In numerical control system, cutter radius compensation always USES a straight transition method.
在数控系统中刀具半径补偿的方法常采用直线过渡。
The gouge phenomena in cutter radius compensation and the generation causes are discussed, and the corresponding measures to resolve the problems are presented.
讨论在数控铣削加工中进行刀具半径补偿时常见的过切现象及其产生的原因,并提出相应的解决措施。
Expounds the basic principle of cutter radius compensation, and how to apply the cutter radius compensation in nc milling as well as some matters needed attention.
阐述刀具半径补偿的基本原理和在数控铣削加工中刀具半径补偿的应用及使用时应注意的问题。
PC sets the parameters, executes the milling cutter radius compensation, draws the graphics of the work-piece machined and realizes local control.
PC机主要负责有关参数设定、刀具半径补偿的离线运算、被加工工件图形的可视化以及实现本地控制等功能。
This paper presents a theory of the cutter radius offset for the CNC system based on the real analysis.
本文基于实分析,为CNC系统提出了一种刀具半径补偿的理论。
When numerical control of machine tool is operated, if the cutter radius compensation is applied inappropriately, the phenomenon of over-cutting will appear.
数控机床在使用刀具半径补偿时,如果使用不当,将会出现过切现象。
Cutter radius offset orders in numerical control (NC) milling manufacturing procedure are expounded and cutter radius offset procedure is analyzed.
阐述了数控铣削加工过程中的刀具半径补偿指令和刀具半径补偿过程。
The result shows that the cutter blade edge radius, edge angle, the linear abrasion and the edge notch depth are main factors affecting its sharpness.
分析结果表明, 纤维切割过程中,切断刀锋利性能的变化主要与切断刀的初始刃口半径、刃口角度、刃口的磨损量以及刃口上缺口的深度有关。
Compensation mode: during the cutting tool compensation cutter center track always deviated from the distance of a tool radius value programming track.
补偿模式:在金刚石刀具补偿进行期间,刀具中心轨迹始终偏离编程轨迹一个刀具半径值的距离。
This paper introduced the conception of cutter radius compensation and discussed how to use the cutter radius compensation to process the elementary and finish milling in the workpiece.
刀具半径补偿功能是数控机床加工中的重要功能,笔者主要对刀具半径补偿功能在解决零件粗、精加工方面的灵活应用进行了深入的探讨。
The forming cutter can usually be used to process the orifice chamfering, but when the chamfering radius is special, it is more difficult to use the traditional method to process.
加工孔口倒圆角时,通常可以用成型刀来加工,但是当倒角半径比较特殊时用传统的方法加工就比较困难。
The function of cutter radius compensation is an important function in nc milling.
刀具半径补偿功能是数控铣削加工中的重要功能。
The reason, method and application about the cutter position and radius offset are analyzed. This disquisition discusses that how to avoid the owing cuts when uses the cutter's radius offset.
全面分析了数控车床刀具位置补偿和半径补偿的原因、方法和应用,并对刀具半径补偿使用时如何避免欠切进行了分析。
According to the 3d cutter radius compensation theory, the path planning of the cutter location point may be determined.
根据三维刀具半径补偿原理,确定了刀具的刀位点运动轨迹。
Study on the characteristics of cutter radius compensation in CNC milling machines and its application;
阐述数控铣削加工过程中刀具半径补偿的意义和过程。
A practical method to realize C-function cutter radius compensation was presented. The method is simple and practical, and can be applied in two-axis CNC system and CNC simulation system.
提出了一种实用的C功能刀补实现方法,该方法简单实用,可方便地用于两轴cnc系统和数控仿真系统。
The advantages of the method are that the tooth profile of the workpiece is not necessary and the width and radius of the disc cutter can also be given at the same time.
该方法具有以下优点:无需知道工件齿形,可同时获得刀具宽度、半径等参数。
Furthermore, with the function of cutter radius compensation and macro processor to process edge blend and edge chamfer of any outside and inside profile.
还有应用半径补偿功能结合宏程序来实现任意的内、外轮廓的倒角、倒圆角。
Furthermore, with the function of cutter radius compensation and macro processor to process edge blend and edge chamfer of any outside and inside profile.
还有应用半径补偿功能结合宏程序来实现任意的内、外轮廓的倒角、倒圆角。
应用推荐