auxiliary arm

简明释义

辅臂

英英释义

例句

1.The robot's auxiliary arm 辅助臂 allowed it to lift heavier objects with ease.

机器人的辅助臂 auxiliary arm 让它能够轻松地举起更重的物体。

2.During the assembly process, the auxiliary arm 辅助臂 provided additional support to stabilize the main structure.

在组装过程中，辅助臂 auxiliary arm 为稳定主结构提供了额外的支持。

3.The drone was equipped with an auxiliary arm 辅助臂 to carry additional payloads during delivery missions.

这架无人机配备了一个辅助臂 auxiliary arm，以便在配送任务中携带额外的有效载荷。

4.In the new design, the auxiliary arm 辅助臂 can be adjusted for different tasks, making it more versatile.

在新设计中，辅助臂 auxiliary arm 可以根据不同任务进行调整，使其更加多功能。

5.The surgeon used an auxiliary arm 辅助臂 on the robotic surgical system to enhance precision during the operation.

外科医生在机器人手术系统上使用了一个辅助臂 auxiliary arm 来提高手术的精确度。

作文

In the realm of robotics and automation, the term auxiliary arm refers to a secondary arm that provides additional support or functionality to a primary robotic arm. This concept is becoming increasingly important as industries seek to enhance their operational efficiency and productivity. The auxiliary arm can be used in various applications, ranging from manufacturing to healthcare, where precision and dexterity are crucial. One of the primary advantages of incorporating an auxiliary arm into robotic systems is the increased versatility it offers. For instance, in a manufacturing setting, a primary robotic arm may be responsible for assembling components, while an auxiliary arm can assist by holding parts in place or performing secondary tasks such as quality inspection. This collaborative approach not only speeds up the production process but also minimizes the risk of errors, ensuring that products meet stringent quality standards.Moreover, the integration of auxiliary arms can significantly improve safety in hazardous work environments. In industries like construction or mining, where workers are exposed to dangerous conditions, robotic arms equipped with auxiliary arms can perform risky tasks without putting human lives at risk. For example, an auxiliary arm could be deployed to handle heavy materials or navigate through tight spaces, allowing human workers to focus on oversight and control rather than direct involvement in potentially perilous operations.The healthcare sector also stands to benefit from the implementation of auxiliary arms. Surgical robots, for instance, often utilize auxiliary arms to assist surgeons during complex procedures. These robotic systems can provide enhanced precision and stability, allowing for minimally invasive surgeries that reduce recovery times for patients. The auxiliary arm can hold instruments steady or even assist in suturing, thus enhancing the overall effectiveness of surgical interventions.Furthermore, the development of auxiliary arms is closely linked with advancements in artificial intelligence and machine learning. As these technologies evolve, we can expect auxiliary arms to become more intuitive and capable of adapting to various tasks autonomously. This means that in the near future, we might see auxiliary arms that can learn from their environment and optimize their performance based on real-time data, making them invaluable assets across multiple sectors.In conclusion, the concept of the auxiliary arm is integral to the future of robotics and automation. By providing additional support and functionality, auxiliary arms enhance the capabilities of primary robotic systems, promoting efficiency, safety, and precision in various industries. As technology continues to advance, we can anticipate even greater innovations in the design and application of auxiliary arms, ultimately transforming how we work and interact with machines.

在机器人和自动化领域，术语auxiliary arm指的是一个提供额外支持或功能的辅助臂。随着各行各业寻求提高运营效率和生产力，这一概念变得越来越重要。auxiliary arm可以用于各种应用，从制造业到医疗保健，在这些领域中，精确性和灵活性至关重要。将auxiliary arm纳入机器人系统的主要优势之一是它所提供的多样性。例如，在制造环境中，主要的机器人臂可能负责组装组件，而auxiliary arm可以通过固定零件或执行质量检查等次要任务来协助。这种协作方法不仅加快了生产过程，还最小化了错误的风险，确保产品符合严格的质量标准。此外，集成auxiliary arms可以显著提高危险工作环境中的安全性。在建筑或采矿等行业，工人面临危险条件，配备有auxiliary arms的机器人臂可以在不危及人类生命的情况下执行危险任务。例如，auxiliary arm可以用于处理重物或在狭窄空间内导航，使人类工人能够专注于监督和控制，而不是直接参与潜在危险的操作。医疗行业也将从实施auxiliary arms中受益。例如，外科机器人通常利用auxiliary arms来协助外科医生进行复杂的手术。这些机器人系统可以提供增强的精确度和稳定性，允许进行微创手术，从而缩短患者的恢复时间。auxiliary arm可以稳固地持有仪器，甚至协助缝合，从而增强外科干预的整体效果。此外，auxiliary arms的发展与人工智能和机器学习的进步密切相关。随着这些技术的发展，我们可以期待auxiliary arms变得更加直观，并能够自主适应各种任务。这意味着在不久的将来，我们可能会看到能够从其环境中学习并根据实时数据优化其性能的auxiliary arms，使它们成为多个行业中不可或缺的资产。总之，auxiliary arm的概念对机器人和自动化的未来至关重要。通过提供额外的支持和功能，auxiliary arms增强了主要机器人系统的能力，促进了各行业的效率、安全性和精确性。随着技术的不断进步，我们可以预见到在auxiliary arms的设计和应用方面会有更大的创新，最终改变我们与机器的工作和互动方式。