<p>Against the backdrop of global climate change and resource shortages, the precision machinery manufacturing industry is confronted with the issues of reducing energy consumption and carbon emissions. VR visualization technology can materialize complex design and production processes, providing a brand-new solution for the precision machinery manufacturing industry. The research is based on an intelligent thermal temperature control system and combines VR visualization technology to optimize the product design in the precision mechanical manufacturing process. By building an immersive virtual design environment through VR visualization, the design team can conduct a comprehensive assessment and optimization of the product’s appearance, structure, and human-computer interaction in a virtual scene. The software and hardware architecture of the intelligent temperature control system was designed, and VR visualization technology was utilized to conduct real-time monitoring and dynamic simulation of the operating status of the temperature control system, in order to achieve precise temperature regulation. The performance of the designed system was verified through system testing, and the application effect of VR visualization in product design optimization and low-carbon control was analyzed. The test results show that the designed intelligent temperature control system has significantly improved in terms of temperature accuracy and energy efficiency. In the process of mechanical product design, the application of VR visualization technology has effectively enhanced design efficiency and product quality, reduced overall energy consumption, and strengthened the market adaptability of products. By conducting real-time monitoring and analysis of energy consumption and carbon emissions during the production process through VR visualization, the goal of low-carbon control has been achieved, providing strong support for the sustainable development of enterprises. By optimizing product design and temperature control during the production process, production efficiency and product quality have been enhanced, while energy consumption and carbon emissions have also been significantly reduced.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

VR visualization design and intelligent environment control system application in product design of precision mechanical manufacturing process

  • Yuzhou Wu,
  • Huiyang Zhu,
  • Wenlong Yu

摘要

Against the backdrop of global climate change and resource shortages, the precision machinery manufacturing industry is confronted with the issues of reducing energy consumption and carbon emissions. VR visualization technology can materialize complex design and production processes, providing a brand-new solution for the precision machinery manufacturing industry. The research is based on an intelligent thermal temperature control system and combines VR visualization technology to optimize the product design in the precision mechanical manufacturing process. By building an immersive virtual design environment through VR visualization, the design team can conduct a comprehensive assessment and optimization of the product’s appearance, structure, and human-computer interaction in a virtual scene. The software and hardware architecture of the intelligent temperature control system was designed, and VR visualization technology was utilized to conduct real-time monitoring and dynamic simulation of the operating status of the temperature control system, in order to achieve precise temperature regulation. The performance of the designed system was verified through system testing, and the application effect of VR visualization in product design optimization and low-carbon control was analyzed. The test results show that the designed intelligent temperature control system has significantly improved in terms of temperature accuracy and energy efficiency. In the process of mechanical product design, the application of VR visualization technology has effectively enhanced design efficiency and product quality, reduced overall energy consumption, and strengthened the market adaptability of products. By conducting real-time monitoring and analysis of energy consumption and carbon emissions during the production process through VR visualization, the goal of low-carbon control has been achieved, providing strong support for the sustainable development of enterprises. By optimizing product design and temperature control during the production process, production efficiency and product quality have been enhanced, while energy consumption and carbon emissions have also been significantly reduced.