lost motion measurement

简明释义

空动量检验

英英释义

例句

1.In robotics, accurate lost motion measurement 失动量测量 is crucial for improving the precision of movements.

在机器人技术中，准确的失动量测量 lost motion measurement对提高运动精度至关重要。

2.During the maintenance check, the team noted the lost motion measurement 失动量测量 indicated excessive wear on the gears.

在维护检查期间，团队注意到失动量测量 lost motion measurement显示齿轮磨损过度。

3.Understanding the lost motion measurement 失动量测量 helps in diagnosing issues with machine alignment.

理解失动量测量 lost motion measurement有助于诊断机器对准的问题。

4.The technician used specialized tools to assess the lost motion measurement 失动量测量 in the hydraulic system.

技术人员使用专用工具评估液压系统中的失动量测量 lost motion measurement。

5.The engineer conducted a thorough analysis of the lost motion measurement 失动量测量 to ensure the machinery operated efficiently.

工程师对失动量测量 lost motion measurement进行了全面分析，以确保机器高效运行。

作文

In the field of engineering and mechanics, precision is paramount. One of the critical aspects of achieving this precision is understanding the concept of lost motion measurement. This term refers to the quantification of the unnecessary movement that occurs in mechanical systems before the actual work is done. Essentially, it measures the distance or time lost due to slack or play in a mechanism, which can lead to inefficiencies and inaccuracies in performance. By identifying and addressing these lost motions, engineers can enhance the reliability and efficiency of machines.The significance of lost motion measurement becomes evident when we consider its applications in various industries. For instance, in automotive engineering, even a small amount of lost motion in the steering system can result in a delayed response, affecting the vehicle's handling and safety. Similarly, in manufacturing processes, excessive lost motion can lead to increased cycle times and reduced productivity. Therefore, accurately measuring and minimizing lost motion is crucial for optimizing performance and ensuring safety in mechanical systems.To effectively measure lost motion, engineers utilize various techniques and tools. One common method involves using dial indicators or laser measurement systems to assess the play in joints and connections. These instruments provide precise readings of the movement that occurs before the intended action takes place. By analyzing these measurements, engineers can identify areas where adjustments are necessary to reduce lost motion, ultimately leading to improved system performance.Moreover, understanding lost motion measurement is not only important for existing systems but also plays a vital role in the design of new machinery. During the design phase, engineers can incorporate features that minimize lost motion, such as tighter tolerances and advanced materials that reduce wear and tear. This proactive approach helps create more efficient and reliable machines from the outset, saving time and resources in the long run.In conclusion, lost motion measurement is a fundamental concept in the realm of engineering that focuses on the inefficiencies caused by unnecessary movements in mechanical systems. By accurately measuring and addressing lost motion, engineers can significantly enhance the performance, safety, and reliability of machines across various industries. As technology continues to advance, the importance of mastering this concept will only grow, making it essential for engineers to remain vigilant in their efforts to minimize lost motion in their designs and applications.

在工程和机械领域，精确性至关重要。实现这种精确性的一个关键方面是理解“失动测量”的概念。这个术语指的是量化机械系统中在实际工作开始之前发生的不必要运动。基本上，它测量由于机械中的松动或间隙而导致的距离或时间损失，这可能导致性能的低效和不准确。通过识别和解决这些失动，工程师可以提高机器的可靠性和效率。“失动测量”的重要性在我们考虑其在各个行业中的应用时变得显而易见。例如，在汽车工程中，即使是转向系统中的少量失动也会导致响应延迟，从而影响车辆的操控性和安全性。类似地，在制造过程中，过多的失动可能导致周期时间增加和生产力下降。因此，准确测量和最小化失动对于优化性能和确保机械系统的安全至关重要。为了有效测量失动，工程师使用各种技术和工具。一种常见的方法是使用表盘指示器或激光测量系统来评估关节和连接处的间隙。这些仪器提供了在预期动作发生之前发生的运动的精确读数。通过分析这些测量结果，工程师可以识别出需要调整以减少失动的区域，最终导致系统性能的改善。此外，理解“失动测量”不仅对现有系统重要，而且在新机器的设计中也起着至关重要的作用。在设计阶段，工程师可以纳入减少失动的特性，例如更紧的公差和减少磨损的先进材料。这种前瞻性的方法有助于从一开始就创建更高效、更可靠的机器，从而节省时间和资源。总之，“失动测量”是工程领域的一个基本概念，关注机械系统中由不必要运动引起的低效。通过准确测量和解决失动，工程师可以显著提高各个行业机器的性能、安全性和可靠性。随着技术的不断进步，掌握这一概念的重要性只会增加，因此工程师必须在减少设计和应用中的失动方面保持警惕。