特有智能加工速度控制:可分别控制加工速度,真正提高加工效率,处长刀具寿命、提高成品率。
C. unique intelligent processing speed control: can control the processing speed, and truly improve the processing efficiency, director of tool life, improve the rate of finished products.
在功能上加入了智能控制模块和刀具状况监视模块,以此提高数控机床的加工效率,并使加工精度得到保证。
The system have an intelligent control function module and a tool wear and breakage dettction function module which are used to raise machining efficiency and to ensure machining accuracy of CNC.
开创了刀具设计智能化方向的一个新途径。
对刀具智能监控技术在二工位动平衡自动校正系统上的应用展开研究,提出适用于实际加工的方法。
The intelligent monitoring technology used in the integrated two-procedure system for automatic dynamic balancing emendation is deeply studied and the practical method is advanced.
本文通过集成多个传感器的信息,建立了一个基于神经网络的刀具状态监测的智能系统。
This paper establishes an intelligent system based on Unsupervised neural network for monitoring the state of cutting tool by integrating information from a variety of sensors.
以去除金属量最少为目标函数,建立了单排刀具和多排刀具的V型铣削去重模型。并开发了两种去重方式的智能规划系统。
Minimum removed metal is taken as object, single cutter and multi-cutter V-milling correction model was build Intelligent programming system of the two methods was developed.
分析高效切削刀具材料的主要特征,介绍可转位立铣刀和智能化专用刀具的应用。
The application of rotatable-position end milling cutter and intelligent special cutter is introduced in this paper.
利用本文给出的模式,可以提高刀具CAD系统的柔性与智能性。
The model given by this paper enables the tool CAD system to be more flexible and intellectual.
本文基于刀具路径几何仿真,研究了平面曲线轮廓数控加工进给速度优化技术,这种优化技术是智能化数控加工编程的基础。
The paper presents a systematic technology of feed rate optimization on CNC planar profile milling based on geometric simulation of tool path which is the base of intelligent CNC programming.
本文基于刀具路径几何仿真,研究了平面曲线轮廓数控加工进给速度优化技术,这种优化技术是智能化数控加工编程的基础。
The paper presents a systematic technology of feed rate optimization on CNC planar profile milling based on geometric simulation of tool path which is the base of intelligent CNC programming.
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