sliding limb

简明释义

滑动分度弧

英英释义

例句

1.In the new design, the sliding limb is made of lightweight materials to enhance performance.

在新设计中，滑动肢体采用轻质材料，以提高性能。

2.During the assembly process, we need to ensure that the sliding limb moves smoothly without any obstruction.

在组装过程中，我们需要确保滑动肢体顺畅移动，没有任何阻碍。

3.The engineer designed a mechanism with a sliding limb to improve the movement of the robotic arm.

工程师设计了一种带有滑动肢体的机制，以改善机器臂的运动。

4.The sliding limb mechanism was crucial for the success of the automated system.

该滑动肢体机制对自动化系统的成功至关重要。

5.The sliding limb in the toy allows it to extend and retract, making it more interactive for children.

玩具中的滑动肢体使其能够伸缩，使其对儿童更具互动性。

作文

In the realm of engineering and mechanics, the term sliding limb refers to a component that moves along a predetermined path, often in conjunction with other parts of a machine or device. This concept is crucial in various applications, including robotics, automotive engineering, and even simple mechanical toys. Understanding the function and significance of a sliding limb can enhance our comprehension of how complex systems operate and interact with one another.A typical example of a sliding limb can be found in the design of a robotic arm. In such devices, the sliding limb allows for precise movements and positioning, enabling the arm to perform tasks with accuracy and efficiency. The movement of the sliding limb is often controlled by motors or pneumatic systems, which provide the necessary force to move the limb along its designated path. This functionality is essential for applications that require high levels of precision, such as surgical robots or assembly line machinery.Moreover, the concept of a sliding limb is not limited to robotics. It can also be observed in the automotive industry, particularly in the design of suspension systems. A well-designed suspension system often incorporates sliding limbs that allow for smooth movement and adaptability to varying road conditions. These components work together to ensure that the vehicle maintains stability and comfort while driving, showcasing the importance of sliding limbs in everyday technology.Additionally, the principles behind a sliding limb can be applied to various mechanical devices, such as drawbridges or cranes, where the movement of heavy loads requires careful engineering and design. In these cases, the sliding limb plays a pivotal role in allowing the structure to extend and retract smoothly, ensuring safety and functionality.Understanding the mechanics of a sliding limb involves delving into the physics of motion, friction, and force distribution. Engineers must consider these factors when designing systems that incorporate sliding limbs, as improper design could lead to malfunctions or inefficiencies. For instance, if the surface along which the sliding limb moves is not adequately lubricated, it may result in increased friction, leading to wear and tear over time. Therefore, maintenance and material selection are critical in ensuring the longevity and reliability of systems utilizing sliding limbs.In conclusion, the term sliding limb encompasses a vital aspect of mechanical design and functionality. Whether in robotics, automotive engineering, or other mechanical applications, the ability of a sliding limb to move smoothly along a designated path is essential for the performance and efficiency of the entire system. As technology continues to advance, the role of sliding limbs will undoubtedly evolve, leading to even more innovative applications and designs in the future. Thus, a thorough understanding of sliding limbs is not only beneficial for engineers but also for anyone interested in the fascinating world of mechanics and technology.

在工程和机械领域，术语sliding limb指的是一个沿着预定路径移动的组件，通常与机器或设备的其他部分一起工作。这个概念在各种应用中至关重要，包括机器人技术、汽车工程，甚至简单的机械玩具。理解sliding limb的功能和重要性可以增强我们对复杂系统如何运作和相互作用的理解。sliding limb的一个典型例子可以在机器人手臂的设计中找到。在这种设备中，sliding limb允许精确的运动和定位，使手臂能够高效且准确地执行任务。sliding limb的运动通常由电机或气动系统控制，这些系统提供必要的力量使肢体沿着指定路径移动。这种功能对于需要高精度的应用至关重要，如外科手术机器人或装配线机械。此外，sliding limb的概念并不限于机器人技术。它也可以在汽车工业中观察到，特别是在悬挂系统的设计中。设计良好的悬挂系统通常包含sliding limbs，允许平稳运动并适应不同的道路条件。这些组件共同工作，以确保车辆在驾驶时保持稳定和舒适，展示了sliding limbs在日常技术中的重要性。此外，sliding limb背后的原理可以应用于各种机械设备，例如可开启桥或起重机，在这些设备中，重物的移动需要仔细的工程和设计。在这些情况下，sliding limb在允许结构平稳伸缩方面发挥着关键作用，确保安全和功能。理解sliding limb的机械原理涉及深入研究运动、摩擦和力分布的物理学。工程师在设计包含sliding limbs的系统时必须考虑这些因素，因为不当设计可能导致故障或效率低下。例如，如果sliding limb移动的表面没有得到充分润滑，可能会导致摩擦增加，从而导致磨损。因此，维护和材料选择在确保使用sliding limbs的系统的耐用性和可靠性方面至关重要。总之，术语sliding limb涵盖了机械设计和功能性的一个重要方面。无论是在机器人技术、汽车工程还是其他机械应用中，sliding limb沿着指定路径平稳移动的能力对于整个系统的性能和效率至关重要。随着技术的不断进步，sliding limbs的角色无疑会演变，未来将出现更具创新性的应用和设计。因此，透彻理解sliding limbs不仅对工程师有益，对任何对机械和技术迷人世界感兴趣的人来说也是如此。