KR102147863B1 - System for fire and overheating protection of moulded case circuit breaker - Google Patents

Abstract

The present invention relates to a system for preventing fire and deterioration of a circuit breaker, and controls current on/off between at least one input electric line and at least one output electric line, and detects deterioration of the input and output electric wiring or coupling part. At least one circuit breaker; A control device for controlling an alarm unit to determine location information of a wiring breaker in which deterioration has occurred according to a deterioration generation signal received from at least one wiring breaker, and to notify the location information of the wiring breaker in which deterioration has occurred; And a display unit that displays location information on at least one wiring breaker that has deteriorated according to the control of the control device with a video display panel or a light emitting buzzer. Before smoke or fire occurs, it is for wiring substantially according to the degree of deterioration. It can prevent deterioration and fire at the breaker.

Description

Fire and deterioration prevention system of circuit breaker {SYSTEM FOR FIRE AND OVERHEATING PROTECTION OF MOULDED CASE CIRCUIT BREAKER}

The present invention relates to a system for preventing fire and deterioration of a circuit breaker capable of preventing fire in advance by supporting in real time check of overcurrent, overvoltage, and deterioration status of a circuit breaker configured in a home, a switchboard, a transformer, etc.

In general, electrical devices such as electrical switchgear, switchboards, power transmission devices, phase-separated buses and transformers are intended to transport current, so when the current is energized, the temperature of the conductor by the Joule effect always accompanies an increase in the current size. The larger it is, the greater the temperature rise.

Accordingly, in order to detect overvoltage and overcurrent characteristics in real time and cut off currents transported to the corresponding electric devices, an earth leakage breaker or a molded-case circuit breaker has been used in various ways.

However, in the case of a conventional earth leakage circuit breaker or a circuit breaker, current is blocked only according to overcurrent and overvoltage characteristics, and it is difficult to cope with the degradation characteristics. That is, it was difficult to individually grasp the degree of insulation breakdown or deterioration of an earth leakage breaker or a circuit breaker.

Conventionally, in order to prevent the fire caused by deterioration and deterioration of the earth leakage circuit breaker or the wiring circuit breaker, the installation location of the earth leakage circuit breaker or the wiring circuit breaker was photographed with a thermal image camera, or a fire monitoring controller (WB-FR2) was additionally installed and monitored. I did. However, the conventional countermeasures are in fact only a measure to check or monitor whether or not a fire has occurred after the fire, rather than preventing the fire of an earth leakage breaker or a circuit breaker in advance.

Accordingly, there is a further need to develop a device or system capable of detecting the degree of deterioration of an earth leakage circuit breaker or a circuit breaker in real time and preventing the occurrence of fire in advance according to the detected degree of deterioration.

Various embodiments of the present invention are intended to solve the above problems, and support to check in real time overcurrent, overvoltage and deterioration status of a circuit breaker (or earth leakage circuit breaker) configured in a home, a switchboard, a transformer, etc. The purpose is to provide a system for preventing fire and deterioration of a circuit breaker that can be prevented.

The fire and deterioration prevention system of a circuit breaker according to various embodiments of the present invention controls current on/off between at least one input electrical wire and at least one output electrical wire, and prevents deterioration of the input and output electrical wires or coupling parts. At least one circuit breaker for sensing; A control device for controlling an alarm unit to determine location information of a wiring breaker in which deterioration has occurred according to a deterioration generation signal received from at least one wiring breaker, and to notify the location information of the wiring breaker in which deterioration has occurred; And a display unit for displaying location information on at least one circuit breaker that is deteriorated according to the control of the control device using an image display panel or a light emitting buzzer.

At least one wiring breaker includes a plurality of wiring connection portions to which input and output electrical wirings are respectively connected; And at least one deterioration detection circuit part that is physically and electrically connected to each wire connection part to detect deterioration of each wire connection part and input and output electrical wiring.

Each of the wiring coupling portions comprises at least one current conducting terminal portion electrically coupled to the input or output electrical wiring by a coupling member; And a first deterioration element part physically coupled to at least one current conduction terminal part to sense deterioration of the input or output electrical wiring and the current conduction terminal part.

The deterioration detection circuit unit may include a light-emitting lamp that is turned on when current is supplied through the first deterioration element unit when excessive storage or deterioration occurs; A contact switching element for switching a current input through the first deterioration element when overcurrent or deterioration occurs; And a transmission circuit for transmitting a deterioration generation signal to a control device when current is input through the contact switching element.

The system for preventing fire and deterioration of a circuit breaker according to various embodiments of the present invention supports to check in real time overcurrent, overvoltage, and deterioration status of a circuit breaker (or earth leakage circuit breaker) configured in a home, a switchboard, a transformer, etc. Accordingly, before smoke or fire occurs, it is possible to substantially prevent deterioration and fire in the circuit breaker depending on the degree of deterioration.

1 is a conceptual diagram of a fire and deterioration prevention system of a circuit breaker according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view illustrating a state in which electrical wiring is connected to one of the wiring bonding units configured in the circuit breaker of FIG. 1.
FIG. 3 is a circuit diagram showing in detail a deterioration detection circuit configured in connection with the wiring binding unit of FIG. 2.
4 is a block diagram showing in detail the configuration of the control device shown in FIG.
FIG. 5 is another cross-sectional view illustrating a state in which electrical wiring is connected to one of the wiring connectors configured in the circuit breaker of FIG. 1.
6 is another circuit diagram specifically showing a deterioration detection circuit unit configured in connection with the wiring binding unit of FIG. 5.

The above-described objects, features, and advantages will be described later in detail with reference to the accompanying drawings, and accordingly, one of ordinary skill in the art to which the present invention pertains will be able to easily implement the technical idea of the present invention. In describing the present invention, if it is determined that a detailed description of known technologies related to the present invention may unnecessarily obscure the subject matter of the present invention, a detailed description will be omitted.

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

1 is a conceptual diagram of a fire and deterioration prevention system of a circuit breaker according to an embodiment of the present invention.

Referring to Figure 1, the fire and deterioration prevention system according to an embodiment of the present invention, at least one circuit breaker 113, a control device 120, at least one alarm unit 121, and at least one display unit ( 122).

At least one wiring breaker 113 is connected to at least one input electrical wiring through which current is input to one side, and at least one output electrical wiring through which current is transmitted to the other side.

Each wiring breaker 113 performs a switching operation using at least one switch, and controls the current flow between at least one input electrical wiring and at least one output electrical wiring, that is, an ON/OFF state. do.

In addition, each of the circuit breakers 113 detects in real time a deterioration state of input and output electrical wiring and input and output electrical wiring connection terminals. In addition, when deterioration occurs and is detected, the self-luminous lamp 111 is turned on and a deterioration generation signal is transmitted to the control device 120.

To this end, the at least one wiring breaker 113 has a plurality of wiring coupling portions P to which input and output electric wirings are respectively coupled, and a deterioration state of the input electric wiring and output electric wiring, and each wiring coupling portion P. It includes at least one deterioration detection circuit part PB for detecting in real time.

Each of the wiring coupling portions P is configured separately on one side and the other side of the circuit breaker 113. Each input electric wiring may be electrically and physically coupled to the wiring coupling portion P on one side. In addition, each output electrical wiring may be electrically and physically coupled to the wiring attachment portion P of the other side.

The deterioration detection circuit part PB is physically and electrically connected to each wire connection part P to detect the deterioration state of each wire connection part P and each input and output electric wiring in real time.

The deterioration detection circuit part (PB) turns on the self-luminous lamp 111 when deterioration occurs and is detected in each of the wiring connection parts (P) or input and output electrical wiring, and transmits the deterioration generation signal to the control device 120. send.

The control device 120 determines the location information of the wiring breaker 113 in which deterioration has occurred according to the deterioration generation signal received from at least one wiring breaker 113. And the alarm unit 121 is controlled so that the location information of the wiring breaker 113 where deterioration has occurred can be notified.

In addition, the control device 120 is to be notified of the location information of the wiring breaker 113 in which deterioration has occurred even through the display unit 122, the at least one wiring breaker 113 where deterioration has occurred in the display unit 122 Provides location information.

The display unit 122 displays location information on the at least one wiring breaker 113 deteriorated under the control of the control device 120 by an image display panel, a light emitting buzzer, or an LED display board.

FIG. 2 is a cross-sectional view illustrating a state in which electrical wiring is connected to one of the wiring bonding units configured in the circuit breaker of FIG. 1.

Referring to FIG. 2, at least one current conducting terminal portion A1 and B1 and a first deteriorating element portion BM1 are configured in each of the wiring bonding portions P.

Each of the current conducting terminal portions A1 and B1 is electrically coupled to the input or output electrical wiring CB by means of a fastening member SP such as a screw.

The first deterioration element unit (BM1) is physically connected to each of the current conduction terminal units (A1, B1) to determine whether overcurrent occurs and deterioration in the input or output electrical wiring (CB) and the current conduction terminal unit (A1, B1) in real time. Is detected.

The first deterioration element unit BM1 is configured to maintain the same area, thickness, and shape with each other, and includes a first electrode MB1 and a second electrode MB2 disposed in parallel to face each other with a predetermined spacing. .

Specifically, the first electrode MB1 of the first deterioration element unit BM1 is configured in a flat plate shape having a preset area and a preset thickness, so that only at least a portion of one side (upper side in the drawing) conducts current. It is configured in a bent shape to be physically and electrically connected to the terminal portions A1 and B1.

The second electrode MB2 of the first deterioration element unit BM1 is formed in a flat plate shape having the same area and thickness as the first electrode MB1, and one side (the upper side in the drawing) is the first electrode ( It is configured in the same shape so as to face the other side (lower side in the drawing) of MB1) with a predetermined distance.

The thickness, area, spacing, metal or alloy material, etc. of the first and second electrodes MB1 and MB2 are preset to correspond to the current capacity of the circuit breaker 113.

Since the first electrode MB1 is physically and electrically connected to the current conducting terminal portions A1 and B1 and maintains a curved shape, only a part of the area of one side (upper side in the drawing) is connected to the input or output electrical wiring CB ) And current conduction terminals (A1, B1) can react more sensitively to overcurrent or deterioration.

In particular, since the first electrode MB1 maintains a curved shape and only a part of the area is attached to the current conducting terminal portions A1, B1, overcurrent in the input or output electrical wiring (CB) and the current conducting terminal portions (A1, B1). B When deterioration occurs, the ends that are not attached to the current conducting terminal portions A1 and B1 but are spaced apart from each other are bent in the direction of the second electrode MB2 or cause vibration. Accordingly, when overcurrent or deterioration occurs in the input or output electrical wiring CB and the current conducting terminal portions A1 and B1, the first electrode MB1 and the second electrode MB2 are electrically connected.

FIG. 3 is a circuit diagram showing in detail a deterioration detection circuit configured in connection with the wiring binding unit of FIG. 2.

Referring to FIG. 3, the deterioration detection circuit part PB includes a charge/discharge element C, a light-emitting lamp 111, a contact switching element BJ, and a transmission circuit 112.

The charging/discharging element C is connected in parallel with the wiring connection part P, and charges/discharges the current input through the first deterioration element part BM1 when overcurrent or deterioration occurs in the wire connection part P.

When overcurrent or deterioration occurs in the wiring coupling unit P, a current may be instantaneously input to the charging/discharging element C through the first deteriorating element unit BM1, or a current may be repeatedly input not continuously. Accordingly, the charging/discharging element C is the current from the first deteriorating element unit BM1 so that the light emitting lamp 111, the contact switching element BJ, and the transmission circuit 112 can receive current for a predetermined period. Charge and discharge.

The charging/discharging element C is preferably configured with a predetermined sufficient capacity so as to supply current to the light emitting lamp 111, the contact switching element BJ, and the transmission circuit 112 without being burned even by an overcurrent. Accordingly, the deterioration detection circuit part PB may perform an operation of emitting the light-emitting lamp 111 and transmitting a deterioration generation signal using only the current input through the first deterioration element part BM1.

The light-emitting lamp 111 is composed of at least one LED (Light-Emitting Diode), and is turned on when current is supplied from the charging/discharging element C. When the light-emitting lamp 111 is turned on, the user can primarily check the occurrence of overcurrent and deterioration of the wiring connection portion P.

The contact switching element BJ switches the current input through the first deterioration element unit BM1 and transmits it to the transmission circuit 112 when overcurrent or deterioration occurs in the wiring bonding unit P.

The contact switching element BJ may be composed of a transistor having a predetermined capacity, and the transmission circuit 112 may be protected from overcurrent by a capacity and a switching operation of the contact switching element BJ. In addition, the transmission circuit 112 may be operated by reconfirming the degree of overcurrent or deterioration of the wiring coupling unit P according to the operating current (or the size of the threshold voltage) of the contact switching element BJ.

If the operating current (or threshold voltage) input to the contact switching element (BJ) fails to turn on the contact switching element (BJ), it cannot be judged as overcurrent or deterioration, so the capacity of the contact switching element (BJ) Sensitivity to overcurrent or deterioration detection can be set.

When the current from the charging/discharging element C is input through the contact switching element BJ, the transmission circuit 112 transmits a deterioration generation signal to the control device 120. The transmission circuit 112 includes at least one short-range wireless transmission chip such as ZigBee or Bluetooth, or is configured with a RS (Recommended Standard) wired communication port. Accordingly, when a predetermined current is input through the contact switching element BJ, the transmission circuit 112 transmits a deterioration generation signal to the control device 120 together with the installation position coordinates in a preset wireless or wired communication method.

4 is a block diagram showing in detail the configuration of the control device shown in FIG.

Referring to FIG. 4, the control device 120 includes a receiving circuit 123, an integrated control unit 124, an alarm control unit 125, a display control unit 126, and an accumulated information DB 127. The control device 120 may be configured with a personal computer or a power line communication device executed in an application program.

The receiving circuit 123 of the control device 120 receives the installation position coordinates and the deterioration generation signal from the wiring breaker 113 through a preset wireless or wired communication method.

The receiving circuit 123 transmits the coordinates of the installation location of the circuit breaker 113 and the deterioration generation signal through at least one short-range wireless transmission chip such as ZigBee or Bluetooth or a RS (Recommended Standard) wired communication port. Receive.

The integrated control unit 124 is configured to include a microprocessor or a CPU, and the integrated control unit 124 is a circuit breaker 113 in which deterioration is generated according to the installation position coordinates and the deterioration generation signal received through the reception circuit 123 Find out the location information of In addition, the identified location information of the circuit breaker 113 is shared in real time with the alarm control unit 125, the display control unit 126, and the accumulated information DB 127.

The alarm control unit 125 may include a sound driving board or an audio control unit. The alarm control unit 125 provides the location information of the circuit breaker 113 identified by the integrated control unit 124 to the alarm unit 121 and controls the position information to be output to a speaker of the alarm unit 121 or the like.

The display control unit 126 may include at least one graphic card or an image output control board. The display control unit 126 provides the location information of the circuit breaker 113 identified by the integrated control unit 124 to the display unit 122, and controls the position information to be displayed as an image or text on the image display panel of the display unit 122 do.

The accumulated information DB 127 stores and accumulates the location information of the deterioration generating wiring breaker 113 received from the integrated control unit 124 in at least one RAM or ROM memory in real time. And by providing the accumulated information of overcurrent and deterioration occurrence for each wiring breaker 113 to the display control unit 126 in real time, the accumulated information of overcurrent and deterioration occurrence for each wiring breaker 113 on the image display panel of the display unit 122 Support to be displayed. Accordingly, a user or an administrator can further improve the management efficiency of each circuit breaker 113 by checking the accumulated information of overcurrent and deterioration occurrence for each of the wiring breakers 113 in real time.

FIG. 5 is another cross-sectional view illustrating a state in which electrical wiring is connected to one of the wiring connectors configured in the circuit breaker of FIG. 1.

Referring to FIG. 5, each of the wiring bonding portions P includes at least one current conducting terminal portion A1 and B1 and a first deteriorating element portion BM1. And it further includes a second deterioration element portion (BM1) bonded or bonded to the cover (CBb) of the input or output electrical wiring (CB).

Each of the current conducting terminal portions A1 and B1 is electrically coupled to the input or output electrical wiring CB by means of a fastening member SP such as a screw.

The first deterioration element unit (BM1) is physically connected to each of the current conduction terminal units (A1, B1) to determine whether overcurrent occurs and deterioration in the input or output electrical wiring (CB) and the current conduction terminal unit (A1, B1) in real time. Is detected. A description of the specific configuration and operation characteristics of the first deterioration element unit BM1 will be replaced with the contents described with reference to FIG. 2.

The second deterioration element unit BM2 is physically coupled to the sheath CBb of the input or output electrical wiring CB, and detects deterioration deformation of the input or output electrical wiring CB in real time.

The second deterioration element unit BM2 is configured to maintain the same area, thickness, and shape with each other, and includes a third electrode MB3 and a fourth electrode MB4 disposed in parallel to face each other with a predetermined spacing. .

Specifically, the third electrode MB3 of the second deterioration element unit BM2 is configured in a flat plate shape having a preset area and a preset thickness, and inputs at least a part of the area of one side (upper side in the drawing) or It is formed in a bent shape to physically contact the sheath CBb of the output electric wiring CB.

The fourth electrode MB4 of the second deterioration element unit BM2 is formed in a flat plate shape having the same area and thickness as the third electrode MB3, and one side (the upper side in the drawing) is the third electrode ( It is configured in the same shape so that it faces the other side (lower side of the drawing) of MB3) with a predetermined distance.

The thickness, area, spacing, metal or alloy material, etc. of the third and fourth electrodes MB3 and MB4 of the second deteriorating element unit BM2 are preset to correspond to the current capacity flowing through the input or output electrical wiring (CB). do.

Since the third electrode MB3 is physically connected to the cover (CBb) of the input or output electrical wiring (CB) and maintains a curved shape, only a part of the area of one side (upper side in the drawing) is It can react more sensitively to the deterioration deformation of the wiring (CB) covering (CBb). Here, the third electrode MB3 may be electrically connected to the first electrode MB1 of the first deterioration element part BM1.

On the other hand, since the third electrode MB3 maintains a curved shape and only a part of the area is attached to the covering (CBb) of the input or output electrical wiring (CB), the covering (CBb) of the input or output electrical wiring (CB) When deterioration deformation occurs, the end not attached to the covering CBb is bent or deformed in the direction of the fourth electrode MB4. Accordingly, when the shape of the cover CBb of the input or output electrical wiring CB occurs, the third electrode MB3 and the fourth electrode MB4 are electrically connected.

Likewise, at this time, since the first deterioration element unit BM1 also detects overcurrent or deterioration that occurs simultaneously in the current conducting terminal units A1 and B1, the first and second electrodes MB1 and MB1 of the first deterioration element unit BM1 MB2) can also be electrically connected.

The second deterioration element portion BM2 may be arranged in a parallel structure electrically connected to the first deterioration element portion BM1 of the wiring connection portion P. That is, the first electrode MB1 and the third electrode MB3, the second electrode MB2 and the fourth electrode MB4 may form an electrical connection structure in parallel. Accordingly, even if only the deformation of the covering CBb is detected by the second deterioration element unit BM2, current may be conducted between the first deterioration element unit BM1 and the second deterioration element unit BM2.

6 is another circuit diagram specifically showing a deterioration detection circuit unit configured in connection with the wiring binding unit of FIG. 5.

Referring to FIG. 6, the deterioration detection circuit part PB includes a charge/discharge device C, a light-emitting lamp 111, a contact switching device BJ, and a transmission circuit 112.

When the first electrode MB1 and the third electrode MB3, the second electrode MB2 and the fourth electrode MB4 form a parallel electrical connection structure, the charge/discharge element C is The first deterioration element portion BM1 and the second deterioration element portion BM2 are connected in parallel. Accordingly, the charge/discharge element C charges and discharges the current input through the first deterioration element unit BM1 when an overcurrent or deterioration occurs in the wiring connection unit P.

When overcurrent or deterioration occurs in the wiring binding unit P or the second deterioration element unit BM2, the current is instantaneously input to the charging/discharging element C through the first deterioration element unit BM1 or not continuously. Current can be repeatedly input. Accordingly, the charging/discharging element C is the current from the first deteriorating element unit BM1 so that the light emitting lamp 111, the contact switching element BJ, and the transmission circuit 112 can receive current for a predetermined period. Charge and discharge.

The charging/discharging element C is preferably configured with a predetermined sufficient capacity so as to supply current to the light emitting lamp 111, the contact switching element BJ, and the transmission circuit 112 without being burned even by an overcurrent. Accordingly, the deterioration detection circuit part PB may perform an operation of emitting the light-emitting lamp 111 and transmitting a deterioration generation signal using only the current input through the first deterioration element part BM1.

The light-emitting lamp 111 is composed of at least one LED (Light-Emitting Diode), and is turned on when current is supplied from the charging/discharging element C. When the light-emitting lamp 111 is turned on, the user can primarily check the occurrence of overcurrent and deterioration of the wiring connection portion P.

The contact switching element BJ switches the current input through the first deterioration element unit BM1 and transmits it to the transmission circuit 112 when overcurrent or deterioration occurs in the wiring bonding unit P.

The contact switching element BJ may be composed of a transistor having a predetermined capacity, and the transmission circuit 112 may be protected from overcurrent by a capacity and a switching operation of the contact switching element BJ. In addition, the transmission circuit 112 may be operated by reconfirming the degree of overcurrent or deterioration of the wiring coupling unit P according to the operating current (or the size of the threshold voltage) of the contact switching element BJ.

If the operating current (or threshold voltage) input to the contact switching element (BJ) fails to turn on the contact switching element (BJ), it cannot be judged as overcurrent or deterioration, so the capacity of the contact switching element (BJ) Sensitivity to overcurrent or deterioration detection can be set.

When the current from the charging/discharging element C is input through the contact switching element BJ, the transmission circuit 112 transmits a deterioration generation signal to the control device 120. The transmission circuit 112 includes at least one short-range wireless transmission chip such as ZigBee or Bluetooth, or is configured with a RS (Recommended Standard) wired communication port. Accordingly, when a predetermined current is input through the contact switching element BJ, the transmission circuit 112 transmits a deterioration generation signal to the control device 120 together with the installation position coordinates in a preset wireless or wired communication method.

The above, the fire and deterioration prevention system of the circuit breaker according to various embodiments of the present invention according to the above, in real time overcurrent, overvoltage and deterioration of the circuit breaker (or earth leakage circuit breaker) configured in a home, switchboard, transformer, etc. Support to check. In particular, deterioration can be detected even by detecting only the deformation of the covering of the wiring. Accordingly, before smoke or fire occurs, it is possible to substantially prevent deterioration and fire in the circuit breaker depending on the degree of deterioration.

In the above, the present invention has been shown and described in connection with a specific preferred embodiment, but various modifications and changes of the present invention within the scope of not departing from the technical features or field of the present invention provided by the following claims It is obvious to one of ordinary skill in the art that it can be.

111: luminous lamp
113: circuit breaker
120: control device 120
121: alarm unit
122: display
123: receiving circuit
124: integrated control unit
125: alarm control unit
BM1: first deterioration element unit
BM2: second deterioration element unit

Claims (7)

At least one circuit breaker for controlling current on/off between at least one input electrical wiring and at least one output electrical wiring and detecting deterioration of the input and output electrical wirings or coupling portions;
A control device for controlling an alarm unit to determine location information of a wiring breaker in which deterioration has occurred according to a deterioration generation signal received from the at least one wiring breaker, and to notify the location information of the wiring breaker in which deterioration has occurred; And
And a display unit for displaying location information of the at least one wiring breaker in which the deterioration has occurred according to the control of the control device through an image display panel or a light emitting buzzer,
The at least one wiring breaker includes a deterioration detection circuit unit for detecting deterioration of at least one wiring connection unit to which the input and output electrical wiring is respectively connected,
The deterioration detection circuit unit
First and second electrodes disposed in parallel to face each other, and one side of the first electrode is configured to be coupled to a current conducting terminal portion of the wiring bonding unit to detect overcurrent and deterioration of the wiring bonding unit. Element part;
A charge/discharge element for charging a current input through the first deterioration element unit according to the occurrence of the overcurrent or deterioration, and discharging the charge current to a light emitting lamp and a contact switching element; And
Including a transmission circuit for transmitting the deterioration generation signal to the control device when a current is input through the charging/discharging element and the contact switching element,
Fire and deterioration protection system for wiring breakers.
delete The method of claim 1,
The current conducting terminal portion is electrically coupled to the input or output electrical wiring by a binding member,
The first deterioration element unit is physically coupled to the current conduction terminal unit to detect deterioration of the input or output electrical wiring and the current conduction terminal unit.
delete The method of claim 1,
The control device
A receiving circuit for receiving an installation position coordinate and a deterioration generation signal from the at least one wiring breaker through a preset wireless or wired communication method;
An integrated control unit configured to determine location information of the wiring breaker in which the deterioration has occurred according to the installation location coordinates and the deterioration generation signal received through the receiving circuit;
An alarm control unit for controlling the location information to be displayed on the alarm unit by providing the location information of the circuit breaker identified by the integrated control unit to the alarm unit;
And a display control unit configured to control the position information to be displayed on the display unit by providing the position information of the circuit breaker identified by the integrated control unit to the display unit
Fire and deterioration protection system for wiring breakers.
The method of claim 5,
The control device
By storing and accumulating location information of the deterioration-generating circuit breaker received from the integrated control unit in real time, and providing the overcurrent and deterioration occurrence accumulated information for each wiring breaker to the display control unit in real time, the display unit Further comprising a cumulative information DB that supports to display the accumulated information of overcurrent and deterioration occurrence,
Fire and deterioration protection system for wiring breakers.
delete

Images