这种方法适用于数控切削斜轧球轧辊孔型的包络切削方式。
It is fit for enveloping cutting method of numerically controlled cutting of groove of the roller for rolling balls.
数控切削加工工艺参数是数控切削加工过程的基本控制量。
It is the preparation method parameter which is one of the basic controlling parameters in the processing course of Numerical control cuttings.
应用高速数控切削加工实例,论述了模具高速数控加工中的问题与基本策略。
By giving examples of them, it discussed the problem and the basic strategy in die's high-speed NC manufacturing.
本文在数控切削加工工艺参数优化方面主要进行了基于加工特征的刀具选择的研究。
In this paper, we mostly discussed the cutting tool choice based on the feature of cutting process as belongs to the optimization of NC machining process parameters.
数控切削加工工艺参数及刀具运动轨迹优化是发挥数控加工设备生产效率的有效途径。
The optimization of NC machining process parameters and the cutting tool path is the available approach of exerting the NC machining equipment productivity.
计算机数控切削中心的购买者也许会考虑该切削中心有无保修证书,也许不考虑这一点,但他总会有各个方面的考虑。
The buyer of a CNC turning center may or may not have the warranty to consider in the purchase but will make other considerations.
数控切削加工过程中刀具的磨损与破损是数控机床常见的故障之一,而刀具的磨损与破损程度直接影响零件的加工质量。
Cutter attrition and breakage is one of the familiar faults of CNC machine tool, and the degree of cutter attrition and breakage directly influences the quality of the production.
本文首先介绍了螺纹数控切削的编程方法,并就其对加工误差的影响进行了分析,最后根据实际工作总结出数控车床螺纹切削编程及加工时的注意事项。
This paper discussed the methods about cutting thread on nc Lathe. The cutting errors was analyzed. The program about cutting thread and the notices in cutting process were concluded.
为了保证加工表面质量,数控车床一般都具有恒表面切削速度控制功能。
In order to guarantee the machining surface quality, numerical control lathe generally has constant surface cutting speed control function.
数控刀具是提高切削和进刀速度的重要环节。
An important part of nc tools is to increase the cutting and feeding speeds.
该功能可以使数控系统根据刀尖所处的X坐标值,作为工件的直径值来计算主轴转速,使切削速度保持恒定。
This function can make numerical control system according to the point in the X coordinates, as the diameter of the workpiece calculated value spindle speed, and the cutting speed to be constant.
加工设备包含:冲床、车床、钻床、铣床、磨床、线切、氩弧焊机、点焊机、气体保护焊机、剪板机、数控加工中心、切削中心。
Processing sets include: punch, lathe, drilling machine, contouring machine, grinding machine, wire cutting machine, spot welding, gas shield weld, late shears, CNC machined and cutting center.
通过对五阶系统的分析表明数控强力切削伺服进给系统的谐振频率取决于机械谐振频率和速度环谐振频率中较低的一个。
This system indicates that the resonance frequency of servo drive in CNC heavy cutting is equal to the lower one of mechanism and speed loop resonance frequency.
专用刀具的设计使三坐标数控倾斜切削金属薄板得以实现。
The design of the special cutter makes three coordinate numerical control slope cutting metal sheets be realized.
在数控强力切削进给伺服系统中,机械传动系统对电气调速系统具有扭矩反馈作用,容易形成机械谐振。
In CNC heavy cutting servo system, mechanical drive system has a torture feedback on electrical speed-adjustment system, thus it's possible to generate the mechanical resonance.
数控车削加工与普通车床加工大致相同,但刀具的选择、切削用量的选择以及工件的装夹等工艺问题也有各自的特点。
CNC Turning Lathe Machining with roughly the same, but the tool of choice, the choice of cutting parameters and workpiece clamping and other technology issues also have their own characteristics.
文章基于3.5轴数控铣床,利用螺旋线展开的平面曲线编程,分层切削,加工出变螺距螺纹;
Programming by the plane curve unwrapped from the helix curve and cutting layer by layer, we created the variable pitch screw on the 3.5 axis NC milling.
提出可根据数控车床设计时选用的典型切削条件来计算机床总刚度。
This paper proposes that the total rigidity of a machine tool can be calculated in terms of the typical cutting condition at the beginning of design for the CNC lathe.
应用数控车床复合循环指令时,使用不同的指令切削效率不同。
While compound cycle instructions are applied, to use different instructions bring different cutting efficiency.
主要关键技术包括参数化特征建模、数控加工切削参数优化、刀具轨迹规划等。
Adopting the main key technologies including feature-based modeling, optimization of cutting parameter, layout of the cutters tracks etc.
其切削力平稳的特性更适合于模具型腔的高速数控加工,可以克服高速加工用刀具刚性差的不足。
The cutters used in high speed machining(HSM) have poor rigidity, therefore the method fits to HSM of die cavity due to the unfluctuating cutting force characteristic.
论文研究了机匣数控加工工艺优化的基本实现途径,以及所采用编程方法、切削方式与刀具的选择、切削冷却液的选择等。
The thesis researched the basic ways of the optimizations, the programming methods, the cutting ways and the cutter selections in the process of the NC machining.
本文通过对数铣加工中的刀具切削参数的一般性研究,建立了一些相关的数据库,在此就如何确定数控铣加工中的刀具切削用量进行针对性的说明和总结。
By the general research of cutting tool parameter in the CNC milling, this text establishes some related database and explains how to certain the cutting tool parameter in the CNC milling.
介绍了数控铣床加工中的刀具半径补偿,分析了使用刀具半径补偿产生过切削现象的原因。
This article introduces tool radius compensation in CNC milling process, and analyzes over-cutting reasons in using tool radius compensation.
研究了通过调节数控机床伺服参数,控制极限切削宽度来抑制切削颤振的新方法。
A new method for suppressing cutting chatter is studied by adjusting servo parameters of the numerical control (NC) machine tool and controlling the limited cutting width.
将人工智能技术运用于切削参数选择,可以提高数控加工系统的智能化,进而为CIMS系统的集成奠定良好的基础。
Using artificial intelligent technology to determine cutting parameter can raise the intelligence of the nc system and then establish good foundation for CIMS system integrated.
把隐函数的优势应用到数控加工编程中,即对于截面法的数控加工,求出刀具切削平面与隐函数曲面的加工轨迹,再用正负法绘制刀具轨迹曲线。
For NC machining of plane section method, the machining path of tool cutting plane and implicit surface can be found, and the curve of the tool path is drawn by the positive-negative method.
把隐函数的优势应用到数控加工编程中,即对于截面法的数控加工,求出刀具切削平面与隐函数曲面的加工轨迹,再用正负法绘制刀具轨迹曲线。
For NC machining of plane section method, the machining path of tool cutting plane and implicit surface can be found, and the curve of the tool path is drawn by the positive-negative method.
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