针对连续短线段高速加工控制需求,研究了利用空间圆弧转接实现高速插补的方法。
To meet the demands of high-speed machining of continuous short-segments, a high-speed interpolator based on the space arc transition is proposed.
根据对高速切削加工计算机数控控制精度和控制速度的影响,分析了直线插补与样条插补方法的优缺点。
The advantages and disadvantages of spline and linear interpolation methods in relation to CNC - control accuracy and rate for high speed cutting are analyzed.
针对高速精密三维激光加工系统,其核心之一是获得快速准确插补算法、高速高精伺服进给运动装置。
In regard to high-speed precise three-dimension laser processing system, One of the key points is to obtain fast and precise interpolation algorithm as well as servo drive device.
参数曲线高速数控插补时,进给速度规划需要综合考虑机床动力学特性和曲线几何特征的限制。
Velocity planning for curved path interpolation in high CNC machining should be bounded by both dynamic properties of the machine tool and the geometrical properties of the curved path.
在数控雕刻机控制软件中用直接函数计算法取代脉冲增量插补,能够满足高速高精度的要求,并用C语言编程实现。
It is used on the control software of the nc carver instead of the pulse increment interpolation and realized by C-language.
该精插补器具有设计简单、易于实现、插补速度高等特点,可适用于高速数控系统的开发。
The fine - interpolator with high - speed interpolating is easy to be designed and applied. It can be used for high - speed machining control.
采用32位高性能CPU,运用实时多任务控制技术和DSP高速、高精度插补控制技术,工作时高稳定性,高速运行,低噪音。
32 bits high speed and characteristics, Multi-task Controlling System and DSP high-speed, high-precision interpolation control technology, to increase stability and high speed with low noise.
介绍了一种基于USB通讯的高速硬件精插补器的设计,设计中采用F PGA实现精插补,并通过USB接口实现与上位PC机的高速数据通讯。
A high- speed hardware fine- interpolator based on USB communication is introduced in this paper. The fine- interpolator is implemented by FPGA and communicates with local PC through USB.
第四章研制了计算机高速数控雕铣系统控制软件,包括控制软件结构、主要管理功能、刀具补偿功能、插补功能的分析和实现。
System software is designed and programmed in chapter 4, including the analyses and researches on software structure, module of vital manage, module of tool compensation and module of interpolation.
第四章研制了计算机高速数控雕铣系统控制软件,包括控制软件结构、主要管理功能、刀具补偿功能、插补功能的分析和实现。
System software is designed and programmed in chapter 4, including the analyses and researches on software structure, module of vital manage, module of tool compensation and module of interpolation.
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