joint coupling

简明释义

活节联节器

英英释义

例句

1.The joint coupling in the pipeline system prevents excessive vibrations during operation.

管道系统中的联合耦合防止了运行过程中过大的振动。

2.The engineers discussed the importance of joint coupling in the structural integrity of the bridge.

工程师们讨论了联合耦合在桥梁结构完整性中的重要性。

3.The joint coupling mechanism allows for better energy transfer between the two systems.

该联合耦合机制允许两个系统之间更好的能量传递。

4.During the experiment, we observed how joint coupling affects the overall performance of the machine.

在实验过程中，我们观察到联合耦合如何影响机器的整体性能。

5.In robotics, joint coupling is crucial for achieving smooth and coordinated movements.

在机器人技术中，关节耦合对于实现平滑和协调的动作至关重要。

作文

In the realm of engineering and mechanics, the term joint coupling refers to a method of connecting two or more components together in a way that allows for relative movement between them while maintaining a secure link. This concept is crucial in various applications, from machinery to robotics, where flexibility and strength are equally important. Understanding the principles behind joint coupling can significantly enhance the efficiency and functionality of mechanical systems.To illustrate the importance of joint coupling, consider the design of a robotic arm. Each segment of the arm must be able to move independently to perform complex tasks, such as picking up objects or assembling parts. The joints connecting these segments utilize joint coupling techniques to allow for smooth movement without compromising the stability of the entire structure. This balance between mobility and rigidity is essential for the robot to function effectively in its environment.Moreover, joint coupling is not limited to robotics; it plays a vital role in automotive engineering as well. In vehicles, different parts such as the engine, transmission, and wheels must work together seamlessly. Engineers employ joint coupling mechanisms to ensure that these components can transmit forces and motion efficiently while allowing for some degree of movement. For example, the suspension system in a car relies on joint coupling to absorb shocks and maintain comfort for passengers, demonstrating how this principle is applied in everyday technology.In addition to mechanical applications, joint coupling also finds relevance in fields like civil engineering and architecture. When constructing buildings or bridges, engineers must consider how different structural elements will interact under various loads and stresses. By using joint coupling methods, they can create designs that accommodate movement due to thermal expansion, ground shifts, or other environmental factors. This adaptability is crucial for ensuring the longevity and safety of structures.Furthermore, the concept of joint coupling extends beyond physical connections. In a broader sense, it can also refer to collaborative efforts in various disciplines. For instance, in project management, effective joint coupling between teams can lead to successful outcomes. When teams work together, sharing knowledge and resources, they create a synergy that enhances productivity and innovation. This idea of collaboration echoes the mechanical principle of joint coupling, where different parts come together to form a cohesive whole.In conclusion, the significance of joint coupling cannot be overstated, whether in mechanical systems, civil engineering, or collaborative projects. It embodies the principle of connectivity and adaptability, allowing for both independence and cooperation among components. As we continue to innovate and develop new technologies, understanding and applying the concept of joint coupling will remain essential for creating efficient, effective, and resilient systems. Through this lens, we can appreciate how interconnected our world truly is, where every joint and connection plays a pivotal role in the bigger picture.

在工程和机械领域，术语joint coupling指的是将两个或多个组件连接在一起的方法，这种方法允许它们之间相对运动，同时保持安全的连接。这个概念在各种应用中至关重要，从机械到机器人，在这些应用中，灵活性和强度同样重要。理解joint coupling背后的原理可以显著提高机械系统的效率和功能。为了说明joint coupling的重要性，考虑机器手臂的设计。手臂的每个部分必须能够独立移动，以执行复杂的任务，例如拾取物体或组装零件。连接这些部分的关节利用joint coupling技术，以允许平滑的运动而不妨碍整个结构的稳定性。这种运动与刚性的平衡对于机器人在其环境中有效运作至关重要。此外，joint coupling不仅限于机器人；它在汽车工程中也发挥着重要作用。在车辆中，不同的部件，如发动机、变速器和车轮，必须无缝协同工作。工程师采用joint coupling机制，以确保这些组件能够有效地传递力量和运动，同时允许一定程度的运动。例如，汽车的悬挂系统依赖于joint coupling来吸收冲击并为乘客保持舒适，展示了这一原理在日常技术中的应用。除了机械应用，joint coupling在土木工程和建筑等领域也具有相关性。在建造建筑物或桥梁时，工程师必须考虑不同结构元素在各种负载和应力下的相互作用。通过使用joint coupling方法，他们可以创建适应热膨胀、地面移动或其他环境因素导致的运动的设计。这种适应性对于确保结构的耐久性和安全性至关重要。此外，joint coupling的概念超越了物理连接。从更广泛的意义上讲，它也可以指各个学科中的合作努力。例如，在项目管理中，团队之间的有效joint coupling可以导致成功的结果。当团队共同工作，分享知识和资源时，他们创造了一种增强生产力和创新的协同效应。这种合作的理念呼应了机械的joint coupling原理，其中不同的部分结合在一起形成一个有机整体。总之，joint coupling的重要性不可低估，无论是在机械系统、土木工程还是协作项目中。它体现了连接性和适应性的原则，使组件之间既能独立又能合作。随着我们继续创新和开发新技术，理解和应用joint coupling的概念将始终是创造高效、有效和韧性系统的关键。通过这个视角，我们可以欣赏到我们的世界是多么相互关联，每一个关节和连接在更大的图景中都扮演着关键角色。