The Development of Exhaust Fan Housing With Ceiling Mounting For High Rise Buildings by Using DFMA

Q3 Engineering Journal of Applied Engineering and Technological Science Pub Date : 2023-06-05 DOI:10.37385/jaets.v4i2.1675

A. Suwandi, Muhammad Pillar Rachmawanto, Wina Libyawati, J. Siregar

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Abstract

Design for manufacturing and assembly (DFMA) is widely applied in many industries to optimize the manufacturing and assembly process at the early stage of design, with the aides of the CAD model. Many researchers apply the DFMA to increase assembly efficiency, by decreasing the number of parts from a product, decreasing the manufacturing cost, and reducing assembly time. Therefore, this research applies DFMA to develop exhaust fan housing with ceiling mounting for high rise building type with the same purpose, and at the same time to justify that the method can overcome the problem of assembly time in a production line. Both designs from before and after the application of DFMA, are being compared by using finite element simulation and experimental. The simulation employs stress analysis, to predict the strength of those designs. While the experimental uses a manufacturing cost survey, real assembly time survey and failure test to show the advantages of DFMA design results. The research result shows that the DFMA method can decrease the manufacturing cost by 0.44%, and the assembly time by up to 2%, and able to withstand the entire mass of the ceiling mounting fan.

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应用DFMA开发高层建筑吸顶排风机箱

制造与装配设计（DFMA）广泛应用于许多行业，在设计的早期阶段，借助CAD模型来优化制造与装配过程。许多研究人员应用DFMA通过减少产品的零件数量、降低制造成本和缩短装配时间来提高装配效率。因此，本研究将DFMA应用于开发具有相同用途的高层建筑用吸顶式排风机壳，同时证明该方法可以克服生产线中装配时间的问题。通过有限元仿真和实验对DFMA应用前后的两种设计进行了比较。模拟采用应力分析来预测这些设计的强度。而实验采用了制造成本调查、实时装配调查和故障测试来展示DFMA设计结果的优势。研究结果表明，DFMA方法可以将制造成本降低0.44%，组装时间减少2%，并且能够承受整个吊扇的质量。

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