turn bridge

简明释义

旋桥

英英释义

例句

1.During the festival, the turn bridge 旋转桥 was illuminated with colorful lights.

在节日期间，turn bridge 旋转桥被五彩斑斓的灯光照亮。

2.The city is known for its unique turn bridge 旋转桥, which is a popular tourist attraction.

这座城市因其独特的turn bridge 旋转桥而闻名，是一个受欢迎的旅游景点。

3.The construction team plans to build a new turn bridge 旋转桥 to improve traffic flow in the area.

施工团队计划建造一座新的turn bridge 旋转桥以改善该地区的交通流量。

4.We watched as the turn bridge 旋转桥 opened to allow the boats to pass through the canal.

我们看着turn bridge 旋转桥打开，让船只通过运河。

5.Engineers designed the turn bridge 旋转桥 to withstand strong winds and heavy traffic.

工程师设计了这座turn bridge 旋转桥，以承受强风和重型交通。

作文

In the world of engineering and architecture, the term turn bridge refers to a type of movable bridge that is designed to rotate around a pivot point to allow vessels to pass through. This innovative structure plays a crucial role in enhancing the accessibility of waterways while maintaining the flow of vehicular traffic on land. The functionality of a turn bridge is particularly significant in urban areas where space is limited and the demand for both road and waterway access is high.One of the most notable examples of a turn bridge is the Tower Bridge in London. This iconic structure not only serves as a functional crossing over the River Thames but also stands as a symbol of the city’s rich history and architectural prowess. The bridge features two towers connected by walkways, and its ability to lift allows large ships to navigate the river, showcasing the practical application of a turn bridge in real-world scenarios.The mechanics behind a turn bridge involve a complex system of gears and motors that enable the bridge to rotate smoothly. When a vessel approaches, signals are sent to the control center, which then activates the mechanism to turn the bridge. This process requires precise timing and coordination to ensure the safety of both the maritime and vehicular traffic. Engineers must consider various factors such as wind speed, weight distribution, and the size of incoming vessels when designing these bridges.Moreover, the construction of a turn bridge presents unique challenges. Engineers need to ensure that the bridge is not only functional but also durable and aesthetically pleasing. The materials used must withstand the stresses of rotation and the environmental conditions they face. Additionally, urban planners must integrate these structures into the existing landscape, considering both the visual impact and the logistical aspects of traffic flow.From a historical perspective, turn bridges have evolved significantly over the years. Early designs were often rudimentary and relied heavily on manual operation. However, advancements in technology have led to the development of automated systems that enhance efficiency and safety. Today, many cities are investing in modern turn bridges that incorporate smart technology, allowing for real-time monitoring and control.In conclusion, the turn bridge is an essential element of modern infrastructure, bridging the gap between land and water transportation. Its ability to facilitate the passage of boats while accommodating road traffic is a testament to human ingenuity in solving complex engineering challenges. As cities continue to grow and evolve, the importance of turn bridges will only increase, making them a vital component of our urban landscapes. Understanding the intricacies of this structure helps us appreciate the delicate balance between nature and human development, highlighting the need for innovative solutions in our ever-changing world.

在工程和建筑的世界中，术语turn bridge指的是一种可移动桥梁，旨在围绕一个支点旋转，以允许船只通过。这种创新结构在增强水路的可达性方面发挥着至关重要的作用，同时维护陆地交通的流动性。turn bridge的功能在城市地区尤为重要，因为空间有限，陆地和水路通行的需求很高。一个最著名的turn bridge例子是伦敦的塔桥。这座标志性结构不仅作为泰晤士河的交通交叉口，还作为城市丰富历史和建筑才能的象征。该桥由两个塔楼和连接步道组成，其升起的能力允许大型船只航行河流，展示了turn bridge在现实场景中的实际应用。turn bridge背后的机械原理涉及复杂的齿轮和电机系统，使桥梁能够平稳旋转。当船只接近时，信号会发送到控制中心，然后激活旋转桥的机制。这个过程需要精确的时间和协调，以确保海上和陆上交通的安全。工程师必须考虑风速、重量分布和来船大小等各种因素，在设计这些桥梁时。此外，建设turn bridge面临独特的挑战。工程师需要确保桥梁不仅功能齐全，而且耐用且美观。所使用的材料必须承受旋转的压力和它们所面临的环境条件。此外，城市规划者必须将这些结构整合到现有的景观中，考虑视觉影响和交通流动的后勤方面。从历史角度来看，turn bridges多年来经历了显著的发展。早期设计往往是简单的，并且严重依赖于手动操作。然而，技术的进步导致了自动化系统的发展，提高了效率和安全性。如今，许多城市正在投资现代turn bridges，这些桥梁结合了智能技术，允许实时监控和控制。总之，turn bridge是现代基础设施的重要组成部分，架起了陆地和水上交通之间的桥梁。它能够在容纳公路交通的同时促进船只的通行，证明了人类在解决复杂工程挑战方面的聪明才智。随着城市的不断发展和演变，turn bridges的重要性只会增加，使其成为我们城市景观中的重要组成部分。理解这种结构的复杂性有助于我们欣赏自然与人类发展的微妙平衡，突显出在我们不断变化的世界中创新解决方案的必要性。