throttle linkage

简明释义

节气门联动机构

英英释义

例句

1.During the inspection, we found that the throttle linkage was worn out and needed replacement.

在检查过程中，我们发现油门联动装置磨损严重，需要更换。

2.The race car's performance was enhanced after tuning the throttle linkage.

经过调校油门联动装置后，赛车的性能得到了提升。

3.He noticed a delay in acceleration due to a faulty throttle linkage.

他注意到由于故障的油门联动装置导致加速延迟。

4.The mechanic adjusted the throttle linkage to improve the engine's responsiveness.

机械师调整了油门联动装置以提高发动机的响应能力。

5.If the throttle linkage is too loose, the vehicle may not accelerate properly.

如果油门联动装置过松，车辆可能无法正常加速。

作文

In the world of automotive engineering, many components work together to ensure that a vehicle operates smoothly and efficiently. One such critical component is the throttle linkage, which plays a vital role in controlling the engine's power output. The throttle linkage refers to the mechanical connection between the accelerator pedal and the throttle body, which regulates the amount of air entering the engine. Understanding how this system functions is essential for anyone interested in automotive mechanics or performance tuning.The throttle linkage can be found in various types of vehicles, from cars to motorcycles and even lawnmowers. Its primary function is to translate the driver's input on the accelerator pedal into a corresponding movement of the throttle valve. When the driver presses down on the pedal, the throttle linkage pulls or pushes a rod or cable that opens the throttle valve, allowing more air to enter the engine. This increase in airflow results in more fuel being injected, leading to higher engine power and acceleration.There are two main types of throttle linkage: mechanical and electronic. Mechanical throttle linkages use physical cables or rods to connect the accelerator pedal to the throttle body. This traditional system is straightforward and reliable, but it can become stiff or unresponsive over time due to wear and tear. On the other hand, electronic throttle linkages, also known as drive-by-wire systems, use sensors and electronic signals to control the throttle valve. This modern approach allows for more precise control of the engine's power output and can improve fuel efficiency and reduce emissions.One of the challenges with throttle linkages is ensuring that they operate smoothly and without any obstruction. A malfunctioning throttle linkage can lead to several issues, including poor acceleration, stalling, or even unintended acceleration, which can be dangerous. Regular maintenance of the throttle linkage system is crucial to prevent these problems. Mechanics often recommend inspecting the linkage for signs of wear, such as fraying cables or loose connections, and lubricating moving parts to ensure smooth operation.In performance vehicles, the throttle linkage can be modified to enhance responsiveness and power delivery. Tuners often replace factory components with aftermarket options that provide a quicker response to accelerator input. By optimizing the throttle linkage, drivers can achieve a more exhilarating driving experience, especially in high-performance applications where every millisecond counts.In summary, the throttle linkage is a crucial component in the operation of an internal combustion engine. It connects the accelerator pedal to the throttle body, regulating airflow and, consequently, engine power. Whether mechanical or electronic, understanding how throttle linkages work and maintaining them properly is essential for vehicle performance and safety. For automotive enthusiasts, the throttle linkage offers opportunities for modification and improvement, making it a fascinating aspect of vehicle engineering. As technology continues to evolve, the future of throttle linkages may hold even more innovations, further enhancing the driving experience for all.

在汽车工程的世界中，许多组件共同工作，以确保车辆平稳高效地运行。其中一个关键组件是油门连接装置，它在控制发动机的功率输出方面发挥着至关重要的作用。油门连接装置是指加速踏板与油门体之间的机械连接，它调节进入发动机的空气量。理解这个系统的功能对于任何对汽车机械或性能调校感兴趣的人来说都是至关重要的。油门连接装置可以在各种类型的车辆中找到，从汽车到摩托车，甚至是割草机。它的主要功能是将驾驶员在加速踏板上的输入转换为油门阀的相应运动。当驾驶员踩下踏板时，油门连接装置拉动或推动一根杆或电缆，打开油门阀，使更多空气进入发动机。空气流量的增加导致更多燃料被喷入，从而提高发动机功率和加速。油门连接装置主要有两种类型：机械式和电子式。机械油门连接装置使用物理电缆或杆将加速踏板连接到油门体。这种传统系统简单可靠，但随着时间的推移，由于磨损可能变得僵硬或反应迟钝。另一方面，电子油门连接装置，也称为线控系统，使用传感器和电子信号来控制油门阀。这种现代方法允许对发动机功率输出进行更精确的控制，并可以提高燃油效率并减少排放。油门连接装置面临的挑战之一是确保其平稳运行且没有任何障碍。故障的油门连接装置可能导致多种问题，包括加速不良、熄火或甚至意外加速，这可能是危险的。定期维护油门连接装置系统对于防止这些问题至关重要。机械师通常建议检查连接装置是否有磨损迹象，例如电缆磨损或连接松动，并润滑活动部件以确保顺畅运行。在性能车辆中，油门连接装置可以进行修改以增强响应性和功率传递。调校师经常用售后市场选件替换工厂组件，以提供对加速输入的更快响应。通过优化油门连接装置，驾驶员可以实现更刺激的驾驶体验，尤其是在高性能应用中，每毫秒都至关重要。总之，油门连接装置是内燃机操作中的一个关键组件。它将加速踏板与油门体连接，调节空气流量，从而影响发动机功率。无论是机械式还是电子式，理解油门连接装置的工作原理并妥善维护对于车辆性能和安全至关重要。对于汽车爱好者来说，油门连接装置提供了改装和改善的机会，使其成为车辆工程中一个引人入胜的方面。随着技术的不断发展，油门连接装置的未来可能会有更多创新，进一步提升所有人的驾驶体验。