pilot lever

简明释义

控制手柄

英英释义

例句

1.The pilot lever 操纵杆 was used to control the aircraft's altitude during the flight.

飞行过程中，操纵杆用于控制飞机的高度。

2.The simulator requires you to pull the pilot lever 操纵杆 for takeoff.

模拟器要求你在起飞时拉动操纵杆。

3.The pilot lever 操纵杆 is crucial for maneuvering the helicopter in tight spaces.

在狭小空间中操控直升机，操纵杆至关重要。

4.He adjusted the pilot lever 操纵杆 to change the direction of the drone.

他调整了操纵杆以改变无人机的方向。

5.During the training session, we learned how to operate the pilot lever 操纵杆 effectively.

在培训课程中，我们学习了如何有效地操作操纵杆。

作文

In the world of aviation and engineering, understanding the various components that make up complex systems is crucial for safety and efficiency. One such component is the pilot lever, which plays a significant role in the operation of aircraft and other machinery. The pilot lever refers to a control mechanism that allows the pilot or operator to manipulate the system's functions with precision. This lever is often connected to various controls, enabling the user to adjust settings such as speed, altitude, and direction. The importance of the pilot lever cannot be overstated. In aviation, for example, the ability to control an aircraft's flight path directly impacts the safety of passengers and crew members. A well-designed pilot lever should provide tactile feedback to the pilot, allowing them to make quick and accurate adjustments during flight. This is particularly vital during critical phases of flight, such as takeoff and landing, where precision is paramount.Moreover, the design of the pilot lever must consider ergonomics, ensuring that it is comfortable to use for extended periods. Pilots often spend hours in the cockpit, and a poorly designed lever can lead to fatigue and decreased performance. Therefore, engineers invest considerable time in developing levers that are not only functional but also comfortable and intuitive to use.In addition to aviation, the concept of the pilot lever extends to various fields, including automotive and industrial machinery. For instance, in a car, the gear shift lever serves a similar purpose, allowing the driver to control the vehicle's speed and power. Just like in aviation, the effectiveness of this control mechanism is essential for safe and efficient operation.The pilot lever also embodies the relationship between man and machine. It represents the interface through which human operators interact with complex systems. As technology advances, the nature of these interfaces evolves. Modern aircraft may incorporate digital interfaces that replace traditional levers with touch screens and electronic controls. However, the fundamental purpose remains the same: to provide the operator with control over the machine.Furthermore, training on the use of the pilot lever is a critical aspect of preparing individuals for their roles in aviation and other fields. Pilots undergo extensive training to understand how to use the pilot lever effectively, ensuring they can respond to emergencies and unexpected situations. This training includes simulations that replicate real-life scenarios, allowing pilots to practice their skills in a controlled environment.In conclusion, the pilot lever is more than just a mechanical component; it is a vital part of the interaction between humans and machines. Its design, functionality, and training are essential elements that contribute to the overall safety and efficiency of operations in aviation and beyond. As technology continues to evolve, the pilot lever will likely adapt, but its core purpose will remain unchanged: to empower operators to control and navigate complex systems effectively.

在航空和工程的世界中，理解构成复杂系统的各种组件对安全和效率至关重要。其中一个组件是pilot lever，它在飞机和其他机械的操作中扮演着重要角色。pilot lever指的是一种控制机制，允许飞行员或操作员精确操纵系统的功能。这个杠杆通常与各种控制装置相连，使用户能够调整速度、高度和方向等设置。pilot lever的重要性不容小觑。例如，在航空中，控制飞机飞行路径的能力直接影响乘客和机组人员的安全。设计良好的pilot lever应向飞行员提供触觉反馈，使他们能够在飞行过程中快速准确地进行调整。这在飞行的关键阶段，如起飞和着陆时尤为重要，因为此时精确度至关重要。此外，pilot lever的设计必须考虑人体工学，确保在长时间使用时舒适。飞行员往往在驾驶舱内待上数小时，设计不当的杠杆可能导致疲劳和性能下降。因此，工程师们投入大量时间开发不仅功能强大，而且舒适且直观易用的杠杆。除了航空，pilot lever的概念还扩展到汽车和工业机械等各个领域。例如，在汽车中，换挡杆就起到了类似的作用，使驾驶员能够控制车辆的速度和动力。就像在航空中一样，这种控制机制的有效性对于安全和高效的操作至关重要。pilot lever还体现了人机之间的关系。它代表了人类操作员与复杂系统之间的接口。随着技术的进步，这些接口的性质也在不断演变。现代飞机可能采用数字化界面，用触摸屏和电子控制取代传统的杠杆。然而，基本目的保持不变：为操作员提供对机器的控制。此外，关于如何使用pilot lever的培训是为个人准备航空和其他领域角色的关键方面。飞行员接受广泛的培训，以了解如何有效使用pilot lever，确保他们能够应对紧急情况和意外情况。这种培训包括模拟真实场景的模拟，使飞行员能够在受控环境中练习他们的技能。总之，pilot lever不仅仅是一个机械组件；它是人类与机器互动的重要组成部分。其设计、功能和培训是确保航空及其他领域操作整体安全和效率的基本要素。随着技术的不断发展，pilot lever可能会适应，但其核心目的将保持不变：赋予操作员有效控制和导航复杂系统的能力。