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Design of Control, Filling and Recording of Gallons in Auto Refill Water Depot

Received: 25 September 2019     Accepted: 4 October 2019     Published: 15 October 2019
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Abstract

Water is one of the natural resources that is almost 95% needed by humans for life. In addition to humans, other living beings also desperately need water as a living source. To get clean and healthy water, people usually take water in the well and then cook until enough boiling height and can kill germs or bacteria so that the water is worth to drink. Reverse Osmosis technology used in the depot filling the gallon drinking water is much in demand by the community because it is very practical and ready to drink or used for other needs. From the results of the reflection, the water fill in the gallon was still manual, where at the time of filling the gallon, the depot still uses switches to turn on and off the water filling on the gallon. This process can be repetitive, causing the switch to become worn and damaged. The calculation of a gallon fill is still a record of how many gallons are filled and sold for a day by the owner or officer working. Design of this prototype aims to realize a device that works automatically consisting of hardware devices such as mechanical and electrical devices and software in the form of microcontrollers and other electronic components that can be charging, and recording at the time of water filling in the depot. Method used is the method of designing the mechanical, electrical and software so as to produce a tool that can facilitate the user depot refill water filling, control and recording automatically. The results of this research is based on the ultrasonic sensors by modifying the transmitter and receive distance of 1.5 cm from a standard distance of 2.5 cm, hence the result is very maximal in filling and the water pairing for all types or of peacock gallons. The measured water level is the lowest level of 2.4 cm with a time of 06.39 seconds and a high level of 8 cm with a time of 06.31 seconds.

Published in Engineering and Applied Sciences (Volume 4, Issue 5)
DOI 10.11648/j.eas.20190405.16
Page(s) 123-128
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2019. Published by Science Publishing Group

Keywords

Ultrasonic, Selenoid, Relay, Microcontroller

References
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[2] I. Suhendra, W. S. Pambudi, J. T. Elektro, U. I. Batam, and L. Belakang, “Aplikasi Load Cell Untuk Otomasi Pada Depot Air Minum Isi,” Apl. Load Cell Untuk Otomasi Pada Depot Air Minum Isi, vol. 1, 2015.
[3] A. Uno, “Introduction to Arduino Uno.”
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[5] S. C. Lea, B. Felver, G. Landini, and A. D. Walmsley, “Ultrasonic scaler oscillations and tooth-surface defects,” J. Dent. Res., vol. 88, no. 3, pp. 229–234, 2009.
[6] T. Jsn-sr, “Waterproof JSN-SR04T Ultrasonic Distance Sensor with Arduino Tutorial.”
[7] C. Yohannes, “Sistem Penghitung Jumlah Barang Otomatis Dengan,” J. Ilm. “Elektrikal Enjiniring” UNHAS, vol. 09, no. 02, 2011.
[8] A. Syafrudin and J. E. Suseno, “Rancang Bangun Generator Pulsa Gelombang Ultrasonik dan Implementasinya untuk Pengukuran Jarak Antara Dua Obyek,” vol. 11, no. 2, pp. 29–38, 2008.
[9] O. Godswill and O. A. Okiemute, “Design and Implementation of a Microcontroller Based Home Security Alert System,” vol. 1, no. 1, pp. 11–21, 2017.
[10] A. Abdurrakhman and A. W. Tiyas, “Rancang Bangun Sistem Pengendalian Biogas Bertekanan pada Biogas Storage Tank System Hasil Purifikasi dengan Metode Water Scrubber System Rancang Bangun Sistem Pengendalian Biogas Bertekanan pada Biogas Storage Tank System Hasil Purifikasi dengan Metode Water Scrubber System,” no. September, pp. 0–7, 2016.
[11] D. Qin, Y. Wang, S. Member, and T. Zhou, “Optimal relay deployment in bidirectional AF relaying systems,” IEEE Access, vol. PP, p. 1, 2019.
[12] I. O. P. C. Series and M. Science, “Simulation of Relay Coordination by Labview and the Effect of Relay Coordination on Cost Simulation of Relay Coordination by Labview and the Effect of Relay Coordination on Cost,” 2019.
[13] M. S. Hidayat, I. Sutedjo, I. Hendik, and E. Hadi, “Jurnal Elektro Rancang Bangun Otomatisasi Pengisian Pada Depot Air Minum Isi Ulang,” pp. 1–9, 2013.
[14] F. Qodir and B. Sudarsono, “Keamanan rumah menggunakan transduser ultrasonik sebagai pendeteksi gerak,” J. Ilm. Semesta Tek., vol. 8, no. 2, pp. 146–158, 2004.
[15] E. Series, “AUTOMATIC SAFETY VEHICLE CONTROL BASED ON ARDUINO MICROCONTROLLER Gîlcă Gheorghe, Lecturer PhD ‘ Constantin Brâ ncuși ’ University from Târgu Jiu, ROMANIA,” no. 4, 2017.
[16] H. Sugito and D. Layla, “Aplikasi Transduser Ultrasonik Jenis Immersion Transducer Untuk Karakteristik Media Cair Dan Pengukuran Tingkat Kekasaran Permukaan Beton,” vol. 12, no. 4, pp. 137–144, 2009.
Cite This Article
  • APA Style

    Lory Marcus Parera, Thony Johny Tahalele, Conny Emilda Pelamonia. (2019). Design of Control, Filling and Recording of Gallons in Auto Refill Water Depot. Engineering and Applied Sciences, 4(5), 123-128. https://doi.org/10.11648/j.eas.20190405.16

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    ACS Style

    Lory Marcus Parera; Thony Johny Tahalele; Conny Emilda Pelamonia. Design of Control, Filling and Recording of Gallons in Auto Refill Water Depot. Eng. Appl. Sci. 2019, 4(5), 123-128. doi: 10.11648/j.eas.20190405.16

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    AMA Style

    Lory Marcus Parera, Thony Johny Tahalele, Conny Emilda Pelamonia. Design of Control, Filling and Recording of Gallons in Auto Refill Water Depot. Eng Appl Sci. 2019;4(5):123-128. doi: 10.11648/j.eas.20190405.16

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  • @article{10.11648/j.eas.20190405.16,
      author = {Lory Marcus Parera and Thony Johny Tahalele and Conny Emilda Pelamonia},
      title = {Design of Control, Filling and Recording of Gallons in Auto Refill Water Depot},
      journal = {Engineering and Applied Sciences},
      volume = {4},
      number = {5},
      pages = {123-128},
      doi = {10.11648/j.eas.20190405.16},
      url = {https://doi.org/10.11648/j.eas.20190405.16},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.eas.20190405.16},
      abstract = {Water is one of the natural resources that is almost 95% needed by humans for life. In addition to humans, other living beings also desperately need water as a living source. To get clean and healthy water, people usually take water in the well and then cook until enough boiling height and can kill germs or bacteria so that the water is worth to drink. Reverse Osmosis technology used in the depot filling the gallon drinking water is much in demand by the community because it is very practical and ready to drink or used for other needs. From the results of the reflection, the water fill in the gallon was still manual, where at the time of filling the gallon, the depot still uses switches to turn on and off the water filling on the gallon. This process can be repetitive, causing the switch to become worn and damaged. The calculation of a gallon fill is still a record of how many gallons are filled and sold for a day by the owner or officer working. Design of this prototype aims to realize a device that works automatically consisting of hardware devices such as mechanical and electrical devices and software in the form of microcontrollers and other electronic components that can be charging, and recording at the time of water filling in the depot. Method used is the method of designing the mechanical, electrical and software so as to produce a tool that can facilitate the user depot refill water filling, control and recording automatically. The results of this research is based on the ultrasonic sensors by modifying the transmitter and receive distance of 1.5 cm from a standard distance of 2.5 cm, hence the result is very maximal in filling and the water pairing for all types or of peacock gallons. The measured water level is the lowest level of 2.4 cm with a time of 06.39 seconds and a high level of 8 cm with a time of 06.31 seconds.},
     year = {2019}
    }
    

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  • TY  - JOUR
    T1  - Design of Control, Filling and Recording of Gallons in Auto Refill Water Depot
    AU  - Lory Marcus Parera
    AU  - Thony Johny Tahalele
    AU  - Conny Emilda Pelamonia
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    N1  - https://doi.org/10.11648/j.eas.20190405.16
    DO  - 10.11648/j.eas.20190405.16
    T2  - Engineering and Applied Sciences
    JF  - Engineering and Applied Sciences
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    PB  - Science Publishing Group
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    UR  - https://doi.org/10.11648/j.eas.20190405.16
    AB  - Water is one of the natural resources that is almost 95% needed by humans for life. In addition to humans, other living beings also desperately need water as a living source. To get clean and healthy water, people usually take water in the well and then cook until enough boiling height and can kill germs or bacteria so that the water is worth to drink. Reverse Osmosis technology used in the depot filling the gallon drinking water is much in demand by the community because it is very practical and ready to drink or used for other needs. From the results of the reflection, the water fill in the gallon was still manual, where at the time of filling the gallon, the depot still uses switches to turn on and off the water filling on the gallon. This process can be repetitive, causing the switch to become worn and damaged. The calculation of a gallon fill is still a record of how many gallons are filled and sold for a day by the owner or officer working. Design of this prototype aims to realize a device that works automatically consisting of hardware devices such as mechanical and electrical devices and software in the form of microcontrollers and other electronic components that can be charging, and recording at the time of water filling in the depot. Method used is the method of designing the mechanical, electrical and software so as to produce a tool that can facilitate the user depot refill water filling, control and recording automatically. The results of this research is based on the ultrasonic sensors by modifying the transmitter and receive distance of 1.5 cm from a standard distance of 2.5 cm, hence the result is very maximal in filling and the water pairing for all types or of peacock gallons. The measured water level is the lowest level of 2.4 cm with a time of 06.39 seconds and a high level of 8 cm with a time of 06.31 seconds.
    VL  - 4
    IS  - 5
    ER  - 

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Author Information
  • Electrical Engineering Department, State Polytechnic of Ambon, Ambon, Indonesia

  • Electrical Engineering Department, State Polytechnic of Ambon, Ambon, Indonesia

  • Electrical Engineering Department, State Polytechnic of Ambon, Ambon, Indonesia

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