steering arrangement

简明释义

操舵装置

英英释义

例句

1.We need to adjust the steering arrangement of the vehicle for better handling on rough terrain.

我们需要调整车辆的舵机安排以便在崎岖地形上更好地操控。

2.The yacht's steering arrangement allows for precise maneuvering in tight spaces.

这艘游艇的舵机安排使得在狭小空间内精确操控成为可能。

3.The steering arrangement in the aircraft is crucial for safe landings and takeoffs.

飞机中的舵机安排对安全着陆和起飞至关重要。

4.During the test drive, I noticed that the steering arrangement was too sensitive.

在试驾期间，我注意到舵机安排过于灵敏。

5.The new steering arrangement in this model provides enhanced stability during high-speed driving.

这个型号的新舵机安排在高速驾驶时提供了更好的稳定性。

作文

In the world of engineering and design, the term steering arrangement plays a crucial role, particularly in the context of vehicles and machinery. A steering arrangement refers to the system that allows the operator to control the direction of a vehicle or machine. This system can vary significantly depending on the type of vehicle, its size, and its intended use. For instance, the steering arrangement in a small car is quite different from that in a large truck or a construction vehicle. The fundamental purpose of a steering arrangement is to provide stability and control. In cars, it typically consists of a steering wheel connected to the front wheels through a series of linkages and mechanisms. This allows the driver to easily maneuver the vehicle, making sharp turns or navigating through tight spaces. The effectiveness of the steering arrangement directly impacts the vehicle's handling characteristics, such as responsiveness and precision. In larger vehicles, such as buses or trucks, the steering arrangement may include power steering systems that assist the driver in turning the wheel, especially at low speeds or when the vehicle is heavily loaded. This makes it easier for the operator to manage the vehicle's size and weight, enhancing safety and comfort. Furthermore, some advanced vehicles are now equipped with electronic steering systems, which can adjust the steering arrangement based on speed, improving stability at high speeds while allowing for greater maneuverability at lower speeds. Beyond automobiles, the concept of a steering arrangement extends to other forms of transportation, such as boats and airplanes. In marine vessels, the steering arrangement includes rudders and propellers, allowing the captain to navigate waterways effectively. Similarly, in aviation, the steering arrangement encompasses various controls that pilots use to steer the aircraft, ensuring safe takeoffs, landings, and in-flight maneuvers. Moreover, the steering arrangement is not limited to transportation alone. It can also refer to steering mechanisms in industrial machines, robotic systems, and even software applications where navigation is involved. For example, in robotics, a precise steering arrangement enables robots to follow paths or perform tasks with accuracy. In software, user interfaces often have a steering arrangement that helps users navigate through different features and options seamlessly. In conclusion, the term steering arrangement encompasses a wide range of systems designed to facilitate control and navigation across various fields. Understanding how these arrangements work is essential for engineers and designers who aim to create safe, efficient, and user-friendly vehicles and machines. As technology continues to advance, we can expect to see even more innovative steering arrangements that enhance our ability to control and interact with the world around us.

在工程和设计的世界中，术语steering arrangement（转向装置）发挥着至关重要的作用，特别是在车辆和机械的上下文中。steering arrangement（转向装置）指的是允许操作员控制车辆或机器方向的系统。根据车辆的类型、大小和预期用途，这个系统可能会有显著的差异。例如，小汽车中的steering arrangement（转向装置）与大型卡车或建筑机械中的steering arrangement（转向装置）截然不同。steering arrangement（转向装置）的基本目的是提供稳定性和控制。在汽车中，它通常由一个与前轮通过一系列连杆和机制连接的方向盘组成。这使得驾驶员能够轻松操控车辆，进行急转弯或在狭窄空间内导航。steering arrangement（转向装置）的有效性直接影响车辆的操控特性，如响应性和精确性。在更大的车辆中，例如公交车或卡车，steering arrangement（转向装置）可能包括助力转向系统，以帮助驾驶员在低速或车辆负载较重时转动方向盘。这使得操作员更容易管理车辆的大小和重量，从而增强安全性和舒适性。此外，一些先进的车辆现在配备了电子转向系统，可以根据速度调整steering arrangement（转向装置），提高高速度下的稳定性，同时在低速度下提供更大的机动性。除了汽车，steering arrangement（转向装置）的概念还扩展到其他交通运输形式，例如船只和飞机。在海洋船只中，steering arrangement（转向装置）包括舵和螺旋桨，使船长能够有效地导航水道。同样，在航空领域，steering arrangement（转向装置）涵盖了飞行员用来操控飞机的各种控制装置，确保安全起飞、降落和飞行中的机动。此外，steering arrangement（转向装置）不仅限于交通运输。它还可以指工业机器、机器人系统甚至软件应用程序中的转向机制，其中涉及导航。例如，在机器人技术中，精确的steering arrangement（转向装置）使机器人能够精确跟随路径或执行任务。在软件中，用户界面通常具有steering arrangement（转向装置），帮助用户无缝导航不同的功能和选项。总之，术语steering arrangement（转向装置）涵盖了一系列旨在促进各个领域控制和导航的系统。理解这些装置的工作原理对于旨在创造安全、高效和用户友好型车辆和机器的工程师和设计师来说至关重要。随着技术的不断进步，我们可以期待看到更多创新的steering arrangement（转向装置），增强我们控制和与周围世界互动的能力。