dwell phase robot

简明释义

机扑的暂停状态

英英释义

例句

1.The dwell phase robot is programmed to pause for a few seconds before moving to the next task.

这个dwell phase robot被编程为在下一个任务之前暂停几秒钟。

2.The engineers designed a dwell phase robot to enhance the precision of component placement.

工程师设计了一个dwell phase robot以提高组件放置的精度。

3.A dwell phase robot can optimize workflow by managing pauses effectively.

dwell phase robot可以通过有效管理暂停来优化工作流程。

4.In assembly lines, the dwell phase robot allows for quality checks during production.

在生产线上，dwell phase robot允许在生产过程中进行质量检查。

5.During the testing phase, the dwell phase robot ensures that each part is correctly aligned.

在测试阶段，dwell phase robot确保每个部件正确对齐。

作文

In the realm of robotics, the term dwell phase robot refers to a specific type of robotic system that is designed to operate during a period of inactivity or pause within a cycle. This concept is particularly important in manufacturing and automation processes where robots are required to perform tasks with precision and efficiency. The dwell phase robot can be programmed to enter a state of rest or hold while waiting for further instructions or signals from other machines or operators. This capability allows for better synchronization in complex workflows, ensuring that each component of the operation is aligned and functioning optimally.The significance of the dwell phase robot lies in its ability to enhance productivity. In many manufacturing environments, there are moments when machines must pause to allow for quality checks, material replenishment, or even just to ensure that safety protocols are being followed. During these pauses, the dwell phase robot can maintain its position and be ready to resume work immediately once the process is cleared to continue. This reduces downtime and increases overall efficiency, which is crucial in competitive industries.Moreover, the integration of dwell phase robots into production lines contributes to the reduction of wear and tear on machinery. By allowing robots to enter a dwell phase rather than constantly moving or exerting force, manufacturers can prolong the lifespan of their equipment. This not only translates to cost savings but also supports sustainable practices by minimizing waste and energy consumption.As technology advances, the programming of dwell phase robots has become more sophisticated. Modern robots can utilize sensors and artificial intelligence to determine the optimal time to enter a dwell phase. For instance, if a robot is part of an assembly line that relies on human intervention at certain points, it can automatically pause when it detects that a worker is present, ensuring safety and efficiency.In addition to manufacturing, the concept of dwell phase robots is applicable in various fields such as healthcare, logistics, and even space exploration. In healthcare, for example, surgical robots may need to pause during intricate procedures to allow surgeons to make critical decisions. In logistics, automated guided vehicles (AGVs) can use dwell phases to wait for clearance before moving to the next stage of delivery.In conclusion, the dwell phase robot represents a vital innovation in the field of robotics, enhancing productivity, safety, and sustainability across various industries. As we move towards a future where automation plays an increasingly significant role, understanding and implementing the principles behind dwell phase robots will be essential for optimizing operations and achieving greater efficiency. The ability to program robots to effectively manage dwell phases will undoubtedly shape the future of automation and robotics, making it a fascinating area of study and development.

在机器人技术领域，术语停留阶段机器人指的是一种特定类型的机器人系统，旨在在周期内的不活动或暂停期间操作。这个概念在制造和自动化过程中尤为重要，因为机器人需要以精确和高效的方式执行任务。停留阶段机器人可以被编程进入一种休息或保持状态，同时等待来自其他机器或操作员的进一步指令或信号。这种能力允许在复杂的工作流程中更好地同步，确保操作的每个组件都对齐并正常运行。停留阶段机器人的重要性在于其增强生产力的能力。在许多制造环境中，机器在进行质量检查、补充材料或确保遵循安全协议时，必须暂停。在这些暂停期间，停留阶段机器人可以保持其位置，并在过程清理后立即准备恢复工作。这减少了停机时间并提高了整体效率，这在竞争激烈的行业中至关重要。此外，将停留阶段机器人集成到生产线中有助于减少机械磨损。通过允许机器人进入停留阶段，而不是不断移动或施加力量，制造商可以延长设备的使用寿命。这不仅转化为成本节约，还通过最小化浪费和能源消耗来支持可持续实践。随着技术的发展，停留阶段机器人的编程变得更加复杂。现代机器人可以利用传感器和人工智能来确定进入停留阶段的最佳时机。例如，如果一个机器人是依赖人类干预的装配线的一部分，它可以在检测到工人存在时自动暂停，从而确保安全和效率。除了制造业，停留阶段机器人的概念还适用于医疗、物流甚至太空探索等各个领域。在医疗保健中，例如，外科机器人可能需要在复杂的手术过程中暂停，以便让外科医生做出关键决策。在物流中，自动导引车（AGV）可以利用停留阶段在移动到下一阶段的交付之前等待清理。总之，停留阶段机器人代表了机器人领域的一项重要创新，增强了各个行业的生产力、安全性和可持续性。随着我们迈向一个自动化角色日益重要的未来，理解和实施停留阶段机器人背后的原则将对优化操作和实现更高效率至关重要。有效地编程机器人以管理停留阶段无疑将塑造自动化和机器人技术的未来，使其成为一个引人入胜的研究和发展领域。