Investigation of Folding and Non-Folding Electric Wheelchairs Reviewed from Their Safety Tests
Investigasi Kursi Roda Elektrik Lipat dan Non Lipat Ditinjau dari Uji Keselamatannya
DOI:
https://doi.org/10.21070/ups.5079Keywords:
Electric Wheelchair, DC electric motor, Static testing, Dynamic testingAbstract
An electric wheelchair is a mobility aid used by people with disabilities with an external drive from a direct current (DC) electric motor. Electric wheelchairs are divided into 3 categories, namely electrically powered wheelchairs, electrically powered push, and scooters. In terms of use, the 3 categories are divided according to their use, namely indoor, indoor/outdoor and outdoor. There are 3 tests, namely static testing, dynamic testing, and safety testing of the electric propulsion system, safety of the electric propulsion system which is less than optimal and less efficient, the dynamic stability system cannot cross the incline, the static stability system has a maximum angle of 25 degrees, safety testing of the electric propulsion system You can find out the important factors for wheelchair users and the manufacture of electric wheelchairs because those related to electrical components have a very important influence on electric wheelchairs.
Downloads
References
A. Syakura and S. Nurhosifah, “Indonesia Pengembangan Kursi Roda yang Efektif dalam Menurunkan Dampak Negatif Imobilisasi Lama pada Penyandang Disabilitas Fisik dengan Kelumpuhan: Sistematis Review,” Prof. Heal. J., vol. 3, no. 1, pp. 1–8, 2021.
F. H. Wijaya, “Perancangan Dan Pengembangan Desain Kursi Roda Elektrik Dengan Fitur Berdiri Untuk Penyandang Disabiitas,” p. 1, 2020.
Asnan, “Jenis-jenis Kursi Roda,” pp. 1–34, 2019, [Online]. Available: https://digilib.uns.ac.id
M. Mustari, “Rancang Bangun Kursi Roda Elektrik yang Dapat Naik Turun Tanjakan.” Universitas Hasanuddin, 2020.
M. H. Fatoni, E. A. Suprayitno, A. Arifin, N. F. Hikmah, T. A. Sardjono, and M. Nuh, “Pemanfaatan Kursi Roda Elektrik dengan Kendali Joystick Guna Meningkatkan Kemandirian Siswa Berkebutuhan Khusus di Sekolah Luar Biasa D Yayasan Pembinaan Anak Cacat Surabaya,” Sewagati, vol. 7, no. 2, pp. 167–175, 2022, doi: 10.12962/j26139960.v7i2.446.
A. Prasetyo and U. M. Sidoarjo, “SISTEM KENDALI JOYSTICK DAN KONVERSI KURSI RODA MANUAL I . PENDAHULUAN Secara definitif pengertian kelainan fungsi anggota tubuh ( disabilitas fisik / tuna daksa ) adalah ketidakmampuan anggota tubuh untuk melaksanakan fungsinya disebabkan oleh berkurangn,” pp. 1–8, 2021.
E. Risdiyono, “Perancangan dan Pengembangan Desain Kursi Roda Elektrik dengan Fitur Berdiri untuk Penyandang Disabilitas,” 2020.
M. P. A. AL Y NOVI, “ANALISA STABILITAS STATIS DAN DINAMIS DARI KURSI RODA MULTIFUNGSI DENGAN DATA ANTHROPOMETRI MANUSIA INDONESIA.” Universitas Gadjah Mada, 2018.
M. Ayundyahrini, S. Suprapto, F. Fahma, W. Soetopo, and E. Pujiyanto, “Analisis Kebutuhan Teknis Stakeholder Pada Produk Kursi Roda Manual Menggunakan Zachman Framework,” J. Ilm. Tek. Ind., vol. 18, no. 1, pp. 55–63, 2019.
P. Madona, R. P. Surendra, A. Akhyan, and Y. P. Wijaya, “Perancangan Sistem Elektromekanik Pada Modifikasi Kursi Roda Manual Menjadi Kursi Roda Elektrik,” J. Elektro dan Mesin Terap., vol. 5, no. 1, pp. 21–28, 2019
Downloads
Additional Files
Posted
License
Copyright (c) 2024 UMSIDA Preprints Server
This work is licensed under a Creative Commons Attribution 4.0 International License.