KR101915485B1 - Grounded type Apparatus for protecting an electric leakage - Google Patents

Abstract

A grounded type apparatus for protecting electric leakage is disclosed. The grounded type apparatus for protecting electric leakage according to the present invention includes: an input terminal unit; an output terminal unit; a terminal polarity fixing unit disposed between the input terminal unit and the output terminal unit; a connection terminal unit; and an electric leakage preventing conductor unit. Thereby, since input terminals are directly connected to output terminals, the voltage and current capacity of a power line are not limited by the capacity of a switching unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a grounded-

The present invention relates to a grounding type electric leakage preventing device, and more particularly, to a leakage type electric leakage preventing device which is capable of reducing the leakage current flowing between the terminals when the exposed terminals of the electric device are submerged, And an earth leakage preventing device for reducing electric electromagnetic waves generated from the outside.

Generally, when an electric device or an electric device such as a street lamp is submerged in water during the supply of electricity due to a cause such as rainy season heavy rainfall, an electric shock may occur due to a leakage current flowing to a human body in contact with water .

In order to solve such a problem, there have been developed technologies such as Korean Registered Patent No. 10-1197414 or Korean Patent Laid-open No. 10-2016-0082435, but these techniques have been made such that the input terminals are connected to the output terminals through the switching portion, The voltage and current capacity of the power line are limited by the capacity of the switching unit, and energy loss and heat may be generated depending on the resistance value of the switching unit.

Thus, since the input terminals are directly connected to the output terminals, the voltage and current capacities of the power lines are not limited by the capacity of the switching unit, and the voltage and current capacities of the power input load can be applied equally to the output terminals provided with the output terminals A search for a room is required.

Korean Patent No. 10-1197414 (Title of Invention: Leakage Prevention Device in Inundation) Korean Patent Publication No. 10-2016-0082435 (entitled "

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an electric apparatus and a method of controlling the same, which are capable of reducing leakage current flowing between the terminals, Type leakage preventing device that ensures normal operation and reduces the amount of electric electromagnetic waves generated from the outside and reduces exposure of the internal circuit of the electric device by electric electromagnetic waves generated from the outside.

Another object of the present invention is to provide a power supply apparatus and a power supply apparatus in which the input terminals are directly connected to the output terminals so that the voltage and current capacity of the power line are not limited by the capacity of the switching unit, Type earth leakage preventive device that can be equally applied to an output terminal portion.

According to an aspect of the present invention, there is provided an earth leakage preventing system comprising: an input terminal unit including a first input terminal and a second input terminal; An output terminal portion including a first output terminal, a second output terminal, and a neutral point output terminal; The first input terminal and the second input terminal are electrically connected to the first output terminal and the second output terminal, respectively, and the first output terminal and the second output terminal are electrically connected to each other, 2 output terminals are electrically connected to the phase voltage terminal, the terminal polarity fixing unit allowing the neutral output terminal to be electrically connected to the neutral point terminal; A second output terminal, and a neutral terminal electrically connected to the load, wherein the first output terminal, the second output terminal, and the neutral point terminal are electrically isolated from each other while being exposed to the upper surface of the body portion, A connection terminal portion including a first connection terminal, a second connection terminal, and a neutral point connection terminal; And an output terminal of any one of the first output terminal and the second output terminal is electrically connected to the phase voltage terminal and is not electrically connected to a connection terminal electrically connected to the phase voltage terminal, And a leakage preventing conductor portion electrically connected to the neutral point connection terminal connected to the phase voltage terminal and disposed around the connection terminal electrically connected to the phase voltage terminal.

The terminal polarity fixing unit outputs a first control signal when the first input terminal is connected to the phase voltage terminal and outputs a second control signal when the second input terminal is connected to the phase voltage terminal. A switching control unit And the second input terminal is electrically connected to the neutral output terminal when the second control signal is input, and the second input terminal is electrically connected to the neutral output terminal when the first control signal is input And a switching unit.

The switching unit may include a relay coil which is in an excited state when a current flows through the switching unit and a non-excited state when no current flows; And a relay switching terminal for allowing the second input terminal to be electrically connected to the neutral output terminal in the excited state and the first input terminal to be electrically connected to the neutral output terminal in the non-excited state .

The terminal polarity fixing unit may further include a power connection unit for electrically connecting the first input terminal, the second input terminal, the first output terminal, and the second output terminal, respectively, without going through the switching unit .

The power connection unit may include: a first lead to electrically connect the first input terminal and the first output terminal; A first insulator formed to surround the outer surface of the first conductor and having a predetermined thickness; A second conductor formed to surround an outer surface of the first insulator, the second input terminal being electrically connected to the second output terminal; And a second insulator formed to surround the outer surface of the second conductor and preventing a current flowing in the second conductor from leaking to the outside, Current can flow through the relay coil only when it is connected to the terminal.

The terminal polarity fixing unit may further include an SMPS unit converting an AC voltage inputted through the first input terminal and the second input terminal into a DC voltage required for operation of the switching controller, When the first input terminal is connected to the phase voltage terminal, the direct current voltage is supplied from the SMPS unit, thereby allowing current to flow through the relay coil.

The leakage preventing conductor portion may include a vertical conductor portion passing through the body portion downward from the neutral point connection terminal, and a vertical conductor portion bent in the horizontal direction at the end of the vertical conductor portion and extending outwardly from the bottom of the body portion, And a bottom side conductor member bent in the upward direction from an end of the bottom conductor body and extending to a height not lower than an upper surface of the connection terminal block while facing the side surface of the body portion.

In addition, the side view body portion may be formed so as to bend upward from the end of the bottom conductive body portion to face the side surface of the body portion, while surrounding the first connection terminal and the second connection terminal, .

Thus, when the exposed terminals of the electric device are flooded, the leakage current flowing between the terminals is reduced to prevent the electric shock, while ensuring the normal operation of the electric device, reducing the electric electromagnetic waves generated from the outside, And the exposure of the internal circuit of the electric device by the generated electric electromagnetic wave can be reduced.

In addition, since the input terminals are directly connected to the output terminals, the voltage and current capacities of the power lines are not limited by the capacity of the switching unit, and the voltage and current capacities of the power input load are applied equally to the output terminals provided with the output terminals. can do.

FIG. 1 is a view for explaining a configuration of a ground-type electric leakage prevention device according to an embodiment of the present invention.
FIG. 2 is a view for explaining the construction of a grounding type electric leakage prevention device according to an embodiment of the present invention in more detail.
FIG. 3 is a view for explaining the connection structure and operation characteristics of the grounding type electric leakage preventing apparatus according to an embodiment of the present invention in more detail.
4 is a diagram illustrating a power connection according to an exemplary embodiment of the present invention.
5 is a perspective view of the connection terminal portion and the leakage preventing conductor portion in order to explain the connection terminal portion and the leakage preventing conductor portion according to an embodiment of the present invention in more detail.
6 is a cross-sectional view of a connection terminal portion and an electric leakage preventing conductor portion for explaining the connection terminal portion and the electric leakage preventing conductor portion according to an embodiment of the present invention in more detail.

Hereinafter, the present invention will be described in detail with reference to the drawings. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to be illustrative of the present invention and are not to be construed as limiting the present invention. But may be embodied in other forms.

FIG. 1 is a view for explaining a configuration of a ground-type earth-leakage preventing device according to an embodiment of the present invention, FIG. 2 illustrates a configuration of a ground-type earth leakage preventing device according to an embodiment of the present invention in more detail FIG. 3 is a view for explaining the connection structure and operation characteristics of the grounding type earth leakage preventing device according to the embodiment of the present invention in more detail. FIG. 4 is a cross- The power connection according to the example is illustrated in more detail. Hereinafter, the configuration of a grounding type electric leakage preventing apparatus according to the present embodiment will be described with reference to FIG. 1 to FIG.

When the exposed terminals of the electric apparatus are submerged, leakage current flowing between the terminals is reduced to prevent electric shock while ensuring normal operation of the electric apparatus. And the input terminals are directly connected to the output terminals, so that the voltage and current capacity of the power line is reduced by the switching unit 210 And the voltage and current capacity of the power input load are also applied to the output terminal unit 300 in which the output terminals are provided.

The earth leakage preventive device of the present invention may be constituted by an input terminal portion 100, a terminal polarity fixing portion 200, an output terminal portion 300, a connection terminal portion 400 and an electric leakage preventing conductor portion 500.

The input terminal unit 100 includes a first input terminal 110 electrically connected to one of a phase voltage terminal and a neutral point terminal, another terminal electrically connected to the first input terminal 110, A second input terminal 120 connected to the ground terminal, and a ground terminal G electrically connected to the ground terminal.

The terminal polarity fixing unit 200 may be connected to the first input terminal 110 and the second output terminal 320 regardless of whether the output terminal of the first output terminal 310 or the second output terminal 320 is electrically connected to the phase voltage terminal. The second input terminal 120 is electrically connected to the first output terminal 310 and the second output terminal 320 and the neutral point output terminal 330 is electrically connected to the neutral point terminal .

More specifically, the terminal polarity fixing unit 200 is disposed between the input terminal unit 100 and the output terminal unit 300 and includes a first input terminal 110 and a second input terminal 120 and a first output terminal 310 And the second output terminal 320 are electrically connected to each other so that the output terminal of any one of the first output terminal 310 and the second output terminal 320 is electrically connected to the phase voltage terminal, The terminal 330 can be electrically connected to the neutral point terminal.

The terminal polarity fixing unit 200 may include a switching unit 210, a switching control unit 220, an SMPS unit 230, and a power connection unit 240.

The switching unit 210 may be configured such that the neutral point output terminal 330 is electrically connected to the neutral point terminal regardless of whether the output terminal of the first output terminal 310 or the second output terminal 320 is electrically connected to the phase voltage terminal The input terminal not connected to the phase voltage terminal is connected to the neutral point output terminal 330 depending on whether the first input terminal 110 and the second input terminal 120 are connected to the phase voltage terminal can do.

More specifically, when the second control signal is inputted from the switching control unit 220, the switching unit 210 causes the first input terminal 110 to be electrically connected to the neutral point output terminal 330, The second input terminal 120 may be electrically connected to the neutral point output terminal 330.

For this, the switching unit 210 is in an excited state when a current flows therein, and when the current does not flow, the relay coil which is in the non-excited state and the second input terminal 120 in the excited state are connected to the neutral point output terminal 330 And a relay switching terminal for allowing the first input terminal 110 to be electrically connected to the neutral point output terminal 330 in the non-excited state.

The switching control unit 220 controls the connection of the first input terminal 110 and the second input terminal 120 to the phase voltage terminal in order to connect the input terminal not connected to the phase voltage terminal to the neutral point output terminal 330. [ And controls the switching unit 210 according to whether or not the switching unit 210 is turned on.

Specifically, when the first input terminal 110 is connected to the phase voltage terminal, the switching control unit 220 outputs the first control signal. When the second input terminal 120 is connected to the phase voltage terminal, When the input terminal of the first input terminal 110 and the input terminal of the second input terminal 120 are electrically connected to the phase voltage terminal, the switching unit 210 outputs the control signal to the first input terminal 110, An input terminal of the second input terminal 110 or the second input terminal 120, which is not connected to the phase voltage terminal, may be electrically connected to the neutral point output terminal 330.

Here, the switching control unit 220 allows the current to flow to the relay coil only when the first input terminal 110 is connected to the phase voltage terminal. When the first input terminal 110 is connected to the phase voltage terminal, The direct current voltage is supplied from the coil 230 to the relay coil.

The SMPS unit 230 is provided to convert an AC voltage inputted through the first input terminal 110 and the second input terminal 120 into a DC voltage required for the operation of the switching controller 220.

The power connection unit 240 may be configured such that the first input terminal 110 and the second input terminal 120 and the first output terminal 310 and the second output terminal 320 are electrically connected to each other without passing through the switching unit 210. [ Respectively.

In summary, the terminal polarity fixing unit 200 is connected to the first output terminal 310 and the second output terminal 320 through the power connection unit 240, and the first input terminal 110 and the second input terminal 120 are connected to the first output terminal 310 and the second output terminal 320, When the output terminal of any one of the first output terminal 310 and the second output terminal 320 is electrically connected to the phase voltage terminal, And the other output terminal that is not connected may be electrically connected to the neutral point output terminal 330.

Accordingly, the grounding type electric leakage preventing apparatus of the present invention is not limited by the capacity of the switching unit 210, and the voltage and current capacity of the power line are not limited by the output terminal unit 300 The same can be applied.

When the input terminal of the first input terminal 110 and the input terminal of the second input terminal 120 are electrically connected to the phase voltage terminal, the power connection unit 240 generates the power from the input terminal connected to the phase voltage terminal So that the electric field can be shielded.

To this end, the power connection 240 may include a first conductor 241, a second conductor 242, a first insulator 243, and a second insulator 244, as shown in FIG.

The first lead wire 241 is provided to electrically connect the first input terminal 110 and the first output terminal 310.

The first insulator 243 is made of a material having no electricity to prevent the first conductor 241 and the second conductor 242 from being electrically connected to each other and is formed so as to surround the outer surface of the first conductor 241, And the first conductor 241 and the second conductor 242 are spaced apart from each other by a predetermined distance.

The second conductor 242 is formed to surround the outer surface of the first insulator 243 and the second input terminal 120 and the second output terminal 320 are electrically connected to each other.

The second insulator 244 is made of a material that does not conduct electricity so as to prevent the current flowing in the second conductor 242 from leaking to the outside and is formed so as to surround the outer surface of the second conductor 242 do.

The power supply connection part 240 is electrically connected to the first input terminal 110 to effectively shield the electric field generated from the current flowing in the electric wire electrically connected to the phase voltage terminal, It is preferable that the neutral point terminal is electrically connected to the two-input terminal 120.

The output terminal unit 300 includes a first output terminal 310, a second output terminal 320 and a neutral output terminal 330 and may be electrically connected to the connection terminal unit 400 through a wire.

The connection terminal portion 400 includes a body portion made of an insulator, a first connection terminal 410, a second connection terminal 420 and a neutral connection terminal (not shown) which are exposed on the upper surface of the body portion, 430).

The first connection terminal 410 and the second connection terminal 420 are electrically connected to the first output terminal 310 and the second output terminal 320 respectively and are connected to the first output terminal 310 and the second output terminal 320. [ The output terminal 320 can be electrically connected to the load.

The neutral point connection terminal 430 may be electrically connected to the neutral point output terminal 330 so that the neutral point output terminal 330 may be electrically connected to the leakage current conductor section 500.

Accordingly, leakage current leaking from the output terminal electrically connected to the phase-voltage terminal of the first output terminal 310 and the second output terminal 320 when the ground-type electric leakage preventive device is submerged, And may flow to the neutral point connection terminal 430 through the leakage preventing conductor portion 500. [

When the output terminal of any one of the first output terminal 310 and the second output terminal 320 is electrically connected to the phase voltage terminal, the electric leakage-preventing conductor section 500 is electrically connected to the phase- But is provided to be electrically connected to the neutral point connection terminal 430 electrically connected to the neutral point terminal.

5 is a perspective view of the connection terminal portion 400 and the leakage preventing conductor portion 500 in order to explain the connection terminal portion 400 and the leakage preventing conductor portion 500 according to an embodiment of the present invention in more detail. 6 is a cross-sectional view of a connection terminal portion 400 and an electrical leakage preventing conductor portion 500 for explaining the connection terminal portion 400 and the electrical leakage preventing conductor portion 500 according to an embodiment of the present invention. Hereinafter, the connection terminal portion 400 and the leakage preventing conductor portion 500 will be described in more detail with reference to FIGS. 5 to 6. FIG.

The connection terminal unit 400 according to the present embodiment includes a first output terminal 310 and a second output terminal 320. The first output terminal 310 and the second output terminal 320 are electrically insulated from each other while being exposed on the upper surface of the body portion. And a first connection terminal 410, a second connection terminal 420 and a neutral point connection terminal 430 for electrically connecting the neutral terminal to the load.

The leakage preventing conductor section 500 includes a vertical conductor section 510 penetrating the body section downward from the neutral point connection terminal 430 and a vertical conductor section 510 bent in the horizontal direction at the end of the vertical conductor section 510, A bottom conductive part 520 extending outward from the bottom of the bottom conductive part 520 and a plate-like side conductive part 520 extending from the bottom of the bottom conductive part 520 to a height not lower than the top surface of the connection terminal block, 530).

The side conductor portion 530 is bent upward at the end of the bottom conductor portion 520 to face the side surface of the body portion while surrounding the first connection terminal 410 and the second connection terminal 420, And the bottom conductor 520 may be fixed to the body using a bolt provided in the vertical conductor 510. In this case,

The bottom conductor portion 520 and the side conductor portion 530 may be formed of a plurality of branches separated in a plurality of different directions with respect to the vertical conductor portion 510, The width of the vertical cross section with respect to the flow direction of the connection terminal portion 400 is preferably 10 mm 2 or more, and when the bottom conductive portion 520 is implemented as a rectangular conductive plate, the width of the rectangular conductive plate is not less than the width of the connection terminal portion 400 desirable.

It is preferable that the height of the side conductor portion 530 is 5 mm or more higher than the height of the connection terminal block in order to prevent electric leakage and leakage during immersion. At least one of the bottom conductor portion 520 and the side conductor portion 530 It is preferable that one conductor portion is located within 15 mm from a connection terminal electrically connected to the phase voltage terminal.

The electric leakage preventing conductor portion 500 may be provided to surround the input terminal portion 100, the terminal polarity fixing portion 200, the output terminal portion 300 and the connection terminal portion 400, In order to surround at least one of the lateral sides of the connection terminal portion 400, at least one portion of the connection terminal portion 400, at least one of the side and upper portions of the connection terminal portion 400, (Not shown) extending from the upper end of the side conductor 530 to the body so as to extend beyond the upper conductor 510, the bottom conductor 520 and the side conductor 530.

Specifically, the upper conductor portion (not shown) may be formed so as to cover all of the input terminal portion 100, the terminal polarity fixing portion 200, the output terminal portion 300, and the connection terminal portion 400, or all or part of the body portion As shown in Fig.

As a result, the leakage preventing conductor portion 500 allows the current flowing from the connection terminal connected to the phase voltage terminal to flow to the leakage preventing conductor portion 500 through the water during flooding, thereby reducing the leakage current to less than 10 mA, An electric shock prevention effect can be obtained.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention. 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 in the appended claims. It is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

100: input terminal part 110: first input terminal
120: second input terminal 200: terminal polarity fixing portion
210: switching unit 220: switching control unit
230: Switched Mode Power Supply (SMPS)
240: Power connection
241: first conductor 242: second conductor
243: first insulator 244: second insulator
300: output terminal part 310: first output terminal
320: Second output terminal 330: Neutral output terminal
400: connection terminal part 410: first connection terminal
420: second connection terminal 430: neutral connection terminal
500: electric leakage preventing conductor portion 510: vertical conductor portion
520: bottom conductor portion 530: side conductor portion

Claims (8)

An input terminal portion including a first input terminal and a second input terminal;
An output terminal portion including a first output terminal, a second output terminal, and a neutral point output terminal;
The first input terminal and the second input terminal are electrically connected to the first output terminal and the second output terminal, respectively, and the first output terminal and the second output terminal are electrically connected to each other, 2 output terminals are electrically connected to the phase voltage terminal, the terminal polarity fixing unit allowing the neutral output terminal to be electrically connected to the neutral point terminal;
A second output terminal, and a neutral terminal electrically connected to the load, wherein the first output terminal, the second output terminal, and the neutral point terminal are electrically isolated from each other while being exposed to the upper surface of the body portion, A connection terminal portion including a first connection terminal, a second connection terminal, and a neutral point connection terminal; And
When the output terminal of any one of the first output terminal and the second output terminal is electrically connected to the phase voltage terminal and is not electrically connected to the connection terminal electrically connected to the phase voltage terminal, And an earth leakage preventing conductor portion which is electrically connected to the connected neutral point connection terminal and disposed around a connection terminal electrically connected to the phase voltage terminal,
The terminal polarity fixing unit includes:
A switching control unit for outputting a first control signal when the first input terminal is connected to the phase voltage terminal and outputting a second control signal when the second input terminal is connected to the phase voltage terminal; And
The first input terminal is electrically coupled to the neutral output terminal when the second control signal is input, and the second input terminal is electrically connected to the neutral output terminal when the first control signal is input, Comprising:
The switching unit includes:
A relay coil which is in an excited state when a current flows through itself and a non-excited state when no current flows; And
And a relay switching terminal for electrically connecting the second input terminal to the neutral output terminal in the excitation state and for electrically connecting the first input terminal to the neutral output terminal in the non-excited state,
The terminal polarity fixing unit includes:
And a power connection part for electrically connecting the first input terminal, the second input terminal, the first output terminal, and the second output terminal without going through the switching part, Device. delete delete delete The method according to claim 1,
The power connection unit includes:
A first lead to electrically connect the first input terminal and the first output terminal;
A first insulator formed to surround the outer surface of the first conductor and having a predetermined thickness;
A second conductor formed to surround an outer surface of the first insulator, the second input terminal being electrically connected to the second output terminal;
And a second insulator formed to surround the outer surface of the second conductor and preventing a current flowing in the second conductor from leaking to the outside,
Wherein the switching control unit comprises:
And a current flows to the relay coil only when the first input terminal is connected to the phase voltage terminal. 6. The method of claim 5,
The terminal polarity fixing unit includes:
And an SMPS unit converting an AC voltage inputted through the first input terminal and the second input terminal into a DC voltage necessary for operation of the switching control unit,
Wherein the switching control unit comprises:
Wherein when the first input terminal is connected to the phase voltage terminal, the direct current voltage is supplied from the SMPS unit, thereby allowing current to flow through the relay coil. 6. The method of claim 5,
The leakage preventing conductor portion includes:
A bottom conductor body bent in a horizontal direction at an end of the vertical conductor body and extending to the outside of the bottom of the body across the bottom of the body body; And a plate-shaped side view body portion bent upward from an end of the conductor portion and extending to a height not lower than an upper surface of the connection terminal portion while facing the side surface of the body portion. 8. The method of claim 7,
The side-
And a plurality of through holes are formed so as to surround the connection terminal portion while facing the side surface of the body portion while being bent upward at an end of the bottom conductive portion.

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