fin-tilting machinery

简明释义

水平舵转舵机构;减摇鳍传动机构

英英释义

例句

1.The engineer explained how the fin-tilting machinery 鳍片倾斜机械 improved the efficiency of the wind turbine.

工程师解释了如何通过<fin-tilting machinery> 鳍片倾斜机械来提高风力涡轮机的效率。

2.The robotics competition featured a robot equipped with fin-tilting machinery 鳍片倾斜机械 for better maneuverability in water.

机器人比赛中有一款机器人配备了fin-tilting machinery 鳍片倾斜机械，以提高在水中的灵活性。

3.Marine biologists are studying how fin-tilting machinery 鳍片倾斜机械 can mimic fish movements for better conservation efforts.

海洋生物学家正在研究如何利用fin-tilting machinery 鳍片倾斜机械模仿鱼类运动，以改善保护工作。

4.The research team developed a new fin-tilting machinery 鳍片倾斜机械 prototype to enhance underwater navigation.

研究团队开发了一种新的fin-tilting machinery 鳍片倾斜机械原型，以增强水下导航。

5.In the aquarium, the fin-tilting machinery 鳍片倾斜机械 was used to simulate natural water currents for the fish.

在水族馆中，使用了fin-tilting machinery 鳍片倾斜机械来模拟鱼类的自然水流。

作文

In the world of engineering and technology, the term fin-tilting machinery refers to a specialized mechanism that allows for the adjustment of fins or similar structures in various applications. This concept is particularly significant in fields such as aerospace, marine engineering, and even in some automotive designs. The ability to tilt fins can greatly enhance the performance and efficiency of a vehicle or an aircraft by optimizing its aerodynamic or hydrodynamic properties.The principle behind fin-tilting machinery is relatively straightforward. Fins are surfaces that can create lift or control movement when they are angled correctly against a flow of air or water. By using this machinery, engineers can design systems that adjust the angle of the fins in real-time, allowing for better maneuverability and stability. For instance, in an aircraft, the ability to tilt the fins can help in maintaining balance during turbulent conditions, thereby ensuring a smoother flight experience.Moreover, the implementation of fin-tilting machinery has been revolutionary in the development of advanced naval vessels. Submarines and surface ships equipped with this technology can effectively manage their orientation and speed, making them more agile and responsive to changes in the environment. This adaptability is crucial for military operations where stealth and precision are paramount.From an environmental perspective, fin-tilting machinery also plays a role in promoting sustainability. By optimizing the performance of vehicles, it can lead to reduced fuel consumption and lower emissions. For example, in marine applications, boats that can adjust their fins according to the water conditions can achieve better fuel efficiency, contributing to less pollution in our oceans and rivers.Additionally, the use of fin-tilting machinery is not limited to large vehicles. It can also be found in smaller devices, such as drones and remote-controlled aircraft. These smaller machines benefit from the same principles of aerodynamics, and the ability to tilt their fins allows them to perform complex maneuvers that would otherwise be impossible. This technology opens up new possibilities for aerial photography, surveillance, and even recreational flying.As we look to the future, the advancements in fin-tilting machinery are likely to continue. Innovations in materials science and robotics could lead to even more sophisticated mechanisms that provide greater control and efficiency. For instance, the integration of artificial intelligence could enable these systems to make real-time adjustments based on environmental data, further enhancing their performance.In conclusion, fin-tilting machinery represents a critical component in modern engineering, offering numerous advantages across various industries. Its ability to improve performance, promote sustainability, and enhance maneuverability makes it an invaluable asset in the pursuit of technological advancement. As we continue to explore new frontiers in engineering, the importance of such mechanisms will undoubtedly grow, paving the way for innovations that can transform our understanding of movement and efficiency in both air and water.

在工程和技术的世界中，术语fin-tilting machinery指的是一种专门的机制，允许在各种应用中调整鳍或类似结构。这个概念在航空航天、海洋工程甚至某些汽车设计等领域尤为重要。倾斜鳍的能力可以极大地提高车辆或飞机的性能和效率，通过优化其空气动力学或水动力学特性。fin-tilting machinery背后的原理相对简单。鳍是能够在正确的角度与气流或水流相对时产生升力或控制运动的表面。通过使用这种机械装置，工程师可以设计出实时调整鳍角度的系统，从而实现更好的操控性和稳定性。例如，在飞机中，倾斜鳍的能力可以帮助在颠簸条件下保持平衡，从而确保更平稳的飞行体验。此外，fin-tilting machinery的应用在先进海军舰艇的发展中具有革命性意义。配备此技术的潜艇和水面舰艇能够有效管理其方向和速度，使其更加灵活，并对环境变化做出反应。这种适应能力对于军事行动至关重要，因为隐蔽性和精确性是首要考虑因素。从环境角度来看，fin-tilting machinery也在促进可持续发展方面发挥了作用。通过优化车辆的性能，它可以减少燃料消耗和降低排放。例如，在海洋应用中，能够根据水流条件调整鳍的船只可以实现更好的燃油效率，从而减少我们海洋和河流中的污染。此外，fin-tilting machinery的使用并不限于大型车辆。它也可以在较小的设备中找到，例如无人机和遥控飞机。这些小型机器同样受益于空气动力学的原理，倾斜鳍的能力使它们能够执行复杂的机动，这在其他情况下将是不可能的。这项技术为空中摄影、监视甚至休闲飞行开辟了新的可能性。展望未来，fin-tilting machinery的进步可能会继续。材料科学和机器人技术的创新可能会导致更复杂的机制，提供更大的控制和效率。例如，人工智能的整合可能使这些系统能够基于环境数据进行实时调整，进一步提升其性能。总之，fin-tilting machinery代表了现代工程中的一个关键组成部分，在各个行业中提供了众多优势。它改善性能、促进可持续性和增强机动性的能力，使其成为追求技术进步中不可或缺的资产。随着我们继续探索工程的新领域，这类机制的重要性无疑会增长，为能够改变我们对空气和水中运动及效率理解的创新铺平道路。