hinged pillar

简明释义

铰接支柱

英英释义

例句

1.During the renovation, we replaced the old fixed columns with hinged pillars to improve accessibility.

在翻新过程中，我们用铰链支柱替换了旧的固定柱，以改善无障碍通行。

2.The architect designed a modern gazebo with a unique hinged pillar that allows for easy opening and closing.

建筑师设计了一个现代化的凉亭，配有一个独特的铰链支柱，便于开启和关闭。

3.In the new exhibition hall, the hinged pillar serves as both a support structure and an artistic element.

在新的展览大厅中，铰链支柱既作为支撑结构，又作为艺术元素。

4.The engineer explained how the hinged pillar could withstand strong winds while allowing flexibility.

工程师解释了如何使铰链支柱能够抵御强风，同时保持灵活性。

5.The theater's stage features a hinged pillar that can be adjusted for different performance setups.

剧院的舞台设有一个可以调节的铰链支柱，以适应不同的演出布置。

作文

In the realm of architecture and design, the concept of a hinged pillar is both fascinating and essential. A hinged pillar refers to a structural element that is not only supportive but also allows for movement at its base. This innovative design feature can be seen in various applications, from modern buildings to ancient temples. The idea behind a hinged pillar is to provide stability while accommodating the natural movements of the earth or the forces applied to the structure. One of the most significant advantages of using a hinged pillar is its ability to absorb shocks. In areas prone to earthquakes, for instance, traditional pillars may crack or collapse under stress. However, a hinged pillar can pivot slightly, redistributing the forces and minimizing damage. This flexibility is crucial for maintaining the integrity of a building during seismic events. As urban centers grow and populations increase, the need for resilient structures becomes paramount. Moreover, the aesthetic appeal of a hinged pillar cannot be overlooked. Architects often incorporate these elements into their designs to create visually striking spaces. The interplay between rigidity and flexibility can lead to innovative architectural forms that challenge conventional notions of strength and support. For example, a series of hinged pillars might be used in a large atrium, allowing for expansive open spaces that feel both airy and secure. Beyond aesthetics, the construction of a hinged pillar involves careful engineering and material selection. Engineers must consider the weight distribution, the materials' tensile strength, and the potential forces acting on the structure. Common materials used in the construction of hinged pillars include steel and reinforced concrete, chosen for their durability and ability to withstand various stresses. The use of hinged pillars is not limited to new constructions; they can also be retrofitted into existing buildings to enhance their resilience. This adaptability makes them an attractive option for upgrading older structures that may not meet modern safety standards. By integrating hinged pillars, engineers can extend the lifespan of a building while ensuring it remains safe for occupants. Furthermore, the concept of a hinged pillar can be metaphorically applied to various aspects of life. Just as a hinged pillar provides support while allowing for movement, individuals can learn to balance stability and flexibility in their personal and professional lives. Embracing change while maintaining core values can lead to growth and resilience. In conclusion, the hinged pillar is more than just a structural element; it embodies the principles of strength, adaptability, and innovation. As we continue to face challenges in architecture, engineering, and even our daily lives, the lessons learned from the design and function of a hinged pillar can inspire us to build a more resilient future. Whether in constructing buildings that withstand natural disasters or in navigating the complexities of life, the importance of balance and flexibility cannot be overstated.

在建筑和设计的领域中，‘hinged pillar’这个概念既迷人又至关重要。‘hinged pillar’指的是一种不仅支撑而且允许底部运动的结构元素。这种创新的设计特征可以在从现代建筑到古代寺庙的各种应用中看到。‘hinged pillar’背后的理念是提供稳定性，同时适应地球的自然运动或施加在结构上的力量。使用‘hinged pillar’的一个显著优势是其吸收冲击的能力。例如，在地震频发的地区，传统的柱子可能在压力下开裂或倒塌。然而，‘hinged pillar’可以稍微倾斜，重新分配力量，从而最小化损坏。这种灵活性对于在地震事件中保持建筑物的完整性至关重要。随着城市中心的扩展和人口的增加，对韧性结构的需求变得尤为重要。此外，‘hinged pillar’的美学吸引力也不可忽视。建筑师经常将这些元素纳入设计中，以创造视觉上引人注目的空间。刚性与灵活性之间的相互作用可以导致创新的建筑形式，挑战传统对强度和支撑的看法。例如，一系列的‘hinged pillars’可能被用在一个大型中庭中，允许广阔的开放空间，既感觉通透又安全。除了美学之外，‘hinged pillar’的构造涉及精心的工程设计和材料选择。工程师必须考虑重量分布、材料的抗拉强度以及作用于结构的潜在力量。用于构建‘hinged pillars’的常见材料包括钢和增强混凝土，因其耐用性和承受各种压力的能力而被选中。‘hinged pillars’的使用并不仅限于新建建筑；它们也可以被改装到现有建筑中，以增强其韧性。这种适应性使其成为升级不符合现代安全标准的老旧结构的一个吸引人的选择。通过整合‘hinged pillars’，工程师可以延长建筑的使用寿命，同时确保其对居住者的安全。此外，‘hinged pillar’的概念可以隐喻性地应用于生活的各个方面。正如‘hinged pillar’提供支持同时允许运动，个人也可以学习在个人和职业生活中平衡稳定性和灵活性。拥抱变化，同时保持核心价值观，可以带来成长和韧性。总之，‘hinged pillar’不仅仅是一个结构元素；它体现了力量、适应性和创新的原则。随着我们继续面对建筑、工程甚至日常生活中的挑战，从‘hinged pillar’的设计和功能中获得的教训可以激励我们建立一个更具韧性的未来。无论是在建造能够抵御自然灾害的建筑，还是在应对生活的复杂性时，平衡和灵活性的的重要性都不容小觑。