auxiliary transmission

简明释义

副传动装瞒;

英英释义

例句

1.The new car model features an advanced auxiliary transmission that improves fuel efficiency.

这款新车型号配备了先进的辅助传动系统，提高了燃油效率。

2.The truck's auxiliary transmission allows it to operate efficiently in off-road conditions.

这辆卡车的辅助传动系统使其在越野条件下高效运作。

3.With an auxiliary transmission, the vehicle can switch between different power modes seamlessly.

通过辅助传动系统，车辆可以无缝切换不同的动力模式。

4.In heavy machinery, an auxiliary transmission can provide additional torque for lifting operations.

在重型机械中，辅助传动系统可以为起重操作提供额外的扭矩。

5.The auxiliary transmission helps distribute power evenly across all wheels for better traction.

该辅助传动系统有助于均匀分配所有车轮的动力，以获得更好的牵引力。

作文

In the world of automotive engineering, the term auxiliary transmission refers to a secondary transmission system that works in conjunction with the primary transmission of a vehicle. This system is designed to enhance the overall performance and efficiency of the vehicle, particularly in specialized applications such as off-road driving, towing, or heavy-duty work. The concept of auxiliary transmission is crucial for understanding how vehicles can adapt to various driving conditions and requirements.The primary function of an auxiliary transmission is to provide additional gear ratios that can be utilized when the standard transmission cannot meet the demands of the situation. For instance, when a vehicle is towing a heavy load, the standard gears may not offer enough torque to move the load efficiently. In this case, the auxiliary transmission can be engaged to provide lower gear ratios, allowing the engine to generate more power and torque, making it easier to pull the load without straining the engine.Moreover, auxiliary transmission systems are often found in trucks and larger vehicles that are designed for specific tasks. These systems allow drivers to switch between different modes that optimize performance based on the task at hand—whether it’s hauling materials, navigating rough terrain, or simply driving on highways. This versatility is one of the key advantages of having an auxiliary transmission in a vehicle.In addition to improving performance, auxiliary transmission systems can also contribute to fuel efficiency. By allowing the engine to operate at optimal RPMs, these systems can help reduce fuel consumption during demanding driving situations. For example, when driving uphill or in challenging conditions, the auxiliary transmission can keep the engine running more efficiently, which ultimately saves fuel.Furthermore, the implementation of auxiliary transmission technology has evolved significantly over the years. Modern vehicles may incorporate electronic controls that allow for seamless shifting between the primary and auxiliary systems. This technology enhances the driver’s experience by providing smooth transitions and reducing the likelihood of mechanical issues that can arise from manual shifting.In conclusion, the role of an auxiliary transmission in vehicle engineering cannot be overstated. It plays a vital role in enhancing performance, increasing efficiency, and providing adaptability in various driving conditions. As automotive technology continues to advance, the importance of auxiliary transmission systems will likely grow, offering even more innovative solutions for drivers and industries that rely on heavy-duty vehicles. Understanding this concept is essential for anyone interested in the mechanics of modern vehicles and their capabilities. Whether you are a professional in the automotive field or simply a car enthusiast, recognizing the significance of auxiliary transmission will deepen your appreciation for the complexities of vehicle design and functionality.

在汽车工程领域，短语辅助变速器指的是一种与车辆的主变速器协同工作的二级变速系统。该系统旨在增强车辆的整体性能和效率，特别是在越野驾驶、拖车或重型工作等专业应用中。理解辅助变速器的概念对于了解车辆如何适应各种驾驶条件和需求至关重要。辅助变速器的主要功能是提供额外的齿比，当标准变速器无法满足情况的要求时，可以利用这些齿比。例如，当一辆车拖着重物时，标准齿轮可能无法提供足够的扭矩来有效移动负载。在这种情况下，可以启用辅助变速器来提供较低的齿比，从而使发动机能够产生更多的动力和扭矩，使其更容易拉动负载，而不会对发动机造成过大压力。此外，辅助变速器系统通常出现在设计用于特定任务的卡车和大型车辆中。这些系统允许驾驶员在不同模式之间切换，以根据手头的任务优化性能——无论是运输材料、穿越崎岖地形，还是简单地在高速公路上行驶。这种多功能性是拥有辅助变速器的关键优势之一。除了提高性能之外，辅助变速器系统还可以促进燃油效率。通过使发动机在最佳转速下运行，这些系统可以帮助减少在苛刻驾驶情况下的燃油消耗。例如，在上坡或在艰难条件下驾驶时，辅助变速器可以使发动机更高效地运行，从而最终节省燃油。此外，辅助变速器技术的实施在过去几年中有了显著发展。现代车辆可能会采用电子控制，允许在主系统和辅助系统之间无缝切换。这项技术通过提供平稳的过渡并减少因手动换档可能出现的机械问题，提高了驾驶者的体验。总之，辅助变速器在车辆工程中的作用不可低估。它在增强性能、提高效率和在各种驾驶条件下提供适应性方面发挥着至关重要的作用。随着汽车技术的不断进步，辅助变速器系统的重要性可能会进一步增长，为依赖重型车辆的驾驶者和行业提供更多创新解决方案。理解这一概念对任何对现代车辆及其能力感兴趣的人来说都是至关重要的。无论您是汽车领域的专业人士还是单纯的汽车爱好者，认识到辅助变速器的重要性将加深您对车辆设计和功能复杂性的欣赏。