actuating system

简明释义

1. 传动系统; 2. 驱动系统; 3. 致动系统;

英英释义

例句

1.In an automated warehouse, the actuating system controls the movement of conveyor belts.

在自动化仓库中，执行系统控制传送带的运动。

2.The car's braking actuating system ensures safety during sudden stops.

汽车的刹车执行系统确保在突然停车时的安全。

3.The elevator's actuating system uses hydraulic pressure to lift and lower the cabin.

电梯的执行系统利用液压压力来升降舱体。

4.The robotic arm's actuating system allows for precise movements in manufacturing.

机器臂的执行系统使得在制造过程中能够进行精确的移动。

5.A well-designed actuating system is crucial for effective drone flight.

一个设计良好的执行系统对于无人机飞行的有效性至关重要。

作文

An actuating system is a crucial component in various engineering applications, playing a significant role in the functionality of machines and devices. It is responsible for converting energy into motion, thereby enabling mechanisms to perform their intended tasks. Understanding how an actuating system works is essential for anyone involved in mechanical design, robotics, or automation. To illustrate the importance of an actuating system, consider the example of a robotic arm. The arm consists of multiple joints that need to move in a coordinated manner to perform tasks such as assembly, welding, or painting. Each joint is equipped with an actuating system that can be powered by electric motors, pneumatic systems, or hydraulic systems. These actuators are responsible for controlling the position and speed of the arm's movements, allowing it to mimic human-like dexterity.The efficiency of an actuating system directly impacts the overall performance of the robotic arm. For instance, if the actuators are slow or imprecise, the robot may struggle to complete tasks accurately and quickly. Therefore, engineers must carefully select the type of actuator and its specifications based on the required application. In addition to robotics, actuating systems are found in various industries, including automotive, aerospace, and manufacturing. In automobiles, for example, electric windows and seats rely on actuating systems to provide comfort and convenience to passengers. Similarly, in aerospace, aircraft control surfaces such as flaps and ailerons utilize actuating systems to ensure proper flight dynamics.The development of advanced actuating systems has led to significant improvements in efficiency and functionality. Modern actuators are often equipped with sensors and feedback mechanisms that allow for precise control and monitoring. This integration of technology enables systems to adapt to changing conditions, enhancing their performance and reliability.Moreover, the rise of automation and smart technologies has further emphasized the need for sophisticated actuating systems. In smart factories, for example, automated machinery relies on these systems to operate seamlessly within a networked environment. The ability to communicate and coordinate actions among multiple actuating systems is vital for optimizing production processes and reducing downtime.In conclusion, an actuating system is a fundamental element that drives the movement and operation of various devices and machines across multiple sectors. Its significance cannot be overstated, as it influences the efficiency, precision, and adaptability of systems. As technology continues to evolve, the development of more advanced actuating systems will play a pivotal role in shaping the future of automation and engineering. Understanding the principles behind these systems is essential for professionals in the field, ensuring they can design and implement effective solutions for complex challenges.

一个执行系统是各种工程应用中的关键组成部分，在机器和设备的功能中发挥着重要作用。它负责将能量转化为运动，从而使机制能够执行其预定任务。理解执行系统的工作原理对任何参与机械设计、机器人技术或自动化的人来说都是至关重要的。为了说明执行系统的重要性，可以考虑一个机器人手臂的例子。这个手臂由多个关节组成，需要协调运动以执行组装、焊接或喷漆等任务。每个关节都配备了一个执行系统，可以由电动机、气动系统或液压系统驱动。这些执行器负责控制手臂运动的位置和速度，使其能够模拟人类的灵巧性。执行系统的效率直接影响机器人手臂的整体性能。例如，如果执行器速度慢或不精确，机器人可能会在准确和快速完成任务方面遇到困难。因此，工程师必须根据所需应用仔细选择执行器的类型及其规格。除了机器人技术，执行系统还广泛应用于汽车、航空航天和制造等各个行业。在汽车中，例如，电动窗户和座椅依赖于执行系统为乘客提供舒适和便利。类似地，在航空航天中，飞机的控制面（如襟翼和副翼）利用执行系统确保适当的飞行动态。先进的执行系统的发展显著提高了效率和功能。现代执行器通常配备传感器和反馈机制，允许精确控制和监测。这种技术的集成使系统能够适应变化的条件，从而增强其性能和可靠性。此外，自动化和智能技术的兴起进一步强调了对复杂执行系统的需求。例如，在智能工厂中，自动化机械依赖这些系统在网络环境中无缝运行。多个执行系统之间能够沟通和协调动作的能力对于优化生产过程和减少停机时间至关重要。总之，执行系统是推动各种设备和机器运动和操作的基本元素，广泛应用于多个领域。它的重要性不可低估，因为它影响着系统的效率、精确性和适应性。随着技术的不断发展，更先进的执行系统的发展将在塑造自动化和工程的未来中发挥关键作用。理解这些系统背后的原理对于该领域的专业人士至关重要，确保他们能够设计和实施有效的解决方案，以应对复杂的挑战。