electro-hydraulic steering gear

简明释义

电动液压操舵装置

英英释义

例句

1.The technician explained how the electro-hydraulic steering gear 电液助力转向系统 works with the vehicle's computer system.

技术人员解释了电液助力转向系统是如何与车辆计算机系统协同工作的。

2.The electro-hydraulic steering gear 电液助力转向系统 allows for precise maneuvering in tight spaces.

在狭小空间中，电液助力转向系统允许进行精确的操控。

3.The new model of the car features an advanced electro-hydraulic steering gear 电液助力转向系统 that improves handling and responsiveness.

这款新车型配备了先进的电液助力转向系统，电液助力转向系统提高了操控性和响应能力。

4.Maintenance of the electro-hydraulic steering gear 电液助力转向系统 is crucial for safety and performance.

对电液助力转向系统的维护对于安全和性能至关重要。

5.During the test drive, I noticed how smoothly the electro-hydraulic steering gear 电液助力转向系统 adjusted to my inputs.

在试驾过程中，我注意到电液助力转向系统对我的操作反应得非常顺畅。

作文

In the world of modern engineering, the development of steering mechanisms has significantly transformed the way vehicles operate. One of the most innovative advancements in this field is the electro-hydraulic steering gear. This technology combines the principles of hydraulics with electronic controls to create a steering system that is not only efficient but also enhances the overall driving experience. The electro-hydraulic steering gear uses hydraulic fluid to assist in steering, which reduces the amount of physical effort required by the driver. This is particularly beneficial in larger vehicles, where traditional mechanical systems might struggle to provide adequate feedback and responsiveness.The operation of an electro-hydraulic steering gear is quite fascinating. At its core, this system consists of an electric motor that drives a hydraulic pump. When the driver turns the steering wheel, sensors detect this movement and send signals to the electric motor. The motor then activates the hydraulic pump, which increases the pressure of the hydraulic fluid. This pressurized fluid is directed to the steering mechanism, allowing for smoother and more precise steering. The integration of electronic controls means that the system can adjust the level of assistance based on speed and driving conditions, providing a tailored experience for the driver.One of the primary advantages of using an electro-hydraulic steering gear is improved fuel efficiency. Traditional hydraulic systems rely on a continuously running pump, which can consume significant amounts of energy. In contrast, the electro-hydraulic steering gear only activates the pump when necessary, reducing the load on the engine and ultimately saving fuel. This makes it an environmentally friendly option, aligning with the growing demand for sustainable automotive technologies.Moreover, the electro-hydraulic steering gear contributes to enhanced safety features in modern vehicles. With advanced sensors and electronic controls, the system can provide real-time feedback to the driver, helping to prevent oversteering or understeering during critical driving situations. This level of precision is crucial, especially in high-performance vehicles where responsiveness is key. Additionally, the system can integrate with other safety technologies, such as lane-keeping assist and adaptive cruise control, further enhancing the overall safety of the vehicle.Despite these advantages, the implementation of electro-hydraulic steering gear is not without challenges. The complexity of the system requires careful calibration and maintenance to ensure optimal performance. If the electronic components fail, it can lead to steering difficulties that may compromise safety. Therefore, manufacturers must prioritize reliability and durability in their designs. Furthermore, the cost of incorporating such advanced technology can be higher than traditional systems, which may deter some consumers.In conclusion, the electro-hydraulic steering gear represents a significant leap forward in automotive engineering. By merging hydraulic power with electronic control, this system offers numerous benefits, including improved fuel efficiency, enhanced safety, and a better driving experience. As the automotive industry continues to evolve, we can expect to see further innovations in steering technology, making vehicles safer and more enjoyable to drive. Understanding the mechanics and advantages of the electro-hydraulic steering gear is essential for anyone interested in the future of transportation.

在现代工程的世界中，转向机制的发展显著改变了车辆的操作方式。其中最具创新性的进展之一是电液转向装置。这项技术将液压原理与电子控制相结合，创造出一种不仅高效而且增强整体驾驶体验的转向系统。电液转向装置利用液压油来辅助转向，从而减少驾驶员所需的体力。这对于大型车辆尤其有利，因为传统机械系统可能难以提供足够的反馈和响应。电液转向装置的操作非常吸引人。该系统的核心由一个电动机驱动液压泵。当驾驶员转动方向盘时，传感器会检测到这一动作并向电动机发送信号。电动机随后激活液压泵，增加液压油的压力。这种加压的液压油被引导到转向机制，允许更平滑、更精确的转向。电子控制的整合意味着系统可以根据速度和驾驶条件调整辅助级别，为驾驶员提供量身定制的体验。使用电液转向装置的主要优点之一是提高燃油效率。传统液压系统依赖于持续运行的泵，这可能消耗大量能量。相比之下，电液转向装置仅在必要时激活泵，减少了对发动机的负荷，从而最终节省燃油。这使其成为环保友好的选择，与日益增长的可持续汽车技术需求相一致。此外，电液转向装置还为现代车辆的安全特性做出了贡献。通过先进的传感器和电子控制，该系统能够向驾驶员提供实时反馈，帮助防止在关键驾驶情况下发生过度或不足转向。这种精确程度至关重要，特别是在高性能车辆中，响应能力是关键。此外，该系统可以与其他安全技术集成，例如车道保持辅助和自适应巡航控制，进一步增强车辆的整体安全性。尽管有这些优点，但实施电液转向装置并非没有挑战。系统的复杂性需要仔细校准和维护，以确保最佳性能。如果电子组件发生故障，可能会导致转向困难，从而危及安全。因此，制造商必须在设计中优先考虑可靠性和耐用性。此外，采用这种先进技术的成本可能高于传统系统，这可能会阻止一些消费者。总之，电液转向装置代表了汽车工程的重大飞跃。通过将液压动力与电子控制相结合，该系统提供了众多好处，包括提高燃油效率、增强安全性和更好的驾驶体验。随着汽车行业的不断发展，我们可以期待在转向技术方面看到更多创新，使车辆更加安全和愉悦。了解电液转向装置的机制和优点对于任何对交通未来感兴趣的人来说都是至关重要的。