A Structural Design of COVID-19 Patient Lifting Device Using Crane and Hydraulic Mechanism

Journal of Mechanical Design and Testing Pub Date : 2021-12-27 DOI:10.22146/jmdt.65687

Dindamilenia Choirunnisa Hardiyasanti, Sinta Widianingrum, Fini Bestiara, Mei Syaroh, F. Triawan

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Abstract

COVID-19 has brought the mankind into the worst condition. The health care workers as the forefront player during this pandemic are psychology and physically exhausted. In 2021, the infected patient is decreasing in some countries, yet increasing in others. Therefore, this study is aimed to design and analyze a patient lifting device in order to help the health workers in handling paralyzed and bone traumatic patients in effective way. This lifting device is designed to be operated by only one person and contactless with the patient. Thus, the healthcare worker can work on safety procedure of COVID-19. The structural design of the device is using the concept of crane and hydraulic mechanism that can handle a maximum weight of 2,000 N. Every mechanical part that is considered critical becomes the focus in the strength analysis. The analysis is done by theoretical approach under static and dynamic loading. As the results, the static and fatigue analyses show that the most critical part of the lifting device is at the fork structure with safety factor of 1.04. This indicates the design is in safety condition and could have an infinite service life cycle.

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基于起重机和液压机构的新型冠状病毒病人升降装置结构设计

新冠肺炎疫情使人类陷入了最糟糕的境地。在这次大流行期间，作为第一线的卫生保健工作者在心理和身体上都很疲惫。2021年，一些国家的受感染患者在减少，但在另一些国家却在增加。因此，本研究旨在设计及分析一种病人升降装置，以协助医护人员更有效地处理瘫痪及骨外伤病人。该升降装置设计为仅由一人操作，与患者无接触。因此，卫生保健工作者可以从事COVID-19的安全程序。该装置的结构设计采用了起重机和液压机构的概念，最大可承受2,000 n的重量，每一个被认为是关键的机械部件都成为强度分析的重点。在静、动荷载作用下，采用理论方法进行了分析。静力分析和疲劳分析结果表明，升降装置最关键的部位是叉形结构，安全系数为1.04。这表明设计处于安全状态，并且可以具有无限的使用寿命周期。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Mechanical Design and Testing

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