Study on Precision Stability of Precision Machine Tool Based on Joint Surface Error Model
SUN Yewang 1,2, YANG Qiujuan3 , CAO Ye1 , LIU Yuzhu1 , SONG Yupeng1 , MA Xichao1
(1. Beijing Institute of Technology, Beijing 100081, China; 2. Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing 100190, China; 3. Beijing Bete Shengdi Science & Technology Development Co., Ltd., Beijing 100029, China)
Abstract: In order to study the influence of the joint part on precision stability of a machine tool, according to the characteristics of the column fastening joint surface of the precise vertical machine tool, the fastening joint surface feature with original error is measured. Then, the NURBS mathematical method is used to model the curve surface, and the 3D assembly model including the geometric surface feature error is created. Based on the joint characteristic error model, the boundary constraint load conditions from 500N to 8500N with gradual change is set. Based on the analysis of the non-uniform variation characteristics of stress field of non-uniform contact joint with characteristic error, the results show that there is a three-stage variation law in the joint region. It includes a large slope linear change stage, a curve change stage, and a small slope linear change stage. In particular, this variation characteristic is rooted in the nonlinear variation characteristic of the non-uniform contact of the high points, and it is verified that the geometric feature error of the geometric surface has a significant influence on the accuracy stability of the micron precision motion system.
孙椰望,杨秋娟,曹也,刘玉柱,宋于鹏,马西超. 精密机床紧固结合面误差建模及其精度变动特性研究[J]. 航空制造技术, 2020, 63(5): 28-34.
SUN Yewang, YANG Qiujuan,CAO Ye, LIU Yuzhu,SONG Yupeng,MA Xichao. Study on Precision Stability of Precision Machine Tool Based on Joint Surface Error Model. Aeronautical Manufacturing Technology, 2020, 63(5): 28-34.