air gage
简明释义
气压计;
英英释义
例句
1.To ensure proper airflow, we checked the air gage in the ventilation system.
为了确保空气流通,我们检查了通风系统中的气压计。
2.An air gage is essential for diagnosing issues in pneumatic systems.
在气动系统中,气压计对于诊断问题至关重要。
3.The technician used an air gage to measure the tire pressure accurately.
技术员使用气压计准确测量轮胎压力。
4.We found a discrepancy in the readings of the air gage during our inspection.
在检查过程中,我们发现气压计的读数存在差异。
5.The engineer calibrated the air gage before conducting the experiment.
工程师在进行实验之前校准了气压计。
作文
The concept of an air gage is essential in various engineering and manufacturing processes. An air gage is a precision measuring instrument that uses air pressure to determine the dimensions of an object. It is particularly useful for measuring internal diameters, depths, and other features where traditional mechanical gauges may not be effective. The operation of an air gage relies on the principle of airflow and pressure differentials, making it a unique tool in the field of metrology.In manufacturing environments, the accuracy of measurements can significantly impact product quality. This is where the air gage shines. For instance, when measuring the inner diameter of a cylindrical part, a conventional caliper might struggle to provide the necessary precision due to the limitations of physical contact. However, an air gage utilizes a jet of air that creates a pressure change as it interacts with the surface of the part being measured. The amount of air that escapes from the gage correlates directly to the size of the opening, allowing for highly accurate readings.One of the advantages of using an air gage is its non-contact measurement capability. This feature is particularly beneficial when dealing with delicate components that could be damaged by physical contact. Additionally, because the air gage does not touch the part, it eliminates the potential for wear and tear on both the measuring instrument and the workpiece. This prolongs the lifespan of the tools and ensures consistent measurement accuracy over time.Moreover, air gages are often designed to be very easy to use. Operators can quickly learn how to interpret the readings, which can lead to increased efficiency on the production floor. Many models also feature digital displays that provide real-time feedback, making it easier for workers to monitor quality control processes.In terms of applications, air gages are widely used in industries such as automotive, aerospace, and electronics. For example, in the automotive industry, ensuring that parts fit together perfectly is crucial for safety and performance. Engineers rely on air gages to measure critical tolerances in engine components, ensuring they meet stringent specifications.Another area where air gages are invaluable is in the assembly of electronic devices. As components become smaller and more intricate, the need for precise measurements increases. Using an air gage allows manufacturers to maintain high standards of quality assurance, reducing the risk of defects that could lead to product failures.In conclusion, the air gage is a vital instrument in the realm of precision measurement. Its ability to provide accurate, non-contact measurements makes it an indispensable tool in various industries. By understanding how to effectively utilize an air gage, manufacturers can enhance their quality control processes and ultimately improve the reliability of their products. As technology continues to advance, the role of air gages will likely expand, further solidifying their importance in modern manufacturing and engineering practices.
“空气量规”的概念在各种工程和制造过程中至关重要。“空气量规”是一种精密测量仪器,利用空气压力来确定物体的尺寸。它特别适用于测量内部直径、深度以及其他传统机械量规可能无效的特征。“空气量规”的操作依赖于气流和压力差的原理,使其成为计量学领域独特的工具。在制造环境中,测量的准确性对产品质量有显著影响。这正是“空气量规”大显身手的地方。例如,在测量圆柱部件的内径时,传统的卡尺可能由于物理接触的限制而难以提供必要的精度。然而,“空气量规”利用一股空气喷射,与被测部件的表面相互作用时产生压力变化。逃逸的空气量与开口的大小直接相关,从而允许高度准确的读数。使用“空气量规”的一个优点是其非接触式测量能力。这个特性在处理可能因物理接触而受损的精密组件时尤为有利。此外,由于“空气量规”不接触部件,它消除了对测量仪器和工件磨损的潜在风险。这延长了工具的使用寿命,并确保了随着时间推移测量精度的一致性。此外,“空气量规”通常设计得非常易于使用。操作员可以快速学习如何解读读数,这可以提高生产车间的效率。许多型号还配备数字显示屏,提供实时反馈,使工人能够更容易地监控质量控制过程。在应用方面,“空气量规”广泛用于汽车、航空航天和电子等行业。例如,在汽车行业,确保部件完美契合对安全性和性能至关重要。工程师依赖“空气量规”来测量发动机部件的关键公差,确保其符合严格的规格。“空气量规”在电子设备组装中的另一个重要领域。当组件变得越来越小且复杂时,对精确测量的需求也随之增加。使用“空气量规”使制造商能够保持高标准的质量保证,减少可能导致产品故障的缺陷风险。总之,“空气量规”是精密测量领域的重要仪器。其提供准确的非接触测量的能力使其成为各行业不可或缺的工具。通过理解如何有效利用“空气量规”,制造商可以增强其质量控制流程,最终提高其产品的可靠性。随着技术的不断进步,“空气量规”的作用可能会进一步扩大,进一步巩固其在现代制造和工程实践中的重要性。
