KR102386036B1 - Firefighting monitoring system and method there of - Google Patents

Abstract

The present invention relates to a fire monitoring system and a method thereof. According to the present invention, a fire monitoring system includes: a plurality of heat detection sensors connected to a plurality of contact points formed to be partitioned for each zone; a plurality of CCTVs installed to be partitioned for the each zone; at least one multi-monitor connected to the plurality of CCTVs through a network and displaying images captured by the plurality of CCTVs; at least one NVR (Network Video Recorder) connected to the multi-monitor and storing multiple images displayed by the multi-monitor; at least one firefighting controller connected to a plurality of heat sensors through the plurality of contact points and connected to the NVR; and an operator monitor connected to the fire controller. Therefore, a user may be able to intuitively check whether a fire has occurred.

Description

Fire monitoring system and method therefor

The present invention relates to a fire monitoring system and a method therefor, and more particularly, when an event occurs, it is determined whether the event generated through a plurality of fire controllers is a fire, and the location of the texture-mapped zone and the point where the fire occurred It relates to a fire-fighting monitoring system and method for transmitting fire-related information, including

In general, a monitoring system that monitors a specific place through a plurality of monitoring means and enables countermeasures or post-confirmation when an abnormality is found is used in buildings, industrial sites, places where goods are sold or stored, and expensive goods. This type of detection system is being actively introduced in large-scale apartments and private houses as well.

Such a monitoring system performs a monitoring function in conjunction with an application called a Central Monitoring System (CMS), and the central monitoring system displays images captured through a plurality of monitoring means,

When a specific fire occurs from the images taken by a plurality of monitoring means, it is displayed as text information so that the manager can manually check the fire.

However, when a plurality of monitoring means are connected and a fire occurs from the displayed image, it is difficult to check whether a malfunction occurs, it is difficult to recognize fire-related information with text information at a glance, and the moment of fire occurrence may be missed. Furthermore, there is a problem in that it is very difficult to identify areas and areas closely related to the occurrence of fire.

It is an object of the present invention to solve the above problem, and when an event occurs, it is determined whether the event generated through a plurality of fire controllers is a fire, and includes a texture-mapped zone and the location of the point where the fire occurred. An object of the present invention is to provide a fire monitoring system capable of transmitting fire-related information and a method therefor.

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A fire monitoring system according to the present invention includes a plurality of thermal sensors connected to a plurality of contact points formed to be partitioned for each zone; a plurality of CCTVs installed to be partitioned for each zone; at least one or more multiple monitors connected to the plurality of CCTVs through a network to display images captured by the plurality of CCTVs; at least one NVR (Network Video Recorder) connected to the multiple monitors to store multiple images displayed by the multiple monitors; at least one fire-fighting controller connected to a plurality of thermal sensors through the plurality of contacts and connected to the NVR; and an operator monitor connected to the fire-fighting controller, wherein the fire-fighting controller is connected to the plurality of heat sensors through the plurality of contact points partitioned for each zone, and the contact points of the plurality of heat sensors and the A plurality of CCTVs are matched for each zone and registered, and when the event occurs, a plurality of images captured by a plurality of CCTVs registered in the zone where the event occurred are popped up on the multi-monitor, and the multi-monitor A plurality of pop-up images are drawn into the operator's monitor, and when any one of the plurality of pop-up images drawn into the operator's monitor is clicked by the operator, the clicked image is enlarged, the enlarged When the event generated by the operator is confirmed as a fire through the captured image, a map indicating the entire zone and only the zone in which the texture-mapped fire occurred are displayed alternately, and the texture-mapped zone and the point where the fire occurred Sends fire-related information including the location of fire-related information to preset managers by SMS, and has up to 12 channel heat sensor input per fire controller to cover up to 12 zones by having 1 zone per channel govern. , the input of the thermal sensor over 12 channels is assigned to another fire controller interconnected via an RS-485 cable, the plurality of thermal sensors are connected to the plurality of contacts, and the multiple monitors are connected to the multiple monitors. One NVR is connected per each, and the plurality of contact points are installed separately for each zone, but are connected to converge for each partitioned zone, so that one NVR is formed per zone. In the entire zone, only a specific zone in which the event occurs is texture-mapped.

In addition, the fire monitoring method according to the present invention is connected to a plurality of thermal sensors connected to a plurality of contact points formed to be partitioned for each zone, a plurality of CCTVs installed to be partitioned for each zone, and the plurality of CCTVs and connected through a network. At least one or more multiple monitors for displaying images captured by a plurality of CCTVs, at least one or more NVRs connected to the multiple monitors to store multiple images displayed by the multiple monitors, and sensing a plurality of heat through the plurality of contacts A fire monitoring method by a fire monitoring system including at least one fire controller connected to a sensor and connected to the NVR and USB through a USB, and an operator monitor connected to the fire controller, wherein the plurality of contact points are partitioned for each zone. connecting the plurality of heat sensors and the fire fighting controller through the; registering, by the firefighting controller, the contact points of the plurality of heat sensors and the plurality of CCTVs for each zone; popping up, by the CCTV control unit of the firefighting controller, a plurality of images captured by a plurality of CCTVs registered in the zone where the event occurred, on multiple monitors through a pop-up image generating unit, when an event occurs;
Introducing a plurality of images pop-up on the multi-monitor to the operator monitor by the pop-up image inlet unit of the firefighting controller; When any one of the plurality of images introduced into the operator monitor is clicked by the operator, the step of enlarging the clicked image by the pop-up image enlarger of the firefighting controller; When the event generated by the operator is identified as a fire through the enlarged image, a map indicating the entire zone and only the zone in which the texture-mapped fire occurred are displayed alternately by the map flashing processing unit of the fire-fighting controller making; and transmitting, by the fire-related information transmitting unit of the fire-fighting controller, fire-related information including the texture-mapped zone and the location of a fire point to a manager by SMS, wherein the fire-fighting controller is 1 per channel Up to 12 channels of thermal sensor inputs per one fire controller to cover up to 12 zones, with more than 12 channels of thermal sensor inputs connected to other interconnected via RS-485 cables. Allocated to a fire fighting controller, the plurality of heat sensors are connected to the plurality of contacts, and the multiple monitors are connected to one NVR per multiple monitors, and the plurality of contacts are installed to be partitioned for each zone. By convergingly connected to each zone, one is formed per zone, and only when the event is confirmed, the fire controller performs texture mapping of only a specific zone in which the event occurs in all zones.

As described above, the fire monitoring system and method according to the present invention transmit fire-related information including the texture-mapped zone and the location of the fire point to the manager by SMS when a fire occurs, so that it is intuitive to determine whether a fire has occurred. It has the advantage of being able to confirm.

In addition, there is an advantage that a quick response can be made according to the intuitive confirmation of whether a fire has occurred.

1 is a schematic configuration block diagram of a fire monitoring system according to the present invention.
2 is a schematic diagram of a fire monitoring system according to the present invention.
Fig. 3 is a block diagram of the fire fighting controller of Fig. 1;
4A and 4B are front and rear views of the fire controller of FIG. 3;
5 is a flowchart of a firefighting monitoring method.
6 is an exemplary view of a plurality of pop-up images drawn in by the fire controller according to the present invention.
7 is an enlarged view of the image of FIG.

Hereinafter, a fire monitoring system and method according to the present invention will be described in more detail through detailed description of embodiments with reference to the drawings.

Since the present invention can apply various transformations and can have various embodiments, specific embodiments are illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the present invention, if it is determined that a detailed description of a related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

Terms such as first, second, etc. may be used to describe various elements, but the elements should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present application, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It should be understood that this does not preclude the existence or addition of numbers, steps, operations, components, parts, or combinations thereof.

The present invention may be represented in functional block configurations and various processing steps. These functional blocks may be implemented in any number of hardware and/or software configurations that perform specific functions. For example, the present invention provides integrated circuit configurations, such as memory, processing, logic, look-up table, etc., capable of executing various functions by means of the control of one or more microprocessors or other control devices. can be hired Similar to how the components of the present invention may be implemented as software programming or software elements, the present invention includes various algorithms implemented as data structures, processes, routines, or combinations of other programming constructs, including C, C++ , may be implemented in a programming or scripting language such as Java, assembler, or the like. Functional aspects may be implemented in an algorithm running on one or more processors. In addition, the present invention may employ conventional techniques for electronic configuration, signal processing, and/or data processing, and the like. Terms such as mechanism, element, means, and configuration may be used broadly and are not limited to mechanical and physical configurations. The term may include the meaning of a series of routines of software in connection with a processor or the like.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, and in the description with reference to the accompanying drawings, the same or corresponding components are given the same reference numerals, and the overlapping description thereof will be omitted. do.

1 is a schematic block diagram of a fire fighting monitoring system according to the present invention, FIG. 2 is a schematic diagram of a fire fighting monitoring system according to the present invention, and FIG. 3 is a block diagram of the fire fighting controller of FIG. is an exemplary front and rear view of the fire controller of Fig. 3, Fig. 5 is a flowchart of a fire monitoring method according to the present invention, and Fig. 6 is an exemplary view of a plurality of pop-up images drawn in by the fire control controller according to the present invention, FIG. 7 is an enlarged view of the image of FIG. 6 .

Hereinafter, with reference to FIG. 1, the fire monitoring system according to the present invention will be looked at in more detail.

As shown in Figure 1, the fire monitoring system according to the present invention is formed to be partitioned for each zone, connected to a plurality of contact points formed one by one per zone, a plurality of heat detection sensors 110 to detect the occurrence of an event, A plurality of CCTVs 120 that are installed to be partitioned for each zone and take images, and at least one multiple that is connected to a plurality of CCTVs 120 and connected through a network 130 to display images captured by the plurality of CCTVs 120 The monitor 140, at least one NVR (Network Video Recorder, 150) connected to the at least one multi-monitor 140, and storing the screen of the multi-image displayed by the at least one multi-monitor 140, a plurality of At least one fire-fighting controller 200 connected through a plurality of thermal sensors 110 and a network 130 through a contact point and connected through the NVR 150 and a network 130, and at least one fire-fighting controller ( 200) and an operator monitor 170 connected thereto.

Here, the thermal sensor 110 is a means for detecting the occurrence of an event when an event occurs, but is not limited thereto, and can transmit an event detection signal to at least one fire controller 200 through the network 130 . Any device available is applicable.

In addition, the plurality of CCTV 120 is a means for photographing an image, but is not limited thereto, and any device that is connected to the multiple monitors 140 through the network 130 and can transmit the captured image to the NVR 150 is not limited thereto. Applicable.

In addition, the multi-monitor 140 is a means for displaying an image and is a monitor formed by aggregating a plurality of monitors, and multiple monitors among 16 are preferable, but the present invention is not limited thereto, and a monitor that displays a divided screen on one monitor is also applied. It is possible.

On the other hand, in the fire monitoring system according to the present invention, a plurality of heat detection sensors 110 partitioned for each zone are connected to converge for each zone to form a plurality of contact points, one for each zone.

In addition, the plurality of NVRs 150 and the plurality of fire controllers 200 are interconnected via USB communication as shown in FIG. 3 , and each of the plurality of fire controllers 200 are interconnected via an RS-485 cable. .

In addition, one NVR 150 is connected per multiple monitors 140 , and images displayed on the multiple monitors 140 are stored in the NVR 150 .

Now, with reference to FIG. 2, the configuration of the fire fighting controller according to the present invention will be described in detail.

As shown in FIG. 2 , at least one firefighting controller 200 according to the present invention includes a map representing all zones and a map file storage unit for storing a texture-mapped map by texture mapping the map. (210), CCTV control unit 220 for controlling a plurality of CCTVs registered in the zone where the event occurred, multiple images displayed through multiple monitors 140 by a plurality of CCTVs controlled by the CCTV control unit 220 A pop-up image generating unit 230 that pops up a plurality of captured images, a pop-up image inlet 240 for introducing a plurality of pop-up images displayed on the multi-monitor 140 to an operator monitor, and a plurality of inputted images to the operator monitor A pop-up image enlargement unit 260 for enlarging any one of the images of , when an event is identified as a fire by the enlarged image, a map indicating the entire zone stored in the map file storage unit 210 and a texture-mapped fire A map flashing processing unit 280 that alternately displays only zones in which , and a fire-related information transmission unit 290 for transmitting fire-related information including the texture-mapped zone and the location of the fire point to a preset manager by SMS ) is included.

Here, the fire fighting controller 200 is connected to the plurality of thermal sensors 110 through a plurality of contact points formed one by one to be partitioned for each zone.

In addition, the fire fighting controller 200 registers the contact points of the plurality of thermal sensors 110 and the plurality of CCTVs 120 by matching each zone.

In addition, when an event occurs, a plurality of images captured by a plurality of CCTVs 120 registered in the zone where the event occurred by the CCTV controller 120 of the fire fighting controller 200, respectively, are pop-up of the fire fighting controller 200 . It pops up on the multi-monitor 140 through the image generator 230 . In this case, the number of the plurality of images popped up on the multi-monitor 140 is proportional to the number of CCTVs registered in the zone where the event occurs and capturing the event, preferably before/after/in the vicinity of the occurrence of the event in the zone where the event occurs. It is preferable that the images are captured by at least four CCTVs located on the left/right.

In addition, the pop-up image input unit 240 of the fire fighting controller 200 introduces a plurality of images pop-up on the multi-monitor 140 to the operator monitor.

In addition, when any one of the plurality of pop-up images drawn into the operator monitor is clicked by the operator, the clicked image is enlarged by the pop-up image enlarger 260 of the fire controller 200 and displayed through the operator monitor. do. In this case, the image enlarged and displayed on the operator monitor by the firefighting controller 200 is also displayed on the multiple monitors 140 through the NVR 150 .

In addition, when the event generated by the operator is confirmed to be a fire through the enlarged image, the map annihilation processing unit 280 of the fire controller 200 alternates only the map indicating the entire zone and the zone in which the texture-mapped fire occurred. Display. In this case, the operator recognizes as if the zone in which the fire occurred by the map blinking processing unit 280 blinks on the map representing all zones.

In addition, the fire-related information including the texture-mapped zone and the location of the fire location by the fire-related information transmission unit 290 of the fire-fighting controller 200 is transmitted to the manager via SMS, so that the manager can directly access the zone where the event occurred. It allows the manager to intuitively check whether a fire has occurred without having to go and check manually. Accordingly, it may be possible to promptly respond to the fire occurrence of the manager and the manager.

Meanwhile, the front and rear surfaces of the plurality of fire fighting controllers 200 according to the present invention are as shown in FIGS. 4A and 4B . As shown in FIGS. 4A and 4B , a plurality of fire controllers 200 have a maximum of 12 channel thermal sensor inputs per one fire controller to cover up to 12 zones by controlling one zone per channel. , more than 12 channels of thermal sensor inputs are assigned to other fire controllers interconnected via RS-485 cables. In this way, the different fire controllers are interconnected.

In addition, the plurality of fire fighting controller 200 is a power switch 251, a heat sensor status check LED 252 for displaying the 12-channel heat sensor status, a heat sensor input terminal for connecting with the 12-channel heat sensor. 253, the RS-485 data terminal 254 for connecting each fire controller 260, the address setting switch 255 for setting the addresses of the plurality of fire controllers 200, the RS-485 data line RS-485 data line impedance setting switch 256 for setting impedance, data connection terminal 257 for receiving data connected to NVR 150, power input terminal 258 for receiving power, and ground A ground connection terminal 259 for

Hereinafter, with reference to FIG. 5, a fire monitoring method according to the present invention will be described in more detail.

As shown in Fig. 5, the fire monitoring method according to the present invention includes a plurality of thermal sensors 110 connected to a plurality of contacts formed to be partitioned for each zone, a plurality of CCTVs installed to be partitioned for each zone, a plurality of CCTVs, and a plurality of CCTVs. At least one or more multiple monitors 140 that are connected to 120 and the network 130 to display images captured by a plurality of CCTVs 120, are connected to the multiple monitors 140 and At least one NVR 150 for storing the displayed multi-image, at least one fire controller 200 connected to a plurality of thermal sensors 110 through a plurality of contacts and connected to the NVR 150 and USB, and a fire monitoring method by a fire monitoring system including an operator monitor connected to the fire control controller 200 .

In the fire monitoring method according to the present invention, first, in step S510 , a plurality of heat sensors 110 and the fire controller 200 are connected through the plurality of contact points that are partitioned for each zone.

Thereafter, in step S520 , the contact points of the plurality of heat sensors 110 and the plurality of CCTVs 120 are matched for each zone and registered by the fire fighting controller 200 .

After that, in step S530, if an event occurs, the CCTV controller 220 of the fire controller 200 pops up a plurality of images captured by a plurality of CCTVs 120 registered in the zone where the event occurred. It pops up on the multi-monitor 140 through the image generator 230 .

Thereafter, in step S540 , the plurality of images pop-up on the multi-monitor 140 are introduced into the operator monitor by the pop-up image input unit 240 of the fire-fighting controller 200 .

Then, in step S550 , when any one of the plurality of images introduced into the operator monitor is clicked by the operator, the clicked image is enlarged by the pop-up image enlarger 260 of the firefighting controller 200 .

Then, in step S560, when the event generated by the operator through the magnified image is identified as fire, the map indicating the entire zone and the texture mapped fire by the map flashing processing unit 290 of the fire fighting controller 200 Only the zone in which has occurred is displayed alternately. Accordingly, the operator recognizes as if the zone in which the fire occurred by the map blinking processing unit 280 blinks on the map representing all zones.

Thereafter, in step S570 , the fire-related information including the texture-mapped zone and the location of the point where the fire occurred by the fire-related information transmitting unit 290 of the fire-fighting controller 200 is transmitted to the manager by SMS. Accordingly, the manager can intuitively check whether a fire has occurred without the manager directly going to the zone where the event has occurred and manually checking the event, and it is also possible for the manager to respond quickly.

Meanwhile, in step S560 , it may be checked whether the event generated by the image and sound analysis unit (not shown) included in the fire fighting controller 200 is fire. When the event generated based on the signal detected by the thermal sensor 110 and the image captured by the CCTV 120 satisfies the fire confirmation condition, the image and sound analysis unit determines that the event is a fire. In addition, image analysis by the image and sound analysis unit performs image tracking for objects similar to a specific image input by the user, detection of movement of an object, disappearance or appearance of an object in the image, in addition to flame or smoke generated in the image. If the fire confirmation condition is satisfied through image analysis such as turning off, it is confirmed as a fire. Furthermore, if the sound source included in the video signal is analyzed and the fire confirmation condition is satisfied, it is confirmed as a fire. In addition, the sound source analysis generates an event through sound source analysis such as a sound source whose size is greater than or equal to a threshold value specified by an administrator or a sound source specified by a user. Furthermore, if various abnormal sound sources are converted into a database, and the analyzed sound sources are compared with the sound sources stored in the database (not shown), it may be confirmed as a fire. The fire confirmation condition used for video and sound analysis means that an object appears in the case of an image, a user specific image (for example, a face that cannot be recognized) occurs, the screen color changes, and movement occurs in the set area. It can be preset according to the case, etc., and in the case of the sound source, abnormal sound sources (car tire friction sound (skid), glass breaking sound, alarm sound, crash sound, etc.) Crying, etc.), or when a voice exceeding a threshold value is generated, it is also possible to preset.

On the other hand, in step S530 , an example of the plurality of pop-up images that are introduced into the operator monitor by the pop-up image inlet unit 240 of the plurality of fire fighting controllers 200 and displayed is shown in FIG. 6 .

In addition, in step S550 , an example of an enlarged image of any one of the plurality of images pop-up by the pop-up image enlarger 230 of the plurality of fire fighting controllers 200 is illustrated in FIG. 7 .

Meanwhile, the present invention can be implemented as computer-readable codes on a computer-readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data readable by a computer system is stored.

Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage device, etc. include In addition, the computer-readable recording medium is distributed in a computer system connected to a network, so that the computer-readable code can be stored and executed in a distributed manner. And functional programs, codes, and code segments for implementing the present invention can be easily inferred by programmers in the technical field to which the present invention pertains.

In the case of a fire, the fire monitoring system and method according to the present invention as described above transmit fire-related information including the texture-mapped zone and the location of the fire point to the manager via SMS, so that intuitive confirmation of whether a fire has occurred It may be possible. In addition, it may be possible to quickly respond according to an intuitive confirmation of whether a fire has occurred.

As described above, the present invention has been described based on the preferred embodiments, but these embodiments are not intended to limit the present invention, but to illustrate the present invention. Various changes, modifications, or adjustments to the examples are possible. Therefore, the protection scope of the present invention should be construed to include all examples of changes, modifications, or adjustments belonging to the spirit of the present invention.

110: thermal sensor 120: CCTV
130: network 140: multiple monitors
150: NVR 170: operator monitor
200: fire controller 210: map file storage
220: CCTV control unit 230: pop-up image generation unit
240: pop-up image inlet 260: pop-up image enlargement unit
280: map flashing processing unit 290: fire-related information transmission unit

Claims (9)

a plurality of thermal sensors connected to a plurality of contact points formed to be partitioned for each zone;
a plurality of CCTVs installed to be partitioned for each zone;
at least one or more multiple monitors connected to the plurality of CCTVs through a network to display images captured by the plurality of CCTVs;
at least one NVR (Network Video Recorder) connected to the multiple monitors to store multiple images displayed by the multiple monitors;
at least one fire-fighting controller connected to a plurality of thermal sensors through the plurality of contacts and connected to the NVR; and
an operator monitor connected to the fire controller;
The firefighting controller,
It is connected to the plurality of thermal sensors through the plurality of contact points formed to be partitioned for each zone,
The contact points of the plurality of thermal sensors and the plurality of CCTVs are matched and registered for each zone,
When an event occurs, a plurality of images captured by a plurality of CCTVs registered in the zone where the event occurred are popped up on the multi-monitor,
A plurality of images popped up on the multi-monitor are drawn into the operator's monitor,
When any one of the plurality of pop-up images drawn into the operator monitor is clicked by the operator, the clicked image is enlarged,
When the event generated by the operator is confirmed as a fire through the enlarged image, a map indicating the entire zone and only the zone in which the texture-mapped fire occurred are displayed alternately,
Sending fire-related information including the texture-mapped zone and the location of the fire point to preset managers via SMS,
Up to 12 channels of heat sensor inputs per fire controller to cover up to 12 zones with 1 zone per channel, and more than 12 channels of heat sensor inputs via RS-485 assigned to other fire controllers interconnected via
The plurality of thermal sensors are connected to the plurality of contacts,
The multi-monitor is connected to one NVR per multi-monitor,
The plurality of contact points are installed to be partitioned for each zone and connected to converge for each zone, so that one contact point is formed for each zone,
The fire controller performs texture mapping of only a specific zone in which the event occurred in the entire zone only when the event is confirmed. Fire monitoring system.
The method according to claim 1,
A fire monitoring system in which the plurality of NVRs and the plurality of fire controllers are interconnected through USB communication.
The method according to claim 1,
The firefighting controller,
a map file storage unit configured to store a map representing all zones and a texture-mapped map by performing texture mapping on the map;
a CCTV controller for controlling a plurality of CCTVs registered in the zone where the event occurred;
a pop-up image generating unit that pops up multiple images displayed through the multiple monitors as a plurality of images captured by a plurality of CCTVs registered in a zone where an event occurs by the CCTV controller;
a pop-up image input unit for introducing the plurality of pop-up images to an operator monitor;
a pop-up image enlargement unit for enlarging any one of a plurality of images introduced into the operator monitor;
When the event is confirmed as a fire by the enlarged image, a map flashing processor alternately displaying a map indicating all zones stored in the map file storage unit and only zones in which the texture-mapped fire occurred: And
and a fire-related information transmitter for transmitting fire-related information including the texture mapping-processed zone and the location of a fire point to a manager via SMS.
The method according to claim 1,
Each of the plurality of fire-fighting controllers,
power switch;
12 channels respectively connected to the plurality of contacts;
an LED for checking the channel status for displaying the operating status of the 12 channels;
an RS-485 data terminal for interconnecting each of the plurality of fire fighting controllers with an RS-485 data line;
an address setting switch for setting an address of each of the plurality of fire fighting controllers;
an RS-485 data line impedance setting switch for setting the impedance of the RS-485 data line; and
Fire monitoring system comprising a; data connection terminal for receiving data connected to the NVR.
The method according to claim 1,
A fire monitoring system in which the enlarged image displayed on the operator monitor is displayed on the multiple monitors through the NVR.
4. The method according to claim 3,
A fire monitoring system in which the zone in which the fire occurred by the map blinking processing unit blinks on a map indicating the entire zone.
5. The method according to claim 4,
Each of the plurality of fire-fighting controllers governs one zone per channel and governs up to 12 zones,
Fire monitoring system wherein said more than 12 zones are assigned to different fire controllers interconnected via said RS-485 data line.
A plurality of thermal sensors connected to a plurality of contact points formed to be partitioned for each zone, a plurality of CCTVs installed to be partitioned for each zone, and a plurality of CCTVs connected through a network to display images captured by the plurality of CCTVs at least one or more multiple monitors, at least one or more NVRs that are connected to the multiple monitors and store multiple images displayed by the multiple monitors, are connected to a plurality of thermal sensors through the plurality of contacts and are connected to the NVR and USB A fire monitoring method by a fire monitoring system comprising at least one fire controller connected to the fire fighting controller, and an operator monitor connected to the fire controller, the method comprising:
connecting the plurality of heat sensors and the firefighting controller through the plurality of contact points partitioned for each zone;
registering, by the firefighting controller, the contact points of the plurality of heat sensors and the plurality of CCTVs for each zone;
popping up, by the CCTV control unit of the firefighting controller, a plurality of images captured by a plurality of CCTVs registered in the zone where the event occurred, on multiple monitors through a pop-up image generating unit, when an event occurs;
Introducing a plurality of images pop-up on the multi-monitor to the operator monitor by the pop-up image inlet unit of the firefighting controller;
When any one of the plurality of images introduced into the operator monitor is clicked by the operator, the step of enlarging the clicked image by the pop-up image enlarger of the firefighting controller;
When the event generated by the operator is identified as a fire through the enlarged image, a map indicating the entire zone and only the zone in which the texture-mapped fire occurred are displayed alternately by the map flashing processing unit of the fire-fighting controller making; and
and transmitting, by the fire-related information transmitting unit of the fire-fighting controller, fire-related information including the texture-mapped zone and the location of the fire point to the manager by SMS,
The fire controller has a maximum of 12 channel heat sensor inputs per one fire controller to cover up to 12 zones by controlling one zone per channel, and the input of the heat sensor exceeding 12 channels is RS assigned to other fire controllers interconnected via -485 cables,
The plurality of thermal sensors are connected to the plurality of contacts,
The multi-monitor is connected to one NVR per multi-monitor,
The plurality of contact points are installed to be partitioned for each zone and connected to converge for each zone, so that one contact point is formed for each zone,
The fire controller performs texture mapping of only a specific zone in which the event occurred in the entire zone only when the event is confirmed. Fire monitoring methods. delete

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