indirect connected steering gear

简明释义

机械传动舵机

英英释义

例句

1.The technician explained that the vehicle uses an indirect connected steering gear to enhance maneuverability.

技术员解释说，这辆车使用间接连接的转向齿轮来增强机动性。

2.One advantage of an indirect connected steering gear is its ability to reduce feedback from the road.

一个间接连接的转向齿轮的优点是能够减少来自路面的反馈。

3.During the maintenance check, we found that the indirect connected steering gear needed lubrication.

在维护检查中，我们发现间接连接的转向齿轮需要润滑。

4.The design of the indirect connected steering gear allows for smoother turns at high speeds.

这种间接连接的转向齿轮的设计使得在高速时转弯更加平稳。

5.The engineers discussed the benefits of using an indirect connected steering gear in electric vehicles.

工程师们讨论了在电动车中使用间接连接的转向齿轮的好处。

作文

In the world of automotive engineering, the steering system plays a crucial role in the overall performance and safety of a vehicle. Among the various types of steering mechanisms, the indirect connected steering gear is particularly noteworthy. This system operates by linking the steering wheel to the wheels through a series of components that do not provide a direct connection. Instead, it uses intermediate elements that translate the driver’s input into movement. Understanding how this system works can help us appreciate its advantages and applications in modern vehicles.The indirect connected steering gear design allows for greater flexibility in the arrangement of components within the vehicle. For instance, in larger vehicles such as trucks or buses, space constraints often make it challenging to implement a direct steering system. By utilizing an indirect connection, engineers can optimize the layout while still ensuring effective steering response. This approach can also contribute to improved ergonomics, as the positioning of the steering wheel can be adjusted without compromising functionality.One of the primary benefits of the indirect connected steering gear is its ability to dampen vibrations and shocks that may be transmitted from the road to the steering wheel. When driving on rough terrain, direct steering systems can result in a jarring experience for the driver. However, with an indirect connection, the intermediate components can absorb some of these impacts, providing a smoother and more comfortable ride. This feature is especially important for long-haul drivers who spend extended periods behind the wheel.Moreover, the indirect connected steering gear can enhance the precision of steering control. The use of additional linkages and pivot points allows for finer adjustments, which can be particularly beneficial in situations requiring high levels of maneuverability, such as parking or navigating tight spaces. As a result, drivers may find it easier to execute complex maneuvers without the risk of oversteering or losing control.From a maintenance perspective, the indirect connected steering gear can also offer some advantages. With fewer direct connections, there may be less wear and tear on individual components, potentially leading to longer service intervals. Additionally, if a problem does arise, it may be easier to isolate and address specific parts of the system without needing to replace the entire steering mechanism.However, it is essential to recognize that the indirect connected steering gear is not without its challenges. One potential drawback is the increase in complexity compared to direct systems. More components mean more potential points of failure, which could complicate repairs and increase costs. Furthermore, the added weight of the additional linkages may affect overall vehicle performance, especially in high-performance applications where every ounce counts.In conclusion, the indirect connected steering gear represents a fascinating area of automotive technology that balances complexity with functionality. Its unique design offers several advantages, including improved comfort, enhanced control, and potentially lower maintenance needs. As vehicles continue to evolve with advancements in technology, understanding systems like the indirect connected steering gear will be essential for both engineers and consumers alike. By appreciating the intricacies of steering mechanisms, we can better understand the importance of safe and effective vehicle operation on the roads today.

在汽车工程的世界中，转向系统在车辆的整体性能和安全性中起着至关重要的作用。在各种类型的转向机制中，间接连接转向齿轮尤其值得注意。该系统通过一系列不提供直接连接的组件将方向盘与车轮连接起来。相反，它使用中间元件将驾驶员的输入转化为运动。理解这个系统的工作原理可以帮助我们欣赏它在现代车辆中的优势和应用。间接连接转向齿轮的设计允许在车辆内的组件布置上有更大的灵活性。例如，在大型车辆如卡车或公交车中，空间限制往往使得实施直接转向系统变得具有挑战性。通过利用间接连接，工程师可以优化布局，同时确保有效的转向响应。这种方法还可以改善人体工程学，因为方向盘的位置可以调整，而不会影响功能。间接连接转向齿轮的主要好处之一是能够减轻从路面传递到方向盘的振动和冲击。当在崎岖地形上行驶时，直接转向系统可能导致驾驶员的颠簸体验。然而，使用间接连接时，中间组件可以吸收一些这些冲击，从而提供更平稳、更舒适的驾驶体验。这个特性对于长途驾驶员尤为重要，他们在驾驶座上花费较长时间。此外，间接连接转向齿轮可以增强转向控制的精确性。使用额外的连杆和支点可以进行更精细的调整，这在需要高机动性的情况下尤其有利，例如停车或在狭小空间内导航。因此，驾驶员可能会发现执行复杂的机动操作更容易，而不会面临过度转向或失去控制的风险。从维护的角度来看，间接连接转向齿轮也可以提供一些优势。由于直接连接较少，单个组件的磨损可能较少，这可能导致更长的服务间隔。此外，如果出现问题，可能更容易隔离和处理系统的特定部分，而不需要更换整个转向机制。然而，必须认识到，间接连接转向齿轮并非没有挑战。一个潜在的缺点是与直接系统相比，复杂性增加。更多的组件意味着更多的潜在故障点，这可能使维修复杂化并增加成本。此外，额外连杆的重量增加可能会影响整体车辆性能，尤其是在高性能应用中，每一盎司都至关重要。总之，间接连接转向齿轮代表了汽车技术中一个迷人的领域，平衡了复杂性和功能性。其独特的设计提供了几项优势，包括提高舒适性、增强控制能力和潜在的降低维护需求。随着车辆在技术进步中不断发展，理解像间接连接转向齿轮这样的系统对工程师和消费者来说都将是必不可少的。通过欣赏转向机制的复杂性，我们可以更好地理解今天道路上安全有效的车辆操作的重要性。