Design of ceiling light with air quality monitoring and heat dissipation structure based on duct technology

Liang Yu; Jiayu Mo; Jiancong Lu; Yangbing Lai; Liwei Tian

doi:10.1117/12.3032803

5 July 2024 Design of ceiling light with air quality monitoring and heat dissipation structure based on duct technology

Liang Yu, Jiayu Mo, Jiancong Lu, Yangbing Lai, Liwei Tian

Proceedings Volume 13184, Third International Conference on Electronic Information Engineering and Data Processing (EIEDP 2024); 131840K (2024) https://doi.org/10.1117/12.3032803
Event: 3rd International Conference on Electronic Information Engineering and Data Processing (EIEDP 2024), 2024, Kuala Lumpur, Malaysia

Abstract

Most air quality monitors and lighting fixtures are currently separate, with air quality monitors typically being stand-alone devices that require separate power supplies and mounting locations. This not only occupies valuable space but also complicates their use and management. The emergence of air quality monitoring ceiling lights in smart homes aims to address this issue. However, many existing ceiling light designs do not consider heat dissipation, which can lead to performance issues, reduced lifespan, and even fire hazards. To tackle these challenges, this study presents the design of an intelligent ceiling lamp for air quality monitoring utilizing air duct technology. Equipped with a seven-in-one air quality sensor, the ceiling lamp collects indoor air data and performs real-time intelligent control and anomaly identification through a cloud-side-end synergy approach. The incorporation of air ducts enhances the sensitivity and accuracy of air quality monitoring, facilitates thermal convection, and improves heat dissipation efficiency, ultimately enhancing performance and longevity. Physical product design and field tests conducted on the cloud-side-end platform demonstrate that the ceiling lamp's air quality monitoring and anomaly identification have an average inference time of less than 1 millisecond with an identification accuracy of over 98%. Furthermore, the air duct design improves thermal efficiency by approximately 28%. Overall, this intelligent ceiling lamp represents a practical, efficient, and intelligent multi-functional indoor lighting solution.

(2024) Published by SPIE. Downloading of the abstract is permitted for personal use only.

Citation Download Citation

Liang Yu, Jiayu Mo, Jiancong Lu, Yangbing Lai, and Liwei Tian "Design of ceiling light with air quality monitoring and heat dissipation structure based on duct technology", Proc. SPIE 13184, Third International Conference on Electronic Information Engineering and Data Processing (EIEDP 2024), 131840K (5 July 2024); https://doi.org/10.1117/12.3032803

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KEYWORDS

Air quality

Lamps

Design

Light sources and illumination

Control systems

Light emitting diodes

Fluctuations and noise

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