KR20140022494A - System and method for guiding disaster - Google Patents

Abstract

The present invention relates to a disaster guiding system and method and comprises multiple disaster guiding devices which are installed on various sites of a structure and sense the generation of a disaster and guide handling information when the disaster is generated. The multiple disaster guiding devices are installed on different locations of the structure and guide the handling information based on data which is stored in advance. The multiple disaster guiding devices guide the handling information based on different data. [Reference numerals] (AA) If disaster generation is sensed in C, a code of conduct in which people at A positions should do is automatically guided; (BB) If disaster generation is sensed in C, a code of conduct in which people at A positions should do is guided; (CC) C senses the disaster generation

Description

[0001] SYSTEM AND METHOD FOR GUIDING DISASTER [0002]

The present invention relates to a disaster guidance system and method, and more particularly, to a system and method for disaster relief information, in which disaster information devices are optimized at a location where they are installed, And to a disaster information system and method that can be used.

The disaster guidance system is a system for guiding the disaster occurrence information and response information to people inside and outside the building in case of a disaster such as a fire or a gas leak in the building.

Such a disaster guidance system conventionally operates by operating an output unit (bell) based on information received from a situation occurrence point, or recording basic information on the evacuation and broadcasting it collectively through broadcasting facilities and other devices , Which made it difficult to provide optimized response information to those who were in a specific location in the building where the disaster occurred.

In addition, since the conventional disaster guidance system identifies only the type of disaster (fire or the like) and automatically guides the response information even if the location where the disaster occurred in the building differs, the optimized information suitable for the situation is provided Was difficult. In other words, since the response information is guided only by a previously set guideline (voice, route display, etc.) without automatically considering the location where the disaster occurred, depending on the situation, There was also a danger to be able to do.

In the conventional disaster guidance system, since the disaster guidance device is collectively controlled by one main control module, when the connection with the main control module is broken according to the disaster occurrence situation, There was a problem that it was paralyzed collectively.

Therefore, it is required to develop a new conceptual disaster guidance system that can solve the problems of the conventional disaster guidance system.

The present invention has been made in order to satisfy the above-mentioned technical requirements, and it is an object of the present invention to solve the above problems and to provide a technique which can not be easily developed by those skilled in the art.

KR 2005-0099662 A

The disaster guidance system and method according to the present invention are capable of automatically and independently guiding action information optimized at each position of a building in the event of a disaster situation.

In addition, the system and method for disaster guidance according to the present invention take into consideration both the position where the disaster guidance apparatus is installed and the location where the disaster occurred, .

According to another aspect of the present invention, there is provided a disaster information system and method, wherein a system is not paralyzed even when a connection to a main control module is lost.

According to an aspect of the present invention, there is provided a disaster information system, comprising: a plurality of disaster information systems installed in various locations of a building to detect occurrence of a disaster, Wherein the plurality of disaster guidance devices are installed at different positions of the building and guide coping information based on previously stored data, and the different disaster guidance devices are provided with different data And the coping information is guided to the copier.

The disaster guidance system according to an embodiment of the present invention is characterized in that the disaster guidance apparatus guides different response information depending on a location where a disaster is detected.

The disaster guidance system according to an embodiment of the present invention is characterized in that the disaster guidance apparatus receives the identification information of the disaster guidance apparatus that sensed the disaster and stores data matched with the identification information received among the previously stored data And extracts the extracted data, and then guides the response information based on the extracted data.

According to another aspect of the present invention, there is provided a disaster guidance system, comprising: a detection module for detecting occurrence of a disaster; And a guidance module for guiding the coping information suitable for the disaster situation when a disaster occurs.

The disaster guidance system according to an embodiment of the present invention is characterized in that the plurality of disaster guidance devices are connected to a layered control module provided for each layer of the building and operate according to the control of the layered control module do.

According to another aspect of the present invention, there is provided an emergency disaster information system, comprising: a communication unit for transmitting and receiving signals; A storage unit for storing situation-specific response information data of each connected disaster information device; And a controller for controlling operations of the communication unit, the storage unit, and the connected disaster information devices.

The disaster information system according to an embodiment of the present invention is characterized in that the layered control module is connected to the main control module and can be integrally controlled.

The emergency management system according to an embodiment of the present invention may further include an emergency power source unit for independently supplying power even when the layered control module is disconnected from the main control module .

The disaster information system according to an embodiment of the present invention is characterized in that the layered control module can be wirelessly connected to an external terminal through the communication unit and remotely controlled through a signal transmitted from the external terminal .

In addition, the disaster guidance system according to an embodiment of the present invention, the guide module is characterized in that the speaker device.

According to another aspect of the present invention, there is provided a disaster guidance system, comprising: a communication unit for transmitting and receiving signals; A storage unit storing a plurality of situation-specific response information data according to a disaster occurrence location; A power supply unit for supplying power; And a control unit for controlling operations of the communication unit, the storage unit, the power unit, the detection module, and the guide module.

The disaster guidance system according to an embodiment of the present invention is characterized in that the disaster guidance apparatus can be wirelessly connected to an external terminal through the communication unit and remotely controlled through a signal transmitted from the external terminal .

According to another aspect of the present invention, there is provided a disaster guidance method comprising: (a) detecting disaster by one of a plurality of disaster guidance devices installed on a building; (b) identifying a disaster guidance apparatus in which the plurality of disaster guidance apparatuses have detected a disaster; And (c) the plurality of disaster guidance apparatuses guide different response information based on the information of the identified disaster guidance apparatus.

Also, in the disaster guidance method according to an embodiment of the present invention, in the step (c), the plurality of guide apparatuses guide coping information based on previously stored data, and different disaster guidance apparatuses transmit different data And the action information is guided on the basis of the action information.

In addition, the disaster guidance method according to an embodiment of the present invention is characterized in that, in the step (c), the guide device guides different response information depending on the position where the occurrence of a disaster is detected.

According to another aspect of the present invention, there is provided a disaster guidance method, wherein, in step (b), each disaster guidance apparatus receives identification information of a disaster guidance apparatus that sensed a disaster, In the step (c), the disaster information guidance device extracts data that matches the identification information received from the previously stored data, and then guides the response information based on the extracted data.

The disaster guidance method according to an embodiment of the present invention is characterized in that, in the step (a), the disaster guidance apparatus detects fire or gas leakage.

The disaster guidance system and method according to an embodiment of the present invention can independently guide optimized response information at each position of a building when a disaster situation occurs. That is, instead of guiding the same action information at every position of the building, it is possible to independently guide different action information specialized for each position.

In addition, the system and method for disaster information according to an embodiment of the present invention can independently guide different action information at different positions, and can guide different action information according to a position where a disaster occurs at the same position.

In addition, even if the connection to the main control module is lost during a disaster, the disaster information system and method according to an embodiment of the present invention can continuously guide the response information to each floor without paralysis of the entire system .

The disaster information system and method according to an embodiment of the present invention can be controlled by an external terminal connected to a terminal outside the system. Accordingly, not only automatic guidance based on previously stored data, but also guidance of real-time handling information through an external terminal can be made possible.

1 to 3 are conceptual diagrams illustrating a disaster guidance system according to an embodiment of the present invention.
4 to 5 are views showing a configuration of a disaster guidance system according to another embodiment of the present invention.
6 is a diagram illustrating a configuration of a disaster guidance system according to another embodiment of the present invention.
7 is a view for explaining a disaster guidance method according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. The embodiments are provided so that those skilled in the art can easily understand the technical spirit of the present invention, and thus the present invention is not limited thereto. In addition, the matters described in the attached drawings may be different from those actually implemented by the schematic drawings to easily describe the embodiments of the present invention.

On the other hand, the expression "comprising" some components, as an "open representation" simply refers to the presence of the components, and should not be understood as excluding additional components.

Hereinafter, a disaster guidance system according to an embodiment of the present invention will be described with reference to FIG. 1 to FIG.

Referring to FIG. 1, the disaster guidance system according to an embodiment of the present invention may include a plurality of disaster guidance devices installed in a building.

Preferably, the plurality of disaster guidance devices are installed at different positions inside the building.

In addition, the plurality of disaster guidance devices include a disaster detection sensor such as a fire detection sensor or a gas leakage detection sensor, and can detect occurrence of a disaster in the vicinity, The information module includes a guide module that can transmit information in a visual (for example, a display device), so that the guide module can guide coping information suitable for a disaster occurrence situation.

The plurality of disaster information devices may be connected to each other via wired or wireless communication, and the operations thereof may be collectively controlled through a wired or wireless communication network under the control of a main control module provided in the building It is possible.

Referring to FIGS. 2 and 3, the plurality of disaster guidance devices can be installed at different positions in a building, guide coping information based on previously stored data, and different guide devices can provide different data It is possible to guide different coping information on the basis of the information.

In addition, the plurality of disaster guidance devices can guide different response information depending on the location where the occurrence of the disaster is detected.

Therefore, the plurality of disaster guidance devices can guide different response information according to the change of the location (X variable) where the occurrence of a disaster is detected and the location (Y variable) where the disaster information device is installed, It is possible to automatically guide optimized response information in a situation.

As a result, the plurality of disaster guidance devices installed at different locations (Y variables) guide the response information based on different data, and one disaster guidance device installed at a specific location is also a location ) Of the user.

2 and 3, a disaster guidance system according to an embodiment of the present invention includes a plurality of disaster guidance devices A to F, and the plurality of disaster guidance devices A to F They are installed at different locations in the building. Also, the response information data for the plurality of disaster guidance devices (A to F) is stored in advance in the storage unit, and the response information data includes a location (X position) of a disaster occurrence and an installation location ), And the like. (The storage unit may be provided independently for each disaster guidance apparatus or may be configured in the form of an integrated storage unit connected to the plurality of disaster guidance apparatuses).

The disaster guidance apparatuses A, B, C, D, E, and F installed on different positions (Y variables) of the building guide different response information based on different response information data, One disaster guidance device (eg, A device) installed at a location may also have different response information depending on where the disaster occurred (X variable) (eg, if A device detects a disaster, / Information on the action of people in vicinity of device A when device B detects a disaster / Information on the actions of people near device A in case device C detects a disaster / D Device detects disaster / ⑤ E If the device senses a disaster, it will respond to people's actions near the device A / ⑥ If the device detects a disaster, .

As shown in FIG. 2, when the C device detects the occurrence of a disaster (fire, gas leakage, etc.), the C device detects the occurrence of a disaster and transmits the disaster occurrence information and its identification information to other devices (Where the transmission of the information data may take place directly between the disaster guidance devices or through an integrated control module). B, D, E, and F devices are transmitted to other A, B, D, E, and F devices, and the other A, B, D, After extracting data that matches the identification information of the C device, the response information is guided based on the extracted data. For example, in the case of the A device, information within its own specific information data (for example, (1) when the A device detects a disaster, and / / ③Counter information of people near device A in case device C detects a disaster / ④Device information of people near device A in case device D detects a disaster / ⑤E device disaster / (6) When the F device detects a disaster, the action information of the persons near the A device is extracted from the data of (3), and then the action information is read based on the data of I will guide you.

Example) A fire occurred on the 20th floor of our building, Central 2011 (where the C device was installed). If you are on the 22nd floor 2010 (location where the A unit is installed), please use the emergency stairs on both sides except for the central stairs to quickly evacuate down. "

On the other hand, after transmitting the information, the C device also extracts data matching its identification information in its own specialized coping information data, and then guides the coping information based on the extracted data.

B, C, D, and E are transmitted to the other A, B, C, D, and E devices, and the identification information of the F device and the disaster occurrence information are transmitted to the other A, , The E devices extract data matching with the identification information of the F device transmitted in their unique information data, and then guide the response information based on the extracted data. For example, in the case of device B, information within its own specific information data (eg, if the device A detects a disaster, the action information of people near the device B / / ③Countermeasure information of people near device B in case device C detects a disaster / ④Deneral information of people near device B in case device detects disaster / ⑤E device disaster / (6) When the F device detects a disaster, the action information of the people in the vicinity of the B device is extracted from the data of (6), and the action information is read based on the data of I will guide you. On the other hand, after transmitting the information, the F device also extracts data matching its identification information in its own specialized response information data, and then guides the response information based on the extracted data.

Hereinafter, a disaster guidance system according to another embodiment of the present invention will be described with reference to FIGS.

4 to 5, the disaster guidance system according to an embodiment of the present invention may include a plurality of disaster guidance apparatuses 100, and the plurality of disaster guidance apparatuses 100 may be grouped by layers Layer control module 200 and can be operated under the control of the layer control module 200. [ In addition, the layer control module 200 may be integrally controlled by the main control module 300. [

Here, the disaster guidance apparatus 100 is connected to the floor control module 200 for the floor where the corresponding apparatus is installed, and operates according to the control of the floor control module 200. 4, the disaster guidance apparatus 100 includes a detection module 110 for detecting occurrence of a disaster, a guidance module 110 for guiding response information suitable for the disaster situation when a disaster occurs 130).

The sensing module 110 senses the occurrence of a disaster such as a fire or a gas leakage, and transmits the sensed information to the connected control module 200. The sensing module 110 may include a sensor device such as a fire sensor or a gas sensor. The sensor module senses whether a disaster occurs. When the disaster occurrence state is detected by the detection module 110, the control module 200 of the stratum 200 recognizes the identification information of the disaster information device 100 including the detection module 110 that detects the disaster occurrence state And transmits the recognized identification information and the disaster detection information to the other floor control modules 200.

The guidance module 130 refers to a configuration that guides disaster response information based on data transmitted from the layer-by-layer control module. The guide module 130 may be configured as an auditory guide device (e.g., a speaker) or a visual guide device (e.g., a display device). In addition, various types of devices Lt; / RTI > Meanwhile, the layer-by-layer control module 200 determines the position of the disaster information apparatus 100 to which data is to be transmitted and the position information of the disaster information apparatus 100 (the identification information of the disaster information device 100 that sensed the occurrence of the disaster, (Identification information of the disaster information apparatus 100 to which data is to be transmitted, Y variable), extracts specific data from the stored data, and transmits the extracted data to the disaster guidance apparatus 100. The disaster guidance apparatus 100 that has received the data through the above process guides the response information using the internal guidance module 130 based on the transmitted data.

The layer-by-layer control module 200 is a device provided for each layer of a building, and is connected to the emergency alert devices 100 installed in the corresponding layer and controls the operation of the emergency alert devices 100 connected thereto. The layer control module 200 is preferably connected to the main control module 300 and can be integrally controlled. The layer control module 200 includes a communication unit 210 for transmitting and receiving signals, An emergency power supply unit 270 for independently supplying power even when the main control module is disconnected from the main control module, a storage unit 230 for storing information data, And a control unit 250 for controlling the entire operations of the image forming apparatus 100. FIG.

The communication unit 210 is a structure for transmitting and receiving signals, and is a structure for exchanging data with another layer control module 200, a main control module 300, or other devices. The communication unit 210 may be a wireless or wired communication device, but may include both a wired communication device and a wireless communication device.

And stores the response information data for each situation of the disaster information apparatus 100 connected to the storage unit 230. Specifically, identification information of the disaster guidance apparatus (position information of the disaster guidance apparatus to which data is to be transmitted, Y variable) associated with the detected position information (identification information of the disaster guidance apparatus that detected the occurrence of the disaster, X variable) And a pool of the response information data according to the change. 4 and 5, the storage unit 230 of the layered control module 200 connected to the A device and the B device includes an A device and a B device which are installed at different positions (Y variables) , And each data contains different response information according to the change (X variable) of occurrence location of the disaster. Specifically, the storage unit 230 stores response information for the A device (for example, ① response information of people in the vicinity of the A device when the A device senses a disaster / ② response when the B device senses a disaster Information on people's actions in the vicinity of the device / information on people's actions in the vicinity of the device A when the device C detects a disaster / information on the actions of people in the vicinity of the device A when the device detects a disaster / Information on the actions of people in the vicinity of device A in case of a disaster, and / or action information of people in vicinity of device A in the event that the device F detects a disaster) ㉠ If the device detects a disaster, 대 If the device detects a disaster, 대 If the device detects a disaster, 대 If the device detects a disaster, Information on coping / If the device detects a disaster, it is the action information of the people near the device B. If the device detects a disaster, the action information of people near the device B / ㉥ If the device detects a disaster, Information of the coping of the people of the user). Meanwhile, the storage unit 230 may store data for various operations of the layered control module 200, in addition to the response information data.

The emergency power supply unit 270 refers to a power supply unit for independently supplying power even when the main control module 300 is disconnected. According to the emergency power supply unit 270, the floor control module 200 can operate independently even when the connection with the main control module 300 is broken according to the occurrence of the disaster, Even if the operation of the main control module 300 is disturbed, the operation of the connected disaster guidance apparatus 100 can be continuously maintained.

The control unit 250 controls the overall operations of the control module 200 including the communication unit 210, the storage unit 230, and the emergency power unit 270. Specifically, it is possible to control the operation of each of the components included in the layer control module 200, and to control the operation of each connected disaster information device 100.

Meanwhile, the layered control module 200 may be connected to an external terminal and controlled remotely. In detail, the layer control module 200 may be connected to an external terminal through the communication unit 210 including a wireless communication device, and may be connected to the disaster guidance device 100). Accordingly, the external terminal can control the connected disaster guidance apparatuses 100 by controlling the layered control module 200. Through the control operation, the disaster information apparatus 100 can receive the response information ex: guided evacuation guidance transmitted in real time from an external terminal). Meanwhile, the external terminal can selectively control the plurality of layered control modules 200 to remotely control each layer. In this case, the external terminal uses the identification information of the layered control module 200, Connection can be made.

Referring to FIG. 4 and FIG. 5, the operation of the disaster information system according to another embodiment of the present invention will be described. When a disaster is detected in the apparatus E of FIG. 4, Recognizes the occurrence of the disaster, and transmits disaster occurrence information and identification information of the E device that detected the disaster to the control module 200 for each floor. Accordingly, the layered control module 200 connected to the A device and the B device can access the A device's response information data in the case where a disaster is detected in the E device and the response information data of the A device in a case where a disaster is detected in the E device , And transmits the data (1) to the device (A) and transfers the data (2) to the device (B). (1) The A device that has received the data from the connected layer control module 200 will guide the response information based on the received data. (2) The B device that receives the data also transmits the response information based on the received data C, D, E, and F devices are similar). Meanwhile, even when the connection to the main control module 300 is disconnected due to the deterioration of the disaster state, the layered control module 200 can operate independently depending on the power of the emergency power supply unit 270, And can be remotely controlled.

Hereinafter, a disaster guidance system according to another embodiment of the present invention will be described with reference to FIG.

Referring to FIG. 6, the disaster guidance system according to another embodiment of the present invention may be configured such that each disaster guidance apparatus 400 is independently controlled without including a floor control module and a main control module have.

Specifically, the disaster guidance apparatus 400 includes a detection module 410 for detecting occurrence of a disaster, a guidance module 420 for guiding response information suitable for the disaster situation when a disaster occurs, A storage unit 440 for storing a plurality of pieces of situation-specific response information data according to a disaster occurrence location, a power source unit 460 for supplying power, a detection module, a guidance module, And a control unit 450 for controlling the configurations of the disaster information apparatus including the communication unit, the storage unit, and the power unit.

The contents of the sensing module 110 and the guidance module 130 may be applied as they are to the sensing module 410 and the guidance module 420. In order to avoid redundant description, a detailed description will be omitted.

The communication unit 430 is a structure for transmitting and receiving signals and is configured to exchange data with other disaster guidance devices 400. Specifically, the communication unit 430 receives the identification information and the disaster occurrence information of the corresponding device from the disaster guidance apparatus 400 that sensed the occurrence of the disaster. If the disaster information is sensed by the communication unit 430, ) To transmit their identification information and disaster occurrence information.

Meanwhile, the communication unit 430 can exchange data with an external terminal. Based on the data exchange, the disaster information device 400 can be remotely controlled by an external terminal. Therefore, through the remote control operation, the disaster guidance apparatus 400 can further guide the response information (ex: guidance for evacuation evacuation delivered from the external terminal in real time) transmitted in real time.

The storage unit 440 stores a plurality of situation-specific response information data according to the disaster occurrence location. The storage unit 440 includes an optimized action information data pool according to the location where the disaster occurred. 6, the storage unit 440 stores information on the actions of people in the vicinity of the device A when the device A detects a disaster, ③ C action information of people near device A when device C detects a disaster, ④ Action information of people near device A when device D detects a disaster, , ⑤ E Action information of people near device A when the device detects a disaster, and ⑥ F If the device detects a disaster, it is optimized for the location where the disaster occurred So that coping information can be guided.

The power supply unit 460 is configured to supply power to the emergency alert device 400. The power supply unit 460 may be configured in various forms such as a battery or the like, and may be independently installed in each emergency guide apparatus 400.

The control unit 450 controls the operation of the sensing module 410, the guidance module 420, the communication unit 430, the storage unit 440, and the power unit 460. Specifically, it means a configuration capable of controlling the operation of each configuration included in the disaster guidance apparatus 400.

Referring to FIG. 6, in operation of the disaster guidance system according to another embodiment of the present invention, a plurality of disaster guidance devices 400 are connected to each other through respective communication units 430, and each disaster guidance device 400 ) Store different pieces of coping information data. If the D device detects the occurrence of a disaster in this state, the D device transmits its own identification information and disaster occurrence information to the other disaster information devices 400, and the other disaster information devices 400 And receives the identification information and the disaster occurrence information of the D device through each of the communication units 430. Among the disaster information devices 400 to which the information is transmitted, the A device is exemplified by the identification information of the D device received in the storage part 440 of the device, and when a disaster is detected in the D device (Operation of B, C, D, E, and F are similar) based on the extracted information data. On the other hand, each disaster guidance apparatus 400 can be remotely controlled by being connected to an external terminal

Hereinafter, a disaster guidance method according to an embodiment of the present invention will be described with reference to FIG.

Referring to FIG. 7, the disaster guidance method according to an embodiment of the present invention may include a step (S10) of installing a plurality of disaster guidance devices on a building.

Here, the detailed description of the disaster guidance apparatus is the same as that shown in the above system category, and a detailed description thereof will be omitted in order to avoid redundant description.

After the step S10, it may include a step S11 of detecting the occurrence of a disaster by one of the plurality of disaster guidance devices installed on the building. Here, the disaster guidance device can detect a disaster through a sensor device such as a fire sensor device or a gas sensor device, and can detect a disaster occurrence state through various devices.

After the step S11, the plurality of disaster guidance devices may include a step S12 of identifying the disaster guidance device that sensed the disaster.

For example, in the step S11, the disaster guidance apparatus that has detected a disaster can transmit its identification information and disaster occurrence information to other disaster guidance apparatuses, and other disaster guidance apparatuses receive the information and detect a disaster occurrence A disaster guidance device can be identified.

After the step S12, the plurality of disaster guidance devices may include a step of guiding different response information based on the information of the identified disaster guidance device.

Here, the plurality of guide devices guide the response information based on the previously stored data, and the different emergency alert devices can guide the response information based on different data.

In addition, the disaster guidance apparatus can guide different response information depending on the position where the occurrence of the disaster was detected.

Each of the disaster information devices may guide the response information based on the extracted data after extracting data that matches the received identification information among the previously stored data.

Meanwhile, the process of guiding the action information included in the step S12 is the same as the contents of the technology discussed above in the system category, and a detailed description thereof will be omitted in order to avoid redundant explanations.

The disaster guidance system and method according to an embodiment of the present invention can independently guide optimized response information at each location of a building in the event of a disaster situation. That is, instead of guiding the same action information at every position of the building, it is possible to independently guide different action information specialized for each position.

In addition, the system and method for disaster information according to an embodiment of the present invention can independently guide different action information at different positions, and can guide different action information according to a position where a disaster occurs at the same position.

In addition, even if the connection to the main control module is lost during a disaster, the disaster information system and method according to an embodiment of the present invention can continuously guide the response information to each floor without paralysis of the entire system .

In addition, the disaster information system and method according to an embodiment of the present invention can be controlled by an external terminal connected to a terminal outside the system. Accordingly, not only automatic guidance based on previously stored data, but also guidance of real-time handling information through an external terminal can be made possible.

The embodiments of the present invention described above are disclosed for the purpose of illustration, and those skilled in the art may make various modifications, changes, and additions within the spirit and scope of the present invention. Changes, changes, and additions should be considered to be within the scope of the claims.

100: disaster guidance device 110: detection module
130: Information module 200: Floor control module
210: communication unit 230: storage unit
250: control unit 270:
300: main control module 400: disaster guidance device
410: Detection module 420: Information module
430: communication unit 440:
450: control unit 460:

Claims (17)

A plurality of disaster guidance devices installed at various positions of the building, detecting the occurrence of a disaster, and guiding action information in case of a disaster;
, ≪ / RTI &
The plurality of disaster guidance devices are installed at different locations of the building, guide the response information based on previously stored data, and different disaster guidance devices guide the response information based on different data. Disaster guidance system characterized by.
The method of claim 1,
The disaster guidance system, the disaster guidance system, characterized in that to guide different handling information according to the location where the disaster occurrence is detected.
3. The method of claim 2,
Each of the disaster guidance apparatus receives the identification information of the disaster guidance apparatus that detects the disaster, extracts data matching the received identification information among previously stored data, and then guides the response information based on the extracted data. Disaster guidance system characterized by.
The method of claim 1,
The disaster guidance apparatus comprises:
A detection module for detecting whether a disaster occurs; And
A guide module for guiding coping information appropriate to a disaster situation when a disaster occurs;
Disaster guidance system, comprising a.
5. The method of claim 4,
The plurality of disaster guidance device,
Disaster guidance system, characterized in that connected to the floor-specific control module provided for each floor of the building, and operating under the control of the floor-specific control module.
The method of claim 5, wherein
The floor control module,
A communication unit for transmitting and receiving signals;
A storage unit which stores situation-specific response information data of each connected disaster guidance device; And
A control unit for controlling an operation of the communication unit, the storage unit, and each of the disaster guidance devices connected thereto;
Disaster guidance system, comprising a.
The method of claim 5, wherein
The floor control module is connected to the main control module, characterized in that can be integrated control.
The method of claim 7, wherein
The floor control module,
An emergency power supply unit for supplying power independently even when the main control module is disconnected;
The disaster information system further comprising:
The method of claim 8,
The floor control module,
And can be wirelessly connected to an external terminal through the communication unit,
Wherein the disaster information system can be remotely controlled through a signal transmitted from the external terminal.
5. The method of claim 4,
The guide module is a disaster guidance system, characterized in that the speaker device.
5. The method of claim 4,
The disaster guidance apparatus comprises:
A communication unit for transmitting and receiving signals;
A storage unit for storing a plurality of situation-specific response information data according to a disaster occurrence location;
A power supply for supplying power; And
A controller for controlling operations of the communication unit, the storage unit, the power unit, the detection module, and the guide module;
The disaster information system further comprising:
The method of claim 11,
The disaster guidance apparatus comprises:
And can be wirelessly connected to an external terminal through the communication unit,
Wherein the disaster information system can be remotely controlled through a signal transmitted from the external terminal.
(a) detecting a disaster by one of the plurality of disaster guidance devices installed on the building;
(b) identifying a disaster guidance apparatus in which the plurality of disaster guidance apparatuses have detected a disaster; And
(c) guiding different response information based on the information of the disaster guidance apparatuses identified by the plurality of disaster guidance apparatuses;
Disaster guidance method comprising a.
The method of claim 13,
In the step (c), the plurality of guide devices, guide the response information on the basis of previously stored data, different disaster guidance device, characterized in that guide the response information based on the different data, disaster guidance Way.
15. The method of claim 14,
In the step (c), the guide device, characterized in that guide the different response information according to the location where the occurrence of the disaster, disaster guidance method.
15. The method of claim 14,
In the step (b), each of the disaster guidance devices receives the identification information of the disaster guidance apparatus that sensed the disaster, identifies the disaster guidance apparatus that sensed the disaster,
Wherein each of the disaster information devices in the step (c) extracts data that matches the identification information received from the previously stored data, and then guides the response information based on the extracted data.
The method of claim 13,
Wherein, in the step (a), the disaster guidance apparatus detects a fire or gas leakage.

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