interlocking tooth

简明释义

交齿

英英释义

例句

1.The bicycle chain has interlocking teeth that grip the gears effectively.

自行车链条有互锁齿，能够有效地抓住齿轮。

2.The design of the gear includes an interlocking tooth mechanism that ensures smooth operation.

这个齿轮的设计包括一个互锁齿机制，以确保平稳运行。

3.The puzzle features pieces with interlocking teeth that fit together perfectly.

这个拼图的拼块具有完美契合的互锁齿。

4.In woodworking, using a joint with interlocking teeth can provide added strength to the structure.

在木工中，使用带有互锁齿的接头可以为结构提供额外的强度。

5.The lock utilizes an interlocking tooth system to enhance security.

这个锁采用了互锁齿系统来增强安全性。

作文

In the realm of mechanics and engineering, the concept of an interlocking tooth plays a crucial role in ensuring the smooth operation of various machines and devices. An interlocking tooth refers to a design feature where two or more components fit together in such a way that they engage with each other securely, much like the teeth of a gear. This interlocking mechanism not only enhances the efficiency of movement but also significantly reduces wear and tear on the components involved. Consider the example of a traditional clock. The gears within the clock are designed with interlocking teeth that mesh perfectly to transfer energy from one gear to another. This precise engagement is vital for maintaining accurate time. If the teeth were not interlocking, the gears would slip, leading to errors in timekeeping. Thus, the interlocking tooth design is essential for the functionality of clocks and many other mechanical devices.Moreover, the application of interlocking teeth can be found in various industries, including automotive, aerospace, and manufacturing. In automobiles, for instance, the transmission system relies heavily on gears with interlocking teeth to ensure that power is efficiently transmitted from the engine to the wheels. Any failure in this interlocking mechanism could result in a loss of power, making it imperative for engineers to design these systems with precision and durability in mind.The benefits of using interlocking teeth extend beyond just mechanical efficiency. They also contribute to safety. For example, in the design of safety mechanisms in machinery, interlocking teeth can prevent accidental disengagement of parts, thereby reducing the risk of accidents. This is particularly important in heavy machinery used in construction and manufacturing, where the consequences of failure can be catastrophic.In addition to their practical applications, interlocking teeth also inspire innovation in design. Engineers and designers often look to nature for inspiration, and the interlocking mechanisms found in various biological systems can lead to breakthroughs in technology. The study of how certain animals use interlocking structures for movement or defense can inform the design of new machines that are both efficient and effective.In conclusion, the concept of an interlocking tooth is fundamental to the design and function of many mechanical systems. Its ability to create secure connections between components not only enhances performance but also contributes to safety and innovation. As technology continues to advance, the importance of understanding and utilizing interlocking teeth will remain a cornerstone of engineering practices. Whether in everyday devices or complex machinery, the interlocking mechanism will undoubtedly continue to play a pivotal role in our technological landscape.

在机械和工程领域，相互锁定的齿的概念在确保各种机器和设备的顺利运行中起着至关重要的作用。相互锁定的齿是指一种设计特征，其中两个或多个组件以一种相互紧密结合的方式配合在一起，类似于齿轮的齿。这种相互锁定机制不仅提高了运动的效率，还显著减少了涉及的组件的磨损。以传统时钟为例。时钟内部的齿轮设计有相互锁定的齿，它们完美啮合，以便将能量从一个齿轮传递到另一个齿轮。这种精确的接合对于保持准确的时间至关重要。如果齿轮没有相互锁定，齿轮将会打滑，从而导致计时错误。因此，相互锁定的齿设计对于时钟和许多其他机械设备的功能至关重要。此外，相互锁定的齿的应用可以在汽车、航空航天和制造等各个行业中找到。例如，在汽车中，传动系统在很大程度上依赖于带有相互锁定的齿的齿轮，以确保动力有效地从发动机传递到车轮。此种相互锁定机制的任何故障都可能导致动力丧失，这使得工程师必须精确和耐用地设计这些系统。使用相互锁定的齿的好处不仅限于机械效率。它们还对安全性做出贡献。例如，在机械的安全机制设计中，相互锁定的齿可以防止零件意外脱离，从而降低事故风险。这在建筑和制造中使用的重型机械中尤其重要，因为故障的后果可能是灾难性的。除了实际应用之外，相互锁定的齿还激发了设计创新。工程师和设计师经常向自然寻求灵感，生物系统中发现的相互锁定机制可以导致技术上的突破。研究某些动物如何利用相互锁定结构进行运动或防御，可以为设计新的高效且有效的机器提供信息。总之，相互锁定的齿的概念是许多机械系统设计和功能的基础。它能够在组件之间创建安全的连接，不仅提高了性能，还促进了安全性和创新。随着技术的不断进步，理解和利用相互锁定的齿的重要性将始终是工程实践的基石。无论是在日常设备还是复杂机械中，相互锁定机制无疑将继续在我们的技术领域中发挥关键作用。