KR-20260062531-A - Facility management system with integrated equipment monitoring and alarm functions

Abstract

The present invention relates to a facility management system having an integrated equipment monitoring and alarm function that supports systematic maintenance of facilities by monitoring various systems within facilities that are difficult to inspect by human resources, and enables rapid and accurate detection and response to abnormalities occurring within structures such as ducts through which various pipes and cables pass.

Inventors

• 서광설

Assignees

• 서광설

Dates

Publication Date

20260507

Application Date

20241029

Claims (5)

1. A database (1) in which a system diagram including cables (C) and piping (P) is stored together with a structural drawing of the facility; A field monitoring unit (2) comprising: a rope (21) having a wire (22) installed inside for power and data transmission; a connector (23) formed with a terminal connected to one end of the rope (21) and communicating with the wire (22); a winding unit (24) that unwinds the rope (21) through a rotational force applied while the rope (21) is wound; a tension measuring unit (26) that measures the tension applied to the rope (21); a counter (27) that calculates the length of the unwound rope (21) through the number of rotations of the winding unit (24); and a first communication unit (28) that performs wireless communication with an external device and transmits the length of the unwound rope (21) and a signal transmitted through the wire (22); A first sensing unit (3) connected to the above connector (23) and equipped with a lighting module (31) that emits light, a camera module (32) that captures images, and a sensor module (33) that collects environmental information including temperature and humidity; A second detection unit (5) installed on the floor surface of the space into which the first detection unit (3) is introduced, which detects moisture caused by leakage; A facility management system characterized by comprising: an alarm unit (61) that generates an alarm signal based on detection by the second detection unit (5); a second communication unit (62) that communicates with the first communication unit (28); and a display unit (63) that visually outputs the location of the field monitoring unit (2) and the first detection unit (3) on the structural drawing and information received through the second communication unit (62).
2. In paragraph 1, A moving unit (4) further comprising: a floating body (41) to which the first sensing unit (3) is detachable; a plurality of driving wheels (43) formed on the lower side of the body (41) and configured to be driven according to a driving signal; a plurality of propellers (44) configured on the upper side of the body (41) to be able to fly according to a flight signal; and a third communication unit (45) for receiving driving signals and flight signals. The facility management system is characterized in that the monitoring unit (6) further includes a controller (64) that generates driving signals and flight signals to move the moving unit (4) and transmits them to the third communication unit (45).
3. In paragraph 2, The facility management system is characterized by the above-mentioned moving unit (4) further including a propeller protection structure (42) made of a cushioning material and configured to surround the propeller (44) on the outside.
4. In paragraph 1, The above camera module (32) is composed of a first camera (321) made of a fisheye lens installed at one end of a cylindrical first detection unit (3), a second camera (322) installed on the side of the first detection unit (3) to adjust the shooting direction, and a camera rotation part (323) that rotates the second camera (322). A facility management system characterized in that the above lighting module (31) is configured to illuminate diagonally from one side of the first detection unit (3) to one side.
5. In paragraph 1, A facility management system further comprising a marking module (34) installed together with the first detection unit (3), the marking module (34) comprising a spray (341) containing a fluorescent dye, a first actuator (342) for controlling the spraying direction of the spray (341), and a second actuator (343) for operating the spray (341).

Description

Facility management system with integrated equipment monitoring and alarm functions The present invention relates to a facility management system, and more specifically, to a facility management system having an integrated equipment monitoring and alarm function that supports systematic maintenance of facilities by monitoring various systems within facilities that are difficult to inspect by human personnel, and enables rapid and accurate detection and response to abnormalities occurring within structures such as ducts through which various pipes and cables pass. In general, various facilities such as large buildings are equipped with diverse equipment and systems, including air conditioning, power supply, access control, monitoring of fire, gas leaks, and flooding, water supply and sewage systems, and various disaster prevention measures, as well as elevators, lighting, septic tanks, and drainage pumps operated within the facility. To efficiently manage these increasingly complex facilities, Facility Management Systems (FMS) are being established to provide integrated management. In particular, with the recent trend toward taller, larger, and more complex facilities, coupled with the advancement of various equipment, it is becoming increasingly difficult for management personnel to systematically manage all facilities. Therefore, it is crucial to accurately identify potential safety hazards or abnormal locations at an early stage that could lead to a rapid decline in equipment functionality, and to establish appropriate countermeasures. To address this, unmanned facility monitoring technologies utilizing various sensors and video have been developed and are being applied in the field; however, since there are limitations to unmanned remote monitoring of every location within large-scale facilities, the current reality is that such systems are only partially applied to critical areas based on the severity of the issue. Furthermore, due to their nature, monitoring of ductwork—through which various cables for power and signal transmission or system pipes pass—is inevitably neglected, making it difficult to pinpoint the exact location of the problem when it occurs. Moreover, in locations vulnerable to flooding or moisture, the risk of leakage and inundation inevitably increases. Furthermore, due to the nature of installation along relatively long sections within facilities, the method of partially inspecting problem areas through viewing windows installed in separate spaces is still being used, and this process inevitably entails significant inconvenience. FIG. 1 is a conceptual diagram of the present invention, FIG. 2 is a block diagram showing a signal flow according to the present invention, FIG. 3 is an example diagram of the installation of a field monitoring unit according to the present invention. FIG. 4 is a structural diagram of a field monitoring unit according to the present invention, FIG. 5 is a structural diagram of a rope and connector according to the present invention, FIG. 6 is a structural diagram of a first sensing unit according to the present invention, FIG. 7 is a structural diagram showing the combined appearance of the moving unit of the present invention. The facility management system having integrated monitoring and alarm functions of the present invention will be described in detail below with reference to the attached drawings. FIG. 1 is a conceptual diagram of the present invention, FIG. 2 is a block diagram showing the signal flow according to the present invention, and FIG. 3 is an example diagram of the installation of a field monitoring unit according to the present invention. The present invention supports monitoring various systems within a facility that are difficult to inspect by manpower and enables systematic maintenance of the facility, and in particular, enables rapid and accurate detection and action regarding abnormal locations occurring within structures such as ducts (D) through which various pipes (P) and cables (C) pass. The duct (D) is a passage through which pipes (P) and cables (C) distributed to each compartment in a facility equipped with multiple compartments pass, extending from tens to hundreds of meters in length. Generally, inspection windows are installed at each section to check for internal abnormal locations, making the task of finding abnormal locations a very cumbersome task. The present invention supports monitoring various systems within a facility that are difficult to inspect by manpower in the event of facility monitoring, and enables the rapid and accurate detection and response to abnormal connections. To this end, the invention comprises a database (1), a field monitoring unit (2), a first detection unit (3), a movement unit (4), a second detection unit (5), and a monitoring unit (6). The above database (1) stores a system diagram including cables (C) and piping (P) of a facility under monitoring, along with structural drawings of the fac