提出了虚拟机床的概念,介绍其功能和通信技术。
In this paper, the concept of the virtual machine is presented, its functions and communication technologies are introduced.
本文介绍了虚拟机床系统设计制作中的主要及关键技术。
This paper introduces the key techniques about the design and development of the Virtual Machine System.
通过在虚拟机床模型上进行碰撞干涉检测,就可以提供正确的数控加工程序。
Through collision and interference detection in the virtual machine tool model, we can get the correct nc programs.
虚拟机床建模是数控加工仿真的基础,通用化的建模方法是保证仿真高效的要求之一。
Modeling of virtual machine tools is the foundation of processing simulation, and the universal modeling method is the one of the requests assuring high efficiency of simulation.
并使虚拟机床加工系统与其他虚拟系统以及CAD/CAM系统、制造网络上加工地之间的协作更加默契。
The foundation of this architecture makes the cooperation more harmonious between VMT and the others such as CAD/CAM system and machining plot on manufacturing network.
虚拟机床所蕴含的内容十分丰富,几何建模和运动仿真是其最为基本的部分,是实现虚拟机床全功能仿真的基础。
The contents of VMT are enrichment. The basic parts of VMT are geometry modeling and kinematics simulation, these are the foundation for the full function simulation of VMT.
本文通过实验对课题理论研究部分的内容进行了验证,证明将UG和VERICUT相结合进行虚拟机床技术研究是一种可行的方法。
The theoretical part of the research is verified by experiment, and the feasibility of the VMT research through UG and VERICUT is testified.
本文通过实验对课题理论研究部分的内容进行了验证,证明将UG和VERICUT相结合进行虚拟机床技术研究是一种可行的方法。
The theoretical part of the research is verified by experiment, and the feasibility of the VMT research through UG and VERICUT is testified.
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