KR101901335B1 - Disaster control broadcast system using led lamp based on things intelligence communication - Google Patents

Abstract

The present invention relates to a disaster control broadcasting system using indoor LED lamps based on intelligent Internet of Things (IoT). The disaster control broadcasting system is installed in each building, has a unique ID for tracking each unique installation location allocated in advance thereto, has various sensors for sensing the surrounding environment of the building built therein or linked thereto, transmits disaster sensing data sensed by the sensors and the unique ID to an outside central control server through intelligent IoT on a real-time basis, and automatically generates disaster alarms in a disaster broadcasting range when receiving disaster occurrence signals including the disaster broadcasting range information determined based on an artificial intelligence algorithm with respect to a disaster occurrence from the central control server. Accordingly, the disaster control broadcasting system can generate the disaster alarms automatically in case of disaster, enables a two-way broadcast operation to groups and administrative districts by accessing a central control monitoring server when leaders of small-scale administrative units such as village and town supervisors are granted the permission through smartphones, computer systems, and general telephone networks, thereby enhancing the cost efficiency while reducing the amount of administrative resources needed therein.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a disaster control system using a LED based on object intelligence communication. 2. Description of the Related Art DISASTER CONTROL BROADCAST SYSTEM USING LED LAMP BASED ON THINGS INTELLIGENCE COMMUNICATION

[0001] The present invention relates to a system for disaster control broadcasting using an LED interior light based on an object intelligent communication, and more particularly, And transmits the disaster detection data sensed through the sensors to the outside through the intelligent communication network in real time. The received server transmits the disaster detection data sensed through the sensors to the 3D position of the received LED indoor disaster control broadcasting apparatus Based on the address, AI determines the radius to be alarmed by the AI algorithm, and generates an alarm in the LED interior disaster control broadcasting device within the range. When the LED disaster control broadcasting device receives the disaster occurrence signal from the outside, Intelligent interior lighting that automatically generates objects The present invention relates to a disaster control broadcasting system using an LED indoor light based on water intelligence communication.

Generally, people in the subway station, department store, various public facilities, apartment buildings, etc., which are often crowded with people, have difficulty in finding the evacuation route because of the complicated structure of the inside of the buildings when they are suddenly blackout or fire. In many cases.

Especially, in a building or an apartment, when a fire occurs or a gas is leaked into a room, it is impossible to promptly and effectively inform the fact that a fire occurs due to a voice transmission failure such as a sound barrier near a fire point, It is often the case that people are injured in life and property unintentionally.

On the other hand, most of the conventional disaster alarms mainly include a sensing sensor attached to a certain position of a building and a device for receiving a signal sensed by an adjacent sensor by a wire to generate a siren or a warning light. However, There was a limit to prompt emergency evacuation by promptly reporting disaster or danger to them and tracking their current location.

In addition, the conventional central control server, which is related to the above, performs a function of transmitting a signal transmitted to the national disaster safety net and the local disaster network. In the conventional disaster network system based on television, internet, mobile phone, There was a problem only if it was actively connected or listening to television or radio.

Also, according to the conventional method of disaster warning in the urban area, the degree of the alarm of the siren by the large speaker is used as a means of notifying the danger. However, in the modernized urbanization, the development of the high-rise building and the soundproofing material There was a limit to the difficulty of recognizing the external condition with the urgent siren alone, and there was a limit to the delivery system, such as transferring the administrative information or the public information, in such a way that the manager or the account manager visited each house and delivered it in a mailbox.

In the case of farming and fishing villages, the broadcasting system using large speakers is operated as a village unit. However, it can be listened only when the speaker is within the reaching range of the speaker volume. There was a limit to delivering announcements.

Korean Patent Publication No. 10-2014-0096741

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a system and method for controlling a building, And transmits the disaster detection data sensed through the sensors in real time to the outside through the intelligent communication network. The received server calculates a radius (radius 50m, 100m, 500m, 1Km, or specific block, administrative unit, group), and generates an alarm to the LED interior disaster control station within the range, and the LED indoor disaster control station Intelligent interior lighting that automatically generates a disaster alarm when a disaster signal is received. And to provide a disaster control broadcasting system using an LED interior light based on intelligent communication.

In addition, the technical problem to be solved by the present invention is to improve the technical and economic utility by designating a group as an individual generation or an administrative unit or a block unit as a system for publicity and administrative announcement in normal times, Villa, and multi-family housing without the need of a management office such as solo house, villa, multi-family house, etc. It is necessary to communicate the information directly to people. In addition to improving the administrative information delivery system, To provide a bi-directional disaster monitoring system capable of confirming notifications for each household.

According to an aspect of the present invention, there is provided a system for disaster control using an LED interior light based on an intelligent communication system, the system including a unique ID (or Internet address) system for tracking each unique location installed in a building, And various sensors for sensing the surrounding environment of the building are built in. The disaster detection data detected through the sensors and the unique ID system are transmitted to an external disaster central control server through the intelligent communication in real time , The disaster management central server generates disaster occurrence information including a disaster occurrence range signal including information on a disaster broadcast range based on artificial intelligence algorithm based on a point where a disaster occurs, Disaster control Internet-connected disaster room registered on the central server Be a disaster alert to the credit speakers or LCD provides an intelligent system that things happen automatically.

In addition, in the middle of the day, a small administrative unit such as a headmistress, a headmistress, or a bankbook connects to a disaster control central server through a smart phone, a computer system, or a telephone network to transmit real time broadcasts and recorded voice files, video files, And disaster control broadcasting system that can be utilized for public announcement.

The present invention is based on the discovery that a resident of a building suffering from a disaster through a disaster alert of an object intelligent interior light can quickly recognize the danger of a disaster even when the television, the radio, and the Internet are not turned on or connected, have.

In addition, the present invention provides a technology that can realize an emergency structure by quickly recognizing a position in a disaster relief by notifying the current position to the outside through a wireless communication with the intelligent interior light using a wireless panic button, It is effective.

In addition, the present invention can be applied to a case where a person registered as a competent manager such as a headmaster or a chairman in a residential house scattered in a single-family residence or a small or medium sized villa, a mountain village or a fishing village except a large- , It is possible to broadcast notices or administrative matters through the LED lighting (wall, tower, cylinder, etc.) installed in the households connected to the central disaster management server based on the touch panel, There is a technical effect that can be confirmed by generation when the installation or confirmation button is installed.

FIG. 1 schematically shows a main configuration of a disaster management system based on the object intelligence communication according to the present invention.
FIG. 2A is a detailed view of the configuration of the object intelligent interior light according to the present invention.
FIG. 2B shows an example of the main configuration of the ambient environment sensing unit, which is one of the main components of the intelligent interior light of FIG. 2A.
FIG. 3 shows a detailed configuration of a central control server according to the present invention.
4A shows an object intelligent interior lamp installed in a general house according to an embodiment of the present invention.
FIG. 4B illustrates a state in which fire related information is transmitted to the outside when a fire occurs by using the object intelligent interior lamp installed in an apartment according to an embodiment of the present invention.
FIG. 4c is an embodiment according to the present invention in which a central control server receives fire related information according to FIG. 4b, reports a fire in a firefighter's office, and emits an emergency alarm to evacuate the resident And in the case of a large fire, it is transmitted to a television station, and the corresponding fire broadcast is reported through the television.

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

FIG. 1 schematically shows a main configuration of a disaster management system based on the object intelligence communication according to the present invention.

Referring to FIG. 1, the object intelligence communication based disaster control system 1000 according to the present invention includes a disaster message tracking apparatus 100, a central disaster control server 200, and a user terminal 300.

The disaster relief moving equipment 100 may be provided with a touch panel such as an object intelligent interior light, a wireless panic button, a wall emergency button, or a touch pad integrated with a disaster management broadcasting device in a place where a person resides (such as a house, a villa, (See FIG. 4A to FIG. 4C), various sensors (see FIG. 2B) for sensing the surrounding environment are built in, and the sensed disaster detection data is transmitted to the external communication terminal through the intelligent communication in real time, The user is prompted to inform the outside of the occurrence of the disaster, and the user is prompted to make a request for rescue and evacuation. A detailed description thereof will be described later with reference to FIGS. 2A and 2B.

In this case, the wireless panic button may include an emergency notification terminal (including a wall-mounted emergency button, a disaster-management-broadcast-unit-integrated touchpad, etc.) possessed by a resident of the building in which the intelligent interior light is installed, (IoT) -based network with the intelligent interior light, the central disaster control server 200 can transmit the panic button information to the central intelligence server 200 through the Internet (IoT) -based network with the intelligent interior light, simply by pressing the emergency button provided by the emergency notification terminal in the event of an emergency such as fire, As shown in FIG.

In this case, human information such as a senior citizen, information on a guardian (recipient) and the like are initially registered so that an initial registration It is desirable to utilize the information to minimize damage to people through rapid structure.

Meanwhile, S & T Communications is expanding its communication, broadcasting and internet infrastructures to the areas of human vs. object and object to object, intelligently collecting, processing and processing information through objects, IoT) based network '.

Hereinafter, the Internet (IoT) -based network used in the present invention will be briefly described.

Internet (IoT) is defined as a global-scale infrastructure that enables advanced services to be provided through interconnection between various physical and virtual objects using existing or future interoperable information technology and communication technologies And developed with a wireless sensor network (WSN) technology.

Here, WSN technology is a technology that forms an autonomous network by arranging sensor nodes equipped with computing ability and wireless communication capability in an application environment, and collects information obtained from sensor nodes by radio and uses them for monitoring / control.

The ultimate goal of WSN technology is to provide computing and wireless communication capabilities to all objects to enable communication between objects anytime and anywhere. It is evolving into Internet (IoT) network technology with the convergence of various technologies. have.

LoRA, NBIoT, short-range communication, WiFi, 3G / 4G / LTE, 5G, DMB, and so on are typical technologies for Internet (IoT) network.

Unlike the IP protocol in which the device exchanges information based on the Internet connection, the device-to-device communication in the case of not using the IP can be used for communication such as Bluetooth, ZigBee, RFID, ZWave, WAVENIS, INSTEON, 6LowPAN, .

Next, the central disaster control server 200 receives disaster detection data from the disaster monitoring system 100, analyzes the received disaster detection data to determine whether a disaster such as a fire has occurred, (Such as a fire station, a police station, an insurance company, a management office, a mobile communication company, a broadcasting station, etc.) and a terminal device (smart phone, etc.) possessed by a resident in the event of a disaster such as a fire, Etc., in order to inform the user of the disaster information in real time. The detailed description will be described later with reference to FIG.

In this case, the central disaster control server 200 can be used in the form of a concentrated type and a dispersed type, or a mixed type in which these are mixed and used.

Meanwhile, according to the present invention, a party authorized administrator manually accesses the central disaster control server 200 with a smart phone, a computer system, or a public telephone network, and selects a household ID or group to be controlled, Unit, block unit, building unit, or generation unit.

The user terminal 300 may be a smart phone, a tablet PC, a PDA, or the like, which is a mobile terminal carried by a resident or an administrator of a building in order to receive disaster information provided by the central disaster control server 200 when a disaster occurs And all devices capable of accessing the central control server 200 through internet or wireless mobile communication.

FIG. 2A shows a detailed configuration of the object intelligent interior lamp according to the present invention, and FIG. 2B shows an example of a main configuration of the ambient environment sensing unit, which is one of the main components of the object intelligent interior lamp shown in FIG.

In this case, the shape of the object intelligent interior light 100a can be a cylindrical shape, a square shape, and the like. The shape of the object intelligent interior light 100a can be changed according to the installation position, and various modules used in the present invention, And an ID storage module) can be integrated.

2A, the object intelligent interior light 100a according to the present invention includes a power supply unit 110, a charging unit 120, an illumination unit 130, a communication unit 140, a unique position setting unit 150, An alarm unit 170, a data storage unit 180, an information display unit 190, a voice recognition module 191, an audio bidirectional communication unit 192, and a control unit 195.

In this case, the power supply unit 110 may include an external power input unit (not shown) for inputting external power, an external power input unit And a converter unit (not shown) for converting AC power having passed through the rectifying unit (not shown) to DC power.

The charging unit 120 is for supplying an auxiliary power source to the external communication terminal so as to transmit the detected disaster detection data to the external communication terminal even when a power failure occurs. The charging unit 120 is charged with a predetermined amount of charge in advance, Or a rechargeable secondary battery can be used as a battery.

The illumination unit 130 performs general illumination of the interior lamp (e.g., an LED lamp, etc.) according to the power supply of the power supply unit 110 or the charging unit 120, and particularly performs dimming dimming) can be implemented to realize emergency lighting.

The communication unit 140 provides an interface for performing wireless communication with an external central control server 200 or a wireless panic button 320. The wireless communication unit 140 may be a Zigbee, (WiFi), CDMA, 3G, 4G, LTE, LTE-A, and Wireless Broadband Internet.

The unique location setting unit 150 sets a unique location by assigning a unique ID to each of the intelligent interior lights 100 installed in a building (such as a house, a villa, an apartment, a building, etc.) The location of the building can be tracked using the unique ID. Hereinafter, a method of setting a unique location for each of the intelligent interior lights 100 will be described in detail.

First, when registering the object intelligent interior light 100 (for example, LED, etc.) as a first method, a dedicated application program, a web, and a QR code are basically used. In this case, The lake, and the GPS value are registered in a manner matching 1: 1 with the unique ID of the intelligent interior light 100.

For example, when the unique ID of the first object intelligent room is P2018-0001 and registered in the application program or the web by 1: 1 matching method to the A zone of the 3rd floor of the Samhwa Building, Yeoksam-dong, Gangnam-gu, So that the location of the building can be tracked.

In the case of the first method, when the emergency notification is notified, the alarm information is more rapidly and effectively alertered by associating with the map information and the building registration DB, and determining the notification area range through the AI algorithm .

As a second method, the location of a building in which the intelligent interior light 100 is installed can be confirmed using a mobile communication network such as WiFi. In this case, the IP address management server of the installation point is connected to the intelligent interior light 100, The peer-to-peer (P2P) communication algorithm between the modems can be used in conjunction with the customer account information so that the customer can know the location information of the building in which the customer is residing.

The ambient environment sensing unit 160 senses internal environment-related factors of a building (such as a house, a villa, an apartment, a building, and the like) in which the intelligent interior light 100 is installed and displays various disaster related information and situation information Hereinafter, a detailed description thereof will be described with reference to FIG. 2B.

2B, the ambient environment sensing unit 160 includes a smoke sensing module 161, a thermal sensing module 162, a temperature sensing module 163, a fire sensing module 164, an earthquake sensing module 165, And a sensing module 166.

The smoke detection module 161 senses smoke generated in the interior space of a building (e.g., a house, a villa, an apartment, a building, etc.) in which the intelligent interior light 100a is installed, generates a smoke detection signal, I can do it.

For example, the smoke detection module 161 may include a smoke detection unit (not shown) configured to detect smoke using first and second sensors including a temperature-sensitive smoke detection unit disposed between the first and second electrodes, A smoke level measuring unit (not shown) for comparing a difference between the first and second smoke detection signals output from the first and second sensors with a setting reference signal to generate a smoke level measuring signal, And a detection control unit (not shown) for receiving a measurement signal and generating a fire alarm signal when a fire occurrence condition is met.

The heat sensing module 162 senses heat when a fire occurs in an interior space of a building (e.g., a house, a villa, an apartment, a building, etc.) in which the intelligent interior light 100a is installed, generates a heat sensing signal, For example, a differential type spot type address type heat detector or a constant temperature six port type address type heat detector.

In this case, the differential-type spot addressable thermal sensor includes a fire sensor having a first NTC thermistor for sensing the sensor internal temperature and a second NTC thermistor for sensing the sensor external temperature; (Dip switch) for setting the detector number of the detection zone unit installed in the border zone to one of 01 to 99 in the binarized decimal input method, and a detector number, which is an address set by the DIP switch, When the occurrence of a fire detection or non-fault occurrence occurs, a fire detection or non-reset signal is transmitted to the address type receiver through a corresponding circuit loop connected to the address type receiver, And a controller for transmitting the address signal of the sensor number in response to the count pulse signal requesting the address of the sensor.

The temperature sensing module 163 senses the temperature when a fire occurs in the interior space of a building (e.g., a house, a villa, an apartment, a building, etc.) in which the intelligent interior light 100a is installed, generates a temperature sensing signal, It allows you to judge.

The fire detection module 164 detects a fire in an internal space of a building (such as a house, a villa, an apartment, a building, etc.) in which the intelligent interior light 100a is installed, It allows you to judge.

The earthquake detection module 165 senses the vibration of the internal space of the building (e.g., a house, a villa, an apartment building, a building, etc.) in which the intelligent interior light 100a is installed and generates a vibration detection signal to determine the degree of earthquake For example, a three-axis sensor can be used.

The touch sensing module 166 senses whether or not there is a human touch on the disaster-management-service-unit integrated touch pad when a disaster occurs, and when the touch sensing module 166 determines that there is touch, it generates a touch sensing signal to determine whether a disaster has occurred .

Referring to FIG. 2A again, the alarm unit 170 operates an alarm means installed in the intelligent room 100 to receive a disaster alert signal such as a fire or an earthquake.

In this case, the alarm means can generate an alarm sound, a warning sound, and the like through a speaker, for example. In addition, the alarm means can display colors emitted by light emitting lamps such as LEDs and LCDs according to the alarm level The alarm may be implemented by implementing dimming that gradually changes the brightness of the illumination in the event of a disaster.

The data storage unit 180 stores various data processed through the unique location setting unit 150, the ambient environment sensing unit 160, and the control unit 190 and may use a nonvolatile memory such as a flash memory as a storage medium .

In this case, the data storage unit 180 may store various alarm-related images, audio information, and the like transmitted from the central disaster control server 200 in the memory.

The information display unit 190 displays various information such as the current time, the volume level, the brightness level, the number of received files, the number of stored images, Time remaining during the entire time, and the like.

The voice recognition module 191 recognizes an urgent voice frequency such as screaming or shouting by incorporating a voice recognition module (such as an Arduino voice recognition module). If the voice recognition module 191 determines that it is in an emergency state as a recognition result, To the disaster management server 200 or an external fire department.

The voice bidirectional call unit 192 incorporates a voice bidirectional communication device to transmit and receive voice signals to and from the central disaster control server 200 or an external fire department. In this case, WCDMA, LTE, and 5G of a wired communication or a mobile communication company can be used have.

The control unit 195 includes a power unit 110, a charger 120, an illumination unit 130, a communication unit 140, a unique position setting unit 150, a peripheral environment sensing unit 160, an alarm unit 170, 180, the information display unit 190, the voice recognition module 191, and the voice bidirectional call unit 192. [

For example, the control unit 195 may generate various control signals to perform functions such as volume control, brightness control, automatic storage of a received file (voice and image), playback function, replay, and replay.

FIG. 3 shows a detailed configuration of a central disaster control server according to the present invention.

3, the central disaster control server 200 according to the present invention includes a sensing data receiving unit 210, a communication unit 220, a data storage unit 230, a disaster analysis unit 240, a disaster occurrence notification unit 250 A disaster state display unit 260, a signal adjustment unit 270, and a control unit 280.

The sensing data receiving unit 210 receives in-building environment sensing data sensed by the intelligent interior light 100 in real time.

Wherein the environmental sensing data includes fire related data (e.g., smoke sensing data, heat sensing data, temperature sensing data, flame sensing data, etc.) and seismic sensing data.

The communication unit 220 provides an interface for performing wireless communication with the intelligent interior light 100 or the resident terminal unit 300. The communication unit 220 may be a wireless communication system such as Zigbee, (WiFi), CDMA, 3G, 4G, LTE, LTE-A, Wireless Broadband Internet, 5G, DMB and RF communication.

The data storage unit 230 stores various data processed through the sensing data receiver 210, the disaster analyzer 240, and the controller 270, and a nonvolatile memory such as a flash memory may be used as the storage medium.

In this case, the data storage unit 230 stores various alarm-related images, audio information, and the like in advance in a file form in a flash memory. Then, in response to an instruction from the control unit 280 in the event of a disaster, Video files, audio files, and the like.

The disaster analyzing unit 240 analyzes the fire related data received through the sensing data receiver 210 (such as smoke detection data, thermal sensing data, temperature sensing data, flame sensing data, etc.) and seismic sensing data, The degree of fire, the location of the fire and the degree of earthquake.

In this case, the disaster analyzing unit 240 can analyze the location of the building in which the fire occurred, using the unique ID assigned beforehand for each object intelligent indoor disaster control station broadcasting apparatus 100.

When the disaster alarm notifying unit 250 determines that a disaster has occurred through the disaster analyzing unit 240, the disaster alarm notifying unit 250 may detect the disaster of the object intelligent indoor disaster response monitoring apparatus 100 installed in the disaster- And transmits a disaster occurrence signal to the user terminal 310. The user terminal 310 quickly recognizes the occurrence of a disaster such as a residence, and can quickly evacuate.

Accordingly, the present invention enables a resident of a building in which a disaster occurred to quickly know the risk of an earthquake, tsunami, fire, war, etc., even when the television, radio, Have technical advantages that can be utilized.

In this case, the disaster occurrence signal preferably includes information such as the type of disaster, degree of emergency, and response manual.

In addition, in order to transmit a disaster occurrence signal in the event of a disaster, the disaster occurrence notification unit 250 may be configured to transmit various types of communication media (for example, a television broadcast through a television broadcast company, a radio broadcast through a radio broadcast company, , A mobile phone through a mobile phone provider, etc.). (See Figs. 4B and 4C)

The following briefly summarizes the method of notifying the occurrence of a disaster in the vicinity of the place where the disaster occurred in the event of a disaster in a specific building.

First, according to the first notification method according to the present invention, when a disaster occurrence area and location such as a fire and an earthquake due to telephone reporting such as 119 and 112 of an unspecified person are specified, the central control server 200 determines, 100 m, 1 Km (see FIG. 1) by setting a disaster broadcast range A 10 through an artificial intelligence (AI) algorithm after accessing a system (not shown) ), The entire area, the designation of an administrative district, etc.), and transmits the disaster occurrence signal to the object intelligent indoor disaster observation and control subsystem 100 installed in the area where the disaster broadcasting range A10 is present through the disaster occurrence notification unit 250 Method can be used. (See Figs. 4A to 4C)

Second, according to the second notification method according to the present invention, when the object intelligent interior light 100 installed in the disaster area detects a fire, an earthquake, or the like and transmits a detection signal to the central control server 200, 200) is automatically notified to the fire department, etc., and a disaster broadcast range (A10) is determined through AI algorithm (e.g., radius 50m, 100m, 1km, A method of transmitting a disaster occurrence signal to the object intelligent indoor disaster control subsystem 100 installed in the area where the disaster occurs can be used. (See Figs. 4A to 4C)

Meanwhile, when the elderly person or the like located in the disaster area presses the wireless panic button 320 when the first notification method or the second notification method is executed, the object intelligent indoor disaster observation system 100 The panic button information is automatically transmitted to the central disaster control server 200 through the IoT based network and the current position information of the elderly person provided by the panic button information is used to evacuate the disaster area It can be seen that there are people who are not able to do so, and it is possible to minimize the damage of people by promptly introducing the concentration guidance and rescue personnel.

Third, in the third notification method according to the present invention, an alarm signal transmitted by a nearby object intelligent indoor disaster control station broadcasting apparatus installed in an area where a disaster occurs is received by another adjacent object intelligent indoor disaster control station broadcasting apparatus, You can also use the method.

That is, the third notification method includes mesh-type communication in which a disaster alarm signal is transmitted or received in a cascade manner through wireless communication between neighboring object intelligent indoor disaster control broadcasting apparatuses without being connected to the central disaster control server 200, : N communication, N: N communication method, etc., so that the alarm can be informed to a nearby location of a disaster area more quickly.

The disaster state display unit 260 displays the spatial information (e.g., 2D, 3D guide map, BIM-based guide map, etc.) of the building in which the disaster occurred, visually on the screen, It is preferable that space information of the building is transmitted to the user terminal 310 so that emergency disaster can be promptly grasped visually and promptly.

Here, the BIM (Building Information Modeling) -based guide map uses the BIM tool to model the space in which the resident of the building where the disaster occurred is located and derives the x-coordinate, y-coordinate and floor information of the modeled building as polygonal coordinates, To be displayed in three dimensions (3D).

The signal adjusting unit 270 transmits various signal commands to the intelligent interior light 100a to remotely control the volume of the intelligent interior light 100a, brightness control, automatic storage and playback of the received file (voice and image) , Replay, replay, and so on.

The control unit 280 includes a sensing data receiving unit 210, a communication unit 220, a data storage unit 230, a disaster analysis unit 240, a disaster occurrence notification unit 250, a disaster status display unit 260, ).

In addition, the present invention provides a technical merit that permits a manager of a legitimate authority to access a central disaster control server 200 through a smart phone, a computer system, .

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit of the invention.

100: Disaster control broadcasting equipment
100a: things intelligent interior light
110: power supply unit 120: charging unit 130:
140: communication unit 150: unique position setting unit
160: Ambient environment detecting unit 170: Alarm unit
180: Data storage unit 190: Information display unit
191: Voice recognition module section
192: Voice Two-way calling part
195:
200: Central Disaster Control Server
210: sensing data receiving unit 220:
230: Data storage unit 240: Disaster analysis unit
250: disaster occurrence notification unit 260: disaster situation display unit
270:
280:
300: user terminal

Claims (20)

A plurality of sensors installed in the interior of the building, each sensor being provided with a unique ID for tracking each installed unique location and sensing the surrounding environment of the building; The central disaster management server transmits the unique ID to the external central disaster control server through object intelligence communication in real time, and the central disaster control server transmits a disaster occurrence signal including the disaster broadcast range information determined based on the artificial intelligence algorithm An intelligent interior light for automatically generating a disaster alarm in a disaster alarm broadcasting apparatus existing within the disaster broadcasting range,
The object intelligent interior light includes:
An illumination unit for illuminating the illumination according to an external power supply;
A unique location setting unit for assigning a unique ID to each of the object intelligent interior lamps in advance and matching the unique ID and the unique location by 1: 1; And
And an alarm unit for automatically generating a disaster alarm within the disaster broadcast range when the disaster occurrence signal transmitted from the central disaster control server is received,
The unique position setting unit,
A unique ID or an internet address is assigned to each of the things intelligent interior lamps in advance, and a dedicated application program for setting registration is matched with the unique ID and the unique location in a 1: 1 manner to a smart phone, a computer system, Accessing and using the central disaster control server,
The unique position may be,
Information of the building, dynamic and lake information of the building, and three-dimensional digital spatial information,
The alarm unit,
When an alarm signal transmitted by a nearby intelligent interior light installed in a disaster area is received, a disaster alarm is automatically generated,
The adjacent object intelligent indoor lights are arranged such that,
A disaster control system using an LED light based on an object intelligent communication system characterized by using a 1: N communication or an N: N communication method for sequentially transmitting or receiving a disaster alarm signal through wireless communication Broadcasting system. delete The method according to claim 1,
An ambient environment sensing unit for sensing the surrounding environment of the building through the built-in sensing module for each of the intelligent interior light type disaster control broadcasting devices and generating disaster detection data; And
Further comprising a communication module for transmitting and receiving information of other sensors installed in the neighborhood through the short distance communication module. The method according to claim 1,
A rectifying unit for rectifying the AC power to a DC power source;
A secondary battery for supplying auxiliary power to provide disaster broadcasting and broadcasting even in case of power failure; And
Further comprising an information display unit for displaying on the screen information on the current time, the volume level, the brightness level, the number of received files, the number of image storage, and the remaining time during the entire time of image presentation, Disaster monitoring system using. The method of claim 1,
And a radial range that is gradually enlarged to a predetermined range. The system of claim 1, wherein the light source is a light source. delete delete [4] The apparatus of claim 3,
A fire detection module for detecting a flame generated in an inner space of the building and generating a flame detection signal; And
And an earthquake detection module for detecting a vibration of the internal space of the building and generating a vibration detection signal. The apparatus according to claim 1,
And displaying the alarm sound, the real-time alarm broadcast sound, the stored alarm broadcast sound reproduction, the stored image playback, or the real-time streaming image through the speaker installed in the inside of the disaster control broadcasting system. 10. The apparatus according to claim 9,
Wherein the color of light emitted from the illumination unit is different according to an alert level of a disaster through an alarm or an LCD screen. 2. The method according to claim 1,
A disaster type, an emergency level, and a response manual information. 2. The emergency disaster management system according to claim 1,
Wherein the disaster monitoring system is one of a concentrated type, a distributed type, and a mixed type.
13. The method of claim 12,
A manager of a party authority is manually connected to the central disaster management server by using a smart phone, a computer system or a public telephone network, and a household ID or group is selected according to a control command through the manager, Wherein the broadcast unit broadcast unit or the broadcast unit broadcast unit is embodied in a disaster control broadcast system using an LED intelligent communication based LED light. delete delete The apparatus according to claim 1,
When the central disaster control server receives the disaster information received from the external government central disaster headquarters or the disaster information received from the fire station, a disaster alarm is automatically generated in the emergency alarm synchronizing apparatus existing within the disaster broadcasting range The disaster control broadcasting system using the intelligent communication based LED interior light. The method according to claim 1,
Further comprising an emergency notification terminal for automatically transmitting the panic button information to the central disaster control server through the Internet (IoT) -based network with the object intelligent interior light. Controlled broadcast system. 18. The emergency notification terminal of claim 17,
A wireless panic button, a wall-mounted emergency button, or a disaster-management broadcast device integrated touchpad. The object intelligent indoor lighting system according to claim 1,
And a voice recognition module for recognizing a voice frequency of the user and automatically transmitting an emergency signal to the central disaster management server or the external fire department when it is determined that the voice frequency is in a critical state as a recognition result Disaster monitoring broadcast system. The object intelligent indoor lighting system according to claim 1,
And an audio interactive communication device to transmit and receive voice signals to and from the central disaster management server or the external fire department.

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