support arm

简明释义

支架臂

英英释义

例句

1.The artist used a flexible support arm to hold the canvas in place while painting.

艺术家使用一个灵活的支撑臂在绘画时固定画布。

2.The support arm of the shelf broke, causing everything to fall down.

架子的支撑臂断了，导致所有东西掉下来。

3.A strong support arm is essential for mounting heavy machinery safely.

一个强大的支撑臂对于安全安装重型机械至关重要。

4.The technician adjusted the support arm to stabilize the equipment during the repair.

技术人员调整了支撑臂以在维修过程中稳定设备。

5.He installed a new support arm for the monitor to reduce neck strain.

他安装了一个新的支撑臂来减少颈部压力。

作文

In the realm of engineering and design, the term support arm refers to a crucial component that provides stability and strength to various structures. A support arm is typically used in applications ranging from furniture design to heavy machinery, ensuring that items remain securely in place while also allowing for movement or adjustment when necessary. The importance of a support arm cannot be overstated, as it plays a vital role in maintaining the integrity of a system while also enhancing its functionality.For instance, consider the design of an office chair. A well-designed chair might incorporate a support arm that not only helps to hold the seat in place but also allows for adjustments to suit the user's comfort. This dual functionality exemplifies how a support arm can enhance user experience by providing both stability and adaptability. Without such components, the chair would likely lack the necessary support to function effectively, leading to discomfort and potential injury.Moreover, the concept of a support arm extends beyond physical products. In the context of teamwork and collaboration, one can metaphorically think of a support arm as the individuals who provide assistance and encouragement within a group. Just as a physical support arm stabilizes a structure, these supportive team members help to keep projects on track and ensure that everyone feels valued. Their contributions are often the unsung heroes of any successful endeavor, providing the necessary backbone that allows creativity and innovation to flourish.In the field of robotics, the support arm takes on a more literal interpretation. Robotic arms, equipped with various tools and sensors, often contain multiple support arms that enable them to perform complex tasks with precision. These robotic systems are designed to assist in manufacturing, surgery, and even space exploration. The support arms in these machines are engineered to handle significant loads while maintaining accuracy, showcasing the advanced technology that goes into modern robotics.Furthermore, in the world of sports, athletes often utilize equipment that includes support arms. For example, in gymnastics, the apparatus known as the pommel horse features support arms that provide stability for gymnasts during their routines. These support arms are essential for safety, allowing athletes to perform intricate maneuvers without the risk of falling or injury.In conclusion, whether in engineering, teamwork, robotics, or sports, the concept of a support arm is integral to success. It embodies the principles of stability, support, and functionality across various fields. Understanding the significance of a support arm allows us to appreciate the intricacies involved in design and collaboration, highlighting the importance of both physical and metaphorical support systems in our daily lives. As we continue to innovate and improve upon existing designs, the role of the support arm will undoubtedly evolve, but its fundamental purpose will remain the same: to provide the necessary support that enables us to reach new heights.

在工程和设计领域，术语支撑臂指的是一个关键组件，它为各种结构提供稳定性和强度。支撑臂通常用于从家具设计到重型机械的应用，确保物品在安全固定的同时，也允许在必要时进行移动或调整。支撑臂的重要性不容小觑，因为它在维护系统完整性方面发挥着至关重要的作用，同时也增强了其功能性。例如，考虑一下办公椅的设计。一把设计良好的椅子可能会包含一个支撑臂，不仅帮助固定座椅，还允许根据用户的舒适度进行调整。这种双重功能体现了支撑臂如何通过提供稳定性和适应性来增强用户体验。如果没有这些组件，椅子可能缺乏有效运作所需的支持，导致不适和潜在的伤害。此外，支撑臂的概念超越了物理产品。在团队合作与协作的背景下，人们可以比喻性地将支撑臂视为在团队中提供帮助和鼓励的个体。就像物理支撑臂稳定结构一样，这些支持团队成员帮助保持项目的进展，并确保每个人都感到被重视。他们的贡献往往是任何成功努力的无名英雄，为创造力和创新的蓬勃发展提供必要的支柱。在机器人领域，支撑臂则采取了更字面的解释。配备各种工具和传感器的机器人手臂，通常包含多个支撑臂，使它们能够精确执行复杂任务。这些机器人系统旨在协助制造、外科手术甚至太空探索。这些机器中的支撑臂被设计用来承载显著的负载，同时保持准确性，展示了现代机器人技术的先进性。此外，在体育界，运动员经常利用包括支撑臂的设备。例如，在体操中，被称为鞍马的器械具有支撑臂，为运动员在例行动作中提供稳定性。这些支撑臂对于安全至关重要，使运动员能够执行复杂的动作而不会面临跌倒或受伤的风险。总之，无论是在工程、团队合作、机器人还是体育中，支撑臂的概念对成功至关重要。它体现了各个领域稳定性、支持和功能性的原则。理解支撑臂的重要性使我们能够欣赏设计和协作中的复杂性，突出物理和比喻支持系统在我们日常生活中的重要性。随着我们不断创新并改进现有设计，支撑臂的角色无疑会发展，但其基本目的将保持不变：提供必要的支持，使我们能够达到新的高度。