raised and sunk system

简明释义

内外搭接式

英英释义

例句

1.The landscape designer recommended a raised and sunk system to create tiered gardens.

景观设计师建议使用升降系统来创建分层花园。

2.The new construction project utilizes a raised and sunk system to improve drainage efficiency.

这个新建设项目采用了升降系统以提高排水效率。

3.In the latest design, the architect implemented a raised and sunk system for better space utilization.

在最新的设计中，建筑师实施了一个升降系统以更好地利用空间。

4.The raised and sunk system allows for easier access to utilities located beneath the flooring.

这个升降系统便于访问位于地板下方的公用设施。

5.Using a raised and sunk system can help in reducing water pooling in outdoor areas.

使用升降系统可以减少户外区域的积水。

作文

The concept of a raised and sunk system is often used in various fields, such as engineering, architecture, and even in the design of urban spaces. This system refers to a method where certain elements are elevated or raised above a baseline level, while others are lowered or sunk below that same level. This duality creates a dynamic interplay between different components, enhancing both functionality and aesthetic appeal.In engineering, a raised and sunk system can be observed in the design of bridges and roadways. For instance, overpasses are constructed to raise the roadway above ground level, allowing for uninterrupted traffic flow beneath. Conversely, tunnels are an excellent example of elements that are sunk, providing pathways for vehicles or trains below the surface. This combination not only optimizes space but also improves safety by separating different types of traffic.In architecture, the raised and sunk system can be seen in the design of multi-level buildings. A building may have a raised entrance that leads to a lobby, while lower levels are designed for parking or storage. This approach allows for efficient use of land and creates visually interesting structures. The contrast between raised and sunk areas can also enhance the overall aesthetic of a building, making it more inviting and engaging for visitors.Urban planners have also adopted the raised and sunk system in the design of public parks and recreational areas. By creating hills or raised platforms, planners can provide scenic viewpoints and create spaces for community gatherings. At the same time, sunken gardens or amphitheaters can offer intimate settings for performances or relaxation. This thoughtful integration of raised and sunk elements encourages people to explore and engage with their surroundings, fostering a sense of community.Moreover, the raised and sunk system is not limited to physical structures; it can also be applied metaphorically in various aspects of life. For instance, in personal development, individuals often experience 'raised' moments of achievement and success, contrasted with 'sunk' moments of failure or setback. Recognizing this duality can help people appreciate their journey, understanding that both highs and lows contribute to growth and resilience.In conclusion, the raised and sunk system is a versatile concept that transcends disciplines. Whether in engineering, architecture, urban planning, or personal growth, the interplay between raised and sunk elements creates a balanced and dynamic environment. Embracing this system allows for innovative designs and meaningful experiences, ultimately enriching our lives and surroundings. As we continue to explore and understand this concept, we can apply its principles to create more functional, beautiful, and harmonious spaces in our world.

“升降系统”的概念常用于工程、建筑甚至城市空间设计等多个领域。该系统是指某些元素高于基准水平被抬高，而其他元素则低于该水平被沉下去。这种二元性在不同组件之间创造了动态的相互作用，增强了功能性和美学吸引力。在工程中，“升降系统”可以在桥梁和道路的设计中看到。例如，高架桥被建造以将道路抬高至地面以上，从而允许下面的交通流畅无阻。相反，隧道是一个很好的被沉下去的元素的例子，为车辆或火车提供了地下通道。这种组合不仅优化了空间，还通过分隔不同类型的交通提高了安全性。在建筑中，“升降系统”可以在多层建筑的设计中看到。一座建筑可能有一个抬高的入口，通向大堂，而较低的楼层则设计用于停车或存储。这种方法使土地的有效利用成为可能，并创造出视觉上有趣的结构。抬高和沉下区域之间的对比也可以增强建筑的整体美感，使其对访客更具吸引力和参与感。城市规划者也在公共公园和娱乐场所的设计中采用了“升降系统”。通过创建山丘或抬高的平台，规划者可以提供风景优美的观景点，并创造社区聚会的空间。同时，沉下的花园或露天剧场可以提供亲密的表演或放松场所。这种对抬高和沉下元素的深思熟虑的整合鼓励人们探索和与周围环境互动，培养社区意识。此外，“升降系统”不仅限于物理结构；它也可以在生活的各个方面隐喻地应用。例如，在个人发展中，个人经常经历“抬高”的成就和成功时刻，与“沉下”的失败或挫折时刻形成对比。认识到这种二元性可以帮助人们欣赏自己的旅程，理解高低起伏都对成长和韧性有贡献。总之，“升降系统”是一个跨越学科的多功能概念。无论是在工程、建筑、城市规划还是个人成长中，抬高和沉下元素之间的相互作用创造了平衡和动态的环境。接受这一系统可以实现创新设计和有意义的体验，最终丰富我们的生活和周围环境。随着我们继续探索和理解这一概念，我们可以运用其原则在我们的世界中创造出更具功能性、美感和和谐的空间。