ball governor
简明释义
甩球调节器
英英释义
例句
1.In older machinery, a ball governor is often used to maintain consistent operation.
在较旧的机械中,球阀调节器常用于保持一致的操作。
2.When the load increases, the ball governor adjusts automatically to compensate.
当负载增加时,球阀调节器会自动调整以补偿。
3.A malfunctioning ball governor can lead to engine instability and performance issues.
故障的球阀调节器可能导致发动机不稳定和性能问题。
4.The design of the ball governor allows for precise control of rotational speed.
球阀调节器的设计允许对旋转速度进行精确控制。
5.The engine's speed is regulated by the ball governor, which ensures it doesn't exceed safe limits.
发动机的速度由球阀调节器调节,确保其不会超过安全限制。
作文
The concept of a ball governor is essential in understanding the mechanics of speed regulation in various machines. A ball governor is a type of mechanical device that uses centrifugal force to control the speed of an engine or other machinery. This device is commonly found in steam engines and internal combustion engines, where maintaining a consistent speed is crucial for optimal performance. The basic principle behind a ball governor involves spinning balls that move outward as the speed increases, which in turn adjusts a throttle or fuel supply to regulate the engine's power output.In practical terms, when the engine operates at a low speed, the balls remain close to the center, allowing more fuel to be supplied to the engine. As the speed increases, the centrifugal force causes the balls to move outward, which then alters the position of a lever that controls the throttle. This automatic adjustment ensures that the engine does not exceed a predetermined speed, thus preventing potential damage from over-revving.The design of the ball governor has evolved over time, but its fundamental operation remains the same. Early versions were often simple and relied on gravity and centrifugal force alone. However, modern iterations may incorporate additional features such as electronic sensors and feedback systems that enhance their accuracy and responsiveness. This evolution reflects the broader trends in engineering, where simplicity is often balanced with the need for precision and efficiency.Understanding the function and importance of a ball governor can provide insights into various fields, including automotive engineering, aviation, and even robotics. For instance, in automotive applications, the ball governor ensures that cars maintain safe speeds, particularly in situations where sudden acceleration could lead to loss of control. Similarly, in aviation, governors play a critical role in regulating the speed of aircraft engines, contributing to safer flights and smoother operations.Moreover, the principles behind the ball governor extend beyond mechanical devices. They also serve as a metaphor for balance and control in life. Just as the ball governor regulates speed to prevent chaos, individuals must find ways to manage their own pace in various aspects of life, whether it be work, relationships, or personal growth. Learning to recognize when to accelerate and when to slow down is crucial for achieving long-term success and well-being.In conclusion, the ball governor is a fascinating example of how mechanical engineering can solve real-world problems. Its ability to regulate speed through simple yet effective means highlights the ingenuity of human design. As technology continues to advance, the principles embodied by the ball governor will undoubtedly inspire future innovations across multiple disciplines. Whether in machines or in our daily lives, the pursuit of balance and control remains a timeless endeavor that shapes our experiences and achievements.
‘球形调速器’的概念对于理解各种机器中速度调节的机制至关重要。‘球形调速器’是一种利用离心力来控制发动机或其他机械设备速度的机械装置。这种设备通常在蒸汽机和内燃机中找到,其中保持一致的速度对最佳性能至关重要。‘球形调速器’的基本原理涉及旋转的球体,随着速度的增加向外移动,从而调整油门或燃料供应以调节发动机的功率输出。在实际操作中,当发动机以低速运转时,球体靠近中心,允许更多燃料供应给发动机。随着速度的增加,离心力使球体向外移动,这会改变控制油门的杠杆位置。这种自动调节确保发动机不会超过预定速度,从而防止因过速而造成的潜在损害。‘球形调速器’的设计随着时间的推移而演变,但其基本操作保持不变。早期版本通常很简单,仅依赖于重力和离心力。然而,现代版本可能包含附加功能,如电子传感器和反馈系统,以提高其准确性和响应能力。这种演变反映了工程领域的更广泛趋势,在这里,简单性通常与精确性和效率的需求相平衡。理解‘球形调速器’的功能和重要性可以为多个领域提供见解,包括汽车工程、航空甚至机器人技术。例如,在汽车应用中,‘球形调速器’确保汽车保持安全速度,尤其是在突然加速可能导致失控的情况下。同样,在航空中,调速器在调节飞机发动机速度方面发挥着关键作用,有助于实现更安全的飞行和更平稳的操作。此外,‘球形调速器’背后的原理超越了机械设备。它们也作为生活中平衡和控制的隐喻。正如‘球形调速器’调节速度以防止混乱,个人也必须找到管理自己生活各个方面步伐的方法,无论是工作、关系还是个人成长。学会识别何时加速以及何时放慢速度对于实现长期成功和幸福至关重要。总之,‘球形调速器’是机械工程如何解决现实问题的迷人例子。它通过简单而有效的手段调节速度的能力突显了人类设计的独创性。随着技术的不断进步,‘球形调速器’所体现的原则无疑会激励未来在多个学科中的创新。无论是在机器中还是在我们的日常生活中,追求平衡和控制仍然是塑造我们经历和成就的永恒努力。
