capsizing lever

简明释义

倾覆力臂

英英释义

例句

1.In rough seas, the capsizing lever 翻船杠杆 must be monitored to prevent accidents.

在恶劣海况下，必须监控翻船杠杆以防止事故发生。

2.The instructor explained the function of the capsizing lever 翻船杠杆 to the new sailors.

教练向新水手解释了翻船杠杆的功能。

3.The boat's stability was compromised when the capsizing lever 翻船杠杆 was accidentally activated.

当翻船杠杆意外激活时，船的稳定性受到影响。

4.Before setting sail, the crew checked the capsizing lever 翻船杠杆 to ensure it was properly secured.

在出航之前，船员检查了翻船杠杆以确保其正确固定。

5.During the safety drill, we learned how to operate the capsizing lever 翻船杠杆 in case of an emergency.

在安全演习中，我们学习了如何在紧急情况下操作翻船杠杆。

作文

In the world of maritime engineering, safety is a paramount concern. One of the innovative mechanisms designed to enhance the stability of vessels is known as the capsizing lever. This device plays a crucial role in preventing boats and ships from overturning in turbulent waters. The capsizing lever functions by shifting the center of gravity of the vessel, thereby providing additional stability and reducing the risk of capsizing.The concept of the capsizing lever is rooted in basic physics. When a boat encounters rough seas, the forces acting on it can lead to an imbalance, causing it to tilt dangerously. The capsizing lever is engineered to counteract this tendency by redistributing weight. By adjusting the lever, crew members can lower the center of gravity and create a more stable platform. This is particularly important in scenarios where high waves or strong winds are present, as these conditions can easily lead to accidents.Historically, the development of the capsizing lever has been influenced by various maritime disasters. Incidents where ships capsized due to poor design or lack of stability have prompted engineers to innovate and create safer designs. The introduction of the capsizing lever has been a significant advancement in this regard, allowing for real-time adjustments that can save lives and protect property.Moreover, the capsizing lever is not just a theoretical concept; it has practical applications in modern shipbuilding. Many contemporary vessels are equipped with this mechanism, which is often integrated into the ship’s overall design. Training programs for mariners now include instruction on how to effectively use the capsizing lever to ensure maximum safety while navigating challenging waters. This training emphasizes the importance of quick thinking and decisive action in emergencies, where every second counts.In addition to its functional benefits, the capsizing lever also represents a broader commitment to safety and innovation in the maritime industry. As technology continues to evolve, so too do the methods employed to safeguard vessels and their crews. The incorporation of advanced materials and automated systems into the design of the capsizing lever illustrates how far we have come in our understanding of marine stability.Furthermore, the significance of the capsizing lever extends beyond individual vessels. It contributes to the overall safety standards of maritime operations. Regulatory bodies have recognized the importance of such devices and have begun to implement guidelines that require ships to be equipped with effective stability mechanisms, including the capsizing lever. This shift towards stricter regulations underscores the industry's commitment to preventing maritime accidents and ensuring that all vessels adhere to the highest safety standards.In conclusion, the capsizing lever is a vital component in the field of maritime safety. Its ability to stabilize vessels in challenging conditions makes it an essential tool for sailors and engineers alike. As we continue to push the boundaries of technology and safety in maritime operations, the capsizing lever will undoubtedly remain a key player in protecting lives at sea. Understanding its function and importance is crucial for anyone involved in maritime activities, whether they are seasoned sailors or newcomers to the field.

在海洋工程的世界中，安全是至关重要的关注点。为了增强船只的稳定性，设计出了一种创新机制，称为翻覆杠杆。该装置在防止船只在动荡水域翻覆方面发挥着关键作用。翻覆杠杆通过移动船体的重心来工作，从而提供额外的稳定性，降低翻覆的风险。翻覆杠杆的概念源于基本物理学。当船只遭遇恶劣海况时，作用在其上的力可能导致失衡，从而使其危险地倾斜。翻覆杠杆经过精心设计，以抵消这种倾向，通过重新分配重量来实现。通过调整杠杆，船员可以降低重心，创造一个更稳定的平台。在高波浪或强风存在的情况下，这一点尤为重要，因为这些条件很容易导致事故。历史上，翻覆杠杆的发展受到各种海上灾难的影响。由于设计不良或缺乏稳定性而导致船只翻覆的事件促使工程师进行创新，创造出更安全的设计。翻覆杠杆的引入在这方面是一项重大进展，使得实时调整成为可能，从而拯救生命和保护财产。此外，翻覆杠杆不仅仅是一个理论概念；它在现代造船中具有实际应用。许多当代船只都配备了这一机制，通常集成在船只的整体设计中。对于水手的培训项目现在包括如何有效使用翻覆杠杆的指导，以确保在航行挑战性水域时的最大安全性。这种培训强调在紧急情况下快速思考和果断行动的重要性，因为每一秒钟都至关重要。除了功能性好处外，翻覆杠杆还代表了海洋工业对安全和创新的更广泛承诺。随着技术的不断发展，保障船只及其船员安全的方法也在不断演变。将先进材料和自动化系统纳入翻覆杠杆的设计中，说明了我们在理解海洋稳定性方面取得的进展。此外，翻覆杠杆的重要性超越了单个船只。它有助于整个海事操作的安全标准。监管机构已经认识到此类设备的重要性，并开始实施要求船只配备有效稳定机制（包括翻覆杠杆）的指南。这种向更严格法规的转变突显了行业在防止海上事故和确保所有船只遵循最高安全标准方面的承诺。总之，翻覆杠杆是海洋安全领域的重要组成部分。它在挑战性条件下稳定船只的能力使其成为水手和工程师的必备工具。随着我们继续推动海洋操作中的技术和安全边界，翻覆杠杆无疑将继续在保护海上生命方面发挥关键作用。理解其功能和重要性对于任何参与海洋活动的人来说都是至关重要的，无论他们是经验丰富的水手还是该领域的新手。