articulated joint

简明释义

活节接合

英英释义

例句

1.In our new design, we incorporated an articulated joint to improve the range of motion.

在我们的新设计中，我们加入了一个关节连接以改善运动范围。

2.Engineers tested the articulated joint under various conditions to ensure durability.

工程师在各种条件下测试了关节连接以确保其耐用性。

3.This bicycle uses an articulated joint at the handlebars for better maneuverability.

这辆自行车在车把处使用了一个关节连接以提高操控性。

4.The robotic arm features an articulated joint that allows for greater flexibility in movement.

这只机器人手臂具有一个关节连接，使其在运动中更加灵活。

5.The articulated joint in the model enables it to mimic human-like gestures.

模型中的关节连接使其能够模仿人类的手势。

作文

In the field of engineering and robotics, understanding the mechanics of movement is crucial. One of the most important components that facilitate movement in machines and robots is the articulated joint. An articulated joint (关节) is a connection between two parts that allows for relative motion. This type of joint is designed to enable flexibility and mobility, mimicking the way biological joints function in living organisms. For instance, consider the human arm; it has various joints such as the shoulder, elbow, and wrist, each allowing for specific movements. Similarly, in robotic arms, articulated joints are used to replicate these complex motions. The design of an articulated joint can vary greatly depending on its application. In industrial robots, these joints often consist of motors and gears that provide precise control over movement. The flexibility of these joints allows robots to perform tasks ranging from simple pick-and-place operations to intricate assembly processes. The use of articulated joints in robotics has revolutionized manufacturing, enabling higher efficiency and productivity. Moreover, the implementation of articulated joints extends beyond industrial applications. In the field of animation and computer graphics, articulated joints play a vital role in creating lifelike movements in characters. Animators utilize these joints to simulate realistic motions, ensuring that characters move fluidly and convincingly. By manipulating the angles and positions of articulated joints, animators can create a wide range of actions, from walking and running to more complex gestures like dancing or fighting. In addition to their mechanical applications, articulated joints are also essential in biomechanics, where researchers study human and animal movements. Understanding how articulated joints function can lead to advancements in medical treatments, rehabilitation techniques, and the design of prosthetics. For example, prosthetic limbs often incorporate articulated joints to allow users to perform everyday activities with greater ease and comfort. By closely mimicking the natural movement of biological joints, these prosthetics can significantly improve the quality of life for individuals with limb loss. Furthermore, the study of articulated joints also contributes to the development of better sports equipment and athletic training programs. Coaches and trainers analyze the movement patterns of athletes to enhance performance and reduce the risk of injury. By understanding the mechanics of articulated joints, they can design training regimens that strengthen these joints, promoting longevity in an athlete's career. In conclusion, articulated joints are fundamental components in various fields, including robotics, animation, biomechanics, and sports science. Their ability to provide flexibility and movement makes them invaluable in both mechanical and biological systems. As technology continues to advance, the importance of articulated joints will only grow, leading to innovative solutions and improved designs across multiple disciplines. Understanding and mastering the concept of articulated joints is essential for anyone looking to excel in engineering, robotics, or related fields.

在工程和机器人领域，理解运动的机制至关重要。促进机器和机器人运动的最重要组成部分之一是articulated joint（关节）。articulated joint是两个部件之间的连接，允许相对运动。这种类型的关节旨在实现灵活性和移动性，模仿生物关节在生物体内的功能。例如，考虑人类的手臂；它有各种关节，如肩关节、肘关节和腕关节，每个关节都允许特定的运动。类似地，在机器人手臂中，articulated joints用于复制这些复杂的运动。articulated joint的设计可以根据其应用而有很大不同。在工业机器人中，这些关节通常由电机和齿轮组成，提供对运动的精确控制。这些关节的灵活性使机器人能够执行从简单的取放操作到复杂的组装过程等任务。articulated joints在机器人技术中的使用已经革新了制造业，提高了效率和生产力。此外，articulated joints的应用不仅限于工业应用。在动画和计算机图形领域，articulated joints在创建角色的生动运动中起着至关重要的作用。动画师利用这些关节模拟逼真的动作，确保角色流畅而令人信服地移动。通过操纵articulated joints的角度和位置，动画师可以创造出从走路和跑步到更复杂的动作，如跳舞或打斗等各种动作。除了机械应用，articulated joints在生物力学中也至关重要，研究人员研究人类和动物的运动。理解articulated joints的功能可以推动医疗治疗、康复技术和假肢设计的进步。例如，假肢通常包含articulated joints，以便用户能够更轻松舒适地进行日常活动。通过紧密模仿生物关节的自然运动，这些假肢可以显著改善失肢者的生活质量。此外，articulated joints的研究还促进了更好的运动器材和运动训练计划的发展。教练和训练师分析运动员的运动模式，以提高表现并减少受伤风险。通过理解articulated joints的机制，他们可以设计强化这些关节的训练方案，促进运动员职业生涯的持久性。总之，articulated joints是各个领域的基本组成部分，包括机器人技术、动画、生物力学和运动科学。它们提供灵活性和运动的能力使它们在机械和生物系统中无价。随着技术的不断进步，articulated joints的重要性只会增加，导致多学科领域的创新解决方案和改进设计。理解和掌握articulated joints的概念对于任何希望在工程、机器人或相关领域中脱颖而出的人来说都是至关重要的。