hinged support

简明释义

铰接式支座

英英释义

例句

1.The cabinet door was designed with a hinged support to provide easy access to the contents inside.

这个橱柜的门设计有一个铰链支撑，以便于访问内部物品。

2.The laptop stand includes a hinged support that allows for adjustable viewing angles.

这款笔记本电脑支架配有一个铰链支撑，可以调节观看角度。

3.During the presentation, the poster was held up by a hinged support for better visibility.

在演示过程中，海报通过一个铰链支撑被支撑起来，以提高可见性。

4.In woodworking, a hinged support can help hold a door in place while it swings open.

在木工中，铰链支撑可以帮助固定门的位置，使其能够打开。

5.The artist created a unique sculpture that features a hinged support for dynamic movement.

这位艺术家创作了一件独特的雕塑，具有动态移动的铰链支撑。

作文

In the world of engineering and design, the concept of support structures plays a crucial role in ensuring stability and functionality. One particularly interesting type of support is known as hinged support, which refers to a mechanism that allows for rotation around a fixed point while providing stability to a structure. This type of support is essential in various applications, from bridges to mechanical devices.To understand the significance of hinged support, we must first consider its basic function. A hinged support allows a structure to pivot or rotate, which can be crucial in scenarios where movement is required. For instance, in a bridge, the hinged support enables the bridge to flex under the weight of vehicles and environmental forces such as wind and earthquakes. This flexibility helps to prevent structural failure, making hinged supports an integral part of modern engineering.Moreover, the design of hinged support systems can vary greatly depending on their application. In mechanical engineering, for example, hinges are used in doors, gates, and machinery. These hinges allow parts to move freely while still being anchored to a fixed point, demonstrating how hinged support can enhance the functionality of everyday objects. The simplicity of this design belies its importance; without it, many mechanisms would be unable to operate efficiently.In architectural design, hinged support can also be seen in the construction of roofs and movable walls. Architects often incorporate hinged elements to create spaces that can adapt to different needs. For example, a retractable roof in a stadium utilizes hinged support to open and close, allowing the venue to be used for various events regardless of weather conditions. This adaptability showcases how hinged support can enhance user experience and functionality in architecture.Furthermore, the use of hinged support is not limited to large structures. In everyday life, we encounter numerous examples of this concept. Consider a folding chair, which relies on hinged support to collapse and expand easily. The hinge allows the chair to be portable and convenient, illustrating how this simple mechanism can significantly impact our daily lives.Despite its advantages, the use of hinged support also comes with challenges. Engineers must consider factors such as wear and tear, load distribution, and material durability when designing support systems. Over time, hinges can become loose or damaged, potentially compromising the stability of the supported structure. Therefore, regular maintenance and thoughtful design are essential to ensure the longevity and effectiveness of hinged support systems.In conclusion, hinged support is a fundamental concept in engineering and design that facilitates movement while providing stability. Its applications range from massive structures like bridges to everyday items like chairs. Understanding the role of hinged support allows us to appreciate the intricacies of design and the importance of stability in both functional and aesthetic aspects of our built environment. As technology continues to advance, the evolution of hinged support systems will undoubtedly play a pivotal role in shaping the future of engineering and architecture, making it a concept worth exploring and mastering.

在工程和设计的世界中，支撑结构的概念在确保稳定性和功能性方面发挥着至关重要的作用。一种特别有趣的支撑类型被称为铰链支撑，它指的是一种机制，允许围绕固定点旋转，同时为结构提供稳定性。这种类型的支撑在各种应用中都是必不可少的，从桥梁到机械设备。要理解铰链支撑的重要性，我们必须首先考虑它的基本功能。铰链支撑允许结构进行枢转或旋转，这在需要运动的场景中至关重要。例如，在一座桥上，铰链支撑使桥梁能在车辆和环境力量（如风和地震）的重压下弯曲。这种灵活性有助于防止结构失效，使铰链支撑成为现代工程的重要组成部分。此外，铰链支撑系统的设计可以根据其应用而大相径庭。在机械工程中，例如，铰链用于门、栅栏和机械设备。这些铰链允许部件自由移动，同时仍然固定在一个固定点上，展示了铰链支撑如何增强日常物品的功能性。这种设计的简单性掩盖了它的重要性；没有它，许多机制将无法高效运作。在建筑设计中，铰链支撑也可以在屋顶和可移动墙壁的构造中看到。建筑师经常将铰链元素纳入设计，以创造可以适应不同需求的空间。例如，体育场的可伸缩屋顶利用铰链支撑来开启和关闭，无论天气条件如何，该场馆都可以用于各种活动。这种适应性展示了铰链支撑如何提升建筑的用户体验和功能性。此外，铰链支撑的使用并不限于大型结构。在日常生活中，我们遇到无数此概念的例子。考虑一下折叠椅，它依赖于铰链支撑轻松折叠和展开。铰链使椅子便于携带和方便，说明了这一简单机制如何对我们的日常生活产生重大影响。尽管有其优势，铰链支撑的使用也面临挑战。工程师在设计支撑系统时必须考虑磨损、荷载分布和材料耐久性等因素。随着时间的推移，铰链可能会变松或损坏，可能会危及支撑结构的稳定性。因此，定期维护和深思熟虑的设计对于确保铰链支撑系统的持久性和有效性至关重要。总之，铰链支撑是工程和设计中的一个基本概念，它在提供稳定性的同时促进运动。它的应用范围从巨大的结构（如桥梁）到日常物品（如椅子）。理解铰链支撑的作用使我们能够欣赏设计的复杂性以及稳定性在我们建成环境的功能性和美学方面的重要性。随着技术的不断进步，铰链支撑系统的演变无疑将在塑造工程和建筑的未来中发挥关键作用，使其成为一个值得探索和掌握的概念。