numerically controlled robot

简明释义

数控机扑

英英释义

例句

1.In aerospace manufacturing, a numerically controlled robot is essential for quality assurance.

在航空制造中，数控机器人对于质量保证至关重要。

2.The programming of a numerically controlled robot requires specialized skills.

编程数控机器人需要专业技能。

3.The numerically controlled robot can perform complex tasks that require high accuracy.

数控机器人可以执行需要高精度的复杂任务。

4.The factory uses a numerically controlled robot to automate the assembly line.

工厂使用一个数控机器人来自动化装配线。

5.With a numerically controlled robot, precision in machining has greatly improved.

使用数控机器人后，加工的精度大大提高。

作文

In the modern world, technology plays a pivotal role in shaping industries and enhancing productivity. One of the most significant advancements in manufacturing is the introduction of the numerically controlled robot (数控机器人). These robots have revolutionized the way products are made, allowing for precision and efficiency that were previously unattainable. A numerically controlled robot operates under a set of instructions that dictate its movements and actions, enabling it to perform tasks with remarkable accuracy. This level of control is achieved through computer programming, which allows for complex operations to be executed seamlessly.The use of numerically controlled robots can be observed in various industries, including automotive, electronics, and aerospace. For instance, in the automotive sector, these robots are employed to assemble parts, weld components, and even paint vehicles. The ability of a numerically controlled robot to repeat tasks with consistent precision minimizes errors and reduces waste, ultimately leading to cost savings for manufacturers.One of the key advantages of utilizing numerically controlled robots is their ability to operate continuously without fatigue. Unlike human workers, robots do not require breaks, sleep, or time off, which means they can work around the clock. This constant productivity is particularly beneficial in high-demand environments where meeting production quotas is crucial. Furthermore, the integration of numerically controlled robots into production lines can lead to improved safety. By assigning dangerous tasks to robots, companies can protect their employees from potential hazards associated with manual labor.Moreover, the flexibility of numerically controlled robots allows them to be reprogrammed for different tasks, making them a versatile asset in any manufacturing setting. This adaptability means that as market demands change, companies can quickly adjust their production processes without the need for extensive downtime or retraining of staff. As a result, businesses can remain competitive and responsive to consumer needs.Despite the numerous benefits, the rise of numerically controlled robots has also sparked discussions about the future of employment. While these robots enhance efficiency and reduce costs, there is concern about the potential displacement of human workers. It is essential for industries to find a balance between automation and job preservation. Training programs can be implemented to help workers transition into new roles that complement robotic technology, ensuring that they remain valuable assets to their companies.In conclusion, the advent of the numerically controlled robot marks a significant milestone in industrial evolution. Their ability to perform tasks with precision, operate continuously, and adapt to changing demands makes them an invaluable tool in modern manufacturing. However, as we embrace this technological advancement, it is crucial to address the implications for the workforce and seek solutions that benefit both industry and employees. The future of manufacturing will undoubtedly be shaped by the synergy between humans and numerically controlled robots, paving the way for a more efficient and innovative industrial landscape.

在现代世界，技术在塑造行业和提高生产力方面发挥着关键作用。制造业中最重要的进步之一是引入了数控机器人。这些机器人彻底改变了产品制造的方式，使得以前无法实现的精确度和效率成为可能。数控机器人根据一套指令操作，这些指令决定了它的运动和动作，使其能够以惊人的准确性执行任务。这种控制水平是通过计算机编程实现的，这使得复杂的操作可以无缝执行。数控机器人的使用可以在多个行业中观察到，包括汽车、电子和航空航天等。例如，在汽车行业，这些机器人被用于组装零件、焊接组件甚至喷涂车辆。数控机器人重复任务的一致精确性最小化了错误并减少了浪费，最终为制造商节省了成本。利用数控机器人的一个关键优势是它们能够持续工作而不感到疲劳。与人类工人不同，机器人不需要休息、睡觉或请假，这意味着它们可以全天候工作。这种持续的生产力在高需求环境中特别有利，因为满足生产配额至关重要。此外，将危险任务分配给机器人可以提高安全性，保护员工免受与手工劳动相关的潜在危害。此外，数控机器人的灵活性使其可以重新编程以执行不同的任务，使其成为任何制造环境中的多功能资产。这种适应性意味着随着市场需求的变化，公司可以快速调整生产过程，而无需大量停机或重新培训员工。因此，企业能够保持竞争力并对消费者需求做出反应。尽管有许多好处，但数控机器人的崛起也引发了关于就业未来的讨论。虽然这些机器人提高了效率并降低了成本，但人们担心可能会取代人类工人。工业界必须找到自动化与保留工作的平衡。可以实施培训项目，帮助工人过渡到与机器人技术相辅相成的新角色，确保他们仍然是公司宝贵的资产。总之，数控机器人的出现标志着工业演变的重要里程碑。它们以精确的方式执行任务、持续工作并适应不断变化的需求，使其成为现代制造中不可或缺的工具。然而，在我们拥抱这一技术进步时，至关重要的是要解决对劳动力的影响，并寻求对行业和员工都有利的解决方案。制造业的未来无疑将受到人类与数控机器人之间协同作用的影响，为更高效和创新的工业格局铺平道路。