CN109819676B - LED illuminating lamp system with disaster alarm and disaster training functions - Google Patents

Abstract

The present invention relates to an LED illuminating lamp system with disaster alarm and disaster training functions, which illuminates the illuminating LED group of the LED illuminating lamp under normal condition in the illuminating area of the building provided with the LED illuminating lamp; when a disaster such as a fire disaster or an earthquake occurs, the emergency LED group of the LED illuminating lamp is turned on to generate a disaster alarm; when disaster training such as fire or earthquake is performed, the emergency LED group of the LED illuminating lamp is turned on to generate disaster training alarm, thereby beginning disaster training. In the LED illuminating lamp, an illuminating LED group and an emergency LED group are arranged on a single substrate. According to the present invention, it is possible to install an LED illumination lamp in an illumination area of a building and easily construct a disaster warning system for a fire or an earthquake, thereby enabling integration of disaster warnings such as a fire warning and an earthquake warning, and in particular, it is possible to conveniently monitor and control the disaster warning through an administrator screen displayed on an administrator terminal.

Description

LED illuminating lamp system with disaster alarm and disaster training functions

Technical Field

The present invention relates to an LED lamp (LED lamp) system, and more particularly, to an LED lamp system having a disaster warning and training function.

Background

Buildings such as schools, government offices, apartments, office buildings, tunnels, etc., are provided with fire alarms or earthquake alarm systems, etc., which give an alarm when a disaster such as a fire or earthquake occurs.

For example, in the case of a fire alarm installed in a building, when a fire detector for detecting flames or smoke outputs a fire detection signal informing that a fire is occurring, or a fire finder informs that a fire is occurring by pressing a button, a transmitter transmits the fire detection signal to a receiver, and the receiver receiving the fire detection signal from the transmitter outputs a fire alarm signal and operates an alarm bell, thereby generating a fire alarm and informing a fire department in a wired or wireless manner.

On the other hand, patent document 1(KR10-1767343B1) describes an earthquake warning and evacuation broadcasting system that can generate an earthquake warning according to the size of an earthquake and perform evacuation broadcasting when the earthquake occurs.

The fire alarm, the earthquake alarm system, and the like are generally installed individually in a building, and thus there is a problem in that it is difficult to perform comprehensive management.

For example, if a fire alarm installation company installs a fire alarm and an earthquake alarm system installation company installs an earthquake alarm system in a newly built building, it is necessary to install and manage a fire alarm control device and an earthquake alarm system control device separately in a control room, and therefore it is difficult to perform comprehensive management.

In contrast, when an earthquake alarm system setting company additionally sets an earthquake alarm system in a building in which a fire alarm has been set, it is not feasible in many circumstances to comprehensively manage a control apparatus for a fire alarm that has been set in a control room and a control apparatus for an earthquake alarm system that is newly set.

Disclosure of Invention

Technical problem to be solved by the invention

The present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to provide an LED lighting system having a disaster warning and disaster training function, which illuminates an illumination area of a building in which an LED lighting lamp is installed by turning on an LED group for illumination of the LED lighting lamp in a normal state; when a disaster such as a fire disaster or an earthquake occurs, the emergency LED group of the LED illuminating lamp is turned on to generate a disaster alarm; when disaster training such as fire or earthquake is performed, the emergency LED group of the LED illuminating lamp is turned on to generate disaster training alarm, thereby beginning disaster training. In the LED illuminating lamp, an illuminating LED group and an emergency LED group are arranged on a single substrate.

Technical scheme

In order to achieve the above-mentioned objects of the present invention, an LED lighting system having a disaster warning and disaster training function according to the present invention is characterized by comprising: an LED illumination lamp in which at least 1 or more LED illumination lamps are provided in each illumination area of a building including at least 1 or more illumination areas, and an illumination LED group and an emergency LED group are arranged on a single substrate, and when any one of the groups is turned on, the other group is turned off; at least 1 or more disaster detectors for periodically outputting disaster discrimination signals for discriminating a disaster (e.g., a fire or an earthquake) in a wired or wireless manner within the illumination area and storing location identification information in a disaster management server; an emergency switch relay which receives the disaster determination signal and transmits the disaster determination signal to a communication hub in the lighting area, turns on an emergency switch to turn on an emergency LED group of the LED lighting lamp when an emergency lighting power-on signal is received from a disaster management server, and turns off the emergency switch to turn off the emergency LED group of the LED lighting lamp when an emergency lighting power-off signal is received from the disaster management server; a communication hub which is disposed at an appropriate position of the building, communicates a disaster determination signal received by the emergency switch relay by wire or wirelessly, and transmits the signal to a disaster management server, and receives an emergency lighting power-on signal or an emergency lighting power-off signal from the disaster management server and transmits the signal to the emergency switch relay; and a disaster management server for transmitting an emergency lighting power-on signal to an emergency switching relay installed in an illumination area where the disaster is detected through the communication hub to turn on an emergency LED group of the LED lighting lamp to generate a disaster alarm when the disaster is determined to occur after receiving the disaster determination signal through the communication hub, and transmitting emergency lighting power-on information to the emergency switching relay installed in the illumination area through the communication hub to turn on the emergency LED group of the LED lighting lamp to generate a disaster training alarm to start disaster training after receiving a disaster training start signal from a manager terminal.

The LED lighting system having a disaster warning and disaster training function according to the present invention is characterized in that the disaster detector includes a temperature sensor for detecting a fire or an acceleration sensor for detecting an earthquake.

According to the present invention, the LED lighting system having a disaster warning and disaster training function is characterized in that the disaster detector outputs a disaster occurrence signal upon receiving a fire detection signal for activating an alarm bell of the fire alarm, so that the disaster management server generates a disaster warning by lighting up an emergency LED group of LED lighting lamps disposed in an illumination area where the disaster occurrence is detected.

According to the present invention, in order to transmit a disaster determination signal of the disaster detector to the communication hub, the LED lighting system having the disaster warning and training function further includes at least 1 or more signal relays, and any one of the signal relays receiving the disaster determination signal wirelessly transmits the disaster determination signal to another signal relay in an illumination area.

The LED lighting lamp system with the disaster warning and training functions is characterized in that the signal repeater and the emergency switch repeater mutually transmit/receive a disaster judgment signal and transmit the disaster judgment signal to a communication hub.

The LED lighting system having a disaster warning and disaster training function according to the present invention is characterized in that the disaster detector, the emergency switch relay, the signal relay, and the communication hub communicate with each other through a wireless communication network such as a bluetooth network, a lora (long Range and low power) network, or a NarrowBand Internet of Things (NB-IoT) network.

According to the invention, the LED illuminating lamp system with the functions of disaster alarm and disaster training is characterized in that when the disaster judging signal received by the communication hub is judged to be the disaster, the disaster management server transmits disaster alarm prompt information to the administrator terminal and the user terminal to generate disaster alarm.

According to the LED lighting system having the disaster warning and disaster training functions of the present invention, when the disaster management server receives a disaster training start signal from the administrator terminal, it transmits a disaster training time notification message to the administrator terminal and the user terminal.

According to the present invention, the LED lighting system having the disaster warning and disaster training functions is characterized in that, when a disaster determination signal of a disaster detector installed in any one of the entire lighting areas of the building is determined as the first disaster occurrence, the disaster management server transmits an emergency lighting energization signal to an emergency switching relay installed in the entire lighting area of the building through the communication hub, so that the emergency LED group of the LED lighting is turned on, and transmits disaster warning information to the administrator terminal and the user terminal, thereby generating a disaster warning.

According to the present invention, in the case where the disaster determination signal of the disaster detector installed in any one of the entire illumination areas of the building is determined as the first disaster occurrence, the disaster management server transmits the emergency lighting energization signal to the emergency switching relay installed in the illumination area determined as the disaster occurrence in the entire illumination area of the building through the communication hub, thereby turning on the emergency LED group of the LED lighting and transmitting the disaster warning prompt message to the administrator terminal and the user terminal to generate the disaster warning.

According to the present invention, the LED lighting system having a disaster warning and disaster training function is characterized in that, when a disaster determination signal of a disaster detector provided in any one of the entire lighting areas of a building is determined as an initial disaster and a disaster determination signal of another disaster detector provided in the lighting area determined as a disaster is determined as a secondary disaster, the disaster management server transmits disaster change prompt information to the administrator terminal and the user terminal to generate a disaster warning.

Advantageous effects

According to the present invention, it is possible to install an LED illumination lamp in an illumination area of a building and easily construct a disaster warning system for a fire or an earthquake, thereby enabling integration of disaster warnings such as a fire warning and an earthquake warning, and in particular, it is possible to conveniently monitor and control the disaster warning through an administrator screen displayed on an administrator terminal.

The present invention can easily start disaster training such as fire or earthquake by using the manager terminal, and especially, can conveniently monitor and control the disaster training by the manager screen displayed on the manager terminal.

When a disaster such as a fire or an earthquake occurs, the present invention distinguishes and generates a disaster alarm according to an illumination area in a manner of lighting up an LED illumination lamp provided in the entire illumination area or a partially selected illumination area of a building for emergency use, and transmits disaster alarm prompt information to a manager terminal or a user terminal, thereby rapidly responding to a change of disaster conditions and realizing safe evacuation.

Drawings

Fig. 1 is an embodiment of a building provided with an LED lighting system with disaster warning and disaster training functions according to the present invention.

Fig. 2 is a view showing an example of the structure of an LED lighting system having a disaster warning and disaster training function according to the present invention.

Fig. 3 is a schematic view showing a structure of an LED illumination lamp according to the present invention.

Fig. 4 is a view showing a preferred embodiment of the structure of the LED illumination lamp according to the present invention.

Fig. 5 is a view showing another example of the structure of the LED illumination lamp according to the present invention.

Fig. 6 shows an embodiment of a power separation type LED lighting lamp.

Fig. 7 is another embodiment of the power separation type LED illumination lamp.

Fig. 8 is an embodiment of an administrator screen displayed at an administrator terminal of the present invention.

Detailed Description

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

Referring to fig. 1 to 4, an LED illuminating lamp system 100 having a disaster warning and disaster training function according to the present invention includes: an LED lighting lamp 110, a disaster detector 120, an emergency switch relay 130, a signal relay 130a, a communication hub 140, a disaster management server 150, and an administrator terminal 160.

At least 1 or more of the above-described LED illumination lamps 110 are provided in each illumination area of the building 200 including at least 1 or more illumination areas.

In the LED illumination lamp 110, the illumination LED group G1(111) and the emergency LED group G2(112) are arranged on a single substrate, and when any one of the groups is turned on, the other group is turned off.

The illumination LED group G1(111) and the emergency LED group G2(112) of the LED illumination lamp 110 are arranged on a single substrate, wherein the illumination LED group G1(111) is supplied with a first power source to turn on the lamp when the illumination switch 110a is turned on, and the emergency LED group G2(112) is supplied with a second power source to turn on the lamp when the emergency switch of the emergency switch relay 130 is turned on.

Preferably, the illumination LED group G1(111) is composed of at least 1 or more illumination LED groups.

Fig. 4 shows a preferred embodiment of the LED illumination lamp 110, and as described above, the illumination LED group G1, which is turned on by supplying the first power when the illumination switch 110a is turned on, and the emergency LED group G2, which is turned on by supplying the second power when the emergency switch of the emergency switch relay 130 is turned on, are arranged on a single substrate.

In the LED illumination lamp 110 of fig. 4, the illumination LED group G1 is lit while the first power is supplied through the B-contact switch SW _ B of the relay. Thereafter, when the second power source is supplied, the B contact switch SW _ B is turned off by the operation of the relay R, whereby the second power source side is electrically connected to the emergency LED group G2 while the illumination LED group G1 is turned off, and the emergency LED group G2 is supplied to the second power source to be turned on.

Fig. 5 shows another embodiment of the LED illumination lamp 110, in which the LED illumination lamp 110 is wired to a first power supply and a second power supply from a commercial power supply of a switchboard (panel) provided in an illumination area of the building 200.

In the LED illumination lamp 110 in fig. 5, the illumination LED group G1 is lit while the first power source wired from the commercial power source of the distribution board is supplied through the B-contact switch SW _ B of the relay. Then, when the emergency switch of the emergency switch relay 130 is turned on, the B-contact switch SW _ B is turned off by the operation of the relay R, and when the second power source wired from the commercial power source of the distribution board is supplied through the a-contact switch SW _ a of the relay, the emergency LED group G2 is turned on and the illumination LED group G1 is turned off.

For reference, an embodiment of a power separation type LED illumination lamp similar to the LED illumination lamp 110 according to the present invention is shown in fig. 6 and 7.

Fig. 6 shows an example of a power separation type LED illumination lamp in which 2 LED groups G3, G4 are lit during the supply of a first power through a B-contact switch SW _ B of a relay, and thereafter, when a second power is supplied, the B-contact switch SW _ B is turned off by the operation of the relay R, whereby the second power side is electrically connected to any one or two (as indicated by a dotted line) of the above 2 LED groups G3, G4, and the LED group G3 is turned off and the LED group G4 is lit or the LED group G3 and the LED group G4 are all lit by the supply of the second power.

Fig. 7 is an embodiment of a power supply separation type LED illumination lamp in which the second power supply used in fig. 6 is replaced with a power supply of a rechargeable battery BAT.

An embodiment of a power split type illumination lamp is shown in fig. 7. Here, during the supply of the commercial power used as the first power source through the B-contact switch SW _ B of the relay, the 2 LED groups G3, G4 are turned on and the rechargeable battery BAT is charged. In this state, when the commercial power supply detection sensor detects a power failure and the emergency power switch SW is turned on, the B-contact switch SW _ B is turned off by the discharge of the rechargeable battery BAT and the operation of the relay R, which are used as the second power supply from then on, whereby the second power supply side is electrically connected to any one or two (as indicated by a dotted line) of the 2 LED groups G3 and G4, and the LED group G3 is turned off and the LED group G4 is turned on or all of the LED groups G3 and G4 are turned on by the supply of the second power supply.

At least 1 or more of the disaster detectors 120 periodically output disaster determination signals (e.g., temperature detection signals for detecting a fire or earthquake, etc.) for determining a disaster (e.g., a fire or an earthquake, etc.) in a wired or wireless manner within the illumination area, respectively, and store location identification information in the disaster management server 150.

Preferably, the disaster detector 120 includes: a temperature sensor that outputs a temperature detection signal for detecting a fire; or an acceleration sensor that outputs a seismic detection signal for detecting an earthquake.

When the disaster detector 120 receives a fire detection signal for activating the alarm bell 210 of the fire alarm, it outputs a disaster occurrence signal so that the disaster management server 150 generates a disaster alarm by lighting the emergency LED group G2(112) of the LED illumination lamp 110 disposed in the illumination area where the disaster occurrence is detected.

The emergency switch relay 130 receives the disaster determination signal in the lighting area and transmits the signal to the communication terminal 140, and turns on the emergency switch 110a to turn on the emergency LED group G2(112) of the LED lighting lamp 110 when receiving an emergency lighting energization signal from the disaster management server 150, and turns off the emergency switch 110a to turn off the emergency LED group G2(112) of the LED lighting lamp 110 when receiving an emergency lighting power-off signal from the disaster management server 150.

Preferably, at least 1 or more signal relays 130a are provided in the illumination area. In order to transmit the disaster determination signal of the disaster detector 120 to the communication hub 140, one of the signal relays 130a that receives the disaster determination signal in the illumination area wirelessly transmits the disaster determination signal to the other.

The signal relay 130a and the emergency switch relay 130 transmit/receive a disaster determination signal to each other and transmit the disaster determination signal to the communication hub 140.

The communication terminal 140 is disposed at an appropriate position of the building 200, and communicates a disaster determination signal received by the emergency switch relay 130 to the disaster management server 150 in a wired or wireless manner, and receives an emergency lighting power-on signal or an emergency lighting power-off signal from the disaster management server 150 to communicate the emergency switch relay 130.

Depending on the size of the building 200, 1 or more than 2 of the communication hubs 140 may be further provided.

In an embodiment of the present invention, the disaster detector 120, the emergency switch repeater 130, the signal repeater 130a, and the communication hub 140 communicate with each other through a wireless communication network, such as a bluetooth network, a long Range and low power (lora) network, or a NarrowBand Internet of Things (NB-IoT) network, in a building.

The disaster management server 150 transmits an emergency lighting power-on signal to the emergency switching relay 130 installed in the lighting area where the disaster is detected through the communication hub 140 to turn on the emergency LED group G2(112) of the LED lighting lamp 110 to generate a disaster alarm when the disaster is determined to occur after receiving the disaster determination signal through the communication hub 140, and transmits an emergency lighting power-on signal to the emergency switching relay 130 installed in the lighting area through the communication hub 140 to turn on the emergency LED group G2(112) of the LED lighting lamp 110 to generate a disaster training alarm to start the disaster training after receiving a signal to start the disaster training from the administrator terminal 160.

When the disaster determination signal received through the communication hub 140 is determined as a disaster, the disaster management server 150 transmits disaster alarm notification information to the administrator terminal 160 (e.g., a mobile phone, a smart phone, a tablet pc, etc.) and the user terminal 170 (e.g., a mobile phone, a smart phone, a tablet pc, etc.) to generate a disaster alarm.

When the disaster management server 150 receives a disaster alarm release signal from the administrator terminal 160, it transmits a disaster alarm release prompt message to the administrator terminal 160 and the user terminal 170, and transmits an emergency lighting power-off signal to the emergency switching relay 130 installed in the lighting area through the communication terminal 140, thereby turning off the emergency LED group G2(112) of the LED lighting lamp 110.

When the disaster management server 150 receives a disaster training start signal from the administrator terminal 160, it transmits disaster training start prompt information to the administrator terminal 160 and the user terminal 170.

When the disaster determination signal of the disaster detector 120 installed in any one of the entire lighting areas of the building 200 is determined as the first disaster, the disaster management server 150 transmits an emergency lighting energization signal to the emergency switching relay 130 installed in the entire lighting area of the building 200 through the communication link 140 to turn on the emergency LED group G2(112) of the LED lighting lamp 110 and transmits disaster alarm notification information to the administrator terminal 160 and the user terminal 170 to generate a disaster alarm.

When the disaster determination signal of the disaster detector 120 installed in any one of the entire lighting areas of the building 200 is determined as the first disaster, the disaster management server 150 transmits an emergency lighting energization signal to the emergency switching relay 130 installed in the lighting area determined as the disaster occurrence in the entire lighting area of the building 200 through the communication terminal 140, so that the emergency LED group G2(112) of the LED lighting lamp 110 is turned on, and transmits disaster alarm notification information to the administrator terminal 160 and the user terminal 170, thereby generating a disaster alarm.

When the disaster determination signal of any one of the lighting areas in the entire lighting area of the building 200 is determined as the first disaster and the disaster determination signal of the other disaster detector 120 in the lighting area determined as the disaster is determined as the second disaster, the disaster management server 150 transmits disaster change notification information to the administrator terminal 160 and the user terminal 170 to generate a disaster alarm.

When the disaster management server 150 receives a disaster training completion signal from the administrator terminal 160, it transmits a disaster training completion notification message to the administrator terminal 160 and the user terminal 170, and transmits an emergency lighting power-off signal to the emergency switching relay 130 installed in the lighting area through the communication terminal 140, so that the emergency LED group G2(112) of the LED lighting lamp 110 is turned off, thereby completing the disaster training.

Referring to fig. 8, the administrator terminal 160 is a portable communication terminal (e.g., a mobile phone, a smart phone, a tablet computer, etc.) in which a disaster warning and disaster training application is installed, receives disaster warning notification information, disaster warning release notification information, disaster training start notification information, or disaster training end notification information from the disaster management server 150, and displays an administrator screen 160a by running the disaster warning and disaster training application software, the administrator screen 160a monitoring and controlling disaster warning or disaster training of the entire lighting area of the building 200.

The administrator terminal 160 displays, on the administrator screen 160 a: an illumination area disaster display area 161a corresponding to an illumination area of the building 200; and a disaster detector display area 162a corresponding to the disaster detector 120 disposed in the illumination area of the building 200.

When the administrator terminal 160 receives the disaster warning prompt message from the disaster management server 150 for the first time, it receives the disaster area display command of the disaster management server 150 and displays the entire lighting area of the lighting area disaster display area 161a displayed on the administrator screen 160a as the disaster warning state; or the administrator terminal 160 receives the disaster area selection display command of the disaster management server 150 and displays the selected illumination area in the entire illumination area displayed in the illumination area disaster display area 161a as the disaster warning state.

When the entire lighting area of the lighting area disaster display area 161a displayed on the administrator screen 160a is displayed in the disaster warning state, the administrator terminal 160 transmits a disaster warning release signal to the disaster management server 150, and the disaster management server 150 turns off the emergency LED group G2(112) of the LED lighting lamp 110. The disaster alarm release signal is a disaster alarm release signal for the entire illumination area or a selected illumination area in the entire illumination area, and the LED illumination lamp 110 is an LED illumination lamp provided in the entire illumination area or the selected illumination area in the entire illumination area.

When the selected lighting area is displayed as the disaster warning state in the entire lighting area of the lighting area disaster display area 161a displayed on the administrator screen 160a, the administrator terminal 160 transmits a disaster warning release signal to the disaster management server 150, and the disaster management server 150 turns off the emergency LED group G2(112) of the LED lighting lamps 110. The disaster alarm release signal is a disaster alarm release signal for the selected entire lighting area or the lighting area selected again in the selected entire lighting area, and the LED lighting lamp 110 is an LED lighting lamp provided in the selected entire lighting area or the lighting area selected again in the selected entire lighting area.

The above-mentioned administrator terminal 160 transmits a disaster training start signal to the disaster management server 150, whereby the disaster management server 150 lights the emergency LED group G2(112) of the LED illumination lamp 110 to generate a disaster training alarm, thereby starting disaster training. The disaster training start signal is a disaster training start signal for the entire lighting area or the selected lighting area in the entire lighting area of the lighting area disaster display area 161a displayed on the administrator screen 160a, and the LED lighting lamp 110 is an LED lighting lamp provided in the entire lighting area or the selected lighting area in the entire lighting area.

When the entire lighting area of the lighting area disaster display area 161a or the selected lighting area of the entire lighting area displayed on the administrator screen 160a is displayed in the disaster training alarm state, the administrator terminal 160 transmits a disaster training completion signal to the disaster management server 150, and the disaster management server 150 turns off the emergency LED group G2(112) of the LED lighting lamp 110 to complete the disaster training. The disaster training completion signal is a disaster training completion signal for the entire illumination area, the selected illumination area of the entire illumination area, or the illumination area selected again in the entire illumination area, and the LED illumination lamp 110 is an LED illumination lamp provided in the entire illumination area, the selected illumination area of the entire illumination area, or the illumination area selected again in the entire illumination area.

During the disaster management server 150 receives the disaster determination signal from the disaster detector 120, the administrator terminal 160 receives the detector state display command of the disaster management server 150 and displays detector state information (e.g., state information informing of temperature, earthquake degree, whether a disaster occurrence signal is received, etc.) for each disaster detector 120. The disaster detector 120 is displayed in the disaster detector display area 162a of the administrator screen 160 a.

The administrator terminal 160 receives a battery state display command of the disaster management server 150 and displays battery level information for each disaster detector 120 during the period in which the disaster management server 150 periodically receives the battery state signal from the disaster detector 120. The disaster detector 120 is displayed in the disaster detector display area 162a of the administrator screen 160 a.

The LED illuminating lamp system 100 having the disaster warning and disaster training functions according to the present invention, which is constructed as described above, operates as follows.

First, as shown in fig. 1 and 2, an LED lighting lamp system 100 having a disaster warning and disaster training function according to the present invention is provided.

For example, fig. 1 shows a 3-story building 200, and fig. 2 shows an embodiment in which 5 illumination areas #1 to #5 are provided for each floor of the 3-story building 200 shown in fig. 1.

At least 1 or more LED illumination lamps 110 are installed in illumination areas #1 to #5 of each floor of the building 200 shown in fig. 1 and 2.

At least 1 or more disaster detectors 120 are installed in the illumination areas #1 to #5 of each floor of the building 200.

In the embodiment of fig. 2, disaster detectors 120#1 to 120#5 installed one by one in each of 5 illumination areas #1 to #5 provided at one floor are exemplified, and an additionally provided disaster detector 120#6 for receiving an alarm bell 210 of a fire alarm provided at a corridor of the floor is exemplified.

In the embodiment of fig. 2, the emergency switch repeaters 130#1 to 130#5 installed one by one in each of 5 lighting areas #1 to #5 installed on one floor are exemplified, and the 2 signal repeaters 130a additionally installed to overcome the distance limitation when transmitting signals in the corridor on the floor are exemplified.

In the embodiment of fig. 2, a communication hub 140 is illustrated, which communicates with the disaster detector 120, the emergency switch repeater 130, and the signal repeater 130a provided in the entire building 200 via a wireless communication network such as a bluetooth network, a long Range and low power (lora) network, or a NarrowBand Internet of Things (NB-IoT) network.

As described above, the LED illumination lamp system 100 having the disaster warning and disaster training functions of the present invention installed in the building 200 illuminates the LED group G1(111) for illumination of the LED illumination lamp 110 in a normal state.

At this time, when the illumination switch 110a is turned on by the operation of the user, the LED illumination lamp 110 is supplied with the first power and the illumination LED group G1(111) is lighted, thereby illuminating the illumination area where the LED illumination lamp 110 is provided.

In contrast, when the illumination switch 110a is turned off by the user's operation and stops the supply of the first power, the illumination LED group G1(111) of the above-described LED illumination lamp 110 is turned off.

On the other hand, as described above, the LED lighting lamp system 100 having the disaster warning and disaster training functions of the present invention installed in the building 200 generates a disaster warning by turning on the emergency LED group G2(112) of the LED lighting lamp 110 when a disaster such as a fire or an earthquake occurs.

At this time, the disaster management server 150 receives a disaster determination signal (for example, a temperature detection signal for detecting a fire or a earthquake detection signal for detecting an earthquake) transmitted from the disaster detector 120 through the communication hub 140 to determine the disaster, or receives a disaster detection signal transmitted from the disaster detector 120 (for example, a disaster detection signal for receiving the alarm bell 210 for activating a fire alarm).

Also, while the disaster management server 150 receives the disaster determination signal from the disaster detector 120, the administrator terminal 160 receives the detector state display command of the disaster management server 150 and displays detector state information (for example, state information informing of temperature, earthquake magnitude, whether a disaster occurrence signal is received, etc.) for each disaster detector 120. The disaster detector 120 is displayed in the disaster detector display area 162a of the administrator screen 160 a.

For reference, fig. 8 illustrates an embodiment showing a temperature a ℃ and a magnitude b in the detector state information for each disaster detector 120. The disaster detector 120 is displayed in the disaster detector display area 162a of the administrator screen 160 a.

In fig. 8, when the above-mentioned disaster management server 150 receives a disaster occurrence signal transmitted by the disaster detector 120 (receives a fire detection signal for activating the alarm bell 210 of the fire alarm) during the reception of the disaster determination signal from the disaster detector 120, the soft key field corresponding to the disaster detector 120 displayed in the disaster detector display field 162a is illuminated in red to generate a disaster alarm.

If the disaster determination signal of the disaster detector 120 installed in any one of the entire lighting areas of the building 200 is determined as the initial disaster, or the disaster management server 150 receives the disaster occurrence signal transmitted from the disaster detector 120, the disaster management server 150 transmits an emergency lighting energization signal to the emergency switching relays 130 installed in the entire lighting areas of the building 200 through the communication hub 140, so that the emergency LED groups G2(112) of the LED lighting lamps 110 of the entire building 200 are turned on, and transmits disaster alarm prompt information to the manager terminal 160 and the user terminal 170, thereby generating a disaster alarm.

At this time, when the administrator terminal 160 receives the disaster alert notification information from the disaster management server 150 for the first time, the above-described disaster alert and disaster training application is operated to receive the disaster area display command of the disaster management server 150, and the entire illumination area (for example, the entire soft key area in which the disaster, disaster 1, disaster 2, disaster 3, disaster 4, and disaster 5 are displayed) of the illumination area disaster display area 161a displayed on the administrator screen 160a is displayed in a state of a disaster alert that is lit in red.

In contrast, if the disaster determination signal of the disaster detector 120 installed in any one of the entire illumination areas of the building 200 is determined as the initial disaster, or the disaster management server 150 receives the disaster occurrence signal transmitted from the disaster detector 120, the disaster management server 150 transmits an emergency lighting energization signal to the emergency switching relay 130 installed in the illumination area determined as the disaster occurrence in the entire illumination area of the building 200 through the communication hub 140, so that the emergency LED group G2(112) of the LED lighting lamp 110 of the illumination area determined as the disaster occurrence in the entire illumination area of the building 200 is lit, and transmits disaster alarm prompt information to the manager terminal 160 and the user terminal 170 to generate a disaster alarm.

At this time, when the administrator terminal 160 receives the disaster alert notification information from the disaster management server 150 for the first time, the above-described disaster alert and disaster training application is operated to receive the disaster area selection display command of the disaster management server 150, and thereby the selected illumination area (for example, the illumination area determined as the disaster occurrence) is displayed in the entire illumination area of the illumination area disaster display area 161a, and for example, the soft key area displayed as the disaster 1 (corresponding to the illumination area #1 determined as the disaster occurrence) in the entire soft key area displayed as the disaster, the disaster 1, the disaster 2, the disaster 3, the disaster 4, and the disaster 5 is displayed in a state of the disaster alert illuminated in red.

When the disaster management server 150 transmits the disaster alarm notice information to the user terminal 170 to generate the disaster alarm as described above, it is preferable to transmit the disaster alarm notice information to the user terminal 170 designated by the open area in each floor of the building 200.

Preferably, the disaster warning provision information includes: a domain name of the lighting area determined as the disaster occurrence (for example, the 2-storied lighting area #1) and an evacuation route (for example, an emergency exit direction of the 2-storied lighting area #1 or a 2-storied emergency staircase direction) toward the outside of the building 200 or a safety shelter with reference to the lighting area.

As described above, when the disaster determination signal of the other disaster detector 120 installed in the lighting area determined as the disaster occurs is determined as the re-disaster after the first disaster alarm occurs, the disaster management server 150 transmits disaster situation change notification information to the administrator terminal 160 and the user terminal 170 to generate a disaster alarm in a state where the emergency LED group G2(112) of the LED lighting lamp 110 of the entire building 200 or the emergency LED group G2(112) of the LED lighting lamp 110 of the lighting area determined as the disaster occurs in the entire lighting area of the building 200 is turned on.

In this case, it is preferable that the disaster management server 150 confirms a disaster situation change based on the location identification information of the disaster detector 130 determined as the disaster reoccurrence, and transmits disaster situation change notification information including: the newly discriminated illumination area domain name (for example, the first illumination area #1 of the 2 nd building and the additional illumination area #2) and the evacuation route toward the outside of the building 200 or the safety shelter with reference to the illumination area (for example, a new emergency exit direction from the illumination area #1 of the 2 nd building to the illumination area #2 which changes according to a disaster situation, or an emergency staircase direction of the 1 st building after passing through the emergency staircase of the 2 nd building).

As described above, when the disaster management server 150 receives a disaster alarm release signal from the administrator terminal 160 according to the fact that the disaster alarm is released after the first or second disaster alarm occurs, the disaster management server 150 transmits a disaster alarm release prompt message to the administrator terminal 160 and the user terminal 170, and transmits an emergency lighting power-off signal to the emergency switching relay 130 installed in the lighting area through the communication terminal 140, thereby turning off the emergency LED group G2(112) of the LED lighting lamp 110.

At this time, the manager terminal 160 confirms detector state information (for example, state information indicating temperature, earthquake magnitude, whether or not a disaster occurrence signal is received, and the like) with respect to each disaster detector 120 (the disaster detector display field 162a displayed on the manager screen 160a shown in fig. 8), and as a result, it is known that the temperature information is lower than the reference temperature set for fire detection, the earthquake magnitude information is lower than the reference detection level set for earthquake detection, and when the disaster occurrence signal is not received, it is known that the disaster alarm situation is released.

At this time, when the administrator terminal 160 transmits a disaster alarm release signal to the disaster management server 150 in a case where the entire lighting area of the lighting area disaster display field 161a displayed on the administrator screen 160a is displayed in the disaster alarm state, the disaster management server 150 turns off the emergency LED group G2(112) of the LED lighting lamp 110. The disaster alarm release signal is a disaster alarm release signal for the entire illumination area or a selected illumination area in the entire illumination area, and the LED illumination lamp 110 is an LED illumination lamp provided in the entire illumination area or the selected illumination area in the entire illumination area.

For example, as described above, in the disaster warning state in which the entire soft key region is lit in red, when the administrator terminal 160 transmits a disaster warning release signal for the entire lighting area in which the red lighting is released to the disaster management server 150 in response to the release of the red lighting, the disaster management server 150 that receives the disaster warning release signal turns off the emergency LED group G2(112) of the LED lighting lamp 110 installed in the entire lighting area. Here, the soft key fields are displayed as a disaster, disaster 1, disaster 2, disaster 3, disaster 4, and disaster 5 corresponding to the entire lighting area of the lighting area disaster display field 161a shown in fig. 8.

As described above, in the disaster warning state in which the soft key region displayed as the disaster 1 (corresponding to the lighting area #1 determined as the disaster occurrence) is lit red in the entire lighting area of the lighting area disaster display area 161a shown in fig. 8, when the administrator terminal 160 releases the red lighting and transmits the disaster warning release signal for the lighting area #1 from which the red lighting is released to the disaster management server 150, the disaster management server 150 receiving the disaster warning release signal turns off the emergency LED group G2(112) of the LED lighting lamp 110 provided in the lighting area # 1.

In contrast, when the administrator terminal 160 transmits a disaster alarm release signal to the disaster management server 150 in the case where the selected lighting area is displayed in the disaster alarm state in the entire lighting area of the lighting area disaster display area 161a displayed on the administrator screen 160a, the disaster management server 150 turns off the emergency LED group G2(112) of the LED lighting lamp 110. The disaster alarm release signal is a disaster alarm release signal for the selected entire lighting area or the lighting area selected again in the selected entire lighting area, and the LED lighting lamp 110 is an LED lighting lamp provided in the selected entire lighting area or the lighting area selected again in the selected entire lighting area.

For example, as described above, in the disaster warning state in which the soft key regions displayed as the disasters 1, 2, and 3 (corresponding to the lighting regions #1, #2, and #3 determined as the disasters) are lit red in the entire lighting region of the lighting region disaster display region 161a shown in fig. 8, when the administrator terminal 160 releases all the red lights of the disasters 1, 2, and 3 and transmits the disaster warning release signal for the 3 lighting regions #1, #2, and #3 from which the red lights are released to the disaster management server 150, the disaster management server 150 receiving the disaster warning release signal turns off the emergency LED group G2(112) of the LED lighting lamps 110 provided in the 3 lighting regions #1, #2, and # 3.

For example, as described above, in the disaster warning state in which the soft key regions displayed as the disasters 1, 2, and 3 (corresponding to the lighting regions #1, #2, and #3 determined to have occurred in the disaster) are turned on in red in the entire lighting region of the lighting region disaster display region 161a shown in fig. 8, when the administrator terminal 160 releases the red lighting of the reselected disaster 1 and 2 and transmits the disaster warning release signal for the 2 lighting regions #1 and #2 from which the red lighting is released to the disaster management server 150, the disaster management server 150 that received the disaster warning release signal turns off the emergency LED group G2(112) of the LED lighting lamps 110 provided in the 2 lighting regions #1 and # 2.

After that, the disaster 3 corresponding to the illumination area #3 maintains the state of the disaster alarm which is lighted in red, and after that, when the administrator terminal 160 releases the red lighting of the soft key region displayed as the disaster 3 (corresponding to the illumination area # 3) and transmits a disaster alarm release signal to the disaster management server 150, the disaster management server 150 turns off the emergency LED group G2(112) of the LED illumination lamp 110 provided in the illumination area # 3.

On the other hand, as described above, in the LED lighting lamp system 100 having the disaster warning and disaster training functions of the present invention installed in the building 200, when a disaster such as a fire or an earthquake occurs, the emergency LED group G2(112) of the LED lighting lamp 110 is turned on to generate a disaster training warning, thereby starting disaster training.

In this case, the disaster management server 150 receives a disaster training start signal from the administrator terminal 160 running the disaster warning and disaster training application, and transmits an emergency lighting energization signal to the emergency switching relay 130 installed in the lighting area via the communication terminal 140, so that the emergency LED group G2(112) of the LED lighting lamp 110 is turned on to generate a disaster training warning, thereby starting disaster training.

At this time, the disaster management server 150 transmits disaster training start notification information to the administrator terminal 160 and the user terminal 170.

As described above, when the disaster management server 150 transmits the disaster training start prompt message to the user terminal 170 to generate the disaster training alarm, it is preferable to transmit the disaster training alarm prompt message to the user terminal 170 designated as an open area on each floor of the building 200.

Preferably, the disaster training alert notification information includes: a domain name of the lighting area determined as the occurrence of the disaster training (for example, the lighting area #1 on the 2 th floor #1) and an evacuation route toward the outside of the building 200 or a safety shelter with reference to the lighting area (for example, the emergency exit direction of the lighting area #1 on the 2 nd floor, the emergency staircase direction on the 2 nd floor, and the like).

Referring to fig. 8, the operation of the administrator terminal 160 to run the disaster warning and disaster training application to start and end disaster training will be described in detail below.

The above-mentioned administrator terminal 160 transmits a disaster training start signal to the disaster management server 150, whereby the disaster management server 150 lights the emergency LED group G2(112) of the LED illumination lamp 110 to generate a disaster training alarm, thereby starting disaster training. The disaster training start signal is a disaster training start signal for the entire lighting area or the selected lighting area in the entire lighting area of the lighting area disaster display area 161a displayed on the administrator screen 160a, and the LED lighting lamp 110 is an LED lighting lamp provided in the entire lighting area or the selected lighting area in the entire lighting area.

At this time, the administrator terminal 160 transmits a disaster training start signal to the disaster management server 150 by displaying the entire lighting area of the lighting area disaster display area 161a displayed on the administrator screen 160 (for example, the entire soft key area displayed as the disaster, the disaster 1, the disaster 2, the disaster 3, the disaster 4, and the disaster 5) in a state of a disaster alarm that is lit in red, and the disaster management server 150 lights the emergency LED group G2(112) of the LED lighting lamp 110 provided in the entire lighting area of the building 200 to generate a disaster training alarm, thereby starting disaster training.

In contrast, the administrator terminal 160 selects the disaster 1 corresponding to the lighting area #1 in the entire lighting area (for example, the entire soft key area displayed as the disaster, the disaster 1, the disaster 2, the disaster 3, the disaster 4, and the disaster 5) of the lighting area disaster display area 161a displayed on the administrator screen 160a and displays a state of a disaster alarm lighted in red, thereby transmitting a disaster training start signal to the disaster management server 150, and the disaster management server 150 lights up the emergency LED group G2(112) of the LED lighting lamp 110 provided in the lighting area #1 in the entire lighting area of the building 200 to generate a disaster training alarm, thereby starting disaster training.

As described above, when the entire lighting area of the lighting area disaster display area 161a or the selected lighting area of the entire lighting area displayed on the administrator screen 160a is displayed in the disaster training alert state, the administrator terminal 160 transmits the disaster training end signal to the disaster management server 150, and the disaster management server 150 turns off the emergency LED group G2(112) of the LED lighting lamp 110 to end the disaster training. The disaster training completion signal is a disaster training completion signal for the entire illumination area, the selected illumination area of the entire illumination area, or the illumination area selected again in the entire illumination area, and the LED illumination lamp 110 is an LED illumination lamp provided in the entire illumination area, the selected illumination area of the entire illumination area, or the illumination area selected again in the entire illumination area.

For example, in a state of a disaster training alarm in which the entire soft key area is lighted in red, the above-mentioned administrator terminal 160 turns off the red light to transmit a disaster training end signal to the disaster management server 150, and the disaster management server 150 turns off the emergency LED group G2(112) of the LED lighting lamps 110 provided in the entire lighting area of the building 200 to end the disaster training. Here, the above-described soft key field is displayed as a disaster, disaster 1, disaster 2, disaster 3, disaster 4, disaster 5 corresponding to the entire lighting area of the lighting area disaster display field 161a shown in fig. 8.

Further, for example, in a disaster warning state in which the soft key area displayed as disaster 1 (corresponding to illumination area #1) is lit red in the entire illumination area of the illumination area disaster display area 161a shown in fig. 8, the administrator terminal 160 turns off the red light to transmit a disaster training completion signal to the disaster management server 150, and the disaster management server 150 turns off the emergency LED group G2(112) of the LED illumination lamp 110 provided in the illumination area #1 of the building 200 to complete the disaster training.

In contrast, in the disaster warning state in which the soft key regions displayed as the disasters 1, 2, and 3 (corresponding to the illumination regions #1, #2, and #3 determined as the occurrence of the disaster training) are lit red throughout the illumination region of the illumination region disaster display region 161a shown in fig. 8, the administrator terminal 160 releases all the red lights of the disasters 1, 2, and 3 to transmit the disaster training completion signal to the disaster management server 150, and the disaster management server 150 deactivates the emergency LED groups G2(112) of the LED illumination lamps 110 provided in the 3 illumination regions #1, #2, and #3 in which the red lights are released to complete the disaster training.

In a disaster warning state in which the soft key regions displayed as the disasters 1, 2, and 3 (corresponding to the lighting regions #1, #2, and # determined to have occurred during the disaster training) are lit red throughout the lighting region of the lighting region disaster display region 161a shown in fig. 8, the administrator terminal 160 selects the lighting regions #1 and #2 again and releases the red lighting, thereby transmitting a disaster training completion signal for the 2 lighting regions #1 and #2 to the disaster management server 150, and the disaster management server 150 turns off the emergency LED group G2(112) of the LED lighting lamps 110 provided in the 2 lighting regions #1 and #2 selected again, thereby completing the disaster training.

After that, the disaster 3 corresponding to the illumination area #3 maintains the state of the disaster training alarm which is lit in red, and after that, when the administrator terminal 160 releases the red lighting of the soft key region displayed as the disaster 3 (corresponding to the illumination area # 3) and transmits a disaster training completion signal to the disaster management server 150, the disaster management server 150 turns off the emergency LED group G2(112) of the LED illumination lamp 110 provided in the illumination area #3, thereby completing the disaster training.

As described above, the LED lighting lamp system 100 having the disaster warning and disaster training functions of the present invention installed in the building 200 illuminates the lighting LED group G1(111) of the LED lighting lamp 110 by turning on the lighting LED group in a normal state; when a disaster such as a fire or an earthquake occurs, a disaster alarm is generated by lighting the emergency LED group G2(112) of the LED lighting lamp 110; when disaster training such as a fire or an earthquake is performed, a disaster training alarm is generated by lighting the emergency LED group G2(112) of the LED lighting lamp 110, and during the start of disaster training, the administrator terminal 160 receives a battery state display command from the disaster management server 150 (periodically receives a battery state signal from the disaster detector 120) and displays battery state information for each disaster detector 120, and the disaster detector 120 is displayed in the disaster detector display area 162a of the administrator screen 160 a.

For reference, fig. 8 illustrates an embodiment of displaying battery level information cV for each disaster detector 120. The disaster detector 120 is displayed in the disaster detector display area 162a of the administrator screen 160 a.

As described above, according to the present invention, it is possible to easily construct a disaster warning system such as a fire or earthquake by installing the LED illumination lamp 110 in the illumination area of the building, thereby integrating disaster warnings such as a fire warning and an earthquake warning, and in particular, to conveniently monitor and control the disaster warning through the administrator screen 160a displayed on the administrator terminal 160.

The present invention can easily start disaster training such as fire or earthquake by using the administrator terminal 160, and particularly, can conveniently monitor and control disaster training by the administrator screen 160a displayed on the administrator terminal 160.

In the present invention, when a disaster such as a fire or an earthquake occurs, a disaster alarm is generated by differentiating the LED illumination lamps 110 installed in the entire illumination area or a partially selected illumination area of a building according to the illumination area so as to be emergency, and a disaster alarm prompt message is transmitted to the manager terminal 160 or the user terminal 170, so that it is possible to rapidly respond to the change of the disaster situation and to safely evacuate the building.

The LED lighting system having the disaster warning and disaster training functions according to the present invention described above is not limited to the above-described embodiments, and is within the technical idea that a person skilled in the art can modify and implement the LED lighting system without departing from the technical spirit claimed in the claims.

Claims (23)

1. An LED illuminating lamp system with disaster alarming and disaster training functions is characterized by comprising the following structures:

an LED illumination lamp (110) in which at least one or more LED illumination lamps (110) are provided for each illumination area of a building (200) having at least 1 or more illumination areas, and an illumination LED group (G1) (111) and an emergency LED group (G2) (112) are arranged on a single substrate, and when any one of the groups is lit, the other group is turned off;

at least 1 or more disaster detectors (120) that periodically output a disaster determination signal for determining a disaster in a wired or wireless manner within the illumination area and store location identification information in a disaster management server (150);

an emergency switching relay (130) that receives the disaster determination signal and transmits the signal to a communication hub (140) in the lighting area, and that, when receiving an emergency lighting power-on signal from a disaster management server (150), lights up emergency LED groups (G2) (112) of the LED lighting lamps (110), and, when receiving an emergency lighting power-off signal from the disaster management server (150), lights down emergency LED groups (G2) (112) of the LED lighting lamps (110);

a communication hub (140) which is disposed at an appropriate position of the building (200), and which communicates and transmits the disaster determination signal received by the emergency switching relay (130) to a disaster management server (150) in a wired or wireless manner, and receives an emergency lighting power-on signal or an emergency lighting power-off signal from the disaster management server (150) and transmits the emergency lighting power-on signal or the emergency lighting power-off signal to the emergency switching relay (130); and

a disaster management server (150) for transmitting an emergency lighting power-on signal to an emergency switching relay (130) installed in an illumination area where the disaster is detected through the communication hub (140) to turn on an emergency LED group (G2) (112) of the LED lighting lamp (110) to generate a disaster alarm when the disaster is determined to occur after receiving the disaster determination signal through the communication hub (140), and for transmitting an emergency lighting power-on signal to an emergency switching relay (130) installed in an illumination area through the communication hub (140) to turn on an emergency LED group (G2) (112) of the LED lighting lamp (110) to generate a disaster training alarm to start disaster training after receiving a disaster training start signal from a manager terminal (160),

in the LED illumination lamp (110), an illumination LED group (G1) (111) which is supplied with a first power supply and is lighted when an illumination switch (110a) is turned on and an illumination LED group (G2) (112) which is supplied with a second power supply and is lighted when an emergency switch of the emergency switch relay (130) is turned on are arranged on a single substrate.

2. The LED luminary system for disaster warning and disaster training as claimed in claim 1,

the illumination LED group (G1) (111) is composed of at least 1 or more illumination LED groups.

3. The LED luminary system for disaster warning and disaster training as claimed in claim 1,

the disaster detector (120) includes a temperature sensor for detecting a fire or an acceleration sensor for detecting an earthquake.

4. The LED luminary system for disaster warning and disaster training as claimed in claim 1,

the disaster detector (120) outputs a disaster occurrence signal upon receiving a fire detection signal for activating an alarm bell (210) of a fire alarm, so that the disaster management server (150) generates a disaster alarm by lighting emergency LED groups (G2) (112) of LED illumination lamps (110) disposed in an illumination area where the disaster occurrence is detected.

5. The LED luminary system for disaster warning and disaster training as claimed in claim 1,

to communicate a disaster discrimination signal of the disaster detector (110) to the communication hub (140), the LED light system further includes at least 1 or more signal relays (130a), any one of the signal relays that receives the disaster discrimination signal wirelessly communicating the disaster discrimination signal to another one within a lighting area.

6. The LED luminary system for disaster warning and disaster training as defined in claim 5,

the signal repeater (130a) and the emergency switch repeater (130) transmit/receive a disaster determination signal to each other and transmit the disaster determination signal to the communication hub (140).

7. The LED luminary system with disaster warning and disaster training functions as claimed in claim 1 or 5,

the disaster detector (120), the emergency switch repeater (130), the signal repeater (130a), and the communication hub (140) communicate with each other through any one of a bluetooth network, an LoRa network, and an NB-IoT network.

8. The LED luminary system for disaster warning and disaster training as claimed in claim 1,

when the disaster determination signal received through the communication hub (140) is determined as the disaster occurrence, the disaster management server (150) transmits disaster alert prompt information to the administrator terminal (160) and the user terminal (170) to generate a disaster alert.

9. The LED luminary system for disaster warning and disaster training as claimed in claim 1,

when the disaster management server (150) receives a disaster alarm release signal from the manager terminal (160), transmits a disaster alarm release prompt message to the manager terminal (160) and the user terminal (170), and transmits an emergency lighting power-off signal to an emergency switching relay (130) disposed in a lighting area through the communication hub (140), thereby turning off the emergency LED groups (G2) (112) of the LED illumination lamps (110).

10. The LED luminary system for disaster warning and disaster training as claimed in claim 1,

when the disaster management server (150) receives a disaster training start signal from the administrator terminal (160), disaster training start prompt information is transmitted to the administrator terminal (160) and a user terminal (170).

11. The LED luminary system for disaster warning and disaster training as claimed in claim 1,

when a disaster determination signal of a disaster detector (120) provided in any one of the entire lighting areas of the building (200) is determined as the initial disaster, the disaster management server (150) transmits an emergency lighting energization signal to emergency switching relays (130) provided in the entire lighting area of the building (200) through the communication hub (140), so that emergency LED groups (G2) (112) of the LED lighting lamps (110) are lit, and transmits disaster alarm notification information to the administrator terminal (160) and the user terminal (170) to generate a disaster alarm.

12. The LED luminary system for disaster warning and disaster training as claimed in claim 1,

when a disaster determination signal of a disaster detector (120) provided in any one of the entire illumination areas of the building (200) is determined as the first disaster, the disaster management server (150) transmits an emergency lighting energization signal to an emergency switching relay (130) provided in the illumination area determined as the disaster occurrence in the entire illumination area of the building (200) through the communication hub (140), thereby lighting up the emergency LED groups (G2) (112) of the LED illumination lamps (110), and transmitting disaster alarm prompt information to the administrator terminal (160) and the user terminal (170) to generate a disaster alarm.

13. The LED luminary system for disaster warning and disaster training as claimed in claim 1,

when a disaster determination signal of a disaster detector (120) provided in any one of the entire lighting areas of a building (200) is determined as the first disaster and then disaster determination signals of other disaster detectors (120) provided in the lighting areas determined as the disaster are determined as the second disaster, the disaster management server (150) transmits disaster situation change notification information to the administrator terminal (160) and the user terminal (170) to generate a disaster alarm.

14. The LED luminary system for disaster warning and disaster training as claimed in claim 1,

when the disaster management server (150) receives a disaster training end signal from the administrator terminal (160), transmits a disaster training end prompt message to the administrator terminal (160) and the user terminal (170), and transmits an emergency lighting power-off signal to an emergency switching relay (130) disposed in a lighting area through the communication hub (140), so that the emergency LED groups (G2) (112) of the LED lighting lamps (110) are turned off, thereby ending the disaster training.

15. The LED luminary system for disaster warning and disaster training as claimed in claim 1,

the administrator terminal (160) is a portable communication terminal installed with a disaster warning and disaster training application, and receives disaster warning prompt information, disaster warning release prompt information, disaster training start prompt information, or disaster training end prompt information from the disaster management server (150), and displays an administrator screen (160a) by running the disaster warning and disaster training application,

wherein the administrator screen (160a) monitors and regulates disaster alert or disaster training for the entire lighting area of the building (200).

16. The LED luminary system for disaster warning and disaster training as defined in claim 15,

the administrator terminal (160) displays, on the administrator screen (160a), an illumination area disaster display area (161a) corresponding to an illumination area of the building (200), and a disaster detector display area (162a) corresponding to a disaster detector (120) provided in the illumination area of the building (200).

17. The LED luminary system for disaster warning and disaster training as defined in claim 16,

when the administrator terminal (160) receives the disaster warning prompt message from the disaster management server (150) for the first time, the administrator terminal receives a disaster area complete display command of the disaster management server (150), and displays the entire illumination area of the illumination area disaster display area (161a) displayed on the administrator screen (160a) as a disaster warning state; or the administrator terminal (160) receives a disaster area selection display command of the disaster management server (150) and displays a selected lighting area among the entire lighting areas displayed in the lighting area disaster display area (161a) as a disaster alarm state.

18. The LED luminary system for disaster warning and disaster training as defined in claim 16,

in the case where the entire lighting area of the lighting area disaster display area 161a displayed on the administrator screen 160a is displayed in the disaster alarm state, the administrator terminal 160 transmits a disaster alarm release signal to the disaster management server 150, whereby the disaster management server 150 turns off the emergency LED group G2 112 of the LED lighting lamp 110,

wherein the disaster alarm release signal is a disaster alarm release signal for the entire illumination area or a selected illumination area in the entire illumination area, and the LED illumination lamp (110) is an LED illumination lamp provided to the entire illumination area or the selected illumination area in the entire illumination area.

19. The LED luminary system for disaster warning and disaster training as defined in claim 16,

when a selected lighting area is displayed as a disaster alarm state in the entire lighting area of the lighting area disaster display area 161a displayed on the administrator screen 160a, the administrator terminal 160 transmits a disaster alarm release signal to the disaster management server 150, whereby the disaster management server 150 turns off the emergency LED group G2 112 of the LED lighting lamp 110,

wherein the disaster alarm release signal is a disaster alarm release signal for the selected entire illumination area or the illumination area selected again in the selected entire illumination area, and the LED illumination lamp (110) is an LED illumination lamp provided to the selected entire illumination area or the illumination area selected again in the selected entire illumination area.

20. The LED luminary system for disaster warning and disaster training as defined in claim 16,

the administrator terminal (160) transmits a disaster training start signal to the disaster management server (150), whereby the disaster management server (150) lights the emergency LED group (G2) (112) of the LED illumination lamp (110) to generate a disaster training alarm, thereby starting disaster training,

wherein the disaster training start signal is a disaster training start signal for the entire illumination area or a selected illumination area in the entire illumination area of the illumination area disaster display field (161a) displayed on the administrator screen (160a), and the LED illumination lamp (110) is an LED illumination lamp provided in the entire illumination area or the selected illumination area in the entire illumination area.

21. The LED luminary system for disaster warning and disaster training as defined in claim 16,

in the case where the entire lighting area of the lighting area disaster display area (161a) or the selected lighting area of the entire lighting area displayed on the administrator screen (160a) is displayed as a disaster training alarm state, the administrator terminal (160) transmits a disaster training end signal to the disaster management server (150), whereby the disaster management server (150) causes the emergency LED group (G2) (112) of the LED lighting lamp (110) to be extinguished, thereby ending the disaster training,

wherein the disaster training completion signal is a disaster training completion signal for the entire illumination area, the selected illumination area of the entire illumination area, or the illumination area selected again in the entire illumination area, and the LED illumination lamp (110) is an LED illumination lamp provided to the entire illumination area, the selected illumination area of the entire illumination area, or the illumination area selected again in the entire illumination area.

22. The LED luminary system for disaster warning and disaster training as defined in claim 16,

the administrator terminal (160) receives a detector status display command of the disaster management server (150) and displays detector status information for each disaster detector (120) during a period in which the disaster management server (150) receives a disaster discrimination signal from the disaster detector (120),

wherein the disaster detector (120) is displayed in a disaster detector display area (162a) in the administrator screen (160a), and the detector state information is state information informing of temperature, earthquake magnitude, whether a disaster occurrence signal is received, and the like.

23. The LED luminary system for disaster warning and disaster training as defined in claim 16,

the administrator terminal (160) receives a battery status display command of the disaster management server (150) and displays battery level information for each disaster detector (120) during a period in which the disaster management server (150) periodically receives a battery status signal from the disaster detector (120),

wherein the disaster detector (120) is displayed in a disaster detector display area (162a) of the administrator screen (160 a).

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