hinge armature

简明释义

枢轴衔铁

英英释义

例句

1.The engineer explained how the hinge armature contributes to the overall stability of the structure.

工程师解释了铰链支架如何有助于结构的整体稳定性。

2.Adjusting the tension on the hinge armature can improve the performance of the gate.

调整铰链支架的张力可以改善大门的性能。

3.The hinge armature in this model allows for a wider range of motion.

该模型中的铰链支架允许更大的运动范围。

4.In robotics, a hinge armature allows for flexible joint movement.

在机器人技术中，铰链支架允许灵活的关节运动。

5.The door's movement is smooth thanks to the well-designed hinge armature.

由于设计良好的铰链支架，门的移动非常顺畅。

作文

The concept of a hinge armature is essential in various fields, particularly in mechanics and engineering. A hinge armature refers to a structural component that serves as the pivot point for rotating parts, allowing them to move freely while maintaining stability. This mechanism is commonly found in doors, gates, and various machinery where controlled movement is required. Understanding how a hinge armature functions can provide insights into designing more efficient systems.One of the most common applications of a hinge armature is in the design of doors. When you open a door, the hinge armature allows it to swing smoothly on its axis. This simple yet effective mechanism demonstrates how a small component can significantly impact functionality. Without a properly designed hinge armature, doors would be difficult to operate, leading to frustration and inefficiency.In addition to doors, hinge armatures are also crucial in the world of robotics. Robots often require precise movements, and the hinge armature plays a vital role in enabling this. For instance, robotic arms utilize hinge armatures to achieve a range of motion that mimics human movement. By studying the mechanics of a hinge armature, engineers can create more complex and capable robots that can perform intricate tasks with accuracy.Moreover, the study of hinge armatures extends beyond mechanical applications. In architecture, understanding how to incorporate hinge armatures in designs can lead to innovative solutions for building structures that require movable elements. For example, in modern architecture, some buildings feature walls that can pivot or fold, thanks to advanced hinge armature systems. This flexibility allows for dynamic spaces that can adapt to different needs, showcasing the versatility of this mechanism.Furthermore, the materials used in constructing hinge armatures play a significant role in their performance. Engineers must consider factors such as strength, durability, and weight when selecting materials. Metals like steel and aluminum are commonly used due to their strength-to-weight ratios, while plastics may be chosen for lighter applications. The choice of material directly affects the efficiency and longevity of the hinge armature, making it a critical consideration in any design process.In conclusion, the hinge armature is a fundamental component that underpins many mechanical systems. Its ability to facilitate movement while providing stability is invaluable across various industries, including construction, robotics, and everyday objects like doors. By understanding the principles behind a hinge armature, we can continue to innovate and improve the designs that shape our world. Whether it’s enhancing the functionality of a simple door or creating advanced robotic systems, the significance of the hinge armature cannot be overstated, as it represents the intersection of design, engineering, and practical application.

“hinge armature”的概念在各个领域都至关重要，尤其是在机械和工程学中。“hinge armature”指的是一个结构组件，作为旋转部件的支点，允许它们自由移动，同时保持稳定。这个机制通常出现在门、栅栏和各种需要控制运动的机器中。理解“hinge armature”的功能可以为设计更高效的系统提供见解。“hinge armature”最常见的应用之一是在门的设计中。当你打开一扇门时，“hinge armature”允许它在其轴上平滑地摆动。这个简单而有效的机制展示了一个小组件如何对功能产生重大影响。如果没有适当设计的“hinge armature”，门的操作将变得困难，从而导致挫折和低效。除了门之外，“hinge armature”在机器人技术领域也至关重要。机器人通常需要精确的运动，而“hinge armature”在实现这一点中发挥着重要作用。例如，机器人手臂利用“hinge armature”来实现模仿人类运动的运动范围。通过研究“hinge armature”的机械原理，工程师可以创造出更复杂、更强大的机器人，能够以准确性执行精细任务。此外，对“hinge armature”的研究不仅限于机械应用。在建筑领域，理解如何在设计中融入“hinge armature”可以为需要可动元素的建筑结构提供创新解决方案。例如，在现代建筑中，一些建筑具有可以旋转或折叠的墙面，这要归功于先进的“hinge armature”系统。这种灵活性使得空间能够动态适应不同的需求，展示了这种机制的多功能性。此外，用于构建“hinge armature”的材料在其性能中起着重要作用。工程师在选择材料时必须考虑强度、耐用性和重量等因素。钢和铝等金属因其强度与重量比而被广泛使用，而塑料可能因较轻的应用而被选中。材料的选择直接影响“hinge armature”的效率和使用寿命，使其成为任何设计过程中的关键考虑因素。总之，“hinge armature”是许多机械系统的基本组成部分。它促进运动的能力，同时提供稳定性，在建筑、机器人和日常物品（如门）等各个行业中都是无价的。通过理解“hinge armature”背后的原理，我们可以继续创新和改善塑造我们世界的设计。无论是增强简单门的功能，还是创建先进的机器人系统，“hinge armature”的重要性都不可低估，因为它代表了设计、工程和实际应用之间的交汇点。