Investigation of industrial robots vs joinery machines for milling pockets in glulam: Comparison based on surface quality and 3D scans

Marc Pantscharowitsch, Benjamin Kromoser
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引用次数: 2

Abstract

Joinery machines (JM) are state-of-the art for subtractive machining of timber. When considering costs, availability and multi-axis flexibility, industrial robots (IR) can be seen as a viable alternative as they show high potential for the increase of efficiency, workspace, and possibilities of machining. However, objective data for the quantification of this assumption are not available. This article investigates the capabilities of IRs for the milling of pockets in glued laminated timber. To enable a comparison, benchmark specimen milled using JMs were investigated alongside the pockets milled by IRs. The assessment was conducted by (a) nominal/actual geometry comparison, (b) the surface quality using the stylus method and an optical/haptic assessment, and (c) high-resolution 3D scans. The results show that IRs as standalone solution are competitive and a valuable supplement for existing facilities.

Abstract Image

工业机器人与细木工机在胶合木中铣袋的研究:基于表面质量和3D扫描的比较
细木工机(JM)是最先进的木材减法加工设备。在考虑成本、可用性和多轴灵活性时,工业机器人(IR)可以被视为一种可行的替代方案,因为它们在提高效率、工作空间和加工可能性方面显示出很高的潜力。然而,目前还没有量化这一假设的客观数据。本文研究了红外光谱在胶合层合木材中加工袋的能力。为了进行比较,使用JMs铣削的基准样品与IRs铣削的口袋一起进行了研究。评估通过(a)标称/实际几何比较,(b)使用触控笔方法和光学/触觉评估的表面质量,以及(c)高分辨率3D扫描进行。结果表明,红外光谱作为一个独立的解决方案是有竞争力的,是现有设施的一个有价值的补充。
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