moving component

简明释义

运动部件;

英英释义

例句

1.The clock has several 移动部件 that work together to keep accurate time.

这只钟表有几个移动部件共同工作以保持准确时间。

2.Every 移动部件 in an aircraft must be meticulously maintained to ensure safety.

飞机上的每个移动部件都必须经过精心维护以确保安全。

3.In robotics, the 移动部件 allows for flexibility and adaptability in tasks.

在机器人技术中，移动部件允许在任务中实现灵活性和适应性。

4.The car's engine is a critical 移动部件 that powers the vehicle.

汽车的引擎是一个关键的移动部件，为车辆提供动力。

5.The fan consists of several 移动部件 that help circulate air efficiently.

风扇由几个移动部件组成，有助于有效地循环空气。

作文

In the world of engineering and mechanics, the term moving component refers to any part of a machine or system that is capable of motion. These components are essential for the functionality of many devices, from simple toys to complex machinery in industrial settings. Understanding how these moving components work and interact with each other is crucial for engineers and designers alike.For instance, consider a car engine. It consists of numerous moving components, such as pistons, crankshafts, and camshafts. Each of these parts plays a vital role in converting fuel into mechanical energy. The pistons move up and down within the cylinders, creating pressure that drives the crankshaft. This motion is then translated into rotational energy that ultimately powers the wheels of the car. Without these moving components, the engine would be unable to function.Moreover, the efficiency and performance of a machine often depend on the design and quality of its moving components. Engineers must ensure that these parts are not only durable but also lightweight and capable of moving smoothly. For example, in the aerospace industry, the moving components of an aircraft must endure extreme conditions while maintaining optimal performance. This requires advanced materials and precise engineering to minimize friction and wear.In addition to their mechanical significance, moving components also play a crucial role in the development of robotics and automation. Robots rely on various moving components such as servos, motors, and actuators to perform tasks ranging from assembly line work to surgical procedures. The coordination of these parts is what allows robots to move with precision and accuracy.Furthermore, the concept of moving components extends beyond the realm of physical machines. In software and systems design, we can think of moving components as the dynamic elements that interact within a program or application. For instance, in a video game, the characters and objects that players control can be seen as moving components that contribute to the overall experience.The study of moving components is not limited to just one field; it spans across disciplines such as physics, biology, and even economics. For example, in biology, the movement of muscles and joints can be considered as moving components that enable organisms to navigate their environments. Similarly, in economics, the flow of goods and services can be viewed as moving components within a market system that drive economic activity.In conclusion, moving components are integral to both mechanical and abstract systems. Their ability to facilitate motion and interaction is what allows machines to function and systems to operate efficiently. Whether in engineering, robotics, or even economics, understanding the role of moving components helps us appreciate the complexity and interconnectivity of the world around us. As technology continues to advance, the study and optimization of these moving components will remain a critical area of focus for innovators and researchers alike.

在工程和机械的世界中，术语moving component指的是机器或系统中任何能够运动的部分。这些组件对于许多设备的功能至关重要，从简单的玩具到工业环境中的复杂机器。理解这些moving components如何工作以及它们之间如何相互作用，对于工程师和设计师来说都是至关重要的。例如，考虑一下汽车发动机。它由许多moving components组成，如活塞、曲轴和凸轮轴。每个部分在将燃料转化为机械能方面都发挥着重要作用。活塞在气缸内上下移动，产生压力，以驱动曲轴。这种运动随后转化为旋转能量，最终为汽车的车轮提供动力。如果没有这些moving components，发动机将无法正常工作。此外，机器的效率和性能往往取决于其moving components的设计和质量。工程师必须确保这些部件不仅耐用，而且轻便，能够平稳移动。例如，在航空航天工业中，飞机的moving components必须承受极端条件，同时保持最佳性能。这需要先进的材料和精确的工程设计，以最小化摩擦和磨损。除了机械的重要性外，moving components在机器人技术和自动化的发展中也扮演着关键角色。机器人依赖于各种moving components，如伺服电机、电机和执行器，来执行从装配线工作到外科手术的任务。这些部件的协调使得机器人能够精确而准确地移动。此外，moving components的概念不仅限于物理机器。在软件和系统设计中，我们可以将moving components视为程序或应用程序中动态交互的元素。例如，在视频游戏中，玩家控制的角色和物体可以被视为moving components，它们为整体体验做出贡献。对moving components的研究并不限于一个领域；它跨越物理学、生物学甚至经济学等学科。例如，在生物学中，肌肉和关节的运动可以被视为使生物体能够在环境中导航的moving components。同样，在经济学中，商品和服务的流动可以被视为推动经济活动的市场系统中的moving components。总之，moving components是机械和抽象系统不可或缺的一部分。它们促进运动和交互的能力使机器能够运行，系统能够高效运作。无论是在工程、机器人技术还是经济学中，理解moving components的角色有助于我们欣赏周围世界的复杂性和相互联系。随着技术的不断进步，研究和优化这些moving components将继续成为创新者和研究人员关注的关键领域。