steering device

简明释义

操舵装置

英英释义

例句

1.The aircraft's steering device is crucial for maintaining control during takeoff and landing.

飞机的转向装置在起飞和着陆期间对保持控制至关重要。

2.He learned how to use the steering device on the simulator before driving the actual boat.

在驾驶实际船只之前，他先在模拟器上学习如何使用舵装置。

3.In modern cars, the steering device is often electronic, providing smoother handling.

在现代汽车中，转向装置通常是电子的，提供更平顺的操控。

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

船长调整了舵装置以在暴风雨中航行。

5.The bicycle’s steering device allows for quick turns and maneuverability.

自行车的转向装置允许快速转弯和灵活操控。

作文

In the world of engineering and design, various components work together to create functional and efficient systems. One such crucial component is the steering device, which plays an essential role in controlling the direction of vehicles and machinery. Whether it is a car, a boat, or even an aircraft, the steering device ensures that the operator can navigate safely and effectively. This essay will explore the importance of the steering device, its various types, and how it contributes to the overall performance of different vehicles.The primary function of a steering device is to allow the user to change the direction of movement. In cars, for instance, the steering wheel acts as the main steering device. When the driver turns the wheel, it manipulates the front wheels' angle, allowing the vehicle to turn left or right. This simple yet effective mechanism is vital for safe driving, especially in urban environments where quick decisions are necessary. The design and responsiveness of the steering device can significantly affect the driving experience, influencing how easily a driver can maneuver the vehicle.In addition to cars, boats utilize a different type of steering device. The rudder is a common example, which is controlled by a steering wheel or tiller. By turning the wheel or moving the tiller, the operator adjusts the rudder's angle, directing the flow of water against it. This action propels the boat in a desired direction, showcasing how steering devices can vary in design yet serve the same fundamental purpose: guiding movement.Aircraft also rely on sophisticated steering devices to maintain control during flight. The yoke or control stick serves as the pilot's primary steering device, allowing them to tilt the aircraft's nose up or down and bank left or right. Additionally, aircraft have ailerons, elevators, and rudders that work together with the yoke to provide precise control. The complexity of these steering devices highlights the critical nature of steering in aviation, where safety and accuracy are paramount.The evolution of steering devices has been influenced by advancements in technology. Modern vehicles often feature power steering systems that reduce the effort required to turn the wheel, enhancing comfort and control. Furthermore, innovations such as adaptive steering systems can adjust the responsiveness of the steering device based on speed and driving conditions, providing a tailored experience for the driver.Safety is another important aspect of steering devices. Many vehicles are equipped with advanced driver-assistance systems (ADAS) that include features like lane-keeping assist and automatic steering correction. These systems utilize sensors and cameras to monitor the vehicle's position within the lane and make real-time adjustments to the steering device. Such technologies not only improve safety but also enhance the overall driving experience by reducing the cognitive load on the driver.In conclusion, the steering device is a vital component in various modes of transportation, enabling operators to navigate effectively and safely. From the simple steering wheel of a car to the complex systems found in aircraft, steering devices are designed to provide control and precision. As technology continues to advance, we can expect further improvements in steering devices, making them even more efficient and safer. Understanding the significance of these devices helps us appreciate the intricate design and engineering that goes into modern transportation systems.

在工程和设计的世界中，各种组件共同作用，以创造功能性和高效的系统。其中一个关键组件是转向装置，它在控制车辆和机械的方向方面发挥着重要作用。无论是汽车、船只还是飞机，转向装置确保操作员能够安全有效地导航。本文将探讨转向装置的重要性、其各种类型以及它如何促进不同车辆的整体性能。转向装置的主要功能是允许用户改变运动方向。例如，在汽车中，方向盘充当主要的转向装置。当驾驶员转动方向盘时，它会操控前轮的角度，使车辆能够向左或向右转弯。这一简单而有效的机制对于安全驾驶至关重要，尤其是在需要快速决策的城市环境中。转向装置的设计和响应能力可以显著影响驾驶体验，影响驾驶员操控车辆的难易程度。除了汽车，船只利用不同类型的转向装置。舵是一个常见的例子，通常由方向盘或舵柄控制。通过转动方向盘或移动舵柄，操作员调整舵的角度，从而引导水流对其施加力量。这一动作使船只朝着所需方向推进，展示了转向装置虽然设计各异，但服务于相同基本目的：引导运动。飞机也依赖复杂的转向装置来保持飞行中的控制。驾驶杆或控制杆作为飞行员的主要转向装置，使他们能够上下倾斜飞机的机头并向左或右倾斜。此外，飞机还配备了副翼、升降舵和方向舵，这些部件与驾驶杆协同工作，以提供精确的控制。这些转向装置的复杂性突显了航空中转向的重要性，在那里，安全和准确性至关重要。转向装置的演变受到技术进步的影响。现代车辆通常配备动力转向系统，减少了转动方向盘所需的力量，从而增强了舒适性和控制力。此外，自适应转向系统等创新可以根据速度和驾驶条件调整转向装置的响应性，为驾驶员提供量身定制的体验。安全性是转向装置的另一个重要方面。许多车辆配备了高级驾驶辅助系统（ADAS），包括车道保持辅助和自动转向校正等功能。这些系统利用传感器和摄像头监测车辆在车道内的位置，并实时调整转向装置。这样的技术不仅提高了安全性，还通过减轻驾驶员的认知负担，增强了整体驾驶体验。总之，转向装置是各种交通工具中的关键组件，使操作员能够有效且安全地导航。从汽车的简单方向盘到飞机中复杂的系统，转向装置旨在提供控制和精度。随着技术的不断进步，我们可以期待转向装置的进一步改进，使其更加高效和安全。理解这些装置的重要性有助于我们欣赏现代交通系统中复杂的设计和工程。