line shaft

简明释义

动力轴

英英释义

例句

1.The engineers designed a new system to improve the efficiency of the line shaft drive.

工程师们设计了一个新系统，以提高动力轴驱动的效率。

2.When the line shaft broke down, production came to a halt until it was repaired.

当动力轴故障时，生产停滞，直到修复为止。

3.Each machine in the workshop is connected to the line shaft for power supply.

车间内的每台机器都连接到动力轴以供电。

4.In the old textile mill, the line shaft was crucial for operating the looms.

在旧纺织厂中，动力轴对操作织机至关重要。

5.The factory's machinery is powered by a central line shaft, which drives all the equipment efficiently.

工厂的机器由一个中央动力轴供电，能高效地驱动所有设备。

作文

The term line shaft refers to a long rotating shaft that transmits power from a central source to various machines or tools. Historically, line shafts were commonly used in factories during the Industrial Revolution, allowing multiple machines to operate simultaneously by sharing a single power source. This innovation significantly increased productivity and efficiency in manufacturing processes. In a typical setup, the line shaft would be connected to a steam engine or water wheel, which would generate rotary motion. This motion would then travel along the length of the shaft, with various pulleys and belts attached to it to drive individual machines. Each machine could then be powered without the need for its own separate engine, which not only saved space but also reduced costs. The design of the line shaft system allowed for flexibility in factory layouts. As production needs changed, manufacturers could easily add or remove machines from the system. For instance, if a factory needed to increase the output of a particular product, they could simply attach additional machines to the existing line shaft. This adaptability was crucial during times of rapid industrial growth, as it enabled businesses to scale their operations efficiently. However, despite its advantages, the line shaft system also had its drawbacks. The reliance on a central power source meant that if the line shaft experienced any mechanical failure, it could halt production for the entire factory. Additionally, the presence of moving belts and pulleys posed safety risks to workers, leading to injuries if proper precautions were not taken. With the advent of electric motors in the late 19th and early 20th centuries, the use of line shafts began to decline. Electric motors allowed for more localized power generation, meaning each machine could operate independently without relying on a central shaft. This shift not only improved safety but also allowed for more compact and efficient factory designs. Today, while line shafts are largely a relic of the past, their influence can still be seen in modern manufacturing systems. Many factories utilize similar principles of power distribution, albeit with advanced technology. For example, conveyor systems in warehouses often use centralized power sources to move products efficiently from one location to another, echoing the functionality of the line shaft systems of old. In conclusion, the line shaft was a revolutionary development in the world of manufacturing, playing a vital role in the rise of industrialization. Its ability to power multiple machines from a single source transformed production methods and set the stage for future innovations. Although technologies have evolved, the fundamental concepts behind the line shaft continue to inform modern engineering practices. Understanding the historical significance and operational mechanics of the line shaft provides valuable insights into the evolution of industrial technology and its impact on society.

术语line shaft指的是一种长旋转轴，用于将动力从中央源传输到各种机器或工具。历史上，line shafts在工业革命期间被广泛用于工厂，使得多台机器能够同时运作，共享单一的动力源。这一创新显著提高了制造过程的生产力和效率。在典型的设置中，line shaft会连接到蒸汽机或水轮，产生旋转运动。这种运动沿着轴的长度传播，附加在其上的各种滑轮和皮带驱动各个机器。每台机器都可以在不需要自己独立发动机的情况下获得动力，这不仅节省了空间，还降低了成本。line shaft系统的设计允许工厂布局的灵活性。随着生产需求的变化，制造商可以轻松地在系统中添加或移除机器。例如，如果工厂需要增加某种产品的产量，他们可以简单地将额外的机器连接到现有的line shaft上。这种适应性在快速工业增长时期至关重要，因为它使企业能够高效地扩大运营。然而，尽管有其优点，line shaft系统也有其缺点。依赖中央动力源意味着如果line shaft发生任何机械故障，可能会导致整个工厂的生产停滞。此外，移动的皮带和滑轮的存在对工人构成安全风险，如果没有采取适当的预防措施，可能会导致受伤。随着19世纪末和20世纪初电动机的出现，line shafts的使用开始减少。电动机允许更为本地化的动力生成，意味着每台机器可以独立运作，而不必依赖中央轴。这一转变不仅提高了安全性，还允许更紧凑和高效的工厂设计。今天，尽管line shafts在很大程度上已成为过去的遗物，但它们的影响仍然可以在现代制造系统中看到。许多工厂利用类似的动力分配原则，尽管使用了先进的技术。例如，仓库中的传送系统通常使用集中动力源来高效地将产品从一个地点移动到另一个地点，回响着旧时line shaft系统的功能。总之，line shaft是制造业中的一项革命性发展，在工业化的兴起中发挥了重要作用。它能够通过单一源为多台机器供电，改变了生产方式，并为未来的创新奠定了基础。尽管技术已经发展，但line shaft背后的基本概念仍然影响着现代工程实践。理解line shaft的历史意义和操作机制为我们提供了关于工业技术演变及其对社会影响的宝贵见解。