planning method for parts from other designs
简明释义
借用件计划方法
英英释义
A systematic approach used to organize and prepare for the integration or adaptation of components derived from existing designs into a new project. | 一种系统的方法,用于组织和准备将来自现有设计的组件整合或适应到新项目中的过程。 |
例句
1.The team developed a new planning method for parts from other designs to improve efficiency in production.
团队开发了一种新的来自其他设计的零件规划方法,以提高生产效率。
2.The engineer shared her planning method for parts from other designs during the design review meeting.
工程师在设计评审会议上分享了她的来自其他设计的零件规划方法。
3.Incorporating a planning method for parts from other designs helps streamline the assembly process.
纳入来自其他设计的零件规划方法有助于简化组装过程。
4.The software includes a feature that supports planning method for parts from other designs for better compatibility.
该软件包含一个支持来自其他设计的零件规划方法的功能,以提高兼容性。
5.Using a planning method for parts from other designs can significantly reduce the time needed for prototyping.
使用来自其他设计的零件规划方法可以显著减少原型制作所需的时间。
作文
In the world of engineering and design, the concept of a planning method for parts from other designs plays a crucial role in ensuring efficiency and innovation. This approach allows designers and engineers to leverage existing components and systems, minimizing redundancy and maximizing the potential for creativity. When we talk about a planning method for parts from other designs, we are essentially referring to a systematic strategy that involves analyzing, adapting, and integrating various elements from different projects to create something new and functional.One of the primary benefits of employing a planning method for parts from other designs is the significant reduction in development time and costs. By utilizing proven parts and systems, designers can focus their efforts on areas that require innovation rather than reinventing the wheel. For instance, in the automotive industry, many manufacturers use standardized components across multiple models. This not only streamlines production processes but also simplifies maintenance and repairs, as parts are interchangeable between different vehicles.Additionally, a well-thought-out planning method for parts from other designs encourages collaboration and knowledge sharing among teams. Engineers and designers can learn from each other's successes and failures, leading to improved designs and fewer mistakes. For example, when developing a new electronic device, a team might draw on the circuit designs of previous products while integrating new technologies. This collaborative approach fosters an environment where creativity thrives, as team members are encouraged to think outside the box and explore innovative solutions.Moreover, the application of a planning method for parts from other designs can enhance sustainability in engineering practices. By reusing and repurposing existing components, companies can reduce waste and minimize their environmental footprint. This is particularly important in today's world, where there is a growing emphasis on sustainable practices across all industries. For instance, in construction, architects may utilize materials from deconstructed buildings to create new structures, thus promoting a circular economy.However, it is essential to recognize that while a planning method for parts from other designs offers numerous advantages, it also comes with its challenges. Each design has unique specifications and requirements, and not every part will be compatible with another. Therefore, careful consideration and thorough analysis are necessary to ensure that the integration of different parts does not compromise the overall functionality or safety of the final product. Engineers must also be mindful of intellectual property rights when borrowing ideas or components from other designs, as this can lead to legal complications.In conclusion, the planning method for parts from other designs is a powerful tool in the arsenal of engineers and designers. It promotes efficiency, encourages collaboration, and supports sustainable practices. By embracing this approach, professionals can not only save time and resources but also push the boundaries of innovation. As we continue to face complex challenges in engineering and design, the ability to effectively plan and integrate parts from existing designs will undoubtedly remain a vital skill for future generations of creators and problem solvers.
在工程和设计的世界中,来自其他设计的零件规划方法这一概念在确保效率和创新方面发挥着至关重要的作用。这种方法使设计师和工程师能够利用现有的组件和系统,最大限度地减少冗余并最大化创造力的潜力。当我们谈论来自其他设计的零件规划方法时,我们实际上是在指一种系统策略,该策略涉及分析、调整和整合来自不同项目的各种元素,以创造出新的功能性产品。采用来自其他设计的零件规划方法的主要好处之一是显著降低开发时间和成本。通过利用经过验证的部件和系统,设计师可以将精力集中在需要创新的领域,而不是重新发明轮子。例如,在汽车行业,许多制造商在多个车型中使用标准化的组件。这不仅简化了生产过程,还简化了维护和修理,因为零件可以在不同的车辆之间互换。此外,深思熟虑的来自其他设计的零件规划方法鼓励团队之间的合作与知识共享。工程师和设计师可以从彼此的成功与失败中学习,从而改善设计并减少错误。例如,在开发新电子设备时,一个团队可能会借鉴以前产品的电路设计,同时整合新技术。这种协作方法营造了一个创造力蓬勃发展的环境,因为团队成员被鼓励跳出框框,探索创新解决方案。此外,应用来自其他设计的零件规划方法可以增强工程实践中的可持续性。通过重复使用和重新利用现有组件,公司可以减少废物并最小化其环境足迹。在当今这个日益强调可持续实践的世界中,这一点尤为重要。例如,在建筑领域,建筑师可能会利用拆除建筑物的材料来建造新结构,从而促进循环经济。然而,必须认识到,尽管来自其他设计的零件规划方法提供了众多优势,但它也面临挑战。每个设计都有独特的规格和要求,并非每个部件都能与另一个部件兼容。因此,必须谨慎考虑和彻底分析,以确保不同部件的整合不会妨碍最终产品的整体功能或安全性。工程师还必须注意在借用其他设计的想法或组件时的知识产权问题,因为这可能导致法律纠纷。总之,来自其他设计的零件规划方法是工程师和设计师工具箱中的一项强大工具。它促进了效率,鼓励了合作,并支持可持续实践。通过接受这种方法,专业人士不仅可以节省时间和资源,还可以推动创新的边界。随着我们继续面临工程和设计中的复杂挑战,有效规划和整合来自现有设计的零件的能力无疑将继续成为未来创造者和问题解决者的重要技能。
相关单词
