starting servomotor

简明释义

起动伺服电动机

英英释义

例句

1.During the test, we monitored the current draw of the starting servomotor 启动伺服电机 to detect any anomalies.

在测试过程中，我们监测了<开始伺服电机>的电流，以检测任何异常。

2.The operator pressed the button to initiate the starting servomotor 启动伺服电机 sequence.

操作员按下按钮以启动<开始伺服电机>序列。

3.Before starting servomotor 启动伺服电机, it's crucial to check the alignment of the gears.

在<开始伺服电机>之前，检查齿轮的对齐非常重要。

4.The software logs the time taken for the starting servomotor 启动伺服电机 to reach operational speed.

软件记录了<开始伺服电机>达到工作速度所需的时间。

5.The technician adjusted the parameters before the starting servomotor 启动伺服电机 to ensure optimal performance.

技术员在<开始伺服电机>之前调整了参数，以确保最佳性能。

作文

In the world of automation and robotics, the role of motors is crucial. Among these, the starting servomotor plays a significant part in ensuring precision and efficiency in various applications. A starting servomotor (起始伺服电动机) is designed to provide accurate control of angular or linear position, velocity, and acceleration. This type of motor is commonly used in industrial machinery, robotics, and even consumer electronics, where precise movements are essential.When we talk about the starting servomotor, it is important to understand its function. Unlike traditional motors, which may simply turn on and off, a starting servomotor is capable of responding to commands with high precision. It can adjust its speed and position based on feedback from sensors, making it ideal for applications that require fine-tuned movements. For instance, in robotic arms used in manufacturing, the starting servomotor allows for intricate tasks such as assembling components or welding parts together.The technology behind a starting servomotor involves a closed-loop control system. This means that the motor continuously receives feedback about its current position and speed, allowing it to make real-time adjustments. This feedback loop is what sets servomotors apart from standard motors, which operate on open-loop systems without such feedback. The advanced control algorithms used in starting servomotors enable them to achieve remarkable accuracy, often within fractions of a degree.Another aspect to consider is the startup process of a starting servomotor. When power is applied, the motor must begin its operation smoothly and efficiently. This is where the term 'starting' comes into play. A well-designed starting servomotor will have features that prevent sudden jerks or excessive current draw at startup. This not only protects the motor but also ensures that the connected machinery operates smoothly.In addition to their operational benefits, starting servomotors also contribute to energy efficiency. By using precise control, they can minimize energy consumption during operation. This is particularly important in industries where energy costs can significantly impact profitability. For example, in automated production lines, using starting servomotors can lead to lower energy bills while maintaining high levels of productivity.Moreover, the versatility of starting servomotors makes them suitable for a wide range of applications beyond industrial settings. They are increasingly being used in medical devices, aerospace technology, and even in home appliances. As technology continues to advance, the demand for starting servomotors is expected to grow, leading to further innovations in their design and functionality.In conclusion, the starting servomotor is an essential component in modern automation systems. Its ability to provide precise control and efficient operation makes it invaluable in various fields. As industries continue to evolve and embrace automation, understanding the significance of technologies like the starting servomotor will be crucial for future advancements. Whether in robotics, manufacturing, or everyday appliances, the impact of starting servomotors is undeniable, paving the way for smarter and more efficient technologies.

在自动化和机器人技术的世界中，电动机的作用至关重要。在这些电动机中，起始伺服电动机 在确保各种应用的精确度和效率方面发挥着重要作用。起始伺服电动机（starting servomotor）旨在提供对角度或线性位置、速度和加速度的准确控制。这种类型的电动机通常用于工业机械、机器人，甚至消费电子产品中，在这些领域，精确的运动是必不可少的。当我们谈论起始伺服电动机时，了解其功能非常重要。与传统电动机不同，传统电动机可能仅仅是开关操作，而起始伺服电动机能够高精度地响应指令。它可以根据传感器的反馈调整其速度和位置，使其成为需要精细运动的应用的理想选择。例如，在制造业中使用的机器人手臂，起始伺服电动机可以完成复杂的任务，如组装组件或焊接零件。起始伺服电动机背后的技术涉及闭环控制系统。这意味着电动机持续接收有关其当前位置和速度的反馈，从而使其能够进行实时调整。这个反馈回路就是伺服电动机与标准电动机的区别所在，后者在没有这种反馈的情况下工作于开放式系统。起始伺服电动机中使用的先进控制算法使其能够实现惊人的精度，通常在几分之一度之内。另一个需要考虑的方面是起始伺服电动机的启动过程。当施加电源时，电动机必须平稳高效地开始运行。这就是“起始”一词的意义所在。设计良好的起始伺服电动机将具备防止启动时突然抖动或过大电流抽取的特性。这不仅保护了电动机，还确保连接的机械设备平稳运行。除了操作上的好处外，起始伺服电动机还促进了能源效率。通过使用精确控制，它们可以在操作过程中最小化能源消耗。这在能源成本可能显著影响盈利能力的行业中尤其重要。例如，在自动化生产线中，使用起始伺服电动机可以降低电费，同时保持高水平的生产率。此外，起始伺服电动机的多功能性使其适用于广泛的应用，超越了工业环境。它们越来越多地应用于医疗设备、航空航天技术，甚至家用电器。随着技术的不断进步，对起始伺服电动机的需求预计将增长，从而推动其设计和功能的进一步创新。总之，起始伺服电动机是现代自动化系统中的重要组成部分。其提供精确控制和高效操作的能力使其在各个领域中不可或缺。随着各行业继续发展并拥抱自动化，理解像起始伺服电动机这样的技术的重要性将对未来的进步至关重要。无论是在机器人技术、制造业还是日常电器中，起始伺服电动机的影响都是不可否认的，为更智能、更高效的技术铺平了道路。