Reverse-engineered hospital bed design enhances patient accessibility and clinical efficiency

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Agung Prijo Budijono, Susi Tri Umaroh, Dzulkiflih, Bima Aditya, Ade Priyo Widhikdo

2025 E3S Web of Conferences Vol. 640 Conference paper Cited by 0 Quartile

Abstract

Conventional hospital beds frequently lack of adjustable height features, thereby limiting accessibility for patients and efficiency for medical personnel. The objective of this study is to redesign an electric hospital bed (AP-BED) via reverse engineering to enhance patient accessibility and clinical workflow through the incorporation of a heightadjustment mechanism. The redesign integrates a four-bar linkage system alongside a linear actuator, compliant with ergonomic standards. The process encompasses 3D CAD modeling, mechanical simulation, and validation through interference detection as well as motion analysis. User feedback obtained from patients and healthcare professionals informs critical design modifications. Analytical calculations identify the JS-TGZU3 actuator (with a capacity of 150 kg) as optimal, facilitating smooth height adjustment within the range of 51 to 71 cm. The final model exhibits structural integrity and fulfills all functional requirements necessary for prototyping. This study affirms reverse engineering as a cost-effective and user-centered methodology for medical device innovation, making a direct contribution to the Sustainable Development Goals (SDGs) pertaining to healthcare infrastructure and overall well-being. © 2025 The Authors, published by EDP Sciences.

Affiliations

Universitas Negeri Surabaya, Surabaya, Indonesia; University of New South Wales, Sydney, 2033, NSW, Australia