KR101877799B1 - Device for Detecting Insulation Resistance - Google Patents

Abstract

In the present invention, disclosed are a method for measuring insulation resistance of a live wire and a recording medium recording a program for executing the same. The method for measuring insulation resistance of a live wire is performed by a device for measuring insulation resistance of a live wire through a process for calculating voltage by phase and a phase angle of synthesized leakage current based on a voltage measurement value by phase, transmitted by a 3-phase 4-wire zero current transformer, and a synthesized leakage current measurement value of zero current by phase, transmitted from the 3-phase 4-wire zero current transformer; and a process for calculating an insulation resistance value by phase based on the synthesized leakage current measurement value, the phase angle, and the voltage measurement value by phase. According to the present invention, the device for measuring insulation resistance of a live wire can independently measure insulation resistance by phase from zero current by phase. The device for measuring insulation resistance of a live wire comprises a calculation unit, an amplification unit, and a conversion unit.

Description

{Device for Detecting Insulation Resistance}

The present invention relates to a live wire insulation resistance measuring apparatus, and more particularly, to a live wire insulation resistance measuring apparatus capable of independently measuring a live wire insulation resistance from each phase current.

Leakage currents are classified as capacitive leakage currents and resistive leakage currents, and resistive leakage currents can cause fatal injuries or death to humans if a certain amount of electric shock is applied to a human body, leading to fire.

In order to prevent such an accident, it is necessary to precisely measure the leakage current to prevent electrical fire or electric shock accidents due to electric leakage. For this purpose, a measuring device for measuring the insulation resistance of a live wire combined with a single phase and three- Is used.

On the other hand, there is a technical limitation in that the live wire insulation resistance measuring device according to the prior art can not guarantee the precision of measurement of the leakage current due to technical limitations that can not independently measure the live wire insulation resistance of each phase.

Therefore, it is an object of the present invention to provide a live wire insulation resistance measuring device capable of independently measuring the live wire insulation resistance of each phase from each phase current image.

According to an aspect of the present invention, there is provided an apparatus for measuring an active insulation resistance, the apparatus comprising: a voltage measuring unit for measuring a voltage of each phase transmitted from a three-phase four- Calculating a phase angle of each phase voltage and the composite leakage current on the basis of the leakage current measurement value and calculating a phase angle of each composite leakage current value, And an arithmetic unit for arithmetic operation.

Preferably, the display apparatus further includes a display unit for displaying the operation result value by the operation unit.

The method of measuring a live insulation resistance according to the present invention is characterized in that (a) a live wire insulation resistance measuring device measures the voltage measured value of each phase transmitted from a three-phase four- Calculating a phase angle of each phase voltage and the composite leakage current based on a composite leakage current measurement value of each phase current; And (b) calculating the live insulation resistance value of each phase based on the composite leakage current measurement value, the phase angle, and the voltage measurement value for each phase.

On the other hand, the recording medium according to the present invention is characterized in that a program for executing the method is recorded.

In the meantime, according to the present invention, there is provided a video rewinder for measuring three-phase four-wire live wire insulation resistance, comprising: a neutral bus bar 140 installed below each conductive wire; And a video deflector which is installed on each of the conductive wires for each phase, and connects the neutral bus bar 140 to the respective conductive wires.

Preferably, the image deflector independently transmits the image currents of the respective phases to the live insulation resistance measuring apparatus 200.

In addition, a live wire insulation resistance measuring device 200 for receiving image currents from the image current transformer is detachably coupled to the image current transformer.

The connector further includes a connector unit 150 that independently transmits the image currents to the live wire insulation resistance measuring apparatus 200.

In addition, the neutral bus bar 140 has a step-like coupling section that is independently coupled by the respective conductive lines and the image deflector.

According to the present invention, the live wire insulation resistance measuring device can independently measure the live wire insulation resistance for each phase from each phase image current.

FIG. 1 is a structural view of a video rewinder for measuring three-phase four-wire live insulation resistance according to an embodiment of the present invention,
FIG. 2 is a view showing a separated state of a three-phase four-wire type live wire insulation resistance measuring video streaming device and a live wire insulation resistance measuring device according to an embodiment of the present invention;
FIG. 3 is a view showing a combined state of a three-phase four-wire type live wire insulation resistance measurement video image device and a live wire insulation resistance measurement device according to an embodiment of the present invention,
FIG. 4 is a flowchart illustrating a process of calculating a live insulation resistance value in an operation unit included in the device for measuring a live insulation resistance according to an exemplary embodiment of the present invention. FIG.
FIG. 5 and FIG. 6 are graphs for explaining a calculation process in an operation unit provided in the apparatus for measuring a live insulation resistance according to an embodiment of the present invention;
FIG. 7 is a functional block diagram illustrating a structure of a live insulation resistance measuring apparatus according to an embodiment of the present invention, and FIG.
8 is a functional block diagram showing a structure of a live insulation resistance measuring apparatus according to another embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings. It is to be noted that the same elements among the drawings are denoted by the same reference numerals whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

FIG. 1 is a structural diagram of a three-phase, four-wire type insulated wire resistance measuring video rewinder 100 according to an embodiment of the present invention. Referring to FIG. 1, a three-phase, four-wire type insulated wire resistance measuring apparatus 100 according to an exemplary embodiment of the present invention includes a first phase (R) conductive wire 110, a second phase S ) Conductive line 120 and a third phase (T) conductive line 130 and a neutral bus bar 140 which is a neutral ground line provided below these conductive lines 110, 120 and 130.

On the other hand, a Zero Current Transformer (ZCT) is installed in each of the conductive lines 110, 120 and 130 for each phase independently. More specifically, the first phase conductive line 110 and the neutral bus bar 140 are connected to the first phase current transformer 115 and the second phase current transformer 115, respectively, Respectively.

The second phase transformer 125 is installed on the second phase conductive line 120. More specifically, the second phase transformer 120 and the neutral bus bar 140 are connected to the second phase transformer 125 by the second phase transformer 125 And are electrically coupled.

The third phase transformer 135 is installed on the third phase conductive line 130. More specifically, the third phase transformer 130 and the neutral bus bar 140 are connected to the third phase transformer 135 by the third phase transformer 135 And are electrically coupled.

As described above, in the present invention, in order to independently connect the single neutral bus bars 140 to the respective conductive wires 110, 120, and 130 installed in parallel through the respective phase transformers 115, 125, and 135, The neutral bus bar 140 in the first embodiment has a stepped coupling section that is a section that is independently coupled through the respective conductive wires and the phase transformers 115, 125, and 135 for each phase.

More specifically, the neutral bus bar 140 is manufactured in a three-step step shape that is continuously developed. In the first step, the electrical connection through the third phase conductive line 130 and the third phase current transformer 135 is performed The second phase conductive line 120 and the second phase current transformer 125 form an electrical coupling through the second phase conductive line 120 and the first phase conductive line 110 and the first phase conductive line 115 Lt; / RTI >

The first video current transformer 115 independently transmits the image current on the R phase to the live wire insulation resistance measuring device 200 and the second video current transformer 125 applies the video current on the S phase to the live wire insulation resistance measuring device 200. [ And the third video current transformer 135 independently transmits the image current on the T phase to the live wire insulation resistance measuring apparatus 200.

As a result, the live wire insulation resistance measuring apparatus 200 receives the image currents for each phase, measures the image currents for each phase, and separates and calculates the capacitive current and the resistive current for each phase. As a result, And can be measured independently.

Meanwhile, the live wire insulation resistance measuring device 200 according to the present invention is detachably coupled to the video current mirror device 100 for measuring three-phase four-wire live wire insulation resistance according to the present invention.

FIG. 2 is a view showing a state in which a three-phase four-wire type live insulation resistance measuring video image changing apparatus 100 and a live wire insulation resistance measuring apparatus 200 are separated from each other according to an embodiment of the present invention. FIG. 5 is a view showing a combined state of the video streaming device 100 for measuring three-phase four-wire live wire insulation resistance and the live wire insulation resistance measurement device 200 according to the embodiment.

The live wire insulation resistance measuring device 200 is provided with a connector part 250 which is detachably coupled to the connector part 150 provided in the three-phase four-wire live wire insulation resistance measuring video rewinder device 100, The operator can easily repair or maintain the live wire insulation resistance measuring device 200 by separating the live wire insulation resistance measuring device 200 from the three-phase four-wire live wire insulation resistance measuring image changing device 100 when repairing or maintenance of the live wire insulation resistance measuring device 200 is required So that the user can perform the operation.

That is, since only the passive elements are mostly provided in the video current transformer 100 for measuring the three-phase four-wire live wire insulation resistance, there is almost no possibility that the failure occurs, but the live wire insulation resistance measuring device The operator is required to separate the live wire insulation resistance measuring device 200 from the video current transformer 100 for three-phase four-wire live wire insulation resistance measurement as shown in FIG. 2, if necessary. Thereby ensuring the efficiency of maintenance and repair work.

3, the operator who completes the maintenance work on the live wire insulation resistance measuring device 200 in a state of being separated as shown in FIG. 2, is connected to the three-phase, four-wire live wire insulation resistance measuring video re- It is possible to connect the live wire insulation resistance measuring device 200 to the body 100 again.

On the other hand, the connector unit 150 provided in the video current transformer 100 for measuring the three-phase four-wire live wire insulation resistance is electrically connected to the connector unit 250 provided in the live wire insulation resistance measuring apparatus 200, Phase image current and voltage for each phase are independently transmitted from the three-phase, four-wire live wire insulation resistance measuring video streaming device 100 to the live wire insulation resistance measuring device 200 through a connector channel independently provided for each phase.

Specifically, the connector unit 150 provided in the video current transformer 100 for three-phase, four-wire live wire insulation resistance measurement is provided with the (R, S, T) And a second connector unit 154 for transferring the voltage of each phase to the active insulation resistance measuring apparatus 200. The first connector unit 152 includes three channel modules for transmitting the voltage to the active insulation resistance measuring apparatus 200,

The connector unit 250 included in the live wire insulation resistance measuring apparatus 200 includes three channel modules connected to the first connector unit 152 and receiving respective image currents of R, And a second connector unit 254 connected to the second connector unit 154 and receiving the respective voltages.

1, a single neutral bus bar 140 having a stepped coupling section is connected in parallel to the three-phase four-wire type insulation resistance measuring system 100 according to an exemplary embodiment of the present invention. 120 and 130 are formed independently of the conductive lines 110, 120, and 130, the conductive lines 110, 120, and 130 for each phase are provided with a clearance coupling section that is a section where the neutral bus bar 140 is not provided at the lower portion. A current transformer (CT) may be additionally installed in the remaining conductive lines 110, 120, and 130 except for the coupling section with the neutral bus bar 140.

That is, in the present invention, a current transformer (CT) may be additionally provided in a free coupling section provided in each of the conductive wires 110, 120 and 130 for each phase, and a current of a current transmitted through the connector units 150 and 250 Based on the measured values, the live wire insulation resistance measuring apparatus 200 can additionally execute the power quality analysis function.

As shown in FIG. 2, the apparatus for measuring a live insulation resistance 200 according to the present invention is provided with a display unit which is a display device for displaying a calculated live insulation resistance value. As shown in FIGS. 2 and 3, The live wire insulation resistance measuring device 200 of the present embodiment is provided with a communication unit 230 which is a wire / wireless communication module for performing data communication with an administrator terminal such as a PC, It is possible to detect the danger of an accident and manage the operation of the breaker to protect the person from damage and fire.

4 is a flowchart illustrating a process of calculating a live insulation resistance value in an operation unit 250 provided in an apparatus 200 for measuring a live insulation resistance according to an exemplary embodiment of the present invention. Hereinafter, with reference to FIG. 4, a calculation process of the live insulation resistance value in the operation unit 250 provided in the live insulation resistance measurement apparatus 200 according to the present invention will be described.

The operation unit 250 of the live wire insulation resistance measuring apparatus 200 measures the voltage Vac of each phase transmitted from the second connector unit 154 of the video display apparatus 100, The composite leakage current I _o is measured from each of the image currents transmitted from the first connector portion 152 of the first connector portion 152 (S410).

Operation unit 250 of the next, hot-line insulation resistance measurement apparatus 200 is sensed (SENSING the zero crossing (ZERO CROSSING) in each measured through the above-described step S410 sangbyeol voltage (Vac) and the composite leakage current (I _o) , The phase differences T1 and T2 of the respective phases as shown in FIG. 5 are measured (S420).

Then, the operation unit 250 of the live wire insulation resistance measuring apparatus 200 calculates the phase angle [theta] of each phase voltage and the composite leakage current measured through the above-described step S410 through the following equation (1).

On the other hand, the operation of the composite leakage current (I _o), each sangbyeol resistive current (Igr), and each sangbyeol capacitive current (Igc) results hot-line insulation resistance measurement device 200 having a relationship as shown in FIG. 6 ( 250) calculates the resistance current value Igr for each phase through the following equation (2) (S440).

Then, the operation unit 250 of the live wire insulation resistance measuring apparatus 200 calculates the capacitive current value Igc for each phase through the following equation (S450).

In addition, the operation unit 250 of the live wire insulation resistance measuring apparatus 200 calculates the active wire insulation resistance value Rgr for each phase through the following expression (460).

The resistive current value Igr, the capacitive current value Igc, and the live-line insulation resistance value Rgr for each phase calculated as described above are input to the user through the display unit provided in the live- Lt; / RTI >

The operation unit 250 of the live wire insulation resistance measuring apparatus 200 calculates the complex resistance current value based on the resistive current value Igr for each phase and calculates the complex resistance current value Igr based on the respective capacitive current values Igc, And the composite insulation resistance value is calculated based on the respective active insulation resistance values Rgr for each phase (S470). The composite resistance current value, the complex capacitive current value, and the composite insulation resistance value Is displayed to the user through a display unit provided in the live wire insulation resistance measuring device (200).

7 is a functional block diagram illustrating a structure of an apparatus 200 for measuring a live insulation resistance according to an embodiment of the present invention.

7, an apparatus 200 for measuring a live insulation resistance according to an exemplary embodiment of the present invention includes an amplification unit 210, a voltage division unit 220, a communication unit 230, a conversion unit 240, an operation unit 250, A control unit 260, and a display unit 270.

The amplifying unit 210 includes a first amplifier 211 connected to the first video current transformer 115, a second amplifier 212 connected to the second video current transformer 125, a third amplifier connected to the third video current transformer 135, (R, S, T) image currents amplified by the amplification unit 210 are converted into digital electric signals through a conversion unit 240 composed of an ADC (Analog to Digital Converter) Which is transmitted to the operation unit 250 constituted by the digital signal processing device.

The voltage dividing unit 220 configured by a voltage divider transmits the divided voltages of the voltages of the respective phases (R, S, T) to the converting unit 240, The converted voltage of each phase (R, S, T) is transmitted to the operation unit 250.

4, based on the digital electric signal information transmitted from the conversion unit 240 as described above, and the control unit 260 receives various calculation result values from the operation unit 250. The control unit 260, Controls the display unit 270 to display the calculation result value.

8 is a functional block diagram showing a structure of an apparatus 200 for measuring a live insulation resistance according to another embodiment of the present invention.

2, the amplifier 210 includes a first amplifier 211 connected to the first video current transformer 115, a second amplifier 212 connected to the second video current transformer 125, a third video current transformer 135, A fourth amplifier 214 connected to the first current transformer 117 provided on the first phase conductive line 110, a second current transformer 127 provided on the second phase conductive line 120, And a sixth amplifier 216 connected to a third current transformer 137 provided on the third phase conductive line 130.

The R, S, and T image currents amplified by the amplifying unit 210 and the currents transmitted through the connector units 150 and 250 from the respective converters 117, 127 and 137 are converted into digital electric signals Which is transmitted to the operation unit 250. [

Accordingly, the calculation unit 250 can perform the power quality analysis based on the measured values of the currents transmitted through the connector units 150 and 250 from the respective converters 117, 127, and 137.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention.

100: Image changer, 110: First phase conductor wire,
115, 125, 135: image transformer, 120: second phase conductor wire,
130: third-phase conductive line, 140: neutral bus bar,
150, 250: a connector portion, 152, 252: a first connector portion,
154, 254: second connector part, 200: live wire insulation resistance measuring device,
230: Communication section.

Claims (2)

Based on the voltage measurement values of each phase transmitted from the three-phase four-wire type video re- gion device and the combined leakage current measurement values of the respective image currents transmitted from the three-phase four-wire type video re- gion device, A calculation unit for calculating a phase angle and calculating each phase live wire insulation resistance value based on the composite leakage current measurement value, the phase angle, and the voltage measurement value for each phase;
A first amplifier 211 connected to a first video current transformer 115 electrically coupled to the first phase conductive line 110 and the neutral bus bar 150 in the video reverberator, A second amplifier 212 connected to a second phase current transformer 125 electrically coupled to the second phase conductive line 120 and the neutral bus bar 150, A third amplifier 213 connected to the third phase current transformer 135 electrically connected to the neutral bus bar 150 and a first current transformer 117 provided on the first phase conductive line 110, A fifth amplifier 215 connected to a second current transformer 127 provided on the second phase conductive line 120, a third amplifier 214 connected to the third phase current conductor 130, And a sixth amplifier (216) connected to the second amplifier (137). And
A converting unit for converting the signal amplified by the amplifying unit into a digital electric signal,
Wherein the resistance measuring device comprises:
The method according to claim 1,
And a display unit for displaying an operation result value by the operation unit.

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