开发了一种基于相机的CFRP编织过程纤维取向反馈控制系统

IF 3.9 Q2 ENGINEERING, INDUSTRIAL
Ben Vollbrecht, Christina Kohler, Martin Kolloch, Fabian Jung, Niels Grigat, Thomas Gries
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引用次数: 1

摘要

在与安全相关的纺织复合材料生产中,质量控制系统是不可避免的。在工业中,主要是光学测量程序,即所谓的机器视觉系统(MVS),已被普遍接受。纺织结构的一个关键质量特征是负载的承载能力,这需要纤维在负载方向上的取向。为了控制编织角,可以使用反馈控制系统来控制编织角,而编织角决定了编织纤维的方向。与目标角的偏差与形成和编织角测量之间的时间跨度直接相关,即所谓的死区。因此,目标是通过在编织点附近用MVS测量编织角来减小死区。本文描述并评估了一种最小化死区的方法,该方法利用编织过程的数学描述来确定编织角的起源,同时解决了编织过程中收敛区的困难。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Developing a camera-based measuring system to feedback control the fibre orientation for the braiding process of CFRP

Quality control systems are inevitable in the production of safety-relevant, textile composites. In the industry, predominantly optical measuring procedures, so-called Machine Vision Systems (MVS), became generally accepted. A critical quality feature of textile structures is the carrying capacity of loads, which requires an orientation of the fibre in the direction of the load. To control the braiding angle, which determines the orientation of the fibre in braids, a feedback control system can be used. The deviation from the target angle is directly correlated to the time span between the formation and the measurement of the braiding angle, the so-called dead band. Therefore, the objective is to reduce the dead band by measuring the braiding angle with a MVS near the braiding point. This work describes and evaluates an approach to minimize the dead band by utilising a mathematical description of the braiding process to determine the origin of the braiding angle while tackling the difficulty of the convergence zone in the braiding process.

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来源期刊
Advances in Industrial and Manufacturing Engineering
Advances in Industrial and Manufacturing Engineering Engineering-Engineering (miscellaneous)
CiteScore
6.60
自引率
0.00%
发文量
31
审稿时长
18 days
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