KR101300523B1 - Switch board fire watch control unit - Google Patents

Abstract

PURPOSE: A distribution panel fire detection controller is provided to display an alarm to enable an operator to visually recognize a sign of fire in advance, thereby preventing fire. CONSTITUTION: A distribution side power line temperature detection part detects a power distribution line temperature of a switch. The distribution side power line temperature detection part converts the temperature into a resistance value corresponding to a measured temperature. A first control part (40) checks a sign of fire and provides a first alarm display and fire-extinguisher actuation signal. A second control part (50) checks a sign of fire and provides a second alarm display and fire-extinguisher actuation signal. A first and a second alarm display activation part (60,70) turn on/off an alarm display part of each step.

Description

Switchboard fire watch control unit {Switch board fire watch control unit}

The present invention relates to a switchboard fire monitoring controller, and in particular to monitor the temperature of the power distribution line and power line of each power distribution panel in real time to visually recognize the signs of fire in the switchboard in advance to prevent the fire of the switchboard due to abnormal heating of the power line. A switchboard fire monitoring controller is provided to prevent the

The switchboard divides the power received from the substation or transformer by the system diagram or use of the facility, and supplies power to the busbar of the main circuit breaker and the secondary terminal of the parking breaker that opens and closes the electric power. Switchgear, such as an earth leakage circuit breaker and an overcurrent circuit breaker, is designed to be operated only by those who have received special training.

The switchboards of the facilities are installed on a per-schematic or application basis, that is, in a unit or same unit of a general office building or apartment to supply power to each load stage such as an office or a home. Opening and closing through switchgear installed on the secondary side of main switchgear for supplying and cutting off power. As contact resistance increases, there is a risk of overheating and leading to fire.

Electrical fire accidents in switchboards usually occur due to deterioration of contact between wires or insulation between wires over time, resulting in partial and intermittent conduction between the two wires. It is required to install a fire detection controller to detect the possibility in advance.

In the related art of a fire monitoring controller of a switchboard, Patent No. 775018 has been proposed for a fire monitoring apparatus and a method of the switchboard.

This technology monitors rats that invade through power cable entry openings in switchboards, so that whenever a mouse intrudes, the mouse is notified by voice alarm or telephone line to prevent humans from extinguishing the fire.

However, this technology delays the initial response due to the occurrence of fire in that it is recognized as a fire only after the short circuit and spark between the power cables are made, and afterwards. There is a drawback of not knowing if it occurs in a cable.

In addition, by installing fire monitoring controllers in switchboards and facilities with the prior art of switchboard fire monitoring controller, it performs alarm and automatic fire extinguishing control function through unattended and automatic analysis for each fire situation in switchboard or facility. Patent No. 816984 has been proposed to perform a combination of functions such as monitoring and self-diagnosis notification.

However, this technology also does not know which switchgear or power line is abnormally generated from a large number of switchgear flows by system or use, while generating fire detection signals only when two fire detectors are operated at the same time. It is not possible to predict the signs of fire in advance, and even if the two fire detectors do not specify which installation of the switchboard is the target of detection, even if it can be put to practical use, it is composed of a plurality of functions in the composite. This results in an increase in the unit cost and installation cost.

As a result, the above-mentioned prior arts have a disadvantage in that a fire factor due to overcurrent and abnormal heating still exists in that it is not configured to monitor the temperature overheating of the switchgear or the power line inside the switchboard.

The present invention has been made to solve the above problems of the prior art, the purpose of which is to monitor the temperature of the power distribution line and the power line of each power line of the switchboard in real time to visually recognize whether the signs of fire in the switchboard in advance, the abnormal heat generation of the power line It is to provide a switchboard fire monitoring controller that can prevent the fire of the switchboard in advance.

Another object to the present invention is a switchboard fire monitoring controller that displays the abnormal heat generation of the power distribution line and power line of each switchboard by a simple circuit configuration step by step, so that an administrator can easily see and see which power line has a problem. Also in providing.

In addition, another object of the present invention can be linked to the fire extinguishing system installed in the switchgear, and record and display the abnormal heat generation data for each power line detected in real time, the future administrator to manage and replace the load status of the power line according to the system diagram or use of the switchboard It also provides switchboard fire monitoring controllers that can be helpful in managing the timing.

In the switchboard fire monitoring controller of the present invention for achieving a plurality of the above objects, in the configuration of the fire monitoring controller of the switchboard,

A switchboard temperature detector for detecting a temperature inside the switchboard as a reference set temperature and converting the switchboard into a resistance value corresponding to the measured temperature;

A power receiving side power line temperature detector, which is in close contact with the outside of the power receiving side power line of the parking short circuit, detects the temperature of the power receiving power line and converts it into a resistance value corresponding to the actual temperature;

Distribution side power line temperature detection unit for detecting the temperature of the distribution power line of the switchgear according to the system diagram or application connected to the secondary side of the parking short circuit and converted into a resistance value corresponding to the actual temperature;

A first control unit which compares the measured value of the switchboard temperature detector with the measured value of the power receiving side power line temperature detector, provides the result to the first recording unit, determines whether a fire signal is present, and provides a first alarm indication and a fire extinguishing device driving signal; Wow,

A second control unit which compares the measured value of the switchboard temperature detector and the measured value of the switchboard power line temperature detector, provides the result value to the second recording unit, determines whether the fire is signaled, and provides a second alarm indication and a fire extinguishing device driving signal; Wow

First and second alarm display drivers for turning on / off a step-by-step alarm display unit according to fire signal output signals of the power receiving side power distribution line and the power distribution side power line processed by the first and second control units, respectively;

An alarm display unit which is turned on / off according to output signals of the first and second alarm display driving units to display a fire sign state or a normal state;

First and second recording units for printing actual values of the switchboard, the power receiving side, and the power distribution side temperature detection unit in a graph form;

If any one of the power line is determined to be a fire sign in the determination step of the first and second control unit, a fire extinguishing device driving unit for driving a fire extinguishing device,

In the above, the switchboard temperature detecting unit, the male and the power distribution side power line temperature detecting unit are constituted by a positive characteristic thermistor having a constant resistance temperature coefficient which increases in resistance when the temperature is increased. The detector may be configured to have a tubular structure in which one or two through holes are formed at the center thereof so as to be coupled by penetrating one power line or two power lines.

In the above, the power distribution side temperature detection unit is installed on each power distribution side power line of the switch according to the system diagram or application.

As described above, the present invention monitors the temperature of the power distribution line and power line of each power distribution panel in real time, and displays an alarm so as to visually recognize whether or not the fire sign of the distribution panel is visually recognized. It provides an effect that can be prevented.

In addition, the present invention has an advantage that can be suppressed in advance by the administrator by easily recognize whether there is a problem in the power line by seeing the abnormal heat generation of the power distribution line and the power line of each power distribution of the switchboard by a simple sensor circuit configuration.

It is easy to know the replacement time of the power line and the switch, and there is an advantage that it is possible to perform efficient management such as load state management and replacement time of the power line by system or use.

In addition, the present invention can be linked to the fire extinguishing system installed in the switchgear to prevent the fire accidents caused by this, and record and display abnormal heat generation data by power line detected in real time by the administrator in the load state of the power line by the grid diagram or use of the switchboard in the future Effective management such as management and replacement time is effective.

In addition, the present invention can be manufactured at a low price of the fire detection controller of the switchboard has an effect that can significantly reduce the manufacturing cost of the switchboard.

1 is a block diagram of a switchboard fire winding controller according to the present invention;
2 is a circuit diagram of an embodiment of a switchboard fire winding controller according to the present invention;
3 is a configuration diagram of a distribution board for explaining the configuration of the present invention;
Figure 4 is a disconnection coupling configuration of the temperature detector applied to the present invention
5 is a double-wire coupling configuration of the temperature detector applied to the present invention

Specific configuration and working relationship for carrying out the present invention will be described with reference to the accompanying drawings.

1 is a block diagram of a switchboard fire winding controller according to the present invention. The switchboard fire winding controller according to the present invention includes a switchboard temperature detector 10, a power receiving side power line temperature detector 20, and a power distribution side power line temperature detector. 30, first and second controllers 40 and 50, first and second alarm display drivers 60 and 70, first and second recording units 100 and 110, and fire extinguishing. The apparatus driving part 120 is provided.

The switchboard temperature detection unit 10 is installed inside the switchboard to detect the temperature inside the switchboard and provides a reference set temperature value for comparing with the temperature of the power line of the switchboard, which is fixed as shown in FIG. 2. Composed of the resistor R1 and composed of a static thermistor having a constant resistance temperature coefficient of increase in resistance when the temperature is increased, the reference set temperature of the first and second controllers 40, 50 Provided by value.

The power receiving side power line temperature detector 20 is installed through the power receiving side power line 1 of the parking short circuit as shown in FIG. 3, and the structure thereof is represented by the power receiving side power line 1 as illustrated in FIGS. 4 and 5. It is configured to have a tubular structure having one or two through-holes 21 formed at the center thereof so as to be able to be coupled by penetrating one or two strands of power lines so that the temperature can be measured without loss. 'Is the lead terminal.

The power receiving side power line temperature detection unit 20 is also composed of a static thermistor having a constant resistance temperature coefficient of resistance increases as the temperature increases, so that the temperature of the power receiving side power line is measured in real time. 1 is provided to the control unit 40.

As shown in FIG. 2, the first control unit 40 includes two comparators OP1 and OP2, and the switchboard temperature detector 10 and the resistor R1, which are reference set values, are input to the input terminals of the first comparator OP1. ) Is input, and the input value of the second comparator OP2 is configured to input the distribution value of the switchboard temperature detector 10 and the resistor R1 and the output of the power receiving side power line temperature detector 20.

With the above configuration, the first control unit 40 detects the switchboard temperature detector 10 by comparing the distribution value of the switchboard temperature detector 10 and the resistor R1 with the detected value of the power receiver side power line temperature detector 20. If the value is larger than the detection value of the power receiving side power line temperature detector 20, the control signal for driving the first alarm display driver 60 is output, and if the value is vice versa, the control signal for driving the second alarm display driver 70 is output. do.

That is, when the first alarm display driver 60 is driven, the power receiving side power line 1 is normal. On the contrary, when the second alarm display driver 70 is driven, an abnormality occurs in the power receiver side power line 1. It means.

On the other hand, the distribution side power line temperature detection unit 30 is installed through the distribution side power line 3 of the switchgear connected to the secondary busbar 2 of the parking short circuit, as shown in Figure 3, the structure is 4 and 5 As represented in the present invention, one or two through-holes 21 are formed at the center to be coupled by penetrating one strand of power lines or two strands of power lines so that the temperature of the power distribution side power line 3 can be measured without loss. It is configured to have a tubular structure.

The power distribution side power line temperature detector 20 is also composed of a static thermistor having a constant resistance temperature coefficient of increase in resistance when the temperature increases, thereby real-time measuring the temperature of the power receiving side power line to provide a second control unit. 50 are provided.

As shown in FIG. 2, the second control unit 50 is composed of two comparators OP1 and OP2, and a switchboard temperature detection unit 10 and a resistor, which are reference set values, are input to the input terminal of the first comparator OP1. The distribution value of R1 is input, and the distribution value of the switchboard temperature detector 10 and the resistor R1 and the output of the power distribution side power line temperature detector 30 are input to an input terminal of the second comparator OP2. .

With the above configuration, the second controller 50 detects the switchboard temperature detector 10 by comparing the distribution value of the switchboard temperature detector 10 and the resistor R1 with the detected value of the power distribution side power line temperature detector 30. If the value is larger than the detection value of the power distribution side power line temperature detector 30, the control signal for driving the first alarm display driver 60 is output, and if the value is vice versa, the control signal for driving the second alarm display driver 70 is output. do.

In this case, the power distribution side power line temperature detecting unit 20 is preferably installed on each power distribution side power line of the switch side power line, that is, the switchgear provided for each system diagram or application. Here, since the configuration and function of installing the power distribution side power line temperature detection unit 20 for each power distribution side power line of the switch according to the system diagram or the use are made as described above, it will be omitted to avoid confusion in understanding the present invention.

When the second control unit 50 by the power distribution side power line temperature detection unit 20 drives the first alarm display driver 60, it means that the power distribution side power line 3 is normal, and vice versa. When the driving unit 70 is driven, it can be understood that it means that an abnormality has occurred in the power distribution side power line 3.

On the other hand, the first and second control unit 40, 50, the first and second printing the measured value measured in comparison with the switchboard temperature detection unit 10 and the number, the power distribution side power line temperature detection unit 20, 30 in a graph form 2 It is also supplied to the recording unit 100, 110, and allows the first and second recording units 100 and 110 to monitor the fire symptoms from the power line by allowing the manager to analyze the real-time temperature change state of the power and distribution-side power lines. It is possible to objectively determine the power usage status of the distribution side and the timing of power line replacement.

The output signals of the first and second controllers 40 and 50 are also transmitted to the fire extinguishing device driver 120 for driving the fire extinguishing device installed in the switchboard, and the measured value of the power supply temperature detecting unit 20 and 30 of the power distribution side. If the rise is higher than the measured value of the switchboard temperature detection unit 10, it is determined to be a fire sign and controls to drive the fire extinguishing equipment through the fire extinguishing device driver 120.

When the fire extinguishing device driving unit 120 is driven, the second alarm display unit 90 is turned on through the second alarm display driving unit 70 so as to indicate to the manager that any power line among the power line and the power distribution side power line is in a fire sign. do.

The first and second alarm display units 80 and 90 are configured to be different in color depending on the state of the power line, and the first and second alarm display drivers 60 and 70 are also transistors in the drawings of this embodiment. Although it is shown that the configuration consisting of (T1) (T2), this is composed of a plurality of distribution-side power line (3) divided by the system diagram or by use may be configured as a corresponding switching integrated circuit.

10: switchboard temperature detection unit
20: power line temperature detection unit
30: power line temperature detection unit of the distribution side
40, 50: first and second control unit
60, 70: first and second alarm display driver
80, 90: first and second alarm display unit
100 and 110: first and second recording units
110: fire extinguishing system drive unit
OP1, OP2: Comparator
T1, T2: transistor
R, R1: resistance
LED1, LED2: Light Emitting Diode

Claims (4)

A switchboard temperature detector 10 for detecting the internal temperature of the switchboard as a reference set temperature and converting the switchboard into a resistance value corresponding to the measured temperature;
A power receiving side power line temperature detector 20 which is in close contact with the outside of the power receiving side power line of the parking short circuit and detects the temperature of the power receiving power line and converts the temperature into a resistance value corresponding to the actual temperature;
A distribution-side power line temperature detector 30 which detects a temperature of a distribution power line of a switch according to a schematic diagram or a purpose-connected switch connected to the secondary side of the parking short circuit and converts it into a resistance value corresponding to the actual temperature;
The measured value of the switchboard temperature detection unit 10 and the measured value of the power receiving side power line temperature detection unit 20 are compared, the result is provided to the first recording unit, and the fire signal is determined. The first control unit 40 to provide a,
The measured value of the switchboard temperature detector 10 and the measured value of the switchboard power line temperature detector 30 are compared to provide the result to the second recording unit, and the fire signal is judged to determine whether the fire signal is detected. With the second control unit 50 to provide
First and second alarm display drivers 60 for turning on / off the step-by-step alarm display unit according to fire signal output signals of the power receiving side power line and the distribution side power line processed by the first and second control units 40 and 50, respectively. 70,
An alarm display unit 80 or 90 that is turned on / off according to the output signals of the first and second alarm display driving units 60 and 70 to display a fire sign state or a normal state;
First and second recording units (100, 110) for printing the measured values of the switchboard, the power receiving side, and the power distribution side temperature detecting units (10, 20, 30) in the form of a graph;
If any one of the power line is determined to be a fire sign in the determination step of the first and second control unit 40, 50, the fire extinguishing device driver 120 for driving a fire extinguishing device, the switchboard temperature detection unit 10, The male power distribution side power line temperature detecting unit 20 and 30 is composed of a static thermistor having a constant resistance temperature coefficient of which the resistance value increases as the temperature increases. ) Is a switchboard fire monitoring controller, characterized in that configured to have a tubular structure in which one or two through-holes are formed in the center so as to penetrate through one or two power lines. delete delete The switchboard fire monitoring controller according to claim 1, wherein the power distribution side temperature detection unit (30) is provided for each power distribution side power line of the switch according to the system diagram or the use.

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