telescopic manipulator

简明释义

伸缩式机械手

英英释义

例句

1.During the rescue operation, the telescopic manipulator helped retrieve trapped individuals from the rubble.

在救援行动中，伸缩操纵器帮助从废墟中救出被困人员。

2.In the robotics lab, students programmed a telescopic manipulator to perform precise movements.

在机器人实验室，学生们编程了一个伸缩操纵器以执行精确的动作。

3.The construction crew used a telescopic manipulator to lift heavy materials to the top of the building.

建筑队使用伸缩操纵器将重材料提升到建筑物顶部。

4.The telescopic manipulator is essential for reaching difficult spots in the assembly line.

在装配线上，伸缩操纵器对于到达困难的位置至关重要。

5.The artist used a telescopic manipulator to create large-scale sculptures with ease.

艺术家使用伸缩操纵器轻松创作大型雕塑。

作文

In the modern world, technology continues to evolve at an astonishing pace, leading to innovations that enhance our daily lives and industrial processes. One such innovation is the telescopic manipulator, a versatile tool designed to extend and retract, allowing operators to reach difficult areas easily. This device has found applications in various fields, including construction, manufacturing, and even space exploration. The design of a telescopic manipulator typically includes multiple sections that can slide into one another, similar to a telescope. This feature enables it to achieve considerable length while maintaining a compact form when not in use.The primary advantage of using a telescopic manipulator is its ability to access hard-to-reach places without compromising safety. In construction sites, for example, workers often need to lift heavy materials to high elevations. A telescopic manipulator can extend its reach to deliver these materials precisely where they are needed, minimizing the risk of accidents associated with manual lifting. Moreover, this equipment can be operated remotely, further enhancing safety by keeping operators at a safe distance from hazardous conditions.In manufacturing, telescopic manipulators play a crucial role in assembly lines. They can handle components that are too large or awkward for human workers to manage effectively. By automating the process, manufacturers can increase efficiency and reduce labor costs. Additionally, the precision of a telescopic manipulator ensures that parts are placed accurately, which is vital for quality control in production.Space exploration is another area where the telescopic manipulator shines. Robotic arms equipped with telescopic capabilities are used on spacecraft to perform tasks such as repairing satellites or conducting experiments on other planets. These manipulators can extend their reach to navigate the complexities of outer space, demonstrating their versatility and importance in missions that require precision and adaptability.Despite their many advantages, the implementation of telescopic manipulators is not without challenges. For instance, the mechanical complexity of these devices can lead to maintenance issues. Regular inspections and repairs are necessary to ensure they function correctly and safely. Furthermore, operators must be trained to use them effectively, as improper handling can result in accidents or damage to the equipment.In conclusion, the telescopic manipulator represents a significant advancement in technology, providing solutions to challenges faced in various industries. Its ability to extend and retract allows for greater flexibility and safety in operations, making it an invaluable tool in construction, manufacturing, and space exploration. As technology continues to advance, we can expect further innovations in the design and functionality of telescopic manipulators, paving the way for even more efficient and safer practices in the future.

在现代世界中，技术以惊人的速度不断发展，导致了提升我们日常生活和工业过程的创新。其中一种创新是伸缩操纵器，这是一种多功能工具，旨在伸展和收缩，使操作员能够轻松到达困难区域。该设备已在多个领域找到应用，包括建筑、制造甚至太空探索。伸缩操纵器的设计通常包括多个可以相互滑动的部分，类似于望远镜。这一特点使其能够在不使用时保持紧凑的形态，同时实现相当大的长度。使用伸缩操纵器的主要优势在于其能够在不妥协安全的情况下访问难以到达的地方。例如，在建筑工地上，工人经常需要将重物提升到高处。伸缩操纵器可以延伸其范围，将这些材料准确送到所需位置，从而减少与手动搬运相关的事故风险。此外，该设备可以远程操作，进一步增强安全性，使操作员远离危险条件。在制造业中，伸缩操纵器在装配线上发挥着至关重要的作用。它们可以处理对人类工人来说过大或过于笨重的组件。通过自动化这一过程，制造商可以提高效率并降低劳动力成本。此外，伸缩操纵器的精确性确保了零件的准确放置，这对生产中的质量控制至关重要。太空探索是伸缩操纵器表现出色的另一个领域。配备伸缩能力的机器人臂被用于航天器上执行修理卫星或在其他行星上进行实验等任务。这些操纵器可以扩展其触角，以应对外太空的复杂性，展示了它们在需要精确和适应性的任务中的多功能性和重要性。尽管有许多优点，但实施伸缩操纵器并非没有挑战。例如，这些设备的机械复杂性可能导致维护问题。定期检查和维修是确保其正常和安全运行的必要条件。此外，操作员必须接受有效使用它们的培训，因为不当操作可能导致事故或设备损坏。总之，伸缩操纵器代表了技术的重要进步，为各行业面临的挑战提供了解决方案。其伸展和收缩的能力使得操作更加灵活和安全，使其成为建筑、制造和太空探索中不可或缺的工具。随着技术的不断进步，我们可以期待在伸缩操纵器的设计和功能上进一步创新，为未来更高效和安全的实践铺平道路。