轮廓数控系统能将刀具或工件向任一角度,也可沿曲线轨迹移动。
Contouring NC systems can direct the tool or workpiece to move at any Angle, and also along curved paths.
点位数控系统基本上是一个定位系统,其主要目的是将刀具或工件从一个编程点位移至另一个点位。
Point-to-point NC system is basically a positioning system. Its primary purpose is to move a tool or workpiece from one programmed point to another.
零件的加工质量取决于机床、夹具、工件和刀具组成的工艺系统及加工工艺参数等因素。
The quality of the machined part mainly depends on the complicated process system which consists of machine tools, fixture, workpiece, cutter and process parameters etc.
该系统用直线电机,在计算机的控制下,刀具进给伺服机构响应速度快,定位精度高,能高速、高精度地加工工件。
In this system, linear motor is applied, and under the control of computer, fast response of servo drive for tool feed, high positioning accuracy and high precision workpiece are achieved.
通过对摩擦力形成理论的归纳与分析,提出了金属切削力等效于刀具—工件副间摩擦力的新概念,由此导出了计算切削颤振系统阻尼系数的方法及相应结论。
Through inducing and analyzing the formation theory of friction, the article advances a new concept that the metal cutting force equals the friction of the tool and workpiece.
以刀具—工件系统的相对振动位移振幅最小为目标,完成铣削加工参数和铣刀几何参数的设计。
The design of milling process parameters and geometrical parameter of milling cutter is accomplished to obtain the minimum amplitude of relative vibratory displacement in cutter-workpiece system.
该系统可由工件零件图直接生成加工该工件的高精度圆体成形车刀的零件图及刀具廓形的数控线切割加工程序,同时还能通过仿真检验所设计的刀具廓形及其加工程序代码的正确性。
By using this system, detail drawings of these tools and NC program for wire cutting can be directly generated, and the outline shape of designed tool and processing codes can also simulated.
在建立了车削模型的基础上,推导出了工件—刀具—机床系统的传递函数。
The paper evaluated the transfer function of workpiece-cutter-machine system on the basis of constructing the turning model.
该系统采用新型触发式传感器 ,可使刀具刀尖自身作为测头测试工件加工尺寸。
The measurement technology is based on a novel fine touch sensor which enables the cutting tool tip itself to be used as the contact probe to implement workpiece inspection.
在应用LOM技术的快速原型 (RP)系统中 ,运动控制卡广泛用于轮廓控制 ,驱动刀具 (激光 )实现工件轮廓的切割。
In rapid prototyping (RP) system using LOM technology, the motion_controlling card is widely used in contour control, driving tool ( laser) for cutting workpiece contour.
但是,由于系统的物理性质,几何性质和铣削工艺的特殊性决定了机床-刀具-工件-夹具系统是一个复杂的非线性动力学系统。
However, the machine tools-cutter-workpiece-fixture is a complicated nonlinear dynamic system. It is determined by the system's physical, geometry and milling process's characteristics.
对特定的机床,当工艺参数选定之后,工件-夹具-刀具系统直接影响零件的加工质量。
At specific machine tools, once process parameters are selected, the machining quality of part depends on the performance of workpiece-fixture-cutter system.
详细分析了利用数控系统刀具监控功能进行切削参数测量的CAPP的方法和测量工件切削参数的算法,以及在SINUMERIK810T数控系统上的实现。
The method of the CAPP for the measurement of the cutting parameters utilizing the function of the tool monitoring of the nc system is discussed, as well as the application in the SINUMERIK 810t.
详细分析了利用数控系统刀具监控功能进行切削参数测量的CAPP的方法和测量工件切削参数的算法,以及在SINUMERIK810T数控系统上的实现。
The method of the CAPP for the measurement of the cutting parameters utilizing the function of the tool monitoring of the nc system is discussed, as well as the application in the SINUMERIK 810t.
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