sleeve governor

简明释义

套筒式调速器

英英释义

例句

1.The sleeve governor 袖子调速器 helps maintain a consistent speed under varying load conditions.

在不同负载条件下，sleeve governor 袖子调速器 有助于保持恒定速度。

2.The engineer explained how the sleeve governor 袖子调速器 regulates the speed of the engine.

工程师解释了如何使用sleeve governor 袖子调速器 来调节发动机的速度。

3.Many steam engines utilize a sleeve governor 袖子调速器 for better control of their output.

许多蒸汽机利用sleeve governor 袖子调速器 来更好地控制输出。

4.In vintage cars, a sleeve governor 袖子调速器 is often used for its simplicity and reliability.

在老式汽车中，sleeve governor 袖子调速器 常因其简单和可靠性而被使用。

5.Adjusting the tension on the sleeve governor 袖子调速器 can improve performance in machinery.

调整sleeve governor 袖子调速器 的张力可以提高机械的性能。

作文

The concept of a sleeve governor is often encountered in the realm of mechanical engineering and machinery. A sleeve governor is a type of speed control device that regulates the speed of an engine or other machinery by adjusting the fuel supply based on the engine's speed. This mechanism is crucial for ensuring that machines operate efficiently and safely, particularly in applications where maintaining a constant speed is vital for performance. The sleeve governor functions by utilizing centrifugal force to adjust the position of a sleeve, which in turn influences the throttle valve of the engine. As the engine speed increases, the centrifugal force acting on the sleeve causes it to move outward, thereby restricting the fuel flow and reducing the engine speed. Conversely, when the engine speed decreases, the sleeve moves inward, allowing more fuel to flow and increasing the engine speed. Understanding the operation of a sleeve governor is essential for engineers and technicians who work with various types of engines, from small lawnmowers to large industrial machines. The design and efficiency of a sleeve governor can significantly impact the overall performance of an engine. For instance, a well-designed governor can improve fuel efficiency and reduce emissions by ensuring that the engine only uses the amount of fuel necessary for its current load. In addition to its mechanical function, the sleeve governor also has historical significance in the development of engine technology. Early steam engines utilized similar principles to control their speed, laying the groundwork for modern governors. Over time, advancements in technology have led to the development of electronic governors, which offer even more precise control over engine speed. However, the fundamental principles behind the sleeve governor remain relevant today, as they illustrate the importance of feedback mechanisms in engineering.Moreover, the sleeve governor serves as a reminder of the intricate balance that engineers must maintain between power and control. In many cases, increased power output can lead to instability and inefficiency if not properly managed. Therefore, the sleeve governor exemplifies the need for careful design and consideration in engineering practices. Engineers must assess the specific requirements of each application and choose the appropriate governor type to ensure optimal performance.In conclusion, the sleeve governor is a vital component in many mechanical systems, playing a key role in regulating engine speed and improving efficiency. Its operation is based on simple yet effective mechanical principles, demonstrating the ingenuity of engineering design. As technology continues to evolve, understanding devices like the sleeve governor will remain important for anyone involved in the field of mechanical engineering. By appreciating the history and functionality of such devices, we can better understand the complex systems that power our world today.

“袖阀调速器”的概念常常出现在机械工程和机械设备领域中。袖阀调速器是一种速度控制装置，通过根据发动机的转速调整燃料供应来调节发动机或其他机械的速度。这种机制对于确保机器高效、安全地运行至关重要，特别是在需要维持恒定速度以确保性能的应用中。袖阀调速器利用离心力来调整一个套筒的位置，从而影响发动机的节气门阀。当发动机转速增加时，作用于套筒的离心力使其向外移动，从而限制燃料流量并降低发动机转速。相反，当发动机转速降低时，套筒向内移动，允许更多的燃料流动并增加发动机转速。理解袖阀调速器的工作原理对于从事各种类型发动机工作的工程师和技术人员至关重要，从小型割草机到大型工业机器都涉及到。袖阀调速器的设计和效率可以显著影响发动机的整体性能。例如，设计良好的调速器可以通过确保发动机仅使用当前负载所需的燃料量来提高燃油效率并减少排放。除了机械功能外，袖阀调速器在发动机技术的发展中也具有历史意义。早期的蒸汽机利用类似的原理来控制其速度，为现代调速器奠定了基础。随着时间的推移，技术的进步导致了电子调速器的发展，这些调速器提供了更加精确的发动机速度控制。然而，袖阀调速器背后的基本原理至今仍然相关，因为它们说明了反馈机制在工程中的重要性。此外，袖阀调速器提醒我们工程师必须在功率和控制之间维持微妙的平衡。在许多情况下，如果不加以管理，功率输出的增加可能会导致不稳定和低效率。因此，袖阀调速器体现了在工程实践中对细致设计和考虑的需求。工程师必须评估每个应用的具体要求，并选择适当的调速器类型，以确保最佳性能。总之，袖阀调速器是许多机械系统中的重要组成部分，在调节发动机速度和提高效率方面发挥着关键作用。它的操作基于简单而有效的机械原理，展示了工程设计的独创性。随着技术的不断发展，理解像袖阀调速器这样的装置将继续对任何参与机械工程领域的人来说都是重要的。通过欣赏这些装置的历史和功能，我们可以更好地理解今天推动我们世界的复杂系统。