fly-ball governor
简明释义
飞球调速器
英英释义
例句
1.You can find a fly-ball governor in various applications, from lawn mowers to large industrial machines.
你可以在各种应用中找到飞球调速器,从割草机到大型工业机器。
2.The design of the fly-ball governor allows for precise control of mechanical devices.
飞球调速器的设计允许对机械设备进行精确控制。
3.In many old steam engines, the fly-ball governor plays a crucial role in maintaining a steady speed.
在许多老式蒸汽机中,飞球调速器在保持稳定速度方面发挥着关键作用。
4.The engine's speed is regulated by a fly-ball governor, which adjusts the throttle based on RPM.
发动机的速度由一个飞球调速器调节,它根据转速调整油门。
5.When the load increases, the fly-ball governor reacts by reducing the fuel supply to prevent over-speeding.
当负载增加时,飞球调速器通过减少燃料供应来防止超速。
作文
The invention of the steam engine marked a significant turning point in the history of technology and engineering. Among the many components that contributed to its efficiency, the fly-ball governor stands out as a remarkable innovation. This device, designed to regulate the speed of an engine, played a crucial role in ensuring that machines operated smoothly and safely. The fly-ball governor is essentially a mechanical device that uses centrifugal force to control the amount of steam entering the engine, thereby maintaining a consistent speed. As the engine accelerates, the balls on the governor rotate outward due to the centrifugal force, which in turn adjusts the throttle and reduces the steam flow. This precise regulation prevents the engine from running too fast, which could lead to dangerous situations or mechanical failure.Understanding the function of the fly-ball governor requires a basic grasp of mechanics and physics. When the engine operates at a desired speed, the governor maintains this balance by adjusting the steam supply. If the engine begins to speed up excessively, the outward motion of the balls increases, triggering a mechanism that reduces the steam pressure. Conversely, if the engine slows down, the balls move inward, allowing more steam to flow in. This self-regulating feature is what makes the fly-ball governor an essential component in various types of machinery, not just steam engines but also in other industrial applications.The significance of the fly-ball governor extends beyond its mechanical function; it symbolizes the advancements in engineering during the Industrial Revolution. Before its invention, many machines faced issues with speed regulation, leading to inefficiencies and hazards. The introduction of the fly-ball governor allowed for greater control over machinery, paving the way for more complex and powerful engines. It exemplified how a simple yet effective solution could enhance productivity and safety in industrial practices.Moreover, the fly-ball governor has influenced modern technology in ways that are often overlooked. Its principles can be seen in various automated systems today, where feedback loops and control mechanisms are essential for maintaining optimal performance. For instance, modern vehicles utilize similar concepts in their cruise control systems, which adjust throttle input based on speed readings to maintain a steady pace. This connection between historical innovations and contemporary technology highlights the enduring legacy of the fly-ball governor.In conclusion, the fly-ball governor is not merely a mechanical device; it represents a significant leap forward in the field of engineering. Its ability to regulate speed and enhance safety has left a lasting impact on industrial machinery and modern technologies alike. By understanding the fly-ball governor, we gain insight into the evolution of engineering practices and the continuous pursuit of innovation that characterizes our technological landscape. As we reflect on the contributions of such devices, we recognize the importance of learning from the past to inspire future advancements in engineering and technology.
蒸汽机的发明标志着技术和工程历史上的一个重要转折点。在众多促进其效率的组件中,飞球调速器作为一种显著的创新脱颖而出。该装置旨在调节发动机的速度,在确保机器平稳和安全运行方面发挥了至关重要的作用。飞球调速器本质上是一种机械装置,利用离心力来控制进入发动机的蒸汽量,从而保持恒定的速度。当发动机加速时,调速器上的球因离心力向外旋转,这反过来又调整了油门并减少了蒸汽流量。这种精确的调节防止了发动机运行过快,可能导致危险情况或机械故障。理解飞球调速器的功能需要对机械和物理有基本的了解。当发动机以所需的速度运行时,调速器通过调节蒸汽供应来维持这种平衡。如果发动机开始过快加速,球的向外运动增加,触发一种机制以减少蒸汽压力。相反,如果发动机减速,球向内移动,允许更多蒸汽流入。这种自我调节特性使得飞球调速器成为各种类型机械中不可或缺的组件,不仅仅是蒸汽机,还包括其他工业应用。飞球调速器的重要性超出了其机械功能;它象征着工业革命期间工程领域的进步。在其发明之前,许多机器面临速度调节问题,导致效率低下和危险。飞球调速器的引入使得对机械的更大控制成为可能,为更复杂和更强大的发动机铺平了道路。它展示了一种简单而有效的解决方案如何能够提高工业实践中的生产力和安全性。此外,飞球调速器在现代技术中也产生了不容忽视的影响。其原理可以在今天的各种自动化系统中看到,其中反馈回路和控制机制对于维持最佳性能至关重要。例如,现代车辆在其巡航控制系统中利用类似的概念,根据速度读数调整油门输入,以保持稳定的速度。这种历史创新与当代技术之间的联系突显了飞球调速器持久的遗产。总之,飞球调速器不仅仅是一种机械装置;它代表了工程领域的重大飞跃。其调节速度和增强安全性的能力对工业机械和现代技术产生了持久的影响。通过理解飞球调速器,我们深入了解工程实践的演变以及不断追求创新的精神,这一特征塑造了我们的技术格局。当我们反思这些装置的贡献时,我们认识到从过去学习的重要性,以激励未来在工程和技术领域的进步。
