KR102425779B1 - Evacuation guide system - Google Patents

Abstract

The present invention provides an evacuation guidance system including an evacuation guidance device and a server, wherein the evacuation guidance device includes: a power supply unit for supplying power; A sensor unit for detecting the occurrence of a fire; A camera to photograph the scene in case of a fire; a communication unit that communicates in a wired/wireless communication method; a notification unit for issuing an alarm and evacuating by voice in case of a fire; A display unit for displaying an evacuation guide line on the floor or wall as a holographic image conversion device display; and a control unit for controlling the power supply unit, the communication unit, the camera unit, the communication unit, the notification unit, and the display unit, wherein the server periodically receives the on/off control of the evacuation guide device and the battery status check, and the fire through the sensor unit It is characterized in that it receives and analyzes the detection information and the on-site video information through the camera and transmits it to the monitoring PC, the manager's mobile phone, the competent fire station, and the national disaster server.

Description

Evacuation guide system

The present invention relates to an evacuation guidance system, and more particularly, to an evacuation guidance system capable of guiding an evacuation direction in the event of a fire and grasping an on-site situation.

In general, evacuation guide lines guide evacuation with evacuation direction guide characters or symbols in case of fire or power failure, and are divided into luminescent type evacuation guide lines and light source lighting type evacuation guide lines. The LED method and the laser method are used depending on the light source used in the display unit.

Here, the laser type evacuation guide line device uses a method of displaying an evacuation direction guide character or symbol on a transparent film, and projecting a laser beam thereto to indicate an evacuation direction indication on the floor or wall.

However, the conventional laser type evacuation guide line device has different sizes and thicknesses depending on the distance at which the evacuation direction indication projected on the floor or wall is displayed, and the luminance is not uniform, resulting in poor visibility, and displaying the evacuation direction directly below. There was a problem that it was difficult to install right above the emergency exit because it was difficult to install.

In addition, recently, surveillance cameras such as CCTV are installed at each location so that the state of the location can be monitored from the central control room in case of a fire. there was

An object of the present invention to solve the above problems is to grasp the situation on the spot through a small camera in case of a fire, and to display the evacuation direction through a holographic image conversion device display with excellent visibility while having a uniform thickness and luminance over the entire length of the display. It is to provide an evacuation guidance system that displays a highly visible evacuation direction indication and an evacuation direction guide directly downward.

The present invention for achieving the above object is an evacuation guidance system including an evacuation guidance device and a server, wherein the evacuation guidance device includes: a power supply unit for supplying power; A sensor unit for detecting the occurrence of a fire; A camera to photograph the scene in case of a fire; a communication unit that communicates in a wired/wireless communication method; a notification unit for issuing an alarm and evacuating by voice in case of a fire; A display unit for displaying an evacuation guide line on the floor or wall as a holographic image conversion device display; and a control unit for controlling the power supply unit, the communication unit, the camera unit, the communication unit, the notification unit, and the display unit, wherein the server periodically receives the on/off control of the evacuation guide device and the battery status check, and the fire through the sensor unit It is characterized in that it receives and analyzes the detection information and the on-site video information through the camera and transmits it to the PC for monitoring, the administrator's mobile phone, the competent fire station, and the national disaster server.

The power supply unit may supply commercial power in normal times and may supply power to a rechargeable battery during a power outage.

The sensor unit may be configured as a fire detection sensor that detects heat, smoke, flame or carbon dioxide.

The holographic image conversion element display projects a laser beam through the holographic image conversion element to display an evacuation guide line, and the holographic image conversion element is a transparent material or a reflective material with the depth of grooves and protrusions through a semiconductor process. It can be processed to make a difference in units of wavelength/2^n (n=1,2,3,4,5) of the laser light source.

The evacuation guide device is installed next to the guide light above the emergency exit on each floor of the building, in the hallway or in the stairwell, and the central control center can control the operation and monitor the status of the evacuation guide device through the LPWA communication network.

As described above, according to the evacuation guidance system of the present invention, in the event of a fire, damage can be minimized through a customized response by identifying the on-site situation through a small camera in the event of a fire, and the evacuation direction is guided directly downward through the highly visible holographic image conversion device display. It has the advantage of being able to evacuate quickly and safely by displaying

In addition, according to the evacuation guidance system of the present invention, there is an advantage in that the operation and maintenance cost is low because installation and management are easy with the laser beam projection method direction indication on the floor or wall of the building.

1 is a block diagram of an evacuation guidance system according to the present invention.
Figure 2 is an exemplary view showing the display of the evacuation guidance system according to the present invention.
Figure 3 is an exemplary view showing the installation of the evacuation guidance system according to the present invention.
Figure 4 is an exemplary diagram for monitoring the operation control and state of the evacuation guidance system according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art to which the present invention pertains can easily implement them. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein.

Then, a preferred embodiment of the evacuation guidance system according to the present invention will be described in detail.

1 is a configuration diagram of an evacuation guidance system according to the present invention, Figure 2 is an exemplary view showing the display unit of the evacuation guidance system according to the present invention, Figure 3 is an exemplary view showing the installation of the evacuation guidance system according to the present invention .

1 to 3 , the evacuation guidance system according to the present invention is configured to include an evacuation guide device 100 and a server 300 .

The evacuation guide line device 100 includes a power supply unit 110 for supplying power, a sensor unit 120 for detecting the occurrence of a fire, a camera unit 130 for photographing a scene in case of a fire, and a wired/wireless communication method with an external network. A communication unit 150 that communicates with the Display unit 170 for displaying the evacuation guide line 173 with arrows on the floor 210 or wall 220 by using the conversion element display), and the power supply unit 110 , the communication unit 120 , and the camera unit 130 . ), a communication unit 150 , a notification unit 160 , and a control unit 140 for controlling the display unit 170 .

The power supply unit 110 supplies commercial power in normal times, and supplies power to a rechargeable battery in case of a power outage.

The sensor unit 120 is composed of a fire detection sensor that detects heat, smoke, flame or carbon dioxide at each location in the building, and the fire detection sensor is a well-known technology in the art, so a detailed description thereof will be omitted.

The camera 130 takes a picture of the scene in case of a fire.

The communication unit 150 transmits the fire information detected through the sensor unit 120 and the image information of the fire scene photographed through the camera unit 130 to the LPWA repeater and the LPWA gateway.

In addition, the communication unit 150 may receive from the central control center the on-off operation control of the evacuation guidance line device 100 and the status and battery remaining monitoring information. Here, the communication unit 150 may support an LPWA, WiFi, or wired LAN method for IoT communication.

When a fire occurs, the notification unit 160 issues an alarm by voice or guides evacuation through a voice message.

The display unit 170 displays the evacuation guide line 173 with an arrow on the floor 210 or the wall 220 as a holographic image conversion device display. In this way, by using the holographic image conversion device display, the evacuation guidance direction display is directly displayed, so that the evacuation direction guidance display displayed on the floor 210 or wall 220 is uniform in size, thickness, and luminance. can be displayed

The evacuation guide line 173 may display various colored letters, shapes, and shapes by projecting various laser beams 171 such as red, green, and blue through the holographic image conversion element 172 .

Here, the holographic image conversion device 172 is manufactured by processing grooves and protrusions capable of implementing holographic characteristics in a transparent material or a reflective material through a semiconductor process. That is, the depths of the grooves and protrusions are processed so that the wavelength of the laser light source/2^n (n=1,2,3,4,5) is different. Thereby, individual grooves or protrusions are driven in units of wavelength/2^n (n=1,2,3,4,5) of the light source.

The control unit 140 controls the operation of the evacuation guide line device 100 , the remaining battery capacity of the power supply unit 120 , the sensor unit 130 , the camera unit 130 , the communication unit 150 , and the notification unit 160 . ) and the status, control and monitoring of the display unit 130 .

The server 300 periodically receives the on/off control of the evacuation guideline device 100 and the battery status check, and receives fire detection information through the sensor unit 120 and on-site image information through the camera unit 130 . It receives and analyzes and transmits it to the monitoring PC and manager's mobile phone, and transmits it to the competent fire station, manager, national disaster server, etc. have.

For example, as shown in FIG. 3 , the evacuation guide line device 100 may be installed next to a guide light above the emergency exit 200 , in a hallway, or in a stairwell to indicate the evacuation direction in a direct downward direction.

4 is an exemplary view for monitoring the operation control and status of the evacuation guide system according to the present invention, and the evacuation guide device 100 is installed next to the guide light above the emergency exit on each floor of the building, and the central control center through the LPWA communication network. can control the operation of the evacuation guide line device 100 and monitor the state. That is, the evacuation guide device 100 communicates with the LPWA repeater and the LPWA gateway in the LPWA communication method, and the LPWA gateway is basically connected to the external network by the LAN communication method, and when the LAN communication method is unavailable, automatically LTE communication Continuous service is possible by converting to this method and providing communication service through a commercial mobile communication network.

In this way, by mounting the IoT communication function in the evacuation guideline device 100 to remotely control the operation or monitor the state of the device, it is possible to reduce the convenience and cost of maintenance.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improved forms of the present invention are also provided by those skilled in the art using the basic concept of the present invention as defined in the following claims. is within the scope of the right.

100: evacuation guide device 110: power unit
120: sensor unit 130: camera unit
140: control unit 150: communication unit
160: notification unit 170: display unit
171: laser beam 172: holographic image element
173: evacuation guide line 200: emergency exit

Claims (5)

In the evacuation guidance system comprising an evacuation guide device and a server,
The evacuation guide line device is
a power supply unit for supplying power;
A sensor unit for detecting the occurrence of a fire;
A camera to photograph the scene in case of a fire;
a communication unit that communicates in a wired/wireless communication method;
a notification unit for issuing an alarm and evacuating by voice in case of a fire;
A display unit for displaying an evacuation guide line on the floor or wall as a holographic image conversion device display; and
a control unit for controlling the power supply unit, the communication unit, the camera unit, the communication unit, the notification unit, and the display unit;
The holographic image conversion element display projects a laser beam through the holographic image conversion element to display an evacuation guide line,
The holographic image conversion device is processed so that the depth of the grooves and protrusions is different by the wavelength of the laser light source/2^n (n=1,2,3,4,5) unit by a semiconductor process in a transparent material or a reflective material. and
The server periodically receives the on/off control of the evacuation guide device and the battery status check, and receives and analyzes fire detection information through the sensor unit and on-site video information through the camera to monitor PC, manager mobile phone, competent fire station, Evacuation guidance system, characterized in that it is transmitted to the national disaster server. According to claim 1,
The power supply unit supplies commercial power in normal times and evacuation guidance system, characterized in that it supplies power to a rechargeable battery in case of a power outage. According to claim 1,
The evacuation guidance system, characterized in that the sensor unit is composed of a fire detection sensor that detects heat, smoke, flame or carbon dioxide. delete According to claim 1,
Evacuation guidance, characterized in that the evacuation guide device is installed next to the guide light above the emergency exit on each floor of the building, in the hallway or in the stairwell, and the central control center monitors the operation control and status of the evacuation guide device through the LPWA communication network system.

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