azimuth angle setting hole

简明释义

方位角设定孔

英英释义

例句

1.To achieve precise tracking, the telescope must be calibrated at the azimuth angle setting hole.

为了实现精确跟踪，望远镜必须在方位角设定孔处进行校准。

2.The technician adjusted the satellite dish using the azimuth angle setting hole to ensure optimal signal reception.

技术员使用方位角设定孔调整卫星天线，以确保最佳信号接收。

3.The engineer marked the azimuth angle setting hole on the blueprint to guide the installation process.

工程师在蓝图上标记了方位角设定孔，以指导安装过程。

4.Before launching the drone, verify that the azimuth angle setting hole is properly aligned.

在发射无人机之前，确认方位角设定孔是否正确对齐。

5.When installing the GPS antenna, make sure to align it with the azimuth angle setting hole for accurate positioning.

安装GPS天线时，确保将其与方位角设定孔对齐，以获得准确的位置。

作文

In the field of engineering and navigation, precise measurements are crucial for ensuring accuracy and functionality. One such measurement is the azimuth angle, which refers to the angle between a reference direction (usually true north) and the line of sight to a specific point of interest. To facilitate this measurement, engineers often utilize an important component known as the azimuth angle setting hole. This feature plays a vital role in aligning instruments correctly to achieve the desired orientation. The azimuth angle setting hole serves as a physical point of reference that allows operators to set the azimuth angle accurately. It is typically designed into the structure of various devices, including telescopes, antennas, and surveying equipment. By providing a fixed location for alignment, the azimuth angle setting hole ensures that the instrument can be adjusted to the correct angle without any ambiguity. For instance, in the case of satellite dishes, the azimuth angle setting hole is essential for positioning the dish towards the satellite. If the dish is not aligned properly, it may fail to receive signals effectively, leading to poor communication quality. The ability to set the azimuth angle accurately through the azimuth angle setting hole is therefore critical in maintaining optimal performance. Moreover, the significance of the azimuth angle setting hole extends beyond just telecommunications. In the field of geology, researchers use similar setups to monitor seismic activity. By placing sensors at specific azimuth angles, they can detect and analyze seismic waves more effectively. The azimuth angle setting hole thus becomes a key element in ensuring that these sensors are positioned correctly to capture accurate data. In construction and architecture, the azimuth angle setting hole is also employed to ensure that buildings and structures are oriented properly concerning their surroundings. For example, when constructing a solar panel array, engineers must consider the azimuth angle to maximize sunlight exposure. The azimuth angle setting hole aids in achieving the correct alignment, ultimately enhancing energy efficiency. In conclusion, the azimuth angle setting hole is a fundamental aspect of many engineering applications. Its role in facilitating accurate azimuth angle measurements cannot be overstated. Whether in telecommunications, geology, or construction, the ability to set and adjust the azimuth angle through this specific feature greatly contributes to the effectiveness and reliability of various systems. Understanding the importance of the azimuth angle setting hole allows professionals across different fields to enhance their work and achieve better results. As technology continues to advance, the design and implementation of such features will likely evolve, further improving the precision and efficiency of engineering practices.

在工程和导航领域，精确的测量对于确保准确性和功能至关重要。其中一个重要的测量是方位角，它指的是参考方向（通常是真北）与视线到特定兴趣点之间的角度。为了促进这种测量，工程师们常常利用一个重要的组件，称为方位角设置孔。这个特征在正确对齐仪器以实现所需方向方面发挥着重要作用。方位角设置孔作为一个物理参考点，允许操作人员准确地设置方位角。它通常设计在各种设备的结构中，包括望远镜、天线和测量设备。通过提供一个固定的对齐位置，方位角设置孔确保仪器可以在没有任何歧义的情况下调整到正确的角度。 例如，在卫星天线的案例中，方位角设置孔对于将天线定位于卫星方向至关重要。如果天线未正确对齐，它可能无法有效接收信号，从而导致通信质量差。因此，通过方位角设置孔准确设置方位角的能力对于保持最佳性能至关重要。此外，方位角设置孔的重要性不仅限于电信。在地质学领域，研究人员使用类似的设置来监测地震活动。通过在特定方位角放置传感器，他们可以更有效地检测和分析地震波。因此，方位角设置孔成为确保这些传感器正确定位以捕获准确数据的关键元素。在建筑和建筑学中，方位角设置孔也被用来确保建筑物和结构相对于其周围环境的正确朝向。例如，在建造太阳能电池板阵列时，工程师必须考虑方位角以最大化阳光照射。方位角设置孔有助于实现正确的对齐，从而提高能源效率。总之，方位角设置孔是许多工程应用的基本方面。它在促进准确的方位角测量中的作用不容小觑。无论是在电信、地质学还是建筑中，通过这个特定特征设置和调整方位角的能力极大地有助于各种系统的有效性和可靠性。理解方位角设置孔的重要性使各个领域的专业人士能够提升他们的工作并取得更好的结果。随着技术的不断进步，这种特征的设计和实施可能会不断演化，进一步提高工程实践的精确度和效率。