axial pitch

简明释义

轴向节距;

英英释义

例句

1.The engineer calculated the axial pitch to ensure proper alignment of the gears.

工程师计算了轴向间距以确保齿轮的正确对齐。

2.The specifications required a specific axial pitch for optimal performance.

规格要求特定的轴向间距以获得最佳性能。

3.A larger axial pitch may lead to faster movement but less precision.

较大的轴向间距可能导致更快的运动，但精度较低。

4.Adjusting the axial pitch can improve the efficiency of the mechanical system.

调整轴向间距可以提高机械系统的效率。

5.In a screw design, the axial pitch determines how far the screw travels with each rotation.

在螺钉设计中，轴向间距决定了螺钉每次旋转移动的距离。

作文

When discussing mechanical engineering and design, one comes across various terminologies that are crucial for understanding how machines operate. One such term is axial pitch, which refers to the distance between corresponding points on adjacent threads in a screw or bolt along the axis of the fastener. This measurement is essential in determining how tightly a screw will fit into a corresponding nut or threaded hole. Understanding the concept of axial pitch is vital for engineers and designers because it affects the performance and functionality of assembled components.The axial pitch plays a significant role in the overall design of mechanical systems. For instance, when designing a gearbox, the axial pitch of the screws used to secure the gearbox casing can influence the gear alignment and stability. If the pitch is too large or too small, it could lead to misalignment, resulting in excessive wear and tear or even catastrophic failure of the system. Therefore, selecting the correct axial pitch is crucial for ensuring reliability and longevity in mechanical designs.Moreover, the axial pitch is not only important in static applications but also in dynamic ones, where components experience continuous motion. In applications like motors and pumps, where screws and bolts hold critical parts together, the axial pitch can affect the vibration levels and noise generated by the equipment. A well-calibrated pitch can help minimize these factors, leading to smoother operation and increased efficiency.In addition to mechanical applications, the concept of axial pitch can also be found in other fields such as robotics and aerospace engineering. In robotics, for example, the axial pitch of gears and motors can determine the precision of movements and the speed at which a robot operates. Similarly, in aerospace, the axial pitch of fasteners used in aircraft assembly is critical for ensuring that all components withstand the stresses of flight.Furthermore, understanding axial pitch can aid in troubleshooting and maintenance. When a machine exhibits abnormal behavior, engineers often examine the fasteners and their respective pitches. If the axial pitch is incorrect, it may indicate that the wrong screws were used or that there has been wear over time that needs to be addressed. This knowledge can save time and resources during repairs, as identifying the source of a problem quickly is essential in maintaining operational efficiency.In conclusion, the term axial pitch encompasses more than just a simple measurement; it represents a fundamental aspect of mechanical design and engineering. From ensuring proper alignment in complex machinery to influencing the performance of dynamic systems, the axial pitch is a critical element that engineers must consider. As technology continues to advance, a deeper understanding of such terms will be essential for future innovations in engineering and design. Thus, mastering the concept of axial pitch is not only beneficial but necessary for anyone involved in the field of engineering.

在讨论机械工程和设计时，人们会遇到各种术语，这些术语对于理解机器的操作至关重要。其中一个术语是轴向间距，它指的是在螺钉或螺栓的轴线上，相邻螺纹之间对应点的距离。这个测量对于确定螺钉如何紧密地适合于相应的螺母或螺纹孔是必不可少的。理解轴向间距的概念对于工程师和设计师来说至关重要，因为它影响着组件的性能和功能。轴向间距在机械系统的整体设计中起着重要作用。例如，在设计齿轮箱时，用于固定齿轮箱外壳的螺钉的轴向间距可以影响齿轮的对齐和稳定性。如果间距过大或过小，可能会导致对齐不当，从而导致过度磨损甚至系统的灾难性故障。因此，选择正确的轴向间距对于确保机械设计的可靠性和耐用性至关重要。此外，轴向间距不仅在静态应用中重要，在动态应用中也同样重要，在这些应用中，组件会经历持续的运动。在电动机和泵等应用中，螺钉和螺栓用于将关键部件固定在一起，轴向间距会影响设备产生的振动水平和噪音。经过良好校准的间距可以帮助最小化这些因素，从而实现更平稳的操作和更高的效率。除了机械应用外，轴向间距的概念还可以在机器人技术和航空航天工程等其他领域中找到。在机器人技术中，例如，齿轮和电动机的轴向间距可以决定机器人的运动精度和操作速度。同样，在航空航天领域，飞机组装中使用的紧固件的轴向间距对于确保所有组件承受飞行中的压力至关重要。此外，了解轴向间距还可以帮助故障排除和维护。当机器出现异常行为时，工程师通常会检查紧固件及其各自的间距。如果轴向间距不正确，可能表明使用了错误的螺钉，或者随着时间的推移需要处理磨损。这种知识可以在维修过程中节省时间和资源，因为快速识别问题的来源对于维持操作效率至关重要。总之，术语轴向间距不仅仅是一个简单的测量；它代表了机械设计和工程的一个基本方面。从确保复杂机械中的适当对齐到影响动态系统的性能，轴向间距是工程师必须考虑的一个关键元素。随着技术的不断进步，对这些术语的更深入理解将对未来的工程和设计创新至关重要。因此，掌握轴向间距的概念对于任何涉及工程领域的人来说，不仅是有益的，更是必要的。