[ Diseño de un cultivo vertical semi-automatizado para implementación en espacios cerrados y/o pequeños ]
Volume 31, Issue 4, January 2021, Pages 694–702
González Morales Sergio1, Z. Reyes Martínez Sury2, D. Rodríguez Torres Axel3, E. Rodríguez Contla Manuel4, and Castillo Quiroz Gregorio5
1 Departamento de Ingeniería Mecatrónica, Tecnológico Nacional de , Instituto Tecnológico Superior, Huauchinango, Puebla, Mexico
2 Departamento de Ingeniería Mecatrónica, Tecnológico Nacional de , Instituto Tecnológico Superior, Huauchinango, Puebla, Mexico
3 Departamento de Ingeniería Mecatrónica, Tecnológico Nacional de , Instituto Tecnológico Superior, Huauchinango, Puebla, Mexico
4 Departamento de Ingeniería Mecatrónica, Tecnológico Nacional de , Instituto Tecnológico Superior, Huauchinango, Puebla, Mexico
5 Ingeniería Mecatrónica, Tecnológico Nacional de , Instituto Tecnológico Superior de Huauchinango, Huauchinango, Puebla, Mexico
Original language: Spanish
Copyright © 2021 ISSR Journals. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
The cultivation systems have evolved since the implementation of greenhouses, giving way to vertical cultivation, this represents a solution for the production of both horticultural and ornamental plants in limited spaces, which means a better use of resources, we speak of economic as materials. The design of a system for semi-automated vertical cultivation is proposed using a control with the Arduino® development board, also implementing a rainwater harvesting system and taking advantage of solar energy. For the CAD design of the prototype, the SolidWorks® software commonly used for the design and analysis of 3D drawings is used, for the electronic part the control PCBs were developed in the Proteus® software, to ensure that the materials implemented in the system design are effective and adequate, the simulation of static charges on some materials of the system structure is presented, thus achieving an increase in the number of green areas for growing plants for self-consumption in areas where the climatic conditions are not entirely favorable or the space and time limit the optimal development of crops, obtaining low-cost plant food products that are also free of chemicals that are harmful to health.
Author Keywords: Wall, vegetables, production, system, optimization.
Volume 31, Issue 4, January 2021, Pages 694–702
González Morales Sergio1, Z. Reyes Martínez Sury2, D. Rodríguez Torres Axel3, E. Rodríguez Contla Manuel4, and Castillo Quiroz Gregorio5
1 Departamento de Ingeniería Mecatrónica, Tecnológico Nacional de , Instituto Tecnológico Superior, Huauchinango, Puebla, Mexico
2 Departamento de Ingeniería Mecatrónica, Tecnológico Nacional de , Instituto Tecnológico Superior, Huauchinango, Puebla, Mexico
3 Departamento de Ingeniería Mecatrónica, Tecnológico Nacional de , Instituto Tecnológico Superior, Huauchinango, Puebla, Mexico
4 Departamento de Ingeniería Mecatrónica, Tecnológico Nacional de , Instituto Tecnológico Superior, Huauchinango, Puebla, Mexico
5 Ingeniería Mecatrónica, Tecnológico Nacional de , Instituto Tecnológico Superior de Huauchinango, Huauchinango, Puebla, Mexico
Original language: Spanish
Copyright © 2021 ISSR Journals. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Abstract
The cultivation systems have evolved since the implementation of greenhouses, giving way to vertical cultivation, this represents a solution for the production of both horticultural and ornamental plants in limited spaces, which means a better use of resources, we speak of economic as materials. The design of a system for semi-automated vertical cultivation is proposed using a control with the Arduino® development board, also implementing a rainwater harvesting system and taking advantage of solar energy. For the CAD design of the prototype, the SolidWorks® software commonly used for the design and analysis of 3D drawings is used, for the electronic part the control PCBs were developed in the Proteus® software, to ensure that the materials implemented in the system design are effective and adequate, the simulation of static charges on some materials of the system structure is presented, thus achieving an increase in the number of green areas for growing plants for self-consumption in areas where the climatic conditions are not entirely favorable or the space and time limit the optimal development of crops, obtaining low-cost plant food products that are also free of chemicals that are harmful to health.
Author Keywords: Wall, vegetables, production, system, optimization.
How to Cite this Article
González Morales Sergio, Z. Reyes Martínez Sury, D. Rodríguez Torres Axel, E. Rodríguez Contla Manuel, and Castillo Quiroz Gregorio, “Design of a semi-automated vertical crop for implementation in enclosed spaces and/or small,” International Journal of Innovation and Applied Studies, vol. 31, no. 4, pp. 694–702, January 2021.
