KR101228530B1 - Leakage alarm system by detecting leakage current removed harmonic wave and method thereof - Google Patents

Abstract

The present invention relates to a ground fault alarm system by measuring leakage current with harmonics removed, and more particularly, to a ground fault when a harmonic component of measured leakage current is removed to calculate a real leakage current to exceed a critical leakage current value. The present invention relates to a ground fault alarm system and a method by measuring leakage current from which harmonics that generate an alarm sound are eliminated.
The present invention for achieving this object, the current measuring unit for measuring the leakage current of the device to be measured; A current calculation unit for integrating the leakage current value measured by the current measuring unit, comparing the theoretical value with the theoretical value, calculating a current ratio of harmonics, and calculating a real leakage current; A determination alarm unit for setting an alarm threshold to set a threshold leakage current value and generating an alarm sound when the actual leakage current calculated by the current operation unit exceeds a threshold leakage current value; A voltage measuring unit measuring a leakage voltage of the device under measurement; A voltage calculation unit for integrating the leakage voltage value measured by the voltage measuring unit, comparing the theoretical value with the theoretical value, calculating a voltage ratio of harmonics, and calculating a real leakage voltage; And a communication unit for storing the information determined by the determination alarm unit and transmitting the information to a higher server. .

Description

Leakage Alarm System by Measuring Leakage Current Eliminating Harmonics and Its Method {LEAKAGE ALARM SYSTEM BY DETECTING LEAKAGE CURRENT REMOVED HARMONIC WAVE AND METHOD THEREOF}

The present invention relates to a ground fault alarm system by measuring leakage current with harmonics removed, and more particularly, to a ground fault when a harmonic component of measured leakage current is removed to calculate a real leakage current to exceed a critical leakage current value. The present invention relates to a ground fault alarm system and a method by measuring leakage current from which harmonics that generate an alarm sound are eliminated.

It is rare to be aware of the existence of electricity in everyday life, but electricity is now used in many fields as well as the main energy source, and has become an integral part of our society. Such electricity is very convenient in its use, but it also poses a great danger to proper care or careless use.

In general, when the covering of electric wire and the leading edge of electric equipment are aging or damaged and the insulator is damaged, leakage current flows from the wire path to the ground through the location. Leakage current means an irreversible constant current portion flowing through the insulator other than the charging current and the absorbing current, and there are components flowing inside the insulator and components flowing along the surface, and in many insulators, the surface current occupies most of the current.

When the leakage current comes into contact with the human body, there is a risk of electric shock, and excessive leakage current causes overheating, which is ignited due to flammable substances in the surroundings, which causes a leaking material.

Therefore, when the unbalanced current of the power supply due to the voltage of the uncharged metal part or the leakage current exceeds a certain value, an earth leakage breaker or leakage current that is to cut off the power is detected and an alarm is made according to the detection result. An earth leakage alarm is used.

On the other hand, with the recent increase in harmonic devices such as inverter devices, harmonics or harmonic currents are often included in the leakage current, and an electric leakage alarm due to the measurement of harmonics even when the leakage current is not actually dangerous level is measured. In many cases, alarms often occur even in normal cases, resulting in a distrust of the leak alarm.

The present invention has been made in view of the above problems, and by calculating the actual leakage current value by integrating the leakage current value measured from the device under measurement and removing the harmonic components contained therein, it is correct only based on the leakage current at a dangerous level. The present invention provides an earth leakage alarm system and method using leakage current measurement that removes harmonics to control leakage alarm.

In addition, by connecting ZCT for each load device and measuring leakage current value for each line, an earth leakage alarm system by measuring leakage current without harmonics that can measure a load that measures leakage current of actual risk level And it provides a method.

In addition, by measuring and calculating the leakage voltage as well as the leakage current, to provide a ground fault alarm system and a method by measuring the leakage current without the harmonics to control to ensure the correct leakage alarm.

The present invention for achieving the technical problem, the current measuring unit for measuring the leakage current of the device to be measured; A current calculation unit for integrating the leakage current value measured by the current measuring unit, comparing the theoretical value with the theoretical value, calculating a current ratio of harmonics, and calculating a real leakage current; A determination alarm unit for setting an alarm threshold to set a threshold leakage current value and generating an alarm sound when the actual leakage current calculated by the current operation unit exceeds a threshold leakage current value; A voltage measuring unit measuring a leakage voltage of the device under measurement; A voltage calculation unit for integrating the leakage voltage value measured by the voltage measuring unit, comparing the theoretical value with the theoretical value, calculating a voltage ratio of harmonics, and calculating a real leakage voltage; And a communication unit for storing the information determined by the determination alarm unit and transmitting the information to a higher server. It includes.

According to the present invention as described above, by calculating the actual leakage current value by integrating the leakage current value measured from the device under measurement and removing the harmonic components contained therein, it is possible to correct leakage alarm based only on the leakage current at a dangerous level. .

In addition, by connecting the ZCT line of each load device to measure the leakage current value of each line (Line), it is possible to measure the load that the leakage current of the actual risk level is measured.

By measuring and calculating not only the leakage current but also the leakage voltage, a correct leakage alarm can be obtained.

1 is a block diagram of a ground fault alarm system by measuring leakage current from harmonics according to an embodiment of the present invention.
FIG. 2 is a current waveform measured from an apparatus under measurement according to an embodiment of the present invention, and FIG. 2A is a waveform graph in which fundamental and harmonics are combined, and FIG. 2B is a waveform graph showing a current ratio of harmonics.
Figure 3 is a flow chart of the earth leakage alarm method by measuring the leakage current to remove harmonics according to an embodiment of the present invention.

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. It is to be noted that the detailed description of known functions and constructions related to the present invention is omitted when it is determined that the gist of the present invention may be unnecessarily blurred.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

The present invention relates to a ground fault alarm system and a method thereof by measuring leakage current from which harmonics are removed from the present invention, which will be described below with reference to FIGS. 1 to 3.

1 is a block diagram of a ground fault alarm system by measuring leakage current from which harmonics are removed according to an embodiment of the present invention.

As shown in FIG. 1, the current measurement unit 100, the current operation unit 200, the determination alarm unit 300, the voltage measurement unit 400, the voltage operation unit 500, and the communication unit 600 are included.

The current measuring unit 100 measures the leakage current of the device under measurement. At this time, the ZCT (video current transformer) is connected to each load device by line, so that the leakage current of each of the devices to be measured can be measured.

The current operation unit 200 integrates the leakage current value measured by the current measurement unit 100, compares the theoretical value with the theoretical value, calculates the current ratio of harmonics, and calculates the actual leakage current. The integration module 210 and the harmonic operation module 220, a leakage current calculation module 230.

The integration module 210 calculates an area by integrating the leakage current value measured by the current measurement unit 100. 2 is a current waveform graph measured from an apparatus under measurement according to an embodiment of the present invention, and it can be seen that the leakage current measured by the current measuring unit 100 includes harmonics and is measured to be higher than the theoretical value. Referring to FIG. 2A, waveforms corresponding to leakage current values measured by combining harmonics, that is, three harmonics, five harmonics, and seventh harmonics, from the original fundamental wave may be obtained. The integration module 210 integrates the waveform thus obtained to find an area.

The harmonic calculation module 220 calculates a current ratio of harmonics included in the leakage current measured by the current measurement unit 100 by comparing the area obtained by the integration module 210 with the actual theoretical area.

That is, the sinusoidal waveform shown in FIG. 2 has a different height due to the height of the sinusoidal waveform depending on the current value measured by the y-axis indicating leakage current. That is, the theoretical value of the area of the sinusoidal waveform can be calculated according to the measured current value. Referring to FIG. 2B, the waveforms of the sum of the fundamental wave and the harmonic wave can be compared. ㉠ in the part except ㉡ always has a positive value, and this value corresponds to the harmonics included in the leakage current. Therefore, the harmonic operation module 220 compares the area of the leakage current waveform obtained by the integration module 210 based on the area of the waveform corresponding to the theoretical value of the leakage current value measured by the current measurement unit 100, and compares the difference. Calculate the current ratio of harmonics using

The leakage current calculation module 230 removes the current ratio of harmonics calculated by the harmonic calculation module 220 from the leakage current measured by the current measurement unit 100 to calculate the actual leakage current.

The actual leakage current value may be calculated using the harmonic current ratio calculated by the harmonic operation module 220. For example, when the leakage current value measured by the current measurement unit 100 is 0.3A, the actual 0.3 When the area value of the fundamental wave at A corresponds to 90% of the area value obtained through the integration module 210, the harmonic calculation module determines that the current ratio of harmonics is 10%, and thus the leakage current calculation module ( 230 calculates 90%, that is, 0.27A, which removes the current ratio of harmonics from 0.3A measured by the current measuring unit 100.

The determination alarm unit 300 sets a threshold leakage current value at which the alarm sounds and generates an alarm sound when the actual leakage current calculated by the current operation unit 200 exceeds the threshold leakage current value.

The setting module 310 sets a threshold leakage current value which is a minimum leakage current value at which an alarm can be sounded. Usually, the current value can be set between 0.2A and 1.0A, and can be easily changed and set according to the environment and situation.

When the actual leakage current calculated by the current operation unit 200 exceeds a threshold leakage current value, the alarm display module 320 displays an indication window and generates a warning sound. If the above example is still followed, when the threshold leakage current is initially set to 0.2A in the setting module 310, it is determined as 0.27A in the leakage current associating module. Is generated. However, when the critical leakage current is set to 0.29A, since it is determined as 0.27A in the leakage current associating module, the alarm sound does not occur because it does not exceed 0.29A.

On the other hand, since the current measured by the current measurement unit 100 was 0.3A, when the leakage current without harmonics was judged as it is, the threshold leakage current set value is 0.29A, so even if the leakage current is not at a dangerous level, the current is 0.29. Since A is exceeded, a beep may sound. In the case of the present invention, by removing the noise portion of the harmonics, it is possible to determine whether or not the leakage current of the risk rank based on the actual leakage current value.

The voltage measuring unit 400 measures the leakage voltage of the device under measurement, and the voltage calculating unit 500 integrates the leakage voltage value measured by the voltage measuring unit 400 and compares it with the theoretical value. Calculate the voltage. The method of measuring and calculating the voltage is the same as that of the current measuring unit 100 and the current calculating unit 200. However, in the case of voltage measurement, it is impossible to measure for each load device, and even if the threshold value is set and it is not exceeded, it is impossible to know exactly which device a leakage current of a risk level occurs, so that the voltage measurement part 400 or the voltage calculation part 500 In the case may be used as a means to assist the function of the current measuring unit 100 and the current operation unit 200.

The communication unit 600 stores the information determined by the determination alarm unit 300 and transmits the information to the higher server. The device stores certain information indicating that a leakage current has occurred in a device, what is its value, what is its setting value, and therefore alarms that it is a dangerous leakage current, and transmits the stored data to a higher server.

3 is a flowchart of a short circuit alarm method by measuring leakage current from which harmonics are removed according to an embodiment of the present invention. An electric leakage warning method by measuring leakage current from which harmonics are removed will be described with reference to FIG. 3.

First, the setting module 310 sets a threshold leakage current value which is the lowest leakage current value at which an alarm can be generated (S10). Usually, the current value can be set between 0.2A and 1.0A, and can be easily changed and set according to the environment and situation.

When the threshold leakage current value is set in the step S10, the current measuring unit 100 measures the leakage current of the device under measurement (S20). At this time, the ZCT (video current transformer) is connected to each load device by line, so that the leakage current of each of the devices to be measured can be measured.

The current operation unit 200 calculates the current ratio of harmonics included in the leakage current measured in the step S20 by integrating the leakage current value measured in the step S20 and comparing the theoretical value with the theoretical value (S30). The actual leakage current is calculated by removing the current ratio of harmonics calculated in the step S30 from the leakage current (S40). The calculation method has been described in the current operation unit 200.

When the actual leakage current is calculated in step S40, the determination and warning unit 300 determines whether the actual leakage current calculated in step S40 exceeds the threshold leakage current value in step S10 (S50), and when exceeded, indicates Display on the window and generate a warning sound (S60).

Thereafter, the communication unit 600 stores the information determined in step S60 and transmits the information to the higher server (S70).

Meanwhile, as another embodiment, the leakage voltage may be measured. First, the setting module 310 sets the threshold leakage current value, which is the lowest leakage current value at which an alarm can be generated (S10). After the step S10, the voltage measuring unit 400 measures the leakage voltage of the device under measurement (S20 '). Thereafter, the voltage calculator 500 integrates the leakage voltage value measured through the step S20 'and compares it with a theoretical value to calculate a current ratio of harmonics included in the leakage voltage measured in the step S20' (S30 '). The voltage calculator 500 calculates the actual leakage voltage by removing the current ratio of the harmonics calculated in the step S30 'from the leakage voltage measured in the step S20', and then proceeds to the step S40. However, in the case of voltage measurement, it is impossible to measure for each load device, and even if the threshold value is set and it is not exceeded, it is impossible to know exactly which device a leakage current of a risk level occurs, so that the voltage measurement part 400 or the voltage calculation part 500 In the case may be used as a means to assist the function of the current measuring unit 100 and the current operation unit 200.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, 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 invention as defined by the appended claims. It will be appreciated by those skilled in the art that numerous changes and modifications may be made without departing from the invention. And all such modifications and changes as fall within the scope of the present invention are therefore to be regarded as being within the scope of the present invention.

100; Ammeter
200; Current calculation unit
300; Judgment and warning department
400; Voltmeter
500; Voltage calculation unit
600; Communication section
210; Integral module 220; Harmonic Operation Module (220)
230; Leakage current calculation module 230
310; Setting module 310; Alarm display module (320)

Claims (9)

A current measuring unit 100 for measuring a leakage current of the device under measurement;
A current calculation unit (200) for integrating the leakage current value measured by the current measurement unit (100) and comparing it with a theoretical value, calculating a current ratio of harmonics, and calculating a real leakage current; And
A decision alarm unit 300 for setting an alarm threshold to set a threshold leakage current value and generating an alarm sound when the actual leakage current calculated by the current operation unit 200 exceeds a threshold leakage current value; An earth leakage alarm system by measuring leakage current from which harmonics are included.
The method of claim 1,
A voltage measuring unit 400 for measuring a leakage voltage of the device under measurement; And
A voltage calculation unit 500 which integrates the leakage voltage value measured by the voltage measuring unit 400 and compares it with a theoretical value, calculates a voltage ratio of harmonics, and calculates a real leakage voltage; An earth leakage alarm system by measuring leakage current from which harmonics are further included.
The method of claim 1,
A communication unit 600 for storing the information determined by the determination alarm unit 300 and transmitting the information to a higher server; An earth leakage alarm system by measuring leakage current from which harmonics are further included.
The method of claim 1,
The current measurement unit 100,
Leakage current measurement system by measuring leakage current without harmonics characterized in that the leakage current measurement per line for measuring the leakage current for each load device.
The method of claim 1,
The current operation unit 200,
An integration module 210 for obtaining an area by integrating the leakage current value measured by the current measurement unit 100;
A harmonic calculation module 220 which compares the area obtained from the integration module 210 with the actual theoretical area and calculates a current ratio of harmonics included in the leakage current measured by the current measurement unit 100; And
A leakage current calculation module 230 for calculating a real leakage current by removing a current ratio of harmonics calculated by the harmonic calculation module 220 from the leakage current measured by the current measurement unit 100; An earth leakage alarm system by measuring leakage current from which harmonics are included.
The method of claim 1,
The determination alarm unit 300,
A setting module 310 for setting a threshold leakage current value that is a minimum leakage current value at which an alarm can be sounded; And
An alarm display module 320 for displaying in a display window and generating a warning sound when the actual leakage current calculated by the current operation unit 200 exceeds a threshold leakage current value; An earth leakage alarm system by measuring leakage current from which harmonics are included.
In the ground fault alarm method using the ground fault alarm system by measuring leakage current with harmonics removed,
(a) determining, by the determination and warning unit 300, a threshold leakage current value which is the lowest leakage current value at which an alarm can be sounded;
(b) the current measuring unit 100 measuring a leakage current of the device under measurement;
(c) calculating the current ratio of the harmonics included in the leakage current measured in the step (b) by integrating the leakage current value measured through the step (b) by the current operation unit 200 and comparing with the theoretical value ;
(d) calculating the actual leakage current by removing the current ratio of harmonics calculated in the step (c) from the leakage current measured in the step (b) by the current operation unit 200; And
(e) when the determination and warning unit 300 exceeds the threshold leakage current value of the step (a), the actual leakage current calculated in the step (d), displaying on the indication window and generating a warning sound; An earth leakage alarm method by measuring leakage current from which harmonics are included.
The method of claim 7, wherein
After the step (e)
(f) the communication unit 600 storing the information determined in the step (e) and transmitting it to a higher server; An earth leakage alarm method by measuring leakage current from which harmonics are further included.
The method of claim 7, wherein
After step (a) and before step (b),
(b ') measuring the leakage voltage of the device under measurement by the voltage measuring unit 400;
(c ') The voltage calculation unit 500 integrates the leakage voltage value measured through the process (b') and compares it with the theoretical value to calculate the voltage ratio of harmonics included in the leakage voltage measured in the step (b '). Making; And
(d ') calculating the actual leakage voltage by removing the voltage ratio of the harmonics calculated in the step (c') from the leakage voltage measured in the step (b '); An earth leakage alarm method by measuring leakage current from which harmonics are further included.

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