Kinetic Mechanical Engineering, 2021, 2(2); doi: 10.38007/KME.2021.020204.
Aditya Ijaz
University of Balochistan, Pakistan
Construction machinery products are bulky and complex in structure, which makes many difficulties in the process of product customization. The development of parametric design brings great convenience to product design and greatly improves the efficiency of product research and development. In order to solve the shortcomings of the existing research on the virtual reality visualization customization platform for construction machinery products, this paper discusses the parametric design function equations and the visualization and virtual reality feature parameterization of construction machinery products. The development tools and product configuration of the virtual reality visualization customization platform are briefly discussed. And design and discuss the process structure of the virtual reality visualization customization platform for construction machinery products proposed in this paper, and finally apply the virtual reality visualization customization platform for construction machinery products designed in this paper to mixing equipment, paver, and road roller in the collected highway engineering projects. Experimental test with dump truck mechanical products. The experimental data show that the parametric design achieves an average accuracy of about 95.7 in the configuration of product functions and prices in construction machinery products mixing equipment and paver, while the accuracy of product functions and price configuration in construction machinery products road rollers and dump trucks is about 95.7. The accuracy averages around 96.2. Therefore, it is verified that the virtual reality visualization customization platform for construction machinery products based on parametric design has good performance effects.
Parametric Design, Construction Machinery Products, Virtual Reality, Visualization Customization
Aditya Ijaz. Virtual Reality Visualization Customization Platform for Construction Machinery Products Based on Parametric Design. Kinetic Mechanical Engineering (2021), Vol. 2, Issue 2: 27-35. https://doi.org/10.38007/KME.2021.020204.
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