KR101039351B1 - Electric leakage circuit breaker for protecting wrong operation - Google Patents

Abstract

PURPOSE: An electric leakage circuit breaker is provided to stably supply power to load by comparing the cycle and the strength of a detected current and recognizing an instant short current as surge. CONSTITUTION: An electric leakage circuit breaker is composed of a leakage current measuring part(1), a trip signal analyzing part(11), a pulse-width-modulation(PWM) output part(2), a PWM analyzing part(21). The leakage current measuring part compares a current detected from a zero-phase current transformer(100) with a pre-set reference current to output a detecting signal. If the detected current is continuously maintained, the detected current is recognized as leakage current. Main power source is blocked. If the detected current is instant, the detected current is recognized as surge. The surge is discharged to the ground using a surge protector(4).

Description

ELECTRIC LEAKAGE CIRCUIT BREAKER FOR PROTECTING WRONG OPERATION}

The present invention relates to an earth leakage circuit breaker, and more particularly, to an earth leakage circuit breaker which prevents malfunction due to surge, which prevents the circuit breaker from being operated by transient surge or noise, thereby making it possible to supply power more stably.

More specifically, it detects whether the sensed current is temporary surge or noise or leakage current due to short circuit, so that power is supplied in case of temporary surge or noise and the power is cut off only when the actual current is leaked. The present invention relates to a ground fault circuit breaker which prevents a malfunction due to surges made available for supply.

An earth leakage breaker is a means for detecting a certain leakage current (typically 15 mA to 30 mA) to prevent electric shock. The earth leakage breaker measures the difference between the current going into the power line and the current flowing into the neutral line, and the sum of the current flowing out and the current coming in is zero. Or, cut off the current by determining that a short circuit is occurring.

As shown in FIG. 1, the circuit breaker compares a zero-phase current transformer (ZCT) 100 that detects a leakage current generated from a power line with a current sensed by the image current transformer. It is composed of a leakage current measuring unit 200 to determine the leakage of the current when the set value is more than the set value and to operate the trip unit to be described later, and a trip device 300 for operating under the control of the leakage current measuring unit to cut off the power when leakage current. . Such a ground fault breaker simply detects a change in the input / output current (change in magnetic flux) of the current transformer by a current flowing through the power line to determine whether there is a leakage, so that surge current or noise caused by lightning strikes ("," When a surge is input through a power line, the video current transformer reacts, and the leakage current measurement unit recognizes the change of current caused by the surge as a leakage current, and operates the trip device to cut off the power supply. Cut off the power supply.

That is, even if a short circuit does not occur, the load device is stopped by interrupting power supplied to the load device, thereby causing an unforeseen problem. In particular, when frequent lightning strikes occur during the summer season, the load device is frequently stopped due to a short circuit surge caused by the lightning strike, and when the load device is a computer that processes important information, the information is lost. There was a problem that adversely affects the patient.

Patent No. 0,080,18 is one of the circuit breakers developed to improve the problems of the circuit breakers.

As shown in FIG. 2, two leakage current measuring units 200a and 200b are installed, and when the two leakage current measuring units 200a and 200b operate continuously, the trip device 300 is driven. The circuit breaker tripped.

Such an earth leakage breaker can detect noise to prevent the power supply from being cut off by noise, but there are disadvantages in that the circuit is complicated and an error according to the characteristics of the relay exists by using a time delay circuit as a driving time of the relay.

The present invention has been developed to solve the problems of the prior art as described above, by detecting whether the sensed current is a temporary surge or noise or leakage current by a short circuit, when the transient surge or noise power is supplied and substantially It is an object of the present invention to provide an earth leakage breaker that prevents a malfunction due to surge, which makes it possible to supply a stable power supply to a load by shutting off the power only when leakage of current occurs.

In order to achieve the above object, the present invention provides a circuit breaker for detecting a leakage current generated from a main power line using an image current transformer and operating a trip device to cut off the main power when the leakage current is detected. A leakage current measuring unit configured to output a detection signal to a logic high (H) when the current is greater than or equal to the reference current and to a logic low (L) when the current is less than or equal to the preset reference current; A trip signal analyzer for analyzing a detection signal output from the leakage current measuring unit and outputting a periodic signal of the detection signal; A PWM output unit converting the current value detected by the image current transformer into a digital value; A PWM analyzer for comparing the pulse width of the digital current value converted by the PWM output unit with a reference pulse width; And a main analyzer which analyzes the periodic signal output from the trip signal analyzer and the duration output from the PWM analyzer to determine whether the leakage current or the surge is instantaneous and transmits a power cutoff signal to the trip device only when the leakage current is generated. It relates to an earth leakage breaker which prevents malfunction due to surge.

The main analyzer outputs a trip signal by recognizing it as a leakage current when the logic high signal is repeated two or more times among the signals analyzed by the trip signal analyzer, and the signal analyzed by the PWM analyzer is greater than the reference width. The signal analyzed by the signal analyzer is not repeated, and the signal analyzed by the PWM analyzer is recognized as a surge when the pulse width is less than the reference width so that the trip signal is not output.

The present invention compares the period and intensity of the sensed current and repeats it continuously and when the current is detected, it recognizes it as a leakage current and cuts off the power supply. By blocking the power supply, the power is prevented from being interrupted by surge, so that the power can be stably supplied to the load.

1 is a configuration diagram of an example of a conventional earth leakage breaker;
2 is a configuration diagram of another example of a conventional earth leakage breaker;
3 is a configuration diagram of an example of an earth leakage breaker according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail with reference to the accompanying drawings. However, the accompanying drawings are only examples for easily describing the content and scope of the technical idea of the present invention, and thus the technical scope of the present invention is not limited or changed. In addition, it will be apparent to those skilled in the art that various modifications and changes can be made within the scope of the present invention based on these examples.

The earth leakage breaker which prevents a malfunction due to surge according to the present invention determines whether the sensed current is surge or leakage current, and cuts off the power only when the leakage current is detected, thereby making it possible to detect the power supply. It includes a leakage current measuring unit 1 for detecting whether the current is repeated, a trip signal analyzer 11, a PWM output unit 2 for detecting the persistence of the sensed current, and a PWM analyzer 21.

The earth leakage circuit breaker according to the present invention includes an image current transformer 100 for detecting a current leaking from a main power line like a conventional earth leakage circuit breaker.

The video current transformer 100 may be installed on a wire from a power supply to a load side to detect a short circuit, that is, a difference between an outgoing current and an incoming current, and to detect a short circuit.

In addition, the earth leakage breaker of the present invention includes a trip device 300 that cuts off the power supplied to the load when a leakage current is detected, like a conventional earth leakage breaker. The trip device may be composed of SCR, which is a component used in a conventional earth leakage breaker, and may react to a momentary surge signal. However, in the present invention, the trip device is composed of a MOSFET which has not been applied to the current leakage circuit breaker instead of the SCR, so that the operation is performed by a continuous signal, thereby making it more effective in preventing malfunctions during lightning strikes.

The leakage current detected by the earth leakage breaker of the present invention is repeatedly generated when compared with the surge, and it is possible to distinguish whether the detected current is a surge or a leakage current by checking the repeatability of the detected current. The leakage current measuring unit 1 and the trip signal analyzer 11 are used to detect the repeatability of the current.

The leakage current measuring unit 1 compares the current detected by the image current transformer 100 with a logic high (H) when the reference current is greater than or equal to a reference current, and a logic low (L) when the reference current is less than the reference current. Outputs The leakage current measuring unit 1 outputs a logic high when the output of the image current transformer is greater than or equal to the reference current, and outputs a logic low when the output current falls below the reference current. When the logic low is output and the output current exceeds the reference current, the logic high (H) is output. That is, the logic high H and the logic low L are output depending on the output of the video current transformer.

Accordingly, by detecting whether the logic high (H) is repeated, it is possible to determine whether the detected current is a leakage current or a surge.

The trip signal analyzer 11 analyzes a detection signal output from the leakage current measuring unit and outputs a periodic signal of the detection signal. That is, it is determined whether the detection signal output from the leakage current measuring unit is repetitive or one-time.

The detection signal detected by the leakage current measuring unit 1 and the trip signal analyzer 11 is difficult to determine whether the current detected by the current transformer is a surge or a leakage current, and thus means for detecting whether the detected current persists. It may be further provided.

That is, since leakage current is generated continuously but is instantaneously generated, it is possible to know whether the current detected by the associative current transformer is surge or leakage current by detecting the persistence.

The PWM output unit 2 and the PWM analyzer 21 are provided as a means for detecting the persistence of the detected current.

The PWM output unit 2 converts the current value detected by the image current transformer into a digital value, and outputs it. The PWM analyzer 21 compares the pulse width of the digital current value converted by the PWM output unit with a reference pulse width. do.

The main analyzer 3 determines whether the surge is a surge current or the leakage current by analyzing the periodic signal output from the trip signal analyzer 11 and the pulse width signal output from the PWM analyzer 21.

The main analyzer 3 analyzes the periodic signal output from the trip signal analyzer and the duration output from the PWM analyzer to determine whether it is a leakage current or a momentary surge and supplies a power cutoff signal to the trip device only when the leakage current is present. The main power is cut off by transmission.

The main analyzer 3 outputs a trip signal by recognizing a leakage current when the logic high signal is repeated two or more times among the signals analyzed by the trip signal analyzer, and the pulse width of the signal analyzed by the PWM analyzer is greater than or equal to the reference width. The signal analyzed by the trip signal analyzer is not repeated, and the signal analyzed by the PWM analyzer is recognized as a surge when the pulse width is less than the reference width and does not output the trip signal.

That is, only when the current sensed by the current transformer 100 continues to be recognized as a leakage current only when the current is interrupted, and when the surge is instantaneous, the surge protector 4 to be described later to discharge the surge to the ground.

The leakage current measuring unit, trip signal analyzer, PWM output unit, PWM analyzer and the main analyzer may be configured by a microcomputer. As another example, the leakage current measurement unit and the PWM output unit may be measured and output by using the IK7102 chip, and the trip signal analyzer, the PWM analyzer, and the main analyzer may be configured as a microcomputer. In addition, the IK7102 chip and the microcomputer can be provided in the form of a single chip integrated to facilitate installation, and can provide an integrated circuit breaker in conjunction with a trip device composed of a MOSFET.

The earth leakage breaker which prevents the malfunction due to the surge of the present invention configured as described above cuts off the main power only when the leakage current is detected by distinguishing the surge and the leakage current including noise as described above.

In the earth leakage breaker of the present invention, there is a need for a means for preventing the load device from being burned by the surge, and for this purpose, the surge protector 4 is provided.

The surge protector 4 is installed at the front end or the rear end of the earth leakage breaker connected to the main power line to protect the load device from surge. In addition, by arranging the surge protector in the earth leakage breaker, it is possible to provide an earth leakage blocking function and a surge protection function at the same time only by installing the earth leakage breaker of the present invention.

The surge protector 4 may select one of those already developed and used to protect the load device from electric shock by flowing an abnormal current such as noise or surge generated around the load device to the ground.

1: Leakage current measuring unit
11: Trip signal analyzer
2: PWM output part
21: PWM analyzer
3: main analyzer
4: Surge protector

Claims (4)

In the earth leakage circuit breaker that detects the leakage current generated from the main power line by using the image current transformer and operates the trip device to cut off the main power when the leakage current is detected.
A leakage current measuring unit configured to compare the current detected by the image current transformer to a logic high (H) when the reference current is greater than or equal to a reference current and to output a logic low (L) when the reference current is less than the reference current;
A trip signal analyzer for analyzing a detection signal output from the leakage current measuring unit and outputting a periodic signal of the detection signal;
A PWM output unit converting the current value detected by the image current transformer into a digital value;
A PWM analyzer for comparing the pulse width of the digital current value converted by the PWM output unit with a reference pulse width; And
A main analyzer that analyzes the periodic signal output from the trip signal analyzer and the duration output from the PWM analyzer to determine whether the leakage current or the surge is instantaneous and transmits a power cutoff signal to the trip device only when the leakage current is present; Consists of including;
The main analyzer
When the logic high signal is repeated two or more times among the signals analyzed by the trip signal analyzer, and the signal analyzed by the PWM analyzer is greater than the reference width, the pulse signal is recognized as a leakage current and outputs a trip signal.
The earth leakage breaker prevents malfunction due to surge, characterized in that the signal analyzed by the trip signal analyzer is not repeated and the signal analyzed by the PWM analyzer is recognized as a surge when the pulse width is less than the reference width. . delete The method of claim 1,
And the leakage current measuring unit, the trip signal analyzer, the PWM output unit, the PWM analyzer and the main analyzer are microcomputers. The method of claim 3, wherein
And a surge protector installed at a front end or a rear end of an earth leakage breaker connected to the main power line, wherein the earth leakage breaker prevents malfunction due to surge.

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