KR101227659B1 - Concent built in line isolation monitor - Google Patents

Abstract

PURPOSE: An electric leakage alarm embedded outlet is provided to prevent electric accidents by blocking electric output by early detecting resistive leakage currents from leakage currents. CONSTITUTION: An image converter of a leakage current sensing unit detects leakage current which is leaked through a connected plug. A power sensing unit(220) creates a synchronization signal by sensing an external prevailing voltage inputted through a power cable. A microcomputer extracts a resistive leakage current from the sensed leakage current by using the synchronization signal. When the extracted resistive leakage current is more than a reference value, a notification unit notifies a current excess fact.

Description

Earth leakage alarm built-in outlet {Concent built in line isolation monitor}

The present invention relates to an outlet having a built-in earth leakage alarm, and more particularly, to separate and extract a resistive leakage current which is a direct cause of an electric fire or an electric shock from a leakage current generated when a short circuit occurs, and from the extracted resistive leakage current. Regarding the earth leakage alarm internal outlet which informs the user about the electric leakage, it prevents electric accidents and prevents the malfunction of electric leakage due to the capacitive leakage current. will be.

As is well known, an outlet is a device for electrically connecting a power cable for supplying external commercial power and a plug provided in a home appliance, so that external power can be applied to the home appliance. There is a separate type called 'multi-tap' that plugs into another outlet and allows more plugs to be connected.

Outlet is a device that electrically connects power cable to external commercial power and plug of electric equipment. If there is overload or short circuit on the load side (electric equipment side), leakage current is generated to prevent electric fire or electric shock. cause.

In fact, according to the Statistical Yearbook of the National Emergency Management Agency, among the total fire occurrences, electric fires due to leakage from outlets are reported to be the most common, accounting for about 25% of all fires.

In order to solve the problem caused by the leakage current, when the leakage current is detected and the reference value is exceeded, the user is notified with a flashing lamp or a buzzer sound, and when necessary, a socket with a ground fault alarm for blocking the power output from the outlet is presented. However, there are still many deficiencies in terms of early detection and active response of leakage current.

Usually, the leakage current Ig is composed of a resistive leakage current Igr, a capacitive leakage current Igc, and a negligible inductive leakage current Igl.

However, a substantial element that causes an electric fire or an electric shock is a resistive leakage current Igr, and a capacitive leakage current Igc acts as a component that causes a malfunction of a circuit and a system.

Therefore, in order to prevent electric fire or electric shock, resistive leakage current (Igr) is detected, and when the detected resistive leakage current (Igr) exceeds a threshold that can cause an electric accident, the user is notified and power is output from the outlet if necessary. It is desirable to block so as not to.

However, in the related art, the ground fault alarm of the outlet does not detect the resistive leakage current Igr but detects the leakage current Ig.

The ground fault alarm according to the prior art judges a ground fault when the current value detected by the leakage current Ig including both the resistive leakage current and the capacitive leakage current exceeds 30 mA.

However, when using this method of judging the leakage current (Ig), there is a problem that it is difficult to block the minute leakage current because the power value is different for each electric device.

Despite the fact that the main element that generates actual heat is resistive leakage current (Igr), detecting a relatively high 30mA current value that is the sum of resistive leakage current and capacitive leakage current is not only inefficient, but also energy saving. In terms of early detection of leakage current, there is a disadvantage that the efficiency is inferior.

When the resistive leakage current (Igr) is small and the capacitive leakage current (Igc) is large, and the total leakage current (Ig) exceeds the reference value, the ground fault alarm is short-circuited even though there is no particular problem in the circuit or system of the load side connected to the outlet. Recognition, and frequently cut off the power output of the outlet, according to the user to remove the earth leakage alarm and use while an electric accident occurs, causing loss of life and property.

The present invention detects the leakage current (Ig) without distinguishing between the resistive leakage current (Igr) and the capacitive leakage current (Igc) in the earth leakage alarm built-in outlet according to the prior art as described above, and to the size of the detected leakage current (Ig) Judging whether there is a short circuit, it is possible to prevent the problem of a short circuit even though there is no electrical problem on the load side of the outlet, and to determine whether the short circuit is more accurate by detecting a resistive leakage current (Igr) in which an electric fire is a substantial factor of electric shock. The purpose of the present invention is to provide a built-in electrical leakage alarm outlet that can prevent electric accidents and thereby contribute to the efficient operation of electrical energy.

The earth leakage alarm built-in outlet according to the present invention for achieving the above object is

A main body having a plug hole into which a terminal of a plug is inserted and a cable hole into which a conductor of the power cable is inserted and coupled;

A leakage current sensing unit including an image current transformer for detecting a leakage current flowing out through a plug connected to the main body;

A power detector configured to detect an external commercial power input through a power cable connected to the main body and generate a synchronization signal;

A microcomputer for extracting and extracting a resistive leakage current from the leakage current sensed by the image current transformer using the synchronization signal of the power detection unit;

And a ground fault alarm including a notification unit for notifying when the resistive leakage current extracted by the microcomputer exceeds a reference value.

The power detecting unit includes a voltage detecting unit detecting a voltage of an external commercial power supply, and a synchronizing signal generating unit generating a synchronizing signal at a point in time when the phase of the voltage detected by the voltage detecting unit is inverted and transmitting the synchronizing signal to the microcomputer. ,

The microcomputer separates and extracts the resistive leakage current by integrating the leakage current of the image current transformer by a half wave using the synchronization signal transmitted from the synchronization signal generator.

The earth leakage alarm built-in outlet according to the present invention having such a configuration detects only the resistive leakage current (Igr) early among the leakage current generated during use and informs the user, and when necessary, cuts off the output of electricity to prevent an electric accident, Energy can be saved.

1 is a perspective view of a built-in earth leakage detector according to an example of the present invention.
FIG. 2 is a partial cutaway perspective view of the outlet shown in FIG. 1; FIG.
Figure 3 a, b is an exploded perspective view of the outlet according to the invention shown in FIG.
4 is a cross-sectional view of the outlet according to the present invention shown in FIG.
5 is a circuit diagram of a ground fault alarm in an outlet according to the present invention;

Hereinafter, with reference to the drawings will be described in more detail with respect to the outlet reinforcement waterproofing of the present invention.

First, as shown in FIG. 5, the earth leakage alarm A according to the present invention includes a leakage current detection unit 210, a power detection unit 220, a microcomputer U2, a notification unit L, BZ1, and a blocking unit 230. ), The driving power supply 240 is made.

The leakage current detection unit 210

It is installed in the power line to output the commercial power input from the outside through the plug, the image current transformer (ZCT) to detect the leakage current by the difference between the input and output of the current in the power line,

And an amplifier U1A for amplifying the leakage current detected by the image current transformer ZCT.

The power detection unit 220

Resistor (R4, R5) and a voltage detector for detecting the voltage of the external commercial power source input to the power line,

And a synchronization signal generator U1B for generating a synchronization signal from the voltage detected by the voltage detector.

The synchronizing signal generating unit U1B generates a clock signal synchronizing signal whose synchronizing point is a voltage detected by the voltage detecting unit, that is, a point of time when the phase of the AC power source is inverted as a commercial power source. That is, a clock-type synchronizing signal is generated when the polarity of the power supply voltage becomes positive (+) and becomes low (or high) when negative.

The microcomputer U2 separates and extracts the resistive leakage current Igr from the leakage current Ig detected by the leakage current detection unit 210 using a synchronization signal transmitted from the power detection unit 220.

In the leakage current Ig, the resistive leakage current Igr is in phase with the power supply voltage, and the capacitive leakage current Igc is 90 degrees out of phase with the power supply voltage.

In addition, the clock-type synchronizing signal generated and transmitted by the power detector 220 has low and high values according to the phase of the power supply voltage.

In the period in which the polarity of the power supply voltage is positive, that is, the period in which the synchronization signal is low or high, the value of integrating the leakage current Ig is P as follows.

P = 2 · 2 ^ ½ · Ig · cosθ; Is the phase angle between the power supply voltage and the leakage current Ig.

By the way, since Igr = Ig · cosθ, Igr is proportional to P.

In addition, a value obtained by integrating the leakage current Ig in a period in which the polarity of the power supply voltage is negative, that is, a period in which the synchronization signal is high or low is Q.

Q = -2 · 2 ^ ½Igcosθ

In this case also, Igr = Ig · cosθ, so Igr is proportional to the absolute value of Q.

Accordingly, it can be seen from the above calculation process that the resistive leakage current Igr can be detected by integrating the leakage current Ig during the half period of the power supply voltage.

Therefore, the microcomputer U2 integrates the leakage current Ig detected by the leakage current detection unit 210 and transmits the half current by using the synchronous signal transmitted from the power detection unit 220 to transmit the resistive leakage current Igr. Detach and extract to detect.

The microcomputer U2 notifies the user through the notification units L and BZ1 when the size of the separated and extracted resistive leakage current Igr exceeds a reference value (for example, 5 mA).

The notification unit (L, BZ1) may be composed of an LED (L) that blinks or lights in a specific color, or a buzzer (BZ1) that emits a warning sound.

When the resistive leakage current Igr separated and extracted by the microcomputer U2 deviates from the reference value, the blocking unit 230 opens a power line under the control of the microcomputer U2, so that the commercial power supplied from the outside is connected to an outlet. Block output from

As the blocking unit 230, a relay (RS / RC), a transistor, a thyristor, a triac, or the like may be used.

The reference value, which is the reference for driving the blocking unit 230 by the microcomputer U2, may be the same as the reference value for driving the notification units L and BZ1, but may be different. In other words, when the leakage value of the resistive leakage current Igr is not enough to cause an electric accident but needs to be notified to the user, the notification units L and BZ1 are driven, but the blocking unit 230 is not driven. can do.

The driving power supply unit 240 step-downs and converts the commercial power input from the power line to supply the driving power to the microcomputer U2, the leakage current sensing unit 210, and the power sensing unit 220.

The driving power supply 240 includes diodes D1 and D2 rectifying commercial power, smoothing capacitors C1 and C2, and a zener diode Z1 not to exceed a predetermined voltage.

Hereinafter, with reference to Figures 1 to 3, it will be described in more detail with respect to the configuration of the main body of the built-in earth leakage alarm according to the present invention.

As shown in the figure, the main body B of the outlet according to the present invention includes an upper body 10 to which a plug is inserted and coupled, a lower body 20 to which a power cable is inserted, and an upper body 10 and a lower portion. An intermediate body 30 interposed between the body 20, a cover plate 40 coupled to the upper body 10, a protection plate 49 disposed on an upper surface of the cover plate 40, and The safety plate 60 embedded between the upper body 10 and the intermediate body 30, and the various electronic devices that are embedded between the intermediate body 30 and the lower body 20 and constitute the ground fault alarm A It comprises a PCB 70 to be mounted.

The upper body 10 has a seating groove 11 in which a plug body is inserted and seated on an upper surface (ie, an outer surface), and a terminal of the plug is formed at the bottom of the seating groove 11. The plug hole 12 is formed to be inserted into the inside, and the guide inclined portion 12a is formed to be inclined around the plug hole 12 to guide the terminal of the plug to the plug hole 12. A ground terminal hole 13 is formed at the bottom edge of the seating recess 11 to allow the ground terminal 120 to be inserted therein so as to be exposed to the seating recess 11, and the sidewall of the seating recess 11 is formed. The guide groove 14 for guiding the assembly coupling of the cover plate 40 is formed, the hook groove 15 is formed on the edge of the upper surface of the cover plate 40 is assembled by hook type On the upper surface, the reset knob 90 of the ground fault alarm and the LED (L) The first exposure hole (16a) and the second exposure holes (16b) to be exposed is formed.

In addition, an accommodating part 17 is formed at a lower surface (ie, an inner surface) of the upper body 10 at a position opposite to the seating groove 11, and the plug hole 12 is formed at the center of the accommodating part 17. The hinge pin 18 is rotatably hinged to the safety opening and closing block 50 to open and close the inside thereof, and the safety opening and closing block opens the plug hole 12 inside the accommodating portion 17. A blocking plate 19 is formed to be disposed in the closing position.

The safety opening and closing block 50 is a body 51 rotatably hinged to the hinge pin 18 of the upper body 10, wings 53 connected to both sides of the body 51, and the wing Opening and closing port 55 for opening and closing the plug hole 12 as formed and rotated at the end of the 53, and spring 57 for rotating the opening and closing port 55 to return to the original state to close the plug hole 12 It is made, including.

The opening and closing holes 55 on both sides are inclined in opposite directions, so that when the terminal of the plug is inserted into the plug hole 12, the plug terminal is pushed into the plug terminal and rotated in the same direction to open the plug hole 12 to advance the insertion of the plug terminal. When the plug terminal is inserted, the spring 57 rotates the opening and closing hole 55 in the return direction, and the blocking plate 19 blocks the wing 53 so that the opening and closing hole 55 is connected to the plug hole 12. ) To close.

The cover plate 40 is hooked to the guide protrusion 44 inserted into the guide groove 14 of the upper body 10 and the hook groove 15 of the upper body 10 on the lower surface. Hook protrusions 45 are formed to protrude, and the settling groove 41 is formed on the upper surface of the protective plate.

The protective plate 49 is placed in the settled groove 41 of the cover plate 40 to cover the upper surface of the cover plate 40, made of a transparent material, the LED (L) light of the ground fault alarm is irradiated to the outside While protecting the LED (L) so as not to be exposed, the reset knob 90 is exposed to the outside for the user's operation.

The lower body 20 accommodates the connection terminal 110 and the connection terminal 130 electrically connected to the ground terminal 120 and the ground wire is connected therein,

A fixing protrusion 21 for fixing the PCB 70 and a connection terminal groove 23 in which the connection piece 113 of the connection terminal 110 is inserted and seated are formed therein.

The intermediate body 30 is interposed between the upper body 10 and the lower body 20, the connection terminal 110 is mounted.

The intermediate body 30 is provided with a mounting groove 31 for mounting the connection terminal 110 without shaking, the mounting groove 31 is the connection piece 113 of the connection terminal 110 is A predetermined area is opened to be exposed to the lower body 20.

The ground terminal 120 includes a base 121 and an exposed part 123 bent to both sides of the base 121 and exposed to the seating groove 11.

The connection terminal 130 includes a horizontal portion 131, a vertical portion 133 vertically connected at both sides of the horizontal portion, and a ground line portion 135 provided at the horizontal portion 131 and connected to a ground line. It is done by The connection terminal is disposed on an outer surface of the lower body 20.

The connection bolt 125 fastens the base 121 and the horizontal portion 131 to electrically connect the ground terminal 120 and the connection terminal 130 to each other, and the connection bolt 125 is the lower body. The screw 20 is fixed to the horizontal portion 131 by penetrating through the fixing protrusion 21 formed in the 20.

The connection terminal 110 is provided with a straight portion 115, an elastic contact portion 111 provided on both sides of the straight portion 115 and in close contact with the outer surface of the plug terminal by an elastic force, and the straight portion 115 It comprises a connecting piece 113 protruding downward.

The connection piece 113 of the connection terminal 110 is disposed in the connection terminal groove 23 of the lower body 20 to be in contact with the contact terminal 160.

An elastic steel plate 150, a contact terminal 160, and a pressure block 140 are disposed in the connection terminal groove 23, and a cable hole 231 is inserted into the bottom of the connection terminal groove 23. And, when the inlet or outlet of the power cable is pressurized the elastic steel plate 150 to disengage hole 233 is inserted into the pressing block 140 to facilitate the insertion or withdrawal of the power cable is formed, the side wall A guide protrusion 235 is formed to guide the lifting and lowering of the pressure block 140 and to be prevented from being separated downward.

The contact terminal 160 includes a first contact part 161 and a second contact part 163 vertically connected to the first contact part 161. The first contact portion contacts the connection piece 113 of the connection terminal 110, and the second contact portion 163 contacts the elastic steel plate 150.

The elastic steel plate 150 is connected to the horizontal portion 151 which is in contact with the first contact portion 161 of the contact terminal 160, bent downward from the end of the horizontal portion 151 and the contact terminal 160 A vertical portion 152 contacting the second contact portion 163, a first inclined portion 153 bent obliquely upward from an end of the longitudinal portion 152, and a lower portion at an end of the first inclined portion 153. The first curled portion 156 rolled toward the top, the second slanted portion 154 inclined downwardly from the end of the first curled portion 156, and the second curled portion 154 rolled upward from the end of the second slanted portion 154; The second curled portion 157 is inclined upwardly from an end of the second curled portion 157, and is pressed in contact with another second contact portion 161 of the contact terminal 160 via a power cable lead. It is configured to include a third inclined portion 155.

The pressing block 140 is coupled to the guide protrusion 235 formed on the side wall of the connection terminal 23 to guide the lifting portion 145 and the third inclined portion of the elastic steel plate 150. And a support part 141 for contacting and supporting the 155 and an exposed part 143 exposed to the outside of the lower body 20, wherein the support part 141 is an inclination angle of the third inclined part 155. Inclined at an angle corresponding to

In the state in which the elastic steel plate 150 is placed in the connection terminal groove 23, the conductive wire of the power cable is connected to the second contact portion 163 of the contact terminal 160 and the third inclined portion 155 of the elastic steel plate 150. When the lead wire is inserted between the first and second ends of the elastic steel plate 150, the transverse portion 151 and the longitudinal portion 152 of the elastic wire plate 150 are pushed up to contact the third inclined portion 155. ) And the second contact portion 163 in close contact with the inner surface, and the end of the third inclined portion 155 and the outer surface of the first curled portion 156 pressurizes the surface of the lead wire, the lead of the power cable is the contact terminal Another second contact portion 163 of 160 is to be in close contact with each other.

Pressing the pressure block 140 from the outside of the lower body 20 to separate and disassemble the power cable, the pressure block 140 is raised and lowered in the connection terminal groove 23, the pressure block 140 to be elevated Is pushed up by contacting the lower portion of the third inclined portion 155 of the elastic steel plate 150, then the lower end of the third inclined portion 155 is raised and the upper end is lowered while the third inclined portion 155 is It moves in a direction away from the conductor, and eventually the upper end of the third inclined portion 155 is separated from the surface of the conductor, the conductor is simply drawn out without interference of the elastic steel plate 150.

The safety plate 60 contacts and supports the lower portion of the safety opening and closing block 50, and supports the ground terminal 120 from being shaken.

The lower surface of the safety plate 60 accommodates the base 121 of the ground terminal 120, the receiving groove 61 is formed so that the ground terminal does not move.

The PCB 70 is mounted with various electronic devices constituting the ground fault alarm.

The PCB 70 is provided with a reset switch 71 which is pressed and operated by the reset knob 90. When the reset switch 71 is pressed and operated in a state in which the breaker 230 of the ground fault alarm is driven to open the power line, the reset switch 71 transmits the signal to the microcomputer U2 of the ground fault alarm, and the microcomputer U2 is The breaker 230 is driven to short the power line so that external commercial power can be output.

In addition, the PCB 70 is mounted with an LED (L) indicating and indicating whether or not a short circuit, the LED (L) is exposed to the cover plate 40, it is connected by a long lead (l). That is, the end of the lead wire (1) is mounted on the PCB 70, the LED (L) connected to the opposite end of the lead wire (1) is disposed on the cover plate 40. At this time, since the lead wire (1) is fragile by a thin conductor, the guide block 80 is wrapped and protected.

The guide block 80 has a slit groove 80 that wraps around and protects the lead wire 1 of the LED L in the longitudinal direction.

In the above description of the present invention has been described with respect to the built-in earth leakage alarm having a specific shape and structure with reference to the accompanying drawings, the present invention can be variously modified and changed by those skilled in the art, such variations and modifications of the present invention It should be interpreted as being within the scope of protection.

A: earth leakage alarm B: main body
10: upper body 20: lower body
30: middle body 40: cover plate
50: safety opening and closing block 60: safety plate
70: PCB 80: Guide Block
90: reset knob 110: connection terminal
120: ground terminal 130: connection terminal
140: pressure block 150: elastic steel sheet
210: leakage current detection unit 220: power supply detection unit
230: breaker 240: drive power supply

Claims (4)

A main body having a plug hole into which a terminal of a plug is inserted and a cable hole into which a conductor of the power cable is inserted and coupled;

A leakage current sensing unit including an image current transformer for detecting a leakage current flowing out through a plug connected to the main body;
A power detector configured to detect an external commercial power input through a power cable connected to the main body and generate a synchronization signal;
A microcomputer for extracting and extracting a resistive leakage current from the leakage current sensed by the image current transformer using the synchronization signal of the power detection unit;
The earth leakage alarm including a notification unit for notifying when the resistive leakage current extracted by the microcomputer exceeds a reference value;

The body
An upper body to which a plug is inserted and coupled,
A lower body to which a power cable is inserted and coupled;
An intermediate body interposed between the upper body and the lower body,
A cover plate coupled to the upper body,
It is made between the intermediate body and the lower body and comprises a PCB mounted electronic components constituting the ground fault alarm,

The lower body has a connection terminal groove is formed,

In the connection terminal groove
A contact terminal to which the connection terminal to which the plug is connected is in contact;
An elastic steel sheet which presses and contacts the wire of the power cable between the contact terminal and the contact terminal;
And a pressurizing block configured to pressurize the elastic steel sheet so that the conductive wire of the power cable is separated and separated between the elastic steel sheet and the contact terminal. The method of claim 1,
The power detecting unit includes a voltage detecting unit detecting a voltage of an external commercial power supply, and a synchronizing signal generating unit generating a synchronizing signal at a point in time when the phase of the voltage detected by the voltage detecting unit is inverted and transmitting the synchronizing signal to the microcomputer. ,
And the microcomputer is configured to extract and extract a resistive leakage current by integrating the leakage current of the image current transformer by using the synchronization signal transmitted from the synchronization signal generator. 3. The method according to claim 1 or 2,
When the resistive leakage current separated and extracted by the microcomputer deviates from the reference value, the control unit further comprises a blocking unit for blocking the output of the commercial power supplied from the outside by opening the power line under the control of the microcomputer Built-in outlet for earth leakage alarm. The method of claim 3, wherein
And a microcomputer, a leakage current sensing unit, and a driving power supply unit supplying driving power to the power sensing unit by stepping down and constant voltage of commercial power input from a power line.

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