pivot suspension

简明释义

枢轴支承

英英释义

例句

1.The bicycle features a unique pivot suspension that absorbs shocks during rides.

这款自行车具有独特的支点悬挂，可以在骑行中吸收震动。

2.The off-road vehicle is equipped with a pivot suspension to handle rough terrains effectively.

这款越野车配备了支点悬挂，能够有效应对崎岖地形。

3.The engineer explained that the new design incorporates a pivot suspension system for improved stability.

工程师解释说，新设计采用了一个支点悬挂系统，以提高稳定性。

4.During the test drive, we noticed that the pivot suspension allowed for smoother cornering.

在试驾过程中，我们注意到支点悬挂使转弯更加平稳。

5.For our next project, we are considering a pivot suspension design to enhance performance.

在下一个项目中，我们考虑采用支点悬挂设计以提升性能。

作文

In the world of engineering and mechanics, the term pivot suspension refers to a specific type of suspension system that is designed to enhance the stability and maneuverability of vehicles. This system is crucial in various applications, particularly in automotive design, where maintaining control and comfort is paramount. The concept of pivot suspension involves a pivotal point around which the suspension components move, allowing for greater flexibility and adaptability to different driving conditions.The primary function of a pivot suspension system is to absorb shocks and impacts from the road, ensuring that the vehicle remains stable even on uneven surfaces. This is particularly important for off-road vehicles or those designed for rugged terrains. By utilizing a pivot point, the suspension can effectively distribute the weight of the vehicle, preventing excessive wear and tear on tires and other components.One of the main advantages of pivot suspension is its ability to improve handling. When a vehicle encounters a bump or dip, the suspension system allows the wheels to respond independently, maintaining contact with the ground. This independent movement enhances traction and stability, providing drivers with a smoother ride and better control over their vehicle. For instance, sports cars often incorporate sophisticated pivot suspension systems to optimize performance during high-speed maneuvers.Moreover, the design of pivot suspension can vary significantly depending on the intended use of the vehicle. In some cases, engineers may choose to implement a double wishbone setup, which provides a greater range of motion and allows for precise adjustments. In other scenarios, a simpler leaf spring system might be used for heavier vehicles that require more robust support. Regardless of the specific configuration, the underlying principle of pivot suspension remains the same: to enhance the vehicle's performance through effective shock absorption and weight distribution.In addition to improving vehicle dynamics, pivot suspension systems also play a crucial role in passenger comfort. A well-designed suspension system minimizes vibrations and jolts transmitted to the cabin, creating a more enjoyable driving experience. This is especially beneficial for long-distance travel, where driver fatigue can become a significant concern. By investing in advanced pivot suspension technology, manufacturers can ensure that their vehicles not only perform well but also provide a comfortable ride for passengers.As technology continues to advance, the future of pivot suspension systems looks promising. Innovations such as active suspension systems, which can adjust in real-time based on driving conditions, are becoming increasingly common. These systems utilize sensors and computer algorithms to optimize performance, further enhancing the benefits of traditional pivot suspension designs.In conclusion, understanding the concept of pivot suspension is essential for anyone interested in automotive engineering and vehicle performance. This innovative suspension system plays a vital role in enhancing stability, improving handling, and ensuring passenger comfort. As the industry evolves, we can expect to see even more advancements in pivot suspension technology, leading to safer and more efficient vehicles on the road. Whether you are an automotive enthusiast or simply a curious reader, recognizing the significance of pivot suspension can deepen your appreciation for the complexities of modern vehicle design.

在工程和机械的世界中，术语pivot suspension指的是一种特定类型的悬挂系统，旨在增强车辆的稳定性和机动性。该系统在各种应用中至关重要，特别是在汽车设计中，保持控制和舒适性是至关重要的。pivot suspension的概念涉及一个枢轴点，悬挂组件围绕该点移动，从而允许更大的灵活性和适应不同驾驶条件的能力。pivot suspension系统的主要功能是吸收来自道路的冲击和震动，确保车辆即使在不平坦的表面上也能保持稳定。这对于越野车辆或那些设计用于崎岖地形的车辆尤为重要。通过利用一个枢轴点，悬挂系统可以有效分配车辆的重量，防止轮胎和其他组件的过度磨损。pivot suspension的主要优点之一是其改善操控性的能力。当车辆遇到颠簸或凹陷时，悬挂系统允许车轮独立响应，保持与地面的接触。这种独立运动增强了牵引力和稳定性，为驾驶者提供了更平稳的驾驶体验和对车辆的更好控制。例如，跑车通常采用复杂的pivot suspension系统，以优化高速操控性能。此外，pivot suspension的设计可以根据车辆的预期用途有显著变化。在某些情况下，工程师可能选择实施双叉臂结构，这提供了更大的运动范围并允许精确调整。在其他情况下，可能会使用更简单的叶片弹簧系统来支持更重的车辆，这些车辆需要更强的支撑。无论具体配置如何，pivot suspension的基本原理始终相同：通过有效的冲击吸收和重量分配来增强车辆的性能。除了改善车辆动态外，pivot suspension系统在乘客舒适性方面也发挥着关键作用。设计良好的悬挂系统最小化传递到车舱的振动和颠簸，从而创造出更愉悦的驾驶体验。这对于长途旅行尤其有益，因为驾驶疲劳可能成为一个重大问题。通过投资于先进的pivot suspension技术，制造商可以确保他们的车辆不仅性能良好，而且为乘客提供舒适的乘坐体验。随着技术的不断进步，pivot suspension系统的未来看起来充满希望。主动悬挂系统等创新，能够根据驾驶条件实时调整，正变得越来越普遍。这些系统利用传感器和计算机算法来优化性能，进一步增强传统pivot suspension设计的优点。总之，理解pivot suspension的概念对于任何对汽车工程和车辆性能感兴趣的人来说都是必不可少的。这种创新的悬挂系统在增强稳定性、改善操控性和确保乘客舒适性方面发挥着至关重要的作用。随着行业的发展，我们可以期待看到更多在pivot suspension技术上的进步，从而使道路上的车辆更加安全和高效。无论你是汽车爱好者还是仅仅是一个好奇的读者，认识到pivot suspension的重要性可以加深你对现代车辆设计复杂性的理解。