differential governor

简明释义

差动调节器

英英释义

例句

1.The design of the differential governor 差动调速器 allows it to respond quickly to changes in speed.

该differential governor 差动调速器 的设计使其能够快速响应速度变化。

2.The malfunctioning differential governor 差动调速器 caused the machine to operate erratically.

故障的differential governor 差动调速器 导致机器运行不稳定。

3.We need to calibrate the differential governor 差动调速器 to ensure accurate speed control.

我们需要校准differential governor 差动调速器 以确保准确的速度控制。

4.In steam engines, a differential governor 差动调速器 is essential for maintaining optimal performance.

在蒸汽机中，differential governor 差动调速器 对于维持最佳性能至关重要。

5.The engineer explained how the differential governor 差动调速器 regulates engine speed during varying load conditions.

工程师解释了如何通过differential governor 差动调速器 在不同负载条件下调节发动机速度。

作文

The concept of a differential governor is essential in understanding how certain mechanical systems operate, particularly in the field of engineering and automation. A differential governor is a device that regulates the speed of a machine or engine by adjusting the fuel supply based on the difference in speed between two components. This mechanism is crucial for maintaining optimal performance and efficiency in various applications, from steam engines to modern automotive systems.Historically, the differential governor played a significant role in the development of early industrial machinery. In steam engines, for instance, it was used to control the engine's speed by adjusting the throttle valve. As the load on the engine increased, the speed would decrease, causing the differential governor to respond by allowing more steam into the engine. This automatic adjustment ensured that the engine could handle varying loads without stalling or operating inefficiently.In contemporary applications, the differential governor continues to be relevant, especially in automotive engineering. Modern vehicles often employ electronic control systems that mimic the principles of the differential governor. These systems monitor the engine's RPM and adjust fuel injection and other parameters to optimize performance and fuel efficiency. By maintaining a balance between power output and fuel consumption, the differential governor helps reduce emissions and enhance overall vehicle performance.Moreover, the principles behind the differential governor extend beyond engines and vehicles. In wind turbines, for example, similar concepts are applied to regulate rotor speed in response to changing wind conditions. The differential governor ensures that the turbine operates within safe limits, preventing damage while maximizing energy production.Understanding the functionality of a differential governor also sheds light on broader engineering principles. It illustrates the importance of feedback mechanisms in control systems, where the output is continuously monitored and adjusted based on real-time data. This concept is not limited to mechanical systems; it is also applicable in fields such as robotics, aerospace, and even climate control systems in buildings.In summary, the differential governor is a vital component in various mechanical systems, playing a critical role in regulating speed and ensuring efficient operation. Its historical significance in the evolution of machinery cannot be overstated, and its relevance persists in modern technology. By grasping the principles behind the differential governor, one can gain valuable insights into the complexities of engineering and the intricate balance required to achieve optimal performance in diverse applications.

“差动调速器”这个概念对于理解某些机械系统的运作至关重要，尤其是在工程和自动化领域。“差动调速器”是一种装置，通过根据两个组件之间的速度差异来调节燃料供应，从而调节机器或发动机的速度。该机制对于在各种应用中保持最佳性能和效率至关重要，从蒸汽机到现代汽车系统。从历史上看，“差动调速器”在早期工业机械的发展中发挥了重要作用。例如，在蒸汽机中，它用于通过调节节气门阀来控制发动机的速度。随着发动机负载的增加，速度会降低，这导致“差动调速器”响应并允许更多的蒸汽进入发动机。这种自动调节确保了发动机能够处理变化的负载，而不会停滞或低效运行。在当代应用中，“差动调速器”依然具有相关性，特别是在汽车工程中。现代车辆通常采用电子控制系统，模仿“差动调速器”的原理。这些系统监控发动机的转速，并调整燃油喷射和其他参数，以优化性能和燃油效率。通过在功率输出和燃油消耗之间保持平衡，“差动调速器”有助于减少排放并增强整体车辆性能。此外，“差动调速器”的原理超越了发动机和车辆。例如，在风力涡轮机中，类似的概念被应用于根据变化的风况调节转子速度。“差动调速器”确保涡轮机在安全范围内运行，防止损坏，同时最大限度地提高能源生产。理解“差动调速器”的功能还揭示了更广泛的工程原理。这说明了反馈机制在控制系统中的重要性，其中输出不断被监控并根据实时数据进行调整。这个概念不仅限于机械系统；它在机器人技术、航空航天，甚至建筑物的气候控制系统中也适用。总之，“差动调速器”是各种机械系统中的一个重要组成部分，在调节速度和确保高效运行方面发挥着关键作用。它在机械演变中的历史重要性不容小觑，其相关性在现代技术中依然存在。通过掌握“差动调速器”背后的原理，人们可以深入了解工程的复杂性以及实现多样化应用中所需的微妙平衡。