本系统与三坐标测量机相结合,能够测量金属强反射表面,具有高精度、高效率的特点。
Combined with coordinate measuring machines, the system can measure high-reflective metal surface, which is high accuracy and high efficiency.
提出一种适用于微型高精度三坐标测量机的误差检定方法。
This paper presents a method of error detection using in high precision miniature three-coordinate measuring machine (CMM).
实验证明动态误差具有一定的重复性,可用软件补偿,从而提高三坐标测量机快速测量的精度。
The test results show that the repeatability of dynamic errors is good. The errors can be compensated by software method to enhance the accuracy of the CMMs.
根据给定的精度指标设计合理的精度分配方案,精度设计的结果满足纳米三坐标测量机的测量精度要求。
The reasonable error distributing design are done according to the given accuracy target and the result of accuracy design can meet the required measuring accuracy of the Nano-CMM.
给出了用视觉检测系统和三坐标测量机测量的刃沟横截面参数比对结果,说明本测量系统具有很高的测量精度,能够满足生产实践的需要。
The measurement results are presented. It shows that the system has high measurement accuracy and is able to meet the needs of manufacturing field.
本文介绍了利用接触式三坐标测量机对涡轮叶片测量的步骤和测量结果的处理方法,最后给出了现场抽样测量的精度控制方法。
The measuring steps and result processing methods of measuring turbine blade by using the contact-type coordinate measuring machine(CMM) are introduced.
本文分析了影响纳米三坐标测量机测量精度的误差源,建立了纳米三坐标测量机的误差模型,并针对不同的误差源提出了相应的误差分离方法。
This paper analyses the influences of every error source of the precision of CMM. Establish the error model of CMM, and design different method of error calibration for different error source.
因此,最终客户使用的将是真正的德国制造、高质量、高精度的三坐标测量机。
Therefore, the machine customers use at last is real high quality, high precision and made in Germany.
参考机床爬行的描述方法,对三坐标测量机的运动精度进行了分析。
In reference to the describing method of the creeping of machine tools, a motion accuracy analysis of a 3-d coordinate measuring machine (CMM) is made.
研究了关节臂式坐标测量机的结构参数误差对测量机测量精度的影响,分析了结构参数的辨识原理和辨识方法。
The research on structure parameter error of AACMM was done and the principle of structure parameter identification was clearly presented.
研究了关节臂式坐标测量机的结构参数误差对测量机测量精度的影响,分析了结构参数的辨识原理和辨识方法。
The research on structure parameter error of AACMM was done and the principle of structure parameter identification was clearly presented.
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