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引用次数: 0
摘要
Covid-19 大流行凸显了呼吸机在社会中的关键作用,促使人们关注医用呼吸机的短缺和成本问题。本研究的重点是开发一种便携式呼吸机,设计用于资源有限的环境,满足对小型、轻便机械呼吸机的需求。该设备由 Arduino 微控制器控制,具有可调节的通气模式和生命体征监测功能。该呼吸机采用凸轮臂机构和触摸式 LED 显示屏,旨在提供可靠且经济高效的通气。评估包括性能、可用性和安全性评估。该设备重 11 磅,尺寸为 6.6 x 11.4 x 9.4 英寸,有助于为紧急情况提供方便、便携的呼吸机,造福于弱势群体和医院呼吸机有限的农村社区。呼吸机系统由内置电池供电,最长可持续三小时,并提供热插拔可拆卸电池和外置电池,以延长通气时间。
Design and Implementation of a Portable Ventilator with Variable Breath per Minute (BPM)
The Covid-19 pandemic underscored the critical role of ventilators in society, prompting attention to the shortage and cost of medical ventilators. This study focuses on the development of a portable ventilator designed for use in resource-limited settings, addressing the need for a small, lightweight mechanical ventilator. The device, controlled by an Arduino microcontroller, features adjustable ventilation modes and monitoring capabilities for vital signs. Utilizing a cam arm mechanism and a touch screen LED display, the ventilator aims to provide reliable and cost-effective ventilation. Evaluation includes performance, usability, and safety assessments. The device, weighing 11 lbs. and measuring 6.6 x 11.4 x 9.4 inches, contributes to accessible and portable ventilators for emergency situations, benefiting rural communities with vulnerable populations and limited hospital ventilators. The ventilator system, powered by an internal battery lasting up to three hours, offers hot-swappable detachable and external batteries for extended ventilation.
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