mechanical finger

简明释义

机械手

英英释义

例句

1.In the assembly line, the mechanical finger helps in placing components accurately.

在装配线上，机械手指帮助准确放置组件。

2.The mechanical finger of the robotic arm allows for delicate tasks like surgery.

机器手臂的机械手指能够进行如手术般精细的任务。

3.The robot used its mechanical finger to pick up small objects with precision.

机器人使用它的机械手指精确地拾起小物体。

4.The artist designed a puppet with a mechanical finger to enhance its movements.

艺术家设计了一个木偶，配有机械手指以增强其动作。

5.With the help of a mechanical finger, the device can interact with touch screens.

借助于机械手指，该设备可以与触摸屏互动。

作文

In today's rapidly advancing technological landscape, we often find ourselves relying on various tools and devices that enhance our daily lives. One intriguing concept that has emerged is the idea of a mechanical finger (机械手指). This term refers to devices or robotic appendages designed to mimic the function of a human finger, providing remarkable precision and dexterity in tasks ranging from medical applications to industrial manufacturing. The development of mechanical fingers has been revolutionary in fields such as prosthetics. For individuals who have lost their fingers due to accidents or medical conditions, these advanced devices offer not just functionality but also a sense of normalcy. Modern prosthetic fingers equipped with sensors and motors can perform intricate movements, allowing users to grasp objects, type, and even play musical instruments. This technology has transformed lives, enabling users to regain independence and confidence. Moreover, mechanical fingers are not limited to prosthetics; they are also utilized in robotics and automation. In manufacturing environments, robotic arms equipped with mechanical fingers can assemble products with speed and accuracy that far surpass human capabilities. These machines can work tirelessly, reducing production costs and increasing efficiency. Industries such as automotive and electronics have greatly benefited from the integration of these technologies, leading to innovations that were once thought impossible.In addition to industrial applications, mechanical fingers are making significant strides in the field of medicine. Surgical robots, for example, employ mechanical fingers to perform delicate procedures with enhanced precision. Surgeons can control these robotic appendages with remarkable accuracy, minimizing the risk of complications and improving patient outcomes. The ability to perform minimally invasive surgeries using mechanical fingers has revolutionized the way we approach complex medical procedures, leading to faster recovery times and reduced hospital stays.As we look toward the future, the potential for mechanical fingers continues to expand. Researchers are exploring ways to integrate artificial intelligence with these devices, allowing them to learn and adapt to various tasks. Imagine a world where a mechanical finger could not only replicate human motion but also anticipate the needs of its user. Such advancements could lead to even more sophisticated prosthetics and robotic systems that seamlessly interact with humans.However, with these advancements come ethical considerations. The rise of mechanical fingers and robotics raises questions about job displacement in industries heavily reliant on manual labor. As machines become more capable, society must grapple with the implications of automation on employment and the economy. Additionally, there are concerns about accessibility; ensuring that all individuals, regardless of socio-economic status, have access to these life-changing technologies is paramount.In conclusion, the concept of the mechanical finger (机械手指) represents a fascinating intersection of technology and humanity. From enhancing the lives of those with disabilities to transforming industries and medical practices, these devices hold immense promise. As we continue to innovate and explore the capabilities of mechanical fingers, it is essential to address the ethical challenges that accompany such advancements, ensuring that technology serves to benefit all of humanity.

在当今迅速发展的技术环境中，我们常常发现自己依赖于各种工具和设备，以增强我们的日常生活。一种新兴的有趣概念是“机械手指”这个词。它指的是旨在模仿人类手指功能的设备或机器人附肢，提供了从医疗应用到工业制造等任务中显著的精确性和灵活性。“机械手指”的发展在假肢领域具有革命性意义。对于因事故或疾病失去手指的人来说，这些先进的设备不仅提供了功能性，还带来了正常感。现代的假肢手指配备了传感器和马达，可以执行复杂的运动，使用户能够抓取物体、打字，甚至演奏乐器。这项技术改变了人们的生活，使用户能够重新获得独立性和自信心。此外，“机械手指”不仅限于假肢；它们还被用于机器人和自动化。在制造环境中，配备了“机械手指”的机器人手臂可以以超越人类能力的速度和准确性组装产品。这些机器可以不知疲倦地工作，降低生产成本，提高效率。汽车和电子等行业从这些技术的整合中受益匪浅，导致了曾经认为不可能的创新。除了工业应用外，“机械手指”在医学领域也取得了重大进展。例如，外科手术机器人利用“机械手指”进行精细的手术。外科医生可以以惊人的准确性控制这些机器人附肢，从而最大程度地减少并发症风险，提高患者的治疗效果。利用“机械手指”进行微创手术的能力彻底改变了我们对复杂医疗程序的处理方式，导致更快的恢复时间和更短的住院时间。展望未来，“机械手指”的潜力仍在不断扩大。研究人员正在探索将人工智能与这些设备集成的方法，使其能够学习和适应各种任务。想象一下，一个“机械手指”不仅能够复制人类动作，还能够预测用户的需求。这样的进步可能会导致更复杂的假肢和机器人系统，与人类无缝互动。然而，随着这些进展而来的是伦理考量。“机械手指”和机器人技术的崛起引发了关于重度依赖手工劳动的行业中工作岗位流失的问题。随着机器变得越来越强大，社会必须认真思考自动化对就业和经济的影响。此外，人们还担心可及性；确保所有人，无论社会经济地位如何，都能获得这些改变生活的技术至关重要。总之，“机械手指”代表了技术与人性的迷人交汇。从增强残疾人生活到转变行业和医疗实践，这些设备蕴藏着巨大的希望。随着我们继续创新和探索“机械手指”的能力，解决伴随这些进展而来的伦理挑战至关重要，确保技术服务于全人类的利益。