Method and finite element verification of indentation calculation for a novel air-spring mattress: for estimating spinal alignment in sleep postures
ISSN: 0264-4401
Article publication date: 20 October 2023
Issue publication date: 5 December 2023
Abstract
Purpose
This study aimed to develop a method to calculate the mattress indentation for further estimating spinal alignment.
Design/methodology/approach
A universal indentation calculation model is derived based on the system theory, and the deformation characteristics of each component are analyzed by the finite element (FE) model of a partial air-spring mattress under the initial air pressure of 0.01–0.025 MPa. Finally, the calculation error of the model is verified.
Findings
The results indicate that the indentation calculation model could describe the stain of a mattress given the load and the constitutive model of each element. In addition, the FE model of a partial air-spring mattress can be used for further simulation analysis with an error of 1.47–3.42 mm. Furthermore, the deformation of the series system is mainly contributed by the air spring and the components directly in contact with it, while the top component is mainly deflection deformation. In addition, the error of the calculation model is 2.17–5.59 mm on the condition of 0.01–0.025 MPa, satisfying the engineering application. Finally, the supine spinal alignment is successfully extracted from the mattress indentation.
Research limitations/implications
The limitation of this study is that it needs to verify the practicality of the indentation calculation model for the Bonnier spiral spring mattress. The main feature of the Bonnier spring mattress is that all springs are connected, so the mattress deflection and neighborhood effect are more significant than those of the air-spring mattress. Therefore, the applicability of the model needs to be tested. Moreover, it is worth further research to reduce the deformation error of each component.
Practical implications
As part of the series of studies on the intelligent air-spring mattress, the indentation-based evaluation method of spinal alignment in sleep postures will be studied for hardness and intelligent regulation based on this study.
Social implications
The results of this research are ultimately used for the intelligent adjustment of air-spring mattresses, which automatically adjusts the hardness according to the user's sleep postures and spinal alignment, thus maintaining optimal spinal biomechanics. The successful application of this result could improve the sleep health of the general public.
Originality/value
Based on the series system theory, an indentation calculation model for mattresses with arbitrary structure is proposed, overcoming the dependence of parameters on materials and their combinations when fitting the Burgers model. Further, the spinal alignment in supine posture is extracted from the indentation, laying a theoretical foundation for further recognition and adjustment of the spinal alignment of the intelligent mattress.
Keywords
Acknowledgements
This study was funded by the Postgraduate Research and Practice Innovation Program of Jiangsu Province (No: KYCX20_0859) and the National First-class Disciplines (PNFD), China.
Citation
Chao, Y., Liu, T. and Shen, L. (2023), "Method and finite element verification of indentation calculation for a novel air-spring mattress: for estimating spinal alignment in sleep postures", Engineering Computations, Vol. 40 No. 9/10, pp. 2409-2431. https://doi.org/10.1108/EC-05-2023-0192
Publisher
:Emerald Publishing Limited
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