bearing circle

简明释义

方向盘;

英英释义

例句

1.The engineer measured the diameter of the bearing circle to ensure it fits properly in the machinery.

工程师测量了轴承圈的直径，以确保它在机械中合适。

2.When assembling the wheel, make sure the bearing circle is aligned correctly to avoid any misalignment.

在组装轮子时，请确保轴承圈正确对齐，以避免任何不对齐。

3.The technician discovered that the wear on the bearing circle was causing excessive vibration.

技术员发现轴承圈的磨损导致了过度振动。

4.A larger bearing circle can improve load distribution in heavy machinery.

较大的轴承圈可以改善重型机械中的负载分布。

5.Regular maintenance checks include inspecting the bearing circle for signs of damage.

定期维护检查包括检查轴承圈是否有损坏迹象。

作文

The concept of a bearing circle is essential in various fields, particularly in engineering and mechanics. A bearing circle refers to the circular path that a bearing can take when it is subjected to load and motion. This term is crucial when designing machinery that involves rotating parts, as it helps engineers understand how components interact under different conditions. In simple terms, the bearing circle is the area around a bearing where it operates effectively, ensuring smooth movement and reducing friction. When we think about machines, we often overlook the importance of bearings. These small yet vital components allow for the smooth rotation of shafts and wheels, making them indispensable in everything from cars to industrial equipment. The bearing circle plays a significant role in determining the efficiency and longevity of these machines. If the bearing circle is not correctly calculated or designed, it can lead to increased wear and tear, ultimately resulting in mechanical failure. Understanding the bearing circle also aids in the selection of appropriate materials and sizes for bearings. For instance, if a bearing is too small for its bearing circle, it may not withstand the forces applied during operation. Conversely, an oversized bearing may lead to unnecessary weight and cost. Therefore, engineers must carefully analyze the bearing circle to ensure optimal performance.In addition to mechanical applications, the concept of a bearing circle can also be applied in other areas, such as navigation and surveying. In these fields, the bearing circle denotes the angle or direction from one point to another, which is crucial for accurate positioning and mapping. Surveyors use the bearing circle to determine the orientation of land parcels and establish property boundaries. Moreover, understanding the bearing circle can enhance our comprehension of physical dynamics. For example, in physics, the bearing circle can help illustrate concepts like angular momentum and rotational motion. By visualizing the bearing circle, students can better grasp how forces act on rotating objects and the importance of balance and stability in systems.In conclusion, the bearing circle is a fundamental concept that transcends various disciplines. Whether in engineering, navigation, or physics, understanding the bearing circle allows us to design better machines, navigate accurately, and comprehend the dynamics of motion. As technology continues to advance, the relevance of the bearing circle will only grow, emphasizing the need for a solid grasp of this critical concept in both academic and practical applications.

“轴承圆”这一概念在各个领域中都至关重要，尤其是在工程和机械领域。“轴承圆”指的是当轴承受到负载和运动时，轴承可以采取的圆形路径。这个术语在设计涉及旋转部件的机械时至关重要，因为它帮助工程师理解不同条件下组件的相互作用。简单来说，“轴承圆”是一个轴承有效运作的区域，它确保平滑的运动并减少摩擦。当我们想到机器时，往往忽视了轴承的重要性。这些小而关键的组件使得轴和轮子的平稳旋转成为可能，使其在从汽车到工业设备等各种设备中不可或缺。“轴承圆”在决定这些机器的效率和寿命方面扮演着重要角色。如果“轴承圆”没有正确计算或设计，就会导致磨损加剧，最终导致机械故障。理解“轴承圆”还有助于选择合适的材料和轴承尺寸。例如，如果一个轴承对于其“轴承圆”来说过小，它可能无法承受操作过程中施加的力量。相反，过大的轴承可能导致不必要的重量和成本。因此，工程师必须仔细分析“轴承圆”，以确保最佳性能。除了机械应用外，“轴承圆”的概念还可以应用于其他领域，如导航和测量。在这些领域中，“轴承圆”表示从一个点到另一个点的角度或方向，这对于准确定位和制图至关重要。测量员使用“轴承圆”来确定土地的方向，并建立财产边界。此外，理解“轴承圆”可以增强我们对物理动态的理解。例如，在物理学中，“轴承圆”可以帮助说明角动量和旋转运动等概念。通过可视化“轴承圆”，学生可以更好地理解力如何作用于旋转物体，以及系统中平衡和稳定的重要性。总之，“轴承圆”是一个基本概念，跨越多个学科。无论是在工程、导航还是物理学中，理解“轴承圆”使我们能够设计更好的机器、准确导航和理解运动的动态。随着技术的不断进步，“轴承圆”的相关性只会增加，这强调了在学术和实际应用中牢固掌握这一关键概念的必要性。