Design and fabrication of a gripper propotype for a fruit harvesting machine

TT Tung, NX Quynh, TV Minh
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Abstract

In Vietnam, post-harvest losses of fruits and vegetables are very high. According to analysis reports, Vietnam must invest more in harvesting and post-harvest technologies to enhance the global competitiveness of agricultural products, including fruits and vegetables. Fruit harvesting machines are an effective solution to enhance the quality of agricultural products, including fruits and vegetables. The gripper can be considered the most important component of a harvesting machine when it comes to horticulture products, since it acts as interface between the robotic system and product. To pick up fruits, which frequently have complex shapes and poor mechanical properties, a gripper must be designed carefully. In addition to being able to pick the produce, it is crucial that a gripper does not damage the fruit during harvest. The weak force may cause the gripper to be unable to pick the fruit. If excessive force is applied or improper picking technique is used, the grippers could damage fruits. However, Vietnam has not widely adopted the use of automatic machine in agriculture. This is due to the uniqueness of fruits in each region; for example, fruits in Vietnam have their own shape and mechanical properties. Therefore, it is occasionally inappropriate to utilize harvesters that have already been imported. This paper shows the development and fabrication of a gripper for common Vietnam fruit grasping. A new prototype has been fabricated by 3D printing method and tested in the laboratory. The prototype of a gripper has been subjected to simulation and experimental testing with real fruits to verify that the proposed model is capable of meeting all objectives’ requirements. The proposed gripper was straightforward and efficient. The developed device exhibited dependability and stability and is suitable for farmers who require independent harvesting. In addition, the designed gripper can be produced at a lower cost than comparable machines developed by other commercial products. Key words: Harvesting machine, gripper, Solidwork, prototype, 3D printing, low-cost production
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水果收割机夹持器原型的设计与制造
在越南,水果和蔬菜的收获后损失非常高。根据分析报告,越南必须加大对收获和收获后技术的投资,以提高包括水果和蔬菜在内的农产品的全球竞争力。水果收获机是提高农产品(包括水果和蔬菜)质量的有效解决方案。当涉及到园艺产品时,抓手可以被认为是收获机器中最重要的部件,因为它是机器人系统和产品之间的接口。为了捡起形状复杂、机械性能差的水果,必须仔细设计抓手。除了能够采摘果实之外,抓手在收获过程中不会损坏果实也是至关重要的。力弱可能会导致抓手无法摘到水果。如果用力过猛或使用不当的采摘技术,夹手可能会损坏水果。然而,越南并没有广泛采用自动化机械在农业上的使用。这是由于每个地区水果的独特性;例如,越南的水果有自己的形状和机械特性。因此,偶尔不适合使用已经进口的收割机。本文介绍了一种普通越南水果抓取钳的研制。用3D打印的方法制作了一个新的原型,并在实验室进行了测试。通过仿真和实验结果验证了所提出的模型能够满足所有目标的要求。所提出的夹持器简单有效。所开发的装置具有可靠性和稳定性,适用于需要独立采收的农民。此外,与其他商业产品开发的同类机器相比,设计的夹持器可以以更低的成本生产。关键词:收割机,夹持器,Solidwork,样机,3D打印,低成本生产
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来源期刊
African Journal of Food, Agriculture, Nutrition and Development
African Journal of Food, Agriculture, Nutrition and Development Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
0.90
自引率
0.00%
发文量
124
审稿时长
24 weeks
期刊介绍: The African Journal of Food, Agriculture, Nutrition and Development (AJFAND) is a highly cited and prestigious quarterly peer reviewed journal with a global reputation, published in Kenya by the Africa Scholarly Science Communications Trust (ASSCAT). Our internationally recognized publishing programme covers a wide range of scientific and development disciplines, including agriculture, food, nutrition, environmental management and sustainable development related information.
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