coupling link

简明释义

联结环

英英释义

例句

1.A malfunction in the coupling link can lead to significant performance issues in the system.

在系统中，联结链的故障可能导致显著的性能问题。

2.In our robotics project, we used a flexible coupling link to connect the motors to the wheels.

在我们的机器人项目中，我们使用了一个灵活的联结链将电机连接到轮子上。

3.The engineer replaced the broken coupling link to ensure proper functionality of the machine.

工程师更换了损坏的联结链以确保机器的正常运作。

4.The coupling link in this assembly is crucial for transmitting torque between components.

该组件中的联结链对在各部件之间传递扭矩至关重要。

5.We need to check the integrity of the coupling link before starting the operation.

我们需要在开始操作之前检查联结链的完整性。

作文

In the realm of engineering and mechanics, the term coupling link refers to a crucial component that connects two or more elements, allowing them to function together as a cohesive unit. This concept is not only fundamental in mechanical designs but also plays a significant role in various applications, from automotive engineering to robotics. Understanding the functionality and importance of the coupling link can enhance our comprehension of how systems operate effectively.A coupling link serves as a bridge between different parts of a machine or system. For instance, in an automobile, the engine and transmission are connected through a series of coupling links, which transmit power and motion. Without these links, the vehicle would be unable to operate efficiently, leading to performance issues or complete failure. Therefore, the design and material selection for these coupling links are critical, as they must withstand various forces and stresses during operation.Moreover, coupling links are not limited to mechanical systems; they are also prevalent in software engineering. In this context, a coupling link might refer to the way different modules or components of a software application interact with one another. A well-designed software architecture will have low coupling, meaning that the components are independent and can function without relying heavily on each other. This independence enhances maintainability and scalability, allowing developers to update or modify one part of the system without affecting the others.The significance of coupling links extends beyond mere connections; they embody the principles of synergy and collaboration in both mechanical and software systems. By facilitating interaction between distinct parts, coupling links enable systems to achieve greater functionality than the sum of their individual components. For instance, in a robotic arm, the coupling links between joints allow for complex movements and tasks that would be impossible if each joint operated independently.Furthermore, the study of coupling links can lead to innovations in design and technology. Engineers and developers continuously seek ways to optimize these links to improve efficiency, reduce wear and tear, and enhance overall performance. Research into advanced materials, such as composites or smart materials, can result in coupling links that are lighter, stronger, and more adaptable to changing conditions.In conclusion, the concept of the coupling link is integral to both mechanical and software systems. It represents the connections that allow different components to work together harmoniously. By understanding the role and importance of coupling links, we can appreciate the complexity and elegance of engineered systems. As technology continues to advance, the exploration and optimization of coupling links will remain a vital area of focus for engineers and developers alike, driving innovation and improving functionality across various fields.

在工程和机械领域，术语coupling link指的是一个重要的部件，它连接两个或多个元素，使它们能够作为一个统一体一起工作。这个概念不仅在机械设计中是基础性的，而且在汽车工程、机器人等各种应用中也发挥着重要作用。理解coupling link的功能和重要性可以增强我们对系统如何有效运作的理解。coupling link作为机器或系统不同部分之间的桥梁。例如，在汽车中，发动机和变速器通过一系列coupling links连接，这些链接传递动力和运动。如果没有这些链接，车辆将无法高效运作，导致性能问题或完全故障。因此，这些coupling links的设计和材料选择至关重要，因为它们必须承受操作过程中各种力量和压力。此外，coupling links并不限于机械系统；它们在软件工程中也很常见。在这种情况下，coupling link可能指的是软件应用程序不同模块或组件之间的交互方式。一个设计良好的软件架构将具有低耦合，意味着组件是独立的，可以在不严重依赖彼此的情况下运行。这种独立性增强了可维护性和可扩展性，使开发人员能够在不影响其他部分的情况下更新或修改系统的一部分。coupling links的重要性超越了单纯的连接；它们体现了机械和软件系统中的协同和合作原则。通过促进不同部分之间的互动，coupling links使系统能够实现比各个组件总和更大的功能。例如，在机器人手臂中，关节之间的coupling links允许进行复杂的运动和任务，这在每个关节独立操作的情况下是不可能的。此外，研究coupling links可以带来设计和技术上的创新。工程师和开发人员不断寻求优化这些链接的方法，以提高效率、减少磨损并增强整体性能。对先进材料（如复合材料或智能材料）的研究可以导致更轻、更强、更适应变化条件的coupling links。总之，coupling link的概念对于机械和软件系统都是不可或缺的。它代表了使不同组件能够和谐工作之间的连接。通过理解coupling links的角色和重要性，我们可以欣赏到工程系统的复杂性和优雅性。随着技术的不断进步，对coupling links的探索和优化将继续成为工程师和开发人员关注的重要领域，推动创新并提高各个领域的功能。