DESAIN ALAT CUCI TANGAN OTOMATIS PORTABLE DENGAN SENSOR GERAKAN INFRAMERAH

  • Hasta Kuntara ITNY Yogyakarta
  • Muhammad Anjab Thobarani Institu Teknologi Nasional Yogyakarta
DOI: https://doi.org/10.33579/krvtk.v8i2.4509
Kata Kunci: cuci tangan otomatis

Abstrak

Abstrak Desain ini bertujuan untuk menghasilkan alat cuci tangan otomatis portable dengan sensor gerakan untuk membuka saluran air dan sabun. Alat ini dapat memberikan kemudahan dan keheginisan karen tidak memerlukan menyentuh atau membuka saluran air dan sabun, dimana posisi tersebut rentan terhadap penyebaran virus bagi penggunanya. Model otomatis dari kran air otomatis dan sabun secara portable masih terbatas keberadaanya. Cakupan desain adalah penggunaannya tanpa menyentuh pembuka saluran air dan saluran sabun, alat dapat dipindahkan dengan mudah sesuai kebutuhan penempatan, air tersedia dalam tangki maupun terhubung langsung dengan sumber, air cucian ditampung dalam tangki atau disalurkan ke penampung penampung, catu daya listrik PLN, dan ketinggian alat sesuai bagi orang dewasa dan anak. Desain ini menghasilkan alat cuci tangan otomatis portable dengan ukuran tinggi bak cuci yaitu 1.020 mm, lebar 460 mm dan tinggi keseluruhan 1.475 mm, dengan sensor gerakan infrared dan control dengan arduino uno dan dengan penggerak saluran air serta sabun menggunakan motor servo.

Kata kunci: Otomatis, Portable, Infrared, Arduino uno

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Referensi

[1] Suyetno, A., Solichin, Wahono, Nauri, I. M. (2020). Diseminasi Teknologi Alat Cuci Tangan Cerdas Higienis Sebagai Sarana Edukasi Pencegahan Covid-19 di Desa Pakisjajar Kabupaten Malang, P2T, 1 (2), 2686–1232.
[2] Ramadan, A. P, Marlinda, L. (2021). Design of automatic hand sanitizer based on Arduino Uno Microcontroller. Sinkron: Jurnal dan Penelitian Teknik Informatika, 6 (1), 157-167.
[3] Abdullahi, H, Muhammad, S. A., Muhammad, B., Shamsu, Abdullahi, I., Tofa, S. I., (2021). Design and Implementation of a Smart Hand Washing Machine Using Arduino, Conference: 1ST Multidisplinary National Conference in Pharmaceutical Science and Technology, PHARMTECH 2021 Kano State Polytechnic.
[4] Li, H. (2018). WristWash: Towards automatic handwashing assessment using a wrist-worn device. International Symposium on Wearable Computers, ISWC, 132–139.
[5] Ikechukwu, G. A., Clementina, O., and Onyebuchi, C. L. (2014). Design and Characterization of Automatic Hand Washing and Drying Machine. American Academic & Scholarly Research Journal, 6 (4), 123–134.
[6] Hoey, J., Poupart, P., Von Bertoldi, A., Craig, T., Boutilier, C., Mihailidis, A. (2010). Automated handwashing assistance for persons with dementia using video and a partially observable Markov decision process. Computer Vision and Image Understanding, 114 (5), 503–519.
[7] Amegah, A. K. (2020). Improving handwashing habits and household air quality in Africa after COVID-19. The Lancet Global Health, 8 (9), 1110–1111.
[8] Sy, J. B., Rojo, M. G., Calibara, E. R., Comendador, A. V., Degife, W. (2020). Multi-Station Automated Hand Washing System (MSAHWS), 3, 36–43.
[9] Famurewa, Akinpelu, Ajimuda, Ewetumo T., Olabiyi. (2020). Development of An Automatic Hand Washing Dispenser Covid 19, International Journal of Recent Advances in Multidisciplinary Research, 7 (6), 5951–5953.
[10] Atsiqa, A., Akbar, K. W. (2022). Arduino Uno Based Automatic Hand Sanitizer, Servo, and Infrared Sensor. Epicentrum, 1 (2), 14–18.
[11] Sairaj, S., Berde, Vaibhav, C., Chavan, Shubham V., Shinde, Prof Dinesh Pargunde. (2018). Design & Fabrication of Automatic Shielded Metal Arc Welding on Mild Steel Plate: A Review. International Journal of Scientific & Engineering Research, 9 (5), 122–120.
[12] Pujo, S., Imam, M. (2008). Analysis of Las SMAW (Shielded Metal Arc Welding) Connection Strength on Marine Plate St 42 Due to Porosity and Incomplete Penetration Defects. ejournal Universitas Diponegoro, Vol. 5, No. 2.
[13] Alkahla, I., Pervaiz, S. (2017). Sustainability Assessment of Shielded Metal Arc Welding (Smaw) Process, IOP Conference Series: Materials Science and Engineering, Vol. 244.
[14] Pathak, D. (2020). Experimental investigation of effects of welding current and electrode angle on tensile strength of shielded metal arc welded low carbon steel plates. Materials Today: Proceedings, 26 (2), 929–931.
[15] Tyagita, D. A. (2016). Tensile Strength Welding Results Smaw St 37 Steel Plate with Liquid Coolant", Ilmiah Inovasi, Vol. 1. No.3. Politeknik Negeri Jember, 180-186.
[16] Faidillah, S. (2019). Effect of AHM Radiant Coolant (RC) Cooling on Tensile Strength of SMAW Welding Results on ST 37 Steel Plate", Repository Universitas Muhammadiyah Jember.
[17] Naharuddin, Sam, A., Nugraha, C. (2015). Kekuatan Tarik dan Bending Sambungan Las Pada Material Baja Sm 490 Dengan Metode Pengelasan SMAW Dan Saw. Jurnal Mekanikal, 6 (1), 550–555.
[18] Šabatka, L., Wald, F., Kabeláč, J., Kolaja, D., Pospíši, M. (2015). Structural Analysis and Design of Steel Connections Using Component Based Finite Element Model. Journal of Civil Engineering and Architecture, 9, 895–901.
[19] Weerasekralage, L. S. S. K., Karunaratne, M. S. A., Pathirana, S.D. (2019). Optimization of Shielded Metal Arc Welding (SMAW) process for mild steel. Annual Sessions of IESL, 841–847.
[20] Setiawan, M.D.I., Pradana, Y.R.A. (2020). Robust parameter design of shielded metal arc welding (smaw) for optimum tensile strength. Journal of Physics: Conference Series.
Diterbitkan
2023-11-06
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[1]
Hasta Kuntara dan M. Anjab Thobarani, “DESAIN ALAT CUCI TANGAN OTOMATIS PORTABLE DENGAN SENSOR GERAKAN INFRAMERAH”, Journal Technology of Civil, Electrical, Mechanical, Geology, Mining, and Urban Design, vol. 8, no. 2, hlm. 239-246, Nov 2023.
Terbitan
Vol 8 No 2 (2023): Energy Management and Sustainable Environment
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