ball governor
简明释义
离心式调速器
英英释义
例句
1.He adjusted the ball governor 球阀调速器 to increase the RPM of the machine.
他调整了球阀调速器 ball governor 以提高机器的转速。
2.In many older machines, a ball governor 球阀调速器 is used to maintain consistent speed.
在许多旧机器中,使用球阀调速器 ball governor 来保持恒定速度。
3.The engineer explained how the ball governor 球阀调速器 regulates the speed of the engine.
工程师解释了如何使用球阀调速器 ball governor 来调节发动机的速度。
4.The malfunction of the ball governor 球阀调速器 can lead to erratic engine performance.
如果球阀调速器 ball governor 故障,可能会导致发动机性能不稳定。
5.The design of the ball governor 球阀调速器 allows for smooth operation in various conditions.
这种球阀调速器 ball governor 的设计使其在各种条件下都能平稳运行。
作文
The concept of a ball governor is crucial in the field of mechanical engineering, particularly in the design and operation of engines. A ball governor is a device used to regulate the speed of an engine by adjusting the fuel supply based on the rotational speed of the engine. This mechanism is vital for maintaining optimal performance and preventing damage due to excessive speed. Understanding how a ball governor functions can provide insights into the broader principles of engineering and mechanics.To delve deeper into the workings of a ball governor, we must first consider its components. Typically, a ball governor consists of a set of rotating balls that are mounted on arms. As the engine speed increases, centrifugal force causes the balls to move outward. This outward movement triggers a series of linkages that adjust the throttle position, thereby controlling the amount of fuel entering the engine. The beauty of this system lies in its simplicity and effectiveness; it allows for automatic adjustments without the need for constant human intervention.In practical applications, the ball governor has been widely used in various types of engines, including those found in automobiles, lawn mowers, and industrial machinery. For instance, in older cars, the ball governor played a critical role in ensuring that the engine did not exceed safe operating speeds. This not only enhanced performance but also significantly increased the lifespan of the engine. Moreover, the principles behind the ball governor can be seen in modern electronic throttle control systems, showcasing the evolution of technology while still adhering to fundamental mechanical principles.The importance of the ball governor extends beyond mere mechanics; it symbolizes the ingenuity of engineers who strive to create solutions that enhance efficiency and safety. By regulating engine speed, the ball governor contributes to fuel efficiency, which is increasingly important in today’s world where environmental concerns are paramount. As we face challenges such as climate change, devices like the ball governor play a crucial role in minimizing fuel consumption and reducing emissions.In conclusion, the ball governor is more than just a mechanical component; it represents a significant advancement in the quest for efficient and safe engine operation. Its ability to automatically regulate speed based on centrifugal force is a testament to the brilliance of engineering design. As we continue to innovate and improve upon existing technologies, understanding the principles behind devices like the ball governor will remain essential for future developments in mechanical engineering. Whether in historical contexts or modern applications, the ball governor serves as a reminder of the importance of precision and control in engineering practices.
“球阀调节器”这一概念在机械工程领域至关重要,特别是在发动机的设计和操作中。球阀调节器是一种用于通过根据发动机的转速调整燃料供应来调节发动机速度的装置。该机制对于保持最佳性能和防止因过快而造成的损坏至关重要。理解球阀调节器的功能可以提供对更广泛的工程和机械原理的深入了解。要深入了解球阀调节器的工作原理,我们首先需要考虑其组成部分。通常,球阀调节器由一组安装在臂上的旋转球组成。随着发动机速度的增加,离心力使球向外移动。这种向外的运动触发了一系列连杆,从而调整节气门位置,控制进入发动机的燃料量。这个系统的美在于它的简单性和有效性;它允许自动调整,而无需不断的人为干预。在实际应用中,球阀调节器已广泛用于各种类型的发动机,包括汽车、割草机和工业机械。例如,在旧款汽车中,球阀调节器在确保发动机不会超过安全运行速度方面发挥了关键作用。这不仅提高了性能,还显著延长了发动机的使用寿命。此外,球阀调节器背后的原理可以在现代电子节气门控制系统中看到,展示了技术的演变,同时仍遵循基本的机械原理。球阀调节器的重要性超越了单纯的机械;它象征着工程师们创造提高效率和安全性解决方案的聪明才智。通过调节发动机速度,球阀调节器有助于燃油效率,这在当今环保问题日益严重的世界中愈发重要。面对气候变化等挑战,像球阀调节器这样的装置在减少燃料消耗和降低排放方面发挥着至关重要的作用。总之,球阀调节器不仅仅是一个机械组件;它代表了在追求高效和安全的发动机操作方面的重要进步。它基于离心力自动调节速度的能力证明了工程设计的卓越。当我们继续创新和改进现有技术时,理解像球阀调节器这样的装置背后的原理将对未来的机械工程发展至关重要。无论是在历史背景还是现代应用中,球阀调节器都提醒我们在工程实践中精确和控制的重要性。
