socket and ball joint

简明释义

球窝接合

英英释义

例句

1.When assembling the model, make sure the socket and ball joint (球头关节) fits snugly to allow for movement.

在组装模型时，确保socket and ball joint (球头关节)紧密贴合，以便于活动。

2.The designer chose a socket and ball joint (球头关节) mechanism for the new chair to enhance its adjustability.

设计师为新椅子选择了socket and ball joint (球头关节)机制，以增强其可调性。

3.In robotics, a socket and ball joint (球头关节) is often used to create flexible connections between components.

在机器人技术中，socket and ball joint (球头关节)通常用于创建组件之间的灵活连接。

4.A faulty socket and ball joint (球头关节) can lead to excessive wear on other parts of the vehicle.

故障的socket and ball joint (球头关节)可能导致车辆其他部件的过度磨损。

5.The mechanic explained that the issue with the car's suspension was due to a worn-out socket and ball joint (球头关节).

机械师解释说，汽车悬挂的问题是由于磨损的socket and ball joint (球头关节)造成的。

作文

In the world of mechanical engineering and design, understanding the various components that contribute to the functionality of machines is crucial. One such component that plays a significant role in allowing movement and flexibility is the socket and ball joint. This type of joint is commonly found in a variety of applications, from automotive suspensions to robotic arms, and even in human anatomy. The socket and ball joint consists of a spherical 'ball' that fits into a 'socket', enabling a wide range of motion while maintaining stability. The design of the socket and ball joint allows for rotational movement in multiple directions. This is particularly important in automotive engineering, where the suspension system must absorb shocks from the road while allowing the wheels to move up and down independently. The socket and ball joint provides this flexibility by allowing the wheel to pivot as needed, improving the vehicle's handling and comfort. Without this joint, vehicles would be less stable and more difficult to control, especially on uneven surfaces. In robotics, the socket and ball joint is often used to replicate human-like movements. For instance, robotic arms equipped with these joints can perform tasks that require precision and dexterity, such as assembling products or performing delicate surgeries. The ability of the socket and ball joint to provide a range of motion similar to that of a human limb makes it an invaluable component in advanced robotics.Moreover, the socket and ball joint is also a critical element in our own bodies. In human anatomy, this type of joint is exemplified by the hip and shoulder joints. These joints allow us to move our limbs freely and perform various activities, from reaching for an object to running. The natural design of the socket and ball joint ensures that we have the mobility we need while also providing support and stability to our skeletal structure. Despite its advantages, the socket and ball joint can also experience wear and tear over time. In vehicles, for example, exposure to harsh conditions and constant movement can lead to deterioration of the joint, resulting in decreased performance and potential safety hazards. Regular maintenance and inspection are essential to ensure that these joints remain in good working condition. Similarly, in the human body, injuries or conditions such as arthritis can affect the functionality of the socket and ball joint, leading to pain and reduced mobility. In conclusion, the socket and ball joint is a fundamental component in both engineering and biology, providing necessary flexibility and movement in various systems. Whether in the context of a vehicle’s suspension, a robot’s arm, or our own limbs, understanding the mechanics and importance of the socket and ball joint is vital for anyone involved in design, engineering, or healthcare. Its ability to facilitate movement while maintaining stability is a testament to its ingenious design, making it a key element in many applications we encounter in our daily lives.

在机械工程和设计的世界中，理解各种组件对机器功能的贡献至关重要。其中一个在允许运动和灵活性方面发挥重要作用的组件就是球窝关节。这种类型的关节通常在各种应用中找到，包括汽车悬挂、机器人手臂甚至人类解剖学。球窝关节由一个球形的“球”与一个“窝”组成，能够在保持稳定性的同时实现广泛的运动。球窝关节的设计允许多方向的旋转运动。这在汽车工程中尤为重要，因为悬挂系统必须吸收来自道路的冲击，同时允许车轮独立上下移动。球窝关节通过允许车轮根据需要进行旋转，从而提供这种灵活性，提高了车辆的操控性和舒适性。如果没有这个关节，车辆将不那么稳定，并且在不平坦的表面上更难控制。在机器人技术中，球窝关节常用于模拟人类的运动。例如，配备这些关节的机器人手臂可以执行需要精确和灵活性的任务，如组装产品或进行精细手术。球窝关节提供的类似于人类肢体的运动范围使其成为先进机器人技术中的宝贵组件。此外，球窝关节也是我们身体中的一个关键元素。在人类解剖学中，这种类型的关节以髋关节和肩关节为例。这些关节允许我们自由移动四肢并执行各种活动，从伸手去拿物体到奔跑。球窝关节的自然设计确保我们拥有所需的灵活性，同时为我们的骨骼结构提供支持和稳定性。尽管有其优点，球窝关节随着时间的推移也可能经历磨损。例如，在车辆中，暴露于恶劣环境和持续运动可能导致关节的退化，从而导致性能下降和潜在的安全隐患。定期维护和检查对于确保这些关节保持良好工作状态至关重要。同样，在人体中，受伤或像关节炎这样的疾病可能会影响球窝关节的功能，导致疼痛和活动能力下降。总之，球窝关节是工程和生物学中的基本组件，在各种系统中提供必要的灵活性和运动。无论是在车辆的悬挂系统、机器人的手臂还是我们自己的四肢中，理解球窝关节的机制和重要性对于任何参与设计、工程或医疗保健的人来说都是至关重要的。其在保持稳定性的同时促进运动的能力证明了其巧妙的设计，使其成为我们日常生活中许多应用的关键元素。