KR20180042924A - Apparatus and method for diagnosiing state of bushing in transformer - Google Patents

Abstract

According to an embodiment of the present invention, a transformer bushing device includes: a current detecting part detecting a current leaked from a bushing of a transformer; a voltage detecting part detecting a voltage applied to a transformer; a reference current setting part setting a reference current corresponding to an initial current measured by the current detecting part and an initial voltage measured by the voltage detecting part; a measured current compensation part reflecting a value, corresponding to a relative size to the initial voltage of the voltage measured by the voltage detecting part, to a measured current value or the reference current; and a bushing state determining part selecting a state of the bushing corresponding to a relative size to the reference current of the measured current value after the reflection is performed by the measured current compensation part. As such, the present invention is capable of reducing costs incurred by the malfunction of a transformer.

Description

Technical Field [0001] The present invention relates to a transformer bushing diagnostic apparatus and method,

The present invention relates to a transformer bushing diagnostic apparatus and method.

Bushing refers to a device that can insulate, support and fix conductors that are arranged to penetrate the cover, case, etc. of the transformer from the bulkhead.

Referring to FIG. 1, such a bushing may include a capacitor for securing insulation between a conductor and ground and for mitigating an impact current. In the capacitor, an electric field concentration phenomenon may occur due to foreign substances, sludge, And the final insulation breakdown may occur. Since such insulation breakdown causes breakdown of the transformer, diagnosing the transformer bushing is important in terms of preventing accidents in advance.

Patent Registration No. 10-1581018

One embodiment of the present invention provides a transformer bushing diagnostic apparatus and method that can accurately diagnose the condition of a transformer bushing.

A transformer bushing diagnosing apparatus according to an embodiment of the present invention includes: a current detecting unit that detects a leakage current in a bushing of a transformer; A voltage detector for detecting a voltage applied to the transformer; A reference current setting unit for setting a reference current corresponding to an initial current measured by the current detector and an initial voltage measured by the voltage detector; A measuring current compensating unit for reflecting a value corresponding to a magnitude of a measured voltage measured by the voltage detecting unit with respect to the initial voltage to a measured current value measured by the current detecting unit or the reference current; And a bushing state determiner for selecting a state of the bushing corresponding to a magnitude relative to a reference current of a measured current value after reflection by the measurement current compensation unit; . ≪ / RTI >

For example, the bushing may include a conductor, a metal foil surrounding the conductor, and a test tab in contact with the metal foil, wherein the current detector is electrically connected to the test tab and the ground, The current flowing between the grounds can be detected.

For example, the transformer bushing diagnosing apparatus may include a breaker connected between the bushing and the current detecting unit and opened when a current leaking from the bushing exceeds a permissible current; A filter for low-pass filtering the current leaking from the bushing; And a converter for converting the voltage detected by the voltage detecting unit. As shown in FIG.

For example, the transformer bushing diagnosis apparatus may further include an output unit for outputting state information of the bushing selected by the bushing state determination unit, and the bushing state determination unit may include a plurality of state information corresponding to different current ranges, And transmit state information corresponding to a magnitude of a current value compensated by the measurement current compensating unit among the plurality of state information to the reference current to the output unit.

For example, the bushing state determining unit may determine the state of the bushing as a good grade when the current value compensated by the measurement current compensating unit is greater or less than a% of the reference current, And the current value compensated by the measurement current compensating unit is greater than the reference current by b% or less than the reference current, and when the current value compensated by the measurement current compensating unit is greater than or equal to a% And a current value compensated by the measurement current compensating unit is greater than the reference current by c% or more, the state of the bushing Can be judged as a defective grade.

A method of diagnosing a transformer bushing according to an embodiment of the present invention includes: detecting an initial current leaking in a bushing of a transformer; Detecting an initial voltage applied to the transformer; Setting a reference current corresponding to the initial current and the initial voltage; Detecting a measuring current leaked in a bushing of the transformer; Detecting a measured voltage applied to the transformer; Reflecting a value corresponding to a magnitude of the measured voltage relative to the initial voltage on the measurement current or the reference current; And selecting a state of the bushing corresponding to a magnitude of the compensated measured current relative to the reference current; . ≪ / RTI >

According to the present invention, the state of the transformer bushing can be accurately diagnosed. Accordingly, the occurrence frequency of the failure of the transformer can be reduced, and a plurality of costs due to the failure of the transformer can be saved.

1 is a diagram showing the failure progression of the transformer bushing.
2 is a view illustrating a transformer bushing diagnostic apparatus according to an embodiment of the present invention.
3 is a view showing a reference current per unit capacitance according to the type of the transformer bushing.
4 is a view showing a leakage current flowing through the bushing when a problem occurs in the transformer bushing insulation state.
5 is a block diagram illustrating a transformer bushing diagnostic apparatus according to an embodiment of the present invention.
6 is a view showing a test tap included in the transformer bushing.
7 is a graph showing the voltage applied to the transformer and the leakage current of the bushing.
8 is a flowchart illustrating a method of diagnosing a transformer bushing according to an embodiment of the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings in order that those skilled in the art can easily carry out the present invention.

2 is a view illustrating a transformer bushing diagnostic apparatus according to an embodiment of the present invention.

2, a transformer bushing diagnosing apparatus according to an embodiment of the present invention includes a current detecting unit 110, a voltage detecting unit 120, a reference current setting unit 130, a measured current compensating unit 140, And a determination unit 150 may be included.

The current detection unit 110 can detect a current leaked from a bushing of the transformer 200. [ For example, the current detector 110 may include a circuit for sampling the current at predetermined intervals and / or a circuit for amplifying the sampled current, and may be configured to detect a current flowing through each phase of the transformer 200 have.

According to the design, the current detecting unit 110 can output the final measured current obtained by adding the current due to the cable resistance to the measured current. For example, when the current measured by the current detector 110 is 12.69 mA, the current detector 110 adds a current of 0.10 mA generated by the cable resistance to 12.69 mA to obtain a final measured current of 12.79 mA Can be output.

The voltage detector 120 can detect the voltage applied to the transformer 200. [ For example, the voltage detector 120 may detect the voltage applied to the primary bus line of the transformer 200. [ The primary bus bar may be electrically connected to the bushing.

The reference current setting unit 130 may set a reference current corresponding to the initial current measured by the current detecting unit 110 and the initial voltage measured by the voltage detecting unit 120. [ The reference current may be a current flowing in the bushing when the bushing is in a steady state. According to the design, the reference current setting unit 130 may be electrically connected to the current detection unit 110 and the voltage detection unit 120 through a cable, and the detection data may be transmitted from the current detection unit 110 and the voltage detection unit 120 to the remote .

The reference current may be defined by the following equation (1).

If the nominal voltage is 154kV and C is 326.2pF, the reference current on A may be approximately 10.93mA. Here, the reference current per 1 pF capacitance of the A phase is 0.033507 mA. If the nominal voltage is 345 kV or 765 kV, the reference current may be multiplied by 345/154 or 765/154 at 10.93 mA.

3, it can be seen that the reference current per unit capacitance is not substantially affected by the type of bushing.

The measurement current compensating unit 140 may reflect a value corresponding to a magnitude relative to an initial voltage of the measured voltage measured by the voltage detecting unit 120 to a measured current value or a reference current measured by the current detecting unit 120 have.

For example, when the voltage detected by the voltage detecting unit 120 is 156.2 kV and C is 326.2 pF, the measurement current compensating unit 140 compensates the compensated reference current by multiplying the reference current applied with the voltage of 154 kV by 156.2 / 154 The measured current can be calculated by multiplying the measurement current by 154 / 156.2.

The bushing state determination unit 150 can select the state of the bushing corresponding to the magnitude of the measured current value relative to the reference current after the compensation by the measurement current compensation unit 140 is performed. For example, the bushing state determiner 150 may store a plurality of states of the bushings indicating a good grade, an observed grade, a critical grade, and a bad grade, The state of the bushing of the bushing can be selected.

The leakage current in the bushing can be varied according to the voltage applied to the transformer 200. [ If the current detected by the current detecting unit 110 and the reference current are not compensated by the voltage detected by the voltage detecting unit 120, the frequency of misjudgment of the bushing state determiner 150 may be large.

The transformer bushing diagnosing apparatus according to an embodiment of the present invention determines the state of the bushing by using the reference current of the measured current value after the compensation by the measurement current compensating unit 140, Can be diagnosed.

On the other hand, each of the states of the plurality of bushings may have different current ranges. Here, the current range may be a range of an absolute current value, or may be a range of a relative current value. The bushing state determination unit 150 can determine which of the plurality of current ranges the relative magnitude of the measured current value with respect to the reference current belongs to, and the current range in which the relative magnitude of the measured current value with respect to the reference current belongs The state of the bushing corresponding to the bushing can be selected.

For example, when the current value compensated by the measurement current compensating unit 140 is greater than or less than a% of the reference current, the bushing state determining unit 150 determines the state of the bushing as a good grade And determines the state of the bushing as an observation grade when the current value compensated by the measurement current compensating unit 140 is greater than a% or more and less than b% The current value compensated by the measuring current compensating unit 140 is determined as a criterion level when the current value is greater than or equal to b% and less than or equal to a% When the current is greater than c% by more than the current, the state of the bushing can be determined as a failure grade.

For example, the a may be 2, the b may be 3, and the c may be 5.

A, b, and c may be set by analyzing the leakage current increase for a plurality of bushings in which the insulation deterioration value exceeds the reference value and the dielectric oil gas concentration of H2, C2H2 exceeds the reference value.

Referring to FIG. 4, it can be seen that the leakage current of the bushing having a problem in the insulation state is 3% larger or 2% smaller than the reference current. Thus, the a may be set to 2, and the b may be set to 3.

The reference current setting unit 130, the measurement current compensating unit 140, and the bushing state determining unit 150 may include a processor for comparing and analyzing data and processing according to an algorithm, and a memory for storing an algorithm and a reference current Computing environment.

5 is a block diagram illustrating a transformer bushing diagnostic apparatus according to an embodiment of the present invention.

5, a transformer bushing diagnosis apparatus 100 according to an exemplary embodiment of the present invention may further include a circuit breaker 160, a filter 170, a converter 180, and an output unit 190.

The circuit breaker 160 is connected between the bushing 210 and the current detecting unit 110 and may be opened when the current leaking from the bushing 210 exceeds the allowable current. For example, the allowable current may be 3A.

The filter 170 may perform low-pass filtering on the leakage current in the bushing 210. Accordingly, the harmonics, the conduction currents, and the antecedent currents included in the current leaked at the bushing 210 can be substantially eliminated.

The converter 180 may convert the voltage detected by the voltage detector 120. For example, the converter 180 may be implemented as a DC / DC converter that converts 125V to 12V.

The output unit 190 may output the state information of the bushing 210 selected by the bushing state determination unit 150. [ For example, the output unit 190 may include a display panel and / or a speaker, and may output an alarm when the status information of the selected bushing 210 is a critical grade or a bad grade. Accordingly, the transformer manager can check the state of the bushing 210 in real time, and can quickly perform maintenance on the bushing 210. [

6 is a view showing a test tap included in the transformer bushing.

Referring to Fig. 6, the left side shows an external view of the condenser type bushing, the right upper side shows the bushing covered by the test tap cover, and the lower right side shows the bushing with the test tap cover separated.

The bushing may include a metal tab surrounding the conductor and the conductor, and a test tab in contact with the metal foil. The current detecting unit included in the transformer bushing diagnostic apparatus is electrically connected to the test tap and the ground, respectively, and can detect a current flowing between the test tap and the ground.

7 is a graph showing the voltage applied to the transformer and the leakage current of the bushing.

Referring to FIG. 7, the voltage represents the transformer primary bus voltage, and the leakage current represents the leakage current of the test tap of the bushing. Here, it can be seen that the voltage and the leakage current are varied with a similar pattern.

On the other hand, since the noise introduced from the ground at the leakage current may be less than 100 nA, it has little effect on the leakage current.

8 is a flowchart illustrating a method of diagnosing a transformer bushing according to an embodiment of the present invention.

Referring to FIG. 8, a method for diagnosing a transformer bushing according to an exemplary embodiment of the present invention includes detecting an initial current leaking in a bushing of a transformer (S10), detecting an initial voltage applied to the transformer (S30) of setting a reference current corresponding to the initial current and the initial voltage (S30), detecting a leakage current measured in a bushing of the transformer (S40), measuring a voltage applied to the transformer (S50) of reflecting the measured current or the reference current corresponding to the magnitude of the measured voltage relative to the initial voltage (S60) And selecting the state of the bushing corresponding to the relative size (S70).

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Anyone can make various variations.

100: Transformer bushing diagnostic device
110: current detector
120: Voltage detector
130: Reference current setting unit
140: Measurement current compensation section
150: bushing state determination unit
160: Breaker
170: filter
180: Converter
190: Output section
200: Transformer
210: Bushing

Claims (6)

A current detector for detecting a current leaking from a bushing of the transformer;
A voltage detector for detecting a voltage applied to the transformer;
A reference current setting unit for setting a reference current corresponding to an initial current measured by the current detector and an initial voltage measured by the voltage detector;
A measuring current compensating unit for reflecting a value corresponding to a magnitude of a measured voltage measured by the voltage detecting unit with respect to the initial voltage to a measured current value measured by the current detecting unit or the reference current; And
A bushing state determiner for selecting a state of the bushing corresponding to a magnitude relative to a reference current of a measured current value after reflection by the measurement current compensating unit; And a transformer bushing diagnostic device.
The method according to claim 1,
Wherein the bushing comprises a conductor, a metal foil surrounding the conductor, and a test tab in contact with the metal foil,
Wherein the current detection unit is electrically connected to the test tap and the ground, respectively, and detects a current flowing between the test tap and the ground.
The method according to claim 1,
A breaker connected between the bushing and the current detecting unit and opened when a current leaking from the bushing exceeds a permissible current;
A filter for low-pass filtering the current leaking from the bushing; And
A converter for converting a voltage detected by the voltage detecting unit; Wherein the transformer bushing diagnostic apparatus further comprises:
The method according to claim 1,
Further comprising an output unit for outputting status information of the bushing selected by the bushing state determination unit,
The bushing state determination unit stores a plurality of state information corresponding to different current ranges, and the state information corresponding to the relative magnitude of the current value compensated by the measurement current compensation unit among the plurality of state information, To the output section.
5. The method of claim 4,
Wherein the bushing state determination unit determines the state of the bushing as a good grade when the current value compensated by the measurement current compensation unit is larger or smaller than a reference current by less than a% The current value compensated by the measuring current compensator is less than or equal to b% and less than c% less than the reference current when the current value is greater than or equal to a% And if the current value compensated by the measuring current compensating unit is larger than the reference current by c% or more, the state of the bushing is judged as a bad grade Determining transformer bushing diagnostic device.
Detecting an initial current leaking in a bushing of the transformer;
Detecting an initial voltage applied to the transformer;
Setting a reference current corresponding to the initial current and the initial voltage;
Detecting a measuring current leaked in a bushing of the transformer;
Detecting a measured voltage applied to the transformer;
Reflecting a value corresponding to a magnitude of the measured voltage relative to the initial voltage on the measurement current or the reference current; And
Selecting a state of the bushing corresponding to a magnitude of a compensated measured current relative to the reference current; The method comprising the steps of:

Images