traction gear

简明释义

牵引装置

英英释义

例句

1.The new model of the tractor features advanced traction gear 牵引齿轮 for better performance in muddy fields.

这款新型拖拉机配备了先进的牵引齿轮 牵引齿轮，以便在泥泞的田地中表现更好。

2.During the maintenance check, the technician found that the traction gear 牵引齿轮 needed lubrication.

在维护检查中，技术员发现牵引齿轮 牵引齿轮 需要润滑。

3.The engineer explained how the traction gear 牵引齿轮 works to improve the efficiency of the train.

工程师解释了如何使牵引齿轮 牵引齿轮 提高火车的效率。

4.In winter, vehicles equipped with traction gear 牵引齿轮 can navigate icy roads more safely.

在冬季，配备有牵引齿轮 牵引齿轮 的车辆可以更安全地行驶在结冰的道路上。

5.To enhance climbing ability, the mountain bike was fitted with a special traction gear 牵引齿轮 system.

为了增强爬坡能力，这款山地自行车安装了特殊的牵引齿轮 牵引齿轮 系统。

作文

In the world of engineering and machinery, the term traction gear plays a crucial role in the functioning of various vehicles and equipment. This component is essential for transferring power from the engine to the wheels or tracks, enabling movement and control. Understanding the significance of traction gear can help us appreciate the complexity and efficiency of modern transportation systems.The primary function of traction gear is to provide the necessary grip and force required for a vehicle to move effectively. Without it, vehicles would struggle to gain momentum, especially on inclined surfaces or uneven terrain. For instance, consider a train that relies on traction gear to maintain its speed and stability while navigating through hilly landscapes. The design and material used in these gears are critical, as they must withstand considerable stress and friction during operation.Moreover, the concept of traction gear extends beyond just trains. In the automotive industry, cars utilize similar mechanisms to ensure that power is efficiently transmitted to the wheels. The differential gears in a car, which are a type of traction gear, allow for smooth turns and better handling by enabling the wheels to rotate at different speeds. This is particularly important when navigating corners, as it prevents skidding and enhances safety.In addition to traditional vehicles, traction gear is also found in various industrial applications. For example, construction machinery such as bulldozers and excavators employs robust traction gear systems to operate effectively on challenging job sites. These machines often encounter muddy, rocky, or steep environments where superior traction is essential for performance and safety. The design engineers must carefully consider the traction gear specifications to ensure that these heavy-duty machines can perform their tasks without getting stuck or losing power.Furthermore, the innovation surrounding traction gear continues to evolve with advancements in technology. Electric vehicles (EVs) are now incorporating sophisticated traction gear systems that optimize energy use and enhance driving experience. These systems often include regenerative braking, which recaptures energy during deceleration and redistributes it to improve overall efficiency. As the demand for sustainable transportation grows, the development of more efficient traction gear will be vital in reducing energy consumption and emissions.In conclusion, the importance of traction gear cannot be overstated. It is a fundamental component that enables various modes of transportation to operate smoothly and efficiently. From trains and cars to industrial machinery, the design and functionality of traction gear are integral to the performance and safety of these vehicles. As technology continues to advance, the evolution of traction gear will undoubtedly play a significant role in shaping the future of transportation and machinery, making it an area worth exploring for both engineers and enthusiasts alike.

在工程和机械的世界中，术语牵引齿轮在各种车辆和设备的功能中起着至关重要的作用。这个组件对于将动力从发动机传递到车轮或履带至关重要，使移动和控制成为可能。理解牵引齿轮的重要性可以帮助我们欣赏现代交通系统的复杂性和效率。牵引齿轮的主要功能是提供车辆有效移动所需的抓地力和力量。没有它，车辆在获得动力时会遇到困难，特别是在倾斜表面或不平坦的地形上。例如，考虑一下依赖于牵引齿轮在丘陵地形中保持速度和稳定性的火车。这些齿轮的设计和材料至关重要，因为它们必须承受操作过程中相当大的压力和摩擦。此外，牵引齿轮的概念不仅限于火车。在汽车工业中，汽车利用类似的机制确保动力有效地传递到车轮。汽车中的差速齿轮是一种牵引齿轮，它通过使车轮以不同速度旋转来确保平稳转弯和更好的操控。这在转弯时尤为重要，因为它可以防止打滑并增强安全性。除了传统车辆外，牵引齿轮还存在于各种工业应用中。例如，建筑机械如推土机和挖掘机在挑战性工地上有效运行时采用强大的牵引齿轮系统。这些机器经常面临泥泞、岩石或陡峭的环境，在这些环境中，卓越的牵引力对性能和安全至关重要。设计工程师必须仔细考虑牵引齿轮的规格，以确保这些重型机器能够在不被卡住或失去动力的情况下完成其任务。此外，围绕牵引齿轮的创新随着技术的进步而不断发展。电动汽车（EV）现在正在采用先进的牵引齿轮系统，以优化能源使用并增强驾驶体验。这些系统通常包括再生制动，它在减速期间回收能量并重新分配，以提高整体效率。随着对可持续交通的需求不断增长，更高效的牵引齿轮的发展在减少能源消耗和排放方面至关重要。总之，牵引齿轮的重要性不容小觑。它是使各种交通方式顺利高效运行的基本组成部分。从火车和汽车到工业机械，牵引齿轮的设计和功能对于这些车辆的性能和安全至关重要。随着技术的不断进步，牵引齿轮的演变无疑将在塑造未来交通和机械的过程中发挥重要作用，使其成为工程师和爱好者值得探索的领域。