pendulum governor

简明释义

摆式调速器

英英释义

例句

1.Engineers studied the pendulum governor to improve its efficiency in modern applications.

工程师们研究了摆锤调速器以提高其在现代应用中的效率。

2.The design of the steam engine included a pendulum governor, which helped maintain a steady speed.

蒸汽机的设计中包含一个摆锤调速器，它帮助保持稳定的速度。

3.The principle behind the pendulum governor can be traced back to the early 19th century.

摆锤调速器背后的原理可以追溯到19世纪初。

4.The pendulum governor works by adjusting the fuel supply based on the engine's speed.

摆锤调速器通过根据发动机的速度调整燃料供应来工作。

5.In many old factories, the pendulum governor was crucial for regulating machine operations.

在许多老工厂中，摆锤调速器对调节机器操作至关重要。

作文

The invention of the steam engine in the 18th century marked a significant turning point in the history of technology. Among the various components that contributed to the efficiency and stability of these engines was the pendulum governor. This device played a critical role in regulating the speed of the engine, ensuring it operated smoothly without overheating or running too fast. The pendulum governor consists of a rotating arm with weights at the end that swing outward as the speed increases. When the engine runs too fast, the weights move outward, which in turn adjusts the throttle of the engine to reduce its speed. Conversely, if the engine runs too slowly, the weights retract, allowing more steam to enter and increase the speed. This automatic regulation made the pendulum governor an essential component for early industrial machinery, significantly enhancing productivity.Understanding the mechanics behind the pendulum governor is crucial for appreciating its impact on engineering and technology. The concept of feedback control, which is fundamental to many modern systems, can be traced back to this early invention. The pendulum governor exemplifies how mechanical systems can self-regulate, maintaining balance and efficiency. This principle is not only applicable in steam engines but has also been adapted in various fields, including automotive engineering and robotics.Moreover, the pendulum governor reflects the ingenuity of engineers during the Industrial Revolution. It symbolizes the shift from manual control to automated systems, paving the way for future innovations. As industries began to scale up production, the need for reliable and efficient machinery became paramount. The pendulum governor addressed this need, allowing machines to operate continuously without constant human intervention.In addition to its practical applications, the pendulum governor holds historical significance. It represents a period when engineering principles were being formulated and tested. The designs of the pendulum governor influenced countless other inventions, leading to advancements in various technologies. For instance, the principles of the pendulum governor can be seen in modern devices such as thermostats and cruise control systems in vehicles, showcasing the enduring legacy of this simple yet effective mechanism.In conclusion, the pendulum governor is more than just a historical artifact; it is a testament to the evolution of engineering and technology. Its ability to self-regulate and maintain stability in mechanical systems has had a lasting impact on how we design and operate machines today. By studying the pendulum governor, we gain insight into the principles of feedback control and automation that continue to shape our technological landscape. As we advance further into the era of automation and artificial intelligence, understanding the roots of these concepts through inventions like the pendulum governor becomes increasingly important. The legacy of the pendulum governor serves as a reminder of the innovative spirit that drives progress and the importance of learning from the past to build a better future.

蒸汽机的发明标志着18世纪技术历史的一个重要转折点。在促进这些发动机效率和稳定性的各种组件中，摆锤调速器发挥了关键作用。该装置在调节发动机速度方面起着至关重要的作用，确保其平稳运行而不会过热或过快。摆锤调速器由一个旋转臂和末端的重物组成，当速度增加时，这些重物向外摆动。当发动机运行过快时，重物向外移动，从而调整发动机的油门以降低速度。相反，如果发动机运行得太慢，重物就会收回，允许更多的蒸汽进入并增加速度。这种自动调节使得摆锤调速器成为早期工业机械的重要组成部分，显著提高了生产率。理解摆锤调速器背后的机制对于欣赏其对工程和技术的影响至关重要。反馈控制的概念是现代许多系统的基础，可以追溯到这一早期发明。摆锤调速器示范了机械系统如何自我调节，保持平衡和效率。这一原则不仅适用于蒸汽机，还已在汽车工程和机器人等多个领域得到应用。此外，摆锤调速器反映了工业革命时期工程师们的聪明才智。它象征着从手动控制到自动化系统的转变，为未来的创新铺平了道路。随着工业开始扩大生产，对可靠高效机械的需求变得至关重要。摆锤调速器满足了这一需求，使机器能够持续运转而无需不断的人为干预。除了其实用应用外，摆锤调速器还具有历史意义。它代表了一个工程原理被制定和测试的时期。摆锤调速器的设计影响了无数其他发明，导致了各项技术的进步。例如，摆锤调速器的原理可以在现代设备如温控器和汽车的巡航控制系统中看到，展示了这一简单而有效机制的持久遗产。总之，摆锤调速器不仅仅是一个历史文物；它是工程和技术演变的见证。它在机械系统中自我调节和维持稳定的能力对我们今天设计和操作机器的方式产生了持久影响。通过研究摆锤调速器，我们深入了解反馈控制和自动化的原则，这些原则继续塑造我们的技术格局。随着我们进一步进入自动化和人工智能的时代，通过摆锤调速器这样的发明了解这些概念的根源变得愈加重要。摆锤调速器的遗产提醒我们推动进步的创新精神，以及从过去学习以建设更美好未来的重要性。