anchor braking system

简明释义

锚制动系统

英英释义

例句

1.Before setting sail, the captain checked the anchor braking system to ensure it was functioning properly.

在起航之前，船长检查了锚制动系统以确保其正常运作。

2.During the safety drill, the crew practiced using the anchor braking system in various scenarios.

在安全演练中，船员们练习了在不同情况下使用锚制动系统。

3.A malfunctioning anchor braking system can lead to serious accidents at sea.

故障的锚制动系统可能会导致海上严重事故。

4.The anchor braking system on this fishing boat allows for quick stops when catching fish.

这艘渔船上的锚制动系统允许在捕捞时快速停船。

5.The new yacht is equipped with an advanced anchor braking system to prevent drifting during storms.

这艘新游艇配备了先进的锚制动系统，可以在暴风雨中防止漂移。

作文

The concept of an anchor braking system is crucial in various fields, particularly in transportation and engineering. An anchor braking system refers to a mechanism designed to halt the motion of a vehicle or an object by utilizing anchors or similar devices that provide resistance against movement. This system plays a significant role in ensuring safety and stability, especially in situations where rapid deceleration is required.In the realm of maritime transportation, the anchor braking system is essential for ships and boats. When a vessel needs to stop or remain stationary in water, it deploys anchors that dig into the seabed. The anchor braking system ensures that these anchors hold firm, preventing the ship from drifting due to currents or wind. This system is not only vital for the safety of the crew and cargo but also for protecting marine ecosystems from potential damage caused by drifting vessels.Similarly, in the automotive industry, the anchor braking system can refer to the braking mechanisms that utilize various forms of resistance to slow down or stop vehicles. For instance, heavy trucks often employ a type of anchor braking system known as engine braking, which uses the engine's power to create resistance against the motion of the vehicle. This method is particularly useful when descending steep hills, where traditional brakes may overheat and fail.Moreover, the anchor braking system can also be seen in the context of construction equipment. Cranes and other heavy machinery often require a reliable anchor braking system to ensure that they do not tip over or lose control while lifting heavy loads. These systems are engineered to provide maximum stability and prevent accidents that could result in injury or property damage.The importance of a well-functioning anchor braking system cannot be overstated. In aviation, for instance, the landing gear of an aircraft incorporates a braking system that can be likened to an anchor. Upon landing, the aircraft's wheels engage with the runway, and the braking system works effectively to bring the plane to a complete stop. This is critical for the safety of passengers and crew, as any failure in this system could lead to catastrophic consequences.In conclusion, the anchor braking system is a fundamental component in various modes of transportation and machinery. It serves to provide safety, stability, and control over movement, making it an indispensable aspect of modern engineering. Understanding how these systems work and their applications can greatly enhance our appreciation for the technology that keeps us safe in our daily lives. Whether on land, at sea, or in the air, the anchor braking system plays a pivotal role in ensuring that we can navigate our environments safely and efficiently.

“锚制动系统”的概念在各个领域中都至关重要，特别是在交通和工程方面。“锚制动系统”指的是一种机制，旨在通过利用锚或类似装置来阻止车辆或物体的运动，从而提供对运动的抵抗。该系统在确保安全和稳定方面发挥着重要作用，特别是在需要快速减速的情况下。在海事运输领域，“锚制动系统”对于船只和小艇至关重要。当一艘船需要停止或保持在水中静止时，它会部署锚，这些锚会深入海底。“锚制动系统”确保这些锚牢牢固定，防止船只因潮流或风而漂移。该系统不仅对船员和货物的安全至关重要，还能保护海洋生态系统免受漂流船只可能造成的损害。同样，在汽车工业中，“锚制动系统”可以指利用各种形式的抵抗力来减缓或停止车辆的制动机制。例如，重型卡车通常采用一种称为发动机制动的“锚制动系统”，利用发动机的动力对抗车辆的运动。这种方法在下陡坡时特别有用，因为传统刹车可能会过热并失效。此外，“锚制动系统”在建筑设备的背景下也可以看到。起重机和其他重型机械通常需要可靠的“锚制动系统”，以确保它们在提升重载时不会倾覆或失控。这些系统经过工程设计，以提供最大的稳定性，防止可能导致伤害或财产损失的事故。一个良好运作的“锚制动系统”的重要性不容低估。在航空领域，例如，飞机的起落架包含一种可比作锚的制动系统。在着陆时，飞机的轮子与跑道接触，制动系统有效地工作，将飞机完全停下来。这对于乘客和机组人员的安全至关重要，因为该系统的任何故障都可能导致灾难性的后果。总之，“锚制动系统”是各种交通工具和机械中的基本组成部分。它提供安全、稳定和对运动的控制，使其成为现代工程不可或缺的方面。理解这些系统的工作原理及其应用，可以大大增强我们对保护我们日常生活安全的技术的欣赏。无论是在陆地上、海上还是空中，“锚制动系统”在确保我们能够安全高效地导航环境中发挥着关键作用。