KR101205048B1 - Electric protection monitoring system - Google Patents

Abstract

PURPOSE: An electric safety monitoring device is provided to prevent a power supply which flows to a load side by opening a preventing switch of an electric line when a composition leakage current is detected, thereby preventing leakage fire and electric shock caused by sensitivity current even though a circuit breaker is not operated. CONSTITUTION: A monitoring unit comprises a receiving unit(31); a calculating unit(32); and a comparing unit(34). The receiving unit receives a leakage current signal outputted from a leakage breaker. The calculating unit determines whether the received leakage current is a composition leakage current or a resistibility leakage current or not and calculates leakage power and sensitivity current according to a determination result. The comparing unit outputs a controlling signal for alarm signal output to an alarm outputting unit(40). [Reference numerals] (31) Leakage current signal receiving unit; (32) 1. lg calculating unit, 2. lgr calculating unit, 3. Pgr calculating unit; (33) Reference value; (34) Comparing unit; (AA) Information display; (BB) Alarm device

Description

Electric safety monitoring system

The present invention relates to an electrical safety monitoring device, and more particularly, to an electrical safety monitoring device that is commercially available with high reliability and low cost.

In general, a leakage current flows from the wire path to the ground in the electric wire path and the earth insulation deterioration of the electric apparatus connected to the electric wire path, which is called a resistive leakage current (Igr).

In addition, in the cable line, a leakage current flows from the cable line to the ground at the designated capacitance of the wire line and the electric equipment connected to the cable line, which is called capacitive leakage current (Igc).

Therefore, as shown in FIG. 1, a combined leakage current Ig including the resistive leakage current Igr and the capacitive leakage current Igc flows through the wire.

In this case, the conventional ground fault circuit breaker 100 is connected to the wire lines (H, N), the branch current branch for branching branch from the circuit breaker 100 detects the composite leakage current (Ig) of the wire lines (H, N) (ZCT, Zero Current Transformer) is installed, the leakage current sensor 200 is installed, the earth leakage breaker 100 is detected by the leakage current sensor 200, the composite leakage current (Ig) when the wire path (H) By cutting off the cutoff switch SW of N, the circuit breaker 100 must operate an amplifier 101 and an earth leakage breaker 100 for amplifying the leakage current detected from the leakage current sensor 200. When the reference unit 102 set the leakage current value, the comparator 103 which outputs when the detected leakage current exceeds the reference value by comparing the detected leakage current with the reference value, and the comparator 103 outputs the output. It consists of a blocking coil 104 for opening the cutoff switch (SW) of the wire path (H, N), Leakage current sensor 200 is monitoring the leakage current, which was configured such that the monitoring unit 300 is connected for generating an alarm signal according to the monitoring result.

However, the conventional earth leakage breaker 100 has to separately install the monitoring unit 300 as a connection line to the leakage current sensor 200 installed in the branch line, so that the monitoring line properly includes a lot of noise in accordance with the installation distance of the connection line Of course, there is a disadvantage that can not be achieved, there is a disadvantage that the amplifier must be installed separately for each branch line in which the leakage current sensor 200 is installed in the monitoring unit 300.

In addition, the conventional ground fault circuit breaker 100 has a disadvantage in that it does not work for a leakage current of 5 to 10 mA causing a ground fault due to the sensitivity current of several tens to several hundred mA, and the alarm function of the ground fault circuit breaker 100 is a ground fault circuit breaker. Because of the drawback of increasing the size of the short-circuit alarm to reduce the volume of LED only has a disadvantage that the alarm is not delivered well.

That is, the conventional ground fault circuit breaker 100 has a sensitivity current of 20 to 25 mA, and if a ground fault of less than this, for example, 15 mA occurs in the wire lines H and N, the ground fault circuit breaker 100 is not operated. Electrical leakage, human body electric shock, power loss occurs, and if the current leakage over the sensitivity current sometimes has the disadvantage that an electrical disaster such as uninterrupted power.

Here, the leakage current generating material is generated from a leakage current of about 5 ~ 10mA, the current leakage circuit breaker has not been sufficiently prevented by the current leakage circuit breaker because the sensitivity current of the current leakage circuit breaker is 20 ~ 25mA.

In the case of the electric shock, when a short circuit occurs and a leakage current flows to the wall or the outer surface of the electric device, the human body can easily contact the charging unit, and an electric shock accident occurs, which is the reason for many electric shock accidents in the rainy season.

In the case of the power loss, a leakage current of, for example, 10 mA flows in a 220V line, resulting in a power loss of 2.2 W, which is expected to be tens of thousands of KW nationwide.

In case of the uninterruptible power failure, when the leakage current increases and the sensitivity current of the ground fault circuit breaker is reached, the ground fault circuit breaker operates to generate an uninterruptible power failure. A representative example is a street lamp, which causes a dark road at night to cause traffic accidents. And in the case of security, personal accidents can also occur.In the factory, the work is suddenly stopped, and in the general office, the computer's work is stopped and data is lost.

Accordingly, the present invention is to solve the conventional problems as described above, the sensitivity current is 20 ~ 25mA by the leakage current sensor, or the sensitivity current is 5 ~ 10mA from the earth leakage breaker connected to the line By generating an alarm signal when receiving a signal in which a resistive leakage current is detected, in the case of detecting a composite leakage current having a sensitivity current of 20 to 25 mA, the power supply to the load side is cut off by opening a disconnect switch to the wire. In particular, when detecting a resistive leakage current with a sensitivity current of 5 to 10 mA, even if the earth leakage breaker does not operate, it prevents the problem of leakage of the leakage material and human electric shock and power loss caused by the detected sensitivity current of 5 to 10 mA. Electrical safety monitor that gradually increases and closes to the range of 20 ~ 25mA and prevents the occurrence of electric disasters such as sudden power failure The purpose is to provide a turing device.

Electrical safety monitoring device of the present invention for achieving the above object, Leakage current sensor consisting of a video current transformer for detecting a composite leakage current of the wire; An earth leakage circuit breaker that cuts off the disconnection switch of the cable line when the synthetic leakage current is detected by the leakage current sensor, and detects a leakage current of the cable line and outputs a leakage current signal according to the detection; A monitoring unit which calculates a type of leakage current according to the leakage current signal detected by the ground fault circuit breaker, compares it with a reference value, and generates a control signal for outputting a guard signal according to the comparison result; And an alarm output unit for outputting a light and a buzzer according to the control signal output from the monitoring unit. And the leakage circuit breaker includes an amplifier for amplifying the leakage current detected from the leakage current sensor, a reference unit for setting a leakage current value at which the leakage circuit breaker should operate, and comparing the detected leakage current with the reference value. A comparator for outputting when the detected leakage current exceeds a reference value, a blocking coil for opening a disconnect switch to a wire when the comparator outputs the output, and an output terminal for outputting the leakage current signal to the monitoring unit. The output terminal portion is connected to the connection line between the amplifier and the comparator by a first lead wire, and is connected by a second lead wire to one common wire path of the wire path, and the blocking coil is connected to one wire path and another wire It is connected by half-wave rectifier circuit between furnaces.

According to an aspect of the invention, the monitoring unit, the receiving unit for receiving a leakage current signal output from the earth leakage breaker; A calculating unit which determines whether the leakage current received through the receiving unit is a synthetic leakage current or a resistive leakage current, and calculates a sensitivity current and a leakage power according to the determination result; A comparator for comparing the sensitivity current and the leakage power of the synthetic leakage current or the resistive leakage current calculated from the calculator with a reference value stored in the memory unit, and outputting a control signal for outputting an alarm signal to the alarm output unit according to the comparison result. ; It is configured to include.

According to another aspect of the present invention, the composite leakage current, the resistive leakage current and the leakage power monitored by the monitoring unit are configured to be displayed and transmitted to the well pad through a communication line.

According to another aspect of the invention, the monitoring unit, a plurality of A / D converter unit, a plurality of counters and alarms to sequentially calculate the leakage current information for one cycle of power generated from a plurality of branch lines connected to the wire line It further comprises a database unit for storing data.

According to another aspect of the invention, the monitoring unit is composed of a microchip of the One Chip Solution, the monitoring unit consisting of the microchip analog multi to sequentially calculate the leakage current signal of the other branch line every 60 / second The flex is configured to be connected.

According to another aspect of the present invention, the monitoring unit is configured to connect the up / down counter switch to manually manipulate the output values of the leakage current and resistive leakage current and the leakage current stored in the database, the up / down counter The synthesized leakage current, the resistive leakage current, and the output power of the leakage power according to the manual operation of the switch are configured to be displayed through the display unit, and when the output values of the combined leakage current, the resistive leakage current and the leakage power are displayed through the display unit, The alarm output unit is configured to operate when an alarm signal is generated at the branch line.

As described above, the present invention detects a composite leakage current having a sensitivity current of 20 to 25 mA by a leakage current sensor, or an alarm when a resistive leakage current having a sensitivity current of 5 to 10 mA is detected from an earth leakage breaker connected to a wire. It is configured to generate a signal, and through this, when detecting a synthetic leakage current with a sensitivity current of 20 to 25 mA, it cuts off the power supply to the load side by opening a disconnect switch to the wire, and in particular, a resistive leakage current with a sensitivity current of 5 to 10 mA. During the detection, even if the earth leakage breaker does not operate, it prevents the problem of leakage of the earth leakage material and human body electric shock and power loss caused by the detected sensitivity current 5-10mA, and also increases the sensitivity current gradually and approaches the range of 20-25mA. It is expected to be effective in preventing problems such as accidental power failures.

1 is a graph showing the type and phase relationship of the leakage current.
2 is a block diagram of a conventional electrical safety monitoring device.
3 is a circuit diagram of a conventional earth leakage breaker.
4 is a block diagram of an electrical safety monitoring apparatus according to an embodiment of the present invention.
5 is a circuit diagram of an earth leakage breaker according to an embodiment of the present invention.
Figure 6 is a block diagram of a monitoring unit according to an embodiment of the present invention.
Figure 7 is an application example of the electrical safety monitoring device in an embodiment of the present invention.
Figure 8 is a waveform diagram of the leakage current in an embodiment of the present invention.
9 is a block diagram of an electrical safety monitoring device to which a monitoring unit configured in a microchip form according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

4 is a block diagram of an electrical safety monitoring apparatus according to an embodiment of the present invention, Figure 5 is a circuit diagram of an earth leakage breaker in an embodiment of the present invention, Figure 6 is a block diagram of a monitoring unit according to an embodiment of the present invention. 7 illustrates an application example of an electrical safety monitoring apparatus according to an embodiment of the present invention.

4 to 7, an electrical safety monitoring apparatus according to an embodiment of the present invention includes a leakage current sensor 10, an earth leakage breaker 20, a monitoring unit 30, an alarm output unit 40, and Wall Pod 50 is included.

The leakage current sensor 10 is composed of a zero current transformer (ZCT) for detecting a composite leakage current (Ig) of the wire lines (H, N), the leakage current detected by the current leakage (Ig) It is configured to output to the breaker 20.

The earth leakage breaker 20 blocks the cutoff switch SW of the wire lines H and N when the leakage current sensor Ig detects the leakage current sensor 10, while the leakage current breaker Ig is blocked. ), Of course, by detecting the leakage current of the wire path (H, N) and outputting the leakage current signal according to the detection to the monitoring unit 30, the amplifier 21, the reference unit 22, the comparator (23), the blocking coil 24, and the output terminal portion 25.

The amplifier 21 is configured to amplify the synthesized leakage current Ig detected from the leakage current sensor 10, and the reference unit 22 sets a reference leakage current value at which the earth leakage breaker should operate. The comparator 23 compares the detected synthesized leakage current Ig with the reference value and compares and outputs whether the detected synthesized leakage current Ig exceeds the reference value. The cutoff coil 24 is configured to turn on / off the cutoff switch SW of the wire paths H and N according to the comparison output signal of the comparator 23. The cutoff coil 24 is a single wire. (H) and another one (N) through the half-wave rectifier circuit is configured to connect.

The output terminal unit 25 is configured to output the leakage current signal, that is, the signal of the composite leakage current Ig and the resistive leakage current Igr, to the monitoring unit 30. To this end, the output terminal unit 25 is The first lead wire L1 is connected to the connection line between the amplifier 21 and the comparator 23, and the second lead wire L2 is connected to one common wire path N of the wire paths H and N. The connection is made up.

The monitoring unit 30 calculates the type of the leakage current according to the leakage current signal Ig (Igr) detected by the ground fault circuit breaker 20, compares it with a reference value, and controls the output of the guard signal according to the comparison result. It generates a signal, and includes a receiver 31, a calculator 32, a memory 33, and a comparer 34.

The receiving unit 31 is configured to receive a leakage current signal output from the output terminal unit 25 of the ground fault circuit breaker 20, the operation unit 32 is the leakage current received through the receiving unit 31 synthesized leakage It is configured to determine whether it is a current Ig or a resistive leakage current Igr, and calculate a sensitivity current of the combined leakage current Ig, the resistive leakage current Igr, and the leakage power Pgr according to the determination result. .

The comparison unit 34 compares the sensitivity current and the leakage power Pgr of the synthetic leakage current Ig or the resistive leakage current Igr calculated by the operation unit 32 with a reference value stored in the memory unit 33. Then, according to the comparison result is configured to output a control signal for outputting the alarm signal to the alarm output unit 40.

The alarm output unit 40 is configured to output a light (LED) and a buzzer sound according to a control signal output from the comparing unit 34 of the monitoring unit 30.

The wall fodder 50 has a rapid follow-up action after a user or administrator views the composite leakage current Ig, the resistive leakage current Igr, and the leakage power Pgr monitored by the monitoring unit 30. It is configured to receive and display through a communication line (eg RS-485, RF, Zigbee) in order to make it.

That is, the electrical safety monitoring device according to an embodiment of the present invention as shown in Figure 4 to 8 attached, first from Figure 8 attached from the leakage current sensor 10 is connected to the wire (H, N) Similarly, when the synthesized leakage current Ig having a sensitivity current of 20 to 25 mA is detected, and the detected synthesized leakage current Ig is output to the earth leakage breaker 20, the amplifier 21 of the earth leakage breaker 20 is The synthesized leakage current Ig detected by the leakage current sensor 10 is amplified and then output to the comparator 23.

At this time, the comparator 23 is provided with a reference leakage current value set by the reference unit 22, and the comparator 23 compares the detected synthesized leakage current Ig with the reference value to detect the synthesized value. It is compared whether the leakage current Ig exceeds the reference value, and when the comparison result is exceeded, a control signal for off-switching the cutoff coil 24 is output.

At this time, the cut-off coil 24 performs a switching operation of turning off the cut-off switch (SW) of the wire (H, N) in accordance with the control signal of the off switching output from the comparator 23, the wire ( H, N) is to cut off the power supply to the load side.

Meanwhile, a leakage current Igr having a sensitivity current of 10 to 15 mA is detected from the leakage current sensor 10 connected to the wire paths H and N, and the detected leakage current Igr is a ground fault breaker 20. ), The amplifier 21 of the ground circuit breaker 20 amplifies the leakage current Igr detected by the leakage current sensor 10 and outputs the same to the comparator 23.

At this time, the comparator 23 is provided with a reference leakage current value set by the reference unit 22, and the comparator 23 compares the detected leakage current Igr with the reference value to detect the leakage current. When Igr exceeds the reference value, the control signal for outputting the control coil 24 is output when the comparison result does not exceed the reference value.

Accordingly, the cutoff coil 24 performs a switching operation of turning on the cutoff switch SW of the wire paths H and N according to the control signal of the on-switching output from the comparator 23. The power is supplied to the load side from H, N).

At this time, the signal of the synthetic leakage current (Ig) of the sensitivity current 20 to 25mA and the resistive leakage current (Igr) of the sensitivity current 10 to 15mA that is amplified and output through the amplifier 21, as well as flowing in the wire path (N) The leakage current is output to the monitoring unit 30 through the output terminal unit 25 through the first and second lead wires L1 and L2, respectively, and thus the receiving unit 31 included in the monitoring unit 30 is After receiving the leakage current signal is provided to the operation unit 32.

Then, the operation unit 32 determines whether the leakage current signal received through the receiver 31 is a signal of the synthetic leakage current Ig or the resistive leakage current Igr, and the synthesized leakage current according to the determination result. After calculating Ig, the sensitivity current of the resistive leakage current Igr, and the leakage power Pgr, the calculation result is output to the comparator 34.

In this case, the comparison unit 34 may compare the sensitivity current and leakage power Pgr of the synthetic leakage current Ig or the resistive leakage current Igr calculated by the calculation unit 32 with the reference value stored in the memory unit 33. After the comparison, when the reference value is exceeded according to the comparison result, the control signal for outputting the alarm signal is output to the alarm output unit 40. Accordingly, the alarm output unit 40 causes the user or the administrator to connect the wire (H). , N can be informed whether a synthetic leakage current Ig or a resistive leakage current Igr has occurred.

That is, the alarm output unit 40 warns that the power supply to the load side is cut off in the case of the synthetic leakage current Ig, and the earth leakage breaker 20 does not operate in the case of the resistive leakage current Igr. If not, it will warn you of possible electrical disasters such as earth leakage, human electric shock, power loss, or power failure.

Here, the monitoring unit 30 is controlled to the alarm output unit 40 and at the same time, the synthetic leakage monitored in the well pad 50 through a communication line (eg RS-485, RF, Zigbee) Measurements of current (Ig), resistive leakage current (Igr), and leakage power (Pgr) are transmitted. Accordingly, the user or the administrator can perform the earth leakage, human electric shock, power loss, Or, follow-up measures can be promptly prepared for the possibility of an electrical disaster such as an uninterrupted power failure.

On the other hand, Figure 9 is attached to another embodiment of the present invention, which is the power supply for one cycle (220V 60Hz AC power source) generated from a plurality of branch lines connected to the monitoring unit 30 to the wire (H, N) It is configured to sequentially calculate the leakage current information of the, for this purpose, the monitoring unit 30, in addition to the receiver 31, the calculation unit 32, the memory unit 33 and the comparison unit 34, a plurality of A / D converter unit 35a, 35b, 35c, a plurality of counters 36a, 36b, and a database unit 37 for storing alarm data. It is composed of.

In addition, the monitoring unit 30 composed of the microchip as described above is connected to the analog multiplex 60 so as to sequentially calculate leakage current signals of different branch lines every 60 / second, and the database 37 The up / down counter switch 70 which can manually manipulate the output values of the resistive leakage current Ig, the resistive leakage current Igr, and the leakage power Pgr stored therein is connected and configured. The display unit 80 is configured such that the output values of the composite leakage current Ig, the resistive leakage current Igr, and the leakage power Pgr according to the manual operation of the counter switch 70 are displayed on the display unit 80. When the output value of the composite leakage current (Ig), the resistive leakage current (Igr) and the leakage power (Pgr) is displayed, the alarm output unit 40 is configured to operate when an alarm signal is generated on one or more branch lines.

That is, in another embodiment of the present invention, one of the plurality of counter parts 36a and 36b of which the microchip is configured is connected to the wire lines H and N during one cycle of power supply (220V). When the leakage current information of the 60 Hz AC power supply is sequentially counted, the count information is provided to the database unit 37 of the monitoring unit 30 and output to the analog multiplex 60.

Then, the analog multiplex 60 performs a switching operation sequentially connected to another branch line every sixty-seconds according to the count information, and the leakage current signal of each branch line according to the switching of the sequential connection is one. The A / D converter 35a is used to input the calculator 32.

At this time, the calculation unit 32 determines whether the leakage current signal of each branch line is a signal of the synthetic leakage current (Ig) or the resistive leakage current (Igr), while the synthetic leakage current (Ig) and the resistive leakage according to the determination result After calculating the sensitivity current of the current Igr and the leakage power Pgr, the calculation result is output to the database unit 37 and the comparison unit 34.

Here, the comparison unit 34 stores a reference value for storing the sensitivity current and the leakage power Pgr of the synthesized leakage current Ig or the resistive leakage current Igr calculated from the calculation unit 32 in the memory unit 33. The other A / D converters 35b and 35c are inputted to compare and output the comparison result to the database unit 37.

Therefore, the database unit 37 constructs data for outputting the alarm signal from the input information, and the data of the constructed alarm output is displayed on the display unit 80 as well as the alarm output unit 40. The voice alarm sound or visual alarm display will be made through.

Here, another counter 36b of the monitoring unit 30 manually manipulates the output values of the composite leakage current Ig, the resistive leakage current Igr, and the leakage power Pgr stored in the database 37. Since the up / down counter switch 70 may be connected to each other, the combined leakage current Ig, the resistive leakage current Igr, and the leakage power Pgr according to the manual operation of the up / down counter switch 70 may be connected. ) Is displayed on the display unit 80, and at least one branch line when the composite leakage current (Ig), the resistive leakage current (Igr), and the output value of the leakage power (Pgr) are displayed through the display unit (80). When the alarm signal occurs in the operation of the alarm output unit 40 can be made.

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 by the appended claims. It will be easy to understand. It is also to be understood that the technical spirit of the invention is also deemed to belong to the scope of the appended claims if the practice of such improvements, alterations, substitutions or additions falls within the scope of the appended claims.

10; Leakage current sensor 20; Earth leakage breaker
21; Amplifier 22; Reference
23; Comparator 24; Blocking coil
25; An output terminal unit 30; Monitoring
31; Receiver 32; Calculator
33; Memory 34; The comparator
35a, 35b, 35c; A / D converters 36a and 36b; Counter
37; A database unit 60; Analog multiplex
70; Up / down counter switch 80; Display

Claims (6)

Leakage current sensor consisting of a video current transformer for detecting a composite leakage current of the cable line; An earth leakage circuit breaker that cuts off the disconnection switch of the cable line when the synthetic leakage current is detected by the leakage current sensor, and detects a leakage current of the cable line and outputs a leakage current signal according to the detection; A monitoring unit which calculates a type of leakage current according to the leakage current signal detected by the ground fault circuit breaker, compares it with a reference value, and generates a control signal for outputting a guard signal according to the comparison result; And an alarm output unit for outputting a light and a buzzer according to the control signal output from the monitoring unit.
The earth leakage breaker includes an amplifier for amplifying the leakage current detected by the leakage current sensor, a reference unit for setting a leakage current value at which the earth leakage breaker should operate, and comparing the detected leakage current with the reference value to detect the reference value. Comparator for outputting when exceeded, a blocking coil for opening the disconnect switch to the wire when the comparator outputs, and an output terminal for outputting the leakage current signal to the monitoring unit,
The output terminal portion is connected to the connection line between the amplifier and the comparator by a first lead wire, and is connected by a second lead wire to one common wire path of the wire path, and the blocking coil is connected to one wire path and another wire Electrical safety monitoring device, characterized in that the connection between the half-wave rectifier circuit between the furnace. The method of claim 1, wherein the monitoring unit,
A receiver which receives a leakage current signal output from the earth leakage breaker;
A calculating unit which determines whether the leakage current received through the receiving unit is a synthetic leakage current or a resistive leakage current, and calculates a sensitivity current and a leakage power according to the determination result;
A comparator for comparing the sensitivity current and the leakage power of the synthetic leakage current or the resistive leakage current calculated from the calculator with a reference value stored in the memory unit, and outputting a control signal for outputting an alarm signal to the alarm output unit according to the comparison result. ; Electrical safety monitoring device comprising a. The method of claim 2,
The composite leakage current, the resistive leakage current and the leakage power monitored by the monitoring unit are configured to be transmitted to the well pad through the communication line to be displayed. The method of claim 2,
The monitoring unit further includes a database unit for storing a plurality of A / D converter units, a plurality of counter units, and alarm data so as to sequentially calculate leakage current information for one cycle of power generated from a plurality of branch lines connected to the cable line. Electrical safety monitoring device, characterized in that. The method of claim 4, wherein
The monitoring unit is composed of a microchip of the One Chip Solution, the monitoring unit consisting of the microchip is characterized in that the analog multiplex is connected to configure to sequentially calculate the leakage current signal of the other branch line every 60 / second Safety monitoring device. The method of claim 5, wherein
The monitoring unit connects and configures an up / down counter switch for manually manipulating the output values of the synthetic leakage current, the resistive leakage current, and the leakage power stored in the database.
The composite leakage current, the resistive leakage current, and the output power of the leakage power according to the manual operation of the up / down counter switch are configured to be displayed through a display unit.
And an alarm output unit is configured to operate when an alarm signal is generated at one or more branch lines when the composite leakage current, the resistance leakage current, and the leakage power output value are displayed through the display unit.

Images