line shafting
简明释义
轴系中间轴承
英英释义
例句
1.During the maintenance, we found that the line shafting was worn out and needed replacement.
在维护过程中,我们发现线轴传动磨损严重,需要更换。
2.Implementing line shafting in our workshop has significantly improved productivity.
在我们的车间实施线轴传动显著提高了生产力。
3.The engineer explained how line shafting works to new employees during the training session.
工程师在培训会上向新员工解释了线轴传动的工作原理。
4.We need to ensure that the line shafting is properly aligned to avoid mechanical failures.
我们需要确保线轴传动正确对齐,以避免机械故障。
5.The factory's machinery relies on line shafting to distribute power efficiently.
工厂的机器依赖于线轴传动来高效分配动力。
作文
The term line shafting refers to a system of rotating shafts that transmit power from a central source to various machines and tools in a manufacturing facility. This method was widely used during the Industrial Revolution, allowing factories to operate multiple machines simultaneously with a single power source. The concept of line shafting revolutionized the way industries functioned, as it provided an efficient means of distributing mechanical energy throughout a workspace.In a typical setup of line shafting, a large central shaft is connected to a steam engine or a water wheel, which serves as the primary power source. The central shaft runs through the factory, and at various points along its length, smaller belts or pulleys are attached. These belts connect the main shaft to individual machines, such as lathes, saws, and drills. As the central shaft rotates, it transfers motion to the belts, which in turn drive the connected machinery.One of the key advantages of line shafting was its ability to simplify the design of factories. Before its invention, each machine required its own separate power source, which was both inefficient and costly. By centralizing power distribution, factories could reduce the number of engines needed, thereby saving space and resources. Furthermore, this system allowed for greater flexibility in machine placement. Manufacturers could arrange their equipment in a way that maximized productivity without worrying about individual power sources.However, the line shafting system was not without its drawbacks. One significant issue was safety. The exposed belts and rotating shafts posed serious hazards to workers, leading to accidents and injuries. Additionally, if one part of the system failed, it could halt production across the entire factory. Over time, as technology advanced, electric motors became more prevalent, providing a safer and more efficient alternative to line shafting. Electric motors could be installed directly on machines, eliminating the need for a central power system and reducing the risk of accidents.Despite its decline in modern manufacturing, the legacy of line shafting can still be seen in some historical factories and museums. These remnants serve as a reminder of the ingenuity of early industrial engineers and the evolution of manufacturing processes. Understanding the principles behind line shafting allows us to appreciate the advancements in technology that have shaped the industry today.In conclusion, line shafting played a crucial role in the development of modern manufacturing by providing a centralized method of power distribution. While it has largely been replaced by safer and more efficient technologies, its impact on industrial practices remains significant. The study of line shafting not only highlights the innovations of the past but also encourages us to consider how far we have come in terms of workplace safety and efficiency.
“line shafting”一词指的是一种旋转轴系统,它将动力从一个中央源传输到制造设施中的各种机器和工具。这种方法在工业革命期间被广泛使用,使工厂能够同时运作多台机器,使用单一的动力源。“line shafting”的概念彻底改变了工业的运作方式,因为它提供了一种高效的方式来在工作空间内分配机械能。在典型的“line shafting”设置中,一个大型中央轴与蒸汽机或水轮连接,作为主要动力源。中央轴穿过工厂,在其长度的各个点上,连接着小型皮带或滑轮。这些皮带将主轴连接到单独的机器,如车床、锯子和钻床。当中央轴旋转时,它将运动传递给皮带,从而驱动连接的机械。“line shafting”的一个关键优势是它能够简化工厂的设计。在其发明之前,每台机器都需要自己的独立动力源,这既低效又昂贵。通过集中电力分配,工厂可以减少所需的发动机数量,从而节省空间和资源。此外,这种系统还允许机器布局的更大灵活性。制造商可以以最大化生产力的方式安排设备,而不必担心单独的动力源。然而,“line shafting”系统并非没有缺点。一个显著的问题是安全性。暴露的皮带和旋转的轴对工人构成严重的危险,导致事故和伤害。此外,如果系统中的某个部分发生故障,可能会导致整个工厂的生产停滞。随着时间的推移,随着技术的进步,电动机变得越来越普遍,提供了一种更安全、更高效的替代方案,取代了“line shafting”。电动机可以直接安装在机器上,消除了中央电力系统的需求,并减少了事故的风险。尽管在现代制造中逐渐衰退,但“line shafting”的遗产仍然可以在一些历史工厂和博物馆中看到。这些遗迹提醒我们早期工业工程师的聪明才智以及制造过程的演变。理解“line shafting”背后的原理使我们能够欣赏塑造当今工业的技术进步。总之,“line shafting”在现代制造的发展中发挥了至关重要的作用,提供了一种集中电力分配的方法。虽然它在很大程度上被更安全、更高效的技术所取代,但它对工业实践的影响仍然显著。对“line shafting”的研究不仅突显了过去的创新,还鼓励我们考虑在工作场所安全和效率方面我们已经取得的进步。
