moving member

简明释义

运动构件

英英释义

例句

1.The robot's moving member allows it to navigate through tight spaces.

机器人的活动部件使其能够在狭小空间内移动。

2.In this mechanism, the moving member is responsible for transferring energy.

在这个机制中，活动部件负责传递能量。

3.The moving member of the clock is what keeps the time accurate.

时钟的活动部件是保持时间准确的关键。

4.The engineer adjusted the moving member to improve the machine's efficiency.

工程师调整了活动部件以提高机器的效率。

5.Safety features are crucial for any moving member in industrial machines.

安全特性对于任何工业机器中的活动部件至关重要。

作文

In the world of mechanics and engineering, understanding the concept of a moving member is crucial for designing effective machines and systems. A moving member refers to any part of a machine that is capable of motion. This could include components such as gears, levers, pistons, or even entire assemblies that perform a specific function by moving. The functionality and efficiency of a machine often depend on how well these moving members are designed and integrated into the overall system.For instance, consider an automobile engine. The pistons in the engine are moving members that convert fuel into mechanical energy. As the fuel burns, it creates pressure that pushes the pistons down, and this movement is what ultimately drives the car forward. If the pistons were not designed to move smoothly and efficiently, the entire engine would suffer from poor performance, leading to increased fuel consumption and reduced power output.Moreover, the study of moving members also involves understanding the forces acting upon them. Engineers must take into account factors such as friction, inertia, and external loads when designing these components. For example, in a simple lever system, the moving member is the lever itself, which pivots around a fulcrum. The effectiveness of this system is determined by the placement of the fulcrum and the weight of the load being lifted. If the lever is too short or the fulcrum is poorly positioned, the moving member will not be able to lift the load effectively.In robotics, the concept of moving members becomes even more complex. Robots often have multiple moving members that need to work in harmony to perform tasks. Each joint in a robotic arm, for example, is a moving member that allows for a range of motion. The coordination between these joints is essential for the robot to carry out its functions accurately. Advanced algorithms and control systems are employed to ensure that each moving member responds appropriately to commands, allowing the robot to adapt to various situations.Furthermore, the design of moving members can also impact the safety and reliability of a machine. In industries such as manufacturing and aerospace, where precision is paramount, engineers must ensure that all moving members are built to withstand the stresses they will encounter during operation. Regular maintenance and inspection of these components are also necessary to prevent failures that could lead to accidents or costly downtimes.In conclusion, the term moving member encompasses a wide range of components that play vital roles in the functionality of machines and systems. Whether in automotive engineering, robotics, or any other field that relies on mechanical motion, understanding how these moving members operate and interact is key to innovation and efficiency. As technology continues to advance, the design and application of moving members will undoubtedly evolve, paving the way for new possibilities in engineering and beyond.

在机械和工程的世界中，理解“moving member”的概念对于设计有效的机器和系统至关重要。“moving member”指的是任何能够运动的机器部件。这可以包括齿轮、杠杆、活塞，甚至是执行特定功能的整个组件。机器的功能性和效率往往取决于这些“moving members”的设计和整合。例如，考虑汽车发动机。发动机中的活塞是“moving members”，它将燃料转化为机械能。当燃料燃烧时，会产生压力推动活塞向下移动，而这种运动最终驱动汽车前进。如果活塞的设计不够平滑和高效，整个发动机的性能都会受到影响，从而导致燃油消耗增加和功率输出减少。此外，研究“moving members”还涉及理解作用在其上的力。工程师在设计这些组件时必须考虑摩擦、惯性和外部负载等因素。例如，在一个简单的杠杆系统中，“moving member”就是杠杆本身，它围绕支点pivot。这个系统的有效性取决于支点的位置和被提升负载的重量。如果杠杆太短或支点位置不当，“moving member”将无法有效地提升负载。在机器人技术中，“moving members”的概念变得更加复杂。机器人通常有多个“moving members”，需要协调工作以执行任务。例如，机器人手臂中的每个关节都是“moving member”，允许一系列的运动。这些关节之间的协调对于机器人准确执行功能至关重要。先进的算法和控制系统被用来确保每个“moving member”能够适当地响应命令，使机器人能够适应各种情况。此外，“moving members”的设计也会影响机器的安全性和可靠性。在制造和航空航天等行业中，精度至关重要，工程师必须确保所有的“moving members”都能承受在操作过程中遇到的压力。定期维护和检查这些组件也是必要的，以防止可能导致事故或昂贵停机时间的故障。总之，“moving member”一词涵盖了在机器和系统功能中发挥重要作用的一系列组件。无论是在汽车工程、机器人技术还是任何其他依赖机械运动的领域，理解这些“moving members”如何运作和互动是创新和效率的关键。随着技术的不断进步，“moving members”的设计和应用无疑将不断演变，为工程及其他领域的新可能性铺平道路。