parallel misalignment

简明释义

平行度偏差

英英释义

例句

1.The engineers discovered a parallel misalignment 平行失调 in the machinery that caused excessive wear on the components.

工程师们发现机械中存在一个平行失调 parallel misalignment，这导致了部件的过度磨损。

2.To ensure optimal performance, we need to address the parallel misalignment 平行失调 of the conveyor belts.

为了确保最佳性能，我们需要解决传送带的平行失调 parallel misalignment。

3.The technician adjusted the settings to correct the parallel misalignment 平行失调 in the laser cutting machine.

技术员调整设置，以纠正激光切割机中的平行失调 parallel misalignment。

4.A slight parallel misalignment 平行失调 in the axles can lead to significant handling issues in vehicles.

车轴的轻微平行失调 parallel misalignment可能会导致车辆严重的操控问题。

5.During the inspection, the team noted a parallel misalignment 平行失调 in the assembly line that needed immediate attention.

在检查过程中，团队注意到装配线中存在一个需要立即处理的平行失调 parallel misalignment。

作文

In the realm of engineering and design, precision is paramount. However, there are instances when components do not align as expected, leading to what is known as parallel misalignment. This phenomenon occurs when two or more parts of a system are intended to operate in tandem but end up being misaligned in a parallel manner. Such misalignment can cause significant issues, ranging from increased wear and tear on machinery to complete operational failures. Understanding the implications of parallel misalignment is essential for engineers and designers alike.To illustrate this concept, consider a simple example of a conveyor belt system. In an ideal scenario, the rollers of the conveyor should be perfectly aligned, allowing for smooth operation and efficient transport of goods. However, if one of the rollers is slightly off, creating a parallel misalignment, the belt may start to veer off course. This misalignment can lead to friction, causing the belt to wear out more quickly and possibly damaging the products being transported.The consequences of parallel misalignment extend beyond just mechanical wear. It can also affect the overall efficiency of a system. For instance, in manufacturing processes, even a small deviation can result in delays and increased costs. Workers may need to spend extra time adjusting machinery or fixing problems caused by misalignment, thus reducing productivity. Therefore, addressing parallel misalignment proactively is crucial for maintaining operational efficiency.Moreover, the detection of parallel misalignment can be challenging. Many systems rely on sensors and monitoring tools to identify misalignments, but these tools may not always catch subtle deviations. Regular maintenance checks and alignment assessments are necessary to ensure that components remain in proper alignment. Engineers often employ various techniques, such as laser alignment tools, to achieve the desired precision and prevent parallel misalignment from occurring.In conclusion, parallel misalignment is a critical issue that can have far-reaching effects on the performance and longevity of mechanical systems. By understanding its implications and taking steps to prevent it, engineers can enhance the reliability and efficiency of their designs. As technology continues to evolve, the importance of precise alignment will only grow, making the study and management of parallel misalignment an essential aspect of modern engineering practices.

在工程和设计领域，精确性至关重要。然而，有时组件并不会如预期那样对齐，导致所谓的平行失调现象。这种现象发生在系统的两个或多个部分本应协同工作，但最终以平行的方式失去对齐。这样的失调可能会造成重大问题，从机械的磨损加剧到完全的操作失败。理解平行失调的影响对于工程师和设计师来说都是至关重要的。为了说明这一概念，考虑一个简单的输送带系统。在理想情况下，输送带的滚筒应该完美对齐，以便顺畅运行和高效运输货物。然而，如果其中一个滚筒稍微偏离，造成平行失调，输送带可能会开始偏离轨道。这种失调可能导致摩擦，使输送带更快磨损，并可能损坏正在运输的产品。平行失调的后果不仅限于机械磨损。它还可能影响系统的整体效率。例如，在制造过程中，即使是微小的偏差也可能导致延误和成本增加。工人可能需要花费额外的时间来调整机械或修复因失调而导致的问题，从而降低生产力。因此，主动解决平行失调问题对于维护操作效率至关重要。此外，检测平行失调可能具有挑战性。许多系统依赖传感器和监测工具来识别失调，但这些工具可能并不总是能够捕捉到微妙的偏差。定期的维护检查和对齐评估是确保组件保持适当对齐所必需的。工程师通常采用各种技术，如激光对齐工具，以实现所需的精度并防止发生平行失调。总之，平行失调是一个关键问题，可能对机械系统的性能和寿命产生深远影响。通过理解其影响并采取措施加以预防，工程师可以提高设计的可靠性和效率。随着技术的不断发展，精确对齐的重要性将愈加突出，使得研究和管理平行失调成为现代工程实践中的重要方面。