autopilot controlled flap

简明释义

自动舵控襟翼

英英释义

例句

1.The aircraft's performance improved significantly with the use of the autopilot controlled flap.

使用自动驾驶仪控制的襟翼后，飞机的性能显著提高。

2.In turbulent weather, the autopilot controlled flap helps stabilize the aircraft.

在颠簸的天气中，自动驾驶仪控制的襟翼有助于稳定飞机。

3.The autopilot controlled flap allows for smoother landings by adjusting automatically.

通过自动调整，自动驾驶仪控制的襟翼使着陆更加平稳。

4.The engineers tested the autopilot controlled flap system during the simulation.

工程师们在模拟器中测试了自动驾驶仪控制的襟翼系统。

5.During the flight, the pilot engaged the autopilot controlled flap to maintain altitude.

在飞行过程中，飞行员启用了自动驾驶仪控制的襟翼以保持高度。

作文

In the world of aviation, technology has dramatically transformed the way we fly. One of the most significant advancements is the integration of automation in aircraft systems. Among these automated systems, the use of the autopilot controlled flap has become increasingly common. This feature not only enhances the safety and efficiency of flights but also revolutionizes pilot workload management.The term autopilot controlled flap refers to a specific mechanism within an aircraft that allows the autopilot system to adjust the flaps automatically during various phases of flight. Flaps are movable surfaces on the wings of an aircraft that help increase lift during takeoff and landing. By utilizing an autopilot controlled flap, pilots can ensure that the aircraft maintains optimal performance without the need for constant manual adjustments.One of the primary benefits of an autopilot controlled flap is its ability to enhance safety. In critical situations, such as during adverse weather conditions or emergencies, having an automated system that can manage flap settings allows pilots to focus on other essential tasks. This is particularly important during takeoff and landing when pilots must be attentive to numerous variables. The autopilot controlled flap ensures that the aircraft remains stable and adheres to the necessary aerodynamic configurations, reducing the risk of accidents.Moreover, the autopilot controlled flap contributes to fuel efficiency. By optimizing flap positions automatically, the system helps reduce drag and improve overall aerodynamics. This efficiency translates into lower fuel consumption, which is a critical factor for airlines aiming to minimize operational costs. As environmental concerns continue to rise, the importance of such technologies cannot be overstated. The autopilot controlled flap represents a step toward more sustainable aviation practices.Additionally, the integration of autopilot controlled flap systems reduces the cognitive load on pilots. Traditionally, managing flaps required constant attention and manual input, which could lead to fatigue and errors, especially during long flights. With automation, pilots can allocate their mental resources to other crucial aspects of flying, such as navigation and communication with air traffic control. This shift not only improves pilot performance but also contributes to a more efficient cockpit environment.However, it is essential to recognize that while the autopilot controlled flap offers numerous advantages, it also requires rigorous training and understanding from pilots. They must be well-versed in how the system operates and aware of its limitations. Overreliance on automation can lead to skill degradation, where pilots may struggle to perform manual controls if needed. Therefore, a balanced approach to training is crucial in ensuring that pilots remain competent in both automated and manual flying techniques.In conclusion, the introduction of the autopilot controlled flap has significantly influenced modern aviation. It enhances safety, increases fuel efficiency, and alleviates pilot workload, making flying a more manageable task. As technology continues to evolve, we can expect even more sophisticated systems to emerge, further shaping the future of aviation. Understanding and effectively utilizing features like the autopilot controlled flap will be vital for pilots and the aviation industry as a whole, ensuring that we continue to fly safely and efficiently into the future.

在航空领域，技术已经极大地改变了我们的飞行方式。其中最重要的进步之一就是自动化在飞机系统中的集成。在这些自动化系统中，使用自动驾驶仪控制的襟翼变得越来越普遍。这一功能不仅提高了飞行的安全性和效率，还彻底改变了飞行员的工作负担管理。术语自动驾驶仪控制的襟翼指的是飞机内部的一种特定机制，允许自动驾驶仪系统在飞行的各个阶段自动调整襟翼。襟翼是飞机机翼上的可移动表面，有助于在起飞和着陆时增加升力。通过利用自动驾驶仪控制的襟翼，飞行员可以确保飞机维持最佳性能，而无需不断进行手动调整。自动驾驶仪控制的襟翼的主要好处之一是增强安全性。在关键情况下，例如恶劣天气条件或紧急情况，拥有一个能够管理襟翼设置的自动化系统使飞行员能够专注于其他重要任务。这在起飞和着陆期间尤其重要，此时飞行员必须关注众多变量。自动驾驶仪控制的襟翼确保飞机保持稳定，并遵循必要的气动配置，从而降低事故风险。此外，自动驾驶仪控制的襟翼还有助于提高燃油效率。通过自动优化襟翼位置，该系统有助于减少阻力并改善整体气动性能。这种效率转化为更低的燃油消耗，这对于希望降低运营成本的航空公司至关重要。随着环境问题的日益严重，这种技术的重要性不容小觑。自动驾驶仪控制的襟翼代表了朝着更可持续航空实践迈出的一步。此外，集成的自动驾驶仪控制的襟翼系统减轻了飞行员的认知负担。传统上，管理襟翼需要不断关注和手动输入，这可能导致疲劳和错误，尤其是在长途飞行中。通过自动化，飞行员可以将他们的心理资源分配到飞行的其他关键方面，例如导航和与空中交通管制的沟通。这种转变不仅改善了飞行员的表现，还为驾驶舱环境的效率做出了贡献。然而，必须认识到，尽管自动驾驶仪控制的襟翼提供了许多优势，但它也需要飞行员进行严格的培训和理解。他们必须熟悉系统的操作方式，并了解其局限性。过度依赖自动化可能导致技能退化，即如果需要，飞行员可能会难以进行手动控制。因此，确保飞行员在自动和手动飞行技术之间保持平衡的培训方法至关重要。总之，自动驾驶仪控制的襟翼的引入对现代航空产生了重要影响。它提高了安全性、增加了燃油效率，并减轻了飞行员的工作负担，使飞行成为一项更易于管理的任务。随着技术的不断发展，我们可以期待出现更复杂的系统，进一步塑造航空的未来。理解和有效利用像自动驾驶仪控制的襟翼这样的功能，对于飞行员和整个航空业来说，将是至关重要的，确保我们继续安全、高效地飞向未来。