ball-and-socket coupling

简明释义

球窝联轴器

英英释义

例句

1.During the assembly, the technician ensured that each ball-and-socket coupling 球窝联接 was securely fastened.

在组装过程中，技术员确保每个球窝联接 ball-and-socket coupling 都牢固地固定。

2.In robotics, a ball-and-socket coupling 球窝联接 can help joints move smoothly and accurately.

在机器人技术中，球窝联接 ball-and-socket coupling 可以帮助关节平滑而准确地移动。

3.Many modern vehicles use a ball-and-socket coupling 球窝联接 in their suspension systems for better handling.

许多现代车辆在悬挂系统中使用球窝联接 ball-and-socket coupling 以获得更好的操控性。

4.The design of the new model features a ball-and-socket coupling 球窝联接 to enhance articulation.

新模型的设计采用了球窝联接 ball-and-socket coupling 以增强关节灵活性。

5.The engineer explained how the ball-and-socket coupling 球窝联接 allows for greater flexibility in machine movement.

工程师解释了如何使用球窝联接 ball-and-socket coupling 使机器运动更灵活。

作文

The concept of a ball-and-socket coupling is fundamental in various engineering applications, particularly in the design of joints and connections. This type of coupling allows for a significant range of motion between two connected components, which is crucial in systems that require flexibility and adaptability. In essence, a ball-and-socket coupling consists of a spherical ball that fits into a socket, permitting movement in multiple directions while maintaining a secure connection.One of the most common uses of a ball-and-socket coupling can be found in the automotive industry. For instance, in vehicles, the suspension system often employs this type of coupling to allow the wheels to move up and down independently while still being connected to the chassis. This feature enhances the vehicle's ability to handle uneven surfaces, providing a smoother ride for passengers. The flexibility offered by a ball-and-socket coupling is essential for ensuring that the vehicle can adapt to varying road conditions without compromising stability.In addition to automotive applications, ball-and-socket couplings are also prevalent in robotics and machinery. Robots often utilize this coupling mechanism in their joints to mimic human-like movements. By incorporating a ball-and-socket coupling, robotic arms can achieve a wide range of motion, allowing them to perform complex tasks with precision. This technology is vital in industries such as manufacturing and healthcare, where robots are increasingly employed to assist with delicate operations or repetitive tasks.Moreover, the ball-and-socket coupling is not limited to mechanical applications; it is also relevant in the field of biomechanics. Human joints, such as the shoulder and hip, function similarly to a ball-and-socket coupling. The spherical head of the bone fits into a cup-like structure, enabling a broad range of motion. Understanding the mechanics of a ball-and-socket coupling helps researchers and medical professionals develop better treatments for joint-related injuries and conditions.The advantages of using a ball-and-socket coupling include its ability to accommodate misalignment between connected parts and its durability under various loads. However, there are also challenges associated with this coupling type. For instance, if not properly lubricated, a ball-and-socket coupling can experience increased wear and tear, leading to potential failure. Therefore, regular maintenance is crucial to ensure the longevity and functionality of systems utilizing this coupling.In conclusion, the ball-and-socket coupling is a versatile and essential component in many fields, including automotive engineering, robotics, and biomechanics. Its unique design allows for a wide range of motion while maintaining a secure connection, making it invaluable in applications that demand flexibility and adaptability. As technology continues to advance, the role of ball-and-socket couplings will likely expand, leading to innovative solutions in various industries. Understanding this coupling mechanism is vital for engineers and designers who seek to create efficient and effective systems that meet the demands of modern society.

“球窝耦合”这一概念在各种工程应用中是基础的，特别是在关节和连接的设计中。这种耦合允许两个连接组件之间有显著的运动范围，这在需要灵活性和适应性的系统中至关重要。简单来说，“球窝耦合”由一个球形的球体和一个凹槽组成，允许在多个方向上移动，同时保持安全的连接。“球窝耦合”的一个最常见的用途可以在汽车工业中找到。例如，在车辆中，悬挂系统通常采用这种类型的耦合，以允许车轮独立上下移动，同时仍然与车身连接。这一特性增强了车辆应对不平坦路面的能力，为乘客提供更平稳的乘坐体验。“球窝耦合”的灵活性对于确保车辆能够适应各种路况而不妥协稳定性至关重要。除了汽车应用外，“球窝耦合”在机器人和机械中也很常见。机器人通常在其关节中利用这种耦合机制，以模仿类似人类的运动。通过结合“球窝耦合”，机器人手臂能够实现广泛的运动范围，使其能够精准地执行复杂任务。这项技术在制造和医疗等行业中至关重要，机器人越来越多地被用于协助进行精细操作或重复性任务。此外，“球窝耦合”不仅限于机械应用，它在生物力学领域也相关。人体关节，如肩关节和髋关节，功能类似于“球窝耦合”。骨头的球形头部适合于杯状结构，从而使得广泛的运动范围成为可能。理解“球窝耦合”的力学原理帮助研究人员和医疗专业人士开发出更好的治疗方案，以应对与关节相关的伤害和疾病。使用“球窝耦合”的优点包括其能够容纳连接部件之间的错位以及在各种负荷下的耐用性。然而，这种耦合类型也面临挑战。例如，如果没有适当润滑，“球窝耦合”可能会经历增加的磨损，从而导致潜在的故障。因此，定期维护对确保使用这种耦合的系统的持久性和功能至关重要。总之，“球窝耦合”是许多领域中一种多功能和基本的组件，包括汽车工程、机器人技术和生物力学。其独特的设计允许广泛的运动范围，同时保持安全连接，使其在需要灵活性和适应性的应用中不可或缺。随着技术的不断进步，“球窝耦合”的角色可能会扩大，带来各行业的创新解决方案。理解这一耦合机制对寻求创建高效有效系统以满足现代社会需求的工程师和设计师至关重要。