该方法也适用于其它不同类型的回转刀具。
The model is also suitable for different kinds of rotary shaped cutting tools.
主轴回转后,在水平和垂直面实现刀具自动互换。
After the spindle is rotating, the tool is automatically exchanged on the horizontal and vertical surfaces.
通过简单改造的MQ 6025a轻型万能工具磨床,可实现两坐标联动加工特种回转面刀具。
Reformed light MQ6025A universal tool grinder can realize 2-coordinate linkage machining of special type surface of revolution cutting tool.
研制了一种由特制的牵引剂进行驱动、用于回转机床的增速刀柄,该刀柄能使刀具增速8倍而不改变原机床的任何结构和主轴转速。
A speed-raising tool holder which is drived by special traction agent is developed. Speed of tools can be raised8thimes without any change of the construction and spindle speed of machine.
切削刀具的切削力及密封圈回转摩擦力的初步分析计算。
A primary analysis for cutting force of the tools and the frictional force in rotating seal ring are also given.
针对数控磨削的特点 ,提出了基于约束条件和成形过程的加工特种回转面刀具前、后刀面的刀位轨迹生成条件方程组。
The equation groups can be used to generate tool paths for manufacturing rake and flank faces of the tools.
足够大的刀具回转直径,使得细长的粉碎物可以从圆周自动切入。
Enough blades gyration diameter for easily cutting long and narrow profile shapes or pipes.
针对一种目前国内研究较少的回转切削机床,分析了对渐开线齿轮进行倒角加工时的运动情况,得出了该机床在进行倒角加工时刀具切削刃的轨迹方程。
Aimed at a kind of rotary cutting machine, the machining process of involute gear chamfering is kinematically analyzed, and the moving locus equations of cutting edge are deduced.
本文综合运用了齿轮啮合理论,并以磨齿加工为例,系统地研究了与渐开线性质有关的齿轮加工误差产生的啮合机理,并将其概括为传动误差、回转轴相对位置误差及刀具误差。
The machining errors of gear that relate to the nature of involute are studied with gear engagement theory and combining grinding-machining in this paper and they are summarized as transmissio.
本文综合运用了齿轮啮合理论,并以磨齿加工为例,系统地研究了与渐开线性质有关的齿轮加工误差产生的啮合机理,并将其概括为传动误差、回转轴相对位置误差及刀具误差。
The machining errors of gear that relate to the nature of involute are studied with gear engagement theory and combining grinding-machining in this paper and they are summarized as transmissio.
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