automatic tacheometer

简明释义

自动视距仪

英英释义

例句

1.The engineer explained how to calibrate the automatic tacheometer before starting the survey.

工程师解释了在开始测量之前如何校准自动测距仪。

2.An automatic tacheometer is essential for modern construction projects to ensure precise measurements.

在现代建筑项目中，自动测距仪是确保精确测量的必需工具。

3.Using an automatic tacheometer significantly reduces human error in surveying tasks.

使用自动测距仪显著减少了测量任务中的人为错误。

4.The surveyor used an automatic tacheometer to measure the distance between the two points accurately.

测量员使用自动测距仪准确测量两点之间的距离。

5.With the help of the automatic tacheometer, we completed the topographic mapping in half the time.

借助于自动测距仪，我们在半个时间内完成了地形测绘。

作文

The field of surveying has evolved significantly over the years, integrating advanced technology to improve accuracy and efficiency. One of the most remarkable inventions in this domain is the automatic tacheometer, a sophisticated instrument that has revolutionized how land measurements are taken. The automatic tacheometer is an optical device used for measuring distances and angles, providing surveyors with precise data essential for various applications, including construction, mapping, and land development.The primary function of the automatic tacheometer is to determine horizontal and vertical angles as well as distances from the instrument to a specific point on the ground. Unlike traditional theodolites, which require manual adjustments and readings, the automatic tacheometer automates many of these processes. This automation not only speeds up the surveying process but also minimizes human error, ensuring more reliable data collection.One of the key features of the automatic tacheometer is its electronic distance measurement (EDM) capability. This technology uses laser or infrared signals to calculate distances with remarkable precision. The surveyor simply aims the instrument at the target point, and the automatic tacheometer instantly provides accurate distance readings. This feature is particularly beneficial in large-scale projects where traditional measuring methods would be time-consuming and labor-intensive.In addition to distance measurement, the automatic tacheometer also incorporates advanced software that allows for real-time data processing. Surveyors can view and analyze measurements immediately, making it easier to make adjustments and decisions on-site. This capability enhances productivity, as teams can work more efficiently and effectively without the need for extensive data analysis after the fact.The versatility of the automatic tacheometer makes it suitable for a wide range of applications. In civil engineering, for instance, it plays a crucial role in site surveys, helping engineers design structures that are both safe and functional. In geology and environmental studies, the automatic tacheometer assists researchers in mapping terrain and assessing natural resources. Furthermore, urban planners utilize this instrument to develop accurate maps that inform city planning and infrastructure development.Despite its many advantages, the use of the automatic tacheometer does require a certain level of expertise. Surveyors must be trained to operate the instrument effectively and interpret the data it provides. Additionally, while the automatic tacheometer significantly reduces the likelihood of human error, it is still essential for surveyors to conduct thorough checks and validations to ensure the accuracy of their work.In conclusion, the automatic tacheometer represents a significant advancement in the field of surveying. Its ability to automate measurements, process data in real-time, and provide precise readings has transformed how surveyors approach their work. As technology continues to advance, we can expect even more innovations in surveying instruments, further enhancing the capabilities of professionals in this vital field. The automatic tacheometer stands as a testament to how technology can improve traditional practices, making surveying faster, more accurate, and more efficient than ever before.

测量领域多年来经历了显著的演变，整合了先进技术以提高准确性和效率。在这个领域中，最引人注目的发明之一是自动测距仪，这是一种复杂的仪器，彻底改变了土地测量的方式。自动测距仪是一种用于测量距离和角度的光学设备，为测量师提供了精确的数据，这些数据在建筑、制图和土地开发等各种应用中至关重要。自动测距仪的主要功能是确定水平和垂直角度以及从仪器到地面特定点的距离。与需要手动调整和读取的传统经纬仪不同，自动测距仪自动化了许多这些过程。这种自动化不仅加快了测量过程，还最小化了人为错误，确保了更可靠的数据收集。自动测距仪的一个关键特点是其电子距离测量（EDM）能力。这项技术使用激光或红外信号以惊人的精度计算距离。测量师只需将仪器瞄准目标点，自动测距仪便会立即提供准确的距离读数。这一特性在大规模项目中尤为有益，因为传统的测量方法耗时且劳动强度大。除了距离测量，自动测距仪还结合了先进的软件，允许实时数据处理。测量师可以立即查看和分析测量结果，使得现场进行调整和决策变得更加容易。这一能力提高了生产力，因为团队可以在不需要大量后期数据分析的情况下，更高效、更有效地工作。自动测距仪的多功能性使其适用于广泛的应用。在土木工程中，例如，它在现场调查中发挥着至关重要的作用，帮助工程师设计既安全又实用的结构。在地质学和环境研究中，自动测距仪协助研究人员绘制地形图并评估自然资源。此外，城市规划者利用这一仪器开发准确的地图，以指导城市规划和基础设施建设。尽管有许多优点，但使用自动测距仪确实需要一定程度的专业知识。测量师必须接受培训，以有效操作仪器并解释其提供的数据。此外，虽然自动测距仪显著减少了人为错误的可能性，但测量师仍然需要进行彻底的检查和验证，以确保工作的准确性。总之，自动测距仪代表了测量领域的一项重大进步。它自动化测量、实时处理数据和提供精确读数的能力，彻底改变了测量师的工作方式。随着技术的不断进步，我们可以期待测量仪器的更多创新，进一步增强这一重要领域专业人员的能力。自动测距仪证明了技术如何改善传统实践，使测量比以往任何时候都更快、更准确、更高效。