alignment correction

简明释义

1. 定线改正; 2. 准线囊正;

英英释义

例句

1.The engineer explained the need for alignment correction in the structural design.

工程师解释了在结构设计中需要进行对齐修正的原因。

2.After the initial setup, we realized that an alignment correction was necessary for the satellite dish.

在初始设置后，我们意识到需要对卫星天线进行对齐修正。

3.The software update included a feature for automatic alignment correction in photos.

软件更新包括一个自动对齐修正照片的功能。

4.During the assembly process, an alignment correction was required to fit the parts together.

在组装过程中，需要进行对齐修正以使零件正确配合。

5.The technician performed an alignment correction to ensure the printer was functioning properly.

技术员进行了对齐修正以确保打印机正常工作。

作文

In today's fast-paced technological world, the importance of precision and accuracy cannot be overstated. One area where this is particularly critical is in engineering and manufacturing, where even the slightest misalignment can lead to significant issues. This is where the concept of alignment correction comes into play. alignment correction (对齐修正) refers to the process of adjusting components or systems to ensure they are properly aligned with each other. This process is essential in various fields, including robotics, automotive engineering, and aerospace. To understand the significance of alignment correction, we must first recognize the consequences of misalignment. For instance, in the manufacturing of machinery, if parts are not aligned correctly, it can lead to increased wear and tear, reduced efficiency, and ultimately, equipment failure. In the automotive industry, misaligned wheels can cause uneven tire wear, poor handling, and decreased fuel efficiency. Therefore, implementing alignment correction is crucial for maintaining the longevity and functionality of products.The methods used for alignment correction can vary depending on the specific application. In some cases, simple manual adjustments may suffice. However, in more complex systems, advanced technologies such as laser alignment tools and computer-aided design (CAD) software are employed. These technologies allow for precise measurements and adjustments, ensuring that all components are perfectly aligned.Moreover, the importance of alignment correction extends beyond just the physical alignment of components. It also plays a vital role in the overall performance and reliability of systems. For example, in aerospace engineering, the alignment of various aircraft components is critical for safe and efficient flight. Any misalignment could lead to catastrophic failures, highlighting the necessity of rigorous alignment correction processes in this field.In addition to safety and performance, alignment correction can also have economic implications. By ensuring that machinery and systems are properly aligned, companies can reduce maintenance costs and downtime, leading to increased productivity and profitability. This is particularly important in industries where competition is fierce, and operational efficiency is paramount.Furthermore, the advent of Industry 4.0 and the integration of smart technologies into manufacturing processes have revolutionized how alignment correction is approached. With the use of sensors and data analytics, companies can now monitor alignment in real-time, allowing for immediate corrective actions when misalignments occur. This proactive approach not only enhances efficiency but also minimizes the risk of costly failures.In conclusion, alignment correction (对齐修正) is a fundamental aspect of engineering and manufacturing that cannot be ignored. Its significance lies in its ability to ensure the proper functioning of systems, enhance safety, and improve economic outcomes. As technology continues to advance, the methods and tools used for alignment correction will undoubtedly evolve, further emphasizing its importance in our increasingly complex world. Companies that prioritize alignment correction will not only enhance their operational efficiency but also secure their position in the competitive landscape of their respective industries.

在当今快速发展的技术世界中，精确性和准确性的重要性不容忽视。在工程和制造领域，这一点尤为重要，因为即使是最轻微的错位也可能导致重大问题。这就是对齐修正的概念发挥作用的地方。对齐修正指的是调整组件或系统以确保它们彼此正确对齐的过程。这个过程在机器人技术、汽车工程和航空航天等多个领域至关重要。要理解对齐修正的重要性，我们必须首先认识到错位的后果。例如，在机械制造中，如果零件没有正确对齐，可能会导致磨损加剧、效率降低，最终导致设备故障。在汽车工业中，错位的轮胎可能导致不均匀的轮胎磨损、操控不良和燃油效率下降。因此，实施对齐修正对于维护产品的耐用性和功能性至关重要。用于对齐修正的方法可能因具体应用而异。在某些情况下，简单的手动调整可能就足够了。然而，在更复杂的系统中，通常会采用激光对准工具和计算机辅助设计（CAD）软件等先进技术。这些技术允许进行精确的测量和调整，确保所有组件完美对齐。此外，对齐修正的重要性不仅仅体现在组件的物理对齐上。它在系统的整体性能和可靠性中也发挥着至关重要的作用。例如，在航空航天工程中，各种飞机组件的对齐对于安全和高效的飞行至关重要。任何错位都可能导致灾难性的故障，突显了这一领域严格的对齐修正过程的必要性。除了安全和性能，对齐修正还可能具有经济影响。通过确保机械和系统的正确对齐，公司可以降低维护成本和停机时间，从而提高生产率和盈利能力。这在竞争激烈、运营效率至关重要的行业中尤其重要。此外，工业4.0的出现以及智能技术在制造过程中的整合彻底改变了对齐修正的处理方式。借助传感器和数据分析，公司现在可以实时监控对齐情况，允许在发生错位时立即采取纠正措施。这种主动的方法不仅提高了效率，还将昂贵故障的风险降至最低。总之，对齐修正是工程和制造中的一个基本方面，不能被忽视。它的重要性在于能够确保系统的正常运行、增强安全性和改善经济结果。随着技术的不断进步，用于对齐修正的方法和工具无疑会不断演变，进一步强调其在我们日益复杂的世界中的重要性。优先考虑对齐修正的公司，不仅会提高运营效率，还会在各自行业的竞争格局中巩固自己的地位。