interlocking gear

简明释义

联锁装置

英英释义

例句

1.The engineer demonstrated how the interlocking gear 齿轮互锁 mechanism prevents slippage in the transmission.

工程师演示了interlocking gear 齿轮互锁机制如何防止变速器中的滑动。

2.We had to replace the interlocking gear 齿轮互锁 in the toy to make it work again.

我们必须更换玩具中的interlocking gear 齿轮互锁才能使其再次工作。

3.The mechanics explained how the interlocking gear 齿轮互锁 system works to ensure smooth operation in the machine.

机械师解释了如何运作的interlocking gear 齿轮互锁系统以确保机器平稳运行。

4.In our robotics class, we learned to create a model using interlocking gear 齿轮互锁 that allows for complex movements.

在我们的机器人课上，我们学习使用interlocking gear 齿轮互锁创建一个模型，以实现复杂的运动。

5.The design of the clock relies heavily on interlocking gear 齿轮互锁 to keep accurate time.

钟表的设计在很大程度上依赖于interlocking gear 齿轮互锁来保持准确的时间。

作文

The concept of machinery is often seen as a complex web of components working together to achieve a common goal. One of the most fascinating elements in this intricate system is the interlocking gear, which plays a crucial role in the functionality of various machines. Understanding how interlocking gears operate can provide valuable insights into the principles of mechanics and engineering. In essence, interlocking gears are designed to mesh with one another, allowing for the transfer of motion and force from one gear to another. This interaction is fundamental in devices ranging from simple toys to sophisticated industrial machines.The primary function of interlocking gears is to change the direction of movement and the speed at which it occurs. For instance, when one gear turns, it causes the adjacent gear to turn in the opposite direction. This characteristic is essential in applications where specific movements are required. For example, in a clock, the interlocking gears ensure that the hands move accurately to display the correct time. Without such precise coordination, timekeeping would be unreliable.Moreover, the design of interlocking gears allows for a variety of configurations, making them adaptable to different mechanical systems. The size, shape, and number of teeth on each gear can be altered to achieve desired outcomes. For instance, larger gears will turn more slowly but can transfer more power, while smaller gears will turn faster but may not handle as much load. This versatility is what makes interlocking gears an essential component in engineering design.In addition to their mechanical advantages, interlocking gears also serve as a metaphor for collaboration and teamwork. Just as gears must fit together perfectly to function effectively, individuals within a team must work harmoniously to achieve common objectives. This analogy can be applied in various contexts, including business, education, and community service. When members of a group understand their roles and responsibilities, much like interlocking gears, they can create a powerful synergy that leads to success.Furthermore, the study of interlocking gears can inspire innovation in technology. Engineers and designers continuously seek ways to improve gear systems, making them more efficient and durable. Advances in materials science, for example, have led to the development of stronger and lighter gears that can withstand greater stress. This progress not only enhances performance but also contributes to sustainability by reducing energy consumption in machinery.In conclusion, the significance of interlocking gears extends beyond their mechanical function; they symbolize the importance of cooperation and adaptability in achieving goals. Whether in a machine or a team, the ability to work together seamlessly is vital for success. As we continue to explore the intricacies of engineering and mechanics, the humble interlocking gear remains a powerful reminder of how interconnectedness drives progress and innovation.

机械的概念常常被视为一个复杂的组件网络，共同工作以实现共同目标。在这个错综复杂的系统中，互锁齿轮是最迷人的元素之一，它在各种机器的功能中扮演着至关重要的角色。理解互锁齿轮的运作可以提供对机械和工程原理的宝贵见解。实际上，互锁齿轮旨在相互啮合，从而允许运动和力从一个齿轮传递到另一个齿轮。这种相互作用在从简单玩具到复杂工业机器的设备中都是基础。互锁齿轮的主要功能是改变运动的方向及其发生的速度。例如，当一个齿轮转动时，它会导致相邻的齿轮朝相反的方向转动。这一特性在需要特定运动的应用中至关重要。例如，在钟表中，互锁齿轮确保指针准确移动，以显示正确的时间。如果没有这样的精确协调，计时将不可靠。此外，互锁齿轮的设计允许多种配置，使其适应不同的机械系统。每个齿轮的大小、形状和齿数可以改变，以达到期望的结果。例如，较大的齿轮转动较慢，但可以传递更多的动力，而较小的齿轮转动较快，但可能无法承受太多负载。这种多功能性使得互锁齿轮成为工程设计中的重要组成部分。除了机械优势，互锁齿轮还作为合作与团队精神的隐喻。正如齿轮必须完美契合才能有效运行，团队中的个人也必须和谐合作以实现共同目标。这一类比可以应用于各种场景，包括商业、教育和社区服务。当团队成员理解自己的角色和责任时，就像互锁齿轮一样，他们可以创造出强大的协同效应，从而取得成功。此外，研究互锁齿轮可以激发技术创新。工程师和设计师不断寻求改进齿轮系统的方法，使其更高效、更耐用。例如，材料科学的进步导致开发出更强大且更轻便的齿轮，能够承受更大的压力。这一进展不仅提高了性能，还通过减少机械能耗促进了可持续性。总之，互锁齿轮的重要性超出了它们的机械功能；它们象征着在实现目标时合作与适应的重要性。无论是在机器中还是在团队中，无缝合作的能力对于成功至关重要。随着我们继续探索工程和机械的复杂性，谦逊的互锁齿轮仍然是一个强有力的提醒，表明相互联系推动了进步和创新。