line shafting

简明释义

轴系

英英释义

例句

1.The efficiency of the production line improved significantly after upgrading the line shafting system.

在升级了线轴传动系统后，生产线的效率显著提高。

2.During the maintenance check, the technician inspected the line shafting for any signs of wear and tear.

在维护检查期间，技术员检查了线轴传动是否有磨损的迹象。

3.The factory uses a system of line shafting to power multiple machines from a single source.

这家工厂使用线轴传动系统从单一来源为多台机器提供动力。

4.In older mills, line shafting was commonly used to connect various equipment.

在老旧的工厂中，线轴传动通常用于连接各种设备。

5.Safety protocols must be followed when working near line shafting to prevent accidents.

在靠近线轴传动工作时，必须遵循安全协议以防止事故发生。

作文

The term line shafting refers to a system of rotating shafts used to transmit power from a central source to various machines and tools in a factory setting. Historically, this technology was prevalent during the Industrial Revolution, where factories relied heavily on mechanical power to operate their machinery. The concept of line shafting revolutionized manufacturing processes by allowing multiple machines to be powered by a single engine, thereby improving efficiency and productivity.In essence, line shafting consists of a long shaft that runs through the length of a factory, often suspended from the ceiling. This shaft is connected to a power source, such as a steam engine or a water wheel, which provides the necessary energy. Various pulleys and belts are attached to the line shafting, enabling it to transfer motion to different machines located throughout the facility. This setup not only streamlined operations but also reduced the need for individual motors for each machine, significantly lowering costs.One of the key advantages of line shafting is its ability to power several machines simultaneously. For instance, a single steam engine could drive dozens of lathes, drills, and other equipment, creating a centralized system that maximized the use of available power. Additionally, this system allowed for easy adjustments; if a new machine was added to the production line, it could simply be connected to the existing line shafting system without major alterations.However, despite its benefits, the use of line shafting also presented certain challenges. One significant issue was safety. The exposed belts and pulleys posed risks to workers, leading to accidents and injuries. As factories expanded and machinery became more complex, the limitations of line shafting became evident. Machines required precise control and could not always be efficiently powered through a shared shaft.As technology evolved, electric motors began to replace line shafting systems. Electric motors offered greater flexibility, safety, and efficiency. Each machine could be equipped with its own motor, allowing for independent operation and reducing the risk of accidents associated with moving parts. This shift marked the decline of line shafting in modern manufacturing, as businesses sought to improve worker safety and operational efficiency.Today, while line shafting is largely considered obsolete in most industrial applications, it remains an important part of engineering history. Many historical factories have preserved their line shafting systems as a testament to the ingenuity of early industrialists. Furthermore, the principles behind line shafting can still be seen in some specialized applications, such as in certain types of woodworking shops or in vintage machinery demonstrations.In conclusion, line shafting played a crucial role in the development of modern manufacturing. It enabled factories to operate more efficiently during a time when mechanical power was essential for production. While it has been largely replaced by more advanced technologies, understanding line shafting provides valuable insights into the evolution of industrial practices and the ongoing quest for improved efficiency and safety in the workplace.

术语line shafting指的是一种旋转轴系统，用于将动力从中央源传输到工厂环境中的各种机器和工具。历史上，这项技术在工业革命期间非常普遍，当时工厂在很大程度上依赖机械动力来操作其机械设备。line shafting的概念通过允许多台机器由单个发动机供电，从而彻底改变了制造过程，提高了效率和生产力。从本质上讲，line shafting由一根长轴组成，贯穿工厂的长度，通常悬挂在天花板上。该轴连接到一个动力源，例如蒸汽机或水轮，提供必要的能量。各种皮带和滑轮连接到line shafting上，使其能够将运动传递到设施内的不同机器。这种设置不仅简化了操作，还减少了每台机器所需的单独电动机，从而显著降低了成本。line shafting的一个主要优点是能够同时为多台机器供电。例如，单台蒸汽机可以驱动数十台车床、钻床和其他设备，创建一个集中系统，最大限度地利用可用动力。此外，该系统还允许进行简单的调整；如果生产线增加了一台新机器，只需将其连接到现有的line shafting系统，而无需进行重大改动。然而，尽管有其优势，line shafting的使用也带来了某些挑战。一个重大问题是安全性。暴露的皮带和滑轮对工人构成了风险，导致事故和伤害。随着工厂的扩展和机器变得更加复杂，line shafting的局限性变得明显。机器需要精确控制，并不总是能够通过共享轴高效供电。随着技术的发展，电动机开始取代line shafting系统。电动机提供了更大的灵活性、安全性和效率。每台机器都可以配备自己的电动机，从而实现独立操作，减少与运动部件相关的事故风险。这一转变标志着现代制造业中line shafting的衰退，因为企业寻求提高工人安全性和操作效率。今天，虽然line shafting在大多数工业应用中被认为是过时的，但它仍然是工程历史的重要组成部分。许多历史工厂保留了其line shafting系统，以证明早期工业家的智慧。此外，line shafting背后的原则在某些专业应用中仍然可以看到，例如在某些类型的木工车间或复古机械演示中。总之，line shafting在现代制造业的发展中发挥了至关重要的作用。它使工厂在机械动力对生产至关重要的时期能够更高效地运作。尽管它在很大程度上被更先进的技术所取代，但理解line shafting为我们提供了关于工业实践演变和在工作场所持续追求提高效率和安全性的宝贵见解。