KR20220036930A - Monitoring device and method for circuit breaker status of distribution panel - Google Patents

Abstract

The present invention relates to a device and method for monitoring a circuit breaker state of a distribution panel. The apparatus may comprise: a plurality of circuit breakers installed at a busbar and branch line of the distribution panel; a plurality of measuring instruments detecting a state of the circuit breakers, checking whether there is a live wire by measuring a voltage of a secondary busbar or branch line of the circuit breakers, checking an identity between a state of the circuit breaker and whether there is the active wire, and determining a circuit breaker abnormality if there is no identity; and a main measuring instrument receiving whether the circuit breaker has an abnormality from each of the plurality of measuring instruments to be displayed.

Description

Monitoring device and method for circuit breaker status of distribution panel

The present invention relates to an apparatus and method for monitoring the state of a circuit breaker of a distribution board, and more particularly, to an apparatus and method for monitoring the state of a circuit breaker using multi-line instruments of a distribution board.

In general, in the distribution board, a branch line is branched from a bus bar to supply power to a load. The digital power meter used in the distribution board is a digital panel meter and can be installed in the distribution board, and calculates and displays various amounts of electricity including power and wattage by measuring the voltage and current of the power system.

Recently, as the importance of energy management has increased, the scope of power monitoring has changed from managing total load energy information in the switchboard to analytical energy management for each load in the switchboard.

Accordingly, it is necessary to measure not only the electricity quantity of the bus bar inside the distribution board but also the branch load of the branch line for each branch, and a digital power meter for the distribution board is used as a device to realize this.

The multi-line instrument for distribution board transmits the measured amount of electricity to the main instrument through the communication medium, and the main instrument transmits the information collected from a plurality of distribution board multi-line instruments to the upper system, so that the user can physically use the upper system through the upper system. It becomes possible to centralize the power monitoring of a plurality of distributed distribution boards.

1 is a block diagram of a conventional multi-line measuring system for a distribution board.

Referring to FIG. 1, the conventional multi-line measuring system for a distribution board includes a main breaker 110 installed in a bus bar 100, and a first measuring device 120 that measures the amount of electricity of the bus bar at the rear end of the main breaker 110, A plurality of branch line breakers 210 installed on the branch line 200 branched from the bus line 100 to cut off and control the power supply to the load 300, and the branch line circuit breaker 210 and the load 300. , a plurality of second meters 220 for measuring the amount of electricity of the load 300 of the branch line 200, and a display unit for displaying the amount of electricity measured through communication with the second meter 220 and the first meter 120 It is configured to include a main instrument 400 including a.

In the above structure, in a state in which the main circuit breaker 110 and the branch line breaker 210 are closed, the load 300 may receive power through the bus line 100 and the branch line 200 branched from the bus line 100 .

As such, while power is supplied to the load 300 through the branch line 200 , the second meter 220 installed in each branch line 200 measures the amount of electricity supplied to the load 300 , and outputs the measurement result to the communication line. through the main instrument 400 . In addition, the first measuring instrument 120 installed in the bus line 100 also measures the amount of electricity supplied to the loads 300 connected to each branch line 200 , and transmits the result to the main measuring instrument 400 .

The first measuring device 120 and the second measuring device 220 are directly connected to the secondary side that is the load side of the main breaker 110 and the branch breaker 210 of the bus line 100 and each branch line 200, respectively. And the three-phase voltage applied to the branch line 200 is measured.

Various methods may be used, but it is common to measure three-phase current by passing three busbars of the bus bar 100 and the branch line 200 through the three CTs, respectively.

The measured three-phase voltage and three-phase current are used to calculate various amounts of electricity, including power and power.

The first meter 120 and the second meter 220 have MCUs built-in, and after AD conversion of the three-phase voltage signal and the three-phase current signal, the RMS values for each can be calculated and displayed.

The amount of electricity measured by the first measuring device 120 and the second measuring device 220 is voltage, current, frequency, active power, reactive power, active power, reactive power, and harmonic content.

The main measuring instrument 400 collects and displays the measurement results of the first and second instruments 120 and 220 .

*In addition, although omitted in the drawing, the main measuring instrument 400 transmits the measurement results collected through the external communication network to the upper system, so that the state of a plurality of distribution boards can be checked at a remote location in the upper system.

During this operation, when the branch line breaker 210 is cut off due to various reasons, the power supplied to the load 300 is cut off.

Blocking the power supplied to the load 300 may be achieved by blocking the main circuit breaker 110 .

At this time, the main circuit breaker 110 and the branch circuit breaker 210 include an operation handle indicating the current operation state. The operation handle serves to display whether the secondary side of the current main circuit breaker 110 or the branch circuit breaker 210 is in a live state or in a non-live state.

Specifically, when the operation handle is in the ON position, the load end of the branch circuit is in a live state, and when the operation handle is in the OFF position, it indicates that the load end of the branch circuit is in a non-live state.

When the operator normally performs maintenance on the load 300 side, after checking the state of the operation handle of the branch line breaker 210 , the operator performs the operation.

That is, after confirming that the operation handle of the branch line breaker 210 is in the OFF position, work is performed on the branch line 200 and the load 300 in a non-live line state.

However, when the inside of the box of the distribution panel is very dark, it is difficult for the operator to intuitively check the status of the operation handles, and in some cases, the ON position and OFF position may be confused.

In addition, although the main circuit breaker 110 or the branch circuit breaker 210 itself is in a live state in which power is supplied due to a failure, when the operation handle is positioned in the OFF position, there is a problem in that an electrical safety accident is caused.

An object of the present invention to be solved in view of the above problems is to provide an apparatus and method for monitoring the state of a circuit breaker in a distribution board, which can easily check whether a live wire is active regardless of the operation handle of the circuit breaker.

More specifically, the present invention monitors and displays the state of the active wire different from the operation handle state of the circuit breaker that may occur when the circuit breaker main body, auxiliary contact or alarm contact fails by using measurement information of a measuring instrument located on the secondary side of the circuit breaker. An object of the present invention is to provide an apparatus and method for monitoring the state of a circuit breaker in a distribution panel that can prevent the occurrence of safety accidents.

A circuit breaker status monitoring device of a distribution board according to an aspect of the present invention for solving the above technical problems, a plurality of circuit breakers installed on busbars and branch lines of a distribution panel, detect the state of the circuit breakers, and secondary side busbars of the circuit breakers Alternatively, by measuring the voltage of the branch line to check whether there is a live line, check whether the state of the circuit breaker and whether the line is live or not, and if not the same, determine whether the circuit breaker is abnormal from a plurality of measuring instruments and each of the plurality of measuring instruments It may include a main instrument that receives and displays.

In an embodiment of the present invention, the measuring device may receive the output signal of the auxiliary contact of the breaker and detect whether the breaker is blocked.

In an embodiment of the present invention, the measuring device may receive an output signal of the alarm contact of the breaker and output an alarm signal for blocking of the breaker.

In an embodiment of the present invention, it may further include a server that receives the abnormality of the circuit breaker and the voltage from the main instrument and manages it remotely.

In an embodiment of the present invention, the terminal may further include a terminal that receives and displays whether a circuit breaker of a specific distribution board is abnormal by requesting the server.

In addition, the method for monitoring the state of a circuit breaker of a distribution board according to another aspect of the present invention includes the steps of: a) detecting the state of the circuit breaker in a measuring instrument; c) the measuring instrument compares the detection result of step a) with the detection result of step b) to determine whether or not the circuit breaker is abnormal It may include the step of transmitting the breaker abnormality information to display in the main instrument.

In an embodiment of the present invention, step a) may receive the output signal of the auxiliary contact of the breaker to detect whether the breaker is blocked, or receive the output signal of the alarm contact to detect whether the breaker is blocked.

In an embodiment of the present invention, in step c), it is determined that the circuit breaker is abnormal when the circuit breaker is blocked as a result of the detection in step a) and the circuit breaker is in a live state as a result of the detection in step b), or the detection result of step a) is When the circuit breaker is not blocked and the detection result of step b) is in a non-live state, it can be determined that the circuit breaker is abnormal.

In an embodiment of the present invention, the detection of the live wire state may be detected as a live wire state when a voltage is detected in even one of the polyphases.

In an embodiment of the present invention, after performing step d), the method may further include the step of transmitting, by the main instrument, the circuit breaker abnormality information received from the instrument to the server.

In an embodiment of the present invention, the user terminal may request the server to receive and display information about circuit breaker abnormality of a specific distribution board.

The present invention connects the auxiliary contact and alarm contact of the circuit breaker to the measuring instruments of the bus and branch lines to check the state of the circuit breaker and to compare the amount of electricity measured at the installation location to detect the abnormality of the circuit breaker. It has the effect of checking the abnormality in real time.

In addition, by displaying the abnormality detection result of the circuit breaker through the display of the main measuring instrument, the operator can easily know whether the specific measuring instrument is abnormal, thereby preventing the occurrence of electrical safety accidents during work.

And, it transmits the status of each breaker and the live wire of the location where the breaker is installed to the upper system through external communication of the main circuit breaker, and enables the operator to access the upper system through the terminal to check in real time It has the effect of preventing the occurrence.

1 is a block diagram of a conventional multi-line measuring system for a distribution board.
2 is a block diagram of a circuit breaker status monitoring device of a distribution board according to a preferred embodiment of the present invention.
3 is a block diagram of a measuring instrument applied to the present invention.
4 is a flowchart of a method for monitoring the state of a circuit breaker of a distribution board according to a preferred embodiment of the present invention.
5 is a block diagram of a circuit breaker state monitoring device of a distribution board according to another embodiment of the present invention.

In order to fully understand the configuration and effect of the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, and may be embodied in various forms and various modifications may be made. However, the description of the present embodiment is provided so that the disclosure of the present invention is complete, and to fully inform those of ordinary skill in the art to which the present invention belongs, the scope of the invention. In the accompanying drawings, components are enlarged in size from reality for convenience of description, and ratios of each component may be exaggerated or reduced.

Terms such as 'first' and 'second' may be used to describe various elements, but the elements should not be limited by the above terms. The above terms may be used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, a 'first component' may be termed a 'second component', and similarly, a 'second component' may also be termed a 'first component'. can Also, the singular expression includes the plural expression unless the context clearly dictates otherwise. Unless otherwise defined, terms used in the embodiments of the present invention may be interpreted as meanings commonly known to those of ordinary skill in the art.

Hereinafter, an apparatus and method for monitoring the state of a circuit breaker of a distribution board according to an embodiment of the present invention will be described in detail with reference to the drawings.

2 is a block diagram of a circuit breaker status monitoring device of a distribution board according to a preferred embodiment of the present invention.

Referring to FIG. 2 , the device for monitoring the state of a circuit breaker of a distribution board according to a preferred embodiment of the present invention measures the amount of electricity in the busbar at the main breaker 11 installed on the busbar 10 and the secondary side that is the load side of the main breaker 11 . In addition, the first measuring instrument 12 that checks the state value of the auxiliary contact and the alarm contact of the main circuit breaker 11 and confirms the state of the main circuit breaker 11 through the comparison of the state value and the measured value, and the busbar ( A plurality of branch circuit breakers 21 installed on the branch wire 20 branched in 10) to cut off and control the power supply to the load 30, and measuring the amount of electricity between the branch wire circuit breaker 21 and the load 30 In addition, a second instrument 22 that checks the state value of the auxiliary contact point and the alarm contact point of the branch line breaker 21, and checks the state of the branch line breaker 21 through comparison of the state value and the measured value, and the second instrument (22) and a main measuring instrument 40 that receives and displays the amount of electricity measured through communication with the first instrument 12 and displays the state of the main circuit breaker 11 and the branch circuit breaker 21 do.

Hereinafter, the configuration and operation of the circuit breaker state monitoring device according to a preferred embodiment of the present invention configured as described above will be described in detail.

First, the configuration of the main circuit breaker 11 and the branch circuit breaker 21 may have the same configuration with only a difference in capacity. The circuit breaker 11 is for protecting the load 30 from overcurrent, and includes a current detection unit and a blocking unit.

A circuit breaker normally includes an auxiliary contact and an alarm contact.

Auxiliary Switch (AX) is a contact that outputs the ON or OFF status of the breaker, and the Alarm Switch (AL) is a contact to notify the outside when the breaker is blocked due to overload or short circuit.

That is, it is assumed that the main circuit breaker 11 and the branch circuit breaker 21 can output the contact state and the interrupted state.

The first measuring device 12 installed on the bus 10, which is the secondary side of the main circuit breaker 11, and measuring the amount of electricity, is connected to the auxiliary contact AX and the alarm contact AL of the main circuit breaker 11 by a communication line. It is possible to detect the state of the main circuit breaker (11).

The on or off state of the main circuit breaker 11 can be detected as a signal of 0 or 1 (or vice versa) through the auxiliary contact (AX), and the blocking state of the alarm contact (AL) is also received as a signal of 0 or 1 can do.

3 is a block diagram of the first measuring device 12 .

Referring to FIG. 3, the first measuring device 12 includes a control unit 13, a measuring unit 14, and a communication unit 15 for communication with the main measuring instrument 40, and the auxiliary contact point of the main circuit breaker 11 ( AX) and a contact receiving unit 16 for receiving a signal of the alarm contact AL may be included.

In addition, it may include a memory 17 for storing measurement results or calculation or operation data of the control unit 13 .

The configuration of the first measuring instrument 12 above can be applied substantially the same to the second measuring instrument 22 , and this configuration describes only the elements essential for the operation of the first measuring instrument 12 and the second measuring instrument 22 . and it is possible to add various components as needed.

In the present invention, the first measuring instrument 12 and the second measuring instrument 22 are separately described, but since the installation location is divided by the bus line 10 or the branch line 20, they are described with different names and symbols, respectively, but substantially It can be seen that the configuration is the same.

That is, the branch line breaker 21 also has an auxiliary contact (AX) and an alarm contact (AL), and the second meter 22 located on the secondary side branch line 20 of the branch line breaker 21 also includes a contact receiving unit. It is possible to detect the blocking state of the branch line breaker 21 through the auxiliary contact AX of the branch line breaker 21 and the blocking state through the alarm contact AL.

As such, the first measuring device 12 and the second measuring device 22 detect the state of the main circuit breaker 11 and the branch circuit breaker 21, respectively, and also detect the amount of electricity at each installation position.

Accordingly, the first measuring device 12 and the second measuring device 22 can confirm the correspondence between the state of the main circuit breaker 11 and the branch circuit breaker 21 and the electric quantity detection result, respectively.

For example, in the control unit of the second meter 22 , the result detected through the auxiliary contact AX of the branch line breaker 21 is the cutoff state of the branch line 20 , and there is no amount of electricity detected in the branch line 20 . In this case, it can be confirmed that the state of the corresponding branch line breaker 21 is normal.

On the other hand, if the result detected through the auxiliary contact AX of the branch line breaker 21 is the cut off state of the branch line 20 or the amount of electricity measured through the measuring unit, it is confirmed that there is an abnormality in the branch line breaker 21 can

In this way, the first measuring instrument 12 and the second measuring instrument 22 use the state of the main circuit breaker 11 and the branch circuit breaker 21 and the live state of the bus line 10 or the branch line 20 to the main circuit breaker 11 and whether the branch line breaker 21 is abnormal.

The state at this time can be detected in the same way through the alarm contact (AL).

In the above example, both the signals of the auxiliary contact (AX) and the alarm contact (AL) are shown and described, but if necessary, the signal of the auxiliary contact (AX) or the alarm contact (Al) can be used.

In this way, the first measuring instrument 12 and the second measuring instrument 22 detect the state of the circuit breaker and transmit it to the main instrument 40 through the communication unit 15 .

The main measuring instrument 40 displays the amount of electricity detected by the measuring unit 14 of the first measuring instrument 12 and the second measuring instrument 22, as well as the main circuit breaker determined by the first measuring instrument 12 and the second measuring instrument 22. (11) and the state information of the branch circuit breaker 21 can also be displayed on the display.

Therefore, by checking the display of the main measuring instrument 40, the operator can easily and safely check whether there is an abnormality in a specific circuit breaker.

4 is a flowchart of a method for monitoring the state of a circuit breaker of a distribution board according to a preferred embodiment of the present invention.

4 , the method for monitoring the state of a circuit breaker of a distribution board according to a preferred embodiment of the present invention includes the steps of detecting the state of the circuit breaker through an auxiliary contact or an alarm contact of the circuit breaker (S41), and detecting the amount of electricity at the installation position (S42), the step of re-performing the step S41 if the state of the circuit breaker and the electric quantity detection result are the same (S43) ), and a step (S45) of displaying information on a circuit breaker having an abnormality in the main instrument.

Through this process, it is possible to check in real time whether the circuit breaker installed on a plurality of branch lines and one bus line is abnormal and displayed on the display of the main measuring instrument 40 .

An example of the method for monitoring the state of a circuit breaker of a distribution board of the present invention will be described in more detail through the operations of the branch line breaker 21 and the second measuring device 22 as follows.

First, in step S41, the second meter 22 detects the signal of the auxiliary contact AX or the alarm contact AL of the branch line breaker 21. At this time, it is possible to check whether the branch line breaker 21 is in an ON state or an OFF state through the auxiliary contact AX, and it is possible to check whether the branch line breaker 21 is blocked through the alarm contact AL.

The state at this time can be confirmed by detecting a signal of 0 or 1.

Next, as in step S42 , the second meter 22 detects the amount of electricity supplied to the load 30 of the branch line 20 . The detection of the amount of electricity is made through the measurement unit of the second meter 22 .

The measuring unit of the second measuring device 22 may detect an amount of electricity for each of the three phases of the branch wire 20 , and when an amount of electricity is detected even in one of the detected three phases, it may be determined that the current is in a live wire state.

Then, as in step S43, the control unit of the second measuring instrument 22 compares the detection result in step S41 with the detection result in step S42 to confirm the identity of the state.

For example, when the branch line breaker 21 is in a blocked state as a result of detection in step S41 and the state of the branch line 20 detected in step S42 is inactive, it is determined that the state is the same.

Similarly, when the branch line breaker 21 is not blocked as a result of the detection in step S41 and the state of the branch line 20 detected in step S42 is a live wire, it is determined that the state is the same.

As a different state, if the branch line breaker 21 is blocked as a result of detection in step S41 but the branch line 20 determined in step S42 is in a live state, it is determined that there is an abnormality in the branch line breaker 21 .

In addition, as a result of detection in step S41, it is confirmed that the branch line breaker 21 is not in a blocked state, but as a result of detecting in step S42, if the branch line 20 is in a non-live state, it is also determined that there is an abnormality in the branch line breaker 21 .

In the above determination, if the branch line breaker 21 is in a normal operating state, the state of the circuit breaker is monitored in real time by re-performing from step S41.

If it is determined that there is an abnormality in the branch line breaker 21, the information of the corresponding branch line breaker 21 and the abnormal state information are transmitted to the main measuring instrument 40 through the communication unit as in step S44.

Next, as in step S45, the main measuring instrument 40 displays the received information of the branch line breaker having an abnormality.

Through this process, the operator can easily check the information of the circuit breaker having an abnormality through the main measuring instrument 40, thereby preventing the occurrence of a safety accident.

In addition, it is possible to check the state of the circuit breaker of the current work target by using the user terminal so that the operator can more easily check the state of the specific branch line 20 and the state of the circuit breaker.

5 is a block diagram of a circuit breaker monitoring device of a distribution board according to another embodiment of the present invention.

Referring to FIG. 5 , the circuit breaker monitoring apparatus according to another embodiment of the present invention may further include a server 50 which is a higher level system and a user terminal 60 .

The server 50 is capable of communicating with the main measuring instruments 40 installed in the distribution boards, and the first measuring instrument 12 and the second in which the administrator provides the state of the circuit breaker and the electric quantity measurement result to the main measuring instruments 40 remotely. It is possible to check the information of the two measuring instruments (22).

In addition, according to the request of the user terminal 60, it is assumed that the breaker state and the live wire state for a specific distribution board are transmitted.

The server 50 may be a normal computer, and includes a display, a processing device, a storage device, a memory, and an input device, and is accessible through a wired or wireless communication network.

The terminal 60 can also be connected to a wired/wireless communication network, and may have a configuration including a display, a processing device, and a storage device capable of displaying the state of a circuit breaker of a specific distribution board to the user. The terminal 60 may be a smart phone, a smart pad, a PC, a notebook computer, or the like.

In such a configuration, the main instrument 40 installed in each of a plurality of switchboards transmits the state information of the circuit breaker and the amount of electricity measured by the instruments to the server 50 in real time or periodically, and the server 50 receives the received The information is stored and provided according to the request of the terminal 60 .

Accordingly, the operator can easily check the live wire state of the circuit breaker and the branch line of the distribution panel to be maintained and repaired through the terminal 60, and thus, it is possible to prevent a safety accident from occurring due to a cause such as an abnormal state of the circuit breaker.

Although the embodiments according to the present invention have been described above, these are merely exemplary, and those of ordinary skill in the art will understand that various modifications and equivalent ranges of embodiments are possible therefrom. Accordingly, the true technical protection scope of the present invention should be defined by the following claims.

10: busbar 11: main breaker
12: first instrument 13: control unit
14: measurement unit 15: communication unit
16: contact input unit 20: branch line
21: branch line breaker 22: second instrument
30: load 40: main instrument
50: Server 60: Terminal

Claims (11)

A number of circuit breakers installed on the bus and branch lines of the distribution panel;
A plurality of measuring instruments that detect the state of the circuit breakers, measure the voltage of the secondary side bus or branch of the circuit breakers to check whether the circuit is live, check the sameness of the state of the circuit breaker and whether it is live, and if they are not the same, determine that the circuit breaker is abnormal Wow,
A circuit breaker status monitoring device for a distribution board including a main measuring instrument that receives and displays whether the circuit breaker is abnormal and a voltage measurement result from each of the plurality of measuring instruments. According to claim 1,
The meter is
A circuit breaker state monitoring device for detecting whether the circuit breaker is blocked by receiving the output signal of the auxiliary contact of the circuit breaker. According to claim 1,
The meter is
A circuit breaker status monitoring device for receiving an output signal of the alarm contact of the circuit breaker and outputting an alarm signal for blocking of the circuit breaker. 4. The method according to any one of claims 1 to 3,
The circuit breaker status monitoring device of the distribution board further comprising a server that receives the abnormality and voltage of the circuit breaker from the main measuring instrument and manages it remotely. 5. The method of claim 4,
The device for monitoring the state of a circuit breaker of a distribution panel further comprising a terminal for receiving and displaying whether the circuit breaker of a specific panel is abnormal from the server. a) detecting the condition of the circuit breaker in the meter;
b) detecting the voltage of the bus line or the branch line in the measuring instrument to detect whether the line is live;
c) determining whether the circuit breaker is abnormal by comparing the detection result of step a) with the detection result of step b) by the measuring instrument; and
d) If there is an abnormality in the circuit breaker as a result of the determination in step c), transmitting the circuit breaker abnormality information to the main measuring instrument so that the main instrument displays it. 7. The method of claim 6,
Step a) is,
A circuit breaker status monitoring method for receiving an output signal of the breaker auxiliary contact to detect whether the breaker is blocked, or receiving an output signal from an alarm contact to output an alarm signal for blocking of the breaker. 7. The method of claim 6,
Step c) is,
When the detection result of step a) indicates that the circuit breaker is in a blocked state and the detection result of step b) indicates that the circuit breaker is in a live state, it is determined that the circuit breaker is abnormal;
The circuit breaker status monitoring method of a distribution board, characterized in that when the detection result of step a) indicates that the circuit breaker is not blocked and the detection result of step b) indicates a non-live state, it is determined that the circuit breaker is abnormal. 9. The method of claim 8,
The detection of the live wire state is
A method for monitoring the state of a circuit breaker in a distribution board, characterized in that it is detected as a live wire when a voltage is detected in even one phase among polyphases. 10. The method according to any one of claims 6 to 9,
After performing step d),
The circuit breaker status monitoring method of the distribution board further comprising the step of transmitting, from the main instrument, the breaker abnormality information received from the instrument to a server. 11. The method of claim 10,
The method for monitoring a state of a circuit breaker of a distribution panel further comprising the step of receiving and displaying information on abnormality of a circuit breaker of a specific distribution panel by requesting the server from the user terminal.

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