joint hinge

简明释义

接合铰链

英英释义

例句

1.He adjusted the joint hinge 关节铰链 to make the cabinet doors close smoothly.

他调整了关节铰链 joint hinge，使柜门能够顺利关闭。

2.To ensure safety, the joint hinge 关节铰链 on the gate must be regularly inspected.

为了确保安全，栅栏上的关节铰链 joint hinge 必须定期检查。

3.The furniture designer used a joint hinge 关节铰链 to create a foldable table.

家具设计师使用了一个关节铰链 joint hinge 来制作可折叠的桌子。

4.In robotics, a joint hinge 关节铰链 allows for flexible movement of robotic arms.

在机器人技术中，关节铰链 joint hinge 允许机器人手臂灵活运动。

5.The door was stuck because the joint hinge 关节铰链 was rusted and needed lubrication.

门卡住了，因为关节铰链 joint hinge 生锈了，需要润滑。

作文

In the field of mechanical engineering, understanding the components that allow for movement and flexibility is crucial. One such component is the joint hinge, which plays a vital role in various machines and structures. A joint hinge is essentially a pivot point that connects two parts, allowing them to rotate relative to each other. This mechanism is not only fundamental to the design of doors and gates but also to more complex systems such as robotics and automotive engineering.The functionality of a joint hinge can be observed in everyday objects. For example, consider the door of your home. The hinges that hold the door in place are joint hinges that permit the door to swing open and closed while remaining securely attached to the door frame. This simple yet effective design showcases how joint hinges facilitate movement while maintaining structural integrity.Moreover, the applications of joint hinges extend beyond just doors. In robotics, joint hinges are used to create articulated arms that can mimic human movement. These robotic arms rely on joint hinges to achieve a range of motion similar to that of a human hand, enabling tasks like picking up objects or performing delicate operations. The precision and flexibility offered by joint hinges make them indispensable in the field of automation and robotics.In addition to their practical applications, joint hinges also serve as an interesting topic of study in engineering education. Students learn about the physics behind hinges, including concepts such as torque and angular momentum. By experimenting with different types of joint hinges, students can gain insights into how these components affect the overall performance of a mechanical system. This hands-on experience is invaluable for aspiring engineers who will one day design their own systems requiring efficient and effective movement.Furthermore, the design of a joint hinge can vary significantly depending on its intended use. For instance, heavy-duty applications may require robust hinges made from durable materials, while lighter applications might utilize smaller, more delicate hinges. Engineers must consider factors such as load capacity, material properties, and environmental conditions when selecting or designing a joint hinge for a specific application.In conclusion, the joint hinge is a fundamental component in both everyday objects and advanced machinery. Its ability to facilitate movement while providing stability makes it an essential part of many designs. As technology continues to advance, the importance of joint hinges will only grow, particularly in fields like robotics and automation. Understanding the mechanics and applications of joint hinges is crucial for anyone interested in engineering, as it lays the groundwork for innovative designs and solutions in the future.

在机械工程领域，理解允许运动和灵活性的组件至关重要。其中一个组件是关节铰链，它在各种机器和结构中发挥着重要作用。关节铰链本质上是连接两个部分的支点，允许它们相对旋转。这个机制不仅是门和栅栏设计的基础，而且对于更复杂的系统，如机器人和汽车工程，也是如此。关节铰链的功能可以在日常物品中观察到。例如，考虑一下你家里的门。支撑门的铰链是关节铰链，它允许门在保持安全固定在门框上的同时，开合。这种简单而有效的设计展示了关节铰链如何促进运动，同时保持结构完整性。此外，关节铰链的应用超越了门。在机器人技术中，关节铰链用于创建可以模拟人类运动的关节臂。这些机器人臂依靠关节铰链实现类似于人手的运动范围，使其能够完成拾取物体或执行精细操作等任务。关节铰链提供的精确性和灵活性使它们在自动化和机器人领域不可或缺。除了它们的实际应用外，关节铰链在工程教育中也是一个有趣的研究主题。学生们学习铰链背后的物理学，包括扭矩和角动量等概念。通过实验不同类型的关节铰链，学生们可以深入了解这些组件如何影响机械系统的整体性能。这种实践经验对于未来将设计自己需要高效和有效运动的系统的工程师来说是无价的。此外，关节铰链的设计可能会根据其预期用途而有显著不同。例如，重载应用可能需要由耐用材料制成的坚固铰链，而轻型应用可能会利用较小的、更精致的铰链。工程师在选择或设计特定应用的关节铰链时，必须考虑负载能力、材料特性和环境条件等因素。总之，关节铰链是日常物品和先进机械中的基本组件。它促进运动的能力，同时提供稳定性，使其成为许多设计的核心部分。随着技术的不断进步，关节铰链的重要性只会增加，特别是在机器人和自动化等领域。理解关节铰链的机械原理和应用对于任何对工程感兴趣的人来说都是至关重要的，因为这为未来的创新设计和解决方案奠定了基础。