用于改善儿童过渡性饮水发展的可控流杯模型。

Modeling of a controlled flow cup for improved transitional drinking development in children.

作者信息

Bailey-Van Kuren Michael M, Scarborough Donna

机构信息

Department of Emerging Technology in Business + Design, Miami University, Oxford, USA.

Department of Speech Pathology and Audiology, Miami University, Oxford, USA.

出版信息

J Rehabil Assist Technol Eng. 2021 May 3;8:20556683211008765. doi: 10.1177/20556683211008765. eCollection 2021 Jan-Dec.

DOI:10.1177/20556683211008765

PMID:33996144

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8108080/

Abstract

INTRODUCTION

Clinical observations of children with swallowing disorders using a traditional "sippy" or transitional drinking cup identified a need for a novel cup. Children with swallowing disorders are often unable to initiate the forces required to activate the cup and/or maintain suction pressure. Furthermore, fast flow rates can result in choking.

METHODS

A new cup design tool is proposed using fluid-cup interactions to capture the changing geometry of the fluid during drinking. A Petri net formulation is integrated with standard fluid flow principles. A new parametric cup simulation provides visualization and direct implementation for microcontroller prototypes. A vent-based controller is developed and modeled for a novel transitional drinking cup design. A simulated pouring study is performed for water and a baseline liquid volume of 200 ml in the cup. The study varies rotation rates, initial volume, system control and desired flow rates.

RESULTS

Volumetric flow rate curves over time are generated and compared in relation to a target flow rate. The simulation results show expected behavior for variations in cup parameters.

CONCLUSION

The new simulation model facilitates future dysphagia research through rapid prototyping by tuning cup geometry, liquid parameters and control signals to meet the varying needs of the users.

摘要

引言

对使用传统“吸管杯”或过渡性饮水杯的吞咽障碍儿童进行的临床观察表明，需要一种新型杯子。吞咽障碍儿童通常无法产生激活杯子所需的力量和/或维持吸力。此外，流速过快可能导致窒息。

方法

提出了一种新的杯子设计工具，利用流体与杯子的相互作用来捕捉饮水过程中流体几何形状的变化。将Petri网公式与标准流体流动原理相结合。一种新的参数化杯子模拟为微控制器原型提供可视化和直接实现。为一种新型过渡性饮水杯设计开发并建模了基于通风口的控制器。对杯子中200毫升的水和基线液体体积进行了模拟倒水研究。该研究改变了旋转速度、初始体积、系统控制和期望流速。

结果

生成了随时间变化的体积流速曲线，并与目标流速进行了比较。模拟结果显示了杯子参数变化的预期行为。

结论

新的模拟模型通过调整杯子几何形状、液体参数和控制信号以满足用户的不同需求，通过快速原型制作促进了未来吞咽困难研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7c4c/8108080/55678bf063fd/10.1177_20556683211008765-fig1.jpg

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用于改善儿童过渡性饮水发展的可控流杯模型。

Modeling of a controlled flow cup for improved transitional drinking development in children.

作者信息

Bailey-Van Kuren Michael M, Scarborough Donna

机构信息

Department of Emerging Technology in Business + Design, Miami University, Oxford, USA.

Department of Speech Pathology and Audiology, Miami University, Oxford, USA.