KR101631090B1 - The fire perception system and the fire fighting system using building modeling data - Google Patents

Abstract

A fire detection system (100) using building modeling data according to the present invention comprises a sensor unit (110) configured to be installed in a building to detect a fire, 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) Dimensional model data of the building is stored as a database.
The fire detection method using building modeling data according to the present invention provides an escape route to people trapped in a fire scene inside a building using the system 100 so that it can be quickly evacuated in the early stage of fire, And when a fire occurs, the fire signal and the structural fire information are transmitted directly to the control server and the controller terminal, so that rapid response is possible.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a fire detection system and a fire fighting system using building modeling data,

The present invention relates to a fire detection system and a fire countermeasure method using building modeling data, and more particularly, to a fire detection system and a fire countermeasure method using building modeling data. More specifically, when a fire occurs, a fire signal and an escape route are transmitted to an individual terminal, The present invention relates to a fire detection system and a fire response method using building modeling data.

The background art will be described with reference to FIG.

The fire detection system (1) according to the background art includes a fire detector (10) having a sensor for detecting heat and smoke, a speaker for emitting a fire alarm when the sensor detects a fire, and a wireless communication module for transmitting a fire signal to the outside And a management server 30 capable of communicating with the wireless communication module of the fire detector 10 is constructed. The fire sensor 10 is configured to send a rescue request signal to the management server 30 through the wireless communication module, When the wireless modem 40 is connected and receives a fire report through the fire detector 10, it is configured to transmit a fire occurrence and a rescue request signal to the administrator's terminal 50 via the Internet.

Hereinafter, an operation example of the fire detection system 1 will be described.

When a fire occurs, the sensor senses the heat and smoke of the fire, activates the speaker, and transmits a fire signal to the management server 30 through the wireless communication module. Then, the management server 30 transmits a fire signal to the terminal 50 of the administrator connected to the Internet through the wireless modem 40. [

Also, when a person is trapped in a fire scene, the ASOS transmitter 20 may be directly operated to send a rescue signal to the management server 30 through the wireless communication module. To the terminal 50 of the terminal. At this time, since the management server 30 recognizes the unique number of the fire alarm, the fire point is transmitted to the manager's terminal 50, and the manager requests the rescue team to the control agency such as the fire department or the like.

According to the background art, there are the following problems.

First, in the event of a fire in a big building like a large hotel, people inside the building did not know how to escape, so they had to sit down and become victims. In other words, it was impossible to evacuate a hotel guest or a first-time visitor to a building because they did not know the internal structure of the building. Even if the internal structure of the building is well known, there is a problem that it is difficult to know the escape route that can escape from the fire because it does not know the area where the fire occurs.

Secondly, when the fire signal is notified to the manager, the management server 30 transmits a fire signal to the manager's terminal 50, and then the notification is sent to the fire department again by the terminal 50, There was a problem that was not quick. In addition, when the manager goes out, the delivery to the terminal 50 is not performed properly, so that reporting is further delayed. In other words, when a fire occurs, it is necessary to report it immediately to the fire department, but the background technology is not.

Third, even if the fire brigade arrives at the fire site after filing the report, it is difficult to identify the area where the fire has occurred accurately, and the number of people trapped in the fire zone can not be confirmed, There is a problem that it is not possible to confirm the route to enter the trapped people and the escape route.

Fourth, since the fire detector 10 is attached to the ceiling, the fire can be easily detected. However, because of this, it is difficult for those trapped in the fire to operate the ASOS transmitter 20 configured in the fire detector 10 and to know that there is the ASOS transmitter 20, there was.

Korean Utility Model Registration No. 20-0240320 (July 18, 2001)

Problems to be solved by the fire detection system and the fire response method using the building modeling data according to the present invention are as follows.

First, the escape route is provided to the people trapped in the fire scene inside the building, so that it is possible to evacuate quickly in the early stage of the fire, so as to efficiently rescue people.

Second, in case of a fire, the fire signal is transmitted directly to a control agency such as a fire station or a police station, so that rapid reporting is possible.

Third, to provide firefighters and rescuers with efficient fire suppression and rescue facilities by providing fire zones and the number of people trapped, confined areas, and access roads and escape routes that can be efficiently accessed by prisoners. do.

Fourthly, even if the rescue request is not made, the number of the confined people and the confined location are transmitted to the control unit to enable effective fire suppression and rescue.

A fire detection system using building modeling data according to the present invention includes a sensor configured to be installed in a building for detecting a fire, a management server configured to receive a fire signal through the sensor and calculate fire information for escape, And a personal portable terminal configured to communicate with the management server and configured to receive the fire information for escape, wherein the management server stores the three-dimensional model data of the building as a database, and the escape fire information is stored in the building And is an escape route calculated through the fire zone sensed through the sensor and the three-dimensional model data of the building.

The management server is configured to receive a fire signal through the sensor and calculate and transmit structural fire information, and a control unit connected to the management server to receive the structural fire information, The fire information is a point where the survivor is sensed through the communication between the fire zone and the portable device sensed through the sensor in the building, and an entry path and an escape path to reach the point.

In addition, the management server may be configured such that three-dimensional model data of the building is provided as a database, and fire information for escape is calculated using the three-dimensional model database of the building.

Further, the present invention is characterized in that structural fire information is calculated using a three-dimensional model database of the building.

The three-dimensional modeling of the building is characterized by building information modeling (BIM) data.

Further, an evacuation indicator installed in the evacuation passage of the building is configured, and the management server receives the fire signal through the sensor unit and applies electricity to the evacuation indicator installed in the shortest escape route.

A fire response method using building modeling data according to the present invention is a fire detection system using the building modeling data,

A fire detection step in which the management server receives a fire signal from the sensor; an operation step in which the management server calculates the fire information for escape and the structural fire information after the fire detection step; And transmitting the fire information for escape to the personal digital assistant and transmitting the fire information to the controller.

The fire detection system and the fire response method using building modeling data according to the present invention provide an escape route for people trapped in a fire scene inside a building, so that they can be quickly evacuated at the beginning of a fire, In case of a fire, fire signal and structural fire information are transmitted directly to the control server and the controller terminal, so that rapid response is possible. In addition, it provides effective fire suppression and rescue structure by providing access roads and escape routes that can effectively reach the people who are trapped and the number of people trapped in the fire area, Even if the request is not made, the number of the confined people and the confined location can be transmitted to the control terminal so that efficient fire suppression and lifesaving are possible.

1 is a block diagram illustrating a fire detection system in accordance with the background art;
2 is a block diagram showing a fire detection system using building modeling data according to the present invention.
3 is a block diagram illustrating a fire countermeasure method using building modeling data according to the present invention.

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

FIG. 2 is a block diagram showing a fire detection system using building modeling data according to the present invention, and FIG. 3 is a block diagram illustrating a fire response method using building modeling data according to the present invention.

A fire detection system (100) using building modeling data according to the present invention transmits escape routes to a survivor when a fire occurs inside the building, so that the fire escape area can be voluntarily escaped, and a fire control system The fire area and the location of the survivor are transmitted, so that an efficient fire suppression and lifesaving structure is possible.

To this end, the present invention is configured as follows.

A sensor unit 110 is installed in the building to detect a fire and a survivor. Further, an evacuation indicator light 180, which is installed in the evacuation passage of the building and configured to guide the evacuation in the event of a fire, is constructed. The evacuation indicator light 180 may be an LED lamp, for example, in the form of an arrow, which is provided on the wall of the passage. In addition, it is also possible to control the evacuation indicator light 180, which is installed in the shortest evacuation passage included in the escape fire information, to transmit fire signals through the sensor unit 110, A server 130 is configured. The personal portable terminal 170 configured to communicate with the management server 130 and configured to receive the escape fire information including the shortest escape route is configured.

In addition, the management server 130 is configured to receive a fire signal through the sensor unit 110 and to calculate and transmit structural fire information, and to receive the structural fire information in association with the management server 130 The handset 150 is constructed.

The sensor unit 110 includes a fire detection sensor (not shown) for detecting the occurrence of fire through flame, smoke, and temperature, and a motion detection sensor (not shown) for detecting an operation by infrared rays and detecting a survivor And is connected to the wireless communication module 120 to send a fire signal to the management server 130. The wireless communication module 120 is capable of communicating with the management server 130 and the personal portable terminal 170 and is capable of linking the sensor unit 110, the management server 130, and the personal portable terminal 170 .

The management server 130 stores the three-dimensional model data of the building as a database, and the three-dimensional model data of the building is constructed of building information modeling (BIM) data. Therefore, not only the three-dimensional image of the building but also the physical properties of the members constituting the building are grasped, so that fire information for escape and structural fire information can be efficiently calculated when a fire occurs.

In addition, a plurality of the evacuation indicator lights 180 are connected to a controller (not shown), and the management server 130 can selectively emit the evacuation indicator light 180 through the controller (not shown) . That is, electricity is supplied to the evacuation indicating light 180 installed in the shortest evacuation route included in the escape fire information at the time of a fire to facilitate escape.

The escape fire information includes a shortest escape route calculated through three-dimensional model data of a fire zone and a building sensed through the sensor unit 110 in the building. Since the unique ID is set in the fire sensor (not shown) of the sensor unit 110, the management server 130 calculates the fire zone by checking the unique ID of the sensor unit 110 that transmitted the fire signal Dimensional model data of the building, so that the escape route is calculated.

At this time, since the three-dimensional model data of the building is a building information model, the shortest escape route is selected in view of the members of the building. The management server 130 transmits the escape fire information to the personal portable terminal 170 in the building through the wireless communication module 120. At this time, the escape fire information to be transmitted is displayed as a fire zone and an escape route in a three-dimensional image of the building as an example.

It is a matter of course that the identification numbers such as the telephone number and the ID of the personal portable terminal 170 are input to the management server 130 in advance. In addition, the personal portable terminal 170 is configured to be able to communicate with the wireless communication module 120 and to receive and display fire escape information. Alternatively, the shortest escape path and the evacuation method guide may be configured to display a web page, and a URL (uniform resource locator) for accessing the web page may be transmitted through a short message (SMS).

In addition, the escape route is also guided through the evacuation indicator light 180.

The structural fire information includes the escape fire information. The management server 130 not only grasps the location of the personal portable terminal 170 through the wireless communication module 120, but also controls the operation of the sensor unit 110 Since the position of people is detected through a detection sensor (not shown) and applied to the three-dimensional model data of the building, the position of the people trapped in the fire is displayed on the three-dimensional image of the building To be able to do.

In addition, the route to enter the point where the people are trapped is displayed on the three-dimensional image, and the entry information is selected based on the building information model considering the absence of the building. The escape route uses the escape fire information.

Since the management server 130 is configured to communicate with the wireless hub 140, the structural fire information can be transmitted to the control server 150 through a communication network such as the Internet. In addition, since the structural fire information is transmitted to the control server 160, the control agency can positively cope with it.

The supervisory terminal 150 is a terminal capable of receiving the structural fire information through a communication network such as the Internet.

Each configuration of the present invention is configured to select and apply a communication network such as the Internet network, ZigBee, and BlueTooth. That is, communication between the management server 130, the personal portable terminal 170, the evacuation indicator light 180, and the sensor unit 110 in the building can be performed through a local area network such as ZigBee, Bluetooth, And communication is possible between the management server 130, the control server 160 and the control server 150 via the Internet.

A fire response method using building modeling data using the fire detection system 100 will be described below.

A fire detection step in which the management server 130 receives a fire signal from the sensor unit 110 is performed. At this time, the fire signal is received through the wireless communication module 120 connected to the sensor unit 110.

After the fire detection step, an operation step is performed in which the management server 130 calculates the escape fire information and the structural fire information. At this time, the management server 130 uses the three-dimensional model data of the building, specifically, building information modeling (BIM) data.

And transmitting the fire information for escape to the personal portable terminal (170) and transmitting the structural fire information to the control server (150) after the calculating step. At this time, escape fire information is transmitted to the personal portable terminal 170 through the wireless communication module 120, and structured fire information is transmitted to the control station terminal 150 through the wireless hub 140. Then, electricity is applied to the evacuation indicator light 180 provided in the shortest escape route included in the escape fire information to guide the escape route.

According to the present invention, since escape routes are provided to people trapped in a fire scene inside a building, it is possible to quickly evacuate at the early stage of a fire, thereby efficiently saving lives and, when a fire occurs, The fire signal and the structural fire information are directly transmitted to the wireless terminal 150, so that rapid response is possible. In addition, it provides effective fire suppression and rescue structure by providing access roads and escape routes that can effectively reach the people who are trapped and the number of people trapped in the fire area, Even if you do not make a request, you can send the number of the confined people and the confined location to the control station, which has the advantage of efficient fire suppression and life saving.

The embodiments and the accompanying drawings described in the present specification are merely illustrative of some of the technical ideas included in the present invention. Therefore, it is to be understood that the embodiments disclosed herein are not for purposes of limiting the technical idea of the present invention, but are intended to be illustrative, and therefore, the scope of the technical idea of the present invention is not limited by these embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100; Fire detection system using building modeling data base
120: wireless communication module 130: management server
140: Wireless hub 150:
160: control server 170: personal portable terminal
180: Refuge indicator

Claims (8)

A sensor unit 110 configured to be installed in a building to detect a fire,
A management server 130 configured to receive a fire signal through the sensor unit 110 and to calculate fire information for escape fire,
And a personal digital assistant (170) configured to communicate with the management server (130) and configured to receive the escape fire information,
The management server 130 stores the three-dimensional model data of the building as a database,
The escape fire information is the shortest escape route calculated through the fire zone sensed through the sensor unit 110 and the three-dimensional model data of the building in the building,
Wherein the shortest escape route is characterized in that the physical property of each member constituting the building is grasped from the three-dimensional model data of the building, and a path which is more difficult for the flame to spread among the plurality of routes is selected according to the physical properties of the member Fire detection system using building modeling data. The method according to claim 1,
The management server 130 is configured to receive a fire signal through the sensor unit 110 and calculate and transmit structural fire information,
And a control unit (150) connected to the management server (130) for receiving the structural fire information,
The structural fire information includes a point where a survivor is sensed through communication between the fire zone sensed through the sensor unit 110 and the personal portable terminal 170 in the building and an entry path and exit And a fire detection system using building modeling data. 3. The method according to claim 1 or 2,
The management server 130 is provided with a three-dimensional model data of the building as a database,
And fire information for escape is calculated using the three-dimensional model database of the building. The method of claim 3,
Wherein the fire detection system is configured to calculate structural fire information using a three-dimensional model database of the building. The method of claim 3,
Wherein the three-dimensional model data of the building is building information modeling (BIM) data. delete 3. The method according to claim 1 or 2,
An evacuation indicator lamp 180 provided in a evacuation passage of the building,
Wherein the management server (130) is configured to receive a fire signal through the sensor unit (110) and to apply electricity to the evacuation indicator (180) installed in the shortest escape route. . As a fire countermeasure method using building modeling data,
A fire detection step in which the management server 130 receives a fire signal from the sensor unit 110 installed in the building,
An operation step in which the management server (130) calculates escape fire information and structural fire information after the fire detection step;
And a transmitting step of transmitting fire information for escape to the personal portable terminal (170) and transmitting the structural fire information to the control terminal (150) after the calculating step,
The escape fire information is the shortest escape route calculated through the fire zone sensed through the sensor unit 110 and the three-dimensional model data of the building, and the shortest escape route is a route from the three- Wherein a path of a fire path which is more difficult to spread out of a plurality of paths is selected in accordance with physical properties of constituent members,

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