transmission of motion

简明释义

传动

英英释义

例句

1.A well-designed conveyor belt system enhances the transmission of motion 运动的传递 in manufacturing.

一个设计良好的输送带系统提高了制造中的transmission of motion 运动的传递。

2.In robotics, the transmission of motion 运动的传递 is crucial for precise movement control.

在机器人技术中，transmission of motion 运动的传递对于精确的运动控制至关重要。

3.The gears in a bicycle are essential for the transmission of motion 运动的传递 from the pedals to the wheels.

自行车的齿轮对踏板到车轮的transmission of motion 运动的传递至关重要。

4.The design of the engine affects the transmission of motion 运动的传递 to the vehicle's wheels.

发动机的设计影响着车辆轮子之间的transmission of motion 运动的传递。

5.The transmission of motion 运动的传递 in a clock relies on intricate gear mechanisms.

钟表中的transmission of motion 运动的传递依赖于复杂的齿轮机制。

作文

The concept of transmission of motion is fundamental in the study of mechanics and engineering. It refers to the process by which motion is transferred from one part of a system to another. This principle is crucial in various applications, ranging from simple machines to complex mechanical systems. Understanding how transmission of motion works can help us design more efficient machines and improve existing technologies.In everyday life, we encounter numerous examples of transmission of motion. For instance, consider a bicycle. When a cyclist pedals, the motion generated by their legs is transmitted through the pedals to the crankset, and then to the chain. The chain, in turn, transfers this motion to the rear wheel, propelling the bicycle forward. This simple yet effective mechanism illustrates how transmission of motion operates in practical scenarios.Moreover, the principles of transmission of motion can be observed in various types of machinery. In an automobile, the engine generates rotational motion, which is transmitted through the drivetrain to the wheels. This transmission involves multiple components, such as gears and shafts, each playing a vital role in ensuring that the motion is efficiently transferred. The study of these components reveals the complexity and intricacy involved in the transmission of motion within vehicles.In addition to mechanical systems, the concept of transmission of motion also extends to other fields, including robotics and automation. In robotic systems, actuators are used to convert electrical energy into motion. This motion must then be transmitted effectively to the robotic limbs to perform tasks accurately. Engineers must carefully consider the transmission of motion when designing robots to ensure they function smoothly and efficiently.Furthermore, understanding the transmission of motion is essential for innovation in technology. As industries evolve, there is a constant need for new mechanisms that can transmit motion more effectively. For example, advancements in materials science have led to the development of lighter and stronger components that enhance the efficiency of motion transmission. These innovations not only improve performance but also contribute to sustainability by reducing energy consumption.In conclusion, the transmission of motion is a vital concept that permeates various aspects of our lives, from simple machines like bicycles to complex systems like automobiles and robots. By grasping the principles behind transmission of motion, we can better understand how machines operate and contribute to technological advancements. As we continue to innovate and create new technologies, the importance of mastering this concept will only grow, paving the way for more efficient and effective solutions in the future.

“运动传递”这一概念在力学和工程学的研究中是基础性的。它指的是运动从系统的一部分转移到另一部分的过程。这个原理在从简单机械到复杂机械系统的各种应用中都是至关重要的。理解“运动传递”的工作原理可以帮助我们设计更高效的机器并改进现有技术。在日常生活中，我们会遇到许多“运动传递”的例子。例如，考虑一下自行车。当骑自行车的人踩踏板时，由他们的腿产生的运动通过踏板传递到曲轴，然后传递到链条。链条又将这种运动传递到后轮，推动自行车向前。这种简单而有效的机制说明了“运动传递”在实际场景中的运作方式。此外，“运动传递”的原理也可以在各种类型的机械中观察到。在汽车中，发动机产生旋转运动，这种运动通过传动系统传递到车轮。这种传递涉及多个组件，如齿轮和轴，每个组件在确保运动有效传递中都发挥着至关重要的作用。对这些组件的研究揭示了在车辆内部“运动传递”所涉及的复杂性和精细性。除了机械系统之外，“运动传递”的概念还扩展到其他领域，包括机器人技术和自动化。在机器人系统中，执行器用于将电能转换为运动。这种运动必须有效地传递到机器人的肢体，以准确执行任务。工程师在设计机器人时必须仔细考虑“运动传递”，以确保它们平稳高效地运行。此外，理解“运动传递”对于技术创新至关重要。随着行业的发展，始终需要新的机制来更有效地传递运动。例如，材料科学的进步导致开发出更轻、更强的组件，从而提高运动传递的效率。这些创新不仅改善了性能，还通过减少能耗为可持续发展做出了贡献。总之，“运动传递”是一个重要的概念，渗透到我们生活的各个方面，从简单的自行车到复杂的汽车和机器人。通过掌握“运动传递”背后的原理，我们可以更好地理解机器的运作，并为技术进步做出贡献。随着我们不断创新和创造新技术，掌握这一概念的重要性只会增加，为未来提供更高效、更有效的解决方案。