通过采用这些措施可提高数控加工零件的精度。
The precision of numerical control manufacture will be improved after using these measures.
采用会话编程的方式,生成数控加工零件的宏程序。
Using dialogue programming conducts the NC parts macro programs.
本文以有向几何为背景陈述一个微机绘图核心程序包,用它描写数控加工零件的平面外型轮廓,并在微机上绘制各种复杂的平面图形。
In this paper, a core program package related for drawing pictures in micro computers with Oriented Geometry is presented to describe profile of machine parts in numerical control.
机床数控系统可能会成为复杂3d模型、航空件和医疗零件加工中减少循环时间、提高精加工表面质量的障碍。
A machine tool's control can be a barrier to reducing the machining cycle time and improving the finish of complicated 3d molds, aerospace parts or medical-device components.
数控加工作为一种先进的加工方法被广泛应用于高精度、复杂表面形状零件的加工。
Numerical control processing, an advanced processing method, is widely applied in processing machine parts of high precision and with complicated surfaces.
详细论述了数控设备利用率、零件加工率和应用效率的定义、技术内涵及其影响因素。
The definition, technical contents and effective factors of utilization of the nc devices, part machining rate and application efficiency are described in detail.
针对低刚度零件的数控加工工艺系统,提出了一种可控制工件变形的夹具系统。
Fixture system of machine tools for controlling workpiece deformation is put forward taking aim at NC machining system for low rigid part.
数控机床中的测量记录的设备可以确保每个零件被精确加工。
The measuring and recording devices incorporated into numerically controlled machine tools assure that the part being manufactured will be accurate.
本程序实现一个实例化的长轴类的零件数控加工编程。
An example of this program category of the long axis CNC machining of parts programming.
采用PLC对数控机床的加工工艺流程、步进电机的旋转以及零件输送带的运动进行控制。
The rotating of the stepping motor, the working procedure of the NC Machine Tools and the movement of the conveyer belt are controlled by PLC.
研究了钣金数控冲切加工中零件信息模型的建立、自动优化排样、冲切工艺处理和NC代码生成。
Study the set up of information module of parts in NC blanking process of sheet metal, auto optimized layout, blanking process handling and NC code generating.
针对叶片零件数控加工工艺中的在线检测提出了两种测点规划方法。
The paper provided two methods of on-line probing measure-point layout for numerical control machining of blade parts.
文中对类似零件的数控加工编程具有借鉴意义。
This paper can primely guide NC programming for machining the similar parts.
该方法也适用于其他零件的数控加工。
This method is well suited to numerical control machining for the other parts.
介绍基于数控加工的箱体零件CAPP系统。
This paper introduces a box parts CAPP system based on numerical control machining.
在数控车床上加工弧形零件,容易、方便、精度高。
It is easy convenient and highly accurate to machine the curve forming part on the NC (numerical control) lathe.
讨论基于数控加工的箱体零件创成式CAPP系统中的关键问题——刀具选择。
The key problem of creating CAPP system based on NC machining—cutter selection is discussed.
本文介绍了数控编程和数控加工中保证零件的尺寸和公差要求的方法。
This paper introduces methods for ensuring part dimensions and tolerances in CNC programming and machining.
用G代码编制该零件的数控加工程序,并附以编程尺寸的计算方法,其中零件工艺规程的分析是此次论文的重点和难点。
G code index this part of NC program, and report to the programming of the calculation method, where the part process analysis is the focus of this and difficulty.
该研究在可视化操作平台上,采用松弛复原图像,边缘特征抽取算法,可对任意定位的轮廓零件自动生成数控加工程序。
On the visible operating platform, the image edge of the outline work parts placed any- angle is restarted and its characteristic is abstracted by relaxes recovers algorithm.
通过实例从零件的变形理论分析、防变形工艺方法等角度出发研究了薄壁矩形深腔体零件的数控加工工艺。
By means of illustration, from the view of parts distortion theory analysis, distortion prevention, researches the numeric processing technic of thin-wall rectangular deep recessed parts.
在数控机床上加工零件,首先遇到的问题就是零件的工艺处理。
Processing parts on a numerical controlled machine tool, the first problem is the technological design of the part.
文中通过实例从零件的变形理论分析、防变形工艺方法等角度出发研究了薄壁矩形深腔体零件的数控加工工艺。
By means of illustration, from the view of parts distortion theory analysis, distortion prevention, this paper researches the numeric processing technic of thin-wall rectangular deep recessed parts.
应用数控机床加工零件,当零件外形简单,编程时可设置一次工件坐标系(编程原点),即可完成零件的加工;
When using CNC machines to process the part, it can set the part reference frame (the origin of programming) once to complete the process if the outline of part is simple.
对扩充数控系统的轨迹控制功能,简化零件程序,提高加工精度具有重要的意义。
The proposed algorithm can extend the CNC's trajectory control function, simplify the part program, and improve machining precision.
通过分析一些典型零件的数控加工,就如何灵活运用数控机床的编程功能以及如何简化编程计算作了一定的探索。
How to use programming function of nc machine tool and simplify programming and calculation are discussed by analyzing some typical parts in nc process.
通过分析一些典型零件的数控加工,就如何灵活运用数控机床的编程功能以及如何简化编程计算作了一定的探索。
How to use programming function of nc machine tool and simplify programming and calculation are discussed by analyzing some typical parts in nc process.
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