KR101880864B1 - Switchboard fire management system - Google Patents

Abstract

In the present invention, disclosed is a switchboard fire management system capable of preventing the occurrence of a fire on a switchboard by correctly sensing, without error, whether fire occurs on the switchboard. The switchboard fire management system comprises: a sensor module which senses the temperature of the switchboard, smoke, and the amount of carbon dioxide; a thermal imaging camera which is arranged in the switchboard and obtains thermal imaging information of the inside of the switchboard; a control unit which compares a sensing value, sensed by the sensor module, to a threshold value, automatically operates a circuit breaker and the thermal imaging camera at the same time when the sensing value has been determined to be the threshold value or greater, determines whether fire has occurred on the switchboard by obtaining and analyzing thermal imaging information of the inside of the switchboard, and detects location information of a component on which fire has occurred by comparing the thermal imaging image information to a location of a preset switchboard component; a management server which receives a fire occurrence signal, the thermal imaging image information, the location information of the component of fire occurrence, and location information of the switchboard from the control unit, transmits the same to a user terminal and a server of a fire station near the switchboard fire management system at the same time, and performs automatic fire report processing; and a fire extinguisher, which is operated by the user terminal, sprays fire extinguisher powder to be focused on the component of fire occurrence in accordance with the location information of the component of fire occurrence when the fire occurrence signal is transmitted from the management server to the user terminal.

Description

{SWITCHBOARD FIRE MANAGEMENT SYSTEM}

The present invention relates to a switchboard fire management system, and more particularly, to a switchboard fire control system capable of accurately and promptly detecting the occurrence of a fire in an ASSEMBLY to prevent a fire accident in the switchboard.

The proportion of electricity fires among the recent fires is gradually increasing. Typical causes of electric fire are short-circuit, over-current, arc, short-circuit. Also, it is a major cause of the user's surrounding environment (flooded condition, gas, temperature, connection failure of home outlets). Most of electrical fires are due to electric deterioration and fire due to overload, and they are closely related to switchboards.

Switchboards that convert power from high voltage to commercial low voltage and supply power to small area units or building units have a very high risk of fire due to the heat generated by high-voltage components such as high-voltage transformers and switch contacts inside the switchboards. Therefore, switchboards or other distribution facilities require a fire alarm to monitor the fire accident and early warning.

A fire alarm of a conventional switchboard is provided with a thermometer for detecting the inside temperature of the switchboard and an alarm buzzer for alarming the arrival of the set temperature value. The manager can monitor the temperature of the current switchboard through the thermometer, The alarm is notified to the administrator of the switchboard through the alarm buzzer, or it is detected locally, not installed as a whole, and the fire zone is not classified due to the comprehensive alarm.

However, since the conventional fire alarm installed in the switchboard and other facilities has only a simple function such as temperature display and fire alarm in the switchboard, the manager must directly operate the fire extinguisher in response to the fire alarm, There is no separate means for checking the normal operation of the fire alarm. In addition, conventionally, the receiving apparatus has a large analog meter as a conduction test current of 2.5 mA or more as a large-sized building, and has no self-diagnosis diagnostic function, so that digital communication and control are impossible.

Korean Registered Patent No. 10-0816984 (Mar. 19, 2008)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a switchboard fire management system capable of precisely detecting whether or not a fire in a switchboard is generated without any error, thereby preventing the occurrence of fire in the switchboard.

It is another object of the present invention to provide a fire control system for a switchboard that can quickly suppress fire even if a fire occurs in the switchboard, while minimizing damage caused by fire.

It is another object of the present invention to provide a system and method for receiving a fire occurrence report together with the location information of a switchboard where a fire occurred automatically in a nearby fire station when a fire occurs in the switchboard, And to suppress the fire upon arrival.

Other objects and advantages of the present invention will become apparent to those skilled in the art from the following detailed description.

According to an aspect of the present invention, there is provided a method of controlling an electric vehicle including a sensor module for detecting temperature, smoke, and carbon dioxide of an electric vehicle, an infrared camera disposed inside the electric switchboard, The sensing value sensed by the sensor module is compared with a threshold value. If it is determined that the sensed value is greater than or equal to the threshold value, the circuit breaker is automatically shut off. At the same time, the thermal imaging camera is operated to acquire thermal image information inside the power distribution board A controller for judging whether or not the switchboard is in a fire state and comparing the thermal image information with the position of a previously installed switchboard part to detect position information of a fire generated part; A fire occurrence signal, thermal image information, location information of a fire-generating part A management server for receiving the location information of the switchboard and transmitting the location information to the user terminal and transmitting the fire information to the surrounding fire station server and automatically performing a fire notification process; And a fire extinguisher which is operated by the user terminal so that the fire extinguishing powder is concentrated and injected into the fire-generated part according to the information.

For example, when the temperature or the amount of carbon dioxide of the switchboard is detected to be equal to or higher than a threshold value by the sensor module and the smoke is detected, the control unit periodically sends a first generation fire signal to the management server, After the first-stage fire occurrence signal is periodically transmitted to the terminal, thermal image information inside the switchboard transmitted from the thermal imaging camera is analyzed. When it is determined that a real fire has occurred in the switchboard, an emergency fire occurrence signal is sent to the management server The management server can transmit an emergency fire occurrence signal to the user terminal and the surrounding fire station server.

In addition, if the fire signal is not received from the user terminal for a predetermined time after the fire signal is transmitted to the user terminal through the management server, the control unit controls the fire extinguishing powder The fire extinguisher can be operated automatically so as to be concentratedly injected.

Meanwhile, even if the temperature or carbon dioxide amount of the switchboard is detected by the sensor module to be equal to or higher than the threshold value, the control unit may periodically send a danger notification signal to the management server if smoke is not detected through the sensor module.

As described above, when it is determined that the temperature and the amount of carbon dioxide in the switchboard detected by the sensor module are equal to or greater than the threshold value, the control unit generates a danger notification signal, The risk of fire in the switchboard can be informed to the manager in advance, so that it is possible to prevent the occurrence of fire in the switchboard.

In addition, when smoke is detected in the switchboard by the sensor module, a first-level fire occurrence signal is generated by the control unit and transmitted to the user terminal through the management server, and a thermal image When the image information is analyzed and it is determined that an actual fire has occurred in the switchboard, an emergency fire occurrence signal is generated by the control unit and transmitted to the user terminal and the surrounding fire station server through the management server so that the fire report can be automatically received.

Accordingly, even if an error occurs in the sensor module, the switchboard fire management system according to an embodiment of the present invention accurately detects the occurrence of a fire in the switchboard without errors and transmits it to the surrounding fire station server so as to be automatically notified. It has the effect of preventing waste of manpower and budget.

In addition, in the case where a fire is generated in an ASSEMBLY according to an embodiment of the present invention, location information of a switchboard in which a fire occurs is mapped to a map of a building installed in an ASSEMBLY, To the user terminal and the surrounding fire station server so that the fire suppression agent arrives at the fire generation switchboard within the golden time and can suppress the fire quickly, thereby minimizing the damage when the switchboard fire occurs.

In addition, the switchboard fire management system according to an embodiment of the present invention detects fire-generated parts in a switchboard early, and the fire extinguisher is remotely operated through the user terminal or automatically operated by the control unit, The fire extinguishing powder is injected intensively only on the generated parts, so that the fire can be suppressed in the early stage and the fire extinguishing powder is not sprayed after the fire suppression, And the manager can accurately grasp the location of the parts where the fire has occurred, thereby enabling quick repair work.

In addition, the fire board management system according to an embodiment of the present invention transmits thermal image information obtained by the thermal imaging camera to the user terminal and the surrounding fire station server when the fire is generated in the switchboard, It is possible to quickly identify the cause of the fire and take the action, thereby enabling quick restoration of the fire scene.

The effects of the present invention will be clearly understood and understood by those skilled in the art, either through the specific details described below, or during the course of practicing the present invention.

1 is a schematic block diagram of a switchboard fire management system according to an embodiment of the present invention;
FIG. 2 is a flowchart for explaining a switchboard fire management system according to an embodiment of the present invention. FIG.

The present invention is capable of various modifications and various forms, and specific embodiments are illustrated in the drawings and described in detail in the following description. It is to be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprising" or "having ", and the like, are intended to specify the presence of stated features, integers, steps, operations, elements, parts, or combinations thereof, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, parts, or combinations thereof.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the meaning in the context of the relevant art and are to be interpreted as ideal or overly formal in meaning unless expressly defined in the present application Do not.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

FIG. 1 is a schematic block diagram of a switchboard fire management system according to an embodiment of the present invention, and FIG. 2 is a flowchart illustrating a switchboard fire management system according to an embodiment of the present invention.

1 and 2, a switchboard fire management system 100 according to an embodiment of the present invention includes a sensor module 110, a thermal imaging camera 120, a controller 130, a management server 140, And may include a fire extinguisher 150.

The sensor module 110 is disposed inside the switchboard so as to sense temperature, smoke, and carbon dioxide amount of the switchboard.

For example, the sensor module 110 may be configured by modularizing the temperature sensor 111, the smoke sensor 112, and the carbon dioxide sensor 113, And the amount of smoke and carbon dioxide, and transmits the sensed amount to the control unit 130.

The thermal imaging camera 120 may be disposed inside the switchboard to obtain thermal image information of the inside of the switchboard and transmit the thermal image information to the controller 130.

Here, the thermal imager 120 compares the sensing value sensed by the sensor module 110 with a predetermined threshold value by the control unit 130, and only when the sensing value is determined to be equal to or greater than the threshold value The control unit 130 can operate the control unit 130 to acquire thermal image information inside the switchboard and transmit the thermal image information to the control unit 130. [

The controller 130 compares the sensed value sensed by the sensor module 110 with a threshold value. When the sensed value sensed by the sensor module 110 is determined to be equal to or greater than a predetermined threshold, .

If it is determined by the controller 130 that the sensing value sensed by the sensor module 110 is equal to or greater than a preset threshold value, the control unit 130 automatically blocks the breaker, (120) is operated to acquire thermal image information of the inside of the switchboard and analyze the information to determine whether or not the switchboard is in a fire state. The thermal image information is compared with the position of a previously set switchboard part, .

More specifically, the control unit 130 determines whether the temperature of the switchboard detected by the temperature sensor 111 of the sensor module 110 and the amount of carbon dioxide in the switchboard, detected by the carbon dioxide sensor 113, Or if smoke is detected by the smoke detection sensor 112, the management server 140 periodically sends a risk notification signal to the management server 140, The terminal 160 periodically transmits a risk notification signal.

The control unit 130 periodically sends a risk notification signal to the management server 140 and simultaneously activates the thermal imaging camera 120 to acquire thermal image information inside the switchboard.

Even if the controller 130 detects that the temperature and the amount of carbon dioxide in the switchboard detected by the temperature sensor 111 and the carbon dioxide sensor 113 of the sensor module 110 are equal to or greater than a preset threshold value, When the smoke is not detected by the smoke detection sensor 112, the thermal imaging camera 120 is operated to obtain thermal image information inside the switchboard. However, the fire alarm signal is not transmitted to the management server 140, Only the signal will be sent periodically.

Even if the controller 130 detects that the temperature and the amount of carbon dioxide in the switchboard detected by the temperature sensor 111 and the carbon dioxide sensor 113 of the sensor module 110 are less than a predetermined threshold value, When the smoke is detected by the detection sensor 112, the thermal imaging camera 120 is operated to acquire the thermal image information inside the distribution panel, and at the same time, the first generation of the fire generation signal is transmitted to the management server 140 do.

At the same time, the controller 130 analyzes thermal image information of the inside of the cabinet obtained by operating the thermal imaging camera 120 to accurately determine whether or not the switchboard is on fire. If it is determined that a fire has actually occurred in the switchboard, The thermal image information is compared with the position of the previously installed switchboard part to detect the position of the fire-generated component, and the emergency fire occurrence signal and thermal image information, the location information of the fire-generating part, and the location information To the management server (140).

At this time, the controller 130 may map the location information of the switchboard where the fire occurred to the map of the building where the fire control panel is installed, and transmit the map information to the management server 140.

The control unit 130 determines that a fire has occurred in the switchboard and sends a fire signal to the user terminal 160 through the management server 140. The control unit 130 then transmits a fire signal from the user terminal 160 through the management server 140 If the operation signal of the fire extinguisher 150 is not received for a predetermined time, the fire extinguisher 150 disposed in the switchboard can be operated so that the fire extinguishing powder is concentrated on the fire extinguishing part according to the position information of the fire extinguishing part.

When the control unit 130 determines that a fire has occurred in the control panel 130, the management server 140 receives a fire signal, thermal image information, location information of the fire-generating part, and location information of the switchboard from the control unit 130 And transmits it to the user terminal 160 and transmits it to the surrounding fire station server 170 to automatically perform the fire notification process.

Here, the management server 140 can transmit a fire occurrence signal, thermal image information, location information of fire-generating parts, and location information of the switchboard to the user terminal 160 when a fire occurs in the switchboard, The server 170 can transmit only the fire occurrence signal and the location information of the switchboard to transmit data quickly.

When the fire signal is transmitted from the management server 140 to the user terminal 160, the fire extinguisher 150 is disposed inside the switchboard, and the fire extinguisher is concentrated on the fire- May be actuated by the user terminal 160 as much as possible.

Meanwhile, the fire extinguisher 150 transmits a fire occurrence signal to the user terminal 160 through the management server 140, and then transmits the fire occurrence signal to the user terminal 160 through the management server 140 If the operation signal of the fire extinguisher 150 is not received for a predetermined period of time, the controller 130 may automatically operate the fire extinguisher 150 so that the fire extinguishing powder is concentrated on the fire extinguishing part according to the position information of the fire extinguishing part.

1 and 2, an operation process of the switchboard fire management system 100 according to an embodiment of the present invention will be described.

Referring to FIGS. 1 and 2, in order to detect the fire of the switchboard by the switchboard fire management system 100 according to the embodiment of the present invention, the temperature, smoke, and carbon dioxide amount of the switchboard are measured by the sensor module 110 And is transmitted to the control unit 130 (S110).

When the temperature, smoke, and carbon dioxide amount of the switchboard detected by the sensor module 110 are transmitted to the controller 130, the controller 130 sets the sensed value sensed by the sensor module 110 to a predetermined threshold value (S120).

If it is determined by the controller 130 that the sensed value transmitted from the sensor module 110 is equal to or greater than a predetermined threshold value, the control unit 130 automatically interrupts the breaker, A risk notification signal or a first level fire occurrence signal is periodically transmitted to the user terminal 160 by the management server 140 so that a danger notification signal or a first level fire occurrence signal is periodically transmitted in step S130.

More specifically, if the sensor module 110 senses that the temperature or the amount of carbon dioxide of the switchboard is greater than the threshold value, the controller 130 automatically interrupts the breaker and sends a risk notification signal to the management server 140 And periodically sends a risk notification signal to the user terminal 160 by the management server 140 periodically.

Meanwhile, when the temperature or the amount of carbon dioxide of the switchboard is detected by the sensor module 110 to be equal to or higher than the threshold value, the controller 130 periodically sends a first generation fire signal to the management server 140 The management server 140 periodically transmits a first generation fire signal to the user terminal 160.

At the same time, the controller 130 operates the thermal imaging camera 120 to acquire thermal image information of the inside of the switchboard and analyze the thermal image information (S140).

When it is determined that the thermal image information is analyzed by the controller 130 and an actual fire is generated in the switchboard, the controller 130 sends an emergency fire occurrence signal to the management server 140 and the management server 140 The emergency fire occurrence signal can be transmitted to the user terminal 160 and the surrounding fire station server 170 (S150).

When the controller 130 determines that an actual fire has occurred in the switchboard 130, the controller 130 transmits an emergency fire signal to the management server 140, and at the same time, Image information is compared with the position of the previously installed switchboard part to detect the location information of the fire-generated part, and the information is transmitted to the management server 140 together with the thermal image information and the location information of the switchboard where the fire occurred, The thermal image information and the location information of the switchboard where the fire has occurred are transmitted to the user terminal 160 and the surrounding fire station server 170 through the management server 140, (S160).

If it is determined by the controller 130 that a fire has occurred in the ASSEMBLY, the controller 130 maps the location information of the ASSEMBLY that generated the fire to the map of the building on which the fire ASSISTED switchboard is installed, To the user terminal 160 and the neighboring fire station server 170 through the server 140 so that the fire fighting agent arrives at the switchboard where the fire is generated more quickly and can suppress the fire prematurely.

Meanwhile, when the fire signal is transmitted from the management server 140 to the user terminal 160, the user terminal 160 controls the fire extinguisher to fire the fire extinguishing powder on the fire- (150) is operated so that the fire can be suppressed prematurely and quickly.

If the fire signal is not received from the user terminal 160 for a predetermined time after the fire signal is transmitted to the user terminal 160 through the management server 140, The fire extinguisher 150 is automatically operated by the control unit 130 so that the fire extinguisher is concentrated and injected into the fire-generated part according to the position information of the generated part.

As described above, when it is determined that the temperature and the amount of carbon dioxide inside the switchboard detected by the sensor module 110 are equal to or more than the threshold value, the control unit 130 notifies the danger notification Signal is generated and transmitted to the user terminal 160 through the management server 140, thereby informing the manager of the fire risk of the switchboard in advance, so that the fire of the switchboard can be prevented from occurring.

When the smoke is detected by the sensor module 110, the control unit 130 generates a first generation fire signal and transmits it to the user terminal 160 through the management server 140. At the same time, The control unit 130 analyzes the thermal image information of the inside of the cabinet and obtains an emergency fire signal. When the control unit 130 determines that an actual fire has occurred, To the user terminal 160 and the surrounding fire station server 170 so that a fire report can be automatically received.

Accordingly, even if an error occurs in the sensor module 110, the switchboard fire management system 100 according to an embodiment of the present invention accurately detects the occurrence of a fire in the switchboard without any error and transmits it to the surrounding fire station server 170, So that it is possible to prevent waste of important firefighters and the budget due to wrong reporting.

In addition, the fire alarm management system 100 according to the embodiment of the present invention is a system in which a fire is generated by a control unit 130 when a fire is generated in an ASSEMBLY, the position information of the ASSEMBLY Is mapped and transmitted to the user terminal 160 and the surrounding fire station server 170 through the management server 140 so that the fire suppressing agent arrives at the fire generation switchboard in the golden time and can quickly suppress the fire, Minimize damage in case of occurrence.

In addition, when it is determined that a fire has occurred in the switchboard, the controller 130 compares the thermal image information obtained through the thermal imaging camera 120 with the position of the previously set switchboard part, And transmits it to the user terminal 160 through the management server 140 so that the manager can fire the fire extinguishing powder through the user terminal 160 in such a manner that the fire extinguisher is concentrated on the fire- 150) so that the switchboard fire can be quickly suppressed early.

The control unit 130 transmits a fire signal to the user terminal 160 through the management server 140 and then receives a fire signal from the user terminal 160 for a predetermined period of time The fire extinguisher 150 is automatically operated so that the fire extinguishing powder is concentrated and injected into the fire extinguishing part according to the position information of the fire extinguishing part so that when the manager can not confirm the fire extinguishing signal through the user terminal 160 It is possible to control the switchboard more quickly by suppressing the switchboard fire quickly.

As described above, in the switchboard fire management system 100 according to the embodiment of the present invention, fire-generated parts are detected early in the case of a fire in the switchboard, and fire extinguishing powder is injected intensively only to the fire- In addition to fire suppression, parts that do not cause a fire after the fire suppression can be reused because the fire is not sprayed, which can greatly reduce maintenance costs. It is possible to perform maintenance work more quickly by accurately grasping the position.

In addition, the switchboard fire management system 100 according to an embodiment of the present invention may be configured such that when a fire occurs in the switchboard, thermal image information obtained by the infrared camera 120 by the user terminal 160 and the surrounding fire station server 170 , And the location information of the fire-generating parts is transmitted to thereby promptly identify the cause of the fire.

While the present invention has been described in connection with what is presently considered to be practical and exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled 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.

(110): sensor module (120): thermal imaging camera
(130): control unit (140): management server
(150): fire extinguisher

Claims (4)

A sensor module for sensing the temperature, smoke and carbon dioxide of the switchboard;
An infrared camera disposed inside the switchboard to obtain thermal image information inside the switchboard;
The sensing value sensed by the sensor module is compared with a threshold value. If it is determined that the sensing value is equal to or greater than the threshold value, the circuit breaker is automatically shut off, and at the same time, the thermal image camera is operated to acquire thermal image information inside the switchboard A controller for judging whether or not the switchboard is in a fire state by analyzing and comparing the thermal image information with the position of a previously set switchboard component to detect position information of a fire-generated component;
When the control unit determines that a fire has occurred in the control panel, the controller receives the fire occurrence signal, the thermal image information, the location information of the fire-generating part, and the location information of the switchboard, A management server for automatically transmitting a fire notification report; And
And a fire extinguisher which is operated by the user terminal so that the fire extinguishing powder is concentrated and injected into the fire-generated part according to the position information of the fire-generating part when the fire occurrence signal is transmitted from the management server to the user terminal,
Wherein,
When the temperature or carbon dioxide amount of the switchboard is detected by the sensor module to be equal to or higher than the threshold value and smoke is detected, the control server periodically sends a first generation fire signal to the management server, After periodically transmitting,
The thermal image information of the inside of the switchboard transmitted from the thermal imaging camera is analyzed and if an actual fire is detected in the switchboard, an emergency fire occurrence signal is sent to the management server, and the management server transmits an emergency fire signal to the user terminal and the surrounding fire station server To transmit the generated signal,
Wherein,
If a fire alarm signal is not received from the user terminal for a predetermined time after the fire signal is transmitted to the user terminal through the management server so that the fire extinguisher is concentrated and injected into the fire component according to the location information of the fire component The fire extinguisher is automatically set to operate,
Wherein,
Even if the temperature or the amount of carbon dioxide of the switchboard is detected by the sensor module to be equal to or greater than a threshold value, if smoke is not detected through the sensor module, only the danger notification signal is periodically transmitted to the management server,
Wherein,
The location information of the switchboard where the fire occurred is mapped to the map of the building where the fire control panel is installed,
The management server includes:
When a fire occurs in the switchboard, the user terminal is configured to transmit a fire signal, thermal image information, location information of fire-generating parts, and location information of the switchboard, and the fire station server transmits a fire And only the location information of the signal and the switchboard is transmitted
Switchboard fire management system. delete delete delete

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