KR101349333B1 - Power monitoring switchboard - Google Patents

Abstract

The present invention relates to a power monitoring switchboard The power monitoring switchboard enables an administrator of a power monitoring system to select multiple breakers allocated to each branch circuit of the power monitoring switchboard and to control the multiple breaker to turn or off automatically by transmitting an on/off message for a breaker using a mobile terminal when the administrator wants to turn on or off the breaker to run a surveillance test, area walkdown, or failure inspection, to actively cope with an abnormal situation occurring in each branch circuit or the switchboard by receiving a warning message issued by the power monitoring switchboard through the mobile terminal. In addition, the power monitoring switchboard is capable of detecting an arc or spark occurred in each breaker, thereby allowing the administrator to correctly select and control an abnormal breaker to turn on or off. [Reference numerals] (110) Blockade bar; (112) Arc Spark detector; (120) Display unit; (130) Touch screen unit; (140) Main board; (141) Outage sensor; (142) Smoke sensor; (143) Temperature sensor; (144) Door opening/closing sensor; (145) Battery; (146) Micro processor; (147) Mobile communication module; (200) Branch circuit

Description

Power monitoring switchboard {POWER MONITORING SWITCHBOARD}

The present invention relates to a power monitoring distribution panel, and more particularly, to remotely control a breaker through a mobile communication terminal registered in advance by an administrator of the power monitoring system, and to send an alarm message to the mobile communication terminal when an alarm occurs, B. It relates to a power monitoring distribution board that enables the detection and control of sparks.

The power surveillance system integrates and monitors the operation states of various power devices at the power use site through a computer in a power system such as a power transmission system or a power reception and distribution system of various industries or houses, It is possible to detect an abnormal situation that causes electric power accidents (for example, power failure, overcurrent, electric wire overload, fire, etc.) depending on the result of collecting and analyzing the information for power monitoring such as voltage, current, integrated electric power, Allows quick action to occur and prevents excessive power demand.

For example, the power monitoring system as described above performs a safety control function that cuts a line of a power device when an abnormal situation of one or more power devices is determined during operation of various power devices at a power usage site. Promote smooth and stable power supply to devices.

On the other hand, such a power monitoring system, especially when supplying power to a plurality of power device circuits constituted by various power devices installed in the indoor power use point on the outdoor power distribution line in various industrial or residential power distribution system, these power device circuit Each power device for safety in case of abnormality such as abnormal current (e.g. power failure, short circuit, over current), short circuit which causes arc or spark of these power device circuits, overload or waste of power in these power device circuits. It includes a power monitoring distribution panel equipped with a plurality of breakers for disconnecting the line between the circuit and the outdoor distribution line.

For example, such an electric power monitoring distribution board usually has a branch where each of the branch circuits, i.e., each of the power device circuits constituted by the various power devices installed in the indoor power use point, branch off from the trunk line. It includes a plurality of breakers assigned to each branch circuit in the.

Such power monitoring distribution panel is installed inside the box-shaped housing and is divided into embedded type, exposed type and semi-embedded type according to the installation method. It cuts off the power supplied to the branch circuit of the system and turns on the alarm lamp to notify the manager of the power monitoring system of the abnormal situation.

However, such a power monitoring distribution panel has an inconvenience of manually controlling the breaker when the manager of the power monitoring system wants to turn on / off the breaker for periodic check, instantaneous check or fault check.

In fact, if the breaker used in such a power monitoring distribution board is a manual recoverable breaker, the manual recoverable breaker may be turned on automatically when an abnormal situation occurs to cut off the power supplied to each branch circuit. After the circuit abnormality is solved, the administrator of the power monitoring system has to manually restore the breaker to the off state so that power is supplied to each branch circuit again.

On the other hand, if the breaker used in the power monitoring distribution panel is an auto-recovery breaker, the auto-recovery breaker is automatically turned on when an abnormal situation occurs and cuts off the power supplied to each branch circuit and then each branch circuit. The fault condition of the branch circuit may be automatically restored to the off state after the predetermined time that is expected to be resolved, and the power may be supplied to each branch circuit again. If the automatic recovery circuit breaker is restored in the unresolved state and the power is supplied again to each branch circuit, an abnormal situation occurs repeatedly, and as a result, a power accident is caused.

Therefore, in this case, the administrator of the power monitoring system manually cancels the automatic recovery operation of the self-healing circuit breaker, and after the failure of each branch circuit is cleared, manually restores the breaker to the off state to the respective branch circuit. There is an inconvenience in having the power supplied again.

In addition, such a power monitoring distribution panel generates an alarm in such a manner that the alarm light is turned on, so that an administrator of the power monitoring system checks the lighting state of the alarm light in real time and does not actively respond to an abnormal situation of each branch circuit. .

Related prior art is Korean Patent Publication No. 10-2010-00125809 (2010.12.01.) "Intelligent distribution panel".

The present invention was made to solve the above problems, and when the administrator of the power monitoring system receives a breaker on / off message to select a breaker as a mobile communication terminal registered in advance and control the breaker automatically on / off It is an object of the present invention to provide a power monitoring distribution board that automatically turns on / off the breaker.

According to the present invention, an abnormal situation occurs according to the power state of each branch circuit branched from the distribution panel (for example, when an arc or spark occurs for each breaker, when a power failure occurs in a distribution panel, when a short circuit occurs in each branch circuit, or when an overcurrent occurs in each branch circuit). Alarming in response to low current in each branch circuit, wire overload in each branch circuit, smoke detection in the distribution board, etc.) and sending an alarm message to a mobile communication terminal of a pre-registered power monitoring system administrator. Another purpose is to provide a power monitoring distribution panel.

Another object of the present invention is to provide an electric power monitoring switchboard for installing an arc spark detector on each circuit breaker to detect the occurrence of arcs and sparks for each breaker so that an abnormal circuit breaker can be accurately selected and controlled on / off. .

Another object of the present invention is to provide a power monitoring distribution panel that can display the operation state of the power monitoring distribution panel on a touch screen and set the touch mode.

According to an aspect of the present invention, a power monitoring distribution panel includes a plurality of breakers that are assigned to each branch circuit and are automatically turned on when an abnormal situation occurs to cut off power supplied to each branch circuit; A plurality of arc spark detectors for detecting arcing or sparking occurring in each of the plurality of breakers; And a power outage detector installed in the distribution panel to detect a power outage according to the supply interruption of the main power input to the distribution panel, a smoke detector installed in the distribution panel to detect the occurrence of smoke, a temperature sensor installed in the distribution panel to sense temperature, and a distribution panel. Door opening / closing detector installed inside to detect the door open / closed status of the distribution board, installed inside the distribution board to supply auxiliary power in case of power outage of the distribution board, and to be charged when the power is released from the distribution board, connected to the mobile communication network Receives a breaker on / off message from the terminal, registers and updates the mobile communication module for transmitting an alarm message to the mobile communication terminal, and the mobile communication terminal, and receives the breaker on / off message from the mobile communication terminal through the mobile communication module. The circuit breaker is automatically turned on and off. It controls on / off control of several circuit breakers according to the state and sets the function, and detects the result of detection of multiple arc spark detectors, power failure detector, smoke detector, temperature sensor, door open / close detector and on / off status of each circuit breaker. And a main board including a microprocessor for generating an alarm and transmitting an alarm message to the mobile terminal based on the result.

In the present invention, the display unit further comprises a touch screen unit for setting the values of the plurality of breakers, manual on / off control of the breakers, and setting the alarm history history screen in a touch manner.

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In the present invention, when the microprocessor displays the total load usage through the display unit, the electrical load utilization rate of each of the R-phase, S-phase, and T-phase lines of each branch circuit branched from the distribution panel is determined based on the cross-sectional area of each line. It is characterized in that 70% of the maximum allowable current amount is displayed as the electrical load utilization of 99%.

In the present invention, when the microprocessor displays the electric load value of the circuit breaker through the display unit, if an electric load value of 80% or more of the maximum allowable current amount determined based on the cross-sectional area of each line is displayed, it is determined that the circuit breaker is overcurrent or overloaded. It is characterized by indicating that the abnormal state.

In the present invention, when the current of the circuit breaker is maintained for less than the predetermined minimum allowable current value as the alarm delay time, it is characterized by the low current to indicate that the breaker is abnormal.

According to the present invention, when the administrator of the power monitoring system wants to turn on / off the breaker for periodic inspection, instantaneous inspection or failure check, etc., each branch of the power monitoring distribution panel is transmitted by transmitting a breaker on / off message through the mobile communication terminal. Multiple circuit breakers assigned to each circuit can be selected to automatically control the on / off, and when an alarm message is issued from the power monitoring distribution panel, an alarm is generated and also received through the mobile communication terminal, thereby causing an abnormal situation of each branch circuit or distribution panel. Actively respond to the problem and resolve it.

According to the present invention, an arc spark detector is installed in each breaker to detect the occurrence of arc and spark for each breaker, thereby accurately selecting the breaker in which an abnormality occurs and controlling on / off.

Another object of the present invention is to provide a power monitoring distribution panel that can display the operation state of the power monitoring distribution panel on a touch screen and set the touch mode.

1 is a perspective view of a power monitoring distribution panel according to an embodiment of the present invention.
2 is a block diagram showing the configuration of a power monitoring distribution panel according to an embodiment of the present invention.
3 is an exemplary view showing a main screen displayed on the display unit of the power monitoring distribution panel according to an embodiment of the present invention.
4 is an exemplary view showing an alarm history screen displayed on the display unit of the power monitoring distribution panel according to an embodiment of the present invention.
5 is an exemplary view showing a circuit breaker control screen displayed on the display unit of the power monitoring distribution panel according to an embodiment of the present invention.
6 is an exemplary view showing a value setting screen for each breaker displayed on the display unit of the power monitoring distribution panel according to an embodiment of the present invention.
7 is a line detection table indicating a maximum allowable current amount determined based on the cross-sectional area of each line according to KS standards related to information and communication facilities.

Hereinafter, an embodiment of a power monitoring distribution panel according to the present invention with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a perspective view of a power monitoring distribution panel according to an embodiment of the present invention, Figure 2 is a block diagram showing the configuration of a power monitoring distribution panel according to an embodiment of the present invention, Figure 3 is an embodiment of the present invention 4 is an exemplary view showing a main screen displayed on the display unit of the power monitoring panel according to an embodiment of the present invention. FIG. 4 is an exemplary view showing an alarm history screen displayed on the display unit of the power monitoring panel according to an embodiment of the present invention. 6 is an exemplary view illustrating a circuit breaker control screen displayed on a display unit of a power monitoring distribution panel according to an exemplary embodiment of the present invention, and FIG. 6 is a diagram illustrating setting of circuit breaker values displayed on a display unit of a power monitoring distribution panel according to an exemplary embodiment of the present invention. 7 is an exemplary diagram showing a screen, and FIG. 7 is a line displaying a maximum allowable current amount determined based on a cross-sectional area of each line according to KS standards related to information and communication facilities. It is a detection table.

1 to 6, the power monitoring distribution panel according to the exemplary embodiment of the present invention is installed inside a box-shaped housing, and includes a plurality of breakers 110 and a plurality of arc spark detectors 112. ), The display unit 120 and the main substrate 140.

A plurality of circuit breakers 110 are assigned to each branch circuit 200 so that when an abnormal situation occurs (eg, when a short circuit occurs in each branch circuit 200, an overcurrent occurs in each branch circuit 200, a respective branch circuit) When the low current of 200 occurs, such as when the wire overload of each branch circuit (200) is automatically turned on to cut off the power supplied to each branch circuit (200).

In addition, the plurality of circuit breakers 110 are switched to the screen of FIG. 5 when the circuit breaker ON / OFF is selected by the touch method through the touch screen unit 130 on the screen of the display unit 120 regardless of whether an abnormal situation occurs. You can control the on / off manually.

A plurality of arc spark detectors 112 detects the occurrence of arcs or sparks generated in each of the plurality of breakers 110, and when the arcs or sparks are generated, the breakers 110 in which the arcs or sparks are generated individually. Select to enable on / off control.

As shown in FIG. 1, the display unit 120 is installed outside the front side of the power monitor panel so that the operation state and the setting state can be seen, and the values of the plurality of circuit breakers are touched by touching the screen of the display unit 120. It further includes a touch screen 130 to set, control the circuit breaker 110 on / off manually, and check the history of the alarm history.

At this time, as shown in FIG. 3, the display unit 120 displays the total power consumption and the total load consumption of the distribution panel on the main screen, and an abnormal situation occurs according to the power state of each branch circuit 200 branched from the distribution panel. (E.g., when an arc or spark occurs by breaker, power failure, short circuit, short circuit, overcurrent, low current, wire overload, smoke detection in the distribution panel, etc.) It displays the door closed state, the on / off state of the plurality of circuit breakers 110 for cutting off / supplying power to each branch circuit 200 branched from the distribution panel, and the breaker capacity and usage set in each of the circuit breakers 110 Displays set value, alarm delay time, load monitoring, alarm and setting status.

The total load usage indicates the electrical load utilization of each of the R phase, S phase, and T phase lines.

At this time, the electric load utilization rate of each line is expressed in% unit corresponding to the maximum allowable current amount determined based on the cross-sectional area of each line as shown in the line detection table of FIG. 7.

When the microprocessor 146 displays the total load consumption of each of the R-phase, S-phase, and T-phase lines of each branch circuit 110 branched from the distribution panel, 70 of the maximum allowable current amount determined based on the cross-sectional area of each line. The percentage is expressed as 99% of the electrical load utilization. The reason why 70% of the maximum allowable current is displayed as an electric load utilization rate of 99% is for safety by preventing overcurrent or overload.

The total amount of power used is displayed by dividing the total accumulated consumption used after the initial installation of the distribution board, the last month used last month, this month used this month.

In addition, the alarm screen history menu, the breaker ON / OFF menu, the breaker value setting menu is configured on the main screen of the display unit, when the alarm history history menu is selected by a touch method, the screen is switched to the screen as shown in FIG. To be initialized. When the breaker ON / OFF menu is touched, the screen is switched to the screen as shown in FIG. 5 so that the on / off menu for each breaker is displayed, and when the touch is touched, the breaker is controlled on / off.

In addition, when the breaker value setting menu is touched, the screen is switched to the screen shown in FIG. 6 to set the upper and lower limits of the load set value and allowable current amount by a touch method, and the main wire capacity and the total circuit breaker capacity are displayed. Allows you to select settings, full auto setup, and set alarm delay time.

At this time, when the microprocessor 146 displays the electric load value of the circuit breaker 110 (for example, the amperage (A) unit value), the electric load value of 80% or more of the maximum allowable current amount determined based on the cross-sectional area of each line is increased. If displayed, it is determined by overcurrent or overload to display an alarm for the circuit breaker 110 on the main screen.

The load set value, the upper limit setting and the lower limit setting are the maximum allowable current value (e.g.,% unit value of the electrical load value of the breaker) that is set to generate an overcurrent when the overcurrent of the circuit breaker 110 is maintained for more than a predetermined time (for example, 10 seconds). ) And the minimum allowable current value (eg, the value in% of the electric load value of the circuit breaker 110). For example, if the load set value is set to 15 amps (A) and 10% is set to the upper limit, the maximum load value of the circuit breaker 110 is set to 15 + 1.5 = 16.5 amps (A). And, if 10% is set in the lower limit setting, the minimum load value of the circuit breaker 110 is set to 15-1.5 = 13.5 amperes (A).

The main board 140 registers and updates the mobile communication terminal and automatically controls the circuit breaker on / off when receiving the breaker on / off message through the mobile communication terminal, and according to the touch state of the display unit 120, When the breaker 110 is turned on / off and the function is set, an abnormal situation occurs according to the power state of each branch circuit 200 branched from the distribution panel (for example, when an arc or spark occurs for each circuit breaker, when a power failure occurs in the distribution panel, When a short circuit occurs in each branch circuit 200, an overcurrent occurs in each branch circuit 200, a low current occurs in each branch circuit 200, a wire overload occurs in each branch circuit 200, and a distribution board smoke is sensed. And the like, or generate alarms on the display unit 120 based on the result of detecting the temperature of the distribution panel or the door open / closed state of the distribution panel. And it sends an alarm message to the end.

At this time, the alarm message transmitted to the mobile communication terminal of the manager is an arc or spark generation message for each breaker, a power failure occurrence message of the distribution panel, a short circuit occurrence message of each branch circuit 200, an overcurrent generation message of each branch circuit 200, Low current occurrence message of each branch circuit 200, wire overload occurrence message of each branch circuit 200, distribution board smoke detection message, distribution board temperature abnormal message, distribution panel door open message, distribution panel door closing message and the like.

As shown in FIG. 2, the main board 140 includes an electrostatic detector 141, a smoke detector 142, a temperature sensor 143, a door open / close detector 144, a battery 145, and a microprocessor 146. And a mobile communication module 147.

The power failure detector 141 is installed inside the distribution panel to detect a power failure due to the supply cutoff of the main power input to the distribution panel.

Smoke detector 142 is installed inside the distribution panel to detect the occurrence of smoke.

The temperature sensor 143 is installed inside the distribution panel to sense the temperature.

The door open / close detector 144 is installed inside the distribution panel to detect a distribution panel door open / closed situation.

The battery 145 is installed inside the distribution panel to supply auxiliary power when a power failure occurs in the distribution panel, and is charged when the power distribution of the distribution panel is released.

The mobile communication module 148 is connected to a mobile communication network (not shown), receives a breaker on / off message from a mobile communication terminal (not shown), and transmits an alarm message to the mobile communication terminal.

At this time, the mobile communication terminal includes a smartphone or a PDA.

The microprocessor 146 registers and updates the mobile communication terminal of the power monitoring system manager, and automatically operates the circuit breaker 110 when the circuit breaker on / off message is received by the mobile communication terminal registered in advance through the mobile communication module 148. Control on / off.

In addition, the microprocessor 146 may include a plurality of arc spark detectors 112, an electrostatic detector 141, a smoke detector 142, a temperature sensor 143, and a door open / close detector 144 respectively installed in the plurality of circuit breakers 110. Based on the detection result of the on / off state of each breaker 110 and generates an alarm to the display unit 120 and through the mobile communication module 148 of the pre-registered power monitoring system administrator Send an alarm message to the mobile communication terminal.

In addition, the microprocessor 146 determines that the breaker 110 is in an abnormal state when the current of the breaker 110 is maintained at an alarm delay time less than or equal to a predetermined minimum allowable current value.

In addition, the microprocessor 146 selects the breaker 110 as a mobile communication terminal registered in advance by the administrator of the power monitoring system through the mobile communication module 148 to automatically turn on / off the breaker 110. When the / off message is received, the circuit breaker 110 is automatically on / off control.

When the microprocessor 146 receives the mobile communication terminal registration message defined as "> PN (registration sequence number) (mobile communication terminal) S", the microprocessor 146 registers the mobile communication terminal as the registration sequence number and records the registration details in the administrator's mobile communication terminal. Send to inform

When the microprocessor 146 receives the number view message defined as "> PNVIEW", the microprocessor 146 transmits the currently registered mobile communication terminal to the administrator's mobile communication terminal to view the number.

When the microprocessor 146 receives the mobile communication terminal deletion message designated as "> PNDEL (registration sequence number)", the microprocessor 146 deletes the mobile communication terminal currently registered with the registration sequence number and transmits the deletion history to the administrator's mobile communication terminal. Inform. In addition, upon receiving the message of deleting all the mobile communication terminals designated as " PNDELA, " all the currently registered mobile communication terminals are deleted.

The microprocessor 146 automatically turns on the breaker 110 corresponding to the breaker number and transmits the breaker on details to the administrator's mobile terminal upon receiving the breaker on message set as "> (password) BON (breaker number)". To inform. Also, if all the breakers specified as "> (password) BONA" are received, all the breakers are automatically turned on.

When the microprocessor 146 receives the breaker off message set as "> (password) BOFF (breaker number)", the microprocessor 146 automatically turns off the breaker 110 corresponding to the breaker number and transmits the breaker off history to the administrator's mobile terminal. To inform. In addition, all breakers specified as "> (Password) BOFFA" turn on all breakers automatically upon receiving an off message.

When the microprocessor 146 receives the password change message defined as "> SN (current password) TO (change password) ”, the microprocessor 146 changes the current password to the change password and transmits the password change history to the administrator's mobile communication terminal.

The microprocessor 146 receives a touch state through the touch screen unit 130 of the display unit 120, sets various values, and controls the circuit breaker 110 on / off by a touch method.

Referring to the operation of the power monitoring distribution panel according to an embodiment of the present invention configured as described above in more detail.

First, when the manager touches the screen of the display unit 120, the manager receives the touch state through the touch screen unit 130 and collectively sets the low current condition of the electrical unit of each branch circuit 200 branched from the distribution panel in the automatic mode. Can be set or set to manual mode.

For example, an administrator may manually set the circuit breaker 110 by touching the circuit breaker ON / OFF menu displayed on the display 120 to select ON / OFF manually. The electric load or low current condition of the branch circuit 200 is set collectively by automatic setting.

Alternatively, the electrical load or the low current condition of each branch circuit 200 may be set manually by selecting the circuit breaker 110.

Thus, in the state where the electric load or the low current condition of each branch circuit 200 is collectively set to automatic setting or completed by manual setting, an abnormal situation (for example, according to the power state of each branch circuit 200 branched from the distribution panel) In case of arc or spark generation by breaker, in case of power outage of distribution board, in case of leakage current of each branch circuit 200, in case of overcurrent of each branch circuit 200, in case of low current of each branch circuit 200, each branch When a wire overload occurs in the circuit 200, when smoke is detected in a distribution panel, or when a distribution panel temperature or distribution panel door opening / closing situation occurs, the microprocessor 146 operates as follows.

When the arc spark detector 112 detects an arc or spark generation for each breaker, the arc spark detector 112 displays and flashes the arc or spark generation on the display 120. At this time, if you select the alarm history history, you can check the history of the alarm of each breaker, and you can also clear it.

When the power failure detector 141 detects a power failure caused by the supply cutoff of the main power input to the distribution panel, the display unit 120 displays the occurrence of power failure and blinks it. In this state, when the battery 145 operates as an auxiliary power source and the main power source is input again, normal operation is displayed.

In each branch circuit 200, the circuit breaker 110 assigned to each branch circuit 200 is automatically turned on as an abnormal situation among any one of an electric leakage, an overcurrent, a low current, and a wire overload occurs. When the power supplied to the 200 is cut off, a short circuit, an overcurrent, a low current, and an overload of the wire are displayed on the display 120 and the corresponding screen flashes.

When the smoke detector 142 detects smoke generation in the distribution panel, the smoke detector 142 displays and detects the smoke on the display 120.

The temperature detected by the temperature sensor 143 in the distribution panel is also displayed on the display unit 120.

When the door open / close detector 144 detects a door open state in a state in which the door of the distribution panel is closed, or detects a door close state in a state in which the door of the distribution panel is opened, the panel 120 opens or displays the panel door closed on the display unit 120. do.

In this way, the microprocessor 146 displays an alarm occurrence through the screen of the display unit 120, and at the same time, the microprocessor 146 is a mobile communication of the power monitoring system manager registered in advance through the mobile communication module 148. Send an alarm message to the terminal.

For example, the alarm message transmitted by the microprocessor 146 to the mobile communication terminal of the power monitoring system manager may include an arc or spark generation message for each breaker, a power failure occurrence message for the distribution board, a short circuit generation message for each branch circuit 200, Overcurrent generation message of branch circuit 200, low current generation message of each branch circuit 200, wire overload occurrence message of each branch circuit 200, distribution board smoke detection message, distribution board temperature abnormal message, distribution panel door open message , Panel door closing messages, and so on.

When the microprocessor 146 transmits an alarm message to the mobile communication terminal of the power monitoring system manager registered in advance through the mobile communication module 148, the manager of the power monitoring system receives the alarm message at the same time as the alarm is generated. Timely and active resolution of abnormalities in circuits or distribution boards.

In this case, when receiving the message "> PN1 (mobile communication terminal) S ", for example, the microprocessor 146 registers the mobile communication terminal with the first number and transmits the registration details to the administrator's mobile communication terminal. If a message written as " > PN2 (mobile communication terminal) S " is received, it is registered with the second number. That is, the messages PN1 and PN2 mean registration sequence numbers of the mobile communication terminal.

In addition, when receiving the message "> PNDEL1 ", for example, the microprocessor 146 deletes the mobile communication terminal currently registered with the first number and transmits the deletion history to the mobile communication terminal of the administrator. In addition, upon receiving the message of deleting all the mobile communication terminals designated as " PNDELA, " all the currently registered mobile communication terminals are deleted.

On the other hand, when the administrator of the power monitoring system wants to turn on / off the breaker for periodic inspection, instantaneous inspection or failure check, it sends a breaker on / off message to the mobile communication terminal for each branch circuit of the power monitoring distribution panel. Multiple assigned breakers can be selected for automatic on / off control.

In this case, when the microprocessor 146 receives the breaker on message written as "> (password) BON1 " through the mobile communication module 148, the microprocessor 146 automatically turns on the first breaker and records the breaker on details of the manager's mobile communication terminal. Send to inform Also, if all the breakers specified as "> (password) BONA" are received, all the breakers are automatically turned on.

In addition, when the microprocessor 146 receives a breaker off message written as "> (password) BOFF1 ", for example, the microprocessor 146 automatically turns off the first breaker and transmits the breaker off history to the administrator's mobile communication terminal. In addition, all breakers specified as "> (Password) BOFFA" turn on all breakers automatically upon receiving an off message.

As described above, according to the power monitoring distribution panel according to the present invention, when the administrator of the power monitoring system wants to turn on / off the breaker for the periodic inspection, the instantaneous inspection or the failure inspection, the breaker on / off message is transmitted through the mobile communication terminal. Thus, a plurality of circuit breakers assigned to each branch circuit of the power monitoring distribution panel can be selected to control the on / off automatically, and when an alarm message is issued from the power monitoring distribution panel, the alarm message is received and received through the mobile communication terminal. Actively respond to the abnormal conditions of the branch circuit or distribution panel of the circuit breaker, and by detecting the occurrence of arcs and sparks for each breaker, it is possible to accurately select the on-off breaker to control the on / off.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill 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. I will understand. Accordingly, the technical scope of the present invention should be defined by the following claims.

100: power monitoring distribution board 110: circuit breaker
112: arc spark detector 120: display unit
130: touch screen unit 140: main board
141: blackout detector 142: smoke detector
143: temperature sensor 144: door open and close detector
145: battery 146: microprocessor
147: mobile communication module 200: branch circuit

Claims (6)

A plurality of circuit breakers that are assigned to each branch circuit and are automatically turned on when an abnormal situation occurs and cut off power supplied to each branch circuit;
A plurality of arc spark detectors for detecting arc or spark generation generated in each of the plurality of breakers; And
A power outage detector installed in the distribution panel to detect a power outage according to the supply cutoff of the main power input to the distribution panel, a smoke sensor installed in the distribution panel to detect smoke generation, and a temperature sensor installed in the distribution panel to sense temperature A door opening / closing detector installed inside the distribution panel for detecting a door open / closed state of the distribution panel, and installed inside the distribution panel to supply auxiliary power when the power distribution board is interrupted, and to be charged when the power distribution panel is released. A mobile communication module connected to a communication network, receiving a breaker on / off message from a mobile communication terminal, transmitting an alarm message to the mobile communication terminal, and registering and updating the mobile communication terminal, and moving the mobile communication module through the mobile communication module. Breaker on / off message received from communication terminal Automatic on / off control, on / off control of the plurality of circuit breakers and function setting according to the touch state on the display unit, the plurality of arc spark detectors, the electrostatic detector, the smoke detector, the temperature sensor, A main board including a microprocessor for generating an alarm on the display unit and transmitting an alarm message to the mobile communication terminal based on a detection result of the door open / close detector and a result of detecting an on / off state of each breaker; Power monitoring distribution panel comprising a.
The method of claim 1, wherein the display unit further comprises a touch screen unit for setting the values of the plurality of circuit breakers, manual on / off control of the circuit breakers, and setting the alarm history history screen by a touch method. Power monitoring distribution board.
delete The electrical load utilization rate of each of the R phase, S phase, and T phase lines of each branch circuit branched from the distribution panel when the microprocessor displays the total load consumption through the display unit. A power monitoring distribution panel, characterized in that 70% of the maximum allowable current amount determined based on the 99% of the electrical load utilization.
The method of claim 1, wherein when the microprocessor displays an electric load value of the circuit breaker through the display unit, if an electric load value of 80% or more of the maximum allowable current amount determined based on the cross-sectional area of each line is displayed, The power monitoring distribution panel, characterized in that by determining that the breaker is abnormal.
The power monitoring distribution panel according to claim 1, wherein the microprocessor determines that the breaker is in an abnormal state by determining the low current when the current of the breaker is maintained for an alarm delay time below a predetermined minimum allowable current value.

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