sensitivity of steering machine

简明释义

舵机灵敏度

英英释义

例句

1.A malfunction in the sensitivity of steering machine can lead to serious driving issues.

转向机灵敏度的故障可能导致严重的驾驶问题。

2.Adjusting the sensitivity of steering machine can significantly improve vehicle handling.

调整转向机的灵敏度可以显著改善车辆操控性。

3.The sensitivity of steering machine is crucial for safe maneuvering in tight spaces.

在狭小空间内安全机动时，转向机的灵敏度至关重要。

4.High-performance cars often have a greater sensitivity of steering machine for enhanced control.

高性能汽车通常具有更高的转向机的灵敏度以增强控制力。

5.The engineers tested the sensitivity of steering machine to ensure it responds accurately to driver inputs.

工程师们测试了转向机的灵敏度以确保其准确响应驾驶员的输入。

作文

The modern automotive industry has witnessed remarkable advancements in technology, particularly in the design and functionality of steering systems. One crucial aspect that has garnered significant attention is the sensitivity of steering machine. This term refers to how responsive a steering mechanism is to the driver's input, which ultimately affects the vehicle's handling and maneuverability. In this essay, we will explore the importance of the sensitivity of steering machine in enhancing driving performance and safety.To begin with, the sensitivity of steering machine plays a vital role in ensuring that drivers have a seamless and enjoyable driving experience. A highly sensitive steering system allows for precise control, enabling drivers to make quick adjustments when navigating through tight corners or responding to sudden obstacles on the road. For instance, in high-speed situations, such as during racing or emergency maneuvers, the ability to steer accurately can be the difference between avoiding an accident and colliding with another vehicle or object. Thus, manufacturers strive to enhance the sensitivity of steering machine to improve overall vehicle performance.Moreover, the sensitivity of steering machine directly impacts the comfort level of passengers. When a vehicle’s steering is overly sensitive, it may lead to a jittery ride, making passengers feel uneasy. Conversely, if the steering is too stiff or unresponsive, it can cause frustration for the driver, leading to fatigue during long trips. Therefore, achieving the right balance in the sensitivity of steering machine is essential for ensuring a smooth and comfortable driving experience.In addition to performance and comfort, the sensitivity of steering machine also has implications for safety. Advanced steering systems often incorporate features such as lane-keeping assist and adaptive cruise control, which rely heavily on the sensitivity of the steering mechanism. These technologies require a precise understanding of the vehicle's position on the road and the driver's intentions. If the sensitivity of steering machine is not calibrated correctly, these safety features may malfunction, potentially leading to dangerous situations. Therefore, automotive engineers must prioritize the tuning of steering systems to ensure that they are both sensitive enough to respond to driver inputs and stable enough to maintain control during various driving conditions.Furthermore, the evolution of electric power steering (EPS) systems has revolutionized the way we think about the sensitivity of steering machine. Unlike traditional hydraulic systems, EPS offers greater flexibility in adjusting the steering sensitivity based on speed and driving conditions. For example, many modern vehicles feature variable ratio steering, where the sensitivity increases or decreases depending on the vehicle's speed. This innovation allows for better handling at high speeds while providing a more relaxed steering feel at lower speeds, showcasing the adaptability of the sensitivity of steering machine.In conclusion, the sensitivity of steering machine is a fundamental component that significantly influences driving performance, passenger comfort, and overall safety. As technology continues to evolve, the automotive industry must remain focused on refining and enhancing the sensitivity of steering systems to meet the demands of modern drivers. By doing so, manufacturers can ensure that their vehicles not only provide a thrilling driving experience but also prioritize the safety and comfort of all passengers.

现代汽车工业经历了技术的显著进步，特别是在转向系统的设计和功能方面。一个受到广泛关注的关键方面是转向机的灵敏度。这个术语指的是转向机制对驾驶员输入的响应程度，这最终影响了车辆的操控性和机动性。在本文中，我们将探讨转向机的灵敏度在提升驾驶性能和安全性方面的重要性。首先，转向机的灵敏度在确保驾驶员拥有无缝且愉悦的驾驶体验方面发挥着至关重要的作用。一个高度敏感的转向系统允许精确控制，使驾驶员能够在通过狭窄的弯道或对突发障碍物做出快速反应时进行快速调整。例如，在高速情况下，如赛车或紧急机动，准确转向的能力可能是避免事故和与其他车辆或物体相撞之间的区别。因此，制造商努力增强转向机的灵敏度以提高整体车辆性能。此外，转向机的灵敏度直接影响乘客的舒适度。当车辆的转向过于灵敏时，可能会导致颠簸的驾驶，使乘客感到不安。相反，如果转向过于僵硬或反应迟钝，可能会造成驾驶员的挫败感，从而在长途旅行中导致疲劳。因此，在转向机的灵敏度上达到正确的平衡对于确保顺畅和舒适的驾驶体验至关重要。除了性能和舒适性，转向机的灵敏度还对安全性有影响。先进的转向系统通常结合了车道保持辅助和自适应巡航控制等功能，这些功能在很大程度上依赖于转向机制的灵敏度。这些技术需要对车辆在道路上的位置和驾驶员的意图有精确的理解。如果转向机的灵敏度没有正确校准，这些安全功能可能会失效，从而可能导致危险情况。因此，汽车工程师必须优先考虑转向系统的调试，以确保它们既足够灵敏以响应驾驶员输入，又足够稳定以在各种驾驶条件下保持控制。此外，电动助力转向（EPS）系统的发展彻底改变了我们对转向机的灵敏度的看法。与传统的液压系统不同，EPS在根据速度和驾驶条件调整转向灵敏度方面提供了更大的灵活性。例如，许多现代车辆配备了可变比转向，转向的灵敏度根据车辆的速度增加或减少。这一创新使得在高速行驶时更好地操控，同时在低速时提供更放松的转向感受，展示了转向机的灵敏度的适应性。总之，转向机的灵敏度是一个根本组成部分，对驾驶性能、乘客舒适度和整体安全性有着显著影响。随着技术的不断发展，汽车工业必须继续专注于优化和增强转向系统的灵敏度，以满足现代驾驶员的需求。通过这样做，制造商可以确保他们的车辆不仅提供令人兴奋的驾驶体验，而且优先考虑所有乘客的安全和舒适。