traction rope

简明释义

牵引索

英英释义

例句

1.The dog sled team used a durable traction rope to connect the sled to the dogs.

狗拉雪橇队使用了一根耐用的牵引绳将雪橇与狗连接起来。

2.The construction workers relied on a traction rope to lift heavy materials to the upper floors.

建筑工人依靠一根牵引绳将重型材料提升到上层。

3.The climbers secured the load with a strong traction rope to prevent it from sliding down the hill.

登山者用一根强韧的牵引绳固定了货物，以防它滑下山坡。

4.To ensure safety while boating, always have a traction rope ready in case someone falls overboard.

为了确保划船时的安全，始终准备好一根牵引绳以防有人落水。

5.During the rescue operation, the team used a traction rope to pull the stranded hiker to safety.

在救援行动中，团队使用了一根牵引绳将被困的徒步旅行者拉到安全地带。

作文

In the world of engineering and machinery, various components play crucial roles in ensuring the efficiency and effectiveness of operations. One such component is the traction rope, which is essential in many applications, especially in lifting and transportation systems. A traction rope is a type of rope designed to transmit force through tension. It is commonly used in elevators, funiculars, and various types of cranes where heavy loads need to be moved vertically or horizontally. Understanding the function and significance of a traction rope can provide insights into its importance in modern technology.The primary function of a traction rope is to connect the load to the mechanism that moves it. In an elevator system, for example, the traction rope is attached to the elevator car and runs over a pulley system. When the motor turns the pulley, the traction rope pulls the elevator car up or lowers it down, depending on the direction of the motor's rotation. This simple yet effective mechanism allows for smooth and efficient movement, making it possible for people and goods to travel between different floors of a building with ease.Moreover, the material and construction of a traction rope are vital for its performance. Typically made from high-strength steel or synthetic fibers, these ropes are designed to withstand significant tension without breaking. The choice of material depends on the specific application and the weight of the loads being lifted. For instance, in mining operations, where heavy machinery and materials are frequently transported, a robust traction rope is necessary to ensure safety and reliability. The durability and strength of the traction rope directly affect the overall efficiency of the lifting system.In addition to elevators and cranes, traction ropes are also utilized in funicular railways, which are inclined railways that transport passengers or goods up steep slopes. The traction rope in this context connects two cars, creating a counterbalance system. As one car ascends, the other descends, allowing for efficient use of energy and reducing the strain on the system. This innovative use of the traction rope exemplifies how engineering principles can be applied to solve real-world transportation challenges.Furthermore, advancements in technology have led to the development of specialized traction ropes that enhance performance and safety. Innovations such as lightweight materials and improved manufacturing techniques have resulted in ropes that not only reduce the overall weight of the lifting systems but also increase their load capacity. These advancements are particularly important in urban environments, where space is limited and the demand for vertical transportation solutions continues to grow.In conclusion, the traction rope is a fundamental component in various lifting and transportation systems, playing a critical role in enabling efficient movement. Its ability to transmit force through tension makes it indispensable in elevators, cranes, and funiculars. As technology continues to evolve, the development of stronger and lighter traction ropes will further enhance the capabilities of these systems, paving the way for innovations in vertical transportation. Understanding the significance of the traction rope not only highlights its importance in engineering but also showcases the intricate design and functionality behind the machinery we often take for granted.

在工程和机械的世界中，各种组件在确保操作的效率和有效性方面发挥着至关重要的作用。其中一个组件是牵引绳，它在许多应用中都是必不可少的，尤其是在提升和运输系统中。牵引绳是一种旨在通过拉伸传递力量的绳索。它通常用于电梯、缆车和各种类型的起重机中，在这些设备中，重物需要垂直或水平移动。理解牵引绳的功能和重要性可以提供对其在现代技术中重要性的洞察。牵引绳的主要功能是将负载连接到移动它的机制。在电梯系统中，例如，牵引绳连接到电梯轿厢，并经过滑轮系统运行。当电动机转动滑轮时，牵引绳将电梯轿厢向上拉或向下放，具体取决于电动机旋转的方向。这种简单而有效的机制使得人们和货物能够轻松地在建筑物的不同楼层之间移动。此外，牵引绳的材料和结构对于其性能至关重要。通常由高强度钢或合成纤维制成，这些绳索旨在承受显著的张力而不断裂。材料的选择取决于具体的应用和所提升负载的重量。例如，在矿业作业中，重型机械和材料经常被运输，因此需要坚固的牵引绳以确保安全和可靠性。牵引绳的耐用性和强度直接影响提升系统的整体效率。除了电梯和起重机，牵引绳还用于缆车，这是一种倾斜的铁路，运输乘客或货物上陡坡。在这种情况下，牵引绳连接两辆车，形成一个平衡系统。当一辆车上升时，另一辆车下降，从而实现能量的高效利用，减轻系统的压力。这种对牵引绳的创新使用展示了工程原理如何应用于解决现实世界的运输挑战。此外，技术的进步导致了专门的牵引绳的发展，从而提高了性能和安全性。轻质材料和改进的制造技术等创新使得绳索不仅减少了提升系统的整体重量，还增加了其承载能力。这些进步在城市环境中尤为重要，因为空间有限，而对垂直运输解决方案的需求持续增长。总之，牵引绳是各种提升和运输系统中的基本组件，在实现高效运动方面发挥着关键作用。它通过张力传递力量的能力使其在电梯、起重机和缆车中不可或缺。随着技术的不断发展，更强大和轻便的牵引绳的发展将进一步增强这些系统的能力，为垂直运输的创新铺平道路。理解牵引绳的重要性不仅突显了其在工程中的重要性，还展示了我们常常视而不见的机械背后的复杂设计和功能。