movable coupling

简明释义

活动联轴节

英英释义

例句

1.The design of the robotic arm includes a movable coupling to enhance its flexibility.

机器手臂的设计包括一个可移动联接以增强其灵活性。

2.We need to install a movable coupling in the conveyor system to allow for adjustments during operation.

我们需要在输送系统中安装一个可移动联接以便在操作过程中进行调整。

3.The movable coupling allows for thermal expansion without damaging the structure.

该可移动联接允许热膨胀而不会损坏结构。

4.Engineers specified a movable coupling to connect the two rotating shafts effectively.

工程师指定了一个可移动联接以有效连接两个旋转轴。

5.The movable coupling in the mechanical system reduces stress on the components.

机械系统中的可移动联接减少了对组件的压力。

作文

In the realm of mechanical engineering, the concept of a movable coupling is pivotal for understanding how various components within a machine interact with each other. A movable coupling can be defined as a device that connects two shafts together while allowing for some degree of movement between them. This capability is crucial in applications where misalignment or vibration might occur due to operational conditions or external forces. By incorporating a movable coupling, engineers can enhance the reliability and efficiency of machinery, ensuring that power transmission remains smooth and uninterrupted.The functionality of a movable coupling is particularly significant in scenarios where flexibility is required. For instance, in automotive applications, the drivetrain must accommodate shifts in position and angle as the vehicle navigates over uneven terrain. A movable coupling allows for this necessary flexibility, reducing stress on components and extending their lifespan. Similarly, in industrial machinery, equipment often experiences vibrations and thermal expansions that can lead to misalignment. The use of a movable coupling mitigates these issues by permitting slight adjustments without compromising the integrity of the overall system.Moreover, the design of a movable coupling varies depending on the specific needs of the application. Some couplings are designed to handle high torque loads, while others may prioritize lightweight construction for improved speed and efficiency. Engineers must carefully select the appropriate type of movable coupling based on factors such as operating environment, load requirements, and maintenance considerations.In addition to mechanical benefits, the implementation of a movable coupling also has economic implications. By reducing wear and tear on machinery, businesses can lower maintenance costs and minimize downtime. This leads to increased productivity and ultimately contributes to a more robust bottom line. Investing in quality components like a movable coupling is therefore not just a technical decision but a strategic one as well.Furthermore, advancements in technology continue to influence the development of movable couplings. With the rise of smart manufacturing and automation, there is a growing demand for couplings that can provide real-time feedback on performance metrics. This trend is pushing manufacturers to innovate and create more sophisticated movable couplings that integrate seamlessly with modern control systems.In conclusion, the significance of a movable coupling in mechanical systems cannot be overstated. Its ability to accommodate movement while maintaining connectivity between shafts plays a vital role in enhancing the functionality and durability of machinery. As industries evolve and new challenges arise, the importance of developing effective movable couplings will continue to grow, making it a key area of focus for engineers and designers alike. Understanding the intricacies of movable couplings is essential for anyone involved in the field of mechanical engineering, as it lays the foundation for creating innovative solutions to complex problems.

在机械工程领域，可移动联轴器的概念对于理解机器内部各个组件之间的相互作用至关重要。可移动联轴器可以定义为一个连接两个轴的装置，同时允许它们之间有一定程度的运动。这种能力在由于操作条件或外部力量而可能发生的错位或振动的应用中至关重要。通过引入可移动联轴器，工程师可以提高机械的可靠性和效率，确保动力传输保持平稳和不间断。可移动联轴器的功能在需要灵活性的场景中特别重要。例如，在汽车应用中，驱动系统必须适应车辆在不平坦地形上行驶时的位置和角度变化。可移动联轴器允许这种必要的灵活性，减少对组件的压力并延长其使用寿命。同样，在工业机械中，设备经常经历振动和热膨胀，这可能导致错位。使用可移动联轴器可以通过允许轻微调整而不影响整体系统的完整性来缓解这些问题。此外，可移动联轴器的设计因应用的具体需求而异。有些联轴器旨在处理高扭矩负载，而其他联轴器可能优先考虑轻量化结构以提高速度和效率。工程师必须根据操作环境、负载要求和维护考虑等因素仔细选择合适类型的可移动联轴器。除了机械优势之外，实施可移动联轴器还具有经济意义。通过减少机械磨损，企业可以降低维护成本并最小化停机时间。这导致生产力的提高，并最终有助于更强健的财务状况。因此，投资于像可移动联轴器这样的优质组件不仅是技术决策，也是战略决策。此外，技术的进步继续影响可移动联轴器的发展。随着智能制造和自动化的兴起，对能够提供性能指标实时反馈的联轴器的需求日益增长。这一趋势促使制造商创新，创造出与现代控制系统无缝集成的更复杂的可移动联轴器。总之，可移动联轴器在机械系统中的重要性不可低估。它在保持轴之间的连接的同时适应运动的能力在增强机械的功能性和耐用性方面发挥着至关重要的作用。随着行业的发展和新挑战的出现，开发有效的可移动联轴器的重要性将继续增长，使其成为工程师和设计师关注的关键领域。理解可移动联轴器的复杂性对于任何参与机械工程领域的人来说都是必不可少的，因为它为创造创新解决方案以应对复杂问题奠定了基础。