turning vane steering gear

简明释义

转翼式液压操舵装置

英英释义

例句

1.The efficiency of the turning vane steering gear 转向叶片舵机 significantly improved the vessel's maneuverability.

该转向叶片舵机的效率显著提高了船只的机动性。

2.The ship's turning vane steering gear 转向叶片舵机 allowed for precise navigation through narrow channels.

这艘船的转向叶片舵机使得在狭窄水道中导航变得精确。

3.We installed a new turning vane steering gear 转向叶片舵机 to enhance the performance of our fishing boat.

我们安装了一个新的转向叶片舵机以增强我们的渔船性能。

4.During the maintenance check, the engineer inspected the turning vane steering gear 转向叶片舵机 for any signs of wear.

在维护检查期间，工程师检查了转向叶片舵机是否有磨损迹象。

5.The captain relied on the turning vane steering gear 转向叶片舵机 to execute sharp turns during the storm.

船长依靠转向叶片舵机在暴风雨中进行急转弯。

作文

In the world of marine engineering, the efficiency and maneuverability of a vessel are paramount for safe navigation. One of the critical components that contribute to this is the turning vane steering gear. This system plays an essential role in directing the flow of water around the hull of a ship, allowing for precise control during turns and maneuvers. The turning vane steering gear consists of specially designed vanes or blades that redirect the water flow, enhancing the vessel's ability to change direction swiftly without losing speed. Understanding the mechanics behind the turning vane steering gear is crucial for engineers and navigators alike. When a ship approaches a turn, the traditional rudder may not provide sufficient control, especially at high speeds or in turbulent waters. This is where the turning vane steering gear comes into play. By utilizing the hydrodynamic principles, these vanes create a force that assists the rudder in steering the vessel more effectively. The design of the turning vane steering gear can vary depending on the size and type of the vessel. For larger ships, multiple vanes may be employed to distribute the flow evenly and enhance responsiveness. Smaller boats might use a simpler version of the system, but the underlying principles remain the same. The efficiency of the turning vane steering gear can significantly reduce the amount of time and distance required to execute a turn, which is particularly beneficial in crowded harbors or narrow channels. Moreover, the implementation of a turning vane steering gear can lead to fuel savings. By improving the maneuverability of a vessel, operators can maintain optimal speeds without over-relying on engine power. This not only conserves fuel but also reduces emissions, making it an environmentally friendly option. As the maritime industry increasingly focuses on sustainability, innovations like the turning vane steering gear will likely gain more attention. However, while the advantages of the turning vane steering gear are clear, it is also essential to consider the maintenance and operational aspects. Regular inspections and proper upkeep are necessary to ensure that the vanes function efficiently. Any damage or misalignment can lead to decreased performance and could compromise the safety of the vessel. Therefore, training for crew members on the operation and maintenance of the turning vane steering gear is vital. In conclusion, the turning vane steering gear is an indispensable component of modern marine vessels, offering enhanced maneuverability, fuel efficiency, and overall improved navigation capabilities. As technology advances, we can expect further developments in steering mechanisms, but the fundamental role of the turning vane steering gear in facilitating safe and efficient maritime travel will remain a cornerstone of naval architecture. Understanding its function and importance is crucial for anyone involved in marine operations, ensuring that vessels can navigate the world's waters with confidence and precision.

在海洋工程的世界中，船舶的效率和机动性对于安全航行至关重要。一个对这一点至关重要的组成部分是转向导流器舵机。该系统在引导水流绕过船体方面发挥着重要作用，从而允许在转弯和操控时实现精确控制。转向导流器舵机由专门设计的导流板或叶片组成，这些导流板可以重新定向水流，提高船舶在不失去速度的情况下快速改变方向的能力。理解转向导流器舵机背后的机制对于工程师和导航员来说至关重要。当船舶接近转弯时，传统的舵可能无法提供足够的控制，特别是在高速或湍急的水域中。这就是转向导流器舵机发挥作用的地方。通过利用水动力学原理，这些导流器产生一种力，帮助舵更有效地引导船舶。转向导流器舵机的设计可以根据船舶的大小和类型有所不同。对于较大的船只，可能会使用多个导流器来均匀分配水流并增强响应性。较小的船只可能会使用更简单版本的系统，但基本原理仍然相同。转向导流器舵机的效率可以显著减少执行转弯所需的时间和距离，这在拥挤的港口或狭窄的水道中特别有利。此外，实施转向导流器舵机可以节省燃料。通过改善船舶的机动性，操作人员可以在不过度依赖发动机功率的情况下保持最佳速度。这不仅节省了燃料，还减少了排放，使其成为一种环保的选择。随着海事行业越来越关注可持续性，像转向导流器舵机这样的创新可能会获得更多关注。然而，尽管转向导流器舵机的优势显而易见，但考虑维护和操作方面也很重要。定期检查和适当的保养是确保导流器高效运作的必要条件。任何损坏或失调都可能导致性能下降，并可能危及船舶的安全。因此，对船员进行关于转向导流器舵机的操作和维护培训至关重要。总之，转向导流器舵机是现代海洋船舶不可或缺的组成部分，提供了增强的机动性、燃料效率和整体改进的导航能力。随着技术的进步，我们可以期待舵机机制的进一步发展，但转向导流器舵机在促进安全和高效的海上旅行中的基本作用将仍然是海军建筑的基石。理解其功能和重要性对任何涉及海洋操作的人来说都是至关重要的，确保船舶能够自信和精准地航行于世界的水域。