KR20230092419A - System for guiding evacuation route - Google Patents

Abstract

Disclosed is an evacuation route guidance system capable of effectively conveying evacuation routes to evacuees in the event of a fire in a building and easily identifying personnel remaining in the building.
An evacuation route guidance system according to an embodiment includes a fire detector provided at regular intervals in a building; An evacuation guidance server that analyzes the fire information detected by the fire detector and determines an evacuation route; and an information display device installed for each fire door and displaying the direction of the evacuation route determined by the evacuation guidance server. In addition, the evacuation guidance server of the evacuation route guidance system according to the embodiment analyzes the fire information received from the receiving unit and the receiving unit for receiving the fire information detected by the fire detector, and the direction away from the fire detector in which the fire is detected among the fire detectors. It includes a route determination unit for determining an evacuation route and a transmission unit for transmitting the evacuation route determined by the route determination unit to an information display device. and an output unit for outputting the direction of the evacuation route.

Description

Evacuation route guidance system {SYSTEM FOR GUIDING EVACUATION ROUTE}

The Disclosure relates to an evacuation route guidance system in case of fire in a building.

In the event of a fire in a building, it is very important to promptly and accurately inform the remaining personnel of the evacuation route. In addition, by informing rescuers of situational information inside the building, such as personnel information and fire information remaining in the building, rescuers can effectively perform rescue activities and further minimize human life and property damage.

Korean Patent Registration No. 10-1631090 discloses a fire detection system and fire response method using building modeling data.

The fire detection system disclosed in the same publication includes a sensor unit 110 configured to be installed in a building to detect a fire, and management configured to receive a fire signal through the sensor unit 110 and calculate and transmit fire information for escape. It includes a server 130 and a personal portable terminal 170 configured to communicate with the management server 130 and configured to receive the fire information for escape, wherein the management server 130 includes the 3D model data of the building. is stored as a database, and the fire information for escape is the shortest escape route calculated through the fire zone detected through the sensor unit 110 in the building and the 3D model data of the building, and the shortest escape route is It is characterized in that the physical properties of each member constituting the building are identified from the 3D model data of the building, and a path on which flames are more difficult to spread is selected among a plurality of paths according to the identified physical properties of the members.

However, the above-described fire detection system uses a personal mobile terminal to receive fire information for escape and transmit information on people trapped in a building. There is a problem in that it is difficult to grasp fire information and information of people trapped in a building.

KR 10-1631090 B1 (2016. 06. 10. Registration)

An object to be solved by the present disclosure is to provide an evacuation route guidance system capable of effectively conveying an evacuation route to evacuees in the event of a fire in a building and easily identifying personnel remaining in the building.

An evacuation route guidance system according to an embodiment includes a fire detector provided at regular intervals in a building; An evacuation guidance server that analyzes the fire information detected by the fire detector and determines an evacuation route; and an information display device installed for each fire door and displaying the direction of the evacuation route determined by the evacuation guidance server.

In addition, the evacuation guidance server of the evacuation route guidance system according to the embodiment analyzes the fire information received from the receiving unit and the receiving unit for receiving the fire information detected by the fire detector, and the direction away from the fire detector in which the fire is detected among the fire detectors. It includes a route determination unit for determining an evacuation route and a transmission unit for transmitting the evacuation route determined by the route determination unit to an information display device. and an output unit for outputting the direction of the evacuation route.

In addition, the information display device of the evacuation route guidance system according to the embodiment further includes a temperature unit for measuring the temperature of the fire door and a transmission unit for transmitting the temperature information measured by the temperature unit to the evacuation guidance server, and the route of the evacuation guidance server The determining unit analyzes the temperature information transmitted from the information display device and re-determines an evacuation route in a direction where the temperature of the fire door is low.

In addition, the information display device of the evacuation route guidance system according to the embodiment may further include a person detection sensor unit for detecting a person passing through the fire door.

In addition, the information display device of the evacuation route guidance system according to the embodiment may further include a laser unit that detects whether the fire door is opened and displays the direction of the evacuation route on the floor or wall in the direction in which the fire door is opened when the fire door is open. there is.

An evacuation route guidance system according to an embodiment effectively conveys an evacuation route to an evacuee by means of an information display device provided for each fire door.

In addition, the evacuation route guidance system according to the embodiment measures and then analyzes the temperature of the fire door installed on each floor to deliver a safer evacuation route to the evacuee.

In addition, the evacuation route guidance system according to the embodiment can detect people passing through a fire door, so it is easy to determine the number of people remaining on each floor.

In addition, the evacuation route guidance system according to the embodiment is an evacuation route for evacuators who have not checked the evacuation route in advance because the fire door is open by means of a laser unit that displays the direction of the evacuation route on the floor or wall in the direction of opening the fire door. transmission of is possible.

1 schematically shows how an evacuation route is guided by an evacuation route guidance system according to an embodiment.
2 is a configuration diagram of an evacuation route guidance system according to an embodiment.
3 is a configuration diagram of an evacuation guidance server of an evacuation route guidance system according to an embodiment.
4 is a block diagram of an information display device of an evacuation route guidance system according to an embodiment.
5 schematically shows how an evacuation route is guided by an evacuation route guidance system according to an embodiment.
Figure 6 shows an example of the operation of the laser unit of the evacuation route guidance system according to the embodiment.

Advantages and features of the present disclosure, and methods of achieving them, will become clear with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present disclosure is not limited to the embodiments disclosed below and may be implemented in various different forms, only the present embodiments make the present disclosure complete, and those of ordinary skill in the art to which the present disclosure belongs It is provided to fully inform the person of the scope of the invention, and the present disclosure is only defined by the scope of the claims. Like reference numbers designate like elements throughout the specification.

Referring to FIG. 1 schematically showing how an evacuation route is guided by an evacuation route guidance system (hereinafter referred to as 'guide system 10') according to an embodiment and FIG. 2 showing a configuration diagram of the guidance system 10, guidance The system 10 includes a fire detector 100, an evacuation guidance server 200 and an information display device 300.

The fire detector 100 is provided at regular intervals in the building. Specifically, a plurality of fire detectors 100 may be provided on the ceiling of a building at regular intervals. In addition, the fire detector 100 may be configured to detect fire using at least one of a heat detector, a smoke detector, a composite detector, and a flame detector.

The evacuation guidance server 200 analyzes the fire information detected by the fire detector 100 to determine an evacuation route. The evacuation guidance server 200 may be configured to be connected to the fire detector 100 through an Internet network, ZigBee, Bluetooth, etc. to send and receive signals.

The information display device 300 is installed for each fire door and displays the direction of the evacuation route determined by the evacuation guidance server 200 . Specifically, the information display device 300 may be attached to the fire door at the eye level of the evacuee so that the evacuee can know the direction of the evacuation route before opening the fire door, and in the event of a fire, the evacuation route determined from the evacuation guidance server 200 It is possible to receive and notify the evacuee of the direction of the received evacuation route. In addition, the information display device 300 may be configured to be connected to the evacuation guidance server 200 through an Internet network, ZigBee, Bluetooth, etc. to send and receive signals.

Referring to FIG. 3, which is a configuration diagram of the evacuation guidance server 200 of the guidance system 10, the evacuation guidance server 200 includes a receiving unit 210, a route determining unit 220 and a sending unit 230.

The receiver 210 receives fire information detected by the fire detector 100 .

The route determining unit 220 analyzes the fire information received by the receiving unit 210 and determines an evacuation route in a direction away from the fire detector 100 where a fire is detected among the fire detectors 100 . As an example, the evacuation route is a direction away from the fire detector 100 where the fire is detected, an evacuation route leading to the entrance on the first floor of the building, an evacuation route leading to the roof of the building, or an evacuation route leading to a place equipped with a descending device. can be a path.

The transmission unit 230 transmits the evacuation route determined by the route determination unit 220 to the information display device 300 .

Referring to FIG. 4, which is a configuration diagram of the information display device 300 of the guidance system 10, the information display device 300 includes a receiver 310, an output unit 320, a temperature unit 330, and a transmitter 340. ).

Receiving unit 310 receives the evacuation route sent from the evacuation guidance server (200).

The output unit 320 notifies the evacuee by outputting the direction of the evacuation route received by the receiver 310 on a display. The output unit 320 may inform the direction of the evacuation route using arrows or phrases. In addition, the output unit 320 may inform the number or location of the fire.

The temperature unit 330 measures the temperature of the fire door equipped with the information display device 300 .

The sending unit 340 transmits the temperature information measured by the temperature unit 330 to the evacuation guidance server 200 .

The evacuation guidance server 200 may analyze the temperature information of the temperature unit 330 to determine a safer evacuation route.

In addition, the information display device 300 may further include a person detection sensor unit 350 and a laser unit 360.

The people detection sensor unit 350 functions to detect people passing through the fire door. In addition, the person detection sensor unit 350 may detect a person passing through the fire door by using an infrared sensor, an image analysis sensor, a height change sensor, or the like.

In addition, the personnel information detected by the people detection sensor unit 350 is transmitted to the evacuation guidance server 200 by the sending unit 340, and the evacuation guidance server 200 transmits the personnel information of the people detection sensor unit 350. It can be used to easily determine the number of people remaining on each floor.

The laser unit 360 detects whether the fire door is opened or not, and when the fire door is open, displays the direction of the escape route on the floor or wall in the direction in which the fire door is opened.

Referring to FIG. 5 schematically showing how an evacuation route is guided by the guidance system 10, the guidance system 10 uses the temperature information of the fire door measured by the temperature unit 350 of the information display device 300. Thus, the evacuation route can be informed to the evacuees. The temperature unit 350 of the information display device 300 provided on each fire door measures the temperature of each fire door, and the transmission unit 340 of the information display device 300 sends it to the evacuation guidance server 200. The evacuation guidance server 200 calculates the risk according to the evacuation route for each floor using the temperature information received from the information display device 300, and then re-determines a safer evacuation route.

As an example, assume a situation in which a fire occurs on the first floor of a building as shown in FIG. 5 . When a fire occurs, the fire detector 100 detects it and transmits the detected fire information (a fire occurs on the first floor) to the evacuation guidance server 200. The evacuation guidance server 200 analyzes the received fire information and transmits an evacuation route to the information display device 300 provided on each fire door installed on each floor. At this time, in the case of the evacuee on the second floor, since evacuating through the entrance on the first floor is a faster escape route, the evacuation route leading to the entrance on the first floor can be guided. However, as the fire on the first floor spreads over time, if the temperature measured by the information display device 300a located on the first floor is higher than the temperature measured by the information display device 300b located on the second floor, For evacuees on the second floor, the evacuation route leading to the entrance on the first floor may be more dangerous. In this case, the evacuation guidance server 200 redetermines the evacuation route from the evacuation route leading to the entrance on the first floor to the evacuation route leading to the roof of the building or the evacuation route leading to a place equipped with a descending device, and re-determines the evacuation route It is transmitted to the information display device 300b.

Referring to FIG. 6 showing an operation example of the laser unit 360 of the guidance system 10, the laser unit 360 detects whether the fire door is opened or not, and if the fire door is open, the floor or wall in the direction in which the fire door is opened. indicates the direction of the evacuation route.

In detail, the laser unit 360 is provided on a fire door to detect whether the fire door is opened or not, and is configured to display an evacuation route on a floor or wall.

As an example, the laser unit 360 may be composed of a pair of sensors that exchange signals with each other. One sensor of the pair of sensors is provided on the fire door, and the other sensor is provided on the door frame of the fire door, and is located at a position corresponding to one sensor when the fire door is closed. That is, when the fire door is opened, signals exchanged between the pair of sensors are disconnected, and accordingly, the laser unit 360 can detect whether the fire door is opened or not.

In addition, when the fire door is open, since the evacuee passing through the fire door cannot see the direction of the escape route of the output unit 320, when the laser unit 360 detects that the fire door is open, the direction of the escape route is changed to the direction of the fire door when the fire door is opened. Indicate the direction of the evacuation route to the evacuees by marking on the floor or wall of the direction.

In the guidance system 10 described above, an information display device 300 indicating the direction of an evacuation route is provided for each fire door. Accordingly, in the event of a fire, an evacuee who must pass through one or more fire doors can quickly and conveniently check an evacuation route.

In addition, in the above-described guidance system 10, the temperature unit 340 for measuring the temperature of the fire door is provided for each fire door installed for each floor. Accordingly, the above-described guidance system 10 may compare the temperature of each fire door and deliver a safer evacuation route to the remaining evacuees on each floor, rather than a shorter evacuation route.

In addition, in the above-described guidance system 10, a person detection sensor unit 350 for detecting a person passing through a fire door is provided for each fire door. Accordingly, compared to the conventional technique of identifying the number of people remaining in a building using a personal terminal, the above-described guidance system 10 facilitates the identification of the number of people remaining in the building, and the rescuer effectively conducts rescue activities using this. can do.

In addition, the above-described guidance system 10, by means of a laser unit that displays the direction of the evacuation route on the floor or wall in the direction in which the fire door is opened, provides information about the evacuation route even to the evacuee who has not confirmed the evacuation route in advance because the fire door is open. transmission is possible

Expressions (terms, visualized images, etc.) used in describing the embodiments of the present disclosure are merely selected for instrumental purposes to enhance understanding of the technology.

In addition, the present disclosure has been described by a limited number of embodiments, and a person skilled in the art will be able to create new embodiments based on the described embodiments without departing from the technical spirit of the present disclosure.

Therefore, the claims of the present disclosure should not be limited by some expressions shown in the 'description of the invention' and 'drawings', and should be interpreted broadly based on the original technical idea inherent in the entire specification.

10... Evacuation route guidance system
100... fire detector
200... evacuation information server
210 ... receiver
220... route determination unit
230 ... sending unit
300... information display device
310 ... receiver
320 ... output unit
330 ... temperature part
340 ... sending unit
350... people detection sensor unit
360... laser part

Claims (5)

Fire detectors installed at regular intervals in the building;
An evacuation guidance server that analyzes the fire information detected by the fire detector and determines an evacuation route; and
An information display device installed for each fire door and displaying the direction of the evacuation route determined by the evacuation guidance server; Evacuation route guidance system including. According to claim 1,
The evacuation guidance server,
a receiver for receiving fire information detected by the fire detector;
A route determination unit for analyzing the fire information received from the reception unit and determining an evacuation route in a direction away from the fire detector in which a fire is detected among the fire detectors; and
And a transmission unit for transmitting the evacuation route determined by the route determination unit to the information display device,
The information display device,
A receiving unit for receiving an evacuation route transmitted from the evacuation guidance server; and
Evacuation route guidance system comprising an output unit for outputting the direction of the evacuation route received by the receiver. According to claim 2,
The information display device,
A temperature unit for measuring the temperature of the fire door; and
Further comprising a transmission unit for transmitting the temperature information measured by the temperature unit to the evacuation guidance server,
The route determination unit of the evacuation guidance server,
Evacuation route guidance system, characterized in that for analyzing the temperature information sent from the information display device, to re-determine the evacuation route in a direction where the temperature of the fire door is low. According to claim 3,
The information display device,
Evacuation route guidance system, characterized in that it further comprises a person detection sensor for detecting the number of people passing through the fire door. According to claim 3,
The information display device,
Evacuation route guidance system further comprising a laser unit for detecting whether the fire door is opened or not and displaying a direction of the evacuation route on a floor or wall in a direction in which the fire door is opened when the fire door is open.

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