unit, which through the first contact a double double switch and a low-voltage pin connector with test leads connected to the measured stator winding of the electric motor, and the output of the resistance meter through the first contact of the second double switch is connected to the input of the digital indication unit of the measured parameter, while the input of the inductance meter is connected to the second test signal generator and the second input of the surge protection unit, the second output of which is through the second contact of the first dual switch, bottom the volt-pin connector and test leads with probes are connected to the measured stator winding of the electric motor, and the output of the inductance meter through the second contact of the second dual switch is connected to the input of the digital indication unit of the controlled parameter, while the input of the insulation resistance meter is connected to the third input of the overvoltage protection unit, the output of which is connected through a high-voltage pin connector and a high-voltage test lead with a probe with one output of the tested stator winding motor and the other output of the tested motor stator winding through a high-voltage test lead with a probe and a high-voltage pin connector connected to the output of a 500 V and 1000 V DC test generator, the input of which is connected to the second output by a power source, with the first output of the source the power through the switch is connected to the meters of insulation resistance, active resistance and inductance of the measuring unit and through the contacts of the second dependent switch latch with a digital display unit.

The essence of the proposed utility model is illustrated in the drawing, which shows a general diagram of a device for operational monitoring of the state of insulation of electrical equipment.

The device contains a power source 1 connected to the first output 2 through button 3 with a measuring unit 4 containing an insulation resistance meter 5 with a pointer R _H3 , an inductance meter 6 with a pointer L connected to the first test signal generator 7, an active resistance meter 8 with a pointer R connected to the second test signal generator 9.

The output of the second test signal generator 9 is connected to the first input of the overvoltage protection unit 10 of the measuring unit 4, the first output of which is connected through the contacts of the dual switch 21 with a low-voltage pin connector 12 and test leads with a probe 13 with a controlled winding of the stator of the electric motor 14 having a controlled parameter R. The outputs of the meters 5, 6 and 8 of the measuring unit 4 through the corresponding contacts of the dual switch 22 are connected to the digital display unit of the controlled parameter 15.

The output of the first signal generator 7 is connected to the second input of the overvoltage protection unit 10 of the measuring unit 4, the second output of which is connected via the contacts of the dual switch 21 to a low-voltage pin connector 12 and test leads with a probe 13 with a measured stator winding of the electric motor 14 to measure the controlled parameter L.

The power supply 1 by the second output 16 through the return button 17 is connected to a generator 18 of a constant test voltage of 500 V and 1000 V, having a switch 11, and through a high-voltage pin connector 19, with a measured stator winding of an electric motor 14 for measuring the value of insulation resistance R _H3 with respect to the winding with winding or winding with housing.

The high-voltage test lead 20 is connected through a high-voltage pin connector 19 to the third output of the overvoltage protection unit 10, the third input of which is connected to the insulation resistance meter 5, the output of which is connected through the corresponding contact of the dual switch 22 to the digital display unit 15 of the controlled parameter.

The device operates as follows.

When button 3 is pressed, the supply voltage is supplied to the measuring circuit of the device. The dual switch with contacts 21 and 22, providing three measurement channels, must be set to the required position for measuring the controlled value of the parameters R, L or R _from , while the corresponding LED indicator R, L or R _{from is} displayed on the measuring unit 4 _. . In order to ensure the stability of the device, the power supply 1 generates a voltage, both for the operation of the measuring circuit of the device through button 3, and separately for the operation of the high-voltage unit 18 through the return button 17.

The measuring unit 4, using signal generators 7 and 9 and a high-voltage generator 18, generates test signals, receives the measured signals with the corresponding meters 8, 6, and 5, normalizes and converts the measured signal into a digital code for subsequent display of the physical quantity of the measured signal on the digital display unit 15. The operation of all three measurement channels is provided with surge protection unit 10, which has three inputs and three outputs.

When measuring the active resistance R or inductance L of the windings, a low-voltage measuring cord with probes is connected to the low-voltage connector 12, to which the measured winding 14 is connected and readings are taken on the digital indicator 15. When measuring the insulation resistance R _from the high-voltage connector 19, a high-voltage measuring cord with probes is connected , to which the measured winding 14 is connected, briefly press the return button 17 and take readings on the digital indicator 15.

Measurement of insulation resistance of electrical windings. Turn on the power of the device by pressing the button 3. Set the double switch with contacts 21 and 22 to the position for monitoring and measuring the controlled value of the insulation resistance R _from , while the LED indicator R _{from is} displayed on the measuring unit 4. Connect the high-voltage test leads with probes to the high-voltage connector 19. Connect one conductor with a probe to one of the terminals of the controlled motor winding, and the other conductor to the motor housing or ground wire. Set switch 11 to the desired position of 500 V or 1000 V. Press button 17 and take the reading of indicator 15.

In this case, the following electrical circuit of the measurement channel is turned on and working: power supply 1 - reset button 17 - constant test voltage generator 18 with switch 11 - high-voltage pin connector 19 - first high-voltage test lead with probe 20 - measured stator winding of the electric motor 14 for measuring the resistance value insulation R _H3 in relation to a winding with a winding or a winding with a housing - second high-voltage test lead with probe 20 - high-voltage connector 19 - surge protection unit 10 - measure unit 4 - insulation resistance meter 5 with an indicator R _H3 - contacts of a dual switch 22 - digital display unit of a controlled parameter 15. When measuring insulation resistance of electrical circuits or windings of electrical equipment for a rated voltage of over 100 V to 500 V, instruments with a test voltage of 500 V are used and for electrical equipment with a rated voltage of more than 500 V to 1000 V, devices with a test voltage of 1000 V.

When reducing the insulation resistance of the motor windings with a rated voltage of 220/380 V to 0.5 MΩ, its operation is unacceptable. Insufficient insulation resistance indicates the need to strengthen it by carrying out preventive measures, for example, drying.

Measurement of the active resistance of the windings of electrical equipment.

Turn on the power of the device by pressing button 3. Set the double switch with pins 21 and 22 to the position for monitoring and measuring the active resistance R of the electrical equipment windings, while the LED indicator R lights up on the resistance meter 8 of the measuring unit 4. Connect the low-voltage test leads with probes to the low-voltage connector 12. Connect one conductor with a probe to one of the terminals of the controlled motor winding, and the second conductor to the other end of the motor winding 14. 14. To take readings on the block 15 digital indication of the monitored parameter.

The difference between the measured values of the active resistances of the windings within 5% is considered acceptable, and a difference of 10% indicates a violation of the integrity of the phase windings. When measuring the active resistance of the windings of electrical equipment, the corresponding electrical circuit of the measurement channel turns on and works.

Inductance measurement of electrical windings.

Turn on the power of the device by pressing the button 3. Set the dual switch with pins 21 and 22 to the position for monitoring and measuring the inductance of the windings of the electrical equipment L, while the indicator L lights up on the meter 6 with the pointer L of the measuring unit 4. Connect the low-voltage test leads with clamps and probes to low-voltage connector 12. Connect one conductor with clamps to one of the terminals of the controlled motor winding, and the second conductor to the other end of the motor winding . Read the indicator. When measuring the inductance of the windings of electrical equipment, the corresponding electrical circuit of the measurement channel is switched on and works.

According to the measurement results, it is necessary to determine the difference in the readings for individual windings or when connecting them to a star or triangle. A difference of 3-5% between the values of the inductance is considered acceptable, and a difference of 10% indicates the presence of a winding in the stator winding. Monitoring the status of the windings by the measured inductance is independent of temperature.

The proposed device provides a measurement of the active resistance of the windings of electrical machines and devices up to 200 Ohms, the inductance of the windings up to 20 G, insulation resistance up to 500 MΩ at a test voltage of 500 or 1000 V.

The proposed device can be used in the maintenance of rural electrical installations for use in the work of the electrical personnel of agricultural enterprises, services, owners of electrical installations, farmers. A multifunctional device for diagnosing the state of motor windings is necessary to maintain them in a technically sound condition with the lowest labor costs. The device allows you to determine the technical condition of electrical installations and their malfunctions: short circuits, breaks, insulation failures due to measurement of insulation resistance, winding-casing, winding-winding, comparing the measured values of the resistance of the stator windings, comparing the measured values of the inductances of the stator windings. These indicators should be equal or differ within acceptable limits. Equal values of the resistance of the windings means that all windings contain the total number of turns, and the inter-turn insulation is not broken. New and serviceable electric motors have a difference between resistances and inductances in the range of 3-5%, and a difference of 10% indicates a malfunction. A more accurate value is determined depending on the size and design of electrical machines. The state of the measured parameters of electrical installations should not change sharply in time. Changes in the measured parameter between two consecutive measurements indicate the development of a malfunction.

The device has minimal overall dimensions. The power is supplied from 9-12 V batteries with the possibility of recharging them or from a 220 V network through an adapter, which is advisable for periodic use in stationary conditions, for example, in an electric workshop or agricultural workshop, to check the electric motors before installing them on technological equipment when replacing them system.

In agricultural production, and especially in animal husbandry, electrical equipment is operated in conditions characterized by high humidity and the presence of an aggressive environment, which negatively affects the state of insulation of electrical installations. The proposed device will allow rural electricians in operational conditions with sufficient accuracy to monitor the condition of insulation, timely replace with subsequent drying or repair of electrical equipment, anticipating their complete failure, as well as reduce downtime of technological equipment, reduce damage associated with this, and reduce accident rate rural electrical installations and improve the reliability of electrical equipment.

Claims (1)

A device for operational monitoring of the state of insulation of electrical equipment, containing a power source, a measuring unit and an indication unit, characterized in that the measuring unit contains an active resistance meter, an inductance meter and an insulation resistance meter, while the input of the resistance meter is connected to the second test signal generator and the first input of the unit surge protection, which through the first contact of the first dual switch and low-voltage male connector meter connecting wires with probes to the measured stator winding of the electric motor, and the output of the resistance meter through the first contact of the second dual switch is connected to the input of the digital display unit of the measured parameter, while the input of the inductance meter is connected to the first generator of the test signal and the second input of the overvoltage protection unit, the second output of which, through the second contact of the first dual switch, the low-voltage pin connector and test leads with probes is connected to by the stator winding of the electric motor, and the output of the inductance meter through the second contact of the second dual switch is connected to the input of the digital indication unit of the controlled parameter, while the input of the insulation resistance meter is connected to the third input of the overvoltage protection unit, the output of which is connected through a high-voltage pin connector and a high-voltage measuring a wire with a probe with one terminal of the tested stator winding of the electric motor, and the other terminal of the checked winding of the stator of the electric motor A high-voltage test lead with a probe and a high-voltage pin connector are connected through a switch to the output of a 500 V or 1000 V constant test voltage generator, the input of which is connected to the second output of the power source through the contact of the return button, while the first output of the power source is connected to resistance meters through a switch isolation, active resistance, inductance of the measuring unit and through the contacts of the second dependent switch with the digital display unit.

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