Involute gear is a key part of mechanical equipment. In the process of gear measurement or mapping, the base circle center needs to be obtained by inverse calculation of the measuring points, and the precision of inverse calculation will directly affect the accuracy of gear measurement or mapping. In this paper, under the condition of known radius of base circle, the method of establishing the non-linear least squares equation for inverse calculation of the center of base circle was studied and solved by Newton method, and the coordinates of the center of base circle were obtained. The main factors affecting the accuracy of inverse calculation were discussed: the number of measuring points of single involute, the number and position distribution of the measured involute, the selection range of the initial value of the center of base circle. The experimental design of the influence of the above factors on the accuracy was carried out. Taking the involute cylindrical gears with modulus 3.5 and tooth number 36 as an example, the method proposed in this paper was verified and the influence of main factors on the accuracy of reverse calculation was quantitatively analyzed. It is found that at least 100 measuring points should be selected for each measured involute profile, and four involute profiles should be selected in the circumferential uniform distribution direction for the reverse calculation of the base circle center. The research in this paper has certain guiding significance and reference value for the inversion of the base circle center in the measurement and mapping of involute gears.
基金资助:国家重点研发计划子课题(2017YFF0204804)。
引用本文:
魏建杰,汤洁,石照耀. 基于齿廓测量点的渐开线齿轮基圆圆心反求方法[J]. 航空制造技术, 2019, 62(20): 70-76.
WEI Jianjie, TANG Jie, SHI Zhaoyao. Reverse Calculation Method of Base Circle Center Based on Involute Profile Measuring Points. Aeronautical Manufacturing Technology, 2019, 62(20): 70-76.