slewing axis

简明释义

(吊车

英英释义

例句

1.Adjusting the position of the telescope requires careful alignment of the slewing axis (回转轴).

调整望远镜的位置需要仔细对齐slewing axis (回转轴)。

2.The wind turbine's blades rotate around a slewing axis (回转轴) to capture wind energy.

风力发电机的叶片围绕slewing axis (回转轴) 旋转以捕获风能。

3.The crane rotates around the slewing axis (回转轴) to lift heavy materials.

起重机围绕slewing axis (回转轴) 旋转以提升重物。

4.In robotics, the slewing axis (回转轴) allows for smooth and precise movements.

在机器人技术中，slewing axis (回转轴) 允许平滑和精确的运动。

5.The slewing axis (回转轴) is crucial for the functionality of a gimbal system in cameras.

在相机的云台系统中，slewing axis (回转轴) 对功能至关重要。

作文

In the world of engineering and machinery, precision is paramount. One critical component that contributes to this precision is the concept of the slewing axis, or in Chinese, 回转轴. This term refers to an axis around which a rotating object pivots. Understanding the slewing axis is essential for various applications, including cranes, excavators, and other heavy machinery that require rotational movement to function effectively.The slewing axis allows machines to perform tasks that involve lifting and moving materials in a circular motion. For instance, in cranes, the slewing axis supports the boom's rotation, enabling it to reach different angles and positions to lift loads efficiently. This capability is crucial on construction sites where space is limited, and precise movements are necessary to avoid accidents and ensure safety.Moreover, the design of the slewing axis is vital for the overall stability and performance of the machine. Engineers must consider factors such as weight distribution, load capacity, and the materials used in constructing the slewing axis. A well-engineered slewing axis can withstand significant forces and provide smooth and controlled movements, which are essential for the safe operation of heavy machinery.In addition to construction equipment, the slewing axis is also prevalent in other fields, such as robotics and aerospace. In robotic arms, for example, the slewing axis allows for intricate movements that mimic human dexterity. This functionality is critical in manufacturing processes, where robots assemble components with high precision. Similarly, in aerospace applications, the slewing axis is used in satellite positioning systems, allowing satellites to adjust their orientation and maintain communication with ground stations.The importance of the slewing axis extends beyond just mechanical functionality; it also plays a role in enhancing efficiency and productivity. By enabling machines to perform complex movements with ease, the slewing axis reduces the time required to complete tasks, ultimately leading to cost savings and improved operational efficiency. In industries where time is money, such advantages can significantly impact a company's bottom line.Furthermore, advancements in technology have led to the development of more sophisticated slewing axis systems. Innovations such as hydraulic systems and electronic controls have enhanced the responsiveness and accuracy of these axes. Modern machinery equipped with advanced slewing axis technology can perform tasks that were previously impossible, opening new avenues for exploration and development across various sectors.In conclusion, the slewing axis is a fundamental concept in engineering that facilitates rotational movement in various machines. Its significance in construction, robotics, and aerospace cannot be overstated. As technology continues to evolve, the slewing axis will undoubtedly play a crucial role in shaping the future of machinery and automation. Understanding the intricacies of the slewing axis not only enhances our knowledge of mechanical systems but also underscores the importance of precision and innovation in engineering practices. The study of the slewing axis is not just an academic exercise; it is a gateway to understanding how we can improve our machinery and, by extension, our world.

在工程和机械的世界中，精确性至关重要。一个对这种精确性贡献巨大的关键组件是slewing axis的概念，中文为回转轴。这个术语指的是一个旋转物体围绕其轴心旋转的轴。理解slewing axis对于各种应用至关重要，包括起重机、挖掘机和其他需要旋转运动才能有效工作的重型机械。slewing axis使机器能够执行涉及以圆形运动提升和移动材料的任务。例如，在起重机中，slewing axis支撑着臂的旋转，使其能够到达不同的角度和位置，以高效地提升负载。这种能力在建筑工地上至关重要，因为空间有限，精确的运动对于避免事故和确保安全是必要的。此外，slewing axis的设计对于机器的整体稳定性和性能至关重要。工程师必须考虑重量分布、负载能力以及构造slewing axis所用的材料。一个设计良好的slewing axis能够承受显著的力量，并提供平稳和可控的运动，这对于重型机械的安全操作至关重要。除了建筑设备，slewing axis在其他领域也很常见，例如机器人技术和航空航天。在机器人手臂中，例如，slewing axis允许进行复杂的运动，模拟人类的灵巧性。这种功能在制造过程中至关重要，机器人以高精度组装组件。同样，在航空航天应用中，slewing axis用于卫星定位系统，允许卫星调整其方向并与地面站保持通信。slewing axis的重要性不仅仅体现在机械功能上；它还在提高效率和生产力方面发挥着作用。通过使机器能够轻松执行复杂的运动，slewing axis减少了完成任务所需的时间，最终导致节省成本和改善运营效率。在时间就是金钱的行业中，这种优势可以显著影响公司的底线。此外，技术的进步导致了更复杂的slewing axis系统的发展。液压系统和电子控制等创新增强了这些轴的响应性和准确性。现代配备先进slewing axis技术的机械可以执行以前不可能的任务，为各个领域的探索和发展开辟了新的途径。总之，slewing axis是工程中的一个基本概念，它促进了各种机器中的旋转运动。它在建筑、机器人和航空航天中的重要性不容小觑。随着技术的不断发展，slewing axis无疑将在塑造机械和自动化的未来中发挥关键作用。理解slewing axis的复杂性不仅增强了我们对机械系统的知识，而且强调了精确性和创新在工程实践中的重要性。研究slewing axis不仅仅是学术练习；它是理解如何改善我们的机械，进而改善我们的世界的一个入口。