line shaft

简明释义

中间轴天轴

英英释义

例句

1.The factory was equipped with a powerful line shaft to drive multiple machines simultaneously.

工厂配备了一条强大的动力轴，可以同时驱动多台机器。

2.The line shaft system allowed for easy maintenance of the entire workshop.

这个动力轴系统使整个车间的维护变得简单。

3.A malfunctioning line shaft can lead to significant downtime in production.

故障的动力轴会导致生产中出现显著的停机时间。

4.In the old textile mill, the line shaft was essential for providing power to the looms.

在旧纺织厂中，动力轴对为织机提供动力至关重要。

5.The engineers decided to replace the worn-out line shaft to improve efficiency.

工程师们决定更换磨损的动力轴以提高效率。

作文

The concept of a line shaft refers to a long, rotating shaft used to transmit power from a central source to multiple machines or devices. This system was particularly popular during the Industrial Revolution, where factories relied heavily on this technology to streamline production processes. The line shaft would typically be powered by a steam engine or an electric motor, and it would run along the length of the factory floor, connecting various machines through belts and pulleys. Understanding the function of a line shaft is crucial when studying the evolution of industrial machinery. Before the advent of electric motors, factories needed an efficient way to distribute power across different workstations. The line shaft system allowed for a centralized power source, which could drive numerous machines simultaneously. This not only improved efficiency but also reduced the need for individual engines for each machine, which were expensive and took up valuable space. One of the key advantages of using a line shaft is its ability to provide a consistent and reliable source of power. As long as the central engine was running, the line shaft could keep all connected machines operational. This reliability was essential for maintaining production schedules and meeting demand. However, it also meant that if there was a failure in the line shaft or the central power source, it could halt the entire production line. The design of the line shaft system has evolved over time. In earlier designs, the shafts were often made of wood, but as technology advanced, metal shafts became the standard. These metal shafts were more durable and could withstand higher speeds and loads. Moreover, the use of bearings and pulleys improved the efficiency of power transmission, reducing energy losses that were common in older systems. Despite the many benefits, the line shaft system had its drawbacks. Maintenance was a significant concern, as the continuous operation of the system required regular inspections and repairs. Dust and debris from the factory environment could accumulate on the shafts and bearings, leading to wear and tear. Additionally, the complexity of the system meant that any malfunction could be difficult to diagnose and fix. As technology progressed, the use of line shafts began to decline with the introduction of electric motors. These motors provided a more flexible solution, allowing machines to operate independently without being tethered to a central power source. This shift marked a significant change in manufacturing practices, paving the way for modern production techniques that prioritize automation and efficiency. In conclusion, the line shaft played a pivotal role in the development of industrial machinery and factory operations. While it has largely been replaced by more advanced technologies, understanding its historical significance helps us appreciate the innovations that have shaped modern manufacturing. The line shaft exemplifies the ingenuity of early engineers who sought to optimize power distribution and improve productivity in an era of rapid industrial growth.

‘line shaft’（传动轴）的概念指的是一种长的旋转轴，用于将动力从中央源传输到多个机器或设备。这个系统在工业革命期间特别流行，当时工厂在很大程度上依赖这种技术来简化生产过程。传动轴通常由蒸汽机或电动机驱动，并沿着工厂车间的长度运行，通过皮带和滑轮连接各种机器。理解‘line shaft’的功能对于研究工业机械的发展至关重要。在电动机出现之前，工厂需要一种有效的方法来分配动力到不同的工作站。‘line shaft’系统允许集中供电，这可以同时驱动许多机器。这不仅提高了效率，还减少了每台机器都需要单独发动机的需求，而这些发动机既昂贵又占用宝贵的空间。使用‘line shaft’的一个关键优势是它能够提供一致可靠的动力来源。只要中央发动机在运行，‘line shaft’就可以保持所有连接机器的运转。这种可靠性对于维持生产进度和满足需求至关重要。然而，这也意味着如果‘line shaft’或中央动力源出现故障，可能会停止整个生产线。‘line shaft’系统的设计随着时间的推移而发展。在早期设计中，传动轴通常是木制的，但随着技术的进步，金属传动轴成为标准。这些金属传动轴更耐用，可以承受更高的速度和负载。此外，使用轴承和滑轮提高了动力传输的效率，减少了旧系统中常见的能量损失。尽管有很多好处，‘line shaft’系统也有其缺点。维护是一个重要的问题，因为系统的持续运行需要定期检查和维修。来自工厂环境的灰尘和碎屑可能会在轴和轴承上积聚，导致磨损。此外，系统的复杂性意味着任何故障都可能难以诊断和修复。随着技术的发展，随着电动机的引入，‘line shaft’的使用开始下降。这些电动机提供了更灵活的解决方案，使机器能够独立运行，而无需与中央动力源相连。这一转变标志着制造实践的重大变化，为现代生产技术铺平了道路，现代生产技术优先考虑自动化和效率。总之，‘line shaft’在工业机械和工厂操作的发展中发挥了关键作用。尽管它在很大程度上被更先进的技术所取代，但理解其历史意义有助于我们欣赏塑造现代制造的创新。‘line shaft’体现了早期工程师的聪明才智，他们试图优化动力分配并提高在快速工业增长时代的生产力。