clock mechanism

简明释义

钟表机构

英英释义

例句

1.The clock mechanism in this grandfather clock is over a century old.

这座落地钟的钟表机制已有一个世纪的历史。

2.A faulty clock mechanism can lead to inaccurate time readings.

故障的钟表机制可能导致时间读数不准确。

3.He studied the clock mechanism to learn how to build his own timepiece.

他研究了钟表机制，以学习如何制作自己的时计。

4.When repairing an antique watch, understanding the clock mechanism is essential.

修理古董手表时，理解钟表机制是必不可少的。

5.The intricate design of the clock mechanism allows for precise timekeeping.

复杂的钟表机制设计使得时间保持精准。

作文

The concept of a clock mechanism is fundamental to our understanding of timekeeping devices. At its core, a clock mechanism refers to the intricate system of parts that work together to measure and display time accurately. This system can be mechanical, using gears and springs, or electronic, utilizing circuits and digital displays. Understanding how a clock mechanism operates not only enhances our appreciation for timepieces but also provides insight into the technological advancements that have shaped our modern world.Historically, the evolution of the clock mechanism has been remarkable. Early timekeeping devices were often simple sundials or water clocks, which relied on natural phenomena to indicate time. However, as societies became more complex, the need for precise timekeeping grew. The introduction of the mechanical clock mechanism during the Middle Ages marked a significant turning point. These early mechanical clocks utilized weights and gears to create a reliable means of tracking time, laying the groundwork for future innovations.In the 17th century, the invention of the pendulum clock by Christiaan Huygens revolutionized the clock mechanism. The pendulum's regular motion allowed for unprecedented accuracy in timekeeping, reducing errors to mere seconds over long periods. This advancement not only improved daily life but also had profound implications for navigation and scientific research, as accurate time measurement became crucial for determining longitude at sea.As technology progressed, the clock mechanism evolved further with the advent of quartz and atomic clocks. Quartz clocks utilize the vibrations of quartz crystals to maintain accuracy, while atomic clocks are based on the vibrations of atoms, providing an astonishing level of precision. These modern clock mechanisms are essential for various applications, including GPS systems and telecommunications, demonstrating the importance of timekeeping in our interconnected world.Despite the rise of digital technology, traditional mechanical clocks remain popular among enthusiasts and collectors. The craftsmanship involved in creating a mechanical clock mechanism is highly regarded, and many artisans dedicate their lives to perfecting this art. Each component, from the gears to the escapement, plays a crucial role in the overall function of the clock, showcasing the beauty of engineering and design.In conclusion, the clock mechanism is more than just a collection of gears and springs; it represents humanity's quest to understand and measure time. From ancient sundials to cutting-edge atomic clocks, the evolution of the clock mechanism reflects our technological progress and our desire to bring order to the passage of time. As we continue to innovate, the significance of these mechanisms will endure, reminding us of the intricate relationship between time and technology in our daily lives.

“钟表机制”的概念是我们理解计时设备的基础。它的核心是指一套复杂的部件系统，这些部件共同工作以准确地测量和显示时间。这个系统可以是机械的，使用齿轮和弹簧，或者是电子的，利用电路和数字显示。理解“钟表机制”的运作不仅增强了我们对时计的欣赏，还提供了对塑造我们现代世界的技术进步的洞察。历史上，“钟表机制”的演变令人瞩目。早期的计时设备通常是简单的日晷或水钟，依赖自然现象来指示时间。然而，随着社会变得更加复杂，对精确计时的需求也在增长。在中世纪，机械“钟表机制”的引入标志着一个重要的转折点。这些早期的机械钟利用重物和齿轮创造了一种可靠的时间追踪手段，为未来的创新奠定了基础。在17世纪，克里斯蒂安·惠更斯发明的摆钟彻底改变了“钟表机制”。摆锤的规律运动使得计时的准确性达到了前所未有的水平，将误差减少到几秒钟。这一进步不仅改善了日常生活，还有深远的影响，尤其是在航海和科学研究中，因为准确的时间测量对于确定海上的经度至关重要。随着技术的进步，“钟表机制”随着石英钟和原子钟的出现而进一步演变。石英钟利用石英晶体的振动保持准确，而原子钟则基于原子的振动，提供了惊人的精确度。这些现代“钟表机制”在各种应用中至关重要，包括全球定位系统（GPS）和电信，展示了计时在我们互联世界中的重要性。尽管数字技术的兴起，传统机械钟仍然受到爱好者和收藏家的欢迎。制作机械“钟表机制”的工艺备受推崇，许多工匠致力于完善这一艺术。每个组件，从齿轮到擒纵器，在钟表的整体功能中都扮演着至关重要的角色，展示了工程和设计的美。总之，“钟表机制”不仅仅是一组齿轮和弹簧；它代表了人类理解和测量时间的追求。从古老的日晷到尖端的原子钟，“钟表机制”的演变反映了我们的技术进步以及我们希望给时间的流逝带来秩序的愿望。随着我们继续创新，这些机制的重要性将持久存在，提醒我们时间与科技在日常生活中的复杂关系。