coupling link

简明释义

连接环

英英释义

例句

1.The engineer replaced the broken coupling link to restore the machine's functionality.

工程师更换了损坏的耦合链接以恢复机器的功能。

2.In this assembly, the coupling link connects the two rotating shafts.

在这个组件中，耦合链接连接了两个旋转轴。

3.A faulty coupling link can lead to severe vibrations in the system.

故障的耦合链接可能导致系统产生严重的振动。

4.We need to check the coupling link for wear and tear during maintenance.

在维护期间，我们需要检查耦合链接是否磨损。

5.The coupling link is crucial for transmitting torque between components.

该耦合链接对于在组件之间传递扭矩至关重要。

作文

In the field of engineering and mechanics, the term coupling link refers to a crucial component that connects two separate entities, allowing them to work together effectively. These links are essential in various applications, from machinery to transportation systems, as they facilitate the transfer of motion, force, or energy between different parts. Understanding the role of a coupling link is vital for engineers and designers who aim to create efficient and reliable systems.One of the most common examples of a coupling link can be found in automotive engineering. In a vehicle, the transmission system relies on these links to connect the engine to the wheels. The coupling link ensures that the power generated by the engine is effectively transmitted to the wheels, enabling the vehicle to move. Without this connection, the vehicle would not function as intended, highlighting the importance of a well-designed coupling link in achieving optimal performance.Moreover, coupling links are not limited to mechanical systems; they also play a significant role in electrical engineering. In electrical circuits, a coupling link may refer to the components that connect different parts of the circuit, allowing for the flow of electricity. For instance, capacitors can serve as coupling links by connecting different stages of an amplifier, ensuring that the signal is transmitted without distortion. This application illustrates how coupling links are fundamental in maintaining the integrity and efficiency of electrical systems.The design of a coupling link must consider various factors, including the materials used, the forces involved, and the environment in which it operates. Engineers often conduct simulations and tests to determine the best design for a specific application. The choice of material can greatly affect the performance of the coupling link. For example, using a lightweight yet strong material can enhance the overall efficiency of a system, while a poorly designed link can lead to failures and inefficiencies.In addition to mechanical and electrical applications, coupling links are also crucial in robotics. Robots often consist of multiple joints and segments that need to work in harmony. Each joint may feature a coupling link that allows for precise movement and control. The effectiveness of a robot's operation heavily relies on the quality of its coupling links, as any malfunction can result in a loss of functionality.Furthermore, the concept of coupling links extends beyond physical connections. In software engineering, for instance, coupling refers to the degree of interdependence between software modules. A low level of coupling is desirable, as it indicates that changes in one module will have minimal impact on others. In this context, a coupling link can represent the relationship between different modules, emphasizing the importance of maintaining modularity in software design.In conclusion, the term coupling link encompasses a wide range of applications across various fields of engineering and technology. Whether in mechanical systems, electrical circuits, robotics, or software design, coupling links are integral to ensuring that different components work together seamlessly. By understanding the significance of coupling links, engineers and designers can create more efficient and reliable systems that meet the demands of modern technology.

在工程和机械领域，术语coupling link指的是一个关键组件，它连接两个独立的实体，使它们能够有效地协同工作。这些链接在各种应用中都是必不可少的，从机械到运输系统，因为它们促进了不同部件之间运动、力量或能量的传递。理解coupling link的作用对于旨在创建高效和可靠系统的工程师和设计师来说至关重要。coupling link的一个最常见的例子可以在汽车工程中找到。在车辆中，传动系统依赖于这些链接将发动机与车轮连接起来。coupling link确保发动机产生的动力有效地传递到车轮，使车辆能够移动。没有这种连接，车辆将无法按预期运行，这突显了设计良好的coupling link在实现最佳性能中的重要性。此外，coupling links不仅限于机械系统；它们在电气工程中也发挥着重要作用。在电路中，coupling link可能指的是连接电路不同部分的组件，允许电流的流动。例如，电容器可以作为coupling links，通过连接放大器的不同阶段，确保信号在不失真的情况下传输。这个应用说明了coupling links在维持电气系统的完整性和效率方面是多么基础。coupling link的设计必须考虑各种因素，包括所用材料、涉及的力量以及其操作的环境。工程师通常会进行模拟和测试，以确定特定应用的最佳设计。材料的选择可以极大地影响coupling link的性能。例如，使用轻便但坚固的材料可以提高系统的整体效率，而设计不良的链接可能导致故障和低效。除了机械和电气应用，coupling links在机器人技术中也至关重要。机器人通常由多个关节和部分组成，需要和谐地工作。每个关节可能具有一个coupling link，允许精确的运动和控制。机器人的操作效果在很大程度上依赖于其coupling links的质量，因为任何故障都可能导致功能丧失。此外，coupling links的概念超出了物理连接。在软件工程中，例如，耦合指的是软件模块之间的相互依赖程度。低耦合度是可取的，因为这表明对一个模块的更改对其他模块的影响最小。在这种情况下，coupling link可以表示不同模块之间的关系，强调在软件设计中保持模块化的重要性。总之，术语coupling link涵盖了各个工程和技术领域广泛的应用。无论是在机械系统、电气电路、机器人技术还是软件设计中，coupling links都是确保不同组件无缝协作的关键。通过理解coupling links的重要性，工程师和设计师可以创造出更高效、可靠的系统，以满足现代技术的需求。