log governor

简明释义

计程仪调节轮

英英释义

例句

1.In our project, we implemented a log governor 日志调节器 to optimize performance during peak loads.

在我们的项目中，我们实施了一个log governor 日志调节器以优化高峰负载期间的性能。

2.We adjusted the settings on the log governor 日志调节器 to improve the accuracy of our data logging.

我们调整了log governor 日志调节器上的设置，以提高数据记录的准确性。

3.The engineer explained how the log governor 日志调节器 helps maintain consistent engine speed.

工程师解释了如何使用log governor 日志调节器来保持发动机速度的一致性。

4.The log governor 日志调节器 was crucial in preventing system overloads during the update process.

在更新过程中，log governor 日志调节器对于防止系统过载至关重要。

5.By using a log governor 日志调节器, we can better control the flow of data in our application.

通过使用log governor 日志调节器，我们可以更好地控制应用程序中的数据流。

作文

In the world of engineering and machinery, various components play crucial roles in ensuring optimal performance and safety. One such component is the log governor, which serves as a vital mechanism in controlling the speed of machines, particularly in steam engines and other types of engines. Understanding the function and significance of the log governor can provide insights into its importance in mechanical systems. The primary purpose of a log governor is to maintain a consistent speed of an engine by regulating the amount of fuel or steam supplied to it. This is essential because fluctuations in speed can lead to inefficiencies, increased wear and tear on the engine, and potential safety hazards. By employing a log governor, engineers can ensure that the engine operates smoothly and efficiently, even under varying loads. Historically, the log governor has been a critical innovation in the development of steam-powered machinery. It was first introduced in the early 19th century, during the Industrial Revolution, when steam engines began to power factories, trains, and ships. The invention of the log governor allowed for greater control over these powerful machines, enabling them to operate at optimal speeds without the risk of overheating or breaking down. The mechanism of a log governor typically consists of a set of weights attached to a rotating shaft. As the engine speed increases, the centrifugal force acting on the weights causes them to move outward. This movement is then translated into a control action that adjusts the fuel or steam supply to the engine. When the engine speed decreases, the weights return to their original position, allowing more fuel or steam to flow into the engine and thus increasing its speed. This feedback loop is what makes the log governor an effective tool for maintaining steady operation. In modern applications, the principles behind the log governor have been adapted to various technologies, including internal combustion engines and even electronic systems. While traditional mechanical governors are still used in some applications, many modern engines utilize electronic control units (ECUs) to achieve similar results. These advanced systems can monitor engine performance in real-time and make adjustments much more rapidly than mechanical governors. However, the fundamental concept of regulating speed remains the same, highlighting the enduring relevance of the log governor in engineering. In conclusion, the log governor is a significant component in the realm of machinery, providing essential control over engine speed and performance. Its historical importance during the Industrial Revolution paved the way for advancements in engineering that continue to influence modern technology. By understanding the workings and benefits of the log governor, we can appreciate the intricate designs that allow machines to function efficiently and safely. As we move forward, it will be interesting to see how this concept evolves with emerging technologies, potentially leading to even more sophisticated methods of speed regulation in the future.

在工程和机械的世界中，各种组件在确保最佳性能和安全性方面发挥着至关重要的作用。其中一个重要的组件是调速器，它作为控制机器速度的重要机制，尤其是在蒸汽机和其他类型的发动机中。理解调速器的功能和重要性可以提供对其在机械系统中重要性的见解。 调速器的主要目的是通过调节提供给发动机的燃料或蒸汽量来保持发动机的恒定速度。这一点至关重要，因为速度波动可能导致效率低下、发动机磨损加剧以及潜在的安全隐患。通过使用调速器，工程师可以确保发动机在负载变化时仍能平稳高效地运行。 历史上，调速器在蒸汽动力机械的发展中起到了关键的创新作用。它最早是在19世纪初引入的，当时蒸汽机开始为工厂、火车和船只提供动力。调速器的发明使得对这些强大机器的控制更加精确，使它们能够在不发生过热或故障的情况下以最佳速度运行。 调速器的机制通常由一组连接到旋转轴的重物组成。当发动机速度增加时，作用于重物的离心力使它们向外移动。这一运动随后被转化为控制动作，以调整流入发动机的燃料或蒸汽供给。当发动机速度降低时，重物返回到原始位置，允许更多的燃料或蒸汽流入发动机，从而提高其速度。这个反馈环路使得调速器成为维持稳定操作的有效工具。 在现代应用中，调速器背后的原理已被适应到各种技术中，包括内燃机甚至电子系统。虽然传统的机械调速器仍在某些应用中使用，但许多现代发动机利用电子控制单元（ECU）来实现类似的结果。这些先进的系统可以实时监控发动机性能，并比机械调速器更迅速地进行调整。然而，调节速度的基本概念依然相同，突显了调速器在工程中的持久相关性。 总之，调速器是机械领域中的一个重要组件，为发动机的速度和性能提供了必要的控制。它在工业革命期间的历史重要性为现代工程的进步铺平了道路，这些进步继续影响现代技术。通过了解调速器的工作原理和优点，我们可以欣赏到使机器高效、安全运行的复杂设计。随着我们向前发展，看到这一概念如何随着新兴技术的出现而演变，将会是非常有趣的，这可能导致未来更复杂的速度调节方法。