power steering mechanism

简明释义

动力操舵装置

英英释义

例句

1.She was impressed by how responsive the power steering mechanism was during the test drive.

她对试驾时动力转向机制的响应速度印象深刻。

2.The new car model features an advanced power steering mechanism that enhances driving comfort.

这款新车型配备了先进的动力转向机制，提高了驾驶舒适性。

3.Regular maintenance of the power steering mechanism can prevent costly repairs down the line.

定期维护动力转向机制可以防止未来昂贵的维修费用。

4.If the power steering mechanism fails, you may find it difficult to steer the vehicle.

如果动力转向机制失效，你可能会发现很难操控车辆。

5.A malfunctioning power steering mechanism can lead to poor handling of the car.

故障的动力转向机制会导致汽车操控不佳。

作文

The advent of modern technology has revolutionized many aspects of our daily lives, and one of the most significant innovations in the automotive industry is the introduction of the power steering mechanism. This system has transformed the way we drive, making it easier and more comfortable to maneuver vehicles. In essence, the power steering mechanism is designed to assist the driver in steering the vehicle by reducing the amount of effort needed to turn the steering wheel. This is particularly beneficial in larger vehicles, where the physical strength required to steer can be considerable. Before the development of the power steering mechanism, drivers often struggled with heavy steering, especially at low speeds or when parking. The traditional steering systems relied solely on the mechanical connection between the steering wheel and the wheels, which could lead to a cumbersome driving experience. However, with the integration of hydraulic or electric assistance in the power steering mechanism, steering has become significantly lighter and more responsive.The hydraulic power steering mechanism utilizes fluid pressure to assist in steering. When the driver turns the steering wheel, a pump generates hydraulic pressure that helps move the steering gear. This system allows for smooth and effortless turning, making it easier to navigate tight corners and parking spaces. On the other hand, electric power steering mechanisms use an electric motor to provide assistance. This type of system is becoming increasingly popular due to its efficiency and the ability to adjust the level of assistance based on speed and driving conditions.One of the key advantages of the power steering mechanism is the enhanced safety it provides. With reduced effort required to steer, drivers can maintain better control over their vehicles, especially in emergency situations. This improvement in handling can be crucial when avoiding obstacles or making quick maneuvers. Additionally, the power steering mechanism contributes to overall driving comfort, allowing for longer journeys without the fatigue associated with manual steering.Moreover, the power steering mechanism has evolved over the years, incorporating advanced technologies such as variable ratio steering and lane-keeping assistance. These features further enhance the driving experience by providing more precise control and feedback to the driver. As vehicles continue to advance, the power steering mechanism will likely play a pivotal role in the development of autonomous driving technologies, where steering precision is paramount.In conclusion, the power steering mechanism represents a remarkable advancement in automotive engineering. It has not only made driving more accessible for individuals of all strengths and sizes but has also significantly improved safety and comfort on the road. As technology continues to evolve, the power steering mechanism will undoubtedly remain a fundamental component of modern vehicles, shaping the future of transportation. Understanding its function and benefits is essential for anyone looking to appreciate the intricacies of modern automotive design.

现代科技的出现彻底改变了我们日常生活的许多方面，其中汽车工业中最重要的创新之一就是引入了动力转向机制。这个系统改变了我们的驾驶方式，使得操控车辆变得更加轻松和舒适。基本上，动力转向机制旨在通过减少转动方向盘所需的努力来帮助驾驶员操纵车辆。这在大型车辆中尤为有益，因为操控这些车辆所需的体力可能相当可观。在开发动力转向机制之前，驾驶员常常在低速或停车时与沉重的转向系统作斗争。传统的转向系统完全依赖于方向盘与车轮之间的机械连接，这可能导致驾驶体验笨重。然而，通过将液压或电动辅助集成到动力转向机制中，转向变得显著更轻便和响应灵敏。液压动力转向机制利用流体压力来辅助转向。当驾驶员转动方向盘时，泵产生液压压力，帮助移动转向齿轮。该系统允许平稳且毫不费力的转向，使得在狭窄的拐角和停车位中导航变得更加容易。另一方面，电动动力转向机制使用电动机提供辅助。这种类型的系统因其高效性以及根据速度和驾驶条件调整辅助级别的能力而越来越受欢迎。动力转向机制的一个关键优势是它提供的增强安全性。由于转向所需的努力减少，驾驶员可以更好地控制车辆，尤其是在紧急情况下。这种操控的改善在避开障碍物或快速机动时至关重要。此外，动力转向机制还促进了整体驾驶舒适性，使得长途旅行不再伴随着手动转向带来的疲劳。此外，动力转向机制多年来不断发展，融入了诸如可变比率转向和车道保持辅助等先进技术。这些功能通过为驾驶员提供更精确的控制和反馈，进一步提升了驾驶体验。随着车辆的不断进步，动力转向机制无疑将在自动驾驶技术的发展中发挥关键作用，而转向的精确性至关重要。总之，动力转向机制代表了汽车工程的一项显著进步。它不仅使得各类力量和体型的个人都能更轻松地驾驶，而且显著提高了道路上的安全性和舒适性。随着科技的不断发展，动力转向机制无疑会继续作为现代车辆的基本组成部分，塑造交通运输的未来。理解其功能和优势对于任何希望欣赏现代汽车设计复杂性的人来说都是至关重要的。