electrohydraulic telemotor
简明释义
电动液压传动装置
英英释义
例句
1.In modern aircraft, the use of an electrohydraulic telemotor enhances the responsiveness of control surfaces.
在现代飞机中,使用电液遥控器增强了控制面板的响应能力。
2.The technician explained how the electrohydraulic telemotor operates in conjunction with the hydraulic pump.
技术人员解释了电液遥控器如何与液压泵协同工作。
3.The electrohydraulic telemotor is essential for operating heavy machinery remotely.
对于远程操作重型机械来说,电液遥控器是必不可少的。
4.The ship's steering system is controlled by an electrohydraulic telemotor, which allows for precise navigation.
船舶的舵系统由一个电液遥控器控制,这使得导航更加精确。
5.As part of the maintenance check, we inspected the electrohydraulic telemotor for any signs of wear.
作为维护检查的一部分,我们检查了电液遥控器是否有磨损迹象。
作文
In the world of engineering and automation, the term electrohydraulic telemotor plays a crucial role in the operation of various machinery and systems. An electrohydraulic telemotor is a device that combines electrical and hydraulic technologies to control large machinery from a distance. This technology is particularly useful in industries such as construction, manufacturing, and maritime operations, where heavy equipment must be operated with precision and safety. The ability to control hydraulic systems through electrical signals allows for greater flexibility and efficiency in operations. The working principle of an electrohydraulic telemotor involves the conversion of electrical signals into hydraulic pressure. When an operator sends an electrical signal from a remote location, the telemotor activates a hydraulic pump, which then generates the necessary pressure to move hydraulic actuators. These actuators can control various functions, such as lifting, steering, or rotating machinery components. The integration of these technologies not only enhances the performance of the equipment but also improves safety by allowing operators to maintain a safe distance from hazardous environments.One of the significant advantages of using an electrohydraulic telemotor is its ability to provide precise control over heavy machinery. Traditional hydraulic systems often require manual operation, which can be cumbersome and less accurate. However, with the introduction of telemotors, operators can achieve finer control, making it easier to perform complex tasks. For instance, in construction, cranes equipped with electrohydraulic telemotors can maneuver loads with remarkable precision, reducing the risk of accidents and improving overall productivity.Moreover, the use of electrohydraulic telemotors has revolutionized the way industries approach automation. In modern factories, automated assembly lines rely heavily on this technology to enhance production rates while minimizing human intervention. By automating processes through electrohydraulic telemotors, companies can reduce labor costs and increase efficiency, ultimately leading to higher profits.Despite the numerous benefits, the implementation of electrohydraulic telemotors does come with challenges. The initial investment in these systems can be significant, and proper training is required for operators to handle the advanced technology effectively. Additionally, maintenance of electrohydraulic systems can be more complex than traditional hydraulic systems, necessitating skilled technicians who are familiar with both electrical and hydraulic components.In conclusion, the electrohydraulic telemotor represents a remarkable advancement in the field of engineering, merging electrical and hydraulic technologies to enhance the control and operation of heavy machinery. Its ability to facilitate remote operation, improve precision, and automate processes makes it an invaluable tool in various industries. As technology continues to evolve, we can expect to see even more innovative applications of electrohydraulic telemotors that will further transform the landscape of industrial operations.
在工程和自动化的世界中,术语电液遥控器在各种机械和系统的操作中发挥着至关重要的作用。电液遥控器是一种结合了电气和液压技术以远程控制大型机械的设备。这项技术在建筑、制造和海事等行业尤其有用,因为这些行业需要精确和安全地操作重型设备。通过电信号控制液压系统的能力使得操作更加灵活和高效。电液遥控器的工作原理涉及将电信号转换为液压压力。当操作员从远程位置发送电信号时,遥控器激活液压泵,从而产生移动液压执行器所需的压力。这些执行器可以控制各种功能,例如升降、转向或旋转机械部件。这些技术的集成不仅增强了设备的性能,还通过使操作员能够保持安全距离来提高安全性,以避免危险环境。使用电液遥控器的一个显著优势是它能够对重型机械提供精确控制。传统的液压系统通常需要手动操作,这可能笨重且不够准确。然而,随着遥控器的引入,操作员可以实现更细致的控制,使得执行复杂任务变得更加容易。例如,在建筑中,配备有电液遥控器的起重机可以以惊人的精确度操纵负载,从而减少事故风险并提高整体生产力。此外,电液遥控器的使用彻底改变了各行业对自动化的看法。在现代工厂中,自动化装配线在很大程度上依赖这种技术来提高生产率,同时最小化人工干预。通过通过电液遥控器自动化流程,公司可以降低劳动力成本并提高效率,最终实现更高的利润。尽管有许多好处,实施电液遥控器也面临挑战。这些系统的初始投资可能很大,操作员需要接受适当的培训以有效处理先进技术。此外,电液系统的维护可能比传统液压系统更复杂,需要熟悉电气和液压组件的熟练技术人员。总之,电液遥控器代表了工程领域的一项显著进步,将电气和液压技术融合在一起,以增强重型机械的控制和操作。它便于远程操作、提高精度和自动化过程的能力,使其成为各行业中不可或缺的工具。随着技术的不断发展,我们可以期待看到更多创新的电液遥控器应用,这将进一步改变工业操作的格局。
