actuating quantity
简明释义
作用量
英英释义
A measurable variable that initiates or controls the operation of a system or device, often used in engineering and automation contexts. | 一个可测量的变量,用于启动或控制系统或设备的操作,通常用于工程和自动化领域。 |
例句
1.Adjusting the actuating quantity can significantly improve energy efficiency.
调整驱动量可以显著提高能效。
2.The engineer determined the actuating quantity to optimize the system's performance.
工程师确定了驱动量以优化系统性能。
3.In this robotic arm, the actuating quantity is the amount of torque applied to each joint.
在这个机器人手臂中,驱动量是施加到每个关节的扭矩量。
4.To ensure accurate measurements, we must calibrate the actuating quantity before testing.
为了确保准确的测量,我们必须在测试前校准驱动量。
5.The actuating quantity in hydraulic systems is often measured in pressure units.
液压系统中的驱动量通常以压力单位来测量。
作文
In the realm of engineering and control systems, understanding the concept of actuating quantity is crucial for the successful design and implementation of automated processes. The term actuating quantity refers to the specific variable or parameter that is manipulated to produce a desired effect in a system. This could be anything from voltage in an electrical circuit, pressure in a hydraulic system, or even the position of a mechanical component. By controlling the actuating quantity, engineers can influence the behavior of a system and achieve the intended outcomes.For instance, consider a temperature control system in a building. The actuating quantity in this case might be the amount of heat generated by a furnace. By adjusting the heat output based on the temperature readings from sensors, the system can maintain a comfortable environment for occupants. This example illustrates how the actuating quantity serves as a vital link between the input (temperature setting) and the output (actual room temperature).Moreover, the importance of actuating quantity extends beyond simple control systems. In robotics, for example, the actuating quantity could be the torque applied to a motor that drives a robotic arm. Precise control of this quantity allows the robot to perform intricate tasks, such as assembling components or performing delicate surgeries. Here, the manipulation of the actuating quantity directly correlates with the robot’s ability to execute complex movements accurately.In addition to its applications in mechanical and electrical systems, the idea of actuating quantity also finds relevance in fields such as economics and environmental science. For instance, in economic models, factors like interest rates or consumer spending can be considered actuating quantities that drive market dynamics. Similarly, in environmental studies, variables such as carbon emissions or water usage can act as actuating quantities influencing ecological outcomes. Understanding these relationships helps policymakers make informed decisions that can lead to sustainable practices.To effectively utilize actuating quantity in any system, it is essential to have accurate measurements and a robust feedback mechanism. Feedback loops allow for continuous monitoring and adjustment of the actuating quantity, ensuring that the system remains stable and responsive to changes in conditions. For example, in an automated greenhouse, sensors can track humidity and temperature, and based on this data, the actuating quantity of water delivered to plants can be adjusted accordingly. This level of precision is key to optimizing performance and achieving desired results.In conclusion, the concept of actuating quantity is foundational across various disciplines, serving as a critical element in the control and optimization of systems. Whether in engineering, economics, or environmental science, recognizing and manipulating the actuating quantity allows for better control over desired outcomes. As technology continues to evolve, the importance of mastering this concept will only grow, driving innovation and efficiency in numerous applications.
在工程和控制系统的领域,理解actuating quantity(驱动量)的概念对于自动化过程的成功设计和实施至关重要。术语actuating quantity指的是被操控的特定变量或参数,以产生系统中的期望效果。这可以是电路中的电压、液压系统中的压力,甚至是机械组件的位置。通过控制actuating quantity,工程师可以影响系统的行为并实现预期的结果。例如,考虑建筑物中的温度控制系统。在这种情况下,actuating quantity可能是炉子产生的热量。通过根据传感器的温度读数调整热输出,系统可以保持居住者的舒适环境。这个例子说明了actuating quantity如何作为输入(温度设置)和输出(实际室温)之间的重要联系。此外,actuating quantity的重要性超越了简单的控制系统。在机器人技术中,例如,actuating quantity可以是施加在驱动机器人手臂的电机上的扭矩。对这一数量的精确控制使机器人能够执行复杂的任务,如组装组件或进行精细手术。在这里,actuating quantity的操控与机器人的准确执行复杂动作的能力直接相关。除了在机械和电气系统中的应用外,actuating quantity的概念在经济学和环境科学等领域同样具有相关性。例如,在经济模型中,利率或消费者支出等因素可以视为推动市场动态的actuating quantity。类似地,在环境研究中,碳排放或水使用等变量可以作为影响生态结果的actuating quantity。理解这些关系帮助政策制定者做出明智的决策,从而导致可持续的实践。为了有效利用任何系统中的actuating quantity,必须具备准确的测量和强大的反馈机制。反馈回路允许对actuating quantity进行持续监测和调整,确保系统保持稳定并对条件变化做出响应。例如,在自动化温室中,传感器可以跟踪湿度和温度,基于这些数据,可以相应调整提供给植物的水的actuating quantity。这种精确程度是优化性能和实现期望结果的关键。总之,actuating quantity的概念在各个学科中都是基础性的,作为控制和优化系统的关键元素。无论是在工程、经济学还是环境科学中,识别和操控actuating quantity使得对期望结果的控制更好。随着技术的不断发展,掌握这一概念的重要性只会增加,推动众多应用中的创新和效率。
相关单词
