throttle controller

简明释义

节流控制器

英英释义

例句

1.The throttle controller in the new model provides smoother acceleration than previous versions.

新型号中的油门控制器提供比以前版本更平滑的加速。

2.In racing games, players often have to master the use of the throttle controller for better acceleration.

在赛车游戏中，玩家通常需要掌握使用油门控制器以获得更好的加速。

3.The pilot adjusted the throttle controller to increase the aircraft's speed during takeoff.

飞行员调整了油门控制器以在起飞时增加飞机的速度。

4.When the engine starts to stall, adjusting the throttle controller can help stabilize it.

当发动机开始失速时，调整油门控制器可以帮助稳定它。

5.The mechanic explained how the throttle controller regulates the engine's power output.

机械师解释了油门控制器如何调节发动机的功率输出。

作文

The throttle controller is a crucial component in various vehicles and machinery, playing a vital role in regulating power and speed. In simple terms, it manages the flow of fuel or energy to the engine, allowing operators to control the acceleration and deceleration of the vehicle. Understanding how the throttle controller works is essential for anyone involved in automotive engineering or piloting aircraft. In automobiles, for instance, the throttle controller is often linked to the accelerator pedal. When a driver presses down on the pedal, it sends a signal to the throttle controller, which opens the throttle valve to allow more air and fuel into the engine. This process increases the engine's power output, resulting in faster speeds. Conversely, when the driver eases off the pedal, the throttle controller reduces the amount of fuel and air entering the engine, leading to a decrease in speed. This intricate balance maintained by the throttle controller is what enables smooth driving experiences.In modern vehicles, the throttle controller has evolved significantly with advancements in technology. Many contemporary cars now utilize electronic throttle control (ETC) systems, where the traditional mechanical linkages between the accelerator pedal and the throttle body have been replaced by electronic sensors and motors. This innovation allows for more precise control over the engine's power delivery and can enhance fuel efficiency and reduce emissions. The throttle controller in these systems is often integrated with the vehicle's onboard computer, which can make real-time adjustments based on various factors such as speed, load, and driving conditions.In aviation, the importance of the throttle controller cannot be overstated. Pilots rely on this component to manage the thrust produced by the aircraft's engines. During takeoff, the throttle controller is pushed forward to increase engine power and achieve the necessary lift. Once airborne, pilots adjust the throttle controller to maintain cruising altitude and speed. The ability to finely tune engine performance through the throttle controller is critical for safe and efficient flight operations.Moreover, understanding the mechanics behind the throttle controller can also lead to better maintenance practices. For instance, a malfunctioning throttle controller can result in erratic acceleration or stalling, which can pose significant safety risks. Regular inspections and servicing of the throttle controller can help prevent such issues, ensuring that vehicles and aircraft operate smoothly. In conclusion, the throttle controller is an indispensable part of both land and air transportation, enabling precise control over speed and power. Whether in a car or an airplane, understanding its function and maintenance is essential for operators and engineers alike. As technology continues to advance, the role of the throttle controller will likely evolve further, integrating even more sophisticated systems to enhance performance and safety. Thus, grasping the concept of the throttle controller is not only beneficial but necessary for anyone engaged in the fields of automotive or aerospace engineering.

油门控制器是各种车辆和机械中的关键组件，在调节动力和速度方面发挥着至关重要的作用。简单来说，它管理燃料或能量流向发动机，使操作员能够控制车辆的加速和减速。理解油门控制器的工作原理对于任何参与汽车工程或飞行航空的人来说都是至关重要的。 例如，在汽车中，油门控制器通常与加速踏板相连。当驾驶员踩下踏板时，它会向油门控制器发送信号，打开油门阀，让更多的空气和燃料进入发动机。这个过程增加了发动机的功率输出，从而使速度更快。相反，当驾驶员放松踏板时，油门控制器减少进入发动机的燃料和空气量，从而导致速度下降。由油门控制器维持的这种微妙平衡使得驾驶体验变得平稳。在现代车辆中，油门控制器随着技术的进步而发生了显著变化。许多当代汽车现在利用电子油门控制（ETC）系统，传统的加速踏板与油门阀之间的机械连接被电子传感器和电机所取代。这一创新使得对发动机功率输出的控制更加精确，并且可以提高燃油效率和减少排放。在这些系统中，油门控制器通常与车辆的车载计算机集成，可以根据速度、负荷和驾驶条件等各种因素进行实时调整。在航空领域，油门控制器的重要性不言而喻。飞行员依赖这一组件来管理飞机发动机产生的推力。在起飞过程中，油门控制器被向前推动以增加发动机功率，以达到必要的升力。一旦起飞，飞行员调整油门控制器以保持巡航高度和速度。通过油门控制器精细调节发动机性能的能力对于安全高效的飞行操作至关重要。此外，了解油门控制器背后的机械原理也有助于更好的维护实践。例如，故障的油门控制器可能导致加速不稳定或熄火，这可能带来重大安全风险。定期检查和维护油门控制器可以帮助防止此类问题，确保车辆和飞机顺利运行。 总之，油门控制器是陆地和空中交通中不可或缺的一部分，使得对速度和动力进行精确控制成为可能。无论是在汽车还是飞机中，理解其功能和维护对于操作员和工程师来说都是必不可少的。随着技术的不断进步，油门控制器的角色可能会进一步演变，整合更复杂的系统以增强性能和安全性。因此，掌握油门控制器的概念不仅有益，而且对于任何从事汽车或航空航天工程领域的人来说都是必要的。