holding torque

简明释义

保持转矩

英英释义

例句

1.In a CNC machine, the holding torque 保持扭矩 is essential for maintaining the integrity of the workpiece.

在数控机床中，保持扭矩 保持扭矩对于保持工件的完整性至关重要。

2.When selecting a stepper motor, it is crucial to consider the holding torque 保持扭矩 for accurate positioning.

在选择步进电机时，考虑保持扭矩 保持扭矩对于精确定位至关重要。

3.The design of the clutch must account for the holding torque 保持扭矩 to prevent slippage.

离合器的设计必须考虑保持扭矩 保持扭矩以防止打滑。

4.The motor's holding torque 保持扭矩 ensures that the robotic arm stays in position when not in use.

电机的保持扭矩 保持扭矩确保机器人手臂在不使用时保持在位置。

5.The holding torque 保持扭矩 of the servo motor prevents it from drifting during operation.

伺服电机的保持扭矩 保持扭矩防止其在操作过程中漂移。

作文

In the world of engineering and machinery, understanding the concept of holding torque is crucial for designing effective systems. Holding torque refers to the amount of torque that a motor or actuator can maintain when it is not in motion. This characteristic is particularly important in applications where the position of a load must be held steady without drift, such as in robotics, conveyor systems, and various automated processes. The ability to hold a load in place is vital for ensuring precision and safety in these systems.When we delve deeper into the mechanics of holding torque, we find that it is influenced by several factors, including the type of motor used, its specifications, and the nature of the load being held. For example, stepper motors, which are commonly used in automation, have a defined holding torque that indicates the maximum load they can support when stationary. If the load exceeds this torque, the motor may lose its position, leading to potential errors in operation.The measurement of holding torque is typically expressed in units such as Newton-meters (Nm) or ounce-inches (oz-in). Engineers must carefully calculate the required holding torque for their specific applications to ensure that the motors selected can handle the anticipated loads. This calculation often involves considering factors such as friction, inertia, and the dynamic forces that may act on the system.In practical applications, the significance of holding torque cannot be overstated. For instance, in a robotic arm, the ability to maintain a specific position while performing tasks is essential for accuracy. If the holding torque is insufficient, the arm may sag or drift, resulting in misalignment and potential damage to components or products. Similarly, in conveyor systems, holding torque ensures that items remain in place during loading and unloading processes, preventing accidents and improving efficiency.Moreover, the design of control systems often incorporates holding torque considerations to enhance performance. Feedback mechanisms can be employed to monitor the position of a load and adjust the motor's output accordingly, ensuring that the holding torque remains adequate even under varying conditions. This adaptability is key in complex systems where loads may change dynamically.In conclusion, a thorough understanding of holding torque is essential for engineers and designers working with motors and automated systems. It not only affects the performance and reliability of machinery but also plays a critical role in ensuring safety and efficiency in various applications. By accurately calculating and implementing the appropriate holding torque, engineers can create robust systems that meet the demands of modern technology and industry.

在工程和机械的世界中，理解holding torque的概念对于设计有效的系统至关重要。Holding torque指的是电动机或执行器在不运动时能够维持的扭矩大小。这个特性在需要保持负载位置稳定而不发生漂移的应用中尤为重要，例如机器人、输送系统以及各种自动化过程。保持负载在原位的能力对于确保这些系统的精度和安全性至关重要。当我们深入研究holding torque的机械原理时，我们发现它受到几个因素的影响，包括所使用的电动机类型、其规格以及所保持负载的性质。例如，步进电动机是自动化中常用的一种电动机，它有一个定义的holding torque，表示其在静止状态下可以支持的最大负载。如果负载超过这个扭矩，电动机可能会失去其位置，从而导致操作中的潜在错误。Holding torque的测量通常以牛顿米（Nm）或盎司英寸（oz-in）等单位表示。工程师必须仔细计算特定应用所需的holding torque，以确保所选电动机能够处理预期的负载。这个计算通常涉及考虑摩擦、惯性以及可能作用于系统的动态力等因素。在实际应用中，holding torque的重要性不容小觑。例如，在机器人手臂中，保持特定位置的能力对于准确执行任务至关重要。如果holding torque不足，手臂可能会下垂或漂移，导致对组件或产品的错位和潜在损坏。同样，在输送系统中，holding torque确保物品在装卸过程中保持在适当位置，防止事故发生，提高效率。此外，控制系统的设计通常会考虑holding torque以增强性能。反馈机制可以用于监测负载的位置，并相应调整电动机的输出，确保即使在变化条件下，holding torque仍然足够。这种适应性在负载可能动态变化的复杂系统中是关键。总之，全面理解holding torque对于从事电动机和自动化系统工作的工程师和设计师至关重要。它不仅影响机械的性能和可靠性，还在确保各种应用的安全性和效率方面发挥着关键作用。通过准确计算和实施适当的holding torque，工程师可以创造出满足现代技术和工业需求的强大系统。