electro-hydraulic steering gear

简明释义

电动液压舵机

英英释义

例句

1.The new model features an advanced electro-hydraulic steering gear 电液转向装置 that enhances driving precision.

新型号配备了先进的电液转向装置，electro-hydraulic steering gear，提高了驾驶精度。

2.During the test drive, the responsiveness of the electro-hydraulic steering gear 电液转向装置 impressed the engineers.

在试驾过程中，电液转向装置的electro-hydraulic steering gear反应速度令工程师们印象深刻。

3.Maintenance of the electro-hydraulic steering gear 电液转向装置 is crucial for optimal vehicle performance.

维护电液转向装置，electro-hydraulic steering gear对车辆性能至关重要。

4.Many modern vehicles now use electro-hydraulic steering gear 电液转向装置 for better fuel efficiency.

许多现代车辆现在使用电液转向装置，electro-hydraulic steering gear以提高燃油效率。

5.The electro-hydraulic steering gear 电液转向装置 allows for smoother handling in tight corners.

在紧急转弯时，电液转向装置，electro-hydraulic steering gear使操控更加平稳。

作文

In modern engineering, the development of steering systems has seen significant advancements, particularly with the introduction of the electro-hydraulic steering gear. This innovative technology combines the precision of electronic controls with the power of hydraulic systems, resulting in enhanced steering performance and improved vehicle handling. The electro-hydraulic steering gear operates by using electric motors to control hydraulic valves, which in turn manage the flow of hydraulic fluid to the steering mechanism. This allows for more responsive and adjustable steering, catering to a variety of driving conditions and preferences.One of the primary advantages of the electro-hydraulic steering gear is its ability to provide variable assistance based on the speed of the vehicle. At lower speeds, such as when parking or maneuvering in tight spaces, the system can offer greater assistance, making it easier for the driver to turn the steering wheel. Conversely, at higher speeds, the assistance is reduced, allowing for a more connected and stable driving experience. This adaptability not only enhances comfort but also contributes to overall safety by providing the driver with better control over the vehicle.Moreover, the integration of electronic components within the electro-hydraulic steering gear enables advanced features such as lane-keeping assist and adaptive steering. These systems utilize sensors and algorithms to monitor the vehicle's position and make real-time adjustments to the steering input, helping drivers maintain their intended path. Such innovations demonstrate how the electro-hydraulic steering gear is not just about mechanical efficiency but also about enhancing the driving experience through technology.Another important aspect to consider is the energy efficiency of the electro-hydraulic steering gear. Traditional hydraulic systems often rely on a constantly running pump, which can consume significant amounts of engine power. In contrast, the electro-hydraulic steering gear can operate on demand, meaning that the electric motor only engages when steering assistance is needed. This leads to reduced fuel consumption and lower emissions, aligning with the automotive industry's shift towards more sustainable practices.However, despite its many benefits, the electro-hydraulic steering gear does come with challenges. The complexity of integrating electronic and hydraulic systems can lead to higher manufacturing costs and potential reliability issues. Additionally, the need for electrical power means that any failure in the electrical system could impact the steering functionality. Manufacturers must therefore ensure rigorous testing and quality control to mitigate these risks.In conclusion, the electro-hydraulic steering gear represents a significant leap forward in steering technology, offering enhanced performance, adaptability, and energy efficiency. As vehicles continue to evolve towards greater automation and connectivity, the role of systems like the electro-hydraulic steering gear will be crucial in shaping the future of driving. Understanding this technology not only helps in appreciating modern vehicles but also highlights the importance of innovation in the automotive industry.

在现代工程中，转向系统的发展取得了显著的进步，特别是随着电液转向装置的引入。这项创新技术将电子控制的精确性与液压系统的强大结合在一起，从而提升了转向性能和改善了车辆操控性。电液转向装置通过使用电动机来控制液压阀，从而管理液压油流向转向机制。这使得转向更加灵敏和可调，能够适应各种驾驶条件和偏好。电液转向装置的主要优点之一是它能够根据车辆速度提供可变助力。在低速行驶时，例如停车或在狭小空间内操作，该系统可以提供更大的助力，使驾驶员更容易转动方向盘。相反，在高速行驶时，助力会减少，从而提供更紧密和稳定的驾驶体验。这种适应性不仅提高了舒适性，还通过为驾驶员提供更好的车辆控制而有助于整体安全性。此外，电液转向装置中电子元件的集成使得诸如车道保持辅助和自适应转向等高级功能成为可能。这些系统利用传感器和算法监测车辆的位置，并实时调整转向输入，帮助驾驶员保持预定路径。这些创新展示了电液转向装置不仅仅是关于机械效率，更是通过科技增强驾驶体验。另一个重要方面是电液转向装置的能效。传统液压系统通常依赖于持续运行的泵，这会消耗大量的发动机动力。相比之下，电液转向装置可以按需工作，这意味着电动机仅在需要转向助力时才会启动。这导致燃油消耗减少和排放降低，符合汽车工业向更可持续实践转型的趋势。然而，尽管有许多优点，电液转向装置也面临挑战。将电子和液压系统集成的复杂性可能导致更高的制造成本和潜在的可靠性问题。此外，电力的需求意味着任何电气系统的故障都可能影响转向功能。因此，制造商必须确保严格的测试和质量控制，以降低这些风险。总之，电液转向装置代表了转向技术的重要飞跃，提供了增强的性能、适应性和能效。随着车辆不断向更高的自动化和连接性发展，像电液转向装置这样的系统将在塑造未来驾驶中发挥至关重要的作用。理解这项技术不仅有助于欣赏现代车辆，也突显了汽车工业创新的重要性。