Purpose: The study aims to enhance weaving efficiency by integrating the shedding mechanism from a countershaft loom into the traditional two-heddle loom. This approach seeks to maintain simplicity and affordability while improving functionality.
Methodology/Design: A mixed-methods approach was employed. The research involved direct observation of traditional weaving practices to identify operational challenges. Interviews with local weavers and textile experts ensured cultural relevance in the design process. Studio experiments were conducted to develop and test three conceptual designs: Modular Integration, Hybrid Frame Integration, and Adaptable Shedding Mechanism. Each design was evaluated based on functionality, compatibility with existing looms, and impact on weaving efficiency.
Findings: The Modular Integration approach emerged as the most viable solution in the study's final analysis. While the Hybrid Frame Integration initially demonstrated notable improvements in weaving efficiency and design complexity, Modular Integration ultimately proved more adaptable and compatible with the structural and cultural context of traditional two-heddle looms. Modular Integration enabled the production of complex weave patterns, enhanced fabric quality, and increased productivity while preserving the loom's affordability and simplicity.
Practical and Social Implications: The study’s outcomes offer practical solutions for rural weavers by expanding their capabilities to meet contemporary market demands. This innovation fosters economic empowerment, opens access to wider markets, and supports the preservation of traditional weaving heritage. Additionally, the modular design promotes sustainable weaving practices through the use of locally sourced, eco-friendly materials.
Originality: This study provides a novel framework for integrating advanced weaving mechanisms into traditional looms. By prioritizing cultural relevance and simplicity, the Modular Integration approach ensures that traditional weavers can adopt modern techniques without compromising heritage. The study contributes to bridging the gap between traditional craftsmanship and contemporary demands, offering a sustainable pathway to enhanced weaving efficiency and market competitiveness.
