Research on the Parallelism Detection Between Nozzle and Floating Plate

Huang, Bin; Li, Chengwei; Tao, Jiayue; Yi, Jiajing

doi:10.2991/emcs-16.2016.242

Advances in Computer Science Research

2016

DOI: 10.2991/emcs-16.2016.242

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Research on the Parallelism Detection Between Nozzle and Floating Plate

Bin Huang¹,

Chengwei Li²,

Jiayue Tao³

et al.

Abstract: Abstract-In the air-floating six-axis force measurement platform, parallelism between the nozzle and the floating plate directly affects the machine's accuracy. For some reason about the structure of the flotation six-dimensional force measurement platform, we cannot use the conventional method to test on the parallelism between the nozzle and floating plate. This paper analyzes that how the parallelism between the nozzle and the floating plate affect the accuracy of flotation force measurement platform. Based… Show more

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Development and calibration of an air-floating six-axis force measurement platform using self-calibration

Huang

et al. 2016

Review of Scientific Instruments

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This paper describes the design, working principle, as well as calibration of an air-floating six-axis force measurement platform, where the floating plate and nozzles were connected without contact, preventing inter-dimensional coupling and increasing precision significantly. The measurement repeatability error of the force size in the platform is less than 0.2% full scale (FS), which is significantly better than the precision of 1% FS in the six-axis force sensors on the current market. We overcame the difficulties of weight loading device in high-precision calibration by proposing a self-calibration method based on the floating plate gravity and met the calibration precision requirement of 0.02% FS. This study has general implications for the development and calibration of high-precision multi-axis force sensors. In particular, the air-floating six-axis force measurement platform could be applied to the calibration of some special sensors such as flexible tactile sensors and may be used as a micro-nano mechanical assembly platform for real-time assembly force testing.

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Development and calibration of an air-floating six-axis force measurement platform using self-calibration

Huang

et al. 2016

Review of Scientific Instruments

View full text Add to dashboard Cite

show abstract

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Research on the Parallelism Detection Between Nozzle and Floating Plate

Cited by 1 publication

References 6 publications

Development and calibration of an air-floating six-axis force measurement platform using self-calibration

Development and calibration of an air-floating six-axis force measurement platform using self-calibration

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