KR101775463B1 - Fire supervisory apparatus to be installed on building and unite management system having the same - Google Patents

Abstract

Disclosed is a fire detector, which can transmit an image of a zone where a fire detector is installed in a fire fighting facility through an existing cable installed in a building for transmitting a detection signal of the fire detector. To this end, provided is a fire detector for an automatic fire detection facility, which comprises: a sensor module installed inside the building for generating a fire signal by detecting fire occurrence; a camera module connected to the sensor module for capturing a still image of a predetermined zone according to the fire signal to generate a video signal; and a control module connected to a cable pre-installed in the building by means of the camera module and the automatic fire detection facility, generating fire detection data including the fire signal provided from the sensor module and a video signal provided from the camera module, and transmitting the fire detection data to the outside through the cable. According to the present invention, since a low-capacity cable pre-installed in a building can be utilized as a fire alarm facility, it is not necessary to separately install a cable for transmitting an image, thereby reducing the construction costs.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a fire detector for an automatic fire detection system installed in a building, and an integrated control system including the fire detector. [0002] FIELD OF THE INVENTION [0003]

FIELD OF THE INVENTION The present invention relates to a fire detector for an automatic fire detection system installed in a building and monitoring a fire generated inside the building, and to an integrated control system including the fire detector. More particularly, A fire detector for an automatic fire detection system capable of transmitting a fire signal of a fire detector through a conventional cable installed in a building, and an integrated control system including the fire detector.

With the development of society, safety consciousness to protect their own property and life has been increasing many times in a big and small fire, and the perception of firefighting has changed, and the importance of firefighting facilities for prevention and boundary of fire has become more important. to be.

The fire detector of automatic fire alarm system of firefighting facilities detects early signs of fire such as heat, smoke and flame and signals to the receiver, and notifies fire alarm with alarm or sound device to help early evacuation, It is a very important facility that enables the initial digestion by operating the facility. In other words, the magnitude of the damage to the fire can vary greatly depending on how accurately and quickly the fire detector detects and notifies the fire at the beginning of the fire.

However, in the case of the current fire alarm system, most of the buildings are equipped with a general type detector which does not have address function when a fire occurs, so that the structure of the building is complicated and it is very difficult to find an accurate fire position in a fire caused by various combustion products.

For example, it is very difficult to find a precise fire position when a fire occurs due to the complicated internal structure and compartmentalization of the goshiwon, karaoke, traditional market, motel, apartment, etc., .

In other words, it is a reality that it is very difficult to accurately locate and cope with a fire in case of a fire unless it is a firefighting worker to find a precise fire location only by the boundary zone of the floor unit and the area unit.

In this way, the fire detector is the primary equipment for the fire, which plays the most important role in the automatic fire alarm system, but has been using the technology 20 years ago without developing the technology for improving the performance of the fire detector .

In recent years, however, there has been a need for real-time monitoring for active countermeasures against fire-related areas, and a fire detector has been developed that captures images of fire-generated areas and provides them to a building control room.

However, in the past, a cable is provided between the fire detector and the tube room so that the fire detector can transmit a detection signal to the building control room of the building. However, since such a cable is used to transmit only a low-capacity sensing signal, Since the file can not be transferred, a video transmission cable must be newly installed separately from the installed cable in order to transmit the image of the fire occurrence area.

Korean Registered Patent No. 10-1204008 (published on November 23, 2012) Korean Patent No. 10-1195592 (published on November 23, 2012) Korean Registered Patent No. 10-1398819 (Announcement 2014.05.30) Korean Patent No. 10-1475134 (published on December 23, 2014)

Accordingly, it is a first object of the present invention to provide a fire detector capable of transmitting an image of a fire occurrence area through a low-capacity cable for automatic fire alarm equipment installed in a building in advance.

A second object of the present invention is to provide a fire detector for generating a fire image and a fire image signal for the fire detector to suppress the use of unnecessary management personnel due to malfunction of the sensor and to reduce the anxiety of the residents and the passengers And to provide a control system.

In order to achieve the first object of the present invention, there is provided a fire alarm system, comprising: a sensor module installed inside a building to detect a fire and generate a fire signal; A camera module connected to the camera module and a cable installed in advance in the building to detect a fire signal provided from the sensor module and an image provided from the camera module, And a control module for generating fire detection data including a signal and transmitting the fire detection data to the outside via the cable.

According to another aspect of the present invention, there is provided an integrated control system including the fire detector.

The use of the fire detector according to the present invention can reduce the construction cost because there is no need to separately install a cable for transmitting an image because an automatic fire detection facility can utilize a low capacity cable installed in a building as it is.

In addition, the present invention provides a monitoring function for a fire zone when the fire detection data transmitted by an automatic fire detection system installed in a building is received in the building's disaster prevention room, And provides a basis for actively coping. Accordingly, the malfunction of the detector can be determined, the initial response speed can be improved through accurate position determination in case of fire, and the damage caused by the fire can be minimized.

1 is a block diagram for explaining a fire detector according to the present invention.
2 is a block diagram for explaining an integrated control system according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a fire detector (hereinafter referred to as a 'fire detector') for an automatic alarm system installed in a building according to preferred embodiments of the present invention will be described with reference to the accompanying drawings and an integrated control system Will be described in detail.

1 is a block diagram for explaining a fire detector according to the present invention. Referring to FIG. 1, a fire detector according to the present invention generates fire detection data when a fire occurs inside a building, and transmits the generated fire detection data to an emergency room of a building. For this purpose, the fire detector is connected to an automatic fire detection equipment cable installed in the building.

More specifically, the fire detector according to the present invention includes a sensor module 110 for detecting a fire and generating a fire signal, a camera module 120 for capturing a still image of a zone set in accordance with the fire signal and generating a video signal And a control module 130 for generating fire detection data including the fire signal and the video signal and transmitting the fire detection data to the outside via a cable for an automatic fire detection system.

Such fire detectors may be included in analog detectors that transmit address values and smoke concentration values along with fire signals, or detectors that transmit address values along with fire signals.

Hereinafter, each component will be described in more detail with reference to the drawings.

Referring to FIG. 1, a fire sensor according to the present invention includes a sensor module 110.

The sensor module 110 is installed inside the building, and detects the occurrence of a fire and generates a fire signal. The sensor module 110 may include at least one of a flame sensor, a super-infrared sensor, a temperature sensor, a humidity sensor, a gyro sensor, a smoke sensor, an oxygen sensor, and a carbon dioxide sensor.

In addition, the sensor module 110 monitors the occurrence of a fire in a designated area in real time, and provides a fire signal so that a fire can be detected at a remote place in real time.

Referring to FIG. 1, a fire sensor according to the present invention includes a camera module 120.

The camera module 120 is installed inside the building in a state of being connected to the sensor module 110. The camera module 120 captures a still image of a predetermined zone according to the fire signal and generates a video signal.

In addition, the camera module 120 allows the administrator of the disaster prevention room to check whether the sensor module 110 malfunctions by checking the still image of the surveillance area, and can transmit it through the cable installed for the automatic fire detection system Instead of video, it generates a still image such as a photograph. At this time, the still image may be configured to have an extension of JPG, JPEG, TIF, TIFF, or the like.

In addition, the camera module 120 may generate a video signal by photographing a still image at intervals of a predetermined period, for example, 5 to 60 seconds.

The camera module 120 may be integrally formed with the sensor module 110 to provide a single appearance.

Referring to FIG. 1, a fire detector according to the present invention includes a control module 130.

The control module 130 is connected to the sensor module 110 and the camera module 120 and to a cable for an automatic fire detection system installed in the building. The control module 130 detects a fire signal provided from the sensor module 110, Generates fire detection data including a fire signal and a video signal, and transmits the fire detection data to the outside through the cable.

More specifically, when a fire signal is received from the sensor module 110, the control module 130 controls the camera module 120 to shoot a still image for the surveillance area, and collects the image signal for the surveillance area. Then, the control module 130 collects the video signal generated according to the fire signal to generate fire detection data having the current time, and transmits the fire detection data to the building's disaster prevention room through an automatic fire detection facility cable .

The fire detector according to the present invention may further include an alarm output module.

The alarm output module is connected to the controller 220 and outputs audible announcements of an alarm sound or a fire according to the control of the controller 220 to help a resident and a passenger of the building recognize the occurrence of a fire . Since this alarm output module has a known configuration, a more detailed description will be omitted.

2 is a block diagram for explaining an integrated control system according to the present invention.

Referring to FIG. 2, the integrated control system includes a fire detector 100 installed in a building to generate fire detection data, and a fire detector 100 for receiving and analyzing fire detection data to extract fire information An integrated control server 300 for transmitting the fire information transmitted from the receiver 200 to a designated fire prevention application 410 through a network and a communication control unit And a user terminal 400 having a fire fighting application 410 connected thereto.

Alternatively, the receiver may further include a display for outputting a video signal included in the fire detection data as an image. In addition, the receiver is connected to the fire detector 100 through a cable for automatic fire detection equipment installed in the building, and receives the fire detection data.

The display provides a monitoring function so that the manager of the building can confirm the fire detection data by the image. The display may be composed of a plurality of monitors matched to the fire detector 100 installed in each partition in the building 1: 1, And a large-screen TV or a projector for outputting all the fire detectors 100 on a divided screen.

The receiver 300 constituting the integrated control system according to the present invention is connected to each fire detector 100 installed in a building through a cable, that is, a cable for an automatic fire detection facility, and includes a communication unit 210 and a control unit 220 And may further include a storage unit such as a memory as needed. At this time, the storage unit stores the fire detection data transmitted from the fire detector so that it can be used as evidence in the case of a court dispute caused by a fire, and the network address of each fire detector is stored.

The communication unit 210 is connected to the fire detectors 100 installed in the building, receives the fire detection data provided from the fire detectors 100, and transmits the fire detection data to the control unit 220.

The control unit 220 receives fire detection data from the communication unit 210, analyzes fire detection data, extracts fire information, and outputs the fire information through a display or the like. At this time, the controller 220 also outputs a video signal included in the fire detection data through the display.

More specifically, the control unit 220 generates fire information to be provided to the user terminal 400 only when a still image indicating a fire is included in the video signal in order to increase the reliability of the fire occurrence. In other words, the control unit 220 generates fire information when it is analyzed that the fire is generated in the surveillance area through reading of the still image, and does not generate fire information when it is analyzed that the fire does not occur.

The integrated control server 300 generates escape information including information on a fire occurrence location and an escape route based on the fire information received from the receiver 200 and transmits the escape information to a designated fire control application 410). In other words, the integrated control server 300 is connected to each user terminal 400 installed with the fire control application 410 through a communication network and transmits fire information to each user terminal 400.

In addition, the integrated control server 300 analyzes the network address of the fire monitor that transmitted the fire detection data, generates escape information including the escape route excluding the fire occurrence area based on the network address, Lt; / RTI >

For example, if the first fire detector transmitting the fire detection data is analyzed as having been installed in the first floor of the third floor through identification of the network address, the integrated control server 300 may replace the emergency staircase adjacent to the first floor of the third floor The fire information including the flash file for guiding the escape route to the emergency stairs adjacent to the second zone of the third floor can be generated and transmitted to the user terminal 400 having the telephone number registered in advance in the integrated control server 300 have.

In this way, the integrated control server 300 can promptly guide the escape route to residents or passengers of the building in consideration of the location of the fire, thereby enabling the resident or the passenger of the building to quickly determine an initial response direction to the fire, To minimize the loss of life.

If necessary, the integrated control server 300 is constructed so as to be accessible from an external user terminal 400 connected through a communication network. In the case of a registered administrator, the integrated control server 300 is connected to the integrated control server 300 ) Can be managed from a remote place. In addition, the integrated control server 300 may be constructed so as to transmit the occurrence of fire through the Internet to the established firefighter center.

In addition, the integrated control server 300 may be configured to analyze the fire detection data to generate and output inspection information of the fire detector 100 that requires field inspection. At this time, based on the network address and location information of each fire detector that is stored in the integrated control server 300, the integrated control server 300 generates inspection information including the inspection order and the travel path information of the fire detector 100 requiring on- . To this end, the integrated control server 300 may be configured to include a server display for outputting inspection information as an image.

The basic screen of the server display may include an integrated control button for receiving an external control signal through a click of a mouse or a touch of a monitor screen. For example, when the manager clicks the integrated control button for the disaster prevention equipment, the integrated control server 300 receives the control signal of the disaster prevention equipment through the monitor and controls the corresponding disaster prevention equipment.

The integrated control server 300 periodically polls the receiver 200 to collect information on the presence or absence of a communication abnormality and the occurrence of an emergency situation, and the fire detector 100 responds thereto. Through this process, it is possible to check whether the cable installed between the receiver 200 and the fire detector 100 is disconnected or not.

Meanwhile, the integrated control server 300 according to the present invention is configured to transmit the operation state information to an administrator terminal (not shown) of a person in charge, which is connected through a communication network, .

More specifically, in the case where the fire detector 100 installed in each area of the large building is in a normal state, the integrated control server 300 determines the operation state information related to the fire detector 100 as a manager To the terminal.

In addition, the integrated control server 300 may control the fire sensor 100 as a fire control person assigned to the fire detector 100 so that quick action can be taken when any one of the fire detectors 100 installed for each zone of the large- The location of the manager terminal owned by the user is detected by using a GPS, a communication chip, etc., and the fire information is notified to the manager located nearest to the fire detector 100 by prioritizing the manager.

In this case, the priority order of the fire control personnel located nearest to the fire detector 100 that generated the fire detection data is ranked first, and the fire control person located next to the fire control person is ranked second. After notifying fire management personnel assigned to the first order of fire information, if there is no response, fire information is notified to the second order fire control person.

Conventionally, when a fire occurrence situation is recognized in the disaster prevention room, it is difficult to respond promptly and effectively because a method of manually requesting a fire control person and notifying the person in charge of the fire management of a request for measures against fire suppression is used There was a problem. In contrast, according to the present invention, the integrated control server 300 recognizes a fire occurrence situation, designates a fire control person to be automatically assigned to the fire control person, and transmits fire information to the fire control person, There is an advantage that it is possible.

In addition, the integrated control server 300 can provide a function to actively utilize the fire-fighting equipment installed in the building in addition to the fire-fighting basic equipment set forth in the Fire Service Act.

Specifically, the integrated control server 300 is connected to the disaster prevention equipment installed in the galley through the network via the input / output module, the actuator, etc., analyzes the fire detection data provided from the automatic fire detection equipment to generate the disaster prevention signal, To the disaster prevention equipment to control the disaster prevention equipment.

Here, fire-fighting facilities may include fire-fighting equipment such as fire doors and firewalls, fire-extinguishing facilities such as fire-extinguishers and sprinklers, fire-extinguishing facilities to facilitate evacuation or extinguishing, and emergency lighting devices.

The user terminal 400 constituting the integrated control system according to the present invention is a terminal owned by a resident and a visitor of a building in which an automatic fire detection system is installed and a fire fighting application 410 connected to the integrated control server 300 through a communication network Respectively.

At this time, the fire control application 410 may be configured to output the escape route on its own screen as the fire information transmitted from the integrated control server 300 is received. To this end, the fire information includes a flash file in which escape routes for each floor of the building are arranged.

In this manner, the user terminal 400 receives the escape information transmitted from the integrated control server 300 and outputs the escape information to the screen, thereby enabling the owner of the user terminal 400 to recognize the fire occurrence location and escape route .

More specifically, the user terminal 400 includes a plurality of base stations, a fire information provided from the integrated control server 300 through a wireless communication network including a base station controller, a mobile communication exchange and a WAP gateway, and a wired communication network, And a wireless terminal and a wired terminal can be used.

The wired terminal may be a desktop computer, a communication terminal, a television set, a landline phone, a mobile phone, or the like, to which the fire fighting application 410 can be installed. Etc. may be used.

Here, the fire control application 410 is downloaded from the integrated control server 300 through the Android Market, an application store, or a web page, and installed in the user terminal 400.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the appended claims. It can be understood that it is possible.

100: fire detector 110: sensor module
120: camera module 130: control module
200: receiver 210:
220: control unit 300: integrated control server
400: user terminal 410: fire fighting application

Claims (3)

A sensor module installed inside the building and generating a fire signal by detecting fire occurrence;
A camera module connected to the sensor module for generating a video signal having an extension of any one of JPG, JPEG, TIF, and TIFF by capturing a still image in a predetermined zone according to the fire signal; And
The fire signal provided from the sensor module and the image signal provided from the camera module are collected by the sensor module, the camera module, and the automatic fire detection equipment, and connected to a low capacity cable for automatic fire detection equipment installed in the building. And a control module for generating the fire detection data and transmitting the fire detection data to the outside through a low capacity cable for the automatic fire detection system. The sensor module according to claim 1, wherein the sensor module
Wherein at least one of a flame detection sensor, a super-infrared sensor, a temperature sensor, a humidity sensor, a gyro sensor, a smoke sensor, an oxygen sensor, and a carbon dioxide sensor is provided. A sensor module installed inside the building and detecting a fire occurrence to generate a fire signal; and a control unit connected to the sensor module and photographing a still image of a zone set in accordance with the fire signal and outputting an extension of one of JPG, JPEG, TIF, And a camera module connected to the low capacity cable for automatic fire detection equipment installed in the building by the camera module and the automatic fire detection equipment, the fire signal provided from the sensor module, And a control module for collecting the video signals provided from the automatic fire detection equipment to generate fire detection data given current time and transmitting the fire detection data to the outside through the low capacity cable for the automatic fire detection equipment ;
A communication unit connected to the fire detector by a low-capacity cable for an automatic fire detection system to receive fire detection data provided from fire detectors; a display for outputting a video signal included in the fire detection data as an image; A storage unit for storing fire detection data transmitted from a fire detector so that the fire detection data can be used as evidence data when the fire detection data is received from the communication unit, And a control unit for generating fire information on the fire information;
An integrated control server for generating escape information including information on a fire occurrence location and an escape route based on the fire information transmitted from the receiver, and transmitting the fire information and escape information to a designated fire fighting application through a communication network; And
And a user terminal having a fire control application connected to the integrated control server through a communication network.

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