%0 Journal Article
%T 基于Unity3D的电梯机械设计虚拟仿真实验平台<br>Virtual Simulation Experiment Platform for Elevator Mechanical Design Based on Unity3D
%A 乔硕
%J Mechanical Engineering and Technology
%P 75-83
%@ 2167-6623
%D 2022
%I Hans Publishing
%R 10.12677/MET.2022.112010
%X 由于目前虚拟仿真实验平台难以满足实际机械设计的需要，研究基于Unity3D的电梯机械设计虚拟仿真实验平台。在平台硬件设计上，建立平台总体架构，根据电梯机械设计要求，构成平台功能模块。在平台软件设计上，通过电梯机械设计分解，拆分电梯机械结构，生成二维工程图数据。构建电梯机械三维模型，搭建三维仿真的虚拟场景，实现电梯模型的装配。基于Unity3D的模型导入与数据转换，添加贴图材质信息，完成模型渲染与处理。经实验论证分析，本文平台的信号响应值均在±1之间，满足平台的应用要求，通过本文平台完成轿顶弹簧刚度参数调整后，有效改善了电梯的振动频率，对电梯减振具有较好的辅助作用。<br />
Since the current virtual simulation experimental platform is difficult to meet the needs of actual mechanical design, a virtual simulation experimental platform for elevator mechanical design based on Unity3D is studied. In the design of platform hardware, the overall structure of the platform is established, and the functional modules of the platform are formed according to the requirements of elevator mechanical design. In the platform software design, through the elevator mechanical design decomposition, the elevator mechanical structure is split, and the two-dimensional engineering drawing data is generated. Build a three-dimensional model of elevator machinery, build a virtual scene of three-dimensional simulation, and realize the assembly of elevator models. Based on Unity3D model import and data conversion, add texture material information, complete model rendering and processing. After experimental demonstration and analysis, the signal response values of the platform in this paper are all between ±1, which meets the application requirements of the platform. After the adjustment of the stiffness parameters of the car top spring is completed through the platform in this paper, the vibration frequency of the elevator is effectively improved, and it has a better effect on the vibration reduction of the elevator good support.
%K Unity3D，电梯机械设计，虚拟仿真实验平台，平台架构，功能模块，电梯机械三维模型<br>Unity3D
%K Elevator Mechanical Design
%K Virtual Simulation Experiment Platform
%K Platform Architecture
%K Functional Modules
%K 3D Model of Elevator Machinery
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=49747