Feasibility of 8-Shaped Motion Test for Five-Axis Machining Center

IF 0.9 Q4 AUTOMATION & CONTROL SYSTEMS
Yukitoshi Ihara, Souma Kajino, Yuto Inoue
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引用次数: 0

Abstract

ISO 10791-7, which specifies the machining accuracy test standard for machining centers, and ISO 10791-6, which specifies the interpolation motion test standard, were revised in 2014 to include five-axis machining centers (5-axis MCs). In addition, cone frustum test, which has been used as the National Aerospace Standard (NAS), was revised and introduced in these ISO standards. However, prior to the establishment of these standards, an aircraft manufacturing company in China proposed S-shaped machining test to measure the accuracy of the test piece of an aircraft. This was adopted as an informative annex of ISO 10791-7 in 2020. Furthermore, in 2019, China proposed a method related to S-shaped machining test and a method of 8-shaped interpolation motion test. Since the S-shaped test requires high acceleration and deceleration in some sections, the test results depend on the performance of the computer-aided manufacturing (CAM) software; therefore, it is not efficient in determining the accuracy of the machine tools. In contrast, in the 8-shaped motion test, the tip of the spindle moves based on a sine curve; consequently, high acceleration/deceleration does not occur. Since the tip of the cutting tool is fixed, a device called R-test is used to measure the position of the center of reference ball using three displacement sensors. In this study, we have discussed the feasibility and problems of the 8-shaped motion test. First, the motion of the machine in the figure “8” motion test is clarified. Next, the definition of the parameters necessary to create the NC programs is outlined. In addition, we have proposed a method in which suitable conditions are set for simultaneous 5-axis feed on a 5-axis MC. Finally, the results of an actual test are applied to the 5-axis MC to confirm that no major problems exist.
五轴加工中心8形运动试验的可行性
ISO 10791-7规定了加工中心的加工精度测试标准,ISO 10791-6规定了插补运动测试标准,在2014年进行了修订,包括五轴加工中心(5轴MCs)。此外,作为国家航空航天标准(NAS)使用的锥锥测试也在这些ISO标准中进行了修订和引入。然而,在这些标准建立之前,中国一家飞机制造公司提出了s形加工试验,以衡量飞机试件的精度。该标准已于2020年作为ISO 10791-7的信息附件通过。此外,2019年,中国提出了s形加工试验相关方法和8形插补运动试验方法。由于s型试验在某些路段需要高加减速,因此试验结果取决于计算机辅助制造(CAM)软件的性能;因此,在确定机床的精度时效率不高。而在8形运动试验中,主轴尖端沿正弦曲线运动;因此,不会发生高加速/减速。由于切削刀具的尖端是固定的,因此使用一个称为R-test的装置使用三个位移传感器来测量参考球中心的位置。在本研究中,我们讨论了八字运动测试的可行性和存在的问题。首先,对图“8”运动试验中机器的运动进行澄清。接下来,概述了创建NC程序所需的参数的定义。此外,我们提出了一种方法,在5轴MC上设置合适的条件进行5轴同时进给。最后,将实际测试结果应用于5轴MC,确认没有出现重大问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
International Journal of Automation Technology
International Journal of Automation Technology AUTOMATION & CONTROL SYSTEMS-
CiteScore
2.10
自引率
36.40%
发文量
96
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