mechanical arm

简明释义

操作器

英英释义

例句

1.Engineers designed a mechanical arm that mimics human movements.

工程师设计了一种模仿人类动作的机械臂。

2.The mechanical arm on the assembly line improves production speed.

生产线上的机械臂提高了生产速度。

3.The robotic mechanical arm can lift heavy objects with ease.

机械臂可以轻松地举起重物。

4.The factory uses a mechanical arm to assemble parts quickly and efficiently.

工厂使用机械臂快速高效地组装零件。

5.In surgery, a mechanical arm assists doctors in performing precise operations.

在手术中，机械臂帮助医生进行精确的操作。

作文

In recent years, technology has advanced at an unprecedented pace, leading to the development of various innovative tools and machines that have transformed our daily lives. One remarkable invention is the mechanical arm, a device that mimics the functions of a human arm. This technology has found applications in various fields, including manufacturing, healthcare, and even space exploration. The mechanical arm can perform tasks that are either too dangerous or too delicate for human hands, making it an invaluable asset in many industries.The primary function of a mechanical arm is to manipulate objects with precision and accuracy. In manufacturing, for instance, these arms are used to assemble products on assembly lines. They can lift heavy items, weld parts together, and even paint surfaces with incredible consistency. This not only increases efficiency but also reduces the risk of injury to human workers. By taking on repetitive and strenuous tasks, the mechanical arm allows humans to focus on more complex and creative aspects of production.In the healthcare sector, mechanical arms are revolutionizing surgical procedures. Surgeons can use robotic arms equipped with advanced imaging technology to perform minimally invasive surgeries. These mechanical arms offer greater precision than the human hand, resulting in less trauma to the patient and quicker recovery times. For patients who have lost limbs, prosthetic mechanical arms equipped with sensors can provide a degree of mobility and functionality that was previously unimaginable. These devices can be controlled by the brain's signals, allowing users to perform everyday tasks with ease.Moreover, the use of mechanical arms extends beyond Earth. In space exploration, NASA has employed robotic arms on spacecraft and rovers to conduct experiments and gather data from distant planets. For example, the Mars rovers are equipped with mechanical arms that can analyze soil samples and capture images of the Martian landscape. These arms are essential for conducting scientific research in environments that would be hazardous for human astronauts.Despite their numerous advantages, the rise of mechanical arms also raises ethical questions. As machines become more autonomous, concerns about job displacement and the potential for misuse arise. It is crucial to strike a balance between leveraging the benefits of mechanical arms and ensuring that human workers are not left behind. Education and training programs must evolve to prepare the workforce for a future where collaboration between humans and machines is the norm.In conclusion, the mechanical arm represents a significant leap forward in technology, offering solutions to challenges across multiple sectors. Whether in factories, hospitals, or outer space, these devices enhance our capabilities and improve efficiency. However, as we embrace this technology, we must also be mindful of the implications it brings. The future will undoubtedly see further advancements in mechanical arms, and it is our responsibility to ensure that they are used ethically and responsibly for the betterment of society.

近年来，科技以空前的速度发展，导致各种创新工具和机器的出现，这些工具和机器改变了我们的日常生活。其中一个显著的发明是机械手臂，这种设备模仿人类手臂的功能。这项技术在制造、医疗甚至太空探索等多个领域找到了应用。机械手臂能够执行对人类手来说过于危险或过于精细的任务，使其在许多行业中成为不可或缺的资产。机械手臂的主要功能是精确而准确地操纵物体。例如，在制造业中，这些手臂被用于在生产线上组装产品。它们可以举起重物、焊接零件，甚至以令人难以置信的一致性进行喷涂。这不仅提高了效率，还减少了对人类工人的伤害风险。通过承担重复和繁重的任务，机械手臂使人类能够专注于生产中更复杂和创造性的方面。在医疗领域，机械手臂正在革新外科手术程序。外科医生可以使用配备先进成像技术的机器人手臂进行微创手术。这些机械手臂提供比人手更高的精度，从而减少患者的创伤和加快恢复时间。对于失去肢体的患者，配备传感器的假肢机械手臂可以提供以前无法想象的移动性和功能。这些设备可以通过大脑信号控制，使用户能够轻松执行日常任务。此外，机械手臂的使用不仅限于地球。在太空探索中，NASA已经在航天器和探测器上使用了机器人手臂，以进行实验和收集来自遥远行星的数据。例如，火星探测器配备了可以分析土壤样本和捕捉火星景观图像的机械手臂。这些手臂对于在对人类宇航员来说危险的环境中进行科学研究至关重要。尽管有诸多优点，机械手臂的兴起也引发了伦理问题。随着机器变得越来越自主，关于工作岗位流失和潜在滥用的担忧也随之而来。必须在利用机械手臂的好处与确保人类工人不被抛弃之间找到平衡。教育和培训项目必须演变，以准备劳动力迎接未来人机协作成为常态的局面。总之，机械手臂代表了技术的一次重大飞跃，为多个领域的挑战提供了解决方案。无论是在工厂、医院还是外太空，这些设备增强了我们的能力，提高了效率。然而，当我们接受这项技术时，我们也必须关注它带来的影响。未来无疑会看到机械手臂的进一步进步，而我们有责任确保这些技术以道德和负责任的方式使用，以造福社会。