follow-up motor
简明释义
随动电动机
英英释义
例句
1.After the upgrade, the follow-up motor showed improved efficiency and reduced noise levels.
升级后,后续电动机显示出更高的效率和更低的噪音水平。
2.The technician replaced the faulty part in the follow-up motor to ensure it operates smoothly.
技术人员更换了后续电动机中的故障部件,以确保其平稳运行。
3.We need to calibrate the follow-up motor to ensure accurate performance in the assembly line.
我们需要校准后续电动机以确保装配线的准确性能。
4.During the maintenance check, we discovered that the follow-up motor was not responding properly.
在维护检查中,我们发现后续电动机反应不正常。
5.The follow-up motor plays a crucial role in controlling the speed of the conveyor belt.
后续电动机在控制输送带速度方面起着至关重要的作用。
作文
In the realm of engineering and robotics, the term follow-up motor plays a significant role in enhancing the functionality and precision of various systems. A follow-up motor is essentially a type of motor that is employed to ensure that the position or movement of a primary device is accurately replicated or followed. This is particularly crucial in applications where precise control and synchronization are required, such as in servo systems or automated machinery.The operation of a follow-up motor is based on feedback mechanisms. When a primary motor or actuator moves, the follow-up motor receives signals that indicate the position or speed of that movement. It then adjusts its own position accordingly to match the primary device. This feedback loop allows for high levels of accuracy and responsiveness, making follow-up motors indispensable in modern technology.One common application of follow-up motors can be found in CNC (Computer Numerical Control) machines, which are widely used in manufacturing. In these machines, the main spindle motor controls the cutting tool's movement, while follow-up motors ensure that the tool maintains the correct trajectory and depth during operation. This synergy between the primary motor and follow-up motors results in high-quality machining with minimal errors.Moreover, follow-up motors are also utilized in robotics, particularly in robotic arms. For instance, when a robotic arm is programmed to pick up an object, the primary motor moves the arm to the designated location. The follow-up motor then ensures that the arm's position is adjusted in real-time to accommodate any changes in the object's position or orientation. This capability is essential for tasks that require dexterity and precision, such as assembling electronic components or performing delicate surgical procedures.The integration of follow-up motors into various systems not only improves their performance but also enhances safety. In applications where human operators are present, such as in collaborative robots (cobots), the use of follow-up motors allows for smoother interactions. These motors can detect the slightest movements and adjust accordingly, preventing accidents and ensuring a safer working environment.In conclusion, the significance of follow-up motors cannot be overstated in the fields of engineering and robotics. They provide the necessary feedback and control mechanisms that allow primary devices to operate with precision and reliability. As technology continues to evolve, the role of follow-up motors will likely expand, leading to even more advanced applications and innovations. Understanding how these motors function and their importance in various systems is essential for anyone looking to delve deeper into the world of automation and robotics.Overall, the term follow-up motor refers to a type of motor that ensures the accurate replication of movement or position, making it a vital component in numerous technological applications. Its ability to enhance precision, improve performance, and promote safety highlights the critical role it plays in modern engineering and robotics.
在工程和机器人领域,术语follow-up motor(跟随电机)在增强各种系统的功能性和精确性方面发挥着重要作用。follow-up motor本质上是一种电机,用于确保主设备的位置或运动被准确复制或跟随。这在需要精确控制和同步的应用中尤其重要,例如伺服系统或自动化机械。follow-up motor的操作基于反馈机制。当主电机或执行器移动时,follow-up motor接收指示该运动的位置或速度的信号。然后,它调整自己的位置,以便与主设备相匹配。这种反馈循环允许高水平的准确性和响应能力,使得follow-up motors在现代技术中不可或缺。follow-up motors的一个常见应用可以在CNC(计算机数控)机床中找到,这些机床广泛用于制造。在这些机器中,主主轴电机控制切削工具的运动,而follow-up motors确保工具在操作过程中保持正确的轨迹和深度。这种主电机与follow-up motors之间的协同作用使得高质量加工成为可能,错误最小化。此外,follow-up motors也用于机器人技术,特别是在机器人手臂中。例如,当机器人手臂被编程去拾取物体时,主电机将手臂移动到指定位置。然后,follow-up motor确保手臂的位置实时调整,以适应物体位置或方向的任何变化。这种能力对于需要灵活性和精确性的任务至关重要,例如组装电子元件或进行精细的外科手术。将follow-up motors集成到各种系统中不仅提高了其性能,还增强了安全性。在存在人工操作员的应用中,例如在协作机器人(cobot)中,使用follow-up motors可以实现更平滑的交互。这些电机能够检测到微小的运动并相应地调整,从而防止事故并确保更安全的工作环境。总之,follow-up motors的重要性在工程和机器人领域不容小觑。它们提供必要的反馈和控制机制,使主设备以精确可靠的方式运行。随着技术的不断发展,follow-up motors的作用可能会扩大,导致更先进的应用和创新。理解这些电机的工作原理及其在各种系统中的重要性,对于任何希望深入探讨自动化和机器人世界的人来说都是必不可少的。总体而言,术语follow-up motor指的是一种确保运动或位置准确复制的电机,使其成为众多技术应用中的重要组成部分。它提升精度、改善性能和促进安全的能力突显了它在现代工程和机器人中的关键作用。
