travelling bridge

简明释义

桥吊

英英释义

例句

1.The travelling bridge allows workers to access different parts of the factory without hindrance.

这座移动桥使工人能够无障碍地访问工厂的不同部分。

2.They installed a new travelling bridge to improve the efficiency of the loading process.

他们安装了一座新的移动桥以提高装载过程的效率。

3.In the warehouse, the travelling bridge helps in moving heavy loads from one side to another.

在仓库中，移动桥帮助将重物从一侧移动到另一侧。

4.The construction site uses a travelling bridge to transport materials across the area efficiently.

施工现场使用移动桥有效地运输材料。

5.During the maintenance work, the engineers inspected the travelling bridge for any signs of wear and tear.

在维护工作期间，工程师检查了移动桥是否有磨损的迹象。

作文

The concept of a travelling bridge is fascinating and multifaceted, representing not just a physical structure but also a symbol of connectivity and progress. A travelling bridge is typically used in construction and engineering, allowing for the movement of materials and machinery across a site. It is designed to span a gap, providing a safe passage for workers and equipment. This innovative design can be seen in various projects, from large-scale infrastructure developments to smaller construction sites. One of the primary advantages of a travelling bridge is its ability to enhance efficiency. In construction, time is often of the essence, and delays can lead to increased costs. By utilizing a travelling bridge, construction teams can transport materials quickly and safely, minimizing downtime and maximizing productivity. For instance, in a project involving the construction of a high-rise building, a travelling bridge can facilitate the movement of concrete, steel beams, and other essential materials directly to the floors where they are needed. This not only speeds up the construction process but also reduces the risk of accidents associated with transporting heavy loads via traditional methods.Moreover, a travelling bridge can be adapted to different environments and requirements. Its modular design allows it to be assembled and disassembled with relative ease, making it suitable for temporary projects or locations with challenging terrains. Engineers can customize the dimensions and load capacities of a travelling bridge to meet specific project needs, ensuring that it remains functional and safe throughout its use. This versatility is particularly valuable in remote areas where traditional transportation methods may be impractical or impossible.In addition to its practical applications, a travelling bridge can also serve as an educational tool. Schools and universities often incorporate engineering projects into their curricula, and constructing a model travelling bridge can provide students with hands-on experience in design, problem-solving, and teamwork. Through this process, students learn about the principles of physics, materials science, and engineering ethics, all while developing critical thinking skills that will benefit them in their future careers.Furthermore, the aesthetic aspect of a travelling bridge should not be overlooked. While functionality is paramount, the design of these structures can also contribute to the visual landscape of a project. Architects and engineers often collaborate to create bridges that are not only efficient but also visually appealing, integrating them into the surrounding environment. This attention to design can enhance the overall experience for those who work on or pass by the travelling bridge, creating a sense of pride and ownership in the project.In conclusion, the travelling bridge is more than just a practical solution for construction challenges; it embodies the spirit of innovation and collaboration in engineering. Its ability to improve efficiency, adapt to various environments, serve as an educational tool, and contribute to aesthetic values makes it an invaluable asset in modern construction. As we continue to advance in technology and design, the role of structures like the travelling bridge will undoubtedly expand, paving the way for even greater achievements in the field of engineering and beyond.

‘移动桥’的概念令人着迷且多面，代表的不仅是一个物理结构，更是连接与进步的象征。‘移动桥’通常用于建筑和工程，允许材料和机械在工地上移动。它被设计成跨越一个空隙，为工人和设备提供安全的通行。这种创新设计可以在各种项目中看到，从大型基础设施开发到较小的建筑工地。‘移动桥’的主要优点之一是提高效率。在建筑中，时间往往至关重要，延误可能导致成本增加。通过利用‘移动桥’，建筑团队可以快速、安全地运输材料，最小化停工时间，最大化生产力。例如，在高层建筑施工项目中，‘移动桥’可以将混凝土、钢梁和其他重要材料直接运输到需要的楼层。这不仅加快了施工过程，还减少了与传统运输重物方法相关的事故风险。此外，‘移动桥’可以适应不同的环境和需求。其模块化设计使其能够相对容易地组装和拆卸，非常适合临时项目或具有挑战性地形的位置。工程师可以根据特定项目需求定制‘移动桥’的尺寸和承载能力，确保在使用过程中保持功能性和安全性。这种多功能性在偏远地区尤其有价值，因为在这些地方，传统运输方法可能不切实际或不可能。除了实用应用外，‘移动桥’还可以作为教育工具。学校和大学通常将工程项目纳入其课程中，构建模型‘移动桥’可以为学生提供设计、解决问题和团队合作的实践经验。通过这个过程，学生学习物理学、材料科学和工程伦理的原则，同时培养对他们未来职业有益的批判性思维技能。此外，‘移动桥’的美学方面也不容忽视。虽然功能性至关重要，但这些结构的设计也可以为项目的视觉景观做出贡献。建筑师和工程师通常合作创建不仅高效而且视觉上吸引人的桥梁，将其融入周围环境。这种对设计的关注可以增强那些在‘移动桥’上工作或经过的人们的整体体验，创造一种自豪感和归属感。总之，‘移动桥’不仅是解决建筑难题的实用方案；它体现了工程创新与协作的精神。它提高效率、适应各种环境、作为教育工具以及对美学价值的贡献，使其成为现代建筑中不可或缺的资产。随着我们在技术和设计上的不断进步，像‘移动桥’这样的结构的角色无疑会扩大，为工程领域及更广泛领域的更大成就铺平道路。