Thermal environment characteristics and factory landscape design of precision manufacturing process based on human-machine collaboration

In modern manufacturing, the thermal environment characteristics of factories play a crucial role in production efficiency and product quality. This article aims to explore the thermal environment characteristics in precision manufacturing processes based on human-machine collaboration, and construct a factory workshop human-machine collaboration network model. The model includes the principle of human-machine collaboration manufacturing model, adaptive human-machine interaction process, task matching algorithm, and collaborative information processing model. It analyzes the application and optimization of human-machine collaboration in temperature control from multiple dimensions. In the section of thermal environment simulation and analysis models, in-depth analysis of the thermal environment in the factory workshop is conducted by establishing heat control equations and applying temperature data denoising algorithms. The simulation results indicate that effective management of the thermal environment can significantly reduce temperature fluctuations and improve the stability of the manufacturing process. The landscape design analysis of precision manufacturing factories emphasizes the spatial layout characteristics and landscape configuration principles, including the green landscape planting mode that saves energy and cooling, and proposes to improve the microclimate of the workshop through reasonable plant layout, thereby further enhancing manufacturing efficiency. Therefore, the thermal environment characteristics of precision manufacturing processes based on human-machine collaboration not only have a direct impact on the production process, but also provide systematic theoretical support for the landscape design of factories. Future research can further deepen the integration of thermal environment management and landscape design, which is expected to enhance the sustainable development level of modern precision manufacturing industry.