maximum height of lifting

简明释义

最大升高度

英英释义

例句

1.Before operating the lift, ensure you know the maximum height of lifting 最大起重高度 specified in the manual.

在操作升降机之前，请确保您知道手册中规定的最大起重高度。

2.Safety regulations require that the maximum height of lifting 最大起重高度 not exceed 30 feet without proper training.

安全规定要求最大起重高度在没有适当培训的情况下不得超过30英尺。

3.The crane can reach a maximum height of lifting 最大起重高度 of 50 meters.

这台起重机可以达到50米的最大起重高度。

4.The engineer calculated the maximum height of lifting 最大起重高度 for the new construction project.

工程师为新建设项目计算了最大起重高度。

5.Our team needs to verify the maximum height of lifting 最大起重高度 before starting the operation.

我们的团队需要在开始操作之前验证最大起重高度。

作文

In the world of engineering and construction, understanding the concept of the maximum height of lifting is crucial for ensuring safety and efficiency. This term refers to the highest point that a load can be lifted by cranes or other lifting equipment. Knowing this limit is essential for various reasons, including compliance with safety regulations, optimizing workflow, and preventing accidents. Firstly, let's consider safety. The maximum height of lifting is determined by several factors, including the type of crane being used, its load capacity, and the surrounding environment. For example, if a crane is not designed to lift loads beyond a certain height, attempting to do so could lead to catastrophic failures, endangering both workers and nearby structures. Therefore, it is vital for operators to be well-versed in these specifications to ensure that they do not exceed the safe limits. Secondly, understanding the maximum height of lifting can significantly impact project timelines and costs. When planning a construction project, engineers must take into account the heights at which materials will be delivered and assembled. If the lifting equipment cannot reach a necessary height, alternative methods may need to be employed, which can delay progress and increase expenses. For instance, if a project requires heavy beams to be lifted onto a high-rise building, but the crane can only lift to a lower elevation, additional equipment such as scaffolding or smaller cranes might be needed, complicating the logistics of the project. Moreover, the maximum height of lifting also plays a role in the design phase of a construction project. Engineers and architects must collaborate to ensure that their designs are compatible with the lifting capabilities of the machinery available. This means that when designing a building, they must consider not just the overall height but also how materials will be moved into place. A failure to do so can lead to costly redesigns or even the abandonment of certain aspects of the project. In addition to construction, the concept of maximum height of lifting is also relevant in industries such as shipping and manufacturing. For example, in warehouses, forklifts and other lifting devices have specific maximum heights they can reach. Workers must be trained to understand these limits to avoid accidents and ensure the efficient movement of goods. Furthermore, advancements in technology have led to the development of new lifting equipment that can achieve greater heights with enhanced safety features. However, with these advancements comes the responsibility to continually assess and update training programs for operators. It is crucial that those who operate lifting equipment are aware of the maximum height of lifting associated with their machinery and understand the implications of exceeding these limits. In conclusion, the maximum height of lifting is a fundamental concept in various fields, particularly in construction and logistics. It is essential for safety, project efficiency, and proper planning. As technology continues to evolve, staying informed about these limits will help professionals make better decisions, ultimately leading to safer and more successful projects. Understanding the maximum height of lifting is not just about adhering to regulations; it is about fostering a culture of safety and efficiency in every aspect of work that involves lifting operations.

在工程和建筑的世界中，理解“最大提升高度”的概念对于确保安全和效率至关重要。这个术语指的是起重机或其他起重设备能提升负载的最高点。了解这一限制对遵守安全法规、优化工作流程和防止事故等多方面至关重要。首先，让我们考虑安全问题。“最大提升高度”是由多种因素决定的，包括所使用的起重机类型、其负载能力以及周围环境。例如，如果一台起重机不设计为提升超过某一高度的负载，试图这样做可能会导致灾难性的故障，危及工人和附近建筑物的安全。因此，操作人员必须熟知这些规格，以确保他们不会超过安全极限。其次，了解“最大提升高度”可以显著影响项目的时间表和成本。在规划建筑项目时，工程师必须考虑材料将被交付和组装的高度。如果起重设备无法达到必要的高度，可能需要采用替代方法，这可能会延误进度并增加开支。例如，如果一个项目需要将重型梁提升到高层建筑上，但起重机只能提升到较低的高度，可能需要额外的设备，如脚手架或小型起重机，从而使项目的后勤变得复杂。此外，“最大提升高度”在建筑项目的设计阶段也起着重要作用。工程师和建筑师必须合作，确保他们的设计与可用机械的起重能力兼容。这意味着在设计建筑时，他们不仅必须考虑整体高度，还必须考虑材料如何移动到位。如果未能做到这一点，可能会导致昂贵的重新设计，甚至放弃项目的某些方面。除了建筑，“最大提升高度”的概念在航运和制造等行业中也相关。例如，在仓库中，叉车和其他起重设备有特定的最大高度可以达到。工人必须接受培训，了解这些限制，以避免事故并确保货物的高效流动。此外，技术的进步导致了能够以更高的安全特性实现更大高度的新起重设备的发展。然而，随着这些进步，操作人员必须不断评估和更新培训项目。至关重要的是，操作起重设备的人要意识到与他们的机械相关的“最大提升高度”并理解超出这些限制的影响。总之，“最大提升高度”是在多个领域中的基本概念，尤其是在建筑和物流中。它对安全、项目效率和合理规划至关重要。随着技术的不断发展，了解这些限制将帮助专业人士做出更好的决策，最终导致更安全、更成功的项目。理解“最大提升高度”不仅仅是遵守法规；它是在涉及提升操作的工作各个方面培养安全和效率文化的关键。