relay governor

简明释义

继电调节器

英英释义

例句

1.In a steam engine, the relay governor 继电器调节器 adjusts the throttle based on speed changes.

在蒸汽机中，<传递调节器>根据速度变化调整油门。

2.The technician replaced the old relay governor 继电器调节器 with a more efficient model.

技术员将旧的<传递调节器>更换为更高效的型号。

3.The engineer explained how the relay governor 继电器调节器 helps maintain the engine speed.

工程师解释了<传递调节器>是如何帮助保持发动机转速的。

4.To optimize performance, we need to calibrate the relay governor 继电器调节器 properly.

为了优化性能，我们需要正确校准<传递调节器>。

5.The malfunctioning relay governor 继电器调节器 caused the machine to run erratically.

故障的<传递调节器>导致机器运行不稳定。

作文

The concept of a relay governor is integral to understanding how various mechanical systems operate efficiently. A relay governor is a device used in engines or other machinery to regulate speed and maintain a consistent operational level. This mechanism plays a crucial role in ensuring that machines do not exceed their maximum operating speeds, which could lead to catastrophic failures. By employing a relay governor, operators can achieve a balance between power output and safety, thereby enhancing the overall performance of the system.In many industrial applications, the need for precision and reliability cannot be overstated. The relay governor serves as an automatic control system that adjusts the fuel supply or other inputs based on the speed of the engine. For instance, when the engine speed increases beyond a predetermined limit, the relay governor automatically reduces the fuel supply, thus preventing the engine from over-revving. This self-regulating feature is essential in various fields, including automotive engineering, aerospace, and power generation.Moreover, the design of a relay governor can vary significantly depending on its application. Some governors are purely mechanical, using weights and springs to achieve regulation, while others may incorporate electronic components for enhanced accuracy and responsiveness. The evolution of technology has led to the development of more sophisticated relay governors that utilize sensors and microcontrollers to provide real-time adjustments based on performance data.The importance of a relay governor extends beyond just machinery; it also has implications for energy efficiency and environmental sustainability. By maintaining optimal operating conditions, these devices help reduce fuel consumption and minimize emissions. In an era where environmental concerns are paramount, the role of a relay governor in promoting greener technologies cannot be overlooked.Furthermore, understanding how a relay governor works can provide insights into broader engineering principles. It exemplifies the importance of feedback mechanisms in control systems, where outputs are continually monitored and adjusted to meet desired performance criteria. This principle is not only applicable to mechanical systems but also to various fields such as robotics, automation, and even economics, where feedback loops are vital for stability and efficiency.In conclusion, the relay governor is a fundamental component that enhances the functionality and safety of various mechanical systems. Its ability to regulate speed and optimize performance makes it indispensable in numerous industries. As technology continues to advance, the role of the relay governor will likely evolve, offering new possibilities for improving efficiency and sustainability in mechanical operations. Understanding this device is not just about grasping its function; it is about appreciating the intricate balance of engineering that contributes to the modern world’s technological landscape.

“继电器调节器”的概念对于理解各种机械系统如何高效运作至关重要。“继电器调节器”是一种用于发动机或其他机械设备的装置，用于调节速度并保持一致的操作水平。该机制在确保机器不超过其最大工作速度方面发挥着关键作用，因为这可能导致灾难性的故障。通过使用“继电器调节器”，操作员可以在功率输出和安全性之间实现平衡，从而增强系统的整体性能。在许多工业应用中，精确性和可靠性的需求不言而喻。“继电器调节器”作为一种自动控制系统，根据发动机的速度调整燃料供应或其他输入。例如，当发动机速度超过预定限制时，“继电器调节器”会自动减少燃料供应，从而防止发动机过速。这种自我调节的特性在汽车工程、航空航天和发电等多个领域都是必不可少的。此外，“继电器调节器”的设计可能因其应用而异。一些调节器是纯机械的，利用重物和弹簧来实现调节，而另一些可能结合电子元件以提高准确性和响应速度。技术的进步导致了更复杂的“继电器调节器”的发展，这些调节器利用传感器和微控制器根据性能数据提供实时调整。“继电器调节器”的重要性不仅限于机械；它还对能源效率和环境可持续性产生影响。通过保持最佳操作条件，这些设备有助于减少燃料消耗和最小化排放。在环境问题至关重要的时代，“继电器调节器”在促进更环保技术方面的作用不容忽视。此外，了解“继电器调节器”的工作原理可以为更广泛的工程原理提供见解。它体现了反馈机制在控制系统中的重要性，在这些系统中，输出持续被监测和调整以满足所需的性能标准。这一原理不仅适用于机械系统，还适用于机器人技术、自动化甚至经济学等多个领域，在这些领域中，反馈回路对于稳定性和效率至关重要。总之，“继电器调节器”是增强各种机械系统功能和安全性的基本组成部分。它调节速度和优化性能的能力使其在众多行业中不可或缺。随着技术的不断进步，“继电器调节器”的角色可能会演变，为改善机械操作的效率和可持续性提供新的可能性。理解这一设备不仅仅是掌握其功能；更是欣赏工程中复杂的平衡，这为现代世界的技术格局做出了贡献。