KR100924726B1 - Electric reverse connection circuit of electric leakage breaker - Google Patents

Abstract

The present invention relates to a power supply reverse connection circuit of an earth leakage breaker using a test circuit.

More specifically, in an earth leakage circuit breaker connected to a power supply line (power line, neutral line) between a power supply terminal and a load terminal and including a test circuit unit, the power supply line of the power supply terminal is connected to supply power to the load terminal. Contact portion including an over-current protection element for protection according to the generation of over-current; An image current transformer installed in a power supply line between the power supply terminal and the contact unit to detect a current difference between the power supply line and a current difference applied to the test circuit unit, and output the detected current difference to the electronic circuit unit; A detection module connected to a power supply line of the power supply terminal and a power supply line of the load terminal and receiving power, determining whether a leakage current is generated by using a current difference input from the image current transformer, and generating a detection signal; An electronic circuit unit including a driving module which cuts power by driving a contact of a power supply line according to a detection signal of the detection module; And a test circuit unit connected to the power supply line of the power supply terminal and the power supply line of the load terminal to periodically generate a leakage current in the power supply line to test whether the ground fault circuit breaker operates normally. The present invention relates to a power supply reverse connection circuit of an earth leakage breaker using a test circuit.

Earth leakage breaker, over current, leakage current, reverse connection, test circuit

Description

Electric reverse connection circuit of electric leakage breaker using test circuit

The present invention relates to a power supply reverse connection circuit of an earth leakage breaker using a test circuit.

More specifically, it is possible to control the reverse connection of the earth leakage breaker and to conveniently test whether the earth leakage breaker operates normally by simply changing the conventional test circuit instead of the micro switch constituting the power reverse connection circuit. The reverse circuit of the power supply circuit breaker using the

An earth leakage breaker is a device that protects the equipment and life of the load stage by detecting an abnormal current in case of leakage current, ground fault or human electric shock, and cuts off the circuit.It has the main functions such as over current interruption, earth leakage breaker, and circuit breaker. .

1 is a diagram illustrating a connection diagram of an earth leakage breaker including a conventional test circuit. 2 is a diagram illustrating another connection diagram of an earth leakage breaker including a conventional test circuit. As shown in FIG. 1 or FIG. 2, the control power applied to the circuit unit 20 is directly connected to the load terminal 30, and the power supply line is supplied with power to the power supply terminal 10. When a short circuit occurs in the power line (H) and the neutral line (N), the image current transformer (ZCT) 70 detects this and outputs it to the electronic circuit unit 20. The electronic circuit unit (Circuit ass'y, 20) is driven. The module (E-Mag, 80) is operated and interlocked with the contact unit (Contactor, 40) is off, so that the control power is cut off, the normal operation,

If power is supplied to the load stage 30, the circuit breaker is operated as described above so that the power is continuously supplied to the load stage 30 even when the contactor 40 is turned off. Is turned OFF, current flows continuously in the test circuit so that the test resistor is burned out. At the same time, electricity is continuously supplied to the driving module (E-Mag, 80) and the electronic circuit unit (Circuit ass'y, 20). As a result of the operation resulted in the burnout of the drive module and the electronic circuit part, it can be developed into a secondary ripple accident that is a distribution accident, and life-saving protection due to a short circuit becomes impossible. In addition, it is specified that the earth leakage breaker should not be reversed. However, in case of working directly, such a warning may be disregarded. Therefore, the reverse connection type of the earth leakage breaker is necessary even for safety.

In addition, the test circuit unit 60 is separately provided for the normal operation of the earth leakage breaker in the state where the wiring is completed while the wiring is completed in the actual use of the earth leakage breaker having the electronic circuit unit (Circuit ass'y) 20.

That is, as illustrated in FIGS. 1 and 2, the test circuit unit 60 includes a test switch and a resistor, and is connected to the load terminal 30 to generate a leakage current. Looking at the operation, when the test switch is pressed, some of the current flowing in the power line (H) of the power supply line flows to the neutral line (N) without passing through the load stage 30, the power line (H) and the neutral line (N) ) And the amount of current flowing to the circuit is changed, and the image current transformer 70 detects and outputs the current to the electronic circuit unit (Circuit ass'y, 20), and the electronic circuit unit (Circuit ass'y, 20) is a driving module (E-Mag, 80) is operated and the contact unit (Contactor, 40) is turned off in conjunction with this control power is cut off to check whether the normal operation.

On the other hand, it is shown in Figures 3 and 4 proposed to solve the power reverse connection problem of the load stage 30 as described above. 3 is a view showing a connection diagram of a reverse connection type earth leakage breaker including a conventional test circuit. 4 is a diagram illustrating another connection diagram of a reverse connection type earth leakage breaker including a conventional test circuit.

That is, as shown in FIGS. 3 and 4, by further adding a micro switch 90, when power is supplied to the load stage 30, the power continuously supplied even when the contactor 40 is turned off Blocked by a micro switch (90) can solve the problems described above, and by connecting the test circuit unit 60 with the micro switch (90), it is easy to test whether the earth leakage breaker is in normal operation. There was an advantage.

However, due to the high cost of the micro switch, there is a problem in that the manufacturing cost of the short circuit breaker becomes high and the circuit configuration becomes complicated.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems described above, and by simply changing the configuration of the test circuit, it is possible to reverse the power supply connection of the load stage, and to test a circuit that can conveniently test whether the earth leakage breaker operates normally. The purpose is to provide a power reverse connection circuit used.

delete

As described above, in an earth leakage circuit breaker connected to a power supply line (power line, a neutral line) between a power supply terminal and a load terminal and including a test circuit unit, the power supply line of the power supply terminal is connected to the power supply line. A contact unit including an over current protection device for applying protection to the over current; An image current transformer installed in the power supply line to detect a current difference in the power supply line and output the detected current difference to the electronic circuit unit; One end is connected to the power supply line between the power supply terminal and the contact portion, and the other end is connected to the power supply line of the load terminal to receive power, and determine and detect a leakage current by using a current difference input from the image current transformer. An electronic circuit unit including a detection module for generating a signal and a driving module for cutting off power by driving a contact unit of a power supply line according to the detection signal of the detection module; And a test circuit unit receiving power from the power supply line between the power supply terminal and the contact portion and the power supply line of the load terminal, and periodically generating a leakage current in the power supply line to test whether the earth leakage breaker operates normally. It is achieved by providing a power supply reverse connection circuit of an earth leakage breaker using a test circuit.
The electronic circuit portion, one end is connected to the power line between the power supply terminal and the contact portion and the other end is connected to the neutral line of the load end, or one end is connected to the neutral line between the power supply terminal and the contact portion and the other end is connected to the power line of the load end Can be connected.
The test circuit part may be connected to a power line between a power supply terminal and a contact, one end of which is connected to a neutral line of a load terminal, or one end of a test line connected to a neutral line between a power supply terminal and a contact, and the other end of the test circuit unit to a power line of a load terminal. Can be.
In addition, the test circuit portion, one end is connected to the power line between the power supply terminal and the contact portion and the other end is connected to the line of the electronic circuit portion connected to the neutral line of the load end, or one end is connected to the neutral line between the power supply terminal and the contact portion The other end may be connected to a line of an electronic circuit part connected to a power line of a load end.
In addition, the test circuit unit, one end is connected to the line of the electronic circuit unit connected to the power line between the power supply terminal and the contact portion and the other end is connected to the line of the electronic circuit unit connected to the neutral line of the load terminal, or one end and the power supply terminal It may be connected to the line of the electronic circuit portion connected to the neutral line between the contact portion and the other end may be connected to the line of the electronic circuit portion connected to the power line of the load end.
As described above, in an earth leakage circuit breaker connected to a power supply line (power line, a neutral line) between a power supply terminal and a load terminal and including a test circuit unit, the power supply line of the power supply terminal is connected to the power supply line. A contact unit including an over current protection device for applying protection to the over current; An image current transformer installed in a power supply line between the power supply terminal and the contact unit to detect a current difference between the power supply line and a current difference applied to the test circuit unit, and output the detected current difference to the electronic circuit unit; A detection module connected to a power supply line of the power supply terminal and a power supply line of the load terminal and receiving power, determining whether a leakage current is generated by using a current difference input from the image current transformer, and generating a detection signal; An electronic circuit unit including a driving module which cuts power by driving a contact of a power supply line according to a detection signal of the detection module; And a test circuit unit connected to the power supply line of the power supply terminal and the power supply line of the load terminal to periodically generate a leakage current in the power supply line to test whether the ground fault circuit breaker operates normally. Provide the power reverse connection circuit of the earth leakage breaker using the test circuit,
A contact part connected to a power supply line of the power supply terminal to apply power to a load terminal, and including an overcurrent protection device for protection according to generation of overcurrent; An image current transformer installed in the power supply line between the contact part and the load terminal to detect a current difference in the power supply line and a current difference applied to the test circuit part and output the detected current difference to the electronic circuit part; A detection module connected to a power supply line of the power supply terminal and a power supply line of the load terminal and receiving power, determining whether a leakage current is generated by using a current difference input from the image current transformer, and generating a detection signal; An electronic circuit unit including a driving module which cuts power by driving a contact of a power supply line according to a detection signal of the detection module; And a test circuit unit connected to the power supply line of the power supply terminal and the power supply line of the load terminal to periodically generate a leakage current in the power supply line to test whether the ground fault circuit breaker operates normally. Provide a power supply reverse connection circuit of an earth leakage breaker using a test circuit,

A contact part connected to a power supply line of the power supply terminal to apply power to a load terminal, and including an overcurrent protection device for protection according to generation of overcurrent; An image current transformer installed in a power supply line between the contact part and the load terminal to detect a current difference in the power supply line and output the detected current difference to the electronic circuit part; A detection module connected to a power supply line of the power supply terminal and a power supply line of the load terminal and receiving power, determining whether a leakage current is generated by using a current difference input from the image current transformer, and generating a detection signal; An electronic circuit unit including a driving module which cuts power by driving a contact of a power supply line according to a detection signal of the detection module; And a test circuit unit connected to the power supply line of the power supply terminal and the power supply line of the load terminal to periodically generate a leakage current in the power supply line to test whether the ground fault circuit breaker operates normally. It is achieved by providing a power supply reverse connection circuit of an earth leakage breaker using a test circuit.

As described above, the power reverse connection circuit of the earth leakage breaker using the test circuit of the present invention not only easily controls the power reverse connection of the earth leakage breaker by simply changing the test circuit. It is effective to test whether the earth leakage breaker works normally,

Another effect is to significantly reduce the manufacturing cost of the earth leakage breaker by reducing the high cost caused by using the micro switch.

Hereinafter, the configuration and operation principle of the power reverse connection circuit using the test circuit will be described in more detail with reference to the drawings.

A characteristic of the present invention is that a control current applied to the electronic circuit unit 20 and the test circuit unit 60 is directly applied from the power supply line of the power supply terminal and the power supply line of the load terminal, and an image current transformer (ZCT) for detecting a current difference. 70 is connected to the power supply line (H, N) and the power supply line (ie, the power supply line (H) connected to the power supply line (H) of the power supply terminal or load terminal) applied to the test circuit unit (60). The current difference flowing through the connected power supply line) is characterized in that it is output to the electronic circuit unit 20.

5 is a diagram illustrating a power reverse connection circuit using a test circuit according to an exemplary embodiment of the present invention. 8 is a view showing a power reverse connection circuit using a test circuit according to an embodiment of the present invention. Looking at the configuration and operation principle of the present invention with reference to Figure 5 and 8,

According to the present invention, the power supply terminal 10, the electronic circuit unit 20, the load terminal 30, the contact unit 40, the overcurrent protection device 50, the test circuit unit 60, the image transformer 70, and the driving module 80 are provided. And a power supply line (power line H, neutral line N).

First, referring to FIG. 5, each configuration according to an exemplary embodiment will be described in detail.

The contact portion 40 is connected to a power supply line (power line (H), neutral line (N)) of the power supply terminal to apply power to the load terminal 30, and an overcurrent protection device for protection according to the generation of overcurrent ( 50).

The current transformer ZCT 70 is installed in a power supply line (power line H, neutral line N) between the power supply terminal 10 and the contact portion 40 and is applied to the contact portion 40. The current difference and the current difference applied to the test circuit unit 60 from the power supply line (H) of the power supply terminal is sensed to output the detected leakage current to the electronic circuit unit (20).

The electronic circuit unit 20 is directly connected to the power supply line 10 and the power supply line (H) of the power supply line and the load end 30 is directly connected to the neutral line (N) of the power supply line, or As shown in FIG. 8, the image current transformer 70 is directly connected to the neutral line N of the power supply line of the power stage and directly connected to the power line H of the power supply line of the load terminal. It is determined whether a leakage current is generated by using a current difference input from the detection module. When it is determined that a leakage current has occurred, a detection module (not shown) for generating a detection signal and power supply according to the detection signal generated by the detection module are provided. It further comprises a drive module 80 for cutting the power by driving the contact portion 40 of the line.

The test circuit unit 60 is directly connected to the power line (H) of the power supply line of the power stage and directly connected to the neutral line (N) of the power supply line of the load stage, or as shown in FIG. Directly connected to the neutral line (N) of the power supply line of the power supply, and directly to the power line (H) of the power supply line of the load stage generates periodic leakage current in the power supply lines (H, N) according to the administrator's choice Test the earth leakage breaker for normal operation.

Looking at the principle of operation using the configuration as described above,

The control power applied to the circuit circuit 20 is directly connected to the power line H of the power stage and the neutral line N of the load stage, while the power is supplied to the power stage 10. When a short circuit occurs in the supply line (power line (H), neutral line (N)), the image current transformer (ZCT, 70) detects this and outputs it to the electronic circuit unit 20, the circuit unit (Circuit ass'y, 20) operates the drive module (E-Mag, 80), and in conjunction with this, the contact unit (Contactor, 40) is turned off and the control power is cut off to perform a normal operation,

In addition, when power is supplied to the load stage 30, the contact unit 40 is turned off as described above, so that the control power is directly connected to the power line H of the power stage and the neutral line N of the load stage. Therefore, even if the test circuit is pressed continuously, there is no damage of the resistance, and the driving module (E-Mag, 80) and the electronic circuit part (Circuit ass'y, 20) are burned out, which causes the leakage protection function to be lost or printed on the PCB board. The circuit unit 20 (Circuit ass'y, 20) is not damaged.

In addition, referring to the test operation principle for testing the normal operation of the ground fault breaker using the above configuration, when the test switch is pressed, a part of the current flowing in the power line H of the power supply line directly connected to the test circuit unit 60 is shown. The current flows through the test circuit unit 60 to the neutral line (N) without passing through the load stage 30, so that the amount of current flowing through the power line (H) and the neutral line (N) is different, and the image current transformer (70) The circuit is detected and output to the circuit unit (Circuit ass'y, 20), the electronic circuit unit (Circuit ass'y, 20) operates the drive module (E-Mag, 80) and the contact unit (Contactor, 40) is linked to this The control power is turned off so that normal operation can be confirmed.

That is, directly connect the power line (H) of the power supply line of the power stage with the electronic circuit unit 20, and also directly connect the power line (H) of the power supply line of the power stage with the test circuit unit 60 and load By connecting directly to the neutral line (N) of the power supply line of not only enables the power reverse connection of the earth leakage breaker, but also the test of the earth leakage breaker is convenient.

Of course, the present invention is not limited thereto, and the neutral line N of the power supply line of the power supply terminal is directly connected to the electronic circuit unit 20, and the neutral line N of the power supply line of the power supply terminal is connected to the test circuit unit ( It is apparent to those skilled in the art that a direct connection with the 60) and a direct connection to the power line (H) of the power supply line of the load end.

Hereinafter, a configuration of another preferred power reverse connection circuit that meets the object of the present invention will be described. 6 is a diagram illustrating a power reverse connection circuit using a test circuit according to another exemplary embodiment of the present invention. Looking at the configuration and operation principle of the present invention with reference to Figure 6 and 8,

According to the present invention, the power supply terminal 10, the electronic circuit unit 20, the load terminal 30, the contact unit 40, the overcurrent protection device 50, the test circuit unit 60, the image transformer 70, and the driving module 80 are provided. And a power supply line (power line H, neutral line N).

First, referring to FIG. 6, each configuration according to a preferred embodiment will be described in detail.

The contact portion 40 is connected to a power supply line (power line (H), neutral line (N)) of the power supply terminal to apply power to the load terminal 30, and an overcurrent protection device for protection according to the overcurrent generation It consists of 50.

The current transformer ZCT 70 is installed in a power supply line (power line H and neutral line N) between the load end 30 and the contact portion 40 to supply power to the load end 30. The current difference of the line and the current difference applied to the test circuit unit 60 from the neutral line N of the load terminal is sensed, and the detected leakage current is output to the electronic circuit unit 20.

The electronic circuit unit 20 is directly connected to the power supply line 10 and the power supply line (H) of the power supply line, and the load end 30 is directly connected to the neutral line (N) of the power supply line to control power. A detection module (not shown) that is applied and determines whether a leakage current is generated using a current difference input from the image current transformer 70 and generates a detection signal when it is determined that a leakage current has occurred, and the detection module It further comprises a driving module 80 for cutting off the power by driving the contact portion 40 of the power supply line in accordance with the detection signal generated by the.

The test circuit unit 60 is connected to the power line (H) of the power supply line of the power terminal connected to the electronic circuit unit 20, and directly connected to the neutral line (N) of the power supply line of the load terminal, According to the selection, the leakage current breaker is periodically tested on the power supply lines (H, N) to test whether the earth leakage breaker operates normally.

Looking at the principle of operation using the configuration as described above,

The control power applied to the electronic circuit unit (Circuit ass'y) 20 is directly connected to the power line (H) of the power stage and the neutral line (N) of the load stage, and the power is supplied to the power stage (10). When a short circuit occurs in the power supply line (power line (H), neutral line (N)), the image current transformer (ZCT, 70) detects this and outputs it to the electronic circuit unit 20, and the circuit unit (Circuit ass'y, 20) operates the drive module (E-Mag, 80), and in conjunction with this, the contact unit (Contactor, 40) is turned off and the control power is cut off to perform a normal operation,

In addition, when power is supplied to the load stage 30, the contact unit 40 is turned off as described above, so that the control power is directly connected to the power line H of the power stage and the neutral line N of the load stage. Therefore, even if the test circuit is pressed continuously, there is no damage of the resistance, and the driving module (E-Mag, 80) and the electronic circuit part (Circuit ass'y, 20) are burned out, which causes the leakage protection function to be lost or printed on the PCB board. The circuit unit 20 (Circuit ass'y, 20) is not damaged.

In addition, referring to the test operation principle for testing the normal operation of the ground fault breaker using the above configuration, when the test switch is pressed, a part of the current flowing in the power line H of the power supply line directly connected to the test circuit unit 60 is shown. The current flows through the test circuit unit 60 to the neutral line (N) without passing through the load stage 30, so that the amount of current flowing through the power line (H) and the neutral line (N) is different, and the image current transformer (70) The circuit is detected and output to the circuit unit (Circuit ass'y, 20), the electronic circuit unit (Circuit ass'y, 20) operates the drive module (E-Mag, 80) and the contact unit (Contactor, 40) is linked to this The control power is turned off so that normal operation can be confirmed.

That is, the power line H of the power supply line of the power stage is directly connected to the electronic circuit unit 20, the power line H is directly connected to the test circuit unit 60, and the test circuit unit 60 is the load end. By directly connecting to the neutral line (N) of the power supply line of not only enables the power reverse connection of the earth leakage breaker, but also the test of the earth leakage breaker is convenient.

Of course, the present invention is not limited thereto, and as shown in FIG. 8, the control power is applied from the neutral line N of the power supply line of the power stage and the power line H of the power supply line of the load stage. It will be apparent to those skilled in the art that this can be done.

Hereinafter, another preferred power reverse connection circuit according to the object of the present invention will be described. 7 is a view showing a power supply reverse connection circuit using a test circuit according to another preferred embodiment of the present invention. Looking at the configuration and operation principle of the present invention with reference to Figure 7 and 8,

According to the present invention, the power supply terminal 10, the electronic circuit unit 20, the load terminal 30, the contact unit 40, the overcurrent protection device 50, the test circuit unit 60, the image transformer 70, and the driving module 80 are provided. And a power supply line (power line H, neutral line N).

First, referring to FIG. 7, each component according to a preferred embodiment will be described in detail.

The contact portion 40 is connected to a power supply line (power line (H), neutral line (N)) of the power supply terminal to apply power to the load terminal 30, and an overcurrent protection device for protection according to the generation of overcurrent ( 50).

The current transformer ZCT 70 is installed in a power supply line (power line H and neutral line N) between the load end 30 and the contact portion 40 to supply power to the load end 30. The current difference of the line is sensed and the detected leakage current is output to the electronic circuit unit 20.

The electronic circuit unit 20 is directly connected to the power supply line 10 and the power supply line (H) of the power supply line, and the load end 30 is directly connected to the neutral line (N) of the power supply line to control power. A detection module (not shown) that is applied and determines whether a leakage current is generated using a current difference input from the image current transformer 70 and generates a detection signal when it is determined that a leakage current has occurred, and the detection module It further comprises a driving module 80 for cutting off the power by driving the contact portion 40 of the power supply line in accordance with the detection signal generated by the.

The test circuit unit 60 is directly connected to the power line (H) of the power supply line of the power terminal connected to the electronic circuit unit 20, and also the neutral line (N) and the electronic circuit unit 20 of the power supply line of the load terminal It is directly connected to the power supply line connected with) and generates a leakage current in the power supply lines (H, N) according to the administrator's choice to test the earth leakage breaker for normal operation.

Looking at the principle of operation using the configuration as described above,

The control power applied to the circuit circuit 20 is directly connected to the power line H of the power stage and the neutral line N of the load stage, while the power is supplied to the power stage 10. When a short circuit occurs in the supply line (power line (H), neutral line (N)), the image current transformer (ZCT, 70) detects it and outputs it to the electronic circuit unit 20, and the circuit unit (Circuit ass'y, 20). ) Operates the drive module (E-Mag, 80), and in conjunction with this, the contact unit (Contactor, 40) is turned off and the control power is cut off, thereby performing a normal operation.

In addition, when power is supplied to the load stage 30, the contact unit 40 is turned off as described above, so that the control power is directly connected to the power line H of the power stage and the neutral line N of the load stage. Therefore, even if the test circuit is pressed continuously, there is no loss of resistance, and the driving module (E-Mag, 80) and the electronic circuit part (Circuit ass'y, 20) are burned out, which results in loss of leakage protection or damage to the PCB. The printed circuit unit (Circuit ass'y) 20 will not be damaged.

In addition, referring to the test operation principle for testing the normal operation of the ground fault breaker using the above configuration, when the test switch is pressed, a part of the current flowing in the power line H of the power supply line directly connected to the test circuit unit 60 is shown. The current flows to the neutral line (N) through the test circuit unit 60 without passing through the load terminal 30 so that the amount of current flowing to the power line (H) and the neutral line (N) connected to the overcurrent protection device 50 is changed. Then, the image current transformer 70 detects this and outputs it to the electronic circuit unit (Circuit ass'y, 20), and the electronic circuit unit (Circuit ass'y, 20) operates the driving module (E-Mag, 80). The interlocking contact (Contactor, 40) is off and the control power is cut off, so it is possible to check whether the normal operation.

That is, the power line H of the power supply line of the power stage is directly connected to the electronic circuit unit 20, the power line H is directly connected to the test circuit unit 60, and the test circuit unit 60 is the load end. By connecting directly with the power supply line that connects the neutral line (N) and the electronic circuit unit 20 of the power supply line of the not only enables the power reverse connection of the earth leakage breaker, but also facilitates the test of the earth leakage breaker,

Of course, the present invention is not limited thereto, and as shown in FIG. 8, the control power is applied from the neutral line N of the power supply line of the power stage and the power line H of the power supply line of the load stage. It will be apparent to those skilled in the art that this can be done.

Although one preferred embodiment of the present invention has been described above, it is clear that the present invention may use various changes, modifications, and equivalents, and may be applied in the same manner by appropriately modifying the embodiment. Accordingly, the above description is defined by the limits of the following claims and does not limit the scope of the invention.

1 is a diagram illustrating a connection diagram of an earth leakage breaker including a conventional test circuit.

2 is a diagram illustrating another connection diagram of an earth leakage breaker including a conventional test circuit.

3 is a view showing a connection diagram of a reverse connection type earth leakage breaker including a conventional test circuit.

4 is a diagram illustrating another connection diagram of a reverse connection type earth leakage breaker including a conventional test circuit.

5 is a diagram illustrating a power reverse connection circuit using a test circuit according to an exemplary embodiment of the present invention.

6 is a diagram illustrating a power reverse connection circuit using a test circuit according to another exemplary embodiment of the present invention.

7 is a view showing a power supply reverse connection circuit using a test circuit according to another preferred embodiment of the present invention.

8 is a view showing a power reverse connection circuit using a test circuit according to an embodiment of the present invention.

*** Explanation of symbols for main parts of drawing ***

10: power source 20: electronic circuit unit

30: load 40: contactor

50: trip element 60: test circuit

70: current transformer (ZCT) 80: drive module (E-Mag)

90: Micro switch

Claims (6)

In the earth leakage breaker which is connected to the power supply line (power line, neutral line) between the power stage and the load stage and includes a test circuit unit, A contact part connected to a power supply line of the power supply terminal to apply power to a load terminal, and including an overcurrent protection device for protection according to generation of overcurrent; An image current transformer installed in the power supply line to detect a current difference in the power supply line and output the detected current difference to the electronic circuit unit; One end is connected to the power supply line between the power supply terminal and the contact portion, and the other end is connected to the power supply line of the load terminal to receive power, and determine and detect a leakage current by using a current difference input from the image current transformer. An electronic circuit unit including a detection module for generating a signal and a driving module for cutting off power by driving a contact unit of a power supply line according to the detection signal of the detection module; And A test circuit unit receiving power from the power supply line between the power supply terminal and the contact unit and a power supply line of the load terminal, and periodically generating a leakage current in the power supply line to test whether the earth leakage breaker operates normally; A power supply reverse connection circuit of an earth leakage breaker using a test circuit, characterized in that consisting of. The method of claim 1, wherein the electronic circuit unit, One end is connected to the power line between the power supply terminal and the contact portion, the other end is connected to the neutral line of the load end, or one end is connected to the neutral line between the power supply end and the contact portion, and the other end is connected to the power line of the load end Power reverse connection circuit of earth leakage breaker using test circuit. The method of claim 1, wherein the test circuit unit, One end is connected to the power line between the power supply terminal and the contact portion and the other end is connected to the neutral line of the load end, or one end is connected to the neutral line between the power supply end and the contact portion, and the other end is connected to the power line of the load end Power reverse connection circuit of earth leakage breaker using test circuit. The method of claim 1, wherein the test circuit unit, One end is connected to the power line between the power supply terminal and the contact portion, and the other end is connected to the line of the electronic circuit portion connected to the neutral line of the load end, or one end is connected to the neutral line between the power supply end and the contact portion, and the other end is the power supply of the load end. A power reverse connection circuit of an earth leakage breaker using a test circuit, characterized in that connected to the line of the electronic circuit portion connected to the line. The method of claim 1, wherein the test circuit unit, One end is connected to the line of the electronic circuit that is connected to the power line between the power supply terminal and the contact portion, and the other end is connected to the line of the electronic circuit portion connected to the neutral line of the load terminal, or one end is connected to the neutral line between the power supply terminal and the contact portion. The power circuit reverse connection circuit of the earth leakage breaker using the test circuit, characterized in that connected to the line of the electronic circuit unit and the other end is connected to the line of the electronic circuit unit connected to the power line of the load end. delete

Images