KR102074174B1 - A system for managing the ict distributers - Google Patents

Abstract

The present invention relates to an ICT distribution board management system, which can remotely and smartly manage a distribution board such as prevention of a power accident of the distribution board using an ICT technology. The ICT distribution board management system according to the present invention comprises: a distribution board having a predetermined internal space installed with a plurality of branch circuits, and having an openable structure; a plurality of circuit breakers allocated to each of the branch circuits, and automatically turned on when an abnormal situation occurs to block power supplied to each of the branch circuits or controlled to be turned on/off by external control regardless of whether the abnormal situation occurs; a monitoring sensor unit installed in the distribution board, and monitoring the inside of the distribution board and states of the circuit breakers; a control unit installed in the distribution board, and controlling the circuit breakers in accordance with sensing information by the monitoring sensor unit and an external control signal; a communication unit installed in the distribution board, and allowing the control unit to communicate with an integrated control center through a wired/wireless communication network; and a mobile control means communicating with the control unit and the integrated control center through a wireless communication network, and remotely monitoring and controlling the control unit.

Description

ICT distribution board management system {A SYSTEM FOR MANAGING THE ICT DISTRIBUTERS}

The present invention relates to a distribution panel management system, and more particularly, to an ICT distribution panel management system capable of remotely managing a distribution panel such as preventing power accidents of the distribution panel using ICT technology.

The power monitoring system integrates and monitors the operation status of various power devices at a power usage site through a computer in a power system such as a power transmission system or a power supply and distribution system in various industries or houses. According to the result of collecting and analyzing power monitoring information such as voltage, current, integrated power, power factor, frequency, etc., it is possible to determine the abnormal situation causing power accident (eg power failure, over current, wire overload, fire, etc.). Enables quick action for situations and prevents excessive power demand.

For example, the conventional 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 other power devices.

On the other hand, such a power monitoring system, especially when power is supplied 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 devices Each power supply is used for safety in the event of an abnormal condition such as an abnormal current in a circuit (for example, a power failure, a short circuit, an overcurrent, etc.), a short circuit that causes arcing or sparking of these power device circuits, or a wire overload or waste of power in the power device circuit. It includes a distribution panel provided with a plurality of breakers for disconnecting the line between the appliance circuit and the outdoor distribution line.

In such a distribution board, when the outdoor distribution line is normally defined as a trunk line, each branch circuit is branched from the trunk line, that is, each branch at a point where the respective power device circuits constituted by various power devices installed in the indoor power use point branch and wire. It includes a number of breakers assigned to each circuit.

The conventional distribution board as described above is installed in a box-shaped housing and is divided into an embedded type, an exposed type and a semi-embedded type according to the installation method, and a plurality of circuit breakers assigned to each branch circuit are turned on when an abnormal situation occurs. It cuts off the power supplied to each branch circuit and turns on the alarm lamp to notify the manager of the power monitoring system that an abnormal situation has occurred.

However, the conventional distribution panel as described above has the 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, when the circuit breaker used in the above-mentioned conventional distribution board is a manual recovery type breaker, the manual recovery type breaker may be turned on automatically when an abnormal situation occurs to cut off the power supplied to each branch circuit. After the breakdown of the branch circuit is resolved, 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.

On the other hand, when the breaker used in the above-mentioned conventional distribution board is an auto-recovery type breaker, the auto-recovery type breaker is automatically turned on when an abnormal situation occurs to cut off the power supplied to each branch circuit, and then each branch. Although the fault condition of the circuit is expected to be resolved after a predetermined time, the state can be automatically restored to the off state and the power can be supplied to each branch circuit again, but the fault condition of each branch circuit until such time is passed. If the automatic recovery circuit breaker is restored in this unresolved state, and power is supplied to each branch circuit repeatedly, 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 fault condition of each branch circuit is cleared, manually restores the circuit breaker to the off state and powers each branch circuit. There is discomfort to make this resupply.

In addition, the above-described conventional distribution panel generates an alarm in such a manner that the alarm lamp is turned on, so that the manager of the power monitoring system can check the lighting state of the alarm lamp in real time to prevent timely resolving an abnormal situation of each branch circuit. There are disadvantages.

The technical problem to be solved by the present invention is to provide an ICT switchboard management system that can smartly manage the switchboard, such as to prevent the power accident of the switchboard using the ICT technology.

ICT distribution panel management system according to the present invention for solving the above technical problem has a predetermined internal space in which a plurality of branch circuits are installed, the distribution panel having a structure that can be opened and closed; It is assigned to each branch circuit and is automatically turned on when an abnormal situation occurs to cut off the power supplied to each branch circuit, or on / off by external control regardless of whether the abnormal situation occurs. A plurality of controlled circuit breakers; A monitoring sensor unit installed in the distribution panel and monitoring a state of the interior of the distribution panel and the plurality of circuit breakers; A control unit installed in the distribution panel and controlling the plurality of circuit breakers according to sensing information and an external control signal by the monitoring sensor unit; A communication unit installed in the distribution panel and configured to communicate the control unit with a comprehensive control center through a wired or wireless communication network; And a mobile control means for communicating with the control unit and the comprehensive control center by a wireless communication network, and for monitoring and controlling the control unit remotely.

And in the present invention, the monitoring sensor unit, a circuit breaker detecting unit for detecting a connection state of the circuit breaker; A short circuit detecting unit detecting a short circuit or an overcurrent state of the circuit breaker; A wire overload detection unit configured to detect current usage and overload of the main line flowing into the distribution panel; A temperature sensor configured to detect internal and external temperatures of the distribution panel; An arc detector for detecting arc and spark generation in the distribution panel; It is preferable to include a; vibration detection unit for detecting the vibration and shock of the distribution panel.

In addition, in the ICT distribution panel management system according to the present invention, a heater is further provided in the distribution panel, and the control unit lowers the temperature inside the distribution panel to a temperature below the reference temperature by the temperature sensing unit, or the temperature outside the distribution panel and the distribution panel. It is preferable to operate the heater when the internal temperature difference occurs above the warning level.

In addition, the distribution panel in the present invention, it is preferable that the opening and closing detection unit for detecting whether or not the distribution panel is further provided.

In addition, in the ICT distribution panel management system according to the present invention, the control unit preferably further includes a data storage unit for receiving and storing the sensing information detected by the monitoring sensor unit.

In addition, the ICT distribution board management system according to the present invention, which is installed outside the distribution panel, displays the amount of power used in the distribution panel, and at the same time occurring according to the power state of each branch circuit branched from the distribution panel or the internal temperature or distribution panel The front display unit for displaying the open and close state and the plurality of circuit breaker on / off state; is preferably further provided.

In addition, the ICT distribution board management system according to the present invention, it is preferable that the lightning protection unit for protecting the parts installed inside the distribution board installed in the distribution board is further provided.

In addition, in the ICT distribution panel management system according to the present invention, it is preferable that the extinguishing gas injection unit is further provided when the temperature inside the distribution panel rises above a dangerous temperature or an abnormal state is detected by the arc detection unit. .

In the present invention, the extinguishing gas injection unit is preferably a fire extinguishing tape coated with a capsule containing the extinguishing gas.

In addition, in the present invention, the fire extinguishing tape is preferably attached to a position adjacent to the breaker in the inner surface of the distribution panel.

In addition, in the distribution panel management system according to the present invention, the distribution panel, the capsule to forcibly burst the capsule by scratching the front of the digestion tape when the temperature inside the distribution panel rises above a dangerous temperature or an abnormal condition is detected by the arc detection unit. It is preferable that a breaker is further provided.

According to the ICT distribution board management system of the present invention, by using intelligent distribution panel and ICT technology, it is possible to manage a plurality of distribution panels in real time by connecting a plurality of distribution panels with a mobile control means of a general control center and a manager, and furthermore, Significant effects that can prevent and preempt the occurrence of accidents such as fire can be achieved.

1 is a conceptual diagram illustrating a configuration of an ICT distribution board management system according to an embodiment of the present invention.
2 is a block diagram showing the configuration of a distribution panel according to an embodiment of the present invention.
3 is a block diagram showing the configuration of a control unit according to an embodiment of the present invention.
4 is a view showing the structure of the extinguishing gas injection unit according to an embodiment of the present invention.
5 is a partial cross-sectional view schematically showing the structure of a fire extinguishing tape according to an embodiment of the present invention.
6 is a partial cross-sectional view showing the action of the capsule breaker according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a specific embodiment of the present invention.

As shown in FIG. 1, the ICT distribution panel management system 1 according to the present embodiment includes a distribution panel 100, a circuit breaker 500, a monitoring sensor unit 600, a control unit 700, a communication unit 800, and comprehensive control. Center 200 and the mobile control means 300 may be configured.

First, as shown in FIG. 1, the distribution board 100 has a predetermined internal space in which a plurality of branch circuits are installed, and is a component having a structure capable of opening and closing, and a space in which components such as the circuit breaker 500 are installed. Also provides.

Therefore, the distribution panel 100 may be configured of a main body 110 having a rectangular cylindrical shape having a front surface open and a gate 120 that opens and closes the open front surface of the main body 110. At this time, a contact portion between the gate 120 and the main body 110 is further provided with an airtight holding part (not shown in the drawing) that can maintain the airtight inside the distribution panel 100 while the gate 120 is closed. It is preferable.

Next, as shown in FIGS. 1 and 2, the breaker 500 is allocated to each branch circuit 130 of the inner space of the distribution panel 100 and is automatically installed when an abnormal situation occurs. It is a component that is cut off the power supplied to each branch circuit 130, or ON / OFF (ON / OFF) controlled by external control regardless of whether or not the abnormal situation occurs. Since the circuit breaker 500 is installed independently of each branch circuit 130, a plurality of circuit breakers are installed. A circuit breaker that can be generally employed may be employed as it is.

Next, the monitoring sensor unit 600 is installed in the distribution panel 100 and is a component for monitoring the state of the distribution panel 100 and the state of the plurality of circuit breakers 500. To this end, in the present embodiment, the monitoring sensor 600 is specifically, a circuit breaker detector 610, a ground fault detector 620, a wire overload detector 630, a temperature detector 640, an arc detector 650. And a vibration sensing unit 660.

First, the breaker detector 610 is a component that detects a connection state of the breaker 500. As described above, since the breaker 500 may be turned on or off by an external control or an external control, the breaker 500 detects the current state of each breaker whenever there is a change and the controller 700 detects this. To pass on.

Next, the ground fault detecting unit 620 is a component that detects a ground fault or an overcurrent state of the circuit breaker 500. The ground fault detecting unit 620 may have various configurations that can detect whether a ground fault or an overcurrent condition is established. For example, the ground fault detection unit 620 may electrically connect between the ground of the chassis and the ground of the load side to ground the ground of the load side from the ground of the chassis. It may have a structure for detecting the leakage current of the load side by determining whether the leakage detection current flows to the side.

In this way, when the short circuit detecting unit 620 detects a short circuit, the short circuit detecting signal provides the short circuit detecting signal to the control unit 700.

Next, the overload detection unit 630 displays the current electricity consumption of the main line flowing into the distribution panel and the allowable capacity of the wire being used, and provides the state to the controller 700 when the overload is overloaded. In this way, an internal display unit 140 may be further provided inside the distribution panel in order to display the current amount of electricity detected by the overload detection unit 630 and whether or not an overload exists.

Next, the temperature detector 640 is a component that senses internal and external temperatures of the distribution panel 100, respectively. Temperature sensors are provided inside and outside the distribution panel 100 to sense the temperature inside and outside the distribution panel 100 and transmit them to the controller 700.

In addition, a heater 670 is further provided in the distribution panel 100, and the control unit 700 lowers the temperature inside the distribution panel 100 to a reference temperature or lower by the temperature sensing unit 640, or the distribution panel. It is preferable to operate the heater 670 when the temperature difference between the outside temperature and the inside of the distribution panel is higher than the warning level. By the action of the heater 670 to maintain a constant temperature inside the distribution panel 100 to prevent the formation of moisture in the circuit breaker installed in the distribution panel.

Next, the arc detector 650 is installed inside the distribution panel 100 and is a component that detects arc and spark generation in the distribution panel. The arc detection unit 650 has a structure capable of detecting all arcs that occur in the breaker 500 and the distribution panel 100 in the daily space, and classified the detected arc into a routine arc and a dangerous arc. When the arc is generated, it is transmitted to the control unit 700.

Next, the vibration detection unit 660 is installed in the distribution panel 100 and is a component for detecting vibration and shock of the distribution panel 100. That is, the vibration detecting unit 660 detects the shock state due to the vibration and external force caused by the earthquake or the like of the distribution panel 100 and provides it to the control unit 700 when an abnormal situation occurs. This is because the vibration and shock may damage the inside of the distribution panel 100 or cause a fire.

Meanwhile, in the ICT distribution panel management system 1 according to the present embodiment, the distribution panel 100 may further include an opening / closing detection unit (not shown). The opening / closing detection unit detects the gate 120 when the gate 120 is separated from the main body 110 and provides it to the control unit 700. In particular, the manager or the like does not normally open the gate 120, but in the case of abnormal opening of the gate 120, it may be made by an accident or the like to monitor this in real time.

Next, the control unit 700 is installed in the distribution panel 100 and controls the plurality of circuit breakers 500 according to sensing information and an external control signal by the monitoring sensor unit 600 and controls sensing information and control information. Through the communication unit 800 is provided to the comprehensive control center 200 and the mobile control means (300). In addition, the control unit receives the control information from the comprehensive control center 200 or the mobile control means 300 through the communication unit 800 to control the distribution panel 100, such as the breaker (500).

To this end, the control unit 700 specifically includes a data storage unit 710, a data processing unit 720, and a communication unit 800 as shown in FIG. 3. First, the data storage unit 710 is a component that stores various sensing information provided in real time from the sensing sensor unit 600 in time series. The sensing information stored in this way is divided into predetermined periods and provided to the data processor 720.

In addition, the data processor 720 processes the provided sensing information to take necessary measures. For example, when the temperature inside the distribution panel 100 falls below a preset reference temperature in the temperature sensing information provided by the temperature sensing unit 640, the heater 670 is controlled to operate, and again, the distribution panel. If the internal temperature rises above the reference temperature, the operation of the heater is stopped. In addition, the temperature sensing unit 640 may control to operate the heater 670 when the temperature difference between the inside of the distribution panel and the outside temperature becomes greater than the warning level.

On the other hand, for everyday arcs of the arc detection information provided by the arc detection unit 650, the pattern is divided and stored for a predetermined period, and when a dangerous arc occurs, the breaker 500 is cut off and the fire extinguishing tape to be described later is scraped off from the distribution panel. (100) Prevent fires inside or extinguish early.

In addition, the controller 700 controls the circuit breaker 500 to block the circuit breaker 500 to prevent a fire accident in advance when the vibration information provided by the vibration detector 660 is detected to be greater than or equal to a preset size. do. When the gate 120 is abnormally opened by the opening / closing detection unit (not shown), the gate 120 is provided to the comprehensive control center 200 and the mobile control means 300.

Next, the communication unit 800 is installed in the distribution panel 100, and is a component that communicates the control unit 700 comprehensive control center 200 and the mobile control means 300 via a wired or wireless communication network 810. Since the communication unit 800 should be operated in an emergency situation such as a power failure, it is provided with a separate power supply means such as a battery (not shown in the drawing), and through this, the power is normally supplied with the control unit 700 in an emergency. do.

Meanwhile, it is preferable that the front panel 150 is further provided in the distribution panel 100 according to the present embodiment. The front display unit 150 is installed on the front surface of the gate 120, and displays an amount of power used by the distribution panel 100 and at the same time occurs depending on the power state of each branch circuit 130 branched from the distribution panel. Or it is a component that displays the internal temperature of the distribution panel 100 or the distribution panel opening and closing conditions and a plurality of circuit breaker on / off state. Therefore, the manager can check the status of the distribution panel 100 as it is through the contents displayed on the front display unit 150, and this information is the same in the general control center 200 and the mobile control means 300. Provided and displayed.

Meanwhile, in the present embodiment, the distribution panel 100 may further include a lightning protection unit (not shown), and the lightning protection unit may be installed in the distribution panel 100 to protect components installed therein from lightning. Element.

Next, the comprehensive control center 200 is installed at a distance from the distribution panel 100 and is provided with control information and sensing information for a plurality of distribution panels 100, stores and processes them, and stores necessary control information. It is a component provided to the control unit 700 and the mobile control means 300 through the communication unit 800. In addition, the comprehensive control center 200 is provided with a large capacity server (not shown in the figure) to store the sensing information and accident situation information provided from the individual distribution panel 100 and process the function to predict the accident situation is also performed. .

And when the abnormal situation occurs in the individual distribution panel, the integrated control center 200 provides the fault removal team 400 with the fault removal information to quickly remove the fault and normalize.

Next, the mobile control means 300 is a component that communicates with the control unit 700 and the comprehensive control center 200 by a wireless communication network, and remotely monitors and controls the distribution panel 100 and the control unit 700. That is, the mobile control means 300 is provided as a mobile communication means such as a smartphone that the individual manager is portable, even if the individual manager does not visit the panel 100 directly can accurately monitor the status of the distribution panel in real time. In addition, it provides a function to remotely normalize when a failure occurs.

Therefore, the mobile control means 300 is provided with a program for checking the status of the distribution panel 100 in real time and remotely controlling the distribution panel, thereby providing an administrator interface. At this time, the program can be easily downloaded and used in the same way as a smartphone app.

On the other hand, the distribution panel 100 according to the present embodiment is preferably further provided with a digestion gas injection unit (900). The extinguishing gas injection unit 900 is installed in the distribution panel 100, and when the temperature inside the distribution panel 100 rises above a dangerous temperature or when an abnormal state is detected by the arc detection unit 650, the extinguishing gas is discharged. It is a component to prevent or suppress fire by spraying.

To this end, the extinguishing gas injection unit 900 may be configured to include a fire extinguishing tape 910 coated with a capsule 920 containing the extinguishing gas, as shown in FIG. 5. In this case, the capsule 920 is adhered to one surface of the tape 910 by the adhesive component 930, and at least half of the capsule 920 is bonded to the outside. Thus exposed portion of the capsule 920 is an advantage to be easily destroyed by the capsule breaker 940 to be described later.

In addition, an adhesive layer (not shown) is formed on a rear surface of the tape 910 so that the tape 910 may be attached to the surface of the distribution panel 100 or the inner surface of the gate 120.

In the present embodiment, since the fire extinguishing tape 910 is preferably installed adjacent to the position where the fire is most likely to occur in the distribution panel 100, the fire extinguishing tape 910 is disposed on the breaker 500 in the inner surface of the gate 120. Attached to adjacent locations.

In addition, in this embodiment, the distribution panel 100, as shown in Figure 4, it is preferable that the capsule breaker 940 is further provided. The capsule breaking part 940 is to scrape the surface of the fire extinguishing tape 910 attached to the distribution panel 100 to force the capsule 920 provided in the fire extinguishing tape as shown in FIG. 6. .

Therefore, the capsule breaker 940 is extinguished according to a control signal of the controller 700 when the temperature inside the distribution panel 100 rises above a dangerous temperature or when an abnormal state is detected by the arc detector 650. The capsule 920 is forcibly popped by scratching the front surface of the tape 910, and the capsule breaker 940 has a structure that is automatically driven by sliding the riding rail 942 by an electric drive.

In the present embodiment, the inside of the capsule 920 is filled with a liquid CF ₃ CF ₂ C (O) CF ₂ CF ₂ CF ₃ is preferable because the effective digestion is possible by the boiling point of about 90 ℃, the capsule ( It is preferable that 920 consists of resin melt | dissolved by the heat of 80-100 degreeC. Of course, in the present embodiment, even if the capsule 920 is made of a resin that is not dissolved by heat, it is sufficient because it is forcibly discarded by the capsule breaker 940.

Meanwhile, in the present embodiment, the extinguishing gas injection unit 900 may not be formed in a tape shape but may be formed as a coating film directly coated on a surface of an installation part such as the distribution panel 100 or the circuit breaker 500. In this case, the extinguishing gas injection unit 900 may be easily installed on a curved surface or a curved surface instead of a plane.

When the extinguishing gas injection unit 900 is formed as a coating film as described above, the capsule 920 is mixed with an adhesive, and the adhesive is preferably a polyglucosamine polymer of Formula 1 below, which enables quick drying.

<Formula 1>

(Wherein n is an integer of 2 to 1000, X is CH ₂ -O or (CH ₂ ) _y , y is 0 or 1, m is 1, 1 or 2, R is H, methyl, ethyl, acetyl, Propionyl or butyryl groups)

1: ICT distribution board management system according to an embodiment of the present invention
100: distribution board 200: general control center
300: mobile control means 400: disability elimination team
500: breaker 600: monitoring sensor
700 control unit 800 communication unit
900: extinguishing gas injection unit

Claims (3)

A distribution panel having a predetermined internal space in which a plurality of branch circuits are installed and having a structure capable of opening and closing;
It is assigned to each branch circuit and is automatically turned on when an abnormal situation occurs to cut off the power supplied to each branch circuit, or ON / OFF by external control regardless of whether or not the abnormal condition occurs. A plurality of controlled circuit breakers;
A monitoring sensor unit installed in the distribution panel and monitoring a state of the distribution panel and the plurality of circuit breakers;
A control unit installed in the distribution panel and controlling the plurality of circuit breakers according to sensing information and an external control signal by the monitoring sensor unit;
A communication unit installed in the distribution panel and configured to communicate the control unit with a comprehensive control center through a wired or wireless communication network;
And a mobile control means communicating with the control unit and a comprehensive control center by a wireless communication network, and monitoring and controlling the control unit remotely.
The monitoring sensor unit,
A breaker detector for detecting a connection state of the breaker;
A short circuit detecting unit detecting a short circuit or an overcurrent state of the circuit breaker;
A wire overload detector configured to detect a current amount of electricity and an overload of the main line flowing into the distribution panel;
A temperature sensing unit for sensing internal and external temperatures of the distribution panel;
An arc detector for detecting arc and spark generation in the distribution panel;
Vibration sensing unit for detecting the vibration and shock of the distribution panel;
The fire extinguishing gas injection unit is installed as a fire extinguishing tape coated with a capsule containing the extinguishing gas in the distribution panel, and injects the extinguishing gas when the temperature inside the distribution panel rises above a dangerous temperature or an abnormal state is detected by the arc detector. And
A capsule breaker installed in the distribution panel and scraping the surface of the extinguishing gas injection unit attached to the distribution panel to forcibly burst the capsule provided in the extinguishing gas injection unit;
The capsule is an ICT distribution board management system, characterized in that the resin is dissolved by heat of 80 ~ 100 ℃ and the liquid CF ₃ CF ₂ C (O) CF ₂ CF ₂ CF ₃ filled in the resin. delete delete

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