RU2681257C2 - Method of establishing place of reducing resistance of insulation and determining power of current leakage - Google Patents

Abstract

FIELD: physics.SUBSTANCE: invention relates to the instrumentation technology and can be used to establish the place of reduction of insulation resistance in the windings of electrical machines, electrical installations, etc. Essence: measure the voltage between the connection points of the potentiometer in a working object under operating voltage, when the potentiometer is connected between the pole of the object and its case, at various values of its resistance. For each value of the measured voltage, a straight-line diagram of the voltages between the turns of the winding and the case is determined and the number of turns of the winding per one volt difference between the phase voltage and each value of the measured voltage between the potentiometer connection points is calculated. In the case of a decrease in the insulation resistance in the winding, the voltage between the winding pole and the housing is measured, the voltage diagram between the windings and the case corresponding to this voltage is determined. Resistance of the resulting additional leakage through the insulation is calculated. In the initial data, the potentiometer value is found close to the resistance of the additional leakage, and the corresponding voltage between the winding pole and the case. Voltage difference between the pole of the winding and the case corresponding to additional leakage, and voltage between the pole of the winding and the case corresponding to a potentiometer value close to the resistance of the additional leakage is determined. Product of the voltage difference with the number of turns of the winding coming to one volt phase voltage difference and the voltage corresponding to the value of the potentiometer, close to the resistance of the additional leakage, allows to determine the sequence number of the coil, in the insulation of which there was a leakage of current to the case. According to the voltage diagram between the winding turns and the case corresponding to the additional leakage, the voltage applied to the leakage is found, and the active power released from the leakage is calculated.EFFECT: technical result: ability to remotely establish a place to reduce the insulation resistance of an object under operating voltage, containing series-connected elements, without access to them.1 cl, 1 dwg

Description

The present invention relates to a measurement technique and can be used to establish a place for reducing the insulation resistance in the windings of electrical machines, electrical installations, electric power lines and other linear topology objects containing serially connected elements (sections).

The aim of the invention is to expand the scope by providing the ability to establish a place to reduce insulation resistance in objects of both direct and alternating current, containing series-connected elements that during operation of the facility do not have access to obtain indicators of their insulation status, for example, insulation of winding turns electrical machines and other similar objects under operating voltage, as well as determining the power released in the place of resistance reduction and zolation.

From the existing level of technology there is a known method for determining the location of single-phase faults in cable lines laid in the ground (RF No. 2143703) [1], which consists in preliminarily determining the alleged location of damage using some remote method, then the damaged core and cable sheath connect to the sound frequency generator and to a number of other devices, in the supposed place of damage an additional sensor is installed with a radio transmitter, a cable detector is moved along the route, the change in omagnitnogo field generated by currents flowing in the cable, as a result improve the accuracy of finding the locations of single-phase circuits in the cable lines. The disadvantages of this method are the need to de-energize the electrical system to establish the place of current leakage, the need to install the sensor in the alleged location of the insulation damage, the need to move along the winding with the cable detector.

There is a method of determining the resistance of current leakage paths to earth in electrical systems (RF No. 2010247) [2], which allows monitoring the insulation resistance of electrical installations (constant and slowly changing voltage) and determining the resistance of current leakage through insulation on each element of the electrical system without disconnecting consumers. In particular, it can be used in determining the resistance of current leakage through insulation on the elements of battery batteries, chemical current sources, turns of the demagnetization coils of ships, on electrolytic cells of electrolysis batteries, etc. For this, a series of measurements of leakage currents to earth and the total current of the system is made, a system of equations is compiled, the solution of which is the resistance of the paths of leakage currents to earth at each element of the system. The disadvantages of this method are the need to measure the resistance of the elements of the object, the need to connect ammeters to the poles of the power source and a common point, the need to bypass the elements of the object.

Closest to the proposed invention in its technical essence is a method for determining the place of decrease in insulation resistance according to A.S. USSR No. 1580294 [3], according to which a reference insulation resistance is measured at a serviceable object, a constant voltage is applied to the serviceable object and a reference current of unipolar closure of the object to the ground bus is measured, in the unipolar circuit mode to the ground bus, the voltage distribution between the corresponding points along the object is measured and earth bus, and in the case of lowering the insulation resistance below the permissible value, measure this parameter, measure the current of the unipolar circuit to the earth bus, calculate the value of resistance additional leakage through the insulation and the increment of current unipolar object circuit to ground bus as their product determined voltage drop across the resistance additional leakage comparing the calculated voltage drop to the voltage distribution between the respective points and the earth ground and the comparison result is judged on the spot insulation damage. The disadvantages of this method are the need to measure the voltage distribution between the corresponding points along the object and the ground bus, the application of the method for direct current objects, and also not providing a way to calculate the power at the place of current leakage.

The objective of the invention is the remote location of the formed current leakage through the insulation of series-connected elements (turns) of an object of alternating or direct current, providing for indicators (source and current) of the leak from the input (output) terminal of the object, and obtaining current indicators of the leak from the object, under operating voltage, as well as calculation of power in the place of current leakage

The invention is illustrated by the figure, which shows a diagram of a device that implements the method, with a circuit for the replacement of the control object, as well as the voltage distribution diagram between the elements of the control object and the body of the object. A device that implements the method comprises an object of control 1 (for example, windings of an electric machine, phases A, B, C), which is under operating alternating current voltage, a voltmeter 2, connected between the pole (C) of the object of control 1 and the body of the electric machine 5 (hereinafter case), an adjustable resistance (potentiometer) 3 connected between the pole (C) of the control object 1 and the case. The windings of the phases of the object of control 1 consist of series-connected elements (turns) 1.1, ..., 1.N. The diagram also shows the resistance of 4 leakage paths through insulation 4.1, ..., 4.N for the phase C winding and the resistance of the additional leakage 6.

The method is as follows

The insulation resistance Rн of the operational monitoring object 1 is measured, for example, using a megaohmmeter (not shown). With the introduced adjustable resistance 3 (the resistance value of the potentiometer is infinitely large Ri ≈ R∞), a voltage is measured using a voltmeter 2 between the pole (C) of the control object 1 and the housing. With proper insulation of the windings, the voltmeter will show the phase voltage value Uf. This case corresponds to a voltage diagram (line Uf - 0) between the turns of the winding and the casing, which is a straight line, since the resistance of the turns is the same.

The potentiometer 3 is brought out to the resistance value Ri = R ₁ , when the voltage U ₁ between the pole (C) and the housing will be several volts less than the initial (Uf). This case corresponds to the voltage diagram (line U ₁ - (-U ₁ )) between the turns of the winding and the casing. Calculate the number of turns of the winding in coming to one volt of the voltage difference Uf-U ₁ :

,

,

where N is the total number of turns of the winding;

The potentiometer 3 is again brought out to the resistance value Ri = R ₂ when the voltage U ₂ between the pole (C) and the housing is a few volts less than the previous one (U ₁ ). This case corresponds to the voltage diagram (line U ₂ - (-U ₂ )) between the turns of the winding and the casing. Calculate the number of turns of the winding n ₂ coming to one volt of the voltage difference Uf-U ₂ :

;

;

The above steps are performed for the subsequent resistance values Ri of the potentiometer 3, until it is completely withdrawn, the values are obtained: Ui, diagrams (line Ui - (-Ui)), n _i .

With the output potentiometer 3, (the resistance value Ri = R ₀ is several Ohms), measure the voltage U ₀ between the pole (C) and the housing. This case corresponds to a voltage diagram (line U ₀ - (-Uf)) between the turns of the winding and the casing. Calculate the number of turns of the winding n ₀ coming to one Volt of the voltage difference Uf-U ₀ :

;

;

The initial (reference) data for all windings will be the values of the following values: insulation resistance Rн of the operational monitoring object 1, phase voltage Uf, voltages between the turns of the winding and the casing in the diagram (line Uf - 0); resistance R _{1 of} potentiometer 3, voltage U ₁ between the pole (C) and the casing, voltages between the turns of the winding and the casing on the diagram (line U ₁ - (-U ₁ )), the number of turns of the winding n ₁ coming to one Volt of the voltage difference Uf -U ₁ ; resistance R _{2 of} potentiometer 3, voltage U ₂ between the pole (C) and the casing, voltages between the turns of the winding and the casing on the diagram (line U ₂ - (-U ₂ )), the number of turns of the winding n ₂ coming to one Volt of the voltage difference Uf -U ₂ ; the values of the above values for the subsequent values of Ri of the potentiometer 3, until it is completely output (Ui, diagrams (line Ui - (-Ui)), n _i .); values of resistance R _{0 of} potentiometer 3, voltage U ₀ between the pole (C) and the casing, voltages between the turns of the winding and the casing on the diagram (line U ₀ - (-Uf)), the number of turns of the winding po coming to one Volt of the voltage difference Uf- U ₀ .

In the case of a decrease in the insulation resistance of the object (for example, on the winding C), a lower value of the voltage U between the pole (C) and the casing is measured, a lower value of the insulation resistance of the object R is measured, the resistance of the additional leakage that has arisen is calculated as

;

;

According to the source data, find the value Ri of the potentiometer 3, close to the resistance ΔR and the corresponding voltage Ui between the pole (C) and the housing, find the difference ΔU between the voltages U and Ui:

;

;

The values of ΔU and n _{i are} multiplied, the serial number of the coil m, at which the insulation resistance decreased, is determined

;

;

From the voltage diagram (line U - (-U)) between the turns of the winding and the housing corresponding to the additional leakage ΔR, the voltage Um is found between the coil m, at which the insulation resistance decreased, and the active power allocated to leakage ΔR:

The invention, in contrast to the known method, makes it possible to remotely (from the terminal of an object) obtain initial data for establishing a place for reducing the insulation resistance and establishing this place in the windings of electric machines, as well as in objects of both direct and alternating current, under operating voltage, consisting of from series-connected elements that do not have access to them for finding current leaks through their isolation at an existing facility, as well as determining the active power allocated to place to reduce insulation resistance.

Information sources

1. RF patent No. 2143703, IPC G01R 31/08, publ. 12/27/1999

2 RF Patent No. 2010247, IPC G01R 27/02, G01R 31/02, publ. March 30, 1994

3. A.S. USSR No. 1580294, IPC G01R 31/02, publ. July 23, 1990

Claims (1)

A method of establishing a place for reducing the insulation resistance and determining the power of current leakage, namely, that a serviceable object is measured with a reference insulation resistance, characterized in that in order to expand the scope and use of the method at the object under operating voltage, as well as determine the active power current leakage, in a working object under operating voltage, when a potentiometer is connected between the object’s pole and its body for various values of its resistance From maximum to minimum, the voltage between the points of connection of the potentiometer is measured, for each value of the measured voltage, a straight-line diagram of the voltages between the turns of the winding and the casing is determined and the number of turns of the winding per one volt of the difference between the phase voltage and each value of the measured voltage between the points of connection of the potentiometer is calculated, and in the case of reducing the insulation resistance in the winding, measure this parameter, measure the voltage between the pole of the winding and the casing, limit the voltage diagram corresponding to this voltage between the winding turns and the casing, calculate the resistance of the additional leakage through the insulation, find the potentiometer value close to the additional leakage resistance and the corresponding voltage between the winding pole and the housing, find the voltage difference between the winding pole and the case corresponding to additional leakage and the voltage between the pole of the winding and the case corresponding to the potentiometer value is close y the resistance of the additional leakage, by the product of the above voltage difference with the number of turns of the winding per one volt of the difference between the phase voltage and the voltage corresponding to the potentiometer value, close to the resistance of the additional leakage, determine the serial number of the coil in the insulation of which a current leakage to the housing occurred, from the voltage diagram between the turns of the winding and the housing corresponding to the additional leak, find the voltage applied to the leak, according to the formula for calculating the power The voltage and resistance spacers calculate the active power generated by the additional leakage.

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