steering device

简明释义

转舵装置

英英释义

例句

1.The steering device of the boat was malfunctioning, making it difficult to steer.

船的操纵装置出现故障，使得驾驶变得困难。

2.In modern cars, the steering device is often electronic, providing precise control.

在现代汽车中，转向装置通常是电子的，提供精确的控制。

3.The pilot relied on the steering device to maintain the aircraft's course during turbulence.

飞行员依靠操纵装置在颠簸中保持飞机的航向。

4.He learned how to use the steering device effectively while taking sailing lessons.

他在上帆船课时学会了如何有效地使用操纵装置。

5.The captain adjusted the steering device to navigate through the stormy waters.

船长调整了操纵装置以在暴风雨中航行。

作文

In the world of engineering and technology, the term steering device refers to a mechanism that allows an operator to control the direction of a vehicle or machine. This concept is not only limited to automobiles but extends to various forms of transportation, including ships, airplanes, and even bicycles. Understanding the functionality and importance of a steering device can provide insight into how we navigate our environment and ensure safety in movement.The primary function of a steering device is to facilitate directional change. In cars, for instance, the steering wheel acts as the main interface between the driver and the vehicle's navigation system. When the driver turns the wheel, it engages a series of mechanisms that alter the angle of the front wheels, enabling the car to change its path. This interaction showcases the intricate design and engineering that goes into creating a responsive and reliable steering device.Moreover, the evolution of steering devices over the years has been remarkable. Early vehicles relied on simple mechanical systems, but advancements in technology have introduced power steering, which uses hydraulic or electric actuators to make steering easier and more efficient. This innovation has significantly improved the driving experience, especially in larger vehicles where manual steering would be cumbersome.In maritime contexts, the steering device takes on a different form. Ships utilize a rudder system that directs water flow to guide the vessel. The captain's ability to steer the ship accurately is crucial for safe navigation, especially in congested waters. Understanding how a ship's steering device operates is essential for maritime professionals, as it directly affects their ability to maneuver through challenging conditions.Aviation also employs sophisticated steering devices, commonly referred to as control yokes or joysticks. These allow pilots to manipulate the aircraft’s flight path by adjusting the ailerons, elevators, and rudders. The precision required in aviation makes the design and functionality of these steering devices critical for ensuring passenger safety and successful flight operations.The significance of steering devices extends beyond mere functionality; they are integral to the concepts of safety and control. In emergency situations, the ability to quickly and effectively steer a vehicle can mean the difference between disaster and safety. For example, in a situation where a driver must avoid an obstacle, the immediate response facilitated by the steering device can prevent accidents and save lives.Furthermore, the understanding of steering devices is not just limited to operators; it also encompasses engineers and designers who create these systems. Their knowledge of physics, mechanics, and ergonomics plays a vital role in developing steering devices that are not only functional but also user-friendly. As technology continues to advance, the integration of smart systems and automated steering technologies is becoming more prevalent, promising a future where human input may be complemented or even replaced by intelligent systems.In conclusion, the steering device is a fundamental component in various modes of transportation. Its importance in providing control, enhancing safety, and facilitating navigation cannot be overstated. As we continue to innovate and improve these systems, understanding their mechanics and applications will remain essential for both users and creators alike. Whether in a car, a ship, or an airplane, the steering device will always play a crucial role in guiding us through our journeys.

在工程和技术的世界中，术语steering device指的是一种机制，使操作员能够控制车辆或机器的方向。这个概念不仅限于汽车，还扩展到各种交通工具，包括船只、飞机甚至自行车。理解steering device的功能和重要性可以为我们提供如何导航环境和确保安全移动的见解。steering device的主要功能是促进方向变化。例如，在汽车中，方向盘充当驾驶员与车辆导航系统之间的主要接口。当驾驶员转动方向盘时，它会激活一系列机制，改变前轮的角度，使汽车能够改变行驶路径。这种互动展示了创造响应灵敏且可靠的steering device所需的复杂设计和工程。此外，steering devices多年来的发展令人瞩目。早期的车辆依赖于简单的机械系统，但技术的进步引入了动力转向，利用液压或电动执行器使转向变得更轻松和高效。这一创新显著改善了驾驶体验，尤其是在大型车辆中，手动转向会显得笨重。在海事环境中，steering device则呈现出不同的形式。船只利用舵系统来引导水流以控制航行。船长准确操控船只的能力对于安全导航至关重要，特别是在拥挤的水域中。了解船只的steering device如何运作对于海事专业人士至关重要，因为这直接影响到他们在挑战条件下的机动能力。航空领域也使用复杂的steering devices，通常称为控制杆或操纵杆。这些设备允许飞行员通过调整副翼、升降舵和方向舵来操纵飞机的飞行路径。航空领域对精确度的要求使得这些steering devices的设计和功能对于确保乘客安全和成功飞行至关重要。steering devices的重要性不仅限于其功能性；它们也是安全和控制概念的核心。在紧急情况下，快速有效地操纵车辆的能力可能意味着灾难与安全之间的区别。例如，在驾驶员必须避开障碍物的情况下，由steering device促成的即时反应可以防止事故并拯救生命。此外，对steering devices的理解不仅限于操作员；它还包括设计和工程师，他们负责创建这些系统。他们对物理学、机械学和人机工程学的知识在开发不仅功能性而且用户友好的steering devices中起着至关重要的作用。随着技术的不断进步，智能系统和自动转向技术的整合变得越来越普遍，预示着一个未来，人类的输入可能会被智能系统补充甚至取代。总之，steering device是各种交通方式中的基本组成部分。它在提供控制、增强安全性和促进导航方面的重要性不容小觑。随着我们继续创新和改进这些系统，理解它们的机制和应用将对用户和创造者来说始终是必要的。无论是在汽车、船只还是飞机中，steering device始终在引导我们走过旅程中发挥着关键作用。