commutator for emergency manoeuvres

简明释义

紧急操纵转换开关

英英释义

例句

1.During the simulation, the trainees practiced using the commutator for emergency manoeuvres effectively.

在模拟训练中，学员们有效地练习了使用应急机动的换向器。

2.The commutator for emergency manoeuvres is crucial for ensuring safety in unexpected situations.

在意外情况下，应急机动的换向器对于确保安全至关重要。

3.The pilot activated the commutator for emergency manoeuvres to regain control of the aircraft during turbulence.

在颠簸中，飞行员启动了应急机动的换向器以重新控制飞机。

4.The racing car's commutator for emergency manoeuvres allowed it to make sharp turns at high speeds.

赛车的应急机动的换向器使其能够以高速进行急转弯。

5.In a critical situation, the engineer instructed the crew to use the commutator for emergency manoeuvres to avoid collision.

在危急情况下，工程师指示机组人员使用应急机动的换向器以避免碰撞。

作文

In modern engineering and technology, safety mechanisms are paramount, especially in fields that involve high risks such as aviation, automotive, and robotics. One crucial component that plays a significant role in ensuring safety during critical situations is the commutator for emergency manoeuvres. This device is designed to facilitate rapid changes in direction or power supply in response to unforeseen circumstances, thereby preventing accidents and ensuring the safety of both operators and equipment.The commutator for emergency manoeuvres functions by allowing an immediate switch between different operational modes. For example, in an aircraft, if a pilot encounters sudden turbulence or a malfunction, they need to execute emergency procedures swiftly. The commutator for emergency manoeuvres enables the pilot to change the flight control system instantly, which can help stabilize the aircraft and avert potential disasters. This quick response capability is essential in saving lives and protecting valuable assets.In automotive applications, the commutator for emergency manoeuvres can be found in advanced driver-assistance systems (ADAS). These systems rely on sensors and algorithms to detect obstacles and assess driving conditions. When a critical situation arises, such as an impending collision, the commutator for emergency manoeuvres allows the vehicle to switch from regular driving mode to emergency braking or evasive steering. This swift transition can significantly reduce the severity of accidents, showcasing the importance of having reliable emergency systems in vehicles.Similarly, in robotics, the commutator for emergency manoeuvres is vital for ensuring the safe operation of robots in dynamic environments. Robots often work alongside humans and must be equipped with the ability to respond to unexpected movements or obstacles. The commutator for emergency manoeuvres allows robots to alter their paths or halt operations in real-time, thus minimizing the risk of injury to human operators or damage to surrounding equipment.The design of a commutator for emergency manoeuvres involves careful consideration of various factors, including response time, reliability, and ease of integration into existing systems. Engineers must ensure that the device can operate flawlessly under extreme conditions and can be activated quickly when needed. Testing and validation of these systems are crucial to guarantee that they perform as expected in emergencies.Moreover, training personnel to understand and effectively utilize the commutator for emergency manoeuvres is equally important. In high-stakes environments, knowing how to react quickly and appropriately can make a significant difference. Regular drills and simulations can help operators become familiar with the emergency protocols involving the commutator for emergency manoeuvres, enhancing their confidence and competence in critical situations.In conclusion, the commutator for emergency manoeuvres is an indispensable tool in various industries that prioritize safety and efficiency. Its ability to facilitate quick transitions during emergencies can save lives and protect assets, making it a vital component in modern technology. As we continue to advance in engineering and automation, the importance of such safety mechanisms will only grow, underscoring the need for ongoing research and development in this field.

在现代工程和技术中，安全机制至关重要，特别是在航空、汽车和机器人等高风险领域。一个在确保关键情况下安全方面发挥重要作用的关键组件是紧急机动的换向器。该设备旨在应对不可预见的情况，快速改变方向或电源供应，从而防止事故并确保操作员和设备的安全。紧急机动的换向器通过允许立即在不同操作模式之间切换来发挥作用。例如，在飞机中，如果飞行员遇到突发的颠簸或故障，他们需要迅速执行紧急程序。紧急机动的换向器使飞行员能够瞬间改变飞行控制系统，这可以帮助稳定飞机，避免潜在的灾难。这种快速反应能力对于拯救生命和保护宝贵资产至关重要。在汽车应用中，紧急机动的换向器可以在先进的驾驶辅助系统（ADAS）中找到。这些系统依赖传感器和算法来检测障碍物和评估驾驶条件。当出现危急情况，例如即将发生碰撞时，紧急机动的换向器使车辆能够从常规驾驶模式切换到紧急刹车或规避转向。这种迅速的过渡可以显著减少事故的严重性，展示了在车辆中拥有可靠紧急系统的重要性。类似地，在机器人技术中，紧急机动的换向器对于确保机器人在动态环境中的安全操作至关重要。机器人通常与人类一起工作，必须具备应对意外移动或障碍物的能力。紧急机动的换向器使机器人能够实时改变路径或停止操作，从而最大限度地减少对人类操作员的伤害或对周围设备的损坏。紧急机动的换向器的设计涉及对各种因素的仔细考虑，包括响应时间、可靠性和与现有系统的集成易用性。工程师必须确保该设备能够在极端条件下完美运行，并能在需要时快速激活。测试和验证这些系统对于保证它们在紧急情况下按预期运行至关重要。此外，培训人员理解和有效利用紧急机动的换向器同样重要。在高风险环境中，了解如何快速和适当地反应可以产生重大差异。定期演练和模拟可以帮助操作员熟悉与紧急机动的换向器相关的紧急协议，增强他们在关键情况下的信心和能力。总之，紧急机动的换向器是各个行业中不可或缺的工具，这些行业优先考虑安全和效率。它在紧急情况下促进快速过渡的能力可以拯救生命和保护资产，使其成为现代技术中的重要组成部分。随着我们在工程和自动化方面的不断进步，这种安全机制的重要性只会增加，强调了在这一领域持续研究和发展的必要性。