robot manipulator

简明释义

拟人机操作手

英英释义

例句

1.Automated warehouses often rely on robot manipulators for sorting packages.

自动化仓库通常依赖于机器人操纵器来分类包裹。

2.A robot manipulator is essential in manufacturing processes to reduce human error.

在制造过程中，机器人操纵器对于减少人为错误至关重要。

3.In the lab, researchers are developing a new robot manipulator for surgical procedures.

在实验室，研究人员正在开发一种新的机器人操纵器用于外科手术。

4.The robot manipulator can pick and place items with high precision.

该机器人操纵器能够以高精度抓取和放置物品。

5.The factory uses a robot manipulator to assemble car parts efficiently.

工厂使用机器人操纵器高效地组装汽车零件。

作文

In the modern world, technology has permeated every aspect of our lives, and one of the most fascinating advancements is the development of the robot manipulator. A robot manipulator is a type of robotic arm that can be programmed to perform various tasks with precision and efficiency. These devices are designed to mimic the movements of a human arm, allowing them to grasp, move, and manipulate objects in a controlled manner. The application of robot manipulators spans across multiple industries, including manufacturing, healthcare, and even space exploration.One of the primary advantages of using a robot manipulator in manufacturing is its ability to increase productivity. For instance, in an automotive assembly line, a robot manipulator can perform repetitive tasks such as welding, painting, or assembling parts much faster than a human worker. This not only speeds up the production process but also enhances the consistency and quality of the final product. Additionally, by taking on hazardous tasks, robot manipulators help ensure the safety of human workers, reducing the risk of workplace injuries.In the healthcare sector, robot manipulators have revolutionized surgical procedures. Surgeons can use these advanced robotic systems to perform minimally invasive surgeries with greater accuracy. The robot manipulator allows for precise movements that minimize damage to surrounding tissues, leading to quicker recovery times for patients. Furthermore, the integration of robot manipulators in rehabilitation therapy has shown promising results, helping patients regain mobility through tailored exercises guided by robotic systems.Space exploration is another area where robot manipulators play a crucial role. Robots equipped with robot manipulators, such as the Canadarm used on the Space Shuttle, have been essential for tasks like satellite deployment and repairs in orbit. These robotic arms can operate in the harsh conditions of space, performing intricate maneuvers that would be impossible for astronauts in bulky space suits. As we look towards future missions to Mars and beyond, the importance of robot manipulators will only continue to grow.Despite their numerous benefits, the rise of robot manipulators also raises some concerns. As these machines become more prevalent, there is a fear that they could replace human jobs. While it is true that robot manipulators can perform certain tasks more efficiently than humans, they also create new job opportunities in fields such as robotics programming and maintenance. It is crucial for society to adapt to these changes by investing in education and training programs that prepare the workforce for a future where collaboration between humans and robots becomes the norm.In conclusion, the robot manipulator represents a significant leap forward in technology, offering numerous advantages across various sectors. From enhancing productivity in manufacturing to improving patient outcomes in healthcare and facilitating complex tasks in space, robot manipulators are transforming the way we work and live. As we continue to innovate and integrate these machines into our daily lives, it is essential to strike a balance that maximizes their benefits while addressing the challenges they present.

在现代世界中，技术渗透到我们生活的每一个方面，而最令人着迷的进展之一就是开发出机器人操控器。机器人操控器是一种可以编程执行各种任务的机器人手臂，具有精确和高效的特点。这些设备旨在模拟人类手臂的运动，使其能够以受控的方式抓取、移动和操纵物体。机器人操控器的应用跨越多个行业，包括制造业、医疗保健甚至太空探索。在制造业中使用机器人操控器的主要优势之一是它能够提高生产力。例如，在汽车装配线上，机器人操控器可以比人类工人更快地执行焊接、喷漆或组装部件等重复性任务。这不仅加快了生产过程，还提高了最终产品的一致性和质量。此外，通过承担危险任务，机器人操控器帮助确保人类工人的安全，降低了工作场所受伤的风险。在医疗领域，机器人操控器彻底改变了外科手术程序。外科医生可以使用这些先进的机器人系统进行更精确的微创手术。机器人操控器允许进行精确的运动，最小化对周围组织的损害，从而缩短患者的恢复时间。此外，机器人操控器在康复治疗中的整合也显示出良好的效果，帮助患者通过机器人系统指导的定制练习恢复活动能力。太空探索是另一个机器人操控器发挥关键作用的领域。配备有机器人操控器的机器人，如在航天飞机上使用的加拿大臂，对卫星部署和轨道维修等任务至关重要。这些机器人手臂可以在太空的恶劣条件下操作，执行在笨重的宇航服中无法完成的复杂动作。随着我们展望未来的火星及更远的任务，机器人操控器的重要性只会继续增长。尽管有许多好处，机器人操控器的崛起也引发了一些担忧。随着这些机器变得越来越普遍，人们担心它们可能会取代人类工作。虽然机器人操控器确实可以比人类更高效地执行某些任务，但它们也在机器人编程和维护等领域创造了新的就业机会。社会必须通过投资教育和培训项目来适应这些变化，为未来人类与机器人协作成为常态的工作做好准备。总之，机器人操控器代表了技术的重大飞跃，在各个领域提供了众多优势。从提高制造业的生产力到改善医疗保健中的患者结果，再到在太空中促进复杂任务的完成，机器人操控器正在改变我们的工作和生活方式。随着我们不断创新并将这些机器融入日常生活，找到一种平衡，以最大限度地发挥它们的好处，同时应对它们带来的挑战，是至关重要的。