wheel tooth

简明释义

齿轮齿

英英释义

例句

1.A broken wheel tooth 齿轮齿 can lead to significant machinery failure.

一个断裂的wheel tooth 齿轮齿可能导致严重的机械故障。

2.To ensure smooth operation, it's crucial to lubricate each wheel tooth 齿轮齿 regularly.

为了确保顺畅运行，定期给每个wheel tooth 齿轮齿上润滑油是至关重要的。

3.The mechanic inspected the gear and found that the wheel tooth 齿轮齿 was worn down.

机械师检查了齿轮，发现wheel tooth 齿轮齿磨损了。

4.The engineer designed the new model to have stronger wheel tooth 齿轮齿 for better durability.

工程师设计的新型号具有更强的wheel tooth 齿轮齿以提高耐用性。

5.During assembly, make sure the wheel tooth 齿轮齿 aligns perfectly with the corresponding part.

在组装过程中，确保wheel tooth 齿轮齿与相应部件完美对齐。

作文

In the realm of mechanical engineering, the term wheel tooth refers to the individual projections or notches found on the circumference of a gear wheel. These teeth play a crucial role in the functionality of gears, enabling them to interlock and transmit motion effectively. Understanding the design and arrangement of wheel teeth is fundamental for anyone involved in machinery design or maintenance. The configuration of wheel teeth can vary significantly based on the application they are intended for. For instance, in a spur gear, the wheel teeth are straight and aligned parallel to the axis of rotation, allowing for smooth and efficient transmission of power. Conversely, helical gears feature wheel teeth that are angled, which helps in distributing the load more evenly and reducing noise during operation. This differentiation in design highlights the importance of wheel teeth in optimizing performance in various mechanical systems.Moreover, the material used for manufacturing wheel teeth is also vital. Common materials include steel, plastic, and sometimes even composite materials, depending on the strength requirements and environmental conditions. The durability of wheel teeth directly affects the lifespan of the gear system; thus, engineers must select appropriate materials to ensure reliability and efficiency.When designing gears, engineers must also consider the size and shape of wheel teeth. The pitch, which is the distance between corresponding points on adjacent wheel teeth, influences how well the gears mesh together. If the pitch is not correctly calculated, it may lead to increased wear and tear or even gear failure. Consequently, precision in the design process is imperative to achieve optimal gear performance.Furthermore, the concept of wheel teeth extends beyond traditional gears. In modern applications, such as robotics and automotive engineering, the principles of wheel teeth design are applied to create more complex systems that require precise motion control. For example, robotic arms utilize gears with intricately designed wheel teeth to achieve accurate positioning and movement. This versatility showcases the significance of understanding wheel teeth in advancing technology and engineering solutions.In conclusion, the study of wheel teeth is essential for anyone interested in mechanical engineering. From their basic function in gear systems to their role in advanced technological applications, wheel teeth are fundamental components that facilitate motion and efficiency in machinery. By grasping the intricacies of wheel teeth design, engineers can innovate and improve mechanical systems, ultimately contributing to the advancement of various industries. Whether in simple machines or complex robotics, the knowledge of wheel teeth remains a cornerstone of mechanical engineering education and practice.

在机械工程领域，术语wheel tooth指的是齿轮轮缘上各个突起或缺口。这些齿在齿轮的功能中起着至关重要的作用，使它们能够相互啮合并有效地传递运动。理解wheel tooth的设计和排列对于任何参与机械设计或维护的人来说都是基础。wheel tooth的配置可能会根据其预期应用而显著变化。例如，在直齿轮中，wheel tooth是直的，并与旋转轴平行排列，从而实现平稳高效的动力传递。相反，斜齿轮的wheel tooth则呈角度，这有助于更均匀地分配负载并减少操作时的噪音。这种设计差异突显了wheel tooth在优化各种机械系统性能中的重要性。此外，制造wheel tooth所用的材料也至关重要。常见材料包括钢、塑料，有时甚至是复合材料，具体取决于强度要求和环境条件。wheel tooth的耐用性直接影响齿轮系统的使用寿命，因此工程师必须选择适当的材料以确保可靠性和效率。在设计齿轮时，工程师还必须考虑wheel tooth的大小和形状。齿距，即相邻wheel tooth上对应点之间的距离，会影响齿轮的啮合程度。如果齿距计算不正确，可能会导致磨损增加甚至齿轮故障。因此，设计过程中的精确性对于实现最佳齿轮性能至关重要。此外，wheel tooth的概念超越了传统齿轮。在现代应用中，如机器人技术和汽车工程，wheel tooth设计原理被应用于创建需要精确运动控制的更复杂系统。例如，机器人手臂利用具有复杂设计的wheel tooth来实现准确的定位和运动。这种多样性展示了理解wheel tooth在推动技术和工程解决方案进步中的重要性。总之，研究wheel tooth对任何对机械工程感兴趣的人来说都是必要的。从它们在齿轮系统中的基本功能到在先进技术应用中的角色，wheel tooth是促进机械运动和效率的基本组成部分。通过掌握wheel tooth设计的复杂性，工程师可以创新和改进机械系统，最终为各个行业的进步做出贡献。无论是在简单的机器还是复杂的机器人中，对wheel tooth的知识仍然是机械工程教育和实践的基石。