articulated arm

简明释义

关节杆

英英释义

例句

1.The artist used an articulated arm to hold her paintbrush at various angles.

艺术家使用关节臂以不同角度握住她的画笔。

2.In 3D printing, an articulated arm allows for more complex movements and better precision.

在3D打印中，关节臂允许更复杂的运动和更好的精确度。

3.The robotic arm in the factory uses an articulated arm to reach different assembly points.

工厂中的机器人臂使用关节臂来达到不同的组装点。

4.The drone is equipped with an articulated arm that can grab objects from the ground.

这架无人机配备了一个可以从地面抓取物体的关节臂。

5.Surgeons rely on an articulated arm to perform delicate procedures with high accuracy.

外科医生依赖关节臂进行高精度的精细手术。

作文

In the realm of robotics and automation, the term articulated arm refers to a type of robotic manipulator that is designed to mimic the movement and flexibility of a human arm. These devices are crucial in various industries, including manufacturing, healthcare, and even entertainment. The articulated arm consists of multiple segments connected by joints, allowing for a wide range of motion and the ability to perform complex tasks with precision. One of the most significant advantages of using an articulated arm in industrial settings is its ability to enhance productivity. For instance, in automotive assembly lines, these robotic arms can assemble parts at a speed and accuracy that far exceeds human capabilities. They can perform repetitive tasks without fatigue, which not only increases efficiency but also reduces the risk of human error. This capability makes the articulated arm an invaluable asset in environments where precision is paramount.Moreover, the versatility of the articulated arm allows it to be programmed for various applications. In the field of surgery, for example, robotic surgical systems equipped with articulated arms enable surgeons to perform minimally invasive procedures with enhanced dexterity and control. These systems can translate the surgeon's hand movements into precise actions within the patient's body, leading to quicker recovery times and reduced complications. The design of an articulated arm is often inspired by the human anatomy. It typically includes a series of links (the segments of the arm) and joints (the points of articulation). This design not only provides a high degree of freedom in movement but also allows the robotic arm to reach difficult angles and positions that would be challenging for a human operator. The integration of advanced sensors and actuators further enhances the functionality of the articulated arm, enabling it to adapt to changing conditions and perform tasks with remarkable finesse.Furthermore, as technology continues to evolve, the applications of articulated arms are expanding beyond traditional industries. In the realm of virtual reality and animation, for instance, articulated arms are used to create lifelike movements for characters and objects. This application demonstrates the broad potential of these robotic systems, showcasing their ability to bridge the gap between technology and creativity.Despite their many advantages, the implementation of articulated arms is not without challenges. One of the primary concerns is the cost associated with acquiring and maintaining these sophisticated machines. Additionally, there is an ongoing debate about the impact of automation on employment opportunities. As articulated arms become more prevalent, there is a fear that they may replace human workers in certain roles, leading to job displacement.In conclusion, the articulated arm represents a remarkable advancement in robotics, offering numerous benefits across various sectors. Its ability to enhance productivity, improve precision, and adapt to diverse applications makes it a vital tool in today's technological landscape. As we continue to explore the possibilities of robotics, the articulated arm will undoubtedly play a pivotal role in shaping the future of work and innovation. Understanding the capabilities and implications of this technology is essential for navigating the challenges and opportunities it presents.

在机器人和自动化领域，术语articulated arm指的是一种设计用来模仿人类手臂运动和灵活性的机器人操纵器。这些设备在制造、医疗甚至娱乐等各个行业中都至关重要。articulated arm由多个连接的关节组成，允许广泛的运动范围，并能够以精确的方式执行复杂任务。在工业环境中使用articulated arm的一个显著优势是它能够提高生产力。例如，在汽车装配线上，这些机器人手臂可以以远超人类能力的速度和准确性组装零件。它们可以在没有疲劳的情况下执行重复性任务，这不仅提高了效率，还减少了人为错误的风险。这种能力使得articulated arm在对精度要求极高的环境中成为不可或缺的资产。此外，articulated arm的多功能性使其可以编程用于各种应用。在外科手术领域，例如，配备有articulated arms的机器人手术系统使外科医生能够以更高的灵活性和控制能力进行微创手术。这些系统可以将外科医生的手部动作转化为患者体内的精确操作，从而缩短恢复时间并减少并发症。articulated arm的设计通常受到人类解剖学的启发。它通常包括一系列链接（手臂的部分）和关节（关节点）。这种设计不仅提供了高度的运动自由度，还使机器人手臂能够到达对人类操作员来说具有挑战性的难角度和位置。先进传感器和驱动器的集成进一步增强了articulated arm的功能，使其能够适应不断变化的条件，并以卓越的灵巧性执行任务。此外，随着技术的不断发展，articulated arms的应用正在超越传统行业。例如，在虚拟现实和动画领域，articulated arms用于为角色和对象创造逼真的运动。这一应用展示了这些机器人系统的广泛潜力，展示了它们在技术与创造力之间架起桥梁的能力。尽管有许多优势，但实施articulated arms并非没有挑战。主要问题之一是获取和维护这些复杂机器所需的成本。此外，关于自动化对就业机会影响的辩论仍在继续。随着articulated arms的普及，人们担心它们可能会取代某些角色中的人类工人，导致工作岗位流失。总之，articulated arm代表了机器人技术的显著进步，在各个领域提供了众多好处。它提高生产力、改善精度并适应多样化应用的能力，使其成为当今技术环境中的重要工具。随着我们继续探索机器人技术的可能性，articulated arm无疑将在塑造未来的工作和创新中发挥关键作用。理解这一技术的能力和影响对于应对其带来的挑战和机遇至关重要。