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KR-20260067582-A - A System for Detecting a Fire Risk

KR20260067582AKR 20260067582 AKR20260067582 AKR 20260067582AKR-20260067582-A

Abstract

The present invention relates to a fire risk detection system comprising: a heat detection sensor and a carbon monoxide detection sensor for detecting ambient fire heat and carbon monoxide; a communication device for transmitting detection information and camera image data from the heat detection sensor and the carbon monoxide detection sensor to a server; a CCTV, a QR code, a terminal, and a fire alarm for receiving detection information from the server; and a moving bar for moving the position of a gas mask and a fire extinguisher upon receiving detection information from the server.

Inventors

  • 김기윤

Assignees

  • 김기윤

Dates

Publication Date
20260513
Application Date
20241106

Claims (3)

  1. A heat detection sensor (11) and a carbon monoxide detection sensor (17) that detect surrounding fire heat and carbon monoxide; A communication device (19) that transmits the detection information of the heat detection sensor (11), carbon monoxide detection sensor (17), and camera (70) image data to a server (20); CCTV (13), QR code (15), terminal (30), and fire alarm (16) receiving detection information from the above server (20); A fire hazard detection system including a moving bar that receives detection information from the above server (20) and moves the position of the gas mask (40) and fire extinguisher (50).
  2. In paragraph 1, A fire risk detection system including a moving bar characterized by the fact that detection information, including location information of the heat detection sensor (11) and carbon monoxide detection sensor (17), is transmitted to a server (20).
  3. In paragraph 1, A fire risk detection system including a moving bar, characterized in that the above QR code (15) provides information to terminals (30) other than the terminal (30) using data stored in the server (20).

Description

Fire Risk Detection System The present invention relates to a fire risk detection system, and more specifically, to a fire risk detection system that detects a fire through a fire occurrence sensor and provides a terminal that informs the surroundings of the location and status of the fire when a fire occurs, and allows a gas mask to be easily worn by vertically moving it. Generally, in crowded places such as subway stations, department stores, various public facilities, and apartments, people inside buildings often find it difficult to find evacuation routes due to the complex internal structure of the buildings during sudden power outages or fires, leading to confusion and frequent instances of massive casualties. In particular, unlike power outages, when a fire occurs in an apartment or gas leaks indoors, damage often occurs unwittingly because residents are unable to take appropriate measures, as they cannot quickly and effectively notify neighbors of the fire due to sound barriers or other obstacles to voice transmission. As an existing method to solve these problems, the applicant has presented an alarm device in Korean Patent Publication No. 0440565 (filing date: July 27, 2001) which detects a fire by equipping a portable emergency light with temperature, illuminance, and smoke detection sensors, and enables rapid evacuation by activating a warning light such as a strobe light when a fire occurs, thereby allowing evacuees to quickly know the location of the portable emergency light. The aforementioned system has an applicability limitation in that it can only guarantee effective operation within the range where the sensors mounted on the device can detect the occurrence of a fire. Therefore, there was a problem in that it was impossible to expect proper operation in the event of a fire (gas leak) occurring far from the installation location, and it was impossible to detect if there was a gas leak indoors. Figure 1 is a configuration diagram of a fire hazard detection system according to the present invention. Preferred embodiments of the present invention will be described in detail below. First, in describing the present invention, specific descriptions of related known functions or configurations are omitted to avoid obscuring the essence of the invention. Terms of degree used herein, such as ‘approximately’ and ‘substantially,’ are used to mean at or near the stated value when inherent manufacturing and material tolerances are presented in the stated meaning, and are used to prevent unscrupulous infringers from unfairly exploiting the disclosed content in which precise or absolute values are mentioned to aid in understanding the invention. FIG. 1 is a configuration diagram of a fire hazard detection system (1) according to the present invention. The present invention includes a fire hazard detection system (1) comprising a heat detection sensor (11) and a carbon monoxide detection sensor (17) for detecting ambient fire heat and carbon monoxide; a communication device (19) for transmitting detection information from the heat detection sensor (11) and the carbon monoxide detection sensor (17) and video data from a camera (70) to a server (20); and a CCTV (13), QR code (15), terminal (30), and fire alarm (16) for receiving detection information from the server (20). The above fire risk detection system (1) can be installed as a single unit, and a fire risk detection system (1) equipped with all of the above configurations can be installed in the required area and location, and the server (20) can also be managed commonly as a single server (20). The heat detection sensor (11) is activated when the temperature rises due to a fire in the surrounding area where it is installed, and the carbon monoxide detection sensor (17) is also activated when the concentration of carbon monoxide due to a fire in the surrounding area exceeds a set standard, and the information (temperature, carbon dioxide concentration) is transmitted to the server (20) via the communication device (19). At this time, location information regarding the location where the heat detection sensor (11) and carbon monoxide detection sensor (17) are installed can be transmitted together. In addition, video data captured by the camera (70) is also provided to the server (20). The above server (20) transmits the received data to the CCTV (13), QR code (15), terminal (30), and fire alarm (16). The CCTV (13) transmits video data captured by the camera (70) to the screen and can also provide video data to the CCTV (13) installed together with the detection sensor and to the CCTV (13) installed in other detection systems (1). The terminal (30) is a terminal (30) that is subscribed to the fire risk detection system (1), and information is transmitted directly from the server (20) to the terminal (30), and the QR code (15) enables a user of the terminal (30), other than the subscribed terminal (30), to receive data from the server (20). The above fi