Emanuel A Retrob, Herman Dumatubun, Wahab Ohoirenan

PEMANFAATAN SEPEDA BEKAS SEBAGAI ALAT ANGKUT PERALATAN MEDIS BERTENAGA BATERAI DENGAN BEBAN MAKSIMUM ± 150 KG

Introduction

Pemanfaatan sepeda bekas sebagai alat angkut peralatan medis bertenaga baterai dengan beban maksimum ± 150 kg. Rancang bangun alat angkut peralatan medis bertenaga baterai dari sepeda bekas, mampu bawa beban 150 kg. Efisien untuk percepatan pelayanan kesehatan di Rumah Sakit.

Abstract

Alat medis merupakan bagian integral dalam ilmu Kesehatan dan sangatlah penting dalam menunjang akses pelayanan kesehatan kurangnya akomodosi peralatan yang cepat melihat peralatan yang ada masih bersifat manual, maka penelitian ini bertujuan agar dapat membantu percepatan pelayanan kesehatan masyarakat. Perancangan dan perakitan alat angkut telah berhasil dilakukan secara bertahap dimulai dari merancang desain, perencanaan pengadaan alat, mengumpulkan data- data yang dibutuhkan seputar ilmu kesehatan dan data spesifikasi komponen utama kendaraan listrik, hingga proses rancanag bangun alat angkut peralatan medis dilakukan dimulai dari tahap perakitan dan pembuatan seperti pemasangan chasis, perakitan baterai, B LDC, kontroller, trootle gas, rem, sistem kelistrikan body pembuatan roda belakang serta pembuatan troli, setelah rancang bangun selesai dilakukan tahap pengujian dan perbaikan, setiap tahap usai dikerjakan maka diperoleh kesimpulan bahwa alat angkut ini efisien dari segi bahan bakar dan didesain khusus untuk dapat beroperasi di Rumah Sakit.

Review

The paper, titled "PEMANFAATAN SEPEDA BEKAS SEBAGAI ALAT ANGKUT PERALATAN MEDIS BERTENAGA BATERAI DENGAN BEBAN MAKSIMUM ± 150 KG" (Utilization of Used Bicycles as Battery-Powered Medical Equipment Transport with a Maximum Load of ± 150 KG), addresses a pertinent issue within healthcare facilities: the manual and often slow transport of medical equipment. The abstract effectively highlights the critical need for faster and more efficient accommodation of medical tools to enhance public health services. The proposed solution, a battery-powered medical transport device repurposed from a used bicycle, presents an innovative and potentially sustainable approach to overcoming existing logistical challenges, aiming to improve the speed and accessibility of healthcare delivery. The research outlines a systematic design and assembly process, commencing with conceptual design, procurement planning, and data collection pertaining to healthcare requirements and electric vehicle component specifications. The practical execution involved the step-by-step construction of the transport vehicle, including chassis installation, battery assembly, integration of the BLDC motor, controller, throttle, brakes, and electrical systems, as well as the fabrication of rear wheels and a dedicated trolley. Following the construction phase, the project incorporated testing and refinement, which is crucial for prototype development. The abstract concludes by stating that the developed transport device is efficient in terms of "fuel" (likely referring to energy consumption or operational cost given it's battery-powered) and specifically designed for hospital operations. While the initiative to repurpose a used bicycle for medical transport is commendable for its ingenuity and potential for cost-effectiveness and sustainability, the abstract could benefit from more detailed quantitative results. The claim of efficiency "dari segi bahan bakar" (in terms of fuel) for a battery-powered device needs clarification; perhaps it refers to energy cost or comparison with other manual or fuel-based alternatives. Future work would be strengthened by providing specific performance metrics such as actual speed improvements, battery range, charging time, expected operational lifespan, and comprehensive safety features. Furthermore, a more explicit methodology for the "gathering data" on health science and EV specifications would enhance the paper's scientific rigor. Overall, this project offers a promising foundation for developing practical and eco-friendly solutions for internal logistics in healthcare settings.

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