link coupling

简明释义

联杆接头

英英释义

例句

1.In our robotics project, we used a link coupling 连接耦合 to connect the motor to the wheel.

在我们的机器人项目中，我们使用了 link coupling 连接耦合 将电机连接到轮子上。

2.A faulty link coupling 连接耦合 can lead to significant operational issues in the assembly line.

故障的 link coupling 连接耦合 可能会导致生产线出现重大操作问题。

3.The engineer explained how the link coupling 连接耦合 helps in reducing vibrations in the machinery.

工程师解释了如何通过 link coupling 连接耦合 来减少机器中的振动。

4.The maintenance manual describes the procedure for adjusting the link coupling 连接耦合 to ensure optimal performance.

维护手册描述了调整 link coupling 连接耦合 的步骤，以确保最佳性能。

5.During the testing phase, we found that the link coupling 连接耦合 was too rigid, affecting the overall flexibility of the system.

在测试阶段，我们发现 link coupling 连接耦合 太过僵硬，影响了系统的整体灵活性。

作文

In the realm of engineering and technology, the concept of link coupling plays a crucial role in understanding how different components interact within a system. Essentially, link coupling refers to the way in which two or more elements are connected in such a manner that they can transmit forces or motion between each other. This principle is fundamental to many mechanical systems, where the performance and efficiency of the entire assembly depend on the strength and reliability of these connections. One common example of link coupling can be found in the design of machinery, where various parts must work together seamlessly to achieve a desired outcome. For instance, in an automobile, the engine, transmission, and wheels are all coupled through a series of links that allow for the transfer of power. If any of these links were to fail or become misaligned, the performance of the vehicle would be severely compromised. Therefore, understanding the principles of link coupling is essential for engineers who aim to create robust and efficient machines.Moreover, link coupling is not limited to mechanical systems; it also has applications in fields such as computer science and telecommunications. In these areas, link coupling can refer to the connections between different software modules or network devices. The effectiveness of communication between these entities often hinges on the quality of their coupling. For instance, in a distributed computing environment, if the link coupling between servers is weak, data transmission may be slow or unreliable, leading to poor system performance.Furthermore, the concept of link coupling can also extend to social systems. In sociology, it can describe the relationships and interactions between individuals or groups. Strong link coupling in social networks can lead to increased collaboration and support, while weak coupling may result in isolation and inefficiency. Understanding these dynamics can help organizations foster better teamwork and communication among their members.In conclusion, link coupling is a multifaceted concept that spans across various disciplines, from engineering to social sciences. Its significance lies in its ability to describe how components, whether mechanical, digital, or social, interact with one another. By grasping the principles of link coupling, professionals in any field can enhance the effectiveness and efficiency of their systems, ultimately leading to better outcomes and innovations. As technology continues to evolve, the importance of understanding and applying the principles of link coupling will only grow, making it an essential topic for study and application in the modern world.

在工程和技术领域，link coupling的概念在理解不同组件如何在系统中相互作用方面发挥着至关重要的作用。基本上，link coupling指的是两个或多个元素以能够传递力或运动的方式连接在一起的方式。这个原理是许多机械系统的基础，其中整个组件的性能和效率取决于这些连接的强度和可靠性。一个常见的例子是汽车设计中的link coupling，其中各种部件必须无缝协作以实现所需的结果。例如，在汽车中，发动机、变速器和车轮通过一系列链接连接在一起，以便传递动力。如果这些链接中的任何一个发生故障或失去对齐，车辆的性能将受到严重影响。因此，理解link coupling的原理对于旨在创造坚固高效机器的工程师来说至关重要。此外，link coupling不仅限于机械系统；它在计算机科学和电信等领域也有应用。在这些领域中，link coupling可以指不同软件模块或网络设备之间的连接。这些实体之间通信的有效性往往取决于它们耦合的质量。例如，在分布式计算环境中，如果服务器之间的链接耦合较弱，数据传输可能会缓慢或不可靠，从而导致系统性能差。此外，link coupling的概念还可以扩展到社会系统。在社会学中，它可以描述个人或群体之间的关系和互动。社会网络中强的link coupling可以导致更高的合作和支持，而弱的耦合可能导致孤立和低效。理解这些动态可以帮助组织促进其成员之间更好的团队合作和沟通。总之，link coupling是一个跨越多个学科的多面向概念，从工程到社会科学。它的重要性在于它能够描述组件（无论是机械的、数字的还是社会的）如何相互作用。通过掌握link coupling的原理，各领域的专业人士都可以提高其系统的有效性和效率，最终带来更好的结果和创新。随着技术的不断发展，理解和应用link coupling原理的重要性只会增加，这使其成为现代世界中值得研究和应用的主题。