KR20100079915A - Rccb and mathod for setting sensitivity current - Google Patents

Abstract

PURPOSE: A RCCB(Residual Current Operated Circuit Breaker) and a sensitivity current setting method thereof are provided to set a sensitivity current by increasing or reducing the number of a secondary side coil of a zero current transformer. CONSTITUTION: A zero current transformer(200) detects the leakage current of an input power source(100). A trip unit(300) is connected to the zero current transformer. The trip unit closes and opens the connection of the line of the input power source according to the leakage current of the input power source. A switching unit(400) sets a sensitivity current according to a first current flowing in the line of the input power source. The switching unit is connected between the secondary side of the zero current transformer and the trip unit. The switching unit connects the zero current transformer and the trip unit by setting one among a plurality of tabs according to the size of a first current.

Description

Earth leakage breaker without overcurrent protection device and its sensitivity current setting method {RCCB AND MATHOD FOR SETTING SENSITIVITY CURRENT}

The present invention relates to an earth leakage circuit breaker without an overcurrent protection device and a method for setting the sensitivity current thereof so that the sensitivity current can be set within a range in which the image current transformer is not saturated.

In general, an earth leakage breaker is used to prevent a fire or electric shock by opening the line when an electric leakage caused by insulation deterioration of a line or a device connected to the line and an electric leakage current caused by human contact with a load live part flows over a certain size. It is obliged to be installed on the wiring line installed in the factory, factory, etc.

In particular, a ground fault breaker such as a residual current operated circuit breaker (RCCB) without an overcurrent protection device is different from an electronic current breaker that operates using a chip for detecting a short circuit. The secondary winding of the earth leakage breaker has a structure that is directly connected to the trip coil (Trip Coil). The earth leakage breaker includes a permanent magnet and a yoke in addition to the trip coil.

The earth leakage breaker without the overcurrent protection device flows a current proportional to the amount of leakage current in the secondary side of the current transformer and a trip coil connected thereto when a short circuit occurs, and when a current of a predetermined size or more flows, the input AC power is cut off.

However, a conventional earth leakage breaker without an overcurrent protection device cannot change the leakage current sensitivity of the earth leakage breaker when the number of loads increases or the environment changes, that is, when the setting of the sensitivity current needs to be changed. There was a problem. In addition, in order to change the setting of the sensitivity current as described above, there was a problem that must be replaced with another product.

According to the present invention, an overcurrent protection device capable of setting a sensitivity current by selecting a secondary winding amount of the current transformer in a range in which the current transformer is not saturated and not replacing with another product when a sensitivity current setting change is required is provided. It is an object of the present invention to provide an earth leakage breaker and a method for setting a sensitivity current thereof.

An earth leakage circuit breaker without an overcurrent protection device according to the present invention for achieving the above object is an image current transformer for detecting a leakage current of an input power source, a trip connected to the image current transformer and tripping the connection of the line in accordance with the leakage current. And a switching unit for switching in accordance with the primary current flowing on the line of the input power to set the sensitivity current.

According to an aspect of the present invention, there is provided a method of setting a sensitivity current of an earth leakage breaker without an overcurrent protection device, the method including detecting a primary current flowing on an input power line, and detecting the primary current based on the detected primary current. And changing the number of secondary windings of the current transformer and opening and closing the connection of the input power line based on a leakage current flowing in the secondary winding of the image current transformer.

According to the present invention, it is possible to easily change the leakage current sensitivity of the earth leakage breaker without the overcurrent protection device regardless of the fluctuation of the current flowing on the line of the input power source.

In addition, when the setting of the sensitivity current needs to be changed, this can be easily performed so that the circuit breaker itself is not replaced with another product, thereby reducing costs and improving user convenience.

Hereinafter, an earth leakage circuit breaker without an overcurrent protection device and a sensitivity current setting method thereof according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a block diagram schematically illustrating a configuration of an earth leakage breaker without an overcurrent protection device according to the present invention. Referring to FIG. 2, the earth leakage breaker without an overcurrent protection device according to the present invention is a leakage of the input power supply 100. An image current transformer 200 for detecting current, a trip unit 300 connected to the image current transformer, opening and closing the connection of the line according to the leakage current, and a primary current flowing on the input power line And a switching unit 400 that is switched to set the sensitivity current. A control unit (not shown) for driving the switching unit 400 based on the primary current may be further included, but the function may be provided in the switching unit 400.

The image current transformer 200 is a device that detects and currents a current of a zero state flowing through the input power source 100 and detects a leakage current of the input power source. In this case, both the single phase and three phases may be used as the input power source 100.

The earth leakage breaker without the general overcurrent protection device is directly connected to the trip coil in the image current transformer to detect the leakage current. Referring to FIG. 1, when the current flowing on the line of the input power supply is I1 and the number of secondary windings of the image current transformer is N2, the current I2 induced from the secondary winding of the image current transformer to the trip coil is I1 / N2. It can be represented as. That is, in FIG. 1, when the load 40 is short-circuited and the current I1 flows through the line of the input power supply, the current I2 as much as I1 / N2 flows in the secondary coil of the image current transformer. However, if the impedance of the load 40 is A, this impedance A causes the current I2 as much as I1 / AN2 to flow in the secondary winding of the image current transformer.

Referring to FIG. 3, the current flowing on the line of the input power supply 100 is referred to as I1, and the number of secondary windings of the image current transformer 200 is referred to as N2 as in FIG. 1. At this time, when the current (hereinafter, referred to as 'primary current') I1 flowing on the line of the input power source fluctuates, the current I2 flowing on the line connected to the secondary side of the current transformer 200 is changed.

On the other hand, the trip unit 300, the mechanism unit 360 for opening and closing the connection of the line, the trip lever 350 is connected to the mechanism unit 360, and operates the mechanism unit 360 in accordance with the trip signal and A trip coil 310 connected to the image current transformer 200 to generate the trip signal based on the leakage current and the sensitivity current, a permanent magnet 330 forming a magnetic path, and the permanent magnet 330. ) And a trip coil yoke 320 for forming a magnetic path by the permanent magnet 330. Since the description of the trip unit 300 is well known, a detailed description thereof will be omitted.

In the earth leakage breaker without an overcurrent protection device according to the present invention, the switching unit 400 is composed of a plurality of taps, the image current transformer 200 by setting one of the plurality of taps according to the magnitude of the primary current. ) And the trip unit 300. A control unit (not shown) for driving to select a tap of the switching unit 400 based on the primary current may be further included, but the function may be provided in the switching unit 400. Here, the plurality of taps are connected to the second winding number of the respective video current transformers.

3, the switching unit 400 is composed of a plurality of taps (N0 ~ N3), by selecting the secondary winding of the image current transformer 200, the sensitivity current according to the magnitude of the primary current Can be set differently. 3, only the secondary windings of the three image current transformers are selectable, but it is easy to change them to select more secondary windings. That is, the secondary winding of the image current transformer 200 winds the winding corresponding to the maximum sensitivity current, taps the number of turns corresponding to the following sensitivity current, connects the lead wires to the tab portion, and connects each lead wire to the switch. If necessary, the sensitivity can be easily switched. For example, in FIG. 3, the number of windings N1 is set to 0.1 A, N2 to 0.3 A, and N3 to 0.5 A In spite of the variation of the difference current, the leakage current flowing in the secondary line is made constant so that it can be clearly seen when a short circuit occurs.

Here, the switching unit 400 is connected between the secondary winding 210 of the image current transformer 200 and the trip unit 300.

Referring to FIG. 4, when the current I1 flowing on the line 100 of the input power is changed by A and B times, the current I2 flowing in the secondary winding 210 of the image current transformer 200 (= I1 / N1) Will flow by AI1 / N2 and BI1 / N3 respectively. That is, I2 can always flow through the secondary winding 210 of the image transformer 200 by fixing and using the sensitivity switching tap at a desired position according to the amount of the primary current I1 of the image transformer 200 flowing. .

The earth leakage breaker (RCCB) without the overcurrent protection device according to the present invention can obtain a sensitivity current by increasing or decreasing the number of secondary windings 210 of the image current transformer 200 according to the sensitivity current. Here, the sensitivity current means a value of a leakage current that causes the RCCB to operate under prescribed conditions, wherein the leakage current is a vector sum of instantaneous currents flowing through a main circuit of the RCCB, and the main circuit is connected to a current path. It shows all the electroconductive parts of RCCB contained. That is, the value when the leakage current detected by the image current transformer 200 acts as a leakage current is a sensitivity current, which is one reference current value. At this time, the standard specification defines the standard value of the sensitivity current, which is called the rated sensitivity current, and is 0.006A, 0.01A, 0.03A, 0.1A, 0.3A, 0.5A. According to the present invention, the number of secondary windings of the image current transformer 200 may be changed according to the rated sensitivity current based on the primary current flowing in the line of the input power source.

Sensitivity current setting method of the earth leakage breaker without the overcurrent protection device according to the present invention, with reference to Figure 5, detecting the primary current flowing on the input power line (S100) and based on the detected primary current And changing the number of secondary windings of the image current transformer (S200), and opening and closing the connection of the input power line based on the leakage current flowing in the secondary winding of the image current transformer (S300). Hereinafter, the configuration of the apparatus will be described with reference to FIGS. 1 to 4.

Detecting the primary current flowing on the input power line (S100) is connected to the primary winding of the image current transformer 200 to detect the leakage current flowing on the line of the input power through the image current transformer 200. Detect the flowing current.

The step S200 of changing the number of secondary windings of the image current transformer based on the detected primary current may be performed to the secondary windings 210 of the image current transformer 200 even when the detected primary current changes. The secondary winding number of the image current transformer is changed so that the flowing current is the same. Here, in step S200 of changing the number of secondary windings of the image current transformer, a sensitivity current is set according to the changed number of secondary windings. Referring to FIG. 4, when the current I1 flowing on the line 100 of the input power is changed by A and B times, the current I2 flowing in the secondary winding 210 of the image current transformer 200 (= I1 / N1) Will flow by AI1 / N2 and BI1 / N3 respectively. That is, by using the sensitivity switching tap fixed to a desired position according to the amount of the primary current I1 flowing in the image current transformer 200, the secondary winding 210 of the image current transformer 200 may always flow I2. .

The step S200 of changing the number of secondary windings of the image current transformer may be performed by connecting one of a plurality of taps connected according to the number of secondary windings of the image current transformer.

Opening and closing the connection of the input power line on the basis of the leakage current flowing in the secondary winding of the image current transformer (S300) is a change in the leakage current flowing in the secondary winding and the number of secondary windings in the step (S200) In accordance with the comparison of the sensitivity current is set constant according to the operation of the trip unit 300 to open and close the connection of the input power line. Here, the step of opening and closing the connection of the line (S300), the step of comparing the sensitivity current and the leakage current (S310), and as a result of the comparison, if the leakage current is more than the sensitivity current to open the line Step S320 and, as a result of the comparison, if the leakage current is less than the sensitivity current, maintaining the line as it is (S330).

In the case of a general electrical leakage circuit breaker, a sensitivity current may be set by inserting a burden resistor into the secondary winding 210 of the image current transformer 200 and adjusting a resistance value of the burden resistor. However, as in the present invention, in an earth leakage breaker without an overcurrent protection device, the saturation characteristic of the core of the current transformer 200 has a close relationship with the impedance of the trip coil 310 connected to the secondary side. Therefore, when the burden resistor is inserted into the secondary side of the image transformer 200, the core of the image transformer 200 may be saturated or the current may flow less in the trip coil 310 so that the trip unit may not operate.

On the other hand, as described above, the earth leakage breaker (RCCB) without the overcurrent protection device according to the present invention and the earth leakage breaker without the overcurrent protection device irrespective of the variation of the current flowing on the line of the input power according to the sensitivity current setting method thereof Sensitivity of leakage current can be easily changed, and if the sensitivity current setting needs to be changed, this is easily done so that the circuit breaker itself is not replaced with another product, thereby reducing cost and improving user convenience.

1 is a schematic circuit diagram of an equivalent circuit for the configuration of a ground fault circuit breaker without a general overcurrent protection device;

2 is a block diagram schematically showing the configuration of an earth leakage breaker without an overcurrent protection device according to the present invention;

3 is a block diagram schematically illustrating an example of FIG. 2;

4 is a circuit diagram schematically showing the equivalent circuit of FIG.

5 is a flowchart illustrating a method of setting a sensitivity current of an earth leakage breaker without an overcurrent protection device according to the present invention.

Claims (9)

An image current transformer for detecting a leakage current of an input power source; A trip unit connected to the image current transformer and opening and closing the connection of the line according to the leakage current; And And a switching unit which is switched in accordance with the primary current flowing on the line of the input power to set the sensitivity current. The method of claim 1, wherein the switching unit, And an earth leakage circuit breaker without an overcurrent protection device, which is connected between the secondary winding of the image current transformer and the trip unit. The method of claim 1, wherein the switching unit, And a plurality of taps, wherein one of the plurality of taps is set according to the magnitude of the primary current to connect the image current transformer and the trip unit. The method of claim 3, wherein the plurality of tabs, An earth leakage breaker without overcurrent protection, characterized in that it is connected to the secondary windings of different image current transformers. The method of claim 1, wherein the trip unit, Mechanism unit for opening and closing the connection of the line; A trip lever connected to the mechanism part and operating the mechanism part according to a trip signal; A trip coil connected to the image current transformer and generating the trip signal based on the leakage current and the sensitivity current; Permanent magnet to form a path; And And a trip coil yoke connected to the permanent magnets to form a magnetic path by the permanent magnets. Detecting a primary current flowing on the input power line; Changing the number of secondary windings of the image current transformer based on the detected primary current; And Opening and closing the connection of the input power line based on the leakage current flowing in the secondary winding of the image current transformer; Method for setting the sensitivity current of the earth leakage breaker without an overcurrent protection device comprising a. The method of claim 6, wherein the changing of the number of secondary windings of the image current transformer comprises: And a sensitivity current is set according to the changed number of secondary windings. The method of claim 7, wherein opening and closing the connection of the line, Comparing the sensitivity current with the leakage current; And If the leakage current is greater than or equal to the sensitivity current, opening the line; and a sensitivity current setting method of an earth leakage breaker without an overcurrent protection device comprising a. The method of claim 6, wherein the changing of the number of secondary windings of the image current transformer comprises: The sensitivity current setting method of the earth leakage breaker without an overcurrent protection device, characterized in that made by connecting one of a plurality of taps connected according to the number of secondary windings of the image current transformer.

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