KR-20260066571-A - Lighting History Display Management System Using QR Code

Abstract

A lighting history display management system using QR codes is deployed in multiple zones and includes multiple lighting facilities having QR codes for recognition, a communication unit that communicates with an external device, multiple facility management terminals of a facility manager that inspects multiple lighting facilities and scans QR codes, a server communication unit that communicates with the communication unit, and a management server having a server control unit that stores a normal data range for the facility status of each of the multiple lighting facilities, controls the transmission of facility management information including product information, installation date, power line location verification, maintenance records, and facility status of the corresponding lighting facility to the corresponding facility management terminal when any of the multiple facility management terminals scans a QR code, sorts and stores facility management information including inspection items and data regarding the facility status of the lighting facilities when inspection items are input according to the facility manager's inspection, and determines the status of the multiple lighting facilities based on whether the data regarding the facility status of the multiple lighting facilities received from the corresponding facility management terminal is within the normal data range.

Inventors

• 송민섭

Assignees

• 주식회사 닥터라이팅

Dates

Publication Date

20260512

Application Date

20241104

Claims (3)

1. Multiple lighting fixtures arranged in multiple zones and having QR codes for recognition; A plurality of facility management terminals of a facility manager having a communication unit that communicates with an external device, inspecting the plurality of lighting facilities and photographing the QR code; and A lighting history display management system using a QR code, characterized by comprising a management server having a server communication unit that communicates with the communication unit and stores a normal data range for the equipment status of each of the plurality of lighting facilities, and when any of the plurality of equipment management terminals scans the QR code, controls the transmission of equipment management information including product information, installation date, power line location verification, maintenance records, and equipment status of the corresponding lighting facility to the corresponding equipment management terminal, sorts and stores equipment management information including inspection items and data on the equipment status of the lighting facility when inspection items are input according to an inspection by an equipment manager, and determines the status of the plurality of lighting facilities based on whether the data on the equipment status of the plurality of lighting facilities received from the corresponding equipment management terminal is within the normal data range.
2. In paragraph 1, The above server control unit is, A lighting history display management system using a QR code, characterized by determining the status of the plurality of lighting facilities by comparing data including energy consumption, output intensity, output history according to control signals, replacement timing, illuminance, and current value supplied to LEDs for each of the plurality of lighting facilities with the normal data range, and controlling the transmission of inspection items including installation defects, LED defects, and power supply defects of the lighting facility to the facility management terminal if it is determined that the maintenance frequency of any one of the plurality of lighting facilities is greater than the preset ratio of the maintenance frequency of other lighting facilities.
3. In paragraph 1, The above management server further includes a server display unit that displays the plurality of lighting facilities on a map or facility map, and The above server control unit is, A lighting history display management system using QR codes, characterized by controlling the server display unit to display the corresponding lighting equipment on a map or facility map when the condition of any one of the plurality of lighting equipment is determined to be defective, broken, flickering, or abnormal while the equipment management information of the plurality of lighting equipment is grouped, sorted, and stored.

Description

Lighting History Display Management System Using QR Code The present invention relates to a lighting history display management system using QR codes, and more specifically, to a lighting history display management system using QR codes for efficiently and accurately managing lighting facilities. Unlike conventional lighting fixtures using incandescent or fluorescent lamps, recently used LED lighting fixtures are designed so that when the lamp reaches the end of its life, the entire fixture must be replaced rather than just the lamp. In addition, generally, the lifespan of a lighting lamp or fixture is considered to be over when its luminous flux drops to 70% or less of its initial value, and replacement of the fixture is recommended. Furthermore, if the lamp or fixture is not replaced when the luminous flux of the fixture drops below a certain level, the illuminance (brightness) of the space will be lower than the appropriate level, resulting in living in a state of lower illuminance than the recommended level. Maintenance is crucial for such lighting systems, and due to the recent advancements in smart cities and the Internet of Things (IoT), the management and maintenance of lighting systems are emerging as important issues. However, the maintenance of existing lighting systems relies primarily on manual labor, which is time-consuming, costly, and prone to errors. Furthermore, there is a problem of significantly low maintenance efficiency because facility managers do not maintain records of inspections, repairs, or maintenance data. FIG. 1 is an overall control block diagram of a lighting history display management system using a QR code according to the present invention. Figure 2 is a control block diagram of a lighting system. Figure 3 is a control block diagram of an equipment management terminal. Figure 4 is a control block diagram of a management server. Figure 5 is a control block diagram of an administrator terminal. Figure 6 is an overall system configuration diagram of a lighting history display management system using QR codes. Figure 7 is an example of a lighting history display management system using QR codes. Figure 8 is an example diagram showing lighting equipment using a lighting history display management system utilizing QR codes. Figure 9 is an example diagram showing a lighting layout using a lighting history display management system using QR codes. In order to provide a detailed explanation sufficient for a person skilled in the art to easily implement the technical concept of the present invention, the most preferred embodiment of the present invention will be described with reference to the accompanying drawings. It should be noted that in assigning reference numerals to the components of each drawing, the same components are given the same reference numeral whenever possible, even if they are shown in different drawings. Furthermore, in describing the present invention, if it is determined that a detailed description of related known components or functions could obscure the essence of the present invention, such detailed description is omitted. Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings attached to this specification. FIG. 1 is an overall control block diagram of a lighting history display management system (1) using a QR code according to the present invention, FIG. 2 is a control block diagram of a lighting facility (10), FIG. 3 is a control block diagram of a facility management terminal (20), FIG. 4 is a control block diagram of a management server (30), and FIG. 5 is a control block diagram of a manager terminal (40). Referring to FIGS. 1 to 5, the configuration of a lighting history display management system (1) using a QR code is explained. A lighting history display management system (1) using QR codes includes lighting equipment (10), equipment management terminal (20), management server (30), and manager terminal (40). The lighting equipment (10) is placed in multiple zones and has a QR code for recognition. The lighting equipment (10) includes an equipment body (11), a QR code (12), a situation detection sensor (13), an equipment communication unit (14), a camera (15), and an equipment control unit (16). The equipment body (11) includes an LED and can be formed in the shape of a pillar, such as a street light, as a support body that supports the LED, and can be the main body that forms a bus stop. The QR code (12) may contain a long internet address (URL), photo and video information, map information, business card information, etc. Here, the QR code (12) serves to guide to a webpage or application page that displays the equipment management information of the corresponding lighting equipment stored in an aligned manner. The situation detection sensor (13) can detect temperature, humidity, weather conditions including rain, snow, and fog, fine dust, smoke, etc. around a plurality of lighting facilitie