underwater manipulator

简明释义

水下机械手welding manipulator 焊件支架

英英释义

例句

1.The underwater manipulator successfully retrieved the lost equipment from the depths of the sea.

这个水下操作器成功地从海底找回了丢失的设备。

2.Using an underwater manipulator allows scientists to perform delicate tasks without disturbing marine life.

使用水下操作器可以让科学家在不干扰海洋生物的情况下进行精细操作。

3.The research team deployed an underwater manipulator to collect samples from the ocean floor.

研究团队部署了一个水下操作器来从海底收集样本。

4.The underwater manipulator was essential in repairing the underwater pipeline.

这个水下操作器在修理水下管道时是必不可少的。

5.Engineers designed a new underwater manipulator that can withstand extreme pressure.

工程师设计了一种新的水下操作器，能够承受极端压力。

作文

The exploration of the ocean has always been a fascinating endeavor for scientists and engineers alike. One of the most significant advancements in this field is the development of the underwater manipulator, a specialized robotic device designed to perform tasks beneath the surface of the water. These manipulators are essential tools for various applications, including marine research, underwater construction, and even deep-sea mining. An underwater manipulator (水下操作器) is typically equipped with articulated arms that can mimic human movements. This allows them to grasp, move, and manipulate objects in challenging underwater environments. The design of these devices must take into account the unique challenges posed by water pressure, currents, and visibility. Engineers often use advanced materials and technologies to ensure that the manipulators can withstand these conditions while maintaining precision and control. One of the primary uses of an underwater manipulator is in marine research. Scientists often need to collect samples from the ocean floor or conduct experiments at depths that are inaccessible to divers. The manipulator can be operated remotely, allowing researchers to gather data without putting themselves at risk. For instance, in studying coral reefs, an underwater manipulator can carefully extract coral samples for analysis without causing damage to the delicate ecosystem. In addition to research, underwater manipulators play a crucial role in underwater construction projects. As the demand for offshore oil and gas extraction increases, the need for reliable tools to assist in these operations has grown. These manipulators can be used to assemble structures, repair pipelines, and perform maintenance tasks on underwater equipment. Their ability to operate in harsh environments makes them invaluable assets in the energy sector. Moreover, the capabilities of underwater manipulators have expanded with advancements in technology. Modern manipulators are often equipped with sensors and cameras that provide real-time feedback to operators. This allows for greater precision and efficiency in performing tasks. For example, when conducting inspections of underwater infrastructure, operators can use the visual data collected by the manipulator to identify potential issues before they become critical problems. Another exciting application of underwater manipulators is in the field of deep-sea mining. As the demand for rare minerals increases, companies are looking to the ocean floor as a new source of resources. Underwater manipulators can be used to extract minerals while minimizing environmental impact. They can operate at great depths, where traditional mining methods are not feasible. However, this also raises concerns about the ecological consequences of deep-sea mining, making it essential to develop responsible practices in conjunction with technological advancements. In conclusion, the underwater manipulator (水下操作器) is a remarkable innovation that has transformed how we explore and utilize our oceans. Its applications in marine research, underwater construction, and deep-sea mining highlight its versatility and importance in various fields. As technology continues to evolve, we can expect even more sophisticated underwater manipulators to emerge, further enhancing our ability to understand and interact with the underwater world. The future of ocean exploration looks promising, thanks to these incredible machines.

海洋探索一直是科学家和工程师们的迷人事业。在这一领域中，最重要的进展之一就是开发了水下操作器，这是一种专门设计用于在水下执行任务的机器人设备。这些操作器是各种应用的基本工具，包括海洋研究、水下建筑，甚至深海采矿。水下操作器（underwater manipulator）通常配备有可以模拟人类动作的关节臂。这使得它们能够在具有挑战性的水下环境中抓取、移动和操作物体。这些设备的设计必须考虑到水压、海流和能见度等独特挑战。工程师们通常使用先进的材料和技术，以确保操作器能够承受这些条件，同时保持精确和控制。水下操作器的主要用途之一是在海洋研究中。科学家们常常需要从海底收集样本或在潜水员无法到达的深度进行实验。操作器可以远程操作，使研究人员能够在不冒风险的情况下收集数据。例如，在研究珊瑚礁时，水下操作器可以小心地提取珊瑚样本进行分析，而不会对脆弱的生态系统造成损害。除了研究，水下操作器在水下建筑项目中也发挥着至关重要的作用。随着对海上石油和天然气开采需求的增加，对可靠工具以协助这些操作的需求也在增长。这些操作器可以用来组装结构、修理管道以及对水下设备进行维护。它们在恶劣环境中操作的能力使其成为能源部门不可或缺的资产。此外，随着技术的进步，水下操作器的能力也在不断扩大。现代操作器通常配备传感器和摄像头，提供实时反馈给操作员。这使得在执行任务时能够更高的精度和效率。例如，在对水下基础设施进行检查时，操作员可以利用操作器收集的视觉数据来识别潜在问题，防止其发展为严重问题。水下操作器的另一个令人兴奋的应用是在深海采矿领域。随着对稀有矿物需求的增加，公司正在将海底作为新的资源来源。水下操作器可以用来提取矿物，同时最小化对环境的影响。它们可以在极大的深度操作，传统采矿方法在这些深度是不可行的。然而，这也引发了对深海采矿生态后果的担忧，因此在技术进步的同时，制定负责任的实践显得至关重要。总之，水下操作器（underwater manipulator）是一项了不起的创新，改变了我们探索和利用海洋的方式。它在海洋研究、水下建筑和深海采矿中的应用突显了它在各个领域的多功能性和重要性。随着技术的不断发展，我们可以期待出现更复杂的水下操作器，进一步增强我们理解和与水下世界互动的能力。海洋探索的未来看起来很有希望，这要归功于这些令人难以置信的机器。