manual control device

简明释义

手动控制装置

英英释义

例句

1.The car's manual control device allowed the driver to shift gears manually for better performance.

汽车的手动控制装置允许驾驶员手动换挡，以获得更好的性能。

2.During the emergency, the crew had to switch to the manual control device to regain control of the ship.

在紧急情况下，船员必须切换到手动控制装置以重新控制船只。

3.The pilot used the manual control device to adjust the altitude of the aircraft during turbulence.

飞行员使用手动控制装置在颠簸中调整飞机的高度。

4.In the factory, workers relied on a manual control device to operate the machinery safely.

在工厂里，工人依靠手动控制装置安全地操作机器。

5.The drone can be operated using a manual control device for precise movements.

无人机可以使用手动控制装置进行精确移动。

作文

In today's world, technology plays a vital role in our daily lives, making tasks easier and more efficient. However, there are still many situations where human intervention is necessary to ensure precision and control. This is where the concept of a manual control device (手动控制装置) comes into play. A manual control device is a tool or mechanism that allows individuals to operate machinery or systems directly, providing a level of hands-on control that automated systems may not be able to achieve. One of the primary advantages of using a manual control device is the ability to make real-time adjustments based on immediate feedback. For example, in industrial settings, operators often rely on manual control devices to fine-tune the performance of machines during production processes. This direct control helps to maintain quality and efficiency, especially when dealing with complex tasks that require a nuanced approach. Moreover, manual control devices are essential in scenarios where automation might fail or be inadequate. In aviation, pilots use manual control devices to take command of an aircraft during critical phases of flight, such as takeoff and landing. While autopilot systems enhance safety and reduce pilot workload, having the ability to switch to manual control ensures that pilots can respond effectively to unexpected situations. In the realm of robotics, manual control devices are also crucial. Engineers and operators often utilize joysticks or control panels to maneuver robotic arms or vehicles. These manual control devices allow for precise movements that automated programming might not replicate accurately. For instance, in surgical robotics, surgeons depend on manual control devices to perform delicate procedures, ensuring the highest level of accuracy and care. Furthermore, the use of manual control devices fosters a deeper understanding of the systems being operated. When individuals engage directly with machinery, they develop a better grasp of its functions and limitations. This hands-on experience is invaluable in training environments, where aspiring technicians or operators can learn the intricacies of their tools before relying on automation. However, it is essential to acknowledge that while manual control devices offer numerous benefits, they also come with challenges. The reliance on human operators can lead to inconsistencies in performance, as each individual may have different levels of skill and experience. Additionally, operating manual control devices requires significant attention and focus, which can be taxing over extended periods. Therefore, finding the right balance between manual control and automation is crucial for optimal performance. In conclusion, manual control devices (手动控制装置) are indispensable tools in various fields, providing the opportunity for direct interaction and control over complex systems. They enhance precision, foster learning, and ensure safety in critical situations. As technology continues to evolve, the role of manual control devices will remain relevant, reminding us of the importance of human oversight in an increasingly automated world. By embracing both manual and automated approaches, we can achieve the best outcomes in our endeavors, ensuring that technology serves as an extension of our capabilities rather than a replacement.

在当今世界，技术在我们的日常生活中发挥着至关重要的作用，使任务变得更容易和高效。然而，在许多情况下，人为干预是确保精确和控制所必需的。这就是手动控制装置(manual control device)概念发挥作用的地方。手动控制装置是一种工具或机制，允许个人直接操作机器或系统，提供一种自动化系统可能无法实现的直接控制水平。使用手动控制装置的主要优点之一是能够根据即时反馈进行实时调整。例如，在工业环境中，操作员通常依赖手动控制装置来微调生产过程中机器的性能。这种直接控制有助于保持质量和效率，特别是在处理需要细致入微的方法的复杂任务时。此外，手动控制装置在自动化可能失败或不够充分的场景中至关重要。在航空领域，飞行员在飞行的关键阶段，如起飞和着陆时，会使用手动控制装置指挥飞机。虽然自动驾驶系统提高了安全性并减少了飞行员的工作负担，但能够切换到手动控制确保飞行员能够有效应对意外情况。在机器人领域，手动控制装置同样至关重要。工程师和操作员经常利用操纵杆或控制面板来操控机械臂或车辆。这些手动控制装置允许进行精确的移动，而自动化编程可能无法准确复制。例如，在外科机器人手术中，外科医生依赖手动控制装置执行精细的手术，确保最高水平的准确性和关怀。此外，使用手动控制装置有助于加深对所操作系统的理解。当个人直接与机器接触时，他们会更好地掌握其功能和局限性。这种实践经验在培训环境中是无价的，渴望成为技术员或操作员的人可以在依赖自动化之前学习工具的复杂性。然而，必须承认的是，尽管手动控制装置提供了许多好处，但它们也伴随着挑战。对人类操作员的依赖可能导致性能的不一致，因为每个人的技能和经验水平可能不同。此外，操作手动控制装置需要大量的注意力和专注，这在长时间内可能会令人疲惫。因此，在手动控制和自动化之间找到合适的平衡对于最佳性能至关重要。总之，手动控制装置(manual control device)在各个领域都是不可或缺的工具，提供了对复杂系统的直接互动和控制的机会。它们提高了精确度，促进了学习，并确保在关键情况下的安全。随着技术的不断发展，手动控制装置的角色将继续保持相关性，提醒我们在人越来越自动化的世界中人类监督的重要性。通过同时采用手动和自动化的方法，我们可以在我们的努力中实现最佳结果，确保技术作为我们能力的延伸，而不是替代品。