hoisting engine

简明释义

吊重的机器

英英释义

例句

1.The hoisting engine can lift up to 10 tons, making it suitable for large construction projects.

这台起重机的承重能力可达10吨，适合大型建筑项目。

2.The hoisting engine in the factory is used to lift and position heavy machinery.

工厂中的起重机用于提升和定位重型机械。

3.The construction site relied heavily on the hoisting engine to lift heavy materials to the upper floors.

建筑工地在将重型材料提升到上层时严重依赖于起重机。

4.During the shipbuilding process, the hoisting engine was essential for moving large sections of the hull.

在造船过程中，起重机对于移动船体的大部分结构至关重要。

5.We need to ensure that the hoisting engine is properly maintained to avoid accidents.

我们需要确保起重机得到妥善维护，以避免事故发生。

作文

In the realm of engineering and heavy machinery, the term hoisting engine refers to a powerful machine designed specifically for lifting and moving heavy loads. These engines play a vital role in various industries, including construction, mining, and shipping. The functionality of a hoisting engine is crucial for tasks that require the elevation of materials to significant heights or the transportation of heavy items across distances. Understanding how a hoisting engine operates can provide insight into its importance in modern industry.A hoisting engine typically consists of several key components, including a motor, gears, drums, and cables. The motor provides the necessary power to lift the load, while the gears help to increase torque, allowing heavier items to be moved with ease. The drums are where the cables are wound, and they play a critical role in the lifting process. As the motor turns the drum, the cable unwinds or winds up, effectively raising or lowering the load attached to it.One of the most common applications of a hoisting engine is in construction sites, where cranes equipped with these engines are used to lift steel beams, concrete blocks, and other heavy materials. Without a hoisting engine, many construction projects would face significant delays and challenges, as manual lifting is often impractical for large and heavy items. Furthermore, the use of hoisting engines enhances safety on job sites by minimizing the risk of injury associated with manual labor.In the mining industry, hoisting engines are essential for transporting minerals from deep underground to the surface. The extraction of resources such as coal, gold, and copper relies heavily on these machines to efficiently move large quantities of material. The design of a hoisting engine used in mining is often more robust than those used in construction due to the harsh conditions and the weight of the loads being lifted.Shipping ports also benefit from hoisting engines, as they are used to load and unload containers from ships. The efficiency of port operations is significantly enhanced by the presence of these engines, which allow for quick turnaround times for vessels. This efficiency is crucial in today's global economy, where time is money, and delays can lead to substantial financial losses.Moreover, advancements in technology have led to the development of more sophisticated hoisting engines. Modern engines may incorporate automation and remote control systems, allowing for precise movements and increased safety. This technological evolution not only improves the efficiency of lifting operations but also reduces the likelihood of accidents and equipment failures.In conclusion, the hoisting engine is an indispensable component of various industries that rely on the movement of heavy loads. Its ability to lift and transport materials safely and efficiently has made it a cornerstone of modern engineering practices. As industries continue to evolve and demand for heavy lifting increases, the importance of hoisting engines will only grow. Understanding their mechanics and applications can help individuals appreciate the engineering marvels behind these powerful machines, which play a crucial role in shaping our built environment and supporting economic growth.

在工程和重型机械领域，术语hoisting engine指的是一种专门设计用于提升和移动重物的强大机器。这些引擎在建筑、采矿和航运等各个行业中发挥着至关重要的作用。hoisting engine的功能对于需要将材料升高到显著高度或在距离之间运输重物的任务至关重要。理解hoisting engine的工作原理可以提供对其在现代工业中重要性的深入了解。hoisting engine通常由几个关键组件组成，包括电动机、齿轮、鼓和电缆。电动机提供必要的动力来提升负载，而齿轮有助于增加扭矩，使得重物能够轻松移动。鼓是电缆缠绕的地方，在提升过程中起着关键作用。当电动机转动鼓时，电缆会展开或卷起，从而有效地提高或降低与其连接的负载。hoisting engine最常见的应用之一是在建筑工地，配备这些引擎的起重机用于提升钢梁、混凝土块和其他重型材料。如果没有hoisting engine，许多建筑项目将面临重大延误和挑战，因为手动搬运对于大型和重型物品往往是不切实际的。此外，使用hoisting engines增强了工地上的安全性，通过减少与体力劳动相关的受伤风险。在采矿行业，hoisting engines对于将矿物从地下深处运输到地面至关重要。煤、金和铜等资源的提取在很大程度上依赖于这些机器，以高效地移动大量材料。用于采矿的hoisting engine的设计通常比用于建筑的更加坚固，因为需要应对恶劣的条件和重物的重量。航运港口也受益于hoisting engines，因为它们用于装卸船只上的集装箱。港口运营的效率因这些引擎的存在而显著提高，使得船只能够快速周转。在当今全球经济中，这种效率至关重要，因为时间就是金钱，延误可能导致巨大的财务损失。此外，技术的进步导致了更复杂的hoisting engines的开发。现代引擎可能结合了自动化和远程控制系统，允许精确的运动并提高安全性。这种技术演变不仅提高了提升操作的效率，还减少了事故和设备故障的可能性。总之，hoisting engine是各种依赖重物移动的行业不可或缺的组成部分。它安全高效地提升和运输材料的能力使其成为现代工程实践的基石。随着行业的不断发展和重型提升需求的增加，hoisting engines的重要性只会增长。理解其机械原理和应用可以帮助人们欣赏这些强大机器背后的工程奇迹，它们在塑造我们的人造环境和支持经济增长方面发挥着至关重要的作用。