sliding cradle

简明释义

下水架

英英释义

例句

1.In the workshop, the sliding cradle made it easier to move heavy materials without risk of injury.

在车间，滑动摇篮使得移动重物变得更加容易，减少了受伤的风险。

2.We installed a new sliding cradle in the assembly line to improve efficiency.

我们在装配线上安装了一个新的滑动摇篮以提高效率。

3.The sliding cradle can be locked in place for added safety during operations.

滑动摇篮可以在操作期间锁定以增加安全性。

4.The design of the sliding cradle allows for smooth transitions between different workstations.

该滑动摇篮的设计允许在不同工作站之间平稳过渡。

5.The technician adjusted the height of the sliding cradle to ensure the equipment was at the right level for maintenance.

技术员调整了滑动摇篮的高度，以确保设备处于维护的正确水平。

作文

In the world of engineering and design, the term sliding cradle refers to a support structure that allows for smooth movement along a predetermined path. This concept is not only applicable in mechanical systems but also finds its relevance in various fields such as robotics, manufacturing, and even in medical equipment. Understanding the functionality and applications of a sliding cradle can provide insights into how we can improve efficiency and precision in our daily tasks.A sliding cradle typically consists of a base that remains stationary while the cradle itself can move back and forth or side to side. This design is particularly useful in situations where items need to be positioned accurately without manual intervention. For example, in a manufacturing assembly line, a sliding cradle can be used to hold components in place while they are being assembled or inspected. By allowing for quick adjustments and easy access, it enhances productivity and reduces the risk of errors.Moreover, in the field of robotics, a sliding cradle plays a crucial role in enabling robotic arms to perform complex tasks with high precision. The cradle provides stability while allowing the arm to slide into position, making it easier to manipulate objects in a controlled manner. This application is particularly important in industries such as automotive and electronics, where precision is paramount.The medical field also benefits from the use of sliding cradle mechanisms. In imaging equipment, for instance, a sliding cradle can help position patients accurately for X-rays or MRIs. The ability to adjust the cradle ensures that the imaging process is both efficient and comfortable for the patient, which is essential for obtaining high-quality results.Furthermore, the design of a sliding cradle can be adapted to meet specific needs. Engineers can modify the dimensions, materials, and mechanics of the cradle to suit different applications. This adaptability makes it a versatile tool in various industries. For instance, in the construction sector, a larger sliding cradle may be utilized to support heavy equipment, while smaller versions can be found in laboratory settings for delicate instruments.In conclusion, the sliding cradle is an essential component in many modern technologies. Its ability to facilitate smooth movement while providing stable support has made it invaluable across various fields. By understanding the principles behind a sliding cradle, we can appreciate the intricate designs that enhance our everyday lives and contribute to advancements in technology. As we continue to innovate and push the boundaries of what is possible, the sliding cradle will undoubtedly remain a key element in our quest for efficiency and precision.

在工程和设计的世界中，术语滑动摇篮指的是一种支撑结构，允许沿着预定路径平稳移动。这个概念不仅适用于机械系统，还在机器人技术、制造业甚至医疗设备等多个领域中具有相关性。理解滑动摇篮的功能和应用可以为我们提供如何提高日常任务效率和精确度的见解。滑动摇篮通常由一个保持静止的底座和一个可以前后或左右移动的摇篮组成。这种设计在需要将物品准确定位而无需手动干预的情况下特别有用。例如，在制造装配线上，滑动摇篮可以用来支撑组件，同时进行组装或检查。通过允许快速调整和便捷访问，它提高了生产力并减少了错误的风险。此外，在机器人领域，滑动摇篮在使机器人手臂执行复杂任务时发挥着关键作用。摇篮提供了稳定性，同时允许手臂滑入位置，使操纵物体变得更加容易。这种应用在汽车和电子等行业尤为重要，因为精度至关重要。医疗领域也受益于滑动摇篮机制的使用。例如，在成像设备中，滑动摇篮可以帮助准确定位患者进行X光或MRI检查。调整摇篮的能力确保成像过程既高效又舒适，这对获得高质量结果至关重要。此外，滑动摇篮的设计可以根据特定需求进行调整。工程师可以修改摇篮的尺寸、材料和机械结构，以适应不同的应用。这种适应性使其成为各个行业中的多功能工具。例如，在建筑行业中，可能会使用较大的滑动摇篮来支撑重型设备，而较小的版本则可以在实验室环境中找到，用于精密仪器。总之，滑动摇篮是许多现代技术中的一个重要组成部分。它能够促进平稳移动，同时提供稳定支撑，使其在各个领域中不可或缺。通过理解滑动摇篮背后的原理，我们可以欣赏到增强我们日常生活的复杂设计，并为技术进步做出贡献。随着我们继续创新并推动可能性的边界，滑动摇篮无疑将继续成为我们追求效率和精确度的重要元素。