五轴加工中心

  • 网络Five axis machining center;doc 5
五轴加工中心五轴加工中心
  1. 根据作者的实际体会就应用UG软件针对五轴加工中心的两个旋转轴的定义和程序开头初始化的后处理问题作了一些探讨。

    In this paper we elaborate some discussion and writer 's actual experience aimed at post process of using UG software to identify two rotary axes of five-axis hexapod machine centre and initialize beginning of Procedure .

  2. 桥式龙门五轴加工中心横梁部件的特性研究

    Characteristics Study on Bridge Type Gantry Five-axis Machining Center Beam Parts

  3. 虚拟环境下五轴加工中心的建模技术研究

    Study on modeling 5 - axe machining center in virtual environment

  4. 五轴加工中心主轴的热性能虚拟仿真研究

    Virtual thermal analysis on 5 - axis machining center spindle

  5. 应用虚拟制造技术开发五轴加工中心

    Approach 5 - axis machining center with virtual manufacturing technology

  6. 这些曲面类零件多需利用五轴加工中心进行加工。

    These workpieces are machined using five-axis machining center .

  7. 福特公司的高速五轴加工中心

    Ford Company 's High-speed Working-Center With Five Shafts

  8. 因此,大连机床集团决定研发墙式五轴加工中心。

    Therefore , Dalian machine tool group decided to develop a wall of five-axis machining center .

  9. 在加工中心运动链分析过程中,详细分析了五轴加工中心的运动链构成类型及不同类型的优、缺点,并简单讨论了其工作空间问题。

    On the analysis process of kinematical chain of machining centers , we discussed their workspace briefly .

  10. 对于较复杂的带有变螺距的零件通常都是用计算机自动编程在四轴或五轴加工中心上进行加工的。

    Usually , these kinds of parts are machined on4-axises or5-axises Machining Centre by means of computer programming .

  11. 本文介绍了高速五轴加工中心的组成、技术指标、性能等方面的情况。

    This article introduces the composition , technological index and functional features of High - speed Working Center with five shafts .

  12. 采用虚拟仿真技术计算分析五轴加工中心的主轴部件的热性能,用有限元分析方法建模和热力学仿真计算得到虚拟机床的主轴发热和温升。

    The spindle thermal performance of 5 axis machining center based on virtual simulation technology is analyzed . The heating and temperature change on the virtual machine spindle has been calculated by finite element analysis method and thermodynamics simulation .

  13. 本论文内容以图论和组合理论为基础,运用机构配置矩阵、树图以及功能分析等方法主要针对四轴、五轴加工中心研究其机构拓扑结构、换刀动作及其运动链结构。

    The theoretical basis of this research is the topological , kinematical characteristics of mechanisms and the analysis of kinematical chain configuration . The main objects are four - five-axis machining centers with tool change arm and without tool change arm .

  14. 五轴加工中心的主轴部件的转速高,容易发热,当发热量或温升超过一定值时,主轴不能在设定的转速下正常工作。

    Because of the high speed of the principal axis system of 5 axis machining center and severe heat , the principal axis can 't work normally at a certain speed when the heat is too large or the temperature exceeds a fixed value .

  15. 分析了机床运动副的误差运动学原理,利用齐次坐标变换对一台包含3个移动副和2个转动副的五轴加工中心建立了误差综合数学模型。

    The theory of kinematics of the error motion for machine tools was analyzed , and the error synthesis model of a five axis machine center including three prismatic and two rotary type of joints was discussed by use of a homogeneous coordinate transformation method .

  16. 本文介绍了三轴数控加工中心的加工原理、结构形式和程序设计,以及五轴CNC加工中心机床的研究。

    The paper introduces the working principle , structural form and program design of CNC machine center with three axes , and study of CNC machine center with five axes .

  17. DMU-100T五轴联动加工中心加工闭式叶轮

    Accomplishing machining technology of five axes simultaneity for integrally-shrouded impeller in DMU-100T

  18. 针对一种五轴数控加工中心,用数学描述的方法建立其坐标变换的数学模型,讨论BC两角可能出现的几种情况,从而解决了其数据转换的问题。

    Aimed at a kind of 5-axis CNC machine , Its mathematical model about coordinate transformation was presented by means of mathematical and , discusses some conditions of B and C angle and resolves the data conversion problem were discussed .

  19. 五轴数控加工中心数学模型的建立与实现

    Building and actualizing of mathematical model in 5-axis CNC machining center

  20. 五轴联动加工中心滑台的动态优化设计

    The Dynamic Optimum Design of Slip of High-speed 5-axis Machine Center

  21. 五轴联动加工中心主轴系统的结构优化

    Optimization design of the spindle system of 5 - axis machining center

  22. 五轴联动加工中心是数控机床的高端产品。

    5-axis CNC machining center is the linkage of the high-end products .

  23. 五轴铣削加工中心坐标转换数学模型的建立及应用

    Building And Applying of 5-Axis Manufacture Center Coordinate Change Model

  24. 该算法已在某型号五轴数控加工中心仿真系统的全局干涉检测模块中得到应用,通过实验比较,证明了该算法的可行性。

    This algorithm is feasible in global collision detection in 5-axis NC machining simulation .

  25. 倾斜摆动轴五轴联动加工中心后置处理算法研究

    Research on Post Processing Algorithm for Five-axis Machining Center with Table Tilting and Swinging Axis

  26. 基于UG/POST五轴联动加工中心专用后置处理器的研发

    The Development and Application of Special Postprocessor for Five-axis Machining Center Based on UG / POST

  27. 介绍了径向蜗形凸轮在高速五轴联动加工中心DMU70eVolution上的数控加工方法。

    NC machining method for radial snail cam on 5-axis high speed DMU 70 eVolution machining centre is introduced .

  28. 介绍DMU70eVolution高速五轴联动加工中心加工圆柱凸轮的数控加工方法。

    The method of CNC programming was described which was used for machining cylinder cam in 5-axeses high speed DMU 70 eVolution machining center .

  29. 研究实用的五轴数控加工中心在线检测系统功能,开发面向对象的五轴在线检测系统,并进行系统调试。

    Study on the function of the applied on-line inspecting system for the five-axes NC machining and object oriented system development of the on-line inspecting and controlling for five-axes machine .

  30. 最后在五轴数控加工中心上对相同尺寸参数的工件进行了加工实验,采用三坐标测量机测量了工件的加工变形情况,验证了预报模型的正确性。

    To validate the prediction model , a same dimension component is machined in a five axis machine center and its deformation is measured on a Three Coordinate Measuring Machine .