通过trz驱动的创新提高电缆压盖设计效率

Ishant Jain, Sudhakar Reddy
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摘要

本研究介绍了一种利用TRIZ工具设计电缆压盖的新方法。电缆压盖有两个主要功能:在外壳内固定和密封电缆,同时还提供接地和电缆保护等次要功能。一种压盖类型的部件数量是由功能要求决定的。鉴于其被归类为低成本、大批量的产品,其竞争优势在于降低销售成本和简化安装。解决关键挑战,包括高组件数量(目前有9个)和繁琐的安装过程,是这项工作的核心重点。该研究概述了triz指导的过程和方法,用于设计针对这些问题的创造性解决方案,从而将组件从9个减少到4个。此外,该研究还结合了高效电缆压盖设计开发中的各种限制因素,产生了一些创新概念。本文还介绍了基于triz衍生的创造性原则建立的拟议系统设计和体系结构,为后续系统原型开发铺平了道路。这项工作强调了由TRIZ工具促进的加速问题识别和解决方案生成。这个不断发展的概念目前处于可行性和设计阶段,通过TRIZ方法有效地解决了主要和次要的挑战。关键词:创造性问题解决,TRIZ,工程问题,电缆土地,修剪
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Enhancing Cable Gland Design Efficiency through TRIZ-Driven Innovation
This study introduces a novel approach to cable gland design through the utilization of TRIZ tools. A cable gland serves two primary functions: retaining and sealing cables within an enclosure, while also offering secondary features such as earthing and cable protection. The number of components in a gland type is determined by functional requirements. Given its classification as a low-cost, high-volume product, the competitive edge lies in achieving reduced selling costs and simplified installation. Addressing key challenges, which include a high component count (currently nine) and a cumbersome installation process, forms the core focus of this work. The research outlines the TRIZ-guided process and methodology employed to devise inventive solutions to these issues, resulting in a component reduction from nine to four. Moreover, the study encompasses the incorporation of various constraints in the development of efficient cable gland designs, yielding several innovative concepts. The paper also introduces proposed system designs and architectures, established based on TRIZ-derived inventive principles, paving the way for subsequent system prototype development. The work underscores the accelerated problem identification and solution generation facilitated by TRIZ tools. The evolving concept is presently situated within the feasibility and design phase, effectively addressing both primary and secondary challenges through TRIZ methodologies. Keywords: Inventive Problem solving, TRIZ, Engineering Problem, Cabled land, Trimming
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