Design and development of a double-edged trenching machine for reusable wood composite material tiles
Abstract
The industrial sector has undergone significant advancements in recent years, adopting efficient and state-of-the-art technologies that have reduced waste production and improved product quality and production efficiency. The wood cutting industry is no exception, benefiting from technological evolution that has drastically reduced job completion times compared to two decades ago. However, this progress contrasts with the limitations of older machines, which are two to three decades old and suffer from outdated technology and methods. These machines exhibit reduced accuracy, lack precision, consume excessive power, and face challenges in finding spare parts for obsolete systems in case of breakdowns. Consequently, owners are often forced to discard these machines, leading to disposal challenges. The solution lies in upgrading these machines to address these issues effectively. This paper presents the design and development of a double-edged trenching machine tailored for the production of reusable wood composite material tiles. The machine is equipped with an embedded controller to facilitate the precise embedding of windows into the tiles. The system offers a sustainable solution for tile manufacturing, enhancing the efficiency and accuracy of window integration. The embedded controller ensures the tiles meet quality standards, contributing to the overall durability and aesthetics of the final product. This research bridges the gap between traditional tile manufacturing processes and modern sustainable practices, offering a promising approach for the future of construction materials.
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