air throttle

简明释义

1. 节流阀; 2. 风门;

英英释义

例句

1.When the car accelerates, the air throttle opens wider to allow more air into the engine.

当汽车加速时，空气节气门会打开更宽，以允许更多空气进入发动机。

2.A faulty air throttle can lead to poor fuel efficiency.

故障的空气节气门可能导致燃油效率低下。

3.The mechanic adjusted the air throttle to improve engine performance.

机械师调整了空气节气门以提高发动机性能。

4.The technician cleaned the air throttle to remove any carbon buildup.

技术员清洁了空气节气门以去除任何碳沉积物。

5.During the test drive, I noticed the air throttle was not responding properly.

在试驾过程中，我注意到空气节气门反应不正常。

作文

The concept of an air throttle is crucial in understanding how engines and various machines operate. The air throttle serves as a control mechanism that regulates the amount of air entering the engine, which in turn affects the fuel-air mixture and the overall performance of the vehicle. When we talk about vehicles, especially those powered by internal combustion engines, the air throttle plays a pivotal role in determining power output and efficiency. In essence, the air throttle can be compared to a valve that opens and closes to allow air to flow into the engine. When the throttle is opened, more air enters, allowing for a richer fuel mixture, which increases the power produced by the engine. Conversely, when the throttle is closed, less air enters, resulting in a leaner mixture and reduced power output. This dynamic is essential for drivers who need to manage their speed and acceleration effectively. Moreover, modern vehicles often come equipped with electronic throttle control systems. These systems use sensors and actuators to manage the position of the air throttle more precisely than mechanical systems. This advancement has led to improved fuel efficiency and reduced emissions, as the engine can adjust to varying driving conditions automatically. For instance, during rapid acceleration, the electronic system can quickly open the air throttle to allow maximum airflow, providing the driver with the power needed to overtake or merge onto highways. In addition to automotive applications, the air throttle is also found in various types of machinery, including aircraft. In aviation, the air throttle is critical for controlling the thrust produced by the engines. Pilots must carefully manage the air throttle to ensure safe takeoffs, landings, and in-flight maneuvers. A well-regulated air throttle contributes to the stability and performance of the aircraft, highlighting the importance of this component in multiple fields. Understanding the functionality of the air throttle not only helps in appreciating how machines work but also aids in troubleshooting issues that may arise. For example, if a vehicle experiences poor acceleration, it could be a sign of a malfunctioning air throttle. Mechanics often begin their diagnostics by inspecting the throttle body and related components to ensure they are functioning correctly. In conclusion, the air throttle is a vital component in both automotive and aviation industries. Its ability to regulate airflow significantly impacts engine performance, fuel efficiency, and emissions. As technology continues to evolve, the role of the air throttle will likely become even more sophisticated, further enhancing the efficiency and performance of vehicles and machinery. Understanding this component is essential for anyone interested in mechanics or engineering, as it represents a fundamental principle of how engines operate. By grasping the concept of the air throttle, one can gain deeper insights into the intricate workings of modern technology and its applications in our daily lives.

‘空气节气门’的概念对于理解引擎和各种机器的运作至关重要。‘空气节气门’作为一种控制机制，调节进入引擎的空气量，从而影响燃油与空气的混合比例以及车辆的整体性能。当我们谈论车辆，尤其是那些由内燃机驱动的车辆时，‘空气节气门’在决定动力输出和效率方面发挥着关键作用。从本质上讲，‘空气节气门’可以比作一个阀门，打开和关闭以允许空气流入引擎。当节气门打开时，更多的空气进入，允许更丰富的燃料混合，这增加了引擎产生的功率。相反，当节气门关闭时，进入的空气减少，导致混合物变稀，功率输出减少。这种动态对于需要有效管理速度和加速的驾驶者来说至关重要。此外，现代车辆通常配备电子节气门控制系统。这些系统使用传感器和执行器更精确地管理‘空气节气门’的位置，而不是机械系统。这一进步提高了燃油效率并减少了排放，因为引擎可以自动适应变化的驾驶条件。例如，在快速加速期间，电子系统可以迅速打开‘空气节气门’，允许最大气流量，从而为驾驶者提供超车或并入高速公路所需的动力。除了汽车应用，‘空气节气门’也出现在各种类型的机械中，包括飞机。在航空领域，‘空气节气门’对于控制引擎产生的推力至关重要。飞行员必须仔细管理‘空气节气门’，以确保安全的起飞、着陆和飞行机动。良好调节的‘空气节气门’有助于飞机的稳定性和性能，突显了这一组件在多个领域的重要性。理解‘空气节气门’的功能不仅有助于欣赏机器的工作原理，还能帮助排除可能出现的问题。例如，如果一辆车加速不良，可能是‘空气节气门’发生故障的迹象。机械师通常会通过检查节气门体及相关组件来开始他们的诊断，以确保它们正常工作。总之，‘空气节气门’是汽车和航空工业中至关重要的组成部分。它调节气流的能力对引擎性能、燃油效率和排放有显著影响。随着技术的不断发展，‘空气节气门’的角色可能会变得更加复杂，进一步提高车辆和机械的效率和性能。理解这一组件对于任何对机械或工程感兴趣的人来说都是必不可少的，因为它代表了引擎运作的基本原理。通过掌握‘空气节气门’的概念，人们可以深入了解现代技术的复杂运作及其在日常生活中的应用。