ball governor
简明释义
飞球式调速器
英英释义
例句
1.The mechanic explained how the ball governor works to optimize engine performance.
机械师解释了球形调速器如何工作以优化发动机性能。
2.When the load increases, the ball governor automatically adjusts to prevent stalling.
当负载增加时,球形调速器会自动调整以防止熄火。
3.A malfunctioning ball governor can lead to erratic engine behavior.
故障的球形调速器可能导致发动机行为不稳定。
4.In older steam engines, the ball governor played a crucial role in controlling the power output.
在较旧的蒸汽机中,球形调速器在控制功率输出方面起着至关重要的作用。
5.The engine's speed is regulated by the ball governor, which maintains a consistent RPM.
发动机的速度由球形调速器调节,以保持稳定的转速。
作文
The invention of the steam engine in the 18th century marked a significant turning point in the history of technology and engineering. Among the many innovations that emerged during this period, the ball governor played a crucial role in regulating the speed of engines. A ball governor is a mechanical device that uses rotating balls to control the speed of an engine by altering the flow of steam or fuel. This innovation was vital for improving the efficiency and safety of steam engines, which were widely used in factories, locomotives, and ships. Before the advent of the ball governor, steam engines often operated at inconsistent speeds, leading to potential hazards and inefficiencies. The ball governor addressed these issues by maintaining a more stable operation. As the engine speed increased, the centrifugal force caused the balls to move outward, which then adjusted a valve to reduce the steam supply. Conversely, when the engine slowed down, the balls would drop inward, allowing more steam to enter the engine. This automatic regulation ensured that the engine could operate within safe limits, preventing overheating and mechanical failure.The design of the ball governor also paved the way for further advancements in engineering. Its principles were applied not only to steam engines but also to various other machines and devices where speed regulation was necessary. For instance, the concept of using centrifugal force to control mechanisms can be seen in modern applications, such as in automotive engines and even in household appliances like washing machines. The ball governor thus serves as a foundational technology that has influenced countless innovations over the centuries.In addition to its technical significance, the ball governor symbolizes the spirit of the Industrial Revolution—a time when inventors and engineers sought to harness the power of machinery to transform society. The ability to control and regulate machines allowed for increased productivity and efficiency, fundamentally changing how goods were produced and consumed. As factories became more common, the demand for reliable and efficient machinery grew, making the ball governor an essential component in the development of industrial technology.Today, while we may not see ball governors in their original form, their legacy continues in modern engineering practices. The principles of regulation and control that they introduced remain relevant, as industries strive for automation and precision. Understanding the function and impact of the ball governor helps us appreciate the evolution of technology and the ingenuity of those who contributed to it. In conclusion, the ball governor is not just a historical artifact; it represents a critical advancement in engineering that laid the groundwork for the technological innovations we enjoy today. Its influence is felt across various fields, reminding us of the importance of regulation and control in the operation of complex systems.
蒸汽机的发明标志着18世纪技术和工程历史上的一个重要转折点。在这一时期出现的众多创新中,球阀调速器在调节发动机速度方面发挥了至关重要的作用。球阀调速器是一种机械装置,通过旋转的球来控制发动机的速度,从而改变蒸汽或燃料的流量。这项创新对于提高蒸汽机的效率和安全性至关重要,蒸汽机广泛应用于工厂、机车和船舶。在球阀调速器出现之前,蒸汽机往往以不一致的速度运转,这导致潜在的危险和低效。球阀调速器通过保持更稳定的操作来解决这些问题。当发动机速度增加时,离心力使得球向外移动,从而调整阀门以减少蒸汽供应。相反,当发动机减速时,球会向内下降,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在安全范围内运行,防止过热和机械故障。球阀调速器的设计也为进一步的工程进步铺平了道路。它的原理不仅应用于蒸汽机,还应用于各种其他需要速度调节的机器和设备。例如,利用离心力控制机制的概念可以在现代应用中看到,如汽车发动机甚至家用电器如洗衣机。因此,球阀调速器作为一种基础技术,影响了数百年来无数的创新。除了其技术意义外,球阀调速器还象征着工业革命的精神——一个发明家和工程师们努力利用机械力量改变社会的时代。控制和调节机器的能力使生产力和效率得以提高,根本改变了商品的生产和消费方式。随着工厂的普及,对可靠和高效机械的需求不断增长,使得球阀调速器成为工业技术发展中不可或缺的组成部分。今天,虽然我们可能不会在其原始形式中看到球阀调速器,但它们的遗产在现代工程实践中继续存在。它们引入的调节和控制原则仍然相关,因为各行业都在追求自动化和精确性。理解球阀调速器的功能和影响有助于我们欣赏技术的演变以及那些为此做出贡献的人的聪明才智。总之,球阀调速器不仅仅是一个历史文物;它代表了工程领域的一项关键进步,为我们今天享受的技术创新奠定了基础。它的影响遍及各个领域,提醒我们在复杂系统的操作中调节和控制的重要性。
