flying scaffold

简明释义

悬空脚手架

英英释义

例句

1.During the renovation, workers installed a flying scaffold to ensure safety while painting the facade.

在翻新期间，工人们安装了一个飞行脚手架以确保在粉刷外立面时的安全。

2.The construction team used a flying scaffold to reach the upper levels of the building efficiently.

施工队使用了一个飞行脚手架来高效地到达建筑的上层。

3.Safety regulations require that all workers on a flying scaffold wear harnesses at all times.

安全规定要求所有在飞行脚手架上的工人始终佩戴安全带。

4.Using a flying scaffold can significantly reduce the time needed for high-rise construction work.

使用飞行脚手架可以显著减少高层建筑施工所需的时间。

5.The flying scaffold allows for quick assembly and disassembly, making it ideal for temporary projects.

这个飞行脚手架允许快速组装和拆卸，非常适合临时项目。

作文

In the world of construction and architecture, safety and efficiency are paramount. One of the innovative solutions that has emerged in recent years is the use of a flying scaffold. This term refers to a temporary structure used to support workers and materials during the construction or repair of buildings, particularly when working at heights. The flying scaffold allows for greater flexibility and mobility on site, enabling workers to access hard-to-reach areas without the need for cumbersome ladders or traditional scaffolding systems. The concept of a flying scaffold is not just about convenience; it also enhances safety. Traditional scaffolding can be unstable and may require extensive setup time, which can lead to increased risks for workers. In contrast, a flying scaffold is designed to be lightweight yet robust, often made from advanced materials that ensure both strength and ease of handling. This innovation minimizes the time spent setting up and dismantling scaffolding, allowing workers to focus more on their tasks. Furthermore, the design of a flying scaffold often incorporates features that improve worker safety. For example, many systems come equipped with guardrails and non-slip surfaces, reducing the likelihood of accidents. The ability to adjust the height and positioning of the scaffold quickly also means that workers can operate at the optimal level for their tasks, further enhancing safety and productivity. The use of a flying scaffold is particularly beneficial in urban environments where space is limited and buildings are often surrounded by other structures. In such scenarios, traditional scaffolding can obstruct pedestrian traffic and create logistical challenges. The compact nature of a flying scaffold allows for work to be done efficiently without disrupting the surrounding area. This is especially important in cities where construction projects must adhere to strict regulations regarding noise and disruption. Moreover, the environmental impact of construction practices is becoming increasingly important. The flying scaffold can contribute to more sustainable building practices by reducing waste and the amount of material needed for scaffolding. With its modular design, components of a flying scaffold can often be reused across different projects, minimizing the need for new materials and reducing the carbon footprint of construction activities. In conclusion, the introduction of the flying scaffold represents a significant advancement in construction technology. By improving safety, efficiency, and sustainability, this innovative approach to scaffolding is transforming how we think about building and renovation projects. As the industry continues to evolve, it is likely that we will see even more developments in scaffolding technology, but the flying scaffold will undoubtedly remain a key player in the quest for safer and more efficient construction practices.

在建筑和建筑设计的世界中，安全和效率至关重要。近年来出现的创新解决方案之一是使用飞行脚手架。这个术语指的是一种临时结构，用于在建筑物的施工或修理过程中支撑工人和材料，特别是在高处作业时。飞行脚手架允许现场更大的灵活性和机动性，使工人能够在不需要笨重梯子或传统脚手架系统的情况下，访问难以到达的区域。飞行脚手架的概念不仅仅是为了方便；它还增强了安全性。传统脚手架可能不稳定，可能需要大量的搭建时间，这可能导致工人增加风险。相比之下，飞行脚手架设计为轻便而坚固，通常由先进材料制成，确保强度和易于处理。这种创新减少了搭建和拆除脚手架所花费的时间，使工人能够更加专注于他们的任务。此外，飞行脚手架的设计通常包含提高工人安全性的特点。例如，许多系统配备了护栏和防滑表面，减少事故发生的可能性。快速调整脚手架的高度和位置的能力也意味着工人可以在最佳水平上进行操作，进一步增强安全性和生产力。在城市环境中，飞行脚手架的使用尤其有益，因为空间有限，建筑物通常被其他结构包围。在这种情况下，传统脚手架可能会妨碍行人交通，并造成后勤挑战。飞行脚手架的紧凑性使工作能够高效完成，而不会干扰周围区域。这在城市中尤为重要，因为建筑项目必须遵循有关噪音和干扰的严格规定。此外，建筑实践对环境的影响变得越来越重要。飞行脚手架通过减少废物和所需脚手架材料的数量，有助于更可持续的建筑实践。凭借其模块化设计，飞行脚手架的组件通常可以在不同项目之间重复使用，从而最小化新材料的需求，减少建筑活动的碳足迹。总之，飞行脚手架的引入代表了建筑技术的重大进步。通过提高安全性、效率和可持续性，这种创新的脚手架方法正在改变我们对建筑和翻新项目的思考方式。随着行业的不断发展，我们可能会看到更多的脚手架技术发展，但飞行脚手架无疑将在追求更安全、更高效的建筑实践中继续发挥关键作用。