On-line comprehensive measurement method and system for taper thread of pipe in non - contact

Yanyu Chen, Dongzhuang Tian, Mengmeng Dong, C. Zhou, Hongjie Tian
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Abstract

Traditional measurement method is difficult to implement automatic and parametric online measurement of threads, which restricts the automatic and intelligent production of threaded workpieces. In order to realize automatic and parametric on-line testing of drill pipe taper thread, a non-contact taper thread comprehensive system for the pipe was developed. The measurement method of taper thread and the data processing method in the system was studied. Based on spectral confocal principle, the measuring method of taper thread profile scanning was proposed. It was analyzed that the error of measurement principle is negligible due to the difference between the central axis of thread and the workpiece axis. The thread central axis was determined by scanning the thread stop. To gain the thread contour curve, two generatrices that pass through the central axis of a thread were scanned by the sensor. Due to the abnormal data collected by the sensor, the capability gage of the system was low, a data processing algorithm based on mathematical model matching of curves was developed, and the curves was piecewise fitted by least square method. The experimental results showed that the short range sensor and large pitch taper thread contour scanning measurement method can achieve high precision, high efficiency and comprehensive measurement of box thread. The capability gage (Cg) of the system is less than 0.006mm, capability gage index (Cgk) is less than 0.03mm, gauge repeatability & reproducibility (GR&R) is less than 5% of the workpiece tolerance. It can meet production demand and solve industry technical problem that the optical measurement method is difficult to realize the thread contour scanning measurement, especially the sweep measurement of internal thread contour.
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非接触式管道锥度螺纹在线综合测量方法及系统
传统的测量方法难以实现螺纹的自动、参数化在线测量,制约了螺纹工件的自动化、智能化生产。为了实现钻杆锥度螺纹的自动、参数在线检测,研制了一种非接触式钻杆锥度螺纹综合检测系统。研究了该系统中锥度螺纹的测量方法和数据处理方法。基于光谱共聚焦原理,提出了锥度螺纹轮廓扫描测量方法。分析了由于螺纹中心轴线与工件轴线的差异,测量原理的误差可以忽略不计。通过扫描螺纹止点确定螺纹中心轴。为了获得螺纹轮廓曲线,传感器对穿过螺纹中心轴线的两个母线进行扫描。针对传感器采集到的数据异常,导致系统性能指标较低的问题,提出了一种基于曲线数学模型匹配的数据处理算法,并采用最小二乘法对曲线进行分段拟合。实验结果表明,采用近距离传感器和大螺距锥度螺纹轮廓扫描测量方法可以实现高精度、高效率、全方位的箱体螺纹测量。该系统的能力量规(Cg)小于0.006mm,能力量规指数(Cgk)小于0.03mm,量规可重复性和再现性(GR&R)小于工件公差的5%。满足生产需求,解决了光学测量方法难以实现螺纹轮廓扫描测量,特别是内螺纹轮廓扫描测量的行业技术难题。
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