KR20200114659A - Auto fire reporting system for preventing wrong operation - Google Patents

Abstract

The present invention relates to an automatic fire breaking news maintenance system for reducing malfunctions which automatically reports fire breaking news. The system of an embodiment of the present invention comprises: an automated fire detector which detects a fire and photographs a fire image to transmit the fire to an administrator terminal when the fire is detected; and an administrator terminal which is installed with a fire detection app for receiving the fire image from the automated fire detector and displays the fire image on a screen.

Description

Automatic fire reporting system for preventing wrong operation

The present invention relates to a malfunction-reducing automated re-breaking facility system, which automatically reports a fire breaking report.

The principle of a fire receiver that is generally used is a method that a fire signal is input to the fire receiver when the detector or transmitter is operated, and the main alarm bell and the earth alarm bell are interlocked to notify the alarm sound. As a sticker attachment method using paint, a fire extinguisher location notification device using phosphorescent paint is used for most fire-fighting objects.

The current fire-fighting law alarm system stipulated in multi-use facilities such as entertainment pubs and danran pubs has a fire signal that informs the receiver of the fire signal due to the operation of a detector or transmitter and activates the main and earth alarms to evacuate. It is specified that manual or automatic fire extinguishers are installed in each compartment.

As shown in Fig. 1, the existing automatic fire-breaking facility activates the automatic fire-breaking facility when a fire is detected by the fire detector of the automatic fire-breaking facility, and a fire signal is sent to the automatic fire-breaking facility by an external contact of the automatic fire detection facility. The automatic fire alarm system that has sent and received it is a facility that automatically calls 119 and informs the fire department of the previously recorded address information to notify the fire.

However, the existing automatic re-breaking equipment has a problem in that fire is automatically reported even if it is not a real big fire or a system error.

Korean Patent Registration 10-0696740

An object of the present invention is to provide an automated fire alarm system for reducing malfunctions that automatically report fire warnings.

An embodiment of the present invention is an automatic fire detector that detects a fire and, when a fire is detected, captures a fire image and transmits it to an administrator terminal; And a manager terminal installed with a fire detection app that receives fire images from the automated fire detector and displays them on a screen.

The fire detection app may perform a fire report by transmitting the fire area and fire image to the 119 firefighting center when it is determined that a fire has occurred by analyzing the received fire image.

When the fire detection app analyzes the fire image to determine the occurrence of a fire, when the ratio of the red area in the entire image of the fire image exceeds a preset color threshold, the fire may be determined.

The automated material detector may include a smoke amount detection sensor that detects the amount of smoke and provides it to the automated material detector; And a temperature detection sensor installed adjacent to the automated material detector to detect a temperature and provide it to the automated material detector, wherein the smoke amount detected through the smoke amount detection sensor and the temperature detected through the temperature detection sensor When transmitting fire video, it can be transmitted to the administrator terminal together.

The fire detection app analyzes the image of a fire to determine the occurrence of a fire.If the detected smoke amount exceeds a preset smoke amount threshold, it is determined as a fire, and if the detected temperature exceeds a preset temperature threshold, fire It can be determined by occurrence.

When the fire detection app analyzes the fire image and determines the occurrence of a fire, weights are assigned to each of the color threshold, smoke amount threshold, and temperature threshold, and when the sum of the weights exceeds a preset fire occurrence threshold, a fire occurs. Can be identified.

The color threshold value, the smoke amount threshold value, and the temperature threshold value may be set differently for each area in the environment of the area where the automatic material detector is installed.

According to an embodiment of the present invention, a fire can be reported by an administrator easily visually checking the fact that a fire has occurred. In addition, even without the administrator's confirmation, the fact that the fire has occurred can be automatically identified and reported as a fire video.

1 is an exemplary picture of a conventional fire report.
Figure 2 is a diagram showing a state in which a fire report is made through the automatic fire alarm system for reducing malfunctions of the present invention.
Figure 3 is a configuration diagram of a malfunction reduction automated rebreaking facility system using a smartphone app according to an embodiment of the present invention.
4 is a block diagram of a configuration of an administrator terminal according to an embodiment of the present invention.

Hereinafter, the advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, and is provided to completely inform the scope of the invention to those of ordinary skill in the art to which the present invention belongs. As such, the invention is only defined by the scope of the claims. In addition, when it is determined that related well-known technologies or the like may obscure the subject matter of the present invention in describing the present invention, detailed descriptions thereof will be omitted.

FIG. 2 is a diagram showing a state in which a fire report is made through an automated re-breaking facility system for reducing malfunctions of the present invention, and FIG. 3 is a configuration diagram of an automated re-breaking facility system for reducing malfunctions using a smartphone app according to an embodiment of the present invention And Figure 4 is a block diagram of a configuration of a manager terminal according to an embodiment of the present invention.

In the present invention, as shown in Fig. 2, an automatic fire-breaking facility using a smart phone app, that is, a video-shooting detector combined with a general detector for a fire detector of an automated fire detection facility, is installed, and a fire signal is received from the detector of the automated fire detection facility. This is a system that transmits a fire signal and a fire photographed image to the manager's smartphone app, checks the actual fire through the video transmitted to the smartphone by the manager's eyes, and then calls 119 to report a fire if it is identified as a fire. .

To this end, the automated fire alarm system for reducing malfunctions using a smartphone app of the present invention detects a fire as shown in FIG. 3, and when a fire is detected, an automated fire detector that photographs a fire image and transmits it to the manager terminal 200 ( 100), and an administrator terminal 200 installed with a fire detection app that receives fire images from the automated fire detector 100 and displays them on the screen. It will be described in detail below.

The automatic fire detector 100 detects a fire, and when a fire is detected, a fire image is captured and transmitted to the manager terminal 200.

To this end, the automatic fire detector 100 may include a fire detection module 110 and a camera 120. Other than this, although not shown, a wired/wireless communication module is provided.

The fire detection module 110 is a module that detects a fire, and may detect, for example, a temperature, and when the temperature exceeds a predetermined value, it may be determined as fire detection.

The camera 120 is a module that photographs when a fire is detected and generates a fire image. For reference, the camera may include a lens assembly, a filter, a photoelectric conversion module, and an analog/digital conversion module. The lens assembly includes a zoom lens, a focus lens and a compensation lens. The focal length of the lens may be moved according to the control of the focus motor MF. The filter is an optical low pass filter. It may include an infrared cut filter (Infra-Red cut filter). As an optical low pass filter, it removes optical noise of high frequency components, and an infrared cut filter (infra-red cut filter) blocks infrared components of incident light. The photoelectric conversion module converts light from the optical system (OPS) into an electrical analog signal. The analog/digital conversion module may include a CDS-ADC (Correlation Double Sampler and Analog-to-Digital Converter) device. The analog/digital conversion module (not shown) processes the analog signal from the photoelectric conversion module (OEC), removes the high-frequency noise, adjusts the amplitude, and converts it into a digital signal.

In addition, the automatic ash detector 100 is installed adjacent to the smoke amount detection sensor 130 and the automatic ash detector 100, which detects the amount of smoke and provides it to the automatic ash detector 100, and automatically detects the temperature. A temperature sensor 140 provided to the fire detector 100 is provided. Accordingly, the amount of smoke detected through the smoke amount detection sensor 130 and the temperature detected through the temperature detection sensor 140 may be transmitted together to the manager terminal 200 when transmitting the fire image.

The manager terminal 200 is a terminal used by an administrator, and in the drawings, a smart phone is described as an example, but not only a smartphone, but also a desktop PC, a tablet PC, and a slate PC. PC), a notebook computer, and the like. Of course, it is natural that the terminal to which the present invention is applicable is not limited to the above-described types, and may include all terminals capable of communicating with external devices.

The manager terminal 200 and the automated material detector 100 include a wireless mobile communication network consisting of a base transceiver station (BTS), a mobile switching center (MSC), and a home location register (HLR). Can be used to communicate data. Alternatively, wired communication methods such as Ethernet, Universal Serial Bus, IEEE 1394, serial communication and parallel communication may be used, and infrared communication, Bluetooth ( Bluetooth), home radio frequency (RF), and wireless communication methods such as wireless LAN may be used.

The manager terminal 200 is equipped with a fire detection app that receives fire images from the automatic fire detector 100 and displays them on the screen. To this end, as shown in FIG. 4, the terminal communication unit 210 and the terminal storage unit ( 220), a terminal display unit 230, a terminal input unit 240, and may include a terminal control unit 250 installed with a fire detection app.

The terminal communication unit 210 is a module that performs a function of communicating through a mobile communication network, and when performing mobile communication such as 3G or 4G, an RF transmitter (not shown) that up-converts and amplifies the frequency of a wirelessly transmitted signal. ) And an RF receiver (not shown) for low-noise amplification of the received radio signal and down-converting the frequency.

The terminal storage unit 220 is a storage body in which the fire detection app and screen graphic interface (GUI) information of the present invention are stored. Such a storage body is a module capable of input/output of information such as a flash memory, a compact flash card (CF card), and a secure digital card (SD card), and may be provided inside the device or provided in a separate device. It may be.

The terminal display unit 230 is a module that displays a fire image received from the automatic fire detector 100.

The terminal input unit 240 is a module that receives input from an administrator. The terminal input unit 240 and the terminal display unit 230 may be implemented in a single form of a touch screen panel. The touch screen panel is a display window provided on the front of a terminal to display a work screen by providing a touch screen screen capable of performing input and display simultaneously, and provides a graphical user interface (GUI) for communication with an administrator. Indicate.

The terminal control unit 250 is implemented as a main control unit (MCU) that controls each functional module of the manager terminal 200, and is a module in which the fire detection app of the present invention is installed. The manager terminal 200 implemented as a smart phone, etc., can install and add or delete hundreds of various applications (application programs) as desired by the user, so that the user can directly produce the desired application, You can implement an interface suitable for you through various applications. Therefore, you can download fire detection apps from Google Market and Apple Store and install them on your smartphone.

These fire detection apps receive fire images and display them on the screen, so the manager directly checks the fire video to determine whether a fire has occurred, and if it is identified as a fire, reports the fire to the 119 Fire Center. Is done.

On the other hand, the present invention is not limited to the display of fire images, it can be implemented so that the fire detection app automatically reports fire by itself.

To this end, the fire detection app automatically reports the fire occurrence by transmitting the fire area and fire image to the 119 firefighting center without manipulating the manager when it is determined that a fire has occurred by analyzing the received fire image.

Here, when the fire detection app analyzes the fire image and determines the occurrence of a fire, when the ratio of the red area in the entire image of the fire image exceeds a preset color threshold, it may be determined as a fire occurrence.

In addition, when the detected smoke amount exceeds a preset smoke amount threshold, or if the detected temperature exceeds a preset temperature threshold, it is determined as a fire, and the fire is automatically reported to the 119 Fire Center.

The color threshold, smoke amount threshold, and temperature threshold are set differently for each area in the environment of the area in which the automatic material detector 100 is installed. This means that there may be cases where a fire does not actually occur when determining only the color of the fire image, and there may be cases where a fire does not actually occur when determining only the amount of smoke detected. When there may be a case where no fire has occurred, accordingly, the color threshold, the smoke amount threshold, and the temperature threshold are set differently for each area in the environment of the area where the automatic fire detector 100 is installed.

Further, the present invention is implemented so that the automatic report of fire is not determined by color, smoke amount, and temperature, but by comprehensively determining them. This means that there may be cases where a fire does not actually occur when determining only the color of the fire image, and there may be cases where a fire does not actually occur when determining only the amount of smoke detected. This is because there may be cases where no fire has occurred. Therefore, the color, smoke amount, and temperature are all considered to determine whether a fire has occurred.

To this end, the present invention, when the fire detection app analyzes a fire image and determines that a fire occurs, a color threshold, a smoke amount threshold, and a temperature threshold are each assigned a weight, so that the sum of the weights exceeds the preset fire occurrence threshold. In case of fire, it is implemented to determine it as a fire.

In order to determine the exact fire occurrence, each weight is assigned differently to determine the exact fire occurrence according to the location situation. For example, a color threshold value of 0.5, a smoke amount threshold value of 0.2, and a temperature threshold value of 0.3 may be assigned.

The embodiments in the description of the present invention described above are presented by selecting the most preferable examples to aid the understanding of those skilled in the art among various possible examples, and the technical idea of the present invention is not necessarily limited or limited only by this embodiment. , Various changes and modifications, and other equivalent embodiments are possible within the scope of the technical spirit of the present invention.

100: automatic fire detector
200: administrator terminal

Claims (7)

An automated fire detector that detects a fire and when a fire is detected, photographs a fire image and transmits it to an administrator terminal; And
An administrator terminal installed with a fire detection app that receives fire images from the automated fire detector and displays them on a screen;
Automated re-breaking equipment system for reducing malfunctions using a smartphone app that includes a.
The method of claim 1, wherein the fire detection app,
An automated fire-breaking facility system for reducing malfunctions using a smartphone app that transmits the fire area and fire video to the 119 firefighting center when it is identified as a fire by analyzing the received fire image.
The method according to claim 2, wherein the fire detection app analyzes the image of the fire to determine the occurrence of a fire,
An automated re-breaking facility system for reducing malfunctions using a smartphone app that determines that a fire has occurred when the ratio of the red area in the entire image of the fire video exceeds the preset color threshold.
The method of claim 3, wherein the automated material detector,
A smoke amount detection sensor that detects the amount of smoke and provides it to an automated fire detector; And
Includes; a temperature detection sensor installed adjacent to the automatic material detector to detect the temperature and provide the automatic material detector,
An automated re-breaking facility system for reducing malfunctions using a smartphone app that transmits the amount of smoke detected through the smoke amount detection sensor and the temperature detected through the temperature detection sensor together to the manager terminal when transmitting a fire image.
The method according to claim 4, wherein the fire detection app analyzes the image of the fire to determine the occurrence of a fire,
When the detected smoke amount exceeds the preset smoke amount threshold, it is determined as a fire.
An automated re-breaking facility system for reducing malfunctions using a smartphone app that determines that a fire occurs when the detected temperature exceeds a preset temperature threshold.
The method according to claim 5, wherein the fire detection app analyzes the image of the fire to determine the occurrence of a fire,
The color threshold, the smoke amount threshold, and the temperature threshold are each assigned a weight, and when the sum of the weights exceeds a preset fire threshold, it is determined as a fire.
The method of claim 5, wherein the color threshold, smoke amount threshold, temperature threshold,
A system for reducing malfunctions using a smartphone app, characterized in that the environment of the area where the automatic fire detector is installed is set differently for each area.

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