hydraulicactuated governor
简明释义
液压调速器
英英释义
例句
1.The hydraulic actuated governor adjusts the flow rate automatically based on pressure changes.
液压驱动调速器根据压力变化自动调整流量。
2.Maintenance of the hydraulic actuated governor is crucial for the safe operation of the hydraulic system.
对液压驱动调速器的维护对于液压系统的安全运行至关重要。
3.In many industrial applications, a hydraulic actuated governor is essential for precise control of machinery.
在许多工业应用中,液压驱动调速器对于精确控制机械是必不可少的。
4.The engine uses a hydraulic actuated governor to maintain a steady speed under varying load conditions.
该引擎使用液压驱动调速器在不同负载条件下保持稳定速度。
5.The hydraulic actuated governor ensures that the turbine does not exceed its maximum speed.
液压驱动调速器确保涡轮不会超过其最大速度。
作文
The concept of a hydraulic actuated governor is pivotal in understanding how mechanical systems regulate their speed and performance. In essence, a hydraulic actuated governor is a device used to control the speed of an engine or turbine by adjusting the fuel supply or flow. This mechanism operates on the principle of hydraulics, utilizing fluid pressure to achieve precise control over the engine's operation. The importance of such devices cannot be overstated, as they play a crucial role in ensuring that engines operate efficiently and safely.Hydraulic governors have been employed in various applications, ranging from large industrial turbines to small gasoline engines. The core function of a hydraulic actuated governor is to maintain a constant speed despite variations in load conditions. For example, when a load is applied to an engine, the speed may drop; the governor senses this change and automatically increases the fuel supply, thus restoring the speed back to its set point.One of the key advantages of using a hydraulic actuated governor is its ability to provide rapid response times. Unlike mechanical governors that rely on physical components and springs, hydraulic governors can react almost instantaneously to changes in speed and load. This responsiveness is particularly beneficial in applications where maintaining a steady speed is critical, such as in power generation and manufacturing processes.Moreover, hydraulic governors are known for their durability and reliability. They are less prone to wear and tear compared to their mechanical counterparts, which often suffer from fatigue over time. This longevity makes hydraulic actuated governors a preferred choice in many industrial settings, where downtime can lead to significant financial losses.The design of a hydraulic actuated governor typically involves a hydraulic cylinder, a control valve, and a feedback mechanism. The hydraulic cylinder is responsible for translating the pressure of the fluid into mechanical movement, which then adjusts the throttle position or fuel supply. The control valve regulates the flow of hydraulic fluid, while the feedback mechanism ensures that the system can continuously monitor and adjust its performance based on the current operating conditions.In conclusion, the hydraulic actuated governor represents a sophisticated and effective solution for speed regulation in various mechanical systems. Its reliance on hydraulic principles allows for swift adjustments and enhanced reliability, making it an invaluable component in modern engineering. As technology continues to advance, we can expect to see further innovations in governor design and application, solidifying the role of the hydraulic actuated governor in the future of mechanical engineering.
“液压驱动调节器”的概念对于理解机械系统如何调节其速度和性能至关重要。实际上,“液压驱动调节器”是一种用于通过调节燃料供应或流量来控制发动机或涡轮机速度的装置。该机制基于液压原理,利用流体压力来实现对发动机操作的精确控制。这种设备的重要性不容小觑,因为它们在确保发动机高效和安全运行方面发挥着关键作用。液压调节器已被应用于各种场合,从大型工业涡轮机到小型汽油发动机。 “液压驱动调节器”的核心功能是保持恒定速度,尽管负载条件有所变化。例如,当施加负载时,发动机的速度可能会下降;调节器感知到这一变化并自动增加燃料供应,从而将速度恢复到设定点。使用“液压驱动调节器”的一个主要优点是其能够提供快速的响应时间。与依赖物理组件和弹簧的机械调节器不同,液压调节器可以几乎瞬间对速度和负载的变化作出反应。这种响应能力在需要保持稳定速度的应用中尤为有利,例如在发电和制造过程中。此外,液压调节器以其耐用性和可靠性而闻名。与机械调节器相比,它们更不易磨损,后者往往随着时间的推移而出现疲劳。这种长寿命使得“液压驱动调节器”在许多工业环境中成为首选,因为停机时间可能导致显著的经济损失。“液压驱动调节器”的设计通常涉及液压缸、控制阀和反馈机制。液压缸负责将流体的压力转化为机械运动,然后调整节气门位置或燃料供应。控制阀调节液压流体的流动,而反馈机制确保系统能够根据当前操作条件持续监测和调整其性能。总之,“液压驱动调节器”代表了一种复杂且有效的解决方案,用于各种机械系统中的速度调节。它对液压原理的依赖允许快速调整和增强的可靠性,使其成为现代工程中不可或缺的组成部分。随着技术的不断进步,我们可以期待在调节器设计和应用方面进一步的创新,巩固“液压驱动调节器”在机械工程未来中的角色。
