Multifunctional Intelligent Water Curtain Air Cabinet
DOI:
https://doi.org/10.63313/AERpc.2016Keywords:
Environmental Pollution, Miniaturization, Intelligent Control, Indoor Environment, Model-SpecificAbstract
This project aims to develop an intelligent model-specific water curtain system, providing a compact, cost-effective, and high-performance comprehensive solution for model enthusiasts and small studios to address issues such as formaldehyde pollution, particulate diffusion, temperature and humidity, and noise during painting operations. The system integrates formaldehyde sensors, temperature and humidity sensors, and a display screen, and uses intelligent control algorithms to link formaldehyde concentration with fan speed, ensuring air quality remains within safe limits. Additionally, the system features real-time data display, alarm notifications, and remote control capabilities, enhancing user experience. Experimental results demonstrate that the system meets expected targets in purification efficiency, energy consumption control, and operational convenience. In the future, with further advancements in intelligent technology, this system is expected to play a greater role in model making and air purification, providing users with a healthier and more environmentally friendly working environment.
References
[1] Wei Hengyuan, Wang Xiaomei. Study on air cleanliness and application of air filters in wa-ter curtain spray booths[J]. Modern Paint & Finishing, 2011, 14(04): 50-53.
[2] Wei Hengyuan, Wang Xiaomei. Fluid dynamics analysis of exhaust systems in water cur-tain spray booths[J]. Modern Paint & Finishing, 2011, 14(03): 47-50+52.
[3] Wang Xiaochen, Yao Dengjun. Discussion on the application of dry spray booths in auto-motive painting[J]. *Automotive Industry Research*, 2022(03): 21-24.
[4] Li Zheng. Discussion on the design of wet spray booths[C]// Surface Engineering Technol-ogy Branch of Shaanxi Mechanical Engineering Society, Shaanxi Corrosion and Protection Society, Xi'an Aircraft Industry (Group) Co., Ltd., Shaanxi Heavy Duty Automobile Co., Ltd., Xi'an Society of Thermal Power. Proceedings of 2003 China Xi'an Coating and Painting Technology Exchange Conference. Guangzhou Electric Appliance Research Institute, 2003: 5.
[5] Xia Benming. Application of variable air volume control system for fume hoods based on wind speed sensors[J]. *Energy Conservation*, 2024, 43(01): 110-112.
[6] Jia Hongbin. Design and implementation of an exhaust system for electronics training la-boratories based on STM32[J]. *Shanxi Electronic Technology*, 2023(05): 22-25.
Downloads
Published
Issue
Section
License
Copyright (c) 2025 by author(s) and Erytis Publishing Limited.
This work is licensed under a Creative Commons Attribution 4.0 International License.
How to Cite
