A Conceptual Design of Two DoF Crawler Tree Planting Robot with Helical Digging Arm

2023 14th International Conference on Mechanical and Intelligent Manufacturing Technologies (ICMIMT) Pub Date : 2023-05-26 DOI:10.1109/ICMIMT59138.2023.10201123

A. B. Tatar, A. K. Tanyıldızı, B. Taşar

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Abstract

In the last decade, technological developments, products, and processes have been used in agricultural activities as well as in all production areas in our world and in our country. Increasing green areas by planting saplings, which is one of the agricultural activities, and preventing climate change by reducing CO2 rates are within the scope of priority areas and green agreements. Planting seedlings quickly and regularly on hundreds of acres of rough land requires high human labor and time and it is costly. It is aimed to carry out this process with a semi-autonomous sapling planting robot due to its advantages such as minimizing manpower activity and cost and providing the opportunity to work 24 hours if necessary. Within the scope of this study, a three-dimensional concept design of a tree planting robot, equipped with a crawler, camera and ultra-dimmer sensor and environmental sensing unit, capable of drilling sequential holes with a spiral soil digging mechanism with a fast and regular lane tracking was made.

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带螺旋挖掘臂的二自由度履带式植树机器人的概念设计

在过去十年中，技术发展、产品和工艺已被用于农业活动以及我们世界和我国的所有生产领域。通过种植树苗(农业活动之一)来增加绿地面积，以及通过降低二氧化碳浓度来防止气候变化，都在优先领域和绿色协议的范围内。在数百英亩的粗糙土地上快速而有规律地种植幼苗需要大量的人力和时间，而且成本很高。由于半自动种植机器人的优点，如最大限度地减少人力活动和成本，并在必要时提供24小时工作的机会，因此旨在使用半自动种植机器人来完成这一过程。在本研究范围内，对一种植树机器人进行了三维概念设计，该机器人配备履带、摄像头、超调光传感器和环境传感单元，能够使用螺旋挖土机构进行顺序钻孔，并具有快速、规则的车道跟踪。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2023 14th International Conference on Mechanical and Intelligent Manufacturing Technologies (ICMIMT)

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