circumferential pitch

简明释义

圆周齿距

英英释义

例句

1.The manufacturer specified a circumferential pitch 周向间距 of 10 mm for the new product line.

制造商为新产品线指定了10毫米的周向间距。

2.In designing a cylindrical bearing, the circumferential pitch 周向间距 must be precisely measured.

在设计圆柱轴承时，周向间距必须精确测量。

3.The circumferential pitch 周向间距 of the rivets was critical for maintaining structural integrity.

铆钉的周向间距对于保持结构完整性至关重要。

4.To optimize the performance, the circumferential pitch 周向间距 of the turbine blades was adjusted.

为了优化性能，涡轮叶片的周向间距被调整。

5.The engineer calculated the circumferential pitch 周向间距 of the gear teeth to ensure proper meshing.

工程师计算了齿轮齿的周向间距以确保正确啮合。

作文

Understanding the concept of circumferential pitch is essential in various fields, particularly in mechanical engineering and design. The term refers to the distance between two adjacent points on a circular path, measured along the circumference. This measurement is crucial when designing gears, pulleys, and other circular components, as it directly affects their performance and functionality. In gears, for instance, the circumferential pitch determines how well two gears mesh together. If the pitch is not consistent, it can lead to increased wear and tear, noise, and even failure of the machinery. In practical applications, the circumferential pitch is often calculated based on the number of teeth on a gear and its diameter. For example, if a gear has 20 teeth and a diameter of 10 centimeters, the circumferential pitch can be calculated using the formula: Circumferential Pitch = (π × Diameter) / Number of Teeth. This simple calculation helps engineers ensure that the gears will operate smoothly and efficiently. Moreover, the importance of circumferential pitch extends beyond just gears. It plays a significant role in the design of other mechanical systems, such as conveyor belts and rotary devices. For conveyor belts, understanding the circumferential pitch helps in determining the spacing of the rollers and the overall efficiency of the system. A miscalculation can lead to slippage or uneven wear, which ultimately affects productivity. In addition to mechanical applications, the concept of circumferential pitch can also be observed in nature. For instance, the arrangement of seeds in a sunflower follows a specific circumferential pitch, which allows for optimal exposure to sunlight and rainfall. This natural phenomenon illustrates how the principles of engineering can often be found in biological systems, emphasizing the interconnectedness of different fields of study. Furthermore, when discussing circumferential pitch, it is important to consider its implications in design aesthetics. In architectural design, the spacing of circular columns or features may also rely on principles similar to circumferential pitch. Architects must ensure that these elements are not only functional but also visually appealing, which often involves careful calculations and considerations of pitch. In conclusion, the concept of circumferential pitch is a fundamental aspect of both engineering and design. Its applications are vast, ranging from mechanical systems to natural phenomena and even architectural aesthetics. By understanding and mastering this concept, professionals in various fields can enhance their designs, improve functionality, and contribute to more efficient systems. As technology continues to advance, the relevance of circumferential pitch will undoubtedly remain significant in the pursuit of innovation and excellence in design and engineering.

理解周向节距的概念在多个领域中至关重要，尤其是在机械工程和设计中。该术语指的是沿着圆周测量的两个相邻点之间的距离。这一测量在设计齿轮、滑轮和其他圆形组件时至关重要，因为它直接影响它们的性能和功能。例如，在齿轮中，周向节距决定了两个齿轮的啮合程度。如果节距不一致，可能导致磨损加剧、噪音增加，甚至机械故障。在实际应用中，周向节距通常根据齿轮上的齿数和其直径进行计算。例如，如果一个齿轮有20个齿，直径为10厘米，则可以使用以下公式计算周向节距：周向节距 = (π × 直径) / 齿数。这个简单的计算帮助工程师确保齿轮能够平稳高效地运转。此外，周向节距的重要性不仅限于齿轮。它在其他机械系统的设计中也发挥着重要作用，例如输送带和旋转设备。在输送带中，了解周向节距有助于确定滚筒的间距和整个系统的效率。误算可能导致滑动或不均匀磨损，从而最终影响生产力。除了机械应用之外，周向节距的概念也可以在自然界中观察到。例如，向日葵中种子的排列遵循特定的周向节距，这使其能够最佳地暴露在阳光和降雨中。这一自然现象说明了工程原理往往可以在生物系统中找到，强调了不同研究领域之间的相互关联性。此外，在讨论周向节距时，考虑其在设计美学中的影响也很重要。在建筑设计中，圆形柱子或特征的间距也可能依赖于类似于周向节距的原则。建筑师必须确保这些元素不仅功能性强，而且视觉上也令人愉悦，这往往涉及到精确的计算和节距的考虑。总之，周向节距的概念是工程和设计的基本方面。它的应用范围广泛，从机械系统到自然现象，甚至建筑美学。通过理解和掌握这一概念，各个领域的专业人士可以增强他们的设计，提高功能性，并为更高效的系统做出贡献。随着技术的不断进步，周向节距的重要性无疑将在追求创新和卓越的设计与工程中保持显著。