fin-tilting gear

简明释义

减摇鳍回转装置

英英释义

例句

1.Adjusting the fin-tilting gear 鳍倾斜装置 can significantly enhance the performance of your racing yacht.

调整鳍倾斜装置 fin-tilting gear可以显著提升你的赛车游艇的性能。

2.Proper maintenance of the fin-tilting gear 鳍倾斜装置 is crucial for ensuring long-term reliability.

妥善维护鳍倾斜装置 fin-tilting gear对确保长期可靠性至关重要。

3.The engineers recommended upgrading the fin-tilting gear 鳍倾斜装置 to optimize fuel efficiency.

工程师建议升级鳍倾斜装置 fin-tilting gear以优化燃油效率。

4.During the test run, we noticed that the fin-tilting gear 鳍倾斜装置 was not functioning properly.

在测试运行中，我们注意到鳍倾斜装置 fin-tilting gear的功能不正常。

5.The new model of the boat features an advanced fin-tilting gear 鳍倾斜装置 that improves stability during high-speed turns.

这款新型号的船配备了先进的鳍倾斜装置，fin-tilting gear在高速转弯时提高了稳定性。

作文

In the world of engineering and design, precision is paramount. One of the crucial components that contribute to this precision in various mechanical systems is the fin-tilting gear. This specialized gear system allows for the adjustment of fins or blades, which can be vital in applications ranging from aerospace to marine engineering. The ability to tilt these fins enhances the control over aerodynamics and hydrodynamics, leading to improved performance and efficiency. Understanding how fin-tilting gear operates can provide insights into its significance in modern technology.The fin-tilting gear functions by enabling angular adjustments of fins, which are often found on aircraft wings, stabilizers, and even underwater vehicles. By tilting the fins, engineers can optimize lift and drag forces, allowing for better maneuverability and stability during flight or navigation. For instance, in aircraft design, the position of the fins can significantly affect the aircraft’s ability to ascend, descend, or maintain level flight. This is where the fin-tilting gear plays a critical role, as it must respond quickly and accurately to pilot inputs or automated systems.Moreover, the application of fin-tilting gear is not limited to aviation. In the marine industry, vessels equipped with adjustable fins can enhance their handling and fuel efficiency. By tilting the fins, ships can adapt to changing water conditions, improving their performance in rough seas or during tight maneuvers. This adaptability is essential for both safety and operational effectiveness, making the fin-tilting gear an indispensable part of modern maritime engineering.The design and manufacturing of fin-tilting gear involve intricate engineering principles. These gears must be robust enough to withstand the forces exerted on them while also being lightweight to avoid adding unnecessary weight to the overall system. Materials such as titanium or advanced composites are often used to achieve this balance of strength and weight. Additionally, the gear mechanism must allow for smooth and precise movements, which requires careful design and testing.As technology advances, the integration of automation and smart systems into the functionality of fin-tilting gear is becoming more prevalent. With the advent of computer-aided design and real-time monitoring systems, engineers can create more sophisticated and responsive gear mechanisms. This not only improves the efficiency of the fins but also enhances safety by allowing for quicker adjustments in response to changing conditions.In conclusion, the fin-tilting gear is a vital component in various engineering applications, providing the necessary adjustments to fins that enhance performance and efficiency. Its importance spans across multiple industries, including aerospace and marine engineering, where precision and adaptability are crucial. As technology continues to evolve, the role of fin-tilting gear will undoubtedly expand, leading to innovations that further improve the capabilities of modern mechanical systems.

在工程和设计的世界中，精确性至关重要。各种机械系统中有一个关键组成部分，就是鳍片倾斜齿轮。这种专业的齿轮系统允许对鳍片或叶片进行调整，这在航空航天到海洋工程等应用中可能是至关重要的。倾斜这些鳍片的能力增强了对空气动力学和水动力学的控制，从而提高了性能和效率。理解鳍片倾斜齿轮的工作原理可以深入了解其在现代技术中的重要性。鳍片倾斜齿轮通过使鳍片的角度调整来发挥作用，这些鳍片通常出现在飞机的机翼、稳定器甚至水下车辆上。通过倾斜鳍片，工程师可以优化升力和阻力，从而提高飞行或导航时的机动性和稳定性。例如，在飞机设计中，鳍片的位置会显著影响飞机的上升、下降或保持水平飞行的能力。这就是鳍片倾斜齿轮发挥关键作用的地方，因为它必须快速且准确地响应飞行员输入或自动系统。此外，鳍片倾斜齿轮的应用并不仅限于航空。在海洋行业中，配备可调鳍片的船只可以增强其操控性和燃油效率。通过倾斜鳍片，船只可以适应变化的水域条件，提高在恶劣海况或紧急机动中的表现。这种适应能力对于安全和操作有效性至关重要，使得鳍片倾斜齿轮成为现代海洋工程中不可或缺的部分。鳍片倾斜齿轮的设计和制造涉及复杂的工程原理。这些齿轮必须足够坚固以承受施加在其上的力，同时又要轻便，以避免给整体系统增加不必要的重量。钛合金或先进复合材料等材料常用于实现强度和重量之间的平衡。此外，齿轮机制还必须允许平滑和精确的运动，这需要仔细的设计和测试。随着技术的进步，自动化和智能系统的集成在鳍片倾斜齿轮的功能中变得越来越普遍。随着计算机辅助设计和实时监控系统的出现，工程师可以创建更复杂和响应更快的齿轮机制。这不仅提高了鳍片的效率，还通过允许在变化条件下快速调整来增强安全性。总之，鳍片倾斜齿轮是各种工程应用中至关重要的组成部分，提供了对鳍片的必要调整，从而提高性能和效率。它的重要性跨越多个行业，包括航空航天和海洋工程，在这些领域中，精确性和适应性至关重要。随着技术的不断发展，鳍片倾斜齿轮的角色无疑将进一步扩展，带来进一步改善现代机械系统能力的创新。