Virtual Sensor for Calibration of Thermal Models of Machine Tools

Adv. Artif. Neural Syst. Pub Date : 2014-01-01 DOI:10.1155/2014/347062

A. Dementjev, Burkhard Hensel, K. Kabitzsch, B. Kauschinger, Steffen Schröder

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引用次数: 5

Abstract

Machine tools are important parts of high-complex industrial manufacturing. Thus, the end product quality strictly depends on the accuracy of these machines, but they are prone to deformation caused by their own heat. The deformation needs to be compensated in order to assure accurate production. So an adequate model of the high-dimensional thermal deformation process must be created and parameters of this model must be evaluated. Unfortunately, such parameters are often unknown and cannot be calculated a priori. Parameter identification during real experiments is not an option for these models because of its high engineering and machine time effort. The installation of additional sensors to measure these parameters directly is uneconomical. Instead, an effective calibration of thermal models can be reached by combining real and virtual measurements on a machine tool during its real operation, without additional sensors installation. In this paper, a new approach for thermal model calibration is presented. The expected results are very promising and can be recommended as an effective solution for this class of problems.

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用于机床热模型标定的虚拟传感器

机床是高复杂工业制造的重要组成部分。因此，最终产品的质量严格取决于这些机器的精度，但它们容易因自身发热而变形。为了保证生产精度，需要对变形进行补偿。因此，必须建立一个合适的高维热变形过程模型，并对该模型的参数进行评估。不幸的是，这些参数通常是未知的，不能先验地计算出来。在真实的实验中，参数识别不是这些模型的选择，因为它的高工程和机器时间的努力。安装额外的传感器直接测量这些参数是不经济的。相反，热模型的有效校准可以通过在机床实际运行期间结合真实和虚拟测量来实现，而无需安装额外的传感器。本文提出了一种新的热模型标定方法。预期的结果是非常有希望的，可以推荐作为这类问题的有效解决方案。

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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Adv. Artif. Neural Syst.

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