KR101399475B1 - Unmanned fire control system of realtime smart type - Google Patents

Abstract

The present invention relates to a real-time smart unmanned fire control system which monitors fire occurrence information, detects fire, and analyzes fire information and situation information in real time by interworking with various fire detection receivers; notifies relevant agencies such as a police station and a fire station and a management personnel of the location of a site and detail information about a condition; and increases the temperature around a sprinkler head in case of fire by interworking various sprinkler heads so as to immediately extinguish the fire.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a real-

FIELD OF THE INVENTION The present invention relates to a real-time smart type unmanned fire control system, and more particularly, to a system and method for real-time smart unmanned fire control system in which a fire detection information, a fire detection, a fire information and a situation information are analyzed in real- A real time smart type unmanned fire control system which notifies real-time to relevant organizations such as a police station, a fire department, and an operation staff and interlocks with various sprinkler heads to rapidly raise the ambient temperature of the sprinkler head in case of a fire so that immediate fire suppression can be achieved.

Generally, there is a mandatory installation of an alarm system in the building to notify it of a fire. Here, the alarm system equipment is an equipment that issues alarms for situations such as automatic fire detection equipment, accumulators of emergency alarm facilities, fire alarm equipment, leak alarms, gas leakage alarms, etc., in case of occurrence of fire or occurrence of fire.

Among them, the automatic fire detection system is a facility that automatically detects the occurrence of a fire and informs the persons concerned about the fire occurrence of the object to be fire-extinguished, including a sensor, a transmitter, a receiver (fire detection receiver), and a sound device .

The receiver (fire detection receiver) receives the fire signal emitted from the detector or the transmitter or the gas leakage signal emitted from the detector directly from the automatic fire detection equipment or receives it as a common signal through the repeater to alert the person concerned of the fire object to the fire P type receivers, R type receivers, M type receivers, GP type receivers, and GR type receivers.

Among them, the P-type receiver receives a signal (fire signal or gas leakage signal) emitted from a detector or an originator as a common signal directly or through a repeater, and alerts the person concerned with the fire to the occurrence of a fire. These P-type receivers are classified into a 10-story small-scale building, a small-scale neighborhood, a small-scale building, It is suitable for buildings, apartments, small factories, etc., and it is inexpensive compared to R type, and additional cost is incurred when the expansion is made, and it is difficult to construct, remote monitoring function and self diagnosis function are not provided and maintenance is difficult.

The R-type receiver receives a signal from a detector or a transmitter directly or through a repeater as a unique signal, and alerts the person concerned about the occurrence of a fire to the subject of the fire. Such an R-type receiver has a function of selecting and receiving signals of 100 repeaters with two signal lines, a super high-rise structure in which the voltage drop and the number of trunk lines are greatly increased because signal transmission is reliable, It is suitable for buildings, large apartments, and large factories. However, when performing the operation confirmation on the facility, the confirmation contact of each facility is operated and receives an electrical signal to the relay device having the address ADDRESS, converts it into a communication signal and transmits it to the receiver, The receiver recognizes the address of the receiver and displays each corresponding facility on the monitor of the receiver as a factor and the receiver transmits the communication signal to the graphic panel again so that a separate graphic panel There is a problem that an expensive additional cost is incurred.

In addition, even if a large number of fire detectors (fire detectors) are installed inside and outside a building where fire fighting facilities are installed, mutual communication between these receivers (fire detection receivers) is impossible and rapid fire information can not be transmitted to building users. The first occurrence time and the place of occurrence are not transmitted.

Recently, the tendency of the structure of buildings to become deeper and deeper in depth due to the tendency of the depth of beam of buildings to become deeper and deeper, and various sprinkler heads have been installed for fire extinguishing purposes near the beam. , When the ambient temperature set in the sprinkler head is reached, the charged liquid (digestive liquid) expands and starts spraying.

However, conventionally, when one sprinkler head starts sprinkling, the sprinkler head of the group to which the sprinkler head belongs is installed to start spraying at a time, resulting in secondary damage due to the digestive fluids.

As described above, in the related art, the sprinkler head of each group bursts together with the accurate fire occurrence position member, resulting in an inefficient surface, and when the fire occurs, the sprinkler head does not fire until the temperature reaches the set ambient temperature, There is a possibility that property damage and casualty damage are likely to occur, and when an aged sprinkler facility is not operated in case of fire, large damage is expected.

Korean Patent Publication No. 2008-55591

The present invention has been devised to solve the above-described problems, and it is an object of the present invention to provide a fire alarm system, a fire alarm system, And real time smart type unattended fire control system that notifies detailed information to relevant agencies such as police stations, fire departments, and management personnel in real time so that immediate fire suppression can be achieved.

Another object of the present invention is to provide a real-time image and fire occurrence information to a terminal of a responsible person of a related organization such as a police station or a fire station and a person in charge of operation in case of the absence of an operation person in cooperation with an IP camera and a fire control application, Real-time smart type unmanned fire control system that minimizes property damage and personal injury.

It is another object of the present invention to provide a real-time smart type unmanned fire control system for rapidly increasing the temperature of a sprinkler head to enable rapid fire suppression.

According to an embodiment of the present invention, there is provided a real-time smart type unmanned fire control system including: an unmanned fire control system for receiving a fire detection signal output from a fire detection receiver installed; An unattended fire extinguishing system that rapidly increases the ambient temperature of the installed sprinkler head; And an unattended fire extinguishing system installed at a fire occurrence position to increase the ambient temperature of the sprinkler head and to increase the IP And an unmanned fire control server capable of notifying a user of malfunctioning of the splicing facility and various kinds of fire information in real time in cooperation with a camera and a terminal equipped with a fire control application.

According to the real-time smart type unmanned fire control system of the present invention, even if expensive equipment or a separate fire control center is not operated, it can be easily installed and operated if only a pre-installed fire detection receiver is installed. And alarm notifications to not only relevant agencies such as police stations and fire departments, but also management personnel to promptly suppress precise fire, thereby minimizing loss of life and property, and upgrading existing fire control system at low cost.

In addition, real-time video and fire occurrence information is notified to the terminals of the responsible persons of the related agencies such as the police station and the fire department, and the information of fire occurrence in cooperation with the IP camera and the fire control application, Damage to other property, and personal injury.

In addition, it is possible to accurately confirm whether or not malfunction of sprinkler equipment installed in advance in cooperation with an IP camera or the like, and to easily grasp the occurrence of fire, the place and time of occurrence, etc. in real time.

In addition, the temperature of the sprinkler head is rapidly increased to enable quick fire suppression.

In addition, it is possible to monitor, analyze, and control buildings with real-time smart unmanned fire control system using an Ethernet network or mobile communication network through an unmanned fire control server. Through the unmanned fire control server, It is possible to prevent the occurrence of fire by analyzing the expected area of fire by analyzing the cause of the fire and the vulnerable area in future by analyzing the database.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a configuration of a real-time smart type unmanned fire control system according to an embodiment of the present invention; FIG.
BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to an unmanned fire control system,
3 is a view schematically showing a configuration of an unmanned fire extinguishing apparatus according to the present invention.
4 is a view schematically showing the configuration of an unmanned fire control server applied to the present invention.

Hereinafter, a real-time smart unmanned fire control system according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic view showing a configuration of a real-time smart type unmanned fire control system according to an embodiment of the present invention.

The real time smart type unmanned fire control system according to an embodiment of the present invention includes an unmanned fire control system 100, an unattended fire extinguishing system 200, an IP camera 300, an unmanned fire control server 400, a terminal 500, And the like.

In this configuration, the unmanned fire control system 100 receives a fire detection signal output from the fire detection receiver 10 installed in the building, and transmits the received fire detection signal to the unmanned fire control server 100 via the wired / (400).

The fire detection receiver 10 is connected to the respective detectors (for example, a heat detector, a smoke detector, a gas detector, a flame detector, an air quality sensor, etc.) (Hereinafter, referred to as 'fire detection signal'), and outputs the received fire detection signal to the unmanned fire control system 100 connected to the fire detection receiver 10.

The unmanned fire control system 100 is preferably provided with the same number of lines as the lines provided in the fire detection receiver 10 and one-to-one connection with the lines provided in the fire detection receiver 10.

In this way, the unmanned fire control system 100 connected to the fire detection receiver 10 is connected to the fire detection receiver 10 by a unique line identification number (for example, For example, the line identification number assigned to the line connected to the detector installed in the first floor A area is 0001, the line identification number assigned to the line connected to the detector installed in the first floor B area is 0002, The circuit identification number assigned to the line connected to the detector installed in the first floor C zone is 0003, etc.), and when a fire detection signal is received from the fire detection receiver 10, Checks the line to identify the line identification number, and transmits the line identification number included in the fire detection signal to the unmanned fire control server 400 through the wired / wireless communication network.

In addition, the unmanned fire control system 100 detects a malfunction of the fire detection receiver 10 connected to the line, detects a disconnection with the fire detection receiver 10, and transmits the detected failure to the unmanned fire control server 400 ).

On the other hand, the unmanned fire extinguishing system 200 quickly raises the ambient temperature of the sprinkler head 20 under its control based on the control command received from the unmanned fire control server 400.

The IP camera 300 is installed in the vicinity of the unmanned fire extinguishing system 200 and acquires an image of a place where the unmanned fire extinguishing system 200 is installed and transmits the acquired image to the unmanned fire control server 400 through the wired / do.

The unmanned fire control server 400 receives the location information of the line identification information (for example, the line identification information 0001 is a first floor area A, 0002 is a first floor area B, 0003 is a first floor area C, ..., And the identification information on the unmanned fire extinguishing device 200 installed in each location is stored and managed. When the fire detection signal is received from the unmanned fire control device 100 through the wired / wireless communication network, Recognizes the fire occurrence position on the basis of the line identification information included in the received fire detection signal, transmits a control command to the unmanned fire extinguishing system 200 installed at the detected fire occurrence position, The ambient temperature of the sprinkler head 20 is increased.

Here, the location information corresponding to each line identification information is coincident with the installation position of the detector and the transmitter connected for each line.

When the unmanned fire control server 400 detects the occurrence of a fire based on the fire detection signal received from the unmanned fire control apparatus 100, the unmanned fire control server 400 alerts the building user of the occurrence of the fire by using an alarm or the like, A text message informing the occurrence of the fire is transmitted to the terminal 500 of the person in charge of the related organization such as the fire station and the operation person in charge.

In addition, the unmanned fire control server 400 transmits the moving image secured through the IP camera 300 to the terminal 500.

The terminal 500 is a terminal possessed by a person in charge of a relevant organization such as a police station or a fire station and a person in charge of operation and has a fire control application installed therein. The terminal 500 receives various kinds of information from the unmanned fire control server 400 through the fire control application Fire occurrence information, event information, video, and the like.

The terminal 500 may be implemented as a smart phone, a tablet PC, or the like.

FIG. 2 is a schematic view of a configuration of an unmanned fire control apparatus according to the present invention. The power supply unit 110, the charging unit 120, the signal receiving unit 130, the main control unit 140, the wired / wireless communication unit 150, And a status display unit 160. In addition, it may further include an RS485 communication unit 170.

In this configuration, the power supply unit 110 receives power from the fire detection receiver 10 installed in the building, and supplies power to the units 120 to 170 of the unmanned fire control system 100 .

The charging unit 120 charges the battery with the power supplied from the power supply unit 110. [

The signal receiving unit 130 receives a fire detection signal output from the fire detection receiver 10.

The signal receiving unit 130 includes the same number of lines as those provided in the fire detection receiver 10, and each line is connected to the line provided in the fire detection receiver 10 in a one-to-one correspondence.

The main control unit 140 controls the signal reception unit 130 to identify a fire detection signal received from the fire detection receiver 10 by using a unique line identification number for each line (for example, The line identification number assigned to the line connected to the detector is 0001, the line identification number assigned to the line connected to the detector installed on the first floor B zone is 0002, When a fire detection signal is received from the fire detection receiver 10 through the signal receiving unit 130, the line identification number assigned to the line on which the fire detection signal is received Identifies the line identification number, and transmits it to the unmanned fire control server 400 through the wired / wireless communication unit 150, including the line identification number identified in the fire detection signal.

The wired / wireless communication unit 150 transmits a fire detection signal to the unmanned fire control server 400 to which the line identification information is given by the main control unit 140.

The status display unit 160 displays the operation status of the unmanned fire control system 100 under the control of the main control unit 140. [

The unmanned fire control system 100 may further include an RS485 communication unit 170. The RS485 communication unit 170 may include an R type fire detection receiver 10, and when the R-type fire detection receiver 10 is installed in the building, the fire detection receiver 10 is connected through the RS485 communication unit 170. [ In addition, the RS485 communication unit 170 is responsible for communication with a sensor that outputs sensing and measurement values in the RS485 communication standard.

FIG. 3 is a schematic view of a configuration of an unattended fire extinguishing apparatus according to the present invention, which includes a ceramic connector 210, a temperature sensor unit 220, and a control terminal 230.

In such a configuration, the ceramic connector 210 is realized to be coupled with the sprinkler head 20 installed in the building, and a heating coil is built in the ceramic connector 210.

The ceramic connector 210 receives power from the control terminal 230 and heats the heating coil to quickly raise the ambient temperature of the sprinkler head 20 so that the low temperature melt or the temperature inflating gas of the sprinkler head 20 is filled The appropriate temperature of the glass ampule is rapidly increased so that the fire suppression can be performed in a short time.

The temperature sensor unit 220 is installed around the sprinkler head 20 to sense the ambient temperature of the sprinkler head 20.

The control terminal 230 applies power to the ceramic connector 210 according to a control command received from the unmanned fire control server 400 through the wired / wireless communication network to rapidly increase the ambient temperature of the sprinkler head 20, A control unit 233, and a power supply unit 235, as shown in FIG.

Here, the wired / wireless communication unit 231 communicates with the unmanned fire control server 400 through the wired / wireless communication network, and receives the control command from the unmanned fire control server 400 and applies the control command to the controller 233.

The control unit 233 applies power to the ceramic connector 210 according to the control command received from the unmanned fire control server 400 and controls the ambient temperature of the sprinkler head 20 sensed through the temperature sensor unit 220 When the temperature is reached, the power applied to the ceramic connector 210 is cut off.

The power supply unit 235 supplies power to the ceramic connector 210 and the temperature sensor unit 220 under the control of the controller 233.

FIG. 4 is a schematic view of a configuration of an unmanned fire control server according to the present invention, and includes a wired / wireless communication unit 410, a location information database 420, a contact person information database 430, an unattended fire control management unit 440, A fire extinguishing apparatus management unit 450, a moving image management unit 460, and a character transmission unit 470.

In this configuration, the wired / wireless communication unit 410 is in charge of communication with the unmanned fire control system 100, the unmanned fire extinguishing system 200, the IP camera 300 and the like through a wired / wireless communication network.

The location information database 420 includes location information for each line identification information (for example, the line identification information 0001 is a first floor A zone, 0002 is a first floor B zone, 0003 is a first floor C zone, Etc.) and identification information for the unmanned fire extinguishing system 200 installed at each location.

The person in charge information database 430 stores information (for example, a fire occurrence notification message, a telephone number of a terminal to receive a fire alarm, a moving picture, etc.) of a person in charge of notifying a fire occurrence, ).

When receiving the fire detection signal from the unmanned fire control apparatus 100 through the wired / wireless communication network, the unmanned fire control management unit 440 determines whether or not a fire has occurred based on the received fire detection signal, The location information database 420 is searched with the line identification information included in the fire detection signal and the fire occurrence location (for example, the third floor area B) is detected, and a fire alarm is alerted to the building user using an alarm A text message (for example, a text message) indicating a real-time information item (for example, a fire occurrence time, a place and a location, etc.) of a fire is given to a person in charge of a relevant authority such as a control room operator, a police station, For example, 2:10 pm △ Δ Fire on 3rd floor B zone).

As described above, when the fire occurrence position is confirmed, the unmanned fire control management unit 440 controls the IP camera 300 installed at the position where the fire occurrence is detected in cooperation with the video management unit 460, , And the secured video is output to the monitor so that the operator can monitor the situation of the place where the fire occurred.

In addition, the unmanned fire control management unit 440 displays a fire occurrence location on a drawing or an actual screen of the building according to a request of a person in charge of operation, and outputs it to a monitor.

In addition, the unmanned fire control management unit 440 receives not only a fire detection signal from the unmanned fire control apparatus 100 but also various event signals such as a link disconnection with a fire detection receiver, a fire detection receiver diagnosis request, The unmanned fire control management unit 440 receives various event signals, and in response to a signal received from the unmanned fire control apparatus 100, interlocks with the character transmission unit 470 to inform the control room operation person of the occurrence of a fire, a disconnection of a link, And manages various signals received from the unmanned fire control system 100 in the form of a DB.

The unmanned fire extinguishing system management unit 450 manages the unmanned fire extinguishing system 200 installed in the fire occurrence position (for example, the third floor B zone) through the unmanned fire control management unit 440, ).

The moving image management unit 460 outputs moving images acquired through the IP camera 300 installed in the vicinity of the unmanned fire extinguishing apparatus 200 to the monitor in cooperation with the unmanned fire control management unit 440, To the terminal 500 of the person in charge of installing the fire control application.

As described above, the operator in charge of the operation can directly confirm the situation of the fire scene and can confirm whether the sprinkler head 20 is operating or not through the moving picture secured through the IP camera 300.

The character transmitting unit 470 transmits a text message informing a responsible person of the control room operation manager, a police station, a fire department, etc., of the real time information about the fire through the mobile communication network in cooperation with the unmanned fire control managing unit 440, Link disconnection, and fire detection receiver diagnostic request.

Hereinafter, the operation of the real-time smart unmanned fire control system having the configuration as described above will be described.

First, when the unmanned fire control apparatus 100 receives a fire detection signal from the fire detection receiver 10 connected to the line, the fire detection signal includes the line identification information attached to the line on which the fire detection signal is received And transmits it to the unmanned fire control server 400 through the wired / wireless communication network.

As described above, the unmanned fire control management unit 440 of the unmanned fire control server 400, which receives the fire detection signal from the unmanned fire control apparatus 100, determines whether a fire has occurred based on the received fire detection signal, As a result of the determination, if a fire is detected, the location information database 420 is searched with the line identification information included in the fire detection signal, and the fire occurrence location (for example, the third floor B area) The user of the building is notified of the occurrence of the fire and the real time information on the fire (for example, the time, place and location of the fire, etc.) is notified to the person in charge of the relevant authority such as the control room operator, police station, (For example, a fire occurs in the B zone on the third floor of the △△ building at 2:10 pm).

At the same time, the unmanned fire control management unit 440 of the unmanned fire control server 400 operates the unmanned fire extinguishing system management unit 450 in cooperation with the unmanned fire extinguishing system management unit 450, And transmits a control command to the fire extinguishing system 200.

As described above, the unmanned fire extinguishing system 200 installed at the fire occurrence position receiving the control command from the unmanned fire control server 400 applies the power to the ceramic connector 210 according to the control command, The applied ceramic connector 210 heats the heating coil to rapidly raise the ambient temperature of the sprinkler head 20 so that the fire suppression can be performed in a short time.

The unmanned fire control management unit 440 of the unmanned fire control server 400 controls the IP camera 300 installed in a position where the fire occurrence is detected in cooperation with the video management unit 460, The video of the place where the fire occurred is obtained and the secured video is outputted to the monitor so that the operator can monitor the situation of the place where the fire occurred and when the person in charge of the operation requests the location of the fire, Or on a real image screen to output to the monitor.

In addition, a moving picture secured through the IP camera 300 may be transmitted to a person in charge of operations, a police station, a fire department, or the like.

The real-time smart type unmanned fire control system of the present invention is not limited to the above-described embodiments, but can be variously modified within the scope of the technical idea of the present invention.

100. Unmanned fire control system, 110, 235. Power supply,
120. Charging unit, 130. Signal receiving unit,
140. Main control unit, 150, 231, 410. Wired / wireless communication unit,
160. Status display section, 170. RS485 communication section,
200. Unmanned fire extinguishing system, 210. Ceramic connector,
220. Temperature sensor unit, 230. Control terminal,
233. Control unit, 300. IP camera,
400. Unmanned fire control server, 420. Location information database,
430. Personnel information database, 440. Unmanned fire control management department,
450. Unmanned fire extinguishing system management section, 460. Video management section,
470. Character transmission unit, 500. Terminal

Claims (10)

An unmanned fire control unit for receiving a fire detection signal output from a previously installed fire detection receiver;
An unattended fire extinguishing system that rapidly increases the ambient temperature of the installed sprinkler head; And
A fire detection unit for detecting a fire occurrence position based on a fire detection signal received from the unmanned fire control apparatus through a wired / wireless communication network, and controlling an unattended fire extinguishing apparatus installed at a fire occurrence position to increase an ambient temperature of the sprinkler head A control server,
Wherein the unmanned fire extinguishing system comprises:
A ceramic connector which is mounted to be able to be coupled to a sprinkler head installed therein and which rapidly increases the ambient temperature of the sprinkler head by a built-in heating coil;
A temperature sensor unit for sensing an ambient temperature of the sprinkler head; And
A communication unit for communicating with the unmanned fire control server; a power supply to the ceramic connector according to a command received from the unmanned fire control server; And a controller for controlling power supplied to the ceramic connector and the temperature sensor unit under the control of the control unit, the control terminal comprising: system.
The real-time smart type unmanned fire control system according to claim 1, further comprising an IP camera installed in the vicinity of the unmanned fire extinguishing system.
3. The system of claim 1 or 2, further comprising a terminal equipped with a fire control application,
The unmanned fire control server transmits a text message informing the occurrence of a fire to the terminal and transmits a video secured by the IP camera to the terminal when the fire is detected. .
The fire fighting apparatus according to claim 1,
A signal receiving unit for receiving a fire detection signal output from the fire detection receiver;
A main control unit for recognizing line information of a fire detection signal received from the fire detection receiver and giving circuit identification information to a fire detection signal based on the detected line information; And
And a wired / wireless communication unit for transmitting a fire detection signal given circuit identification information by the main control unit to the unmanned fire control server.
5. The fire alarm system according to claim 4, further comprising: an RS485 communication unit for communicating with a fire detection receiver that performs communication in the RS485 communication standard among the fire detection receivers and communicating with a sensor for outputting sensed and measured values in an RS485 communication standard Wherein the real-time smart type unmanned fire control system further comprises:
5. The fire detection system according to claim 4, wherein the signal receiving unit includes the same number of lines as the number of turns provided in the fire detection receiver, each line is connected to a line provided in the fire detection receiver,
The main control unit manages the line identification number assigned to each line. When the fire detection signal is received through the signal receiving unit, the main control unit checks which line the fire detection signal is received to identify the line identification number, And the identified line identification number is assigned to the fire detection signal.
delete The fire fighting system according to claim 1,
A wired / wireless communication unit for performing communication with the unmanned fire control apparatus and the unmanned fire extinguishing apparatus;
A location information database storing location information of the line identification information and identification information of the unmanned fire extinguishing system installed at each location;
A personnel information database for managing information on a person to be notified of a fire occurrence;
An unmanned fire control system for notifying a person in charge of a fire when the occurrence of a fire is detected on the basis of a fire detection signal received from the unmanned fire control apparatus and identifying a fire occurrence location based on the line identification information included in the fire detection signal, Management; And
And an unmanned fire extinguishing system management unit for transmitting a control command to the unmanned fire extinguishing system installed at the fire occurrence position.
9. The method of claim 8,
Further comprising a video management unit for outputting a video obtained through an IP camera installed in the vicinity of the unmanned fire extinguishing system to a monitor and transmitting the video to a terminal of a person in charge of installing a fire control application, Smart type unmanned fire control system.
9. The fire fighting system according to claim 8,
And a text transmission unit for transmitting a text message informing a related organization and a person in charge of operation of the occurrence of a fire.

Images