flying scaffold

简明释义

舷边作业吊架

英英释义

例句

1.Safety measures were enhanced when the crew utilized a flying scaffold on the high-rise.

当工作人员在高层建筑上使用飞行脚手架时，安全措施得到了加强。

2.Using a flying scaffold allowed us to complete the painting job much faster than expected.

使用飞行脚手架让我们比预期更快完成了油漆工作。

3.The architect designed the flying scaffold to provide better support for the workers during the project.

建筑师设计了这个飞行脚手架以便在项目期间为工人提供更好的支持。

4.During the renovation, the workers relied on a flying scaffold to safely access the roof.

在翻修期间，工人们依靠一个飞行脚手架安全地进入屋顶。

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

建筑团队使用了一个飞行脚手架来高效地到达建筑的上层。

作文

In the world of construction and architecture, the term flying scaffold refers to a temporary structure that provides support and access to workers during the building or renovation process. This innovative scaffolding system is designed to enhance safety and efficiency on job sites, allowing workers to reach high places without the need for cumbersome ladders or lifts. The concept of a flying scaffold has transformed the way construction projects are executed, especially in urban environments where space is limited and safety regulations are stringent.One of the primary advantages of using a flying scaffold is its ability to extend outwards from the building's facade, creating a platform that can accommodate multiple workers and their tools. This design not only maximizes the use of vertical space but also minimizes the footprint of the scaffolding on the ground. Consequently, it reduces the risk of accidents associated with traditional scaffolding methods, where workers may be exposed to falling debris or other hazards.Moreover, the flying scaffold is often equipped with safety features such as guardrails, non-slip surfaces, and harness attachment points. These enhancements are crucial in promoting a safe working environment, as they help prevent falls and other injuries that can occur at heights. By prioritizing worker safety, construction companies can reduce liability and insurance costs while fostering a culture of safety among their employees.In addition to safety, the flying scaffold also improves productivity on construction sites. With easy access to various levels of a building, workers can complete tasks more quickly and efficiently. For instance, painters, electricians, and masons can all work simultaneously on different sections of a building without having to wait for a traditional scaffold to be erected and dismantled. This streamlined approach not only saves time but also helps keep projects on schedule and within budget.The versatility of the flying scaffold makes it suitable for a wide range of construction applications. It can be used for residential buildings, commercial structures, and even historical restorations. In cases where a building's design poses challenges, such as intricate facades or unusual shapes, the flying scaffold can be customized to fit the specific requirements of the project. This adaptability ensures that construction teams can tackle even the most complex jobs with confidence.As technology continues to advance, the design and functionality of the flying scaffold will likely evolve as well. Innovations such as lightweight materials, modular components, and integrated safety systems are already being explored to make scaffolding even more efficient and user-friendly. Additionally, the integration of smart technology could lead to real-time monitoring of worker safety and structural integrity, further enhancing the effectiveness of this essential construction tool.In conclusion, the flying scaffold represents a significant advancement in construction practices, offering numerous benefits in terms of safety, efficiency, and versatility. As the industry continues to grow and adapt to new challenges, the importance of such innovative solutions will only become more pronounced. Embracing the use of flying scaffold systems can ultimately lead to safer job sites, faster project completion, and a more productive workforce, making it an invaluable asset in modern construction.

在建筑和建筑设计的世界中，术语飞行脚手架指的是一种临时结构，为工人在建筑或翻新过程中提供支撑和通道。这种创新的脚手架系统旨在提高工作现场的安全性和效率，使工人能够在不需要笨重梯子或升降机的情况下到达高处。飞行脚手架的概念改变了建筑项目的执行方式，特别是在空间有限且安全法规严格的城市环境中。使用飞行脚手架的主要优点之一是它能够向建筑物外立面延伸，创建一个可以容纳多个工人及其工具的平台。这种设计不仅最大限度地利用了垂直空间，还最小化了脚手架在地面上的占地面积。因此，它减少了与传统脚手架方法相关的事故风险，在传统方法中，工人可能会暴露于掉落的碎片或其他危险之中。此外，飞行脚手架通常配备有安全特性，例如护栏、防滑表面和安全带连接点。这些增强功能对于促进安全的工作环境至关重要，因为它们帮助防止在高处发生的跌落和其他伤害。通过优先考虑工人的安全，建筑公司可以降低责任和保险成本，同时在员工中培养安全文化。除了安全性，飞行脚手架还提高了建筑工地的生产率。由于易于到达建筑的各个层面，工人可以更快、更有效地完成任务。例如，油漆工、电工和砖匠可以同时在建筑的不同部分工作，而无需等待传统脚手架的搭建和拆除。这种精简的方法不仅节省了时间，还有助于保持项目按计划进行并控制预算。飞行脚手架的多功能性使其适用于广泛的建筑应用。它可以用于住宅建筑、商业结构甚至历史修复。在建筑设计面临挑战的情况下，例如复杂的外立面或不寻常的形状，飞行脚手架可以根据项目的具体要求进行定制。这种适应性确保建筑团队能够自信地处理即使是最复杂的工作。随着技术的不断进步，飞行脚手架的设计和功能也可能会不断发展。轻质材料、模块化组件和集成安全系统等创新已经被探索，以使脚手架更加高效和用户友好。此外，智能技术的整合可能导致对工人安全和结构完整性的实时监控，进一步增强这一基本建筑工具的有效性。总之，飞行脚手架代表了建筑实践的重要进步，在安全性、效率和多功能性方面提供了许多好处。随着行业继续发展和适应新挑战，这种创新解决方案的重要性只会变得更加明显。拥抱使用飞行脚手架系统最终可以导致更安全的工作场所、更快的项目完成以及更高效的劳动力，使其成为现代建筑中不可或缺的资产。