DEVELOPMENT OF A COMPLIANT-MECHANISM-BASED COMPACT THREE-AXIS FORCE SENSOR FOR HIGH-PRECISION MANUFACTURING

机译：用于高精度制造的柔顺机构的紧凑三轴力传感器的开发

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This paper develops a light-weight compact three-axis force senor for high-precision manufacturing application. This sensor uses a cubic three-axial translational compliant parallel mechanism to undergo the loading on its end-effector thereby producing voltages through strain gauges on the deformed beams. The cubic compliant parallel mechanism and sensor system are described at first. Force sensing theoretical analysis is then presented followed by the initial experimental testing and analysis. A linear matrix based multi-axis loading decoupling method is also proposed so that the sensed force can maximally reflect the actual applied force in each axis. The work in this paper is expected to lay a foundation for further investigation into the online force sensing in the high-precision machine tool.

机译：本文开发了一种用于高精度制造应用的轻型紧凑三轴力传感器。该传感器使用立方三轴平移柔顺的并联机构来进行其端部执行器上的负载，从而产生通过变形梁上的应变计的电压。首先描述立方柔性的并联机构和传感器系统。然后呈现力传感理论分析，然后呈现初始实验测试和分析。还提出了一种基于线性矩阵的多轴加载去耦方法，使得感测力可以最大地反射每个轴中的实际施加力。本文的工作预计将为高精度机床中的在线力传感进行进一步调查。

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《ASME International Design Engineering Technical Conferences》|2016年||共10页
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Guangbo Hao; Marc Murphy; Xichun Luo;
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中图分类 TB21-53;
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入库时间 2022-08-21 03:05:55

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DEVELOPMENT OF A COMPLIANT-MECHANISM-BASED COMPACT THREE-AXIS FORCE SENSOR FOR HIGH-PRECISION MANUFACTURING

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